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authorKeith Seitz <keiths@redhat.com>2010-03-09 18:08:05 +0000
committerKeith Seitz <keiths@redhat.com>2010-03-09 18:08:05 +0000
commitcec808ecec654eb5c43ca6281ee5e08aca3f2a7b (patch)
tree10667bc01e7568d6b02f1fd9e0ee2109a21267fa /gdb/testsuite/gdb.cp/cpexprs.cc
parent9cb74f47a17c0c8c4dcf475892f4b27e961d05f8 (diff)
downloadbinutils-gdb-cec808ecec654eb5c43ca6281ee5e08aca3f2a7b.tar.gz
* gdb.cp/cp-relocate.exp: Remove single-quoting of C++ methods.
* gdb.cp/cplusfuncs.cc (dm_type_short): New function. (dm_type_long): New function. (dm_type_unsigned_short): New function. (dm_type_unsigned_long): New function. (myint): New typedef. * gdb.cp/cplusfuncs.exp (probe_demangler): Add tests for short, long, unsigned shor and long, operator char*, and typedef. (test_lookup_operator_functions): Add operator char* test. (test_paddr_operator_functions): Likewise. (test_paddr_overloaded_functions): Use probe values for short, long, and unsigned short and long. (test_paddr_hairy_functions): If the demangler probe detected gdb type printers, "expect" them. Otherwise "expect" the v2 or v3 demangler. * gdb.cp/expand-sals.exp: Backtrace may contain class names. * gdb.cp/member-ptr.exp: Refine expected result for "print pmf" and "print null_pmf". Add test "ptype a.*pmf". * gdb.cp/overload.exp: Allow optional "int" to appear with "short" and "long". * gdb.cp/ovldbreak.exp: Use append to construct super-duper long expect value for men_overload1arg. Allow "int" to appear with "short" and "long". When testing "info break", add argument for main (void). Also allow "int" to appear with "short" and "long". Ditto with "unsigned" and "long long". * gdb.java/jmain.exp: Do not enclose methods names in single quotes. * gdb.java/jmisc.exp: Likewise. * gdb.java/jprint.exp: Likewise. * gdb.python/py-symbol.exp: Update expected "linkage_name" value. From Jan Kratochvil <jan.kratochvil@redhat.com>: * gdb.cp/exception.exp (backtrace after first throw) (backtrace after second throw): Allow a namespace before __cxa_throw. (backtrace after first catch, backtrace after second catch): Allow a namespace before __cxa_begin_catch. * gdb.cp/cpexprs.exp: New file. * gdb.cp/cpexprs.cc: New file. From Daniel Jacobowitz <dan@codesourcery.com> * gdb.cp/cpexprs.exp (escape): Delete. Change all callers to use string_to_regexp. (ctor, dtor): New functions. Use them to match constructor and destructor function types. (Top level): Use runto_main.
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+/* This testcase is part of GDB, the GNU debugger.
+
+ Copyright 2008, 2009, 2010 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 <http://www.gnu.org/licenses/>.
+
+ Please email any bugs, comments, and/or additions to this file to:
+ bug-gdb@gnu.org */
+
+#include <stdlib.h>
+#include <iostream>
+
+// Forward decls
+class base;
+class derived;
+
+// A simple template with specializations
+template <typename T>
+class tclass
+{
+public:
+ void do_something () { } // tclass<T>::do_something
+};
+
+template <>
+void tclass<char>::do_something () { } // tclass<char>::do_something
+
+template <>
+void tclass<int>::do_something () { } // tclass<int>::do_something
+
+template<>
+void tclass<long>::do_something () { } // tclass<long>::do_something
+
+template<>
+void tclass<short>::do_something () { } // tclass<short>::do_something
+
+// A simple template with multiple template parameters
+template <class A, class B, class C, class D, class E>
+void flubber (void) // flubber
+{
+ A a;
+ B b;
+ C c;
+ D d;
+ E e;
+
+ ++a;
+ ++b;
+ ++c;
+ ++d;
+ ++e;
+}
+
+// Some contrived policies
+template <class T>
+struct operation_1
+{
+ static void function (void) { } // operation_1<T>::function
+};
+
+template <class T>
+struct operation_2
+{
+ static void function (void) { } // operation_2<T>::function
+};
+
+template <class T>
+struct operation_3
+{
+ static void function (void) { } // operation_3<T>::function
+};
+
+template <class T>
+struct operation_4
+{
+ static void function (void) { } // operation_4<T>::function
+};
+
+// A policy-based class w/ and w/o default policy
+template <class T, class Policy>
+class policy : public Policy
+{
+public:
+ policy (T obj) : obj_ (obj) { } // policy<T, Policy>::policy
+
+private:
+ T obj_;
+};
+
+template <class T, class Policy = operation_1<T> >
+class policyd : public Policy
+{
+public:
+ policyd (T obj) : obj_ (obj) { } // policyd<T, Policy>::policyd
+ ~policyd (void) { } // policyd<T, Policy>::~policyd
+
+private:
+ T obj_;
+};
+
+typedef policy<int, operation_1<void*> > policy1;
+typedef policy<int, operation_2<void*> > policy2;
+typedef policy<int, operation_3<void*> > policy3;
+typedef policy<int, operation_4<void*> > policy4;
+
+typedef policyd<int> policyd1;
+typedef policyd<long> policyd2;
+typedef policyd<char> policyd3;
+typedef policyd<base> policyd4;
+typedef policyd<tclass<int> > 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<char*> ("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**
+};
+
+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_;
+};
+
+int
+main (int argc, char* argv[]) // main
+{ // main
+ 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<int> (0));
+ (void) a.overload (static_cast<short> (0));
+ (void) a.overload (static_cast<long> (0));
+ (void) a.overload (static_cast<char*> (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> char_tclass;
+ tclass<int> int_tclass;
+ tclass<short> short_tclass;
+ tclass<long> long_tclass;
+ tclass<base> base_tclass;
+ char_tclass.do_something ();
+ int_tclass.do_something ();
+ short_tclass.do_something ();
+ long_tclass.do_something ();
+ base_tclass.do_something ();
+
+ flubber<int, int, int, int, int> ();
+ flubber<int, int, int, int, short> ();
+ flubber<int, int, int, int, long> ();
+ flubber<int, int, int, int, char> ();
+ flubber<int, int, int, short, int> ();
+ flubber<int, int, int, short, short> ();
+ flubber<int, int, int, short, long> ();
+ flubber<int, int, int, short, char> ();
+ flubber<int, int, int, long, int> ();
+ flubber<int, int, int, long, short> ();
+ flubber<int, int, int, long, long> ();
+ flubber<int, int, int, long, char> ();
+ flubber<int, int, int, char, int> ();
+ flubber<int, int, int, char, short> ();
+ flubber<int, int, int, char, long> ();
+ flubber<int, int, int, char, char> ();
+ flubber<int, int, short, int, int> ();
+ flubber<int, int, short, int, short> ();
+ flubber<int, int, short, int, long> ();
+ flubber<int, int, short, int, char> ();
+ flubber<int, int, short, short, int> ();
+ flubber<short, int, short, int, short> ();
+ flubber<long, short, long, short, long> ();
+
+ 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;
+}
+