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/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4; fill-column: 100 -*- */
/*
* This file is part of the LibreOffice project.
*
* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/.
*/
#include <sal/config.h>
#include <cstddef>
#include <sal/types.h>
#include "redundantcast.hxx"
void f1(char *) {}
void f2(char const *) {}
struct D: S {};
enum Enum1 { X };
void testConstCast() {
char * p1;
char const * p2;
p1 = nullptr;
p2 = "";
f1(const_cast<char *>(p1)); // expected-error {{redundant const_cast from 'char *' lvalue to 'char *' prvalue [loplugin:redundantcast]}}
f1(const_cast<char * const>(p1)); // expected-error {{redundant const_cast from 'char *' lvalue to 'char *const' prvalue [loplugin:redundantcast]}}
f1(const_cast<char *>(p2));
f1(const_cast<char * const>(p2));
f2(const_cast<char *>(p1)); // expected-error {{redundant const_cast from 'char *' lvalue to 'char *' prvalue [loplugin:redundantcast]}}
f2(const_cast<char * const>(p1)); // expected-error {{redundant const_cast from 'char *' lvalue to 'char *const' prvalue [loplugin:redundantcast]}}
f2(const_cast<char const *>(p1));
f2(const_cast<char const * const>(p1));
f2(const_cast<char *>(p2)); // expected-error {{redundant const_cast from 'const char *' to 'char *', result is implicitly cast to 'const char *' [loplugin:redundantcast]}}
f2(const_cast<char * const>(p2)); // expected-error {{redundant const_cast from 'const char *' to 'char *', result is implicitly cast to 'const char *' [loplugin:redundantcast]}}
f2(const_cast<char const *>(p2)); // expected-error {{redundant const_cast from 'const char *' lvalue to 'const char *' prvalue [loplugin:redundantcast]}}
f2(const_cast<char const * const>(p2)); // expected-error {{redundant const_cast from 'const char *' lvalue to 'const char *const' prvalue [loplugin:redundantcast]}}
void * vp = nullptr;
(void) const_cast<char *>(static_cast<char const *>(vp)); // expected-error {{redundant static_cast/const_cast combination from 'void *' via 'const char *' to 'char *' [loplugin:redundantcast]}}
(void) const_cast<char *>(static_cast<char const *>(nullptr)); // expected-error-re {{redundant static_cast/const_cast combination from '{{(std::)?}}nullptr_t' via 'const char *' to 'char *' [loplugin:redundantcast]}}
(void) const_cast<S &>(static_cast<S const &>(D{})); // expected-error {{redundant static_cast/const_cast combination from 'D' via 'const S &' to 'S &' [loplugin:redundantcast]}}
S const s{};
const_cast<S &>(s).f1();
const_cast<S &>(s).f2(); // expected-error {{redundant const_cast from 'const S' to 'S', result is implicitly cast to 'const S' [loplugin:redundantcast]}}
const_cast<S &>(s).f3();
s.f3();
// non-class lvalue, non-const:
int ni{};
// (void) const_cast<int>(ni);
(void) const_cast<int &>(ni); // expected-error {{redundant const_cast from 'int' lvalue to 'int &' lvalue [loplugin:redundantcast]}}
(void) const_cast<int &&>(ni);
// (void) const_cast<int const>(ni);
(void) const_cast<int const &>(ni);
(void) const_cast<int const &&>(ni);
// non-class lvalue, const:
int const ci{};
// (void) const_cast<int>(ci);
(void) const_cast<int &>(ci);
(void) const_cast<int &&>(ci);
// (void) const_cast<int const>(ci);
(void) const_cast<int const &>(ci); // expected-error {{redundant const_cast from 'const int' lvalue to 'const int &' lvalue [loplugin:redundantcast]}}
(void) const_cast<int const &&>(ci);
// non-class xvalue, non-const:
// (void) const_cast<int>(nix());
// (void) const_cast<int &>(nix());
(void) const_cast<int &&>(nix()); // expected-error {{redundant const_cast from 'int' xvalue to 'int &&' xvalue [loplugin:redundantcast]}}
// (void) const_cast<int const>(nix());
// (void) const_cast<int const &>(nix());
(void) const_cast<int const &&>(nix());
// non-class xvalue, const:
// (void) const_cast<int>(cix());
// (void) const_cast<int &>(cix());
(void) const_cast<int &&>(cix());
// (void) const_cast<int const>(cix());
// (void) const_cast<int const &>(cix());
(void) const_cast<int const &&>(cix()); // expected-error {{redundant const_cast from 'const int' xvalue to 'const int &&' xvalue [loplugin:redundantcast]}}
// non-class prvalue, non-const:
// (void) const_cast<int>(nir());
// (void) const_cast<int &>(nir());
// (void) const_cast<int &&>(nir());
// (void) const_cast<int const>(nir());
// (void) const_cast<int const &>(nir());
// (void) const_cast<int const &&>(nir());
// non-class prvalue, const:
// (void) const_cast<int>(cir());
// (void) const_cast<int &>(cir());
// (void) const_cast<int &&>(cir());
// (void) const_cast<int const>(cir());
// (void) const_cast<int const &>(cir());
// (void) const_cast<int const &&>(cir());
// class lvalue, non-const:
S ns{};
// (void) const_cast<S>(ns);
(void) const_cast<S &>(ns); // expected-error {{redundant const_cast from 'S' lvalue to 'S &' lvalue [loplugin:redundantcast]}}
(void) const_cast<S &&>(ns);
// (void) const_cast<S const>(ns);
(void) const_cast<S const &>(ns);
(void) const_cast<S const &&>(ns);
// class lvalue, const:
S const cs{};
// (void) const_cast<S>(cs);
(void) const_cast<S &>(cs);
(void) const_cast<S &&>(cs);
// (void) const_cast<S const>(cs);
(void) const_cast<S const &>(cs); // expected-error {{redundant const_cast from 'const S' lvalue to 'const S &' lvalue [loplugin:redundantcast]}}
(void) const_cast<S const &&>(cs);
// class xvalue, non-const:
// (void) const_cast<S>(nsx());
// (void) const_cast<S &>(nsx());
(void) const_cast<S &&>(nsx()); // expected-error {{redundant const_cast from 'S' xvalue to 'S &&' xvalue [loplugin:redundantcast]}}
// (void) const_cast<S const>(nsx());
// (void) const_cast<S const &>(nsx());
(void) const_cast<S const &&>(nsx());
// class xvalue, const:
// (void) const_cast<S>(csx());
// (void) const_cast<S &>(csx());
(void) const_cast<S &&>(csx());
// (void) const_cast<S const>(csx());
// (void) const_cast<S const &>(csx());
(void) const_cast<S const &&>(csx()); // expected-error {{redundant const_cast from 'const S' xvalue to 'const S &&' xvalue [loplugin:redundantcast]}}
// class prvalue, non-const:
// (void) const_cast<S>(nsr());
// (void) const_cast<S &>(nsr());
(void) const_cast<S &&>(nsr());
// (void) const_cast<S const>(nsr());
// (void) const_cast<S const &>(nsr());
(void) const_cast<S const &&>(nsr());
// class prvalue, const:
// (void) const_cast<S>(csr());
// (void) const_cast<S &>(csr());
(void) const_cast<S &&>(csr());
// (void) const_cast<S const>(csr());
// (void) const_cast<S const &>(csr());
(void) const_cast<S const &&>(csr());
}
void testStaticCast() {
// non-class lvalue, non-const:
int ni{};
(void) static_cast<int>(ni); // expected-error {{static_cast from 'int' lvalue to 'int' prvalue is redundant or should be written as an explicit construction of a temporary [loplugin:redundantcast]}}
/* => */ (void) int(ni);
(void) static_cast<int &>(ni); // expected-error {{static_cast from 'int' lvalue to 'int &' lvalue is redundant [loplugin:redundantcast]}}
(void) static_cast<int &&>(ni);
(void) static_cast<int const>(ni); // expected-error {{in static_cast from 'int' lvalue to 'const int' prvalue, remove redundant top-level const qualifier [loplugin:redundantcast]}}
/* => */ (void) static_cast<int>(ni); // expected-error {{static_cast from 'int' lvalue to 'int' prvalue is redundant or should be written as an explicit construction of a temporary [loplugin:redundantcast]}}
/* => */ (void) int(ni);
(void) static_cast<int const &>(ni); // expected-error {{static_cast from 'int' lvalue to 'const int &' lvalue should be written as const_cast [loplugin:redundantcast]}}
/* => */ (void) const_cast<int const &>(ni);
(void) static_cast<int const &&>(ni); // expected-error {{static_cast from 'int' lvalue to 'const int &&' xvalue should be written as const_cast [loplugin:redundantcast]}}
/* => */ (void) const_cast<int const &&>(ni);
// non-class lvalue, const:
int const ci{};
(void) static_cast<int>(ci); // expected-error {{static_cast from 'const int' lvalue to 'int' prvalue is redundant or should be written as an explicit construction of a temporary [loplugin:redundantcast]}}
/* => */ (void) int(ci);
// (void) static_cast<int &>(ci);
// (void) static_cast<int &&>(ci);
(void) static_cast<int const>(ci); // expected-error {{in static_cast from 'const int' lvalue to 'const int' prvalue, remove redundant top-level const qualifier [loplugin:redundantcast]}}
/* => */ (void) static_cast<int>(ci); // expected-error {{static_cast from 'const int' lvalue to 'int' prvalue is redundant or should be written as an explicit construction of a temporary [loplugin:redundantcast]}}
/* => */ (void) int(ci);
(void) static_cast<int const &>(ci); // expected-error {{static_cast from 'const int' lvalue to 'const int &' lvalue is redundant [loplugin:redundantcast]}}
(void) static_cast<int const &&>(ci);
// non-class xvalue, non-const:
(void) static_cast<int>(nix()); // expected-error {{static_cast from 'int' xvalue to 'int' prvalue is redundant or should be written as an explicit construction of a temporary [loplugin:redundantcast]}}
/* => */ (void) int(nix());
// (void) static_cast<int &>(nix());
(void) static_cast<int &&>(nix()); // expected-error {{static_cast from 'int' xvalue to 'int &&' xvalue is redundant [loplugin:redundantcast]}}
(void) static_cast<int const>(nix()); // expected-error {{in static_cast from 'int' xvalue to 'const int' prvalue, remove redundant top-level const qualifier [loplugin:redundantcast]}}
/* => */ (void) static_cast<int>(nix()); // expected-error {{static_cast from 'int' xvalue to 'int' prvalue is redundant or should be written as an explicit construction of a temporary [loplugin:redundantcast]}}
(void) static_cast<int const &>(nix());
(void) static_cast<int const &&>(nix()); // expected-error {{static_cast from 'int' xvalue to 'const int &&' xvalue should be written as const_cast [loplugin:redundantcast]}}
/* => */ (void) const_cast<int const &&>(nix());
// non-class xvalue, const:
(void) static_cast<int>(cix()); // expected-error {{static_cast from 'const int' xvalue to 'int' prvalue is redundant or should be written as an explicit construction of a temporary [loplugin:redundantcast]}}
/* => */ (void) int(cix());
// (void) static_cast<int &>(cix());
// (void) static_cast<int &&>(cix());
(void) static_cast<int const>(cix()); // expected-error {{in static_cast from 'const int' xvalue to 'const int' prvalue, remove redundant top-level const qualifier [loplugin:redundantcast]}}
/* => */ (void) static_cast<int>(cix()); // expected-error {{static_cast from 'const int' xvalue to 'int' prvalue is redundant or should be written as an explicit construction of a temporary [loplugin:redundantcast]}}
/* => */ (void) int(cix());
(void) static_cast<int const &>(cix());
(void) static_cast<int const &&>(cix()); // expected-error {{static_cast from 'const int' xvalue to 'const int &&' xvalue is redundant [loplugin:redundantcast]}}
// non-class prvalue, non-const:
(void) static_cast<int>(nir()); // expected-error {{static_cast from 'int' prvalue to 'int' prvalue is redundant [loplugin:redundantcast]}}
// (void) static_cast<int &>(nir());
(void) static_cast<int &&>(nir());
(void) static_cast<int const>(nir()); // expected-error {{in static_cast from 'int' prvalue to 'const int' prvalue, remove redundant top-level const qualifier [loplugin:redundantcast]}}
/* => */ (void) static_cast<int>(nir()); // expected-error {{static_cast from 'int' prvalue to 'int' prvalue is redundant [loplugin:redundantcast]}}
(void) static_cast<int const &>(nir()); // expected-error {{static_cast from 'int' prvalue to 'const int &' lvalue is redundant [loplugin:redundantcast]}}
(void) static_cast<int const &&>(nir());
// non-class prvalue, const:
(void) static_cast<int>(cir()); // expected-error {{static_cast from 'int' prvalue to 'int' prvalue is redundant [loplugin:redundantcast]}}
// (void) static_cast<int &>(cir());
(void) static_cast<int &&>(cir());
(void) static_cast<int const>(cir()); // expected-error {{in static_cast from 'int' prvalue to 'const int' prvalue, remove redundant top-level const qualifier [loplugin:redundantcast]}}
/* => */ (void) static_cast<int>(cir()); // expected-error {{static_cast from 'int' prvalue to 'int' prvalue is redundant [loplugin:redundantcast]}}
(void) static_cast<int const &>(cir()); // expected-error {{static_cast from 'int' prvalue to 'const int &' lvalue is redundant [loplugin:redundantcast]}}
(void) static_cast<int const &&>(cir());
// class lvalue, non-const:
S ns{};
(void) static_cast<S>(ns); // expected-error {{static_cast from 'S' lvalue to 'S' prvalue is redundant or should be written as an explicit construction of a temporary [loplugin:redundantcast]}}
/* => */ (void) S(ns);
(void) static_cast<S &>(ns); // expected-error {{static_cast from 'S' lvalue to 'S &' lvalue is redundant [loplugin:redundantcast]}}
(void) static_cast<S &&>(ns);
(void) static_cast<S const>(ns); // expected-error {{static_cast from 'S' lvalue to 'const S' prvalue is redundant or should be written as an explicit construction of a temporary [loplugin:redundantcast]}}
/* => */ using CS = const S; (void) CS(ns);
(void) static_cast<S const &>(ns); // expected-error {{static_cast from 'S' lvalue to 'const S &' lvalue should be written as const_cast [loplugin:redundantcast]}}
/* => */ (void) const_cast<S const &>(ns);
(void) static_cast<S const &&>(ns); // expected-error {{static_cast from 'S' lvalue to 'const S &&' xvalue should be written as const_cast [loplugin:redundantcast]}}
/* => */ (void) const_cast<S const &&>(ns);
// class lvalue, const:
S const cs{};
(void) static_cast<S>(cs); // expected-error {{static_cast from 'const S' lvalue to 'S' prvalue is redundant or should be written as an explicit construction of a temporary [loplugin:redundantcast]}}
/* => */ (void) S(cs);
// (void) static_cast<S &>(cs);
// (void) static_cast<S &&>(cs);
(void) static_cast<S const>(cs); // expected-error {{static_cast from 'const S' lvalue to 'const S' prvalue is redundant or should be written as an explicit construction of a temporary [loplugin:redundantcast]}}
/* => */ (void) CS(cs);
(void) static_cast<S const &>(cs); // expected-error {{static_cast from 'const S' lvalue to 'const S &' lvalue is redundant [loplugin:redundantcast]}}
(void) static_cast<S const &&>(cs);
// class xvalue, non-const:
(void) static_cast<S>(nsx()); // expected-error {{static_cast from 'S' xvalue to 'S' prvalue is redundant or should be written as an explicit construction of a temporary [loplugin:redundantcast]}}
/* => */ (void) S(nsx());
// (void) static_cast<S &>(nsx());
(void) static_cast<S &&>(nsx()); // expected-error {{static_cast from 'S' xvalue to 'S &&' xvalue is redundant [loplugin:redundantcast]}}
(void) static_cast<S const>(nsx()); // expected-error {{static_cast from 'S' xvalue to 'const S' prvalue is redundant or should be written as an explicit construction of a temporary [loplugin:redundantcast]}}
/* => */ (void) CS(nsx());
(void) static_cast<S const &>(nsx());
(void) static_cast<S const &&>(nsx()); // expected-error {{static_cast from 'S' xvalue to 'const S &&' xvalue should be written as const_cast [loplugin:redundantcast]}}
/* => */ (void) const_cast<S const &&>(nsx());
// class xvalue, const:
(void) static_cast<S>(csx()); // expected-error {{static_cast from 'const S' xvalue to 'S' prvalue is redundant or should be written as an explicit construction of a temporary [loplugin:redundantcast]}}
/* => */ (void) S(csx());
// (void) static_cast<S &>(csx());
// (void) static_cast<S &&>(csx());
(void) static_cast<S const>(csx()); // expected-error {{static_cast from 'const S' xvalue to 'const S' prvalue is redundant or should be written as an explicit construction of a temporary [loplugin:redundantcast]}}
/* => */ (void) CS(csx());
(void) static_cast<S const &>(csx());
(void) static_cast<S const &&>(csx()); // expected-error {{static_cast from 'const S' xvalue to 'const S &&' xvalue is redundant [loplugin:redundantcast]}}
// class prvalue, non-const:
(void) static_cast<S>(nsr()); // expected-error {{static_cast from 'S' prvalue to 'S' prvalue is redundant or should be written as an explicit construction of a temporary [loplugin:redundantcast]}}
/* => */ (void) S(nsr());
// (void) static_cast<S &>(nsr());
(void) static_cast<S &&>(nsr());
(void) static_cast<S const>(nsr()); // expected-error {{static_cast from 'S' prvalue to 'const S' prvalue is redundant or should be written as an explicit construction of a temporary [loplugin:redundantcast]}}
/* => */ (void) CS(nsr());
(void) static_cast<S const &>(nsr()); // expected-error {{static_cast from 'S' prvalue to 'const S &' lvalue is redundant [loplugin:redundantcast]}}
(void) static_cast<S const &&>(nsr()); // expected-error {{static_cast from 'S' prvalue to 'const S &&' xvalue should be written as const_cast [loplugin:redundantcast]}}
/* => */ (void) const_cast<S const &&>(nsr());
// class prvalue, const:
(void) static_cast<S>(csr()); // expected-error {{static_cast from 'const S' prvalue to 'S' prvalue is redundant or should be written as an explicit construction of a temporary [loplugin:redundantcast]}}
/* => */ (void) S(csr());
// (void) static_cast<S &>(csr());
// (void) static_cast<S &&>(csr());
(void) static_cast<S const>(csr()); // expected-error {{static_cast from 'const S' prvalue to 'const S' prvalue is redundant or should be written as an explicit construction of a temporary [loplugin:redundantcast]}}
/* => */ (void) CS(csr());
(void) static_cast<S const &>(csr()); // expected-error {{static_cast from 'const S' prvalue to 'const S &' lvalue is redundant [loplugin:redundantcast]}}
(void) static_cast<S const &&>(csr());
}
int & testReturnStaticCast(int && x) { return static_cast<int &>(x); }
void testFunctionalCast() {
(void) int(nir()); // expected-error {{redundant functional cast from 'int' to 'int' [loplugin:redundantcast]}}
(void) S(nsr());
}
void testCStyleCast() {
Enum1 e = (Enum1)Enum1::X; // expected-error {{redundant cstyle cast from 'Enum1' to 'Enum1' [loplugin:redundantcast]}}
(void)e;
}
template<typename T>
struct EnumItemInterface {
T GetValue() { return static_cast<T>(0); }
};
class Enum1Item : public EnumItemInterface<Enum1> {
};
bool testCStyleCastOfTemplateMethodResult(Enum1Item* item) {
return (Enum1)item->GetValue() == Enum1::X; // expected-error {{redundant cstyle cast from 'Enum1' to 'Enum1' [loplugin:redundantcast]}}
}
using T1 = int;
T1 nt1r() { return 0; }
void testArithmeticTypedefs() {
(void) static_cast<T1>(nir());
(void) T1(nir());
(void) (T1) nir();
(void) static_cast<int>(nt1r());
(void) int(nt1r());
(void) (int) nt1r();
using T2 = T1;
(void) static_cast<T2>(nt1r());
(void) T2(nt1r());
(void) (T2) nt1r();
(void) static_cast<T1>(nt1r()); // expected-error {{redundant}}
(void) T1(nt1r()); // expected-error {{redundant}}
(void) (T1) nt1r(); // expected-error {{redundant}}
T1 const c{};
(void) static_cast<T1>(c); // expected-error {{redundant}}
}
void testReinterpretCast() {
int * p;
(void) reinterpret_cast<int *>(p); // expected-error {{redundant reinterpret_cast from 'int *' to 'int *' [loplugin:redundantcast]}}
}
void testReinterpretConstCast() {
int n = 0;
(void) reinterpret_cast<std::size_t>((const_cast<int const *>(&n))); // expected-error-re {{redundant const_cast from 'int *' to 'const int *' within reinterpret_cast to fundamental type 'std::size_t' (aka 'unsigned {{.+}}') [loplugin:redundantcast]}}
}
void testSuspiciousReinterpretCast() {
D * p;
// expected-error@+1 {{suspicious reinterpret_cast from derived 'D *' to base 'S *', maybe this was meant to be a static_cast [loplugin:redundantcast]}}
(void) reinterpret_cast<S *>(p);
(void) reinterpret_cast<sal_uIntPtr>(p); // expected no error
}
void testDynamicCast() {
struct S1 { virtual ~S1(); };
struct S2 final: S1 {};
struct S3: S1 {};
S1 * s1 = nullptr;
S2 * s2 = nullptr;
S3 * s3 = nullptr;
(void) dynamic_cast<void *>(s1);
(void) dynamic_cast<void const *>(s1);
(void) dynamic_cast<S2 *>(s1);
(void) dynamic_cast<S2 &>(*s1);
(void) dynamic_cast<S1 *>(s2); // expected-error {{redundant dynamic upcast from 'S2 *' to 'S1 *' [loplugin:redundantcast]}}
(void) dynamic_cast<S1 &>(*s2); // expected-error {{redundant dynamic upcast from 'S2' to 'S1 &' [loplugin:redundantcast]}}
(void) dynamic_cast<S2 *>(s2); // expected-error {{redundant dynamic cast from 'S2 *' to 'S2 *' [loplugin:redundantcast]}}
(void) dynamic_cast<S2 &>(*s2); // expected-error {{redundant dynamic cast from 'S2' to 'S2 &' [loplugin:redundantcast]}}
(void) dynamic_cast<S3 *>(s2);
(void) dynamic_cast<S3 &>(*s2);
(void) dynamic_cast<const S2 *>(s2); // expected-error {{redundant dynamic cast from 'S2 *' to 'const S2 *' [loplugin:redundantcast]}}
(void) dynamic_cast<const S2 &>(*s2); // expected-error {{redundant dynamic cast from 'S2' to 'const S2 &' [loplugin:redundantcast]}}
(void) dynamic_cast<S1 *>(s3); // expected-error {{redundant dynamic upcast from 'S3 *' to 'S1 *' [loplugin:redundantcast]}}
(void) dynamic_cast<S1&>(*s3); // expected-error {{redundant dynamic upcast from 'S3' to 'S1 &' [loplugin:redundantcast]}}
S1 const * c1 = nullptr;
S2 const * c2 = nullptr;
S3 const * c3 = nullptr;
(void) dynamic_cast<void const *>(c1);
(void) dynamic_cast<S2 const *>(c1);
(void) dynamic_cast<S2 const &>(*c1);
(void) dynamic_cast<S1 const *>(c2); // expected-error {{redundant dynamic upcast from 'const S2 *' to 'const S1 *' [loplugin:redundantcast]}}
(void) dynamic_cast<S1 const &>(*c2); // expected-error {{redundant dynamic upcast from 'const S2' to 'const S1 &' [loplugin:redundantcast]}}
(void) dynamic_cast<S2 const *>(c2); // expected-error {{redundant dynamic cast from 'const S2 *' to 'const S2 *' [loplugin:redundantcast]}}
(void) dynamic_cast<S2 const &>(*c2); // expected-error {{redundant dynamic cast from 'const S2' to 'const S2 &' [loplugin:redundantcast]}}
(void) dynamic_cast<S3 const *>(c2);
(void) dynamic_cast<S3 const &>(*c2);
(void) dynamic_cast<S1 const *>(c3); // expected-error {{redundant dynamic upcast from 'const S3 *' to 'const S1 *' [loplugin:redundantcast]}}
(void) dynamic_cast<S1 const&>(*c3); // expected-error {{redundant dynamic upcast from 'const S3' to 'const S1 &' [loplugin:redundantcast]}}
}
void overload(int);
void overload(long);
void nonOverload();
struct Overload {
int overload();
long overload() const;
void nonOverload();
};
void testOverloadResolution() {
(void) static_cast<void (*)(long)>(overload);
(void) static_cast<void (*)(long)>((overload));
(void) static_cast<void (*)(long)>(&overload);
(void) static_cast<void (*)(long)>((&overload));
(void) static_cast<void (*)(long)>(&((overload)));
(void) static_cast<void (*)()>(nonOverload); // expected-error {{static_cast from 'void (*)()' prvalue to 'void (*)()' prvalue is redundant [loplugin:redundantcast]}}
(void) static_cast<void (*)()>((nonOverload)); // expected-error {{static_cast from 'void (*)()' prvalue to 'void (*)()' prvalue is redundant [loplugin:redundantcast]}}
(void) static_cast<void (*)()>(&nonOverload); // expected-error {{static_cast from 'void (*)()' prvalue to 'void (*)()' prvalue is redundant [loplugin:redundantcast]}}
(void) static_cast<void (*)()>((&nonOverload)); // expected-error {{static_cast from 'void (*)()' prvalue to 'void (*)()' prvalue is redundant [loplugin:redundantcast]}}
(void) static_cast<void (*)()>(&((nonOverload))); // expected-error {{static_cast from 'void (*)()' prvalue to 'void (*)()' prvalue is redundant [loplugin:redundantcast]}}
(void) static_cast<long (Overload::*)() const>(&Overload::overload);
(void) static_cast<void (Overload::*)()>(&Overload::nonOverload); // expected-error {{static_cast from 'void (Overload::*)()' prvalue to 'void (Overload::*)()' prvalue is redundant [loplugin:redundantcast]}}
using OverloadFn = void (*)(long);
(void) OverloadFn(overload);
using NonOverloadFn = void (*)();
(void) NonOverloadFn(nonOverload); // expected-error {{redundant functional cast from 'void (*)()' to 'NonOverloadFn' (aka 'void (*)()') [loplugin:redundantcast]}}
using OverloadMemFn = long (Overload::*)() const;
(void) OverloadMemFn(&Overload::overload);
using NonOverloadMemFn = void (Overload::*)();
(void) NonOverloadMemFn(&Overload::nonOverload); // expected-error {{redundant functional cast from 'void (Overload::*)()' to 'NonOverloadMemFn' (aka 'void (Overload::*)()') [loplugin:redundantcast]}}
};
void testIntermediaryStaticCast() {
int n = 0;
n = static_cast<double>(n); // expected-error {{suspicious static_cast from 'int' to 'double', result is implicitly cast to 'int' [loplugin:redundantcast]}}
n = double(n); // expected-error {{suspicious functional cast from 'int' to 'double', result is implicitly cast to 'int' [loplugin:redundantcast]}}
double d = 0.0;
d = static_cast<int>(d) + 1.0; // expected-error {{suspicious static_cast from 'double' to 'int', result is implicitly cast to 'double' [loplugin:redundantcast]}}
d = int(d) + 1.0; // expected-error {{suspicious functional cast from 'double' to 'int', result is implicitly cast to 'double' [loplugin:redundantcast]}}
};
void testArrayDecay() {
(void) static_cast<char const *>(""); // expected-error-re {{redundant static_cast from 'const char{{ ?}}[1]' to 'const char *' [loplugin:redundantcast]}}
(void) reinterpret_cast<char const *>(""); // expected-error-re {{redundant reinterpret_cast from 'const char{{ ?}}[1]' to 'const char *' [loplugin:redundantcast]}}
(void) reinterpret_cast<char const *>(u8"");
}
void testNew() {
class A {};
class B : public A {};
A* p = static_cast<A*>(new B); // expected-error {{redundant static_cast from 'B *' to 'A *' [loplugin:redundantcast]}}
(void)p;
// no warning expected for resolving-ambiguity cast
class C : public A {};
class D : public B, public C {};
p = static_cast<B*>(new D);
// no warning expected for down-cast
auto p2 = static_cast<B*>(p);
(void)p2;
}
using F = void (*)();
auto testNullFunctionPointer(int i, F p) {
switch (i) {
case 0:
return static_cast<F>(nullptr);
case 1:
return F(nullptr);
default:
return p;
}
}
void testSalIntTypes() {
sal_Int16 const n = 0;
(void) static_cast<sal_Int16>(n); // expected-error-re {{static_cast from 'const sal_Int16' (aka 'const {{.+}}') lvalue to 'sal_Int16' (aka '{{.+}}') prvalue is redundant or should be written as an explicit construction of a temporary [loplugin:redundantcast]}}
(void) static_cast<::sal_Int16>(n); // expected-error-re {{static_cast from 'const sal_Int16' (aka 'const {{.+}}') lvalue to '::sal_Int16' (aka '{{.+}}') prvalue is redundant or should be written as an explicit construction of a temporary [loplugin:redundantcast]}}
(void) static_cast<short>(n); // doesn't warn, even if 'sal_Int16' is 'short'
using Other = sal_Int16;
(void) static_cast<Other>(n); // doesn't warn either
}
int main() {
testConstCast();
testStaticCast();
testFunctionalCast();
testCStyleCast();
testCStyleCastOfTemplateMethodResult(nullptr);
testReinterpretCast();
testReinterpretConstCast();
testDynamicCast();
testIntermediaryStaticCast();
testArrayDecay();
testSalIntTypes();
}
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