llvm-project/clang-tools-extra/test/clang-tidy/abseil-redundant-strcat-cal...

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// RUN: %check_clang_tidy %s abseil-redundant-strcat-calls %t
int strlen(const char *);
// Here we mimic the hierarchy of ::string.
// We need to do so because we are matching on the fully qualified name of the
// methods.
struct __sso_string_base {};
namespace __gnu_cxx {
template <typename A, typename B, typename C, typename D = __sso_string_base>
class __versa_string {
public:
const char *c_str() const;
const char *data() const;
int size() const;
int capacity() const;
int length() const;
bool empty() const;
char &operator[](int);
void clear();
void resize(int);
int compare(const __versa_string &) const;
};
} // namespace __gnu_cxx
namespace std {
template <typename T>
class char_traits {};
template <typename T>
class allocator {};
} // namespace std
template <typename A, typename B = std::char_traits<A>,
typename C = std::allocator<A>>
class basic_string : public __gnu_cxx::__versa_string<A, B, C> {
public:
basic_string();
basic_string(const basic_string &);
basic_string(const char *, C = C());
basic_string(const char *, int, C = C());
basic_string(const basic_string &, int, int, C = C());
~basic_string();
basic_string &operator+=(const basic_string &);
};
template <typename A, typename B, typename C>
basic_string<A, B, C> operator+(const basic_string<A, B, C> &,
const basic_string<A, B, C> &);
template <typename A, typename B, typename C>
basic_string<A, B, C> operator+(const basic_string<A, B, C> &, const char *);
typedef basic_string<char> string;
bool operator==(const string &, const string &);
bool operator==(const string &, const char *);
bool operator==(const char *, const string &);
bool operator!=(const string &, const string &);
bool operator<(const string &, const string &);
bool operator>(const string &, const string &);
bool operator<=(const string &, const string &);
bool operator>=(const string &, const string &);
namespace std {
template <typename _CharT, typename _Traits = char_traits<_CharT>,
typename _Alloc = allocator<_CharT>>
class basic_string;
template <typename _CharT, typename _Traits, typename _Alloc>
class basic_string {
public:
basic_string();
basic_string(const basic_string &);
basic_string(const char *, const _Alloc & = _Alloc());
basic_string(const char *, int, const _Alloc & = _Alloc());
basic_string(const basic_string &, int, int, const _Alloc & = _Alloc());
~basic_string();
basic_string &operator+=(const basic_string &);
unsigned size() const;
unsigned length() const;
bool empty() const;
};
typedef basic_string<char> string;
} // namespace std
namespace absl {
class string_view {
public:
typedef std::char_traits<char> traits_type;
string_view();
string_view(const char *);
string_view(const string &);
string_view(const char *, int);
string_view(string_view, int);
template <typename A>
explicit operator ::basic_string<char, traits_type, A>() const;
const char *data() const;
int size() const;
int length() const;
};
bool operator==(string_view A, string_view B);
struct AlphaNum {
AlphaNum(int i);
AlphaNum(double f);
AlphaNum(const char *c_str);
AlphaNum(const string &str);
AlphaNum(const string_view &pc);
private:
AlphaNum(const AlphaNum &);
AlphaNum &operator=(const AlphaNum &);
};
string StrCat(const AlphaNum &A);
string StrCat(const AlphaNum &A, const AlphaNum &B);
string StrCat(const AlphaNum &A, const AlphaNum &B, const AlphaNum &C);
string StrCat(const AlphaNum &A, const AlphaNum &B, const AlphaNum &C,
const AlphaNum &D);
// Support 5 or more arguments
template <typename... AV>
string StrCat(const AlphaNum &A, const AlphaNum &B, const AlphaNum &C,
const AlphaNum &D, const AlphaNum &E, const AV &... args);
void StrAppend(string *Dest, const AlphaNum &A);
void StrAppend(string *Dest, const AlphaNum &A, const AlphaNum &B);
void StrAppend(string *Dest, const AlphaNum &A, const AlphaNum &B,
const AlphaNum &C);
void StrAppend(string *Dest, const AlphaNum &A, const AlphaNum &B,
const AlphaNum &C, const AlphaNum &D);
// Support 5 or more arguments
template <typename... AV>
void StrAppend(string *Dest, const AlphaNum &A, const AlphaNum &B,
const AlphaNum &C, const AlphaNum &D, const AlphaNum &E,
const AV &... args);
} // namespace absl
using absl::AlphaNum;
using absl::StrAppend;
using absl::StrCat;
void Positives() {
string S = StrCat(1, StrCat("A", StrCat(1.1)));
// CHECK-MESSAGES: [[@LINE-1]]:14: warning: multiple calls to 'absl::StrCat' can be flattened into a single call
S = StrCat(StrCat(StrCat(StrCat(StrCat(1)))));
// CHECK-MESSAGES: [[@LINE-1]]:7: warning: multiple calls to 'absl::StrCat' can be flattened into a single call
// TODO: should trigger. The issue here is that in the current
// implementation we ignore any StrCat with StrCat ancestors. Therefore
// inserting anything in between calls will disable triggering the deepest
// ones.
// s = StrCat(Identity(StrCat(StrCat(1, 2), StrCat(3, 4))));
StrAppend(&S, 001, StrCat(1, 2, "3"), StrCat("FOO"));
// CHECK-MESSAGES: [[@LINE-1]]:3: warning: multiple calls to 'absl::StrCat' can be flattened into a single call
StrAppend(&S, 001, StrCat(StrCat(1, 2), "3"), StrCat("FOO"));
// CHECK-MESSAGES: [[@LINE-1]]:3: warning: multiple calls to 'absl::StrCat' can be flattened into a single call
// Too many args. Ignore for now.
S = StrCat(1, 2, StrCat(3, 4, 5, 6, 7), 8, 9, 10,
StrCat(11, 12, 13, 14, 15, 16, 17, 18), 19, 20, 21, 22, 23, 24, 25,
26, 27);
// CHECK-MESSAGES: :[[@LINE-3]]:7: warning: multiple calls to 'absl::StrCat' can be flattened into a single call
StrAppend(&S, StrCat(1, 2, 3, 4, 5), StrCat(6, 7, 8, 9, 10));
// CHECK-MESSAGES: :[[@LINE-1]]:3: warning: multiple calls to 'absl::StrCat' can be flattened into a single call
}
void Negatives() {
// One arg. It is used for conversion. Ignore.
string S = StrCat(1);
#define A_MACRO(x, y, z) StrCat(x, y, z)
S = A_MACRO(1, 2, StrCat("A", "B"));
}