forked from OSchip/llvm-project
180 lines
3.7 KiB
Plaintext
180 lines
3.7 KiB
Plaintext
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// RUN: clang-tidy %s -checks=-*,google-readability-casting -- \
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// RUN: -xobjective-c++ -fobjc-abi-version=2 -fobjc-arc | count 0
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// Note: this test expects no diagnostics, but FileCheck cannot handle that,
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// hence the use of | count 0.
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bool g() { return false; }
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enum Enum { Enum1 };
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struct X {};
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struct Y : public X {};
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void f(int a, double b, const char *cpc, const void *cpv, X *pX) {
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typedef const char *Typedef1;
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typedef const char *Typedef2;
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Typedef1 t1;
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(Typedef2)t1;
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(const char*)t1;
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(Typedef1)cpc;
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typedef char Char;
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char *pc;
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Char *pChar = (Char*)pc;
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(Char)*cpc;
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(char)*pChar;
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(const char*)cpv;
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char *pc2 = (char*)(cpc + 33);
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const char &crc = *cpc;
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char &rc = (char&)crc;
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char &rc2 = (char&)*cpc;
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char ** const* const* ppcpcpc;
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char ****ppppc = (char****)ppcpcpc;
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char ***pppc = (char***)*(ppcpcpc);
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char ***pppc2 = (char***)(*ppcpcpc);
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char *pc5 = (char*)(const char*)(cpv);
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int b1 = (int)b;
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b1 = (const int&)b;
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b1 = (int) b;
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b1 = (int) b;
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b1 = (int) (b);
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b1 = (int) (b);
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Y *pB = (Y*)pX;
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Y &rB = (Y&)*pX;
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const char *pc3 = (const char*)cpv;
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char *pc4 = (char*)cpv;
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b1 = (int)Enum1;
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Enum e = (Enum)b1;
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int b2 = int(b);
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int b3 = static_cast<double>(b);
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int b4 = b;
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double aa = a;
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(void)b2;
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return (void)g();
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}
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template <typename T>
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void template_function(T t, int n) {
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int i = (int)t;
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}
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template <typename T>
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struct TemplateStruct {
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void f(T t, int n) {
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int k = (int)t;
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}
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};
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void test_templates() {
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template_function(1, 42);
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template_function(1.0, 42);
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TemplateStruct<int>().f(1, 42);
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TemplateStruct<double>().f(1.0, 42);
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}
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extern "C" {
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void extern_c_code(const char *cpc) {
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char *pc = (char*)cpc;
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}
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}
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#define CAST(type, value) (type)(value)
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void macros(double d) {
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int i = CAST(int, d);
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}
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enum E { E1 = 1 };
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template <E e>
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struct A {
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// Usage of template argument e = E1 is represented as (E)1 in the AST for
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// some reason. We have a special treatment of this case to avoid warnings
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// here.
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static const E ee = e;
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};
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struct B : public A<E1> {};
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void overloaded_function();
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void overloaded_function(int);
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template<typename Fn>
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void g(Fn fn) {
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fn();
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}
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void function_casts() {
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typedef void (*FnPtrVoid)();
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typedef void (&FnRefVoid)();
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typedef void (&FnRefInt)(int);
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g((void (*)())overloaded_function);
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g((void (*)())&overloaded_function);
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g((void (&)())overloaded_function);
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g((FnPtrVoid)overloaded_function);
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g((FnPtrVoid)&overloaded_function);
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g((FnRefVoid)overloaded_function);
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FnPtrVoid fn0 = (void (*)())&overloaded_function;
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FnPtrVoid fn1 = (void (*)())overloaded_function;
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FnPtrVoid fn1a = (FnPtrVoid)overloaded_function;
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FnRefInt fn2 = (void (&)(int))overloaded_function;
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auto fn3 = (void (*)())&overloaded_function;
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auto fn4 = (void (*)())overloaded_function;
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auto fn5 = (void (&)(int))overloaded_function;
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void (*fn6)() = (void (*)())&overloaded_function;
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void (*fn7)() = (void (*)())overloaded_function;
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void (*fn8)() = (FnPtrVoid)overloaded_function;
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void (&fn9)(int) = (void (&)(int))overloaded_function;
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void (*correct1)() = static_cast<void (*)()>(overloaded_function);
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FnPtrVoid correct2 = static_cast<void (*)()>(&overloaded_function);
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FnRefInt correct3 = static_cast<void (&)(int)>(overloaded_function);
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}
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struct S {
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S(const char *);
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};
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struct ConvertibleToS {
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operator S() const;
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};
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struct ConvertibleToSRef {
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operator const S&() const;
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};
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void conversions() {
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//auto s1 = (const S&)"";
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auto s2 = (S)"";
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auto s2a = (struct S)"";
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auto s2b = (const S)"";
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ConvertibleToS c;
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auto s3 = (const S&)c;
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auto s4 = (S)c;
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ConvertibleToSRef cr;
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auto s5 = (const S&)cr;
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auto s6 = (S)cr;
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}
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