/* This testcase is part of GDB, the GNU debugger. Copyright 2008-2022 Free Software Foundation, Inc. Contributed by Red Hat, originally written by Keith Seitz. This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 3 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see . Please email any bugs, comments, and/or additions to this file to: bug-gdb@gnu.org */ #include #include // Forward decls class base; class derived; // A simple template with specializations template class tclass { public: void do_something () { } // tclass::do_something }; template <> void tclass::do_something () { } // tclass::do_something template <> void tclass::do_something () { } // tclass::do_something template<> void tclass::do_something () { } // tclass::do_something template<> void tclass::do_something () { } // tclass::do_something // A simple template with multiple template parameters template void flubber (void) { // flubber A a; B b; C c; D d; E e; ++a; ++b; ++c; ++d; ++e; } // Some contrived policies template struct operation_1 { static void function (void) { } // operation_1::function }; template struct operation_2 { static void function (void) { } // operation_2::function }; template struct operation_3 { static void function (void) { } // operation_3::function }; template struct operation_4 { static void function (void) { } // operation_4::function }; // A policy-based class w/ and w/o default policy template class policy : public Policy { public: policy (T obj) : obj_ (obj) { } // policy::policy private: T obj_; }; template > class policyd : public Policy { public: policyd (T obj) : obj_ (obj) { } // policyd::policyd ~policyd (void) { } // policyd::~policyd private: T obj_; }; typedef policy > policy1; typedef policy > policy2; typedef policy > policy3; typedef policy > policy4; typedef policyd policyd1; typedef policyd policyd2; typedef policyd policyd3; typedef policyd policyd4; typedef policyd > policyd5; class fluff { }; static fluff *g_fluff = new fluff (); class base { protected: int foo_; public: base (void) : foo_ (42) { } // base::base(void) base (int foo) : foo_ (foo) { } // base::base(int) ~base (void) { } // base::~base // Some overloaded methods int overload (void) const { return 0; } // base::overload(void) const int overload (int i) const { return 1; } // base::overload(int) const int overload (short s) const { return 2; } // base::overload(short) const int overload (long l) const { return 3; } // base::overload(long) const int overload (char* a) const { return 4; } // base::overload(char*) const int overload (base& b) const { return 5; } // base::overload(base&) const // Operators int operator+ (base const& o) const { // base::operator+ return foo_ + o.foo_; } base operator++ (void) { // base::operator++ ++foo_; return *this; } base operator+=(base const& o) { // base::operator+= foo_ += o.foo_; return *this; } int operator- (base const& o) const { // base::operator- return foo_ - o.foo_; } base operator-- (void) { // base::operator-- --foo_; return *this; } base operator-= (base const& o) { // base::operator-= foo_ -= o.foo_; return *this; } int operator* (base const& o) const { // base::operator* return foo_ * o.foo_; } base operator*= (base const& o) { // base::operator*= foo_ *= o.foo_; return *this; } int operator/ (base const& o) const { // base::operator/ return foo_ / o.foo_; } base operator/= (base const& o) { // base::operator/= foo_ /= o.foo_; return *this; } int operator% (base const& o) const { // base::operator% return foo_ % o.foo_; } base operator%= (base const& o) { // base::operator%= foo_ %= o.foo_; return *this; } bool operator< (base const& o) const { // base::operator< return foo_ < o.foo_; } bool operator<= (base const& o) const { // base::operator<= return foo_ <= o.foo_; } bool operator> (base const& o) const { // base::operator> return foo_ > o.foo_; } bool operator>= (base const& o) const { // base::operator>= return foo_ >= o.foo_; } bool operator!= (base const& o) const { // base::operator!= return foo_ != o.foo_; } bool operator== (base const& o) const { // base::operator== return foo_ == o.foo_; } bool operator! (void) const { // base::operator! return !foo_; } bool operator&& (base const& o) const { // base::operator&& return foo_ && o.foo_; } bool operator|| (base const& o) const { // base::operator|| return foo_ || o.foo_; } int operator<< (int value) const { // base::operator<< return foo_ << value; } base operator<<= (int value) { // base::operator<<= foo_ <<= value; return *this; } int operator>> (int value) const { // base::operator>> return foo_ >> value; } base operator>>= (int value) { // base::operator>>= foo_ >>= value; return *this; } int operator~ (void) const { // base::operator~ return ~foo_; } int operator& (base const& o) const { // base::operator& return foo_ & o.foo_; } base operator&= (base const& o) { // base::operator&= foo_ &= o.foo_; return *this; } int operator| (base const& o) const { // base::operator| return foo_ | o.foo_; } base operator|= (base const& o) { // base::operator|= foo_ |= o.foo_; return *this; } int operator^ (base const& o) const { // base::operator^ return foo_ ^ o.foo_; } base operator^= (base const& o) { // base::operator^= foo_ ^= o.foo_; return *this; } base operator= (base const& o) { // base::operator= foo_ = o.foo_; return *this; } void operator() (void) const { // base::operator() return; } int operator[] (int idx) const { // base::operator[] return idx; } void* operator new (size_t size) throw () { // base::operator new return malloc (size); } void operator delete (void* ptr) { // base::operator delete free (ptr); } void* operator new[] (size_t size) throw () { // base::operator new[] return malloc (size); } void operator delete[] (void* ptr) { // base::operator delete[] free (ptr); } base const* operator-> (void) const { // base::opeartor-> return this; } int operator->* (base const& b) const { // base::operator->* return foo_ * b.foo_; } operator char* () const { return const_cast ("hello"); } // base::operator char* operator int () const { return 21; } // base::operator int operator fluff* () const { return new fluff (); } // base::operator fluff* operator fluff** () const { return &g_fluff; } // base::operator fluff** operator fluff const* const* () const { return &g_fluff; } // base::operator fluff const* const* }; class base1 : public virtual base { public: base1 (void) : foo_ (21) { } // base1::base1(void) base1 (int a) : foo_(a) { } // base1::base1(int) void a_function (void) const { } // base1::a_function protected: int foo_; }; class base2 : public virtual base { public: base2 () : foo_ (3) { } // base2::base2 protected: void a_function (void) const { } // base2::a_function int foo_; }; class derived : public base1, public base2 { public: derived(void) : foo_ (4) { } // derived::derived void a_function (void) const { // derived::a_function this->base1::a_function (); this->base2::a_function (); } protected: int foo_; }; class CV { public: static const int i; typedef int t; void m(t); void m(t) const; void m(t) volatile; void m(t) const volatile; }; const int CV::i = 42; #ifdef __GNUC__ # define ATTRIBUTE_USED __attribute__((used)) #else # define ATTRIBUTE_USED #endif ATTRIBUTE_USED void CV::m(CV::t) {} ATTRIBUTE_USED void CV::m(CV::t) const {} ATTRIBUTE_USED void CV::m(CV::t) volatile {} ATTRIBUTE_USED void CV::m(CV::t) const volatile {} int CV_f (int x) { return x + 1; } int test_function (int argc, char* argv[]) // test_function { // test_function derived d; void (derived::*pfunc) (void) const = &derived::a_function; (d.*pfunc) (); base a (1), b (3), c (8); (void) a.overload (); (void) a.overload (static_cast (0)); (void) a.overload (static_cast (0)); (void) a.overload (static_cast (0)); (void) a.overload (static_cast (0)); (void) a.overload (a); int r; r = b + c; ++a; a += b; r = b - c; --a; a -= b; r = b * c; a *= b; r = b / c; a /= b; r = b % c; a %= b; bool x = (b < c); x = (b <= c); x = (b > c); x = (b >= c); x = (b != c); x = (b == c); x = (!b); x = (b && c); x = (b || c); r = b << 2; a <<= 1; r = b >> 2; a >>= 1; r = ~b; r = b & c; a &= c; r = b | c; a |= c; r = b ^ c; a ^= c; a = c; a (); int i = a[3]; derived* f = new derived (); derived* g = new derived[3]; delete f; delete[] g; a->overload (); r = a->*b; tclass char_tclass; tclass int_tclass; tclass short_tclass; tclass long_tclass; tclass base_tclass; char_tclass.do_something (); int_tclass.do_something (); short_tclass.do_something (); long_tclass.do_something (); base_tclass.do_something (); flubber (); flubber (); flubber (); flubber (); flubber (); flubber (); flubber (); flubber (); flubber (); flubber (); flubber (); flubber (); flubber (); flubber (); flubber (); flubber (); flubber (); flubber (); flubber (); flubber (); flubber (); flubber (); flubber (); policy1 p1 (1); p1.function (); policy2 p2 (2); p2.function (); policy3 p3 (3); p3.function (); policy4 p4 (4); p4.function (); policyd1 pd1 (5); pd1.function (); policyd2 pd2 (6); pd2.function (); policyd3 pd3 (7); pd3.function (); policyd4 pd4 (d); pd4.function (); policyd5 pd5 (int_tclass); pd5.function (); base1 b1 (3); r = a; char* str = a; fluff* flp = a; fluff** flpp = a; fluff const* const* flcpcp = a; CV_f(CV::i); return 0; } int main (int argc, char* argv[]) { int i; /* Call the test function repeatedly, enough times for all our tests without running forever if something goes wrong. */ for (i = 0; i < 1000; i++) test_function (argc, argv); return 0; }