[deliverable/binutils-gdb.git] / gdb / testsuite / gdb.cp / classes.cc

/* This testcase is part of GDB, the GNU debugger.

   Copyright 1993-2016 Free Software Foundation, Inc.

   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/>.  */

// Test various -*- C++ -*- things.

// ====================== basic C++ types  =======================
bool            v_bool;
bool            v_bool_array[2];

typedef struct fleep fleep;
struct fleep { int a; } s;

// ====================== simple class structures  =======================

struct default_public_struct {
 // defaults to public:
  int a;
  int b;
};

struct explicit_public_struct {
 public:
  int a;
  int b;
};

struct protected_struct {
 protected:
  int a;
  int b;
};

struct private_struct {
 private:
  int a;
  int b;
};

struct mixed_protection_struct {
 public:
  int a;
  int b;
 private:
  int c;
  int d;
 protected:
  int e;
  int f;
 public:
  int g;
 private:
  int h;
 protected:
  int i;
};

class public_class {
 public:
  int a;
  int b;
};

class protected_class {
 protected:
  int a;
  int b;
};

class default_private_class {
 // defaults to private:
  int a;
  int b;
};

class explicit_private_class {
 private:
  int a;
  int b;
};

class mixed_protection_class {
 public:
  int a;
  int b;
 private:
  int c;
  int d;
 protected:
  int e;
  int f;
 public:
  int g;
 private:
  int h;
 protected:
  int i;
};

class const_vol_method_class {
public:
  int a;
  int b;
  int foo (int &) const;
  int bar (int &) volatile;
  int baz (int &) const volatile;
};

int const_vol_method_class::foo (int & ir) const
{
  return ir + 3;
}
int const_vol_method_class::bar (int & ir) volatile
{
  return ir + 4;
}
int const_vol_method_class::baz (int & ir) const volatile
{
  return ir + 5;
}

// ========================= simple inheritance ==========================

class A {
 public:
  int a;
  int x;
};

A g_A;

class B : public A {
 public:
  int b;
  int x;
};

B g_B;

class C : public A {
 public:
  int c;
  int x;
};

C g_C;

class D : public B, public C {
 public:
  int d;
  int x;
};

D g_D;

class E : public D {
 public:
  int e;
  int x;
};

E g_E;

class class_with_anon_union
{
 public:
  int one;
  union
  {
    int a;
    long b;
  };
};

class_with_anon_union g_anon_union;

void inheritance2 (void)
{
}

void inheritance1 (void)
{
  int ival;
  int *intp;

  // {A::a, A::x}

  g_A.A::a = 1;
  g_A.A::x = 2;

  // {{A::a,A::x},B::b,B::x}

  g_B.A::a = 3;
  g_B.A::x = 4;
  g_B.B::b = 5;
  g_B.B::x = 6;

  // {{A::a,A::x},C::c,C::x}

  g_C.A::a = 7;
  g_C.A::x = 8;
  g_C.C::c = 9;
  g_C.C::x = 10;

  // {{{A::a,A::x},B::b,B::x},{{A::a,A::x},C::c,C::x},D::d,D::x}

  // The following initialization code is non-portable, but allows us
  // to initialize all members of g_D until we can fill in the missing
  // initialization code with legal C++ code.

  for (intp = (int *) &g_D, ival = 11;
       intp < ((int *) &g_D + sizeof (g_D) / sizeof (int));
       intp++, ival++)
    {
      *intp = ival;
    }

  // Overlay the nonportable initialization with legal initialization.

  // ????? = 11;  (g_D.A::a = 11; is ambiguous)
  // ????? = 12;  (g_D.A::x = 12; is ambiguous)
/* djb 6-3-2000

	This should take care of it. Rather than try to initialize using an ambiguous
	construct, use 2 unambiguous ones for each. Since the ambiguous a/x member is
	coming from C, and B, initialize D's C::a, and B::a, and D's C::x and B::x.
 */
  g_D.C::a = 15;
  g_D.C::x = 12;
  g_D.B::a = 11;
  g_D.B::x = 12;
  g_D.B::b = 13;
  g_D.B::x = 14;
  // ????? = 15;
  // ????? = 16;
  g_D.C::c = 17;
  g_D.C::x = 18;
  g_D.D::d = 19;
  g_D.D::x = 20;


  // {{{{A::a,A::x},B::b,B::x},{{A::a,A::x},C::c,C::x},D::d,D::x}},E::e,E::x}

  // The following initialization code is non-portable, but allows us
  // to initialize all members of g_D until we can fill in the missing
  // initialization code with legal C++ code.

  for (intp = (int *) &g_E, ival = 21;
       intp < ((int *) &g_E + sizeof (g_E) / sizeof (int));
       intp++, ival++)
  {
    *intp = ival;
  }

  // Overlay the nonportable initialization with legal initialization.

  // ????? = 21;  (g_E.A::a = 21; is ambiguous)
  // ????? = 22;  (g_E.A::x = 22; is ambiguous)
  g_E.B::b = 23;
  g_E.B::x = 24;
  // ????? = 25;
  // ????? = 26;
  g_E.C::c = 27;
  g_E.C::x = 28;
  g_E.D::d = 29;
  g_E.D::x = 30;
  g_E.E::e = 31;
  g_E.E::x = 32;

  g_anon_union.one = 1;
  g_anon_union.a = 2;

  inheritance2 ();	
}

// ======================== static member functions =====================

class Static {
public:
  static void ii(int, int);
};
void Static::ii (int, int) { }

// ======================== virtual base classes=========================

class vA {
 public:
  int va;
  int vx;
};

vA g_vA;

class vB : public virtual vA {
 public:
  int vb;
  int vx;
};

vB g_vB;

class vC : public virtual vA {
 public:
  int vc;
  int vx;
};

vC g_vC;

class vD : public virtual vB, public virtual vC {
 public:
  int vd;
  int vx;
};

vD g_vD;

class vE : public virtual vD {
 public:
  int ve;
  int vx;
};

vE g_vE;

void inheritance4 (void)
{
}

void inheritance3 (void)
{
  int ival;
  int *intp;

  // {vA::va, vA::vx}

  g_vA.vA::va = 1;
  g_vA.vA::vx = 2;

  // {{vA::va, vA::vx}, vB::vb, vB::vx}

  g_vB.vA::va = 3;
  g_vB.vA::vx = 4;
  g_vB.vB::vb = 5;
  g_vB.vB::vx = 6;

  // {{vA::va, vA::vx}, vC::vc, vC::vx}

  g_vC.vA::va = 7;
  g_vC.vA::vx = 8;
  g_vC.vC::vc = 9;
  g_vC.vC::vx = 10;

  // {{{{vA::va, vA::vx}, vB::vb, vB::vx}, vC::vc, vC::vx}, vD::vd,vD::vx}

  g_vD.vA::va = 11;
  g_vD.vA::vx = 12;
  g_vD.vB::vb = 13;
  g_vD.vB::vx = 14;
  g_vD.vC::vc = 15;
  g_vD.vC::vx = 16;
  g_vD.vD::vd = 17;
  g_vD.vD::vx = 18;


  // {{{{{vA::va,vA::vx},vB::vb,vB::vx},vC::vc,vC::vx},vD::vd,vD::vx},vE::ve,vE::vx}

  g_vD.vA::va = 19;
  g_vD.vA::vx = 20;
  g_vD.vB::vb = 21;
  g_vD.vB::vx = 22;
  g_vD.vC::vc = 23;
  g_vD.vC::vx = 24;
  g_vD.vD::vd = 25;
  g_vD.vD::vx = 26;
  g_vE.vE::ve = 27;
  g_vE.vE::vx = 28;

  inheritance4 ();	
}

// ======================================================================

class Base1 {
 public:
  int x;
  Base1(int i) { x = i; }
  ~Base1 () { }
};

typedef Base1 base1;

class Foo
{
 public:
  int x;
  int y;
  static int st;
  Foo (int i, int j) { x = i; y = j; }
  int operator! ();
  operator int ();
  int times (int y);
};

typedef Foo ByAnyOtherName;

class Bar : public Base1, public Foo {
 public:
  int z;
  Bar (int i, int j, int k) : Base1 (10*k), Foo (i, j) { z = k; }
};

int Foo::operator! () { return !x; }

int Foo::times (int y) { return x * y; }

int Foo::st = 100;

Foo::operator int() { return x; }

ByAnyOtherName foo(10, 11);
Bar bar(20, 21, 22);

/* Use a typedef for the baseclass to exercise gnu-v3-abi.c:gnuv3_dynamic_class
   recursion.  It's important that the class itself have no name to make sure
   the typedef makes it through to the recursive call.  */
typedef class {
 public:
  int x;
  virtual int get_x () { return x; }
} DynamicBase2;

class DynamicBar : public DynamicBase2
{
 public:
  DynamicBar (int i, int j) { x = i; y = j; }
  int y;
};

DynamicBar dynbar (23, 24);

class ClassWithEnum {
public:
  enum PrivEnum { red, green, blue, yellow = 42 };
  PrivEnum priv_enum;
  int x;
};

void enums2 (void)
{
}

/* classes.exp relies on statement order in this function for testing
   enumeration fields.  */

void enums1 ()
{
  ClassWithEnum obj_with_enum;
  obj_with_enum.priv_enum = ClassWithEnum::red;
  obj_with_enum.x = 0;
  enums2 ();
  obj_with_enum.priv_enum = ClassWithEnum::green;
  obj_with_enum.x = 1;
}

class ClassParam {
public:
  int Aptr_a (A *a) { return a->a; }
  int Aptr_x (A *a) { return a->x; }
  int Aref_a (A &a) { return a.a; }
  int Aref_x (A &a) { return a.x; }
  int Aval_a (A a) { return a.a; }
  int Aval_x (A a) { return a.x; }
};

ClassParam class_param;

class Contains_static_instance
{
 public:
  int x;
  int y;
  Contains_static_instance (int i, int j) { x = i; y = j; }
  static Contains_static_instance null;
};

Contains_static_instance Contains_static_instance::null(0,0);
Contains_static_instance csi(10,20);

class Contains_nested_static_instance
{
 public:
  class Nested
  {
   public:
    Nested(int i) : z(i) {}
    int z;
    static Contains_nested_static_instance xx;
  };

  Contains_nested_static_instance(int i, int j) : x(i), y(j) {}

  int x;
  int y;

  static Contains_nested_static_instance null;
  static Nested yy;
};

Contains_nested_static_instance Contains_nested_static_instance::null(0, 0);
Contains_nested_static_instance::Nested Contains_nested_static_instance::yy(5);
Contains_nested_static_instance
  Contains_nested_static_instance::Nested::xx(1,2);
Contains_nested_static_instance cnsi(30,40);

typedef struct {
  int one;
  int two;
} tagless_struct;
tagless_struct v_tagless;

/* Try to get the compiler to allocate a class in a register.  */
class small {
 public:
  int x;
  int method ();
};

int
small::method ()
{
  return x + 5;
}

void marker_reg1 () {}

int
register_class ()
{
  /* We don't call any methods for v, so gcc version cygnus-2.3.3-930220
     might put this variable in a register.  This is a lose, though, because
     it means that GDB can't call any methods for that variable.  */
  register small v;

  int i;

  /* Perform a computation sufficiently complicated that optimizing compilers
     won't optimized out the variable.  If some compiler constant-folds this
     whole loop, maybe using a parameter to this function here would help.  */
  v.x = 0;
  for (i = 0; i < 13; ++i)
    v.x += i;
  --v.x; /* v.x is now 77 */
  marker_reg1 ();
  return v.x + 5;
}

void dummy()
{
  v_bool = true;
  v_bool_array[0] = false;
  v_bool_array[1] = v_bool;
}

void use_methods ()
{
  /* Refer to methods so that they don't get optimized away. */
  int i;
  i = class_param.Aptr_a (&g_A);
  i = class_param.Aptr_x (&g_A);
  i = class_param.Aref_a (g_A);
  i = class_param.Aref_x (g_A);
  i = class_param.Aval_a (g_A);
  i = class_param.Aval_x (g_A);

  base1 b (3);
}


int
main()
{
  dummy();
  inheritance1 ();
  inheritance3 ();
  enums1 ();
  register_class ();

  /* FIXME: pmi gets optimized out.  Need to do some more computation with
     it or something.  (No one notices, because the test is xfail'd anyway,
     but that probably won't always be true...).  */
  int Foo::* pmi = &Foo::y;

  /* Make sure the AIX linker doesn't remove the variable.  */
  v_tagless.one = 5;

  use_methods ();

  return foo.*pmi;
}

/* Create an instance for some classes, otherwise they get optimized away.  */

default_public_struct default_public_s;
explicit_public_struct explicit_public_s;
protected_struct protected_s;
private_struct private_s;
mixed_protection_struct mixed_protection_s;
public_class public_c;
protected_class protected_c;
default_private_class default_private_c;
explicit_private_class explicit_private_c;
mixed_protection_class mixed_protection_c;
Commit	Line	Data
ed69573c MC	1	/* This testcase is part of GDB, the GNU debugger.
ed69573c MC	2
618f726f	3	Copyright 1993-2016 Free Software Foundation, Inc.
ed69573c MC	4
	5	This program is free software; you can redistribute it and/or modify
	6	it under the terms of the GNU General Public License as published by
a9762ec7	7	the Free Software Foundation; either version 3 of the License, or
ed69573c MC	8	(at your option) any later version.
	9
	10	This program is distributed in the hope that it will be useful,
	11	but WITHOUT ANY WARRANTY; without even the implied warranty of
	12	MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
	13	GNU General Public License for more details.
a9762ec7	14
ed69573c	15	You should have received a copy of the GNU General Public License
47d48711	16	along with this program. If not, see <http://www.gnu.org/licenses/>. */
ed69573c MC	17
	18	// Test various -- C++ -- things.
	19
	20	// ====================== basic C++ types =======================
	21	bool v_bool;
	22	bool v_bool_array[2];
	23
	24	typedef struct fleep fleep;
	25	struct fleep { int a; } s;
	26
	27	// ====================== simple class structures =======================
	28
	29	struct default_public_struct {
	30	// defaults to public:
	31	int a;
	32	int b;
	33	};
	34
	35	struct explicit_public_struct {
	36	public:
	37	int a;
	38	int b;
	39	};
	40
	41	struct protected_struct {
	42	protected:
	43	int a;
	44	int b;
	45	};
	46
	47	struct private_struct {
	48	private:
	49	int a;
	50	int b;
	51	};
	52
	53	struct mixed_protection_struct {
	54	public:
	55	int a;
	56	int b;
	57	private:
	58	int c;
	59	int d;
	60	protected:
	61	int e;
	62	int f;
	63	public:
	64	int g;
	65	private:
	66	int h;
	67	protected:
	68	int i;
	69	};
	70
	71	class public_class {
	72	public:
	73	int a;
	74	int b;
	75	};
	76
	77	class protected_class {
	78	protected:
	79	int a;
	80	int b;
81	};
82
83	class default_private_class {
84	// defaults to private:
85	int a;
86	int b;
87	};
88
89	class explicit_private_class {
90	private:
91	int a;
92	int b;
93	};
94
95	class mixed_protection_class {
96	public:
97	int a;
98	int b;
99	private:
100	int c;
101	int d;
102	protected:
103	int e;
104	int f;
105	public:
106	int g;
107	private:
108	int h;
109	protected:
110	int i;
111	};
112
113	class const_vol_method_class {
114	public:
115	int a;
116	int b;
117	int foo (int &) const;
118	int bar (int &) volatile;
119	int baz (int &) const volatile;
120	};
121
122	int const_vol_method_class::foo (int & ir) const
123	{
124	return ir + 3;
125	}
126	int const_vol_method_class::bar (int & ir) volatile
127	{
128	return ir + 4;
129	}
130	int const_vol_method_class::baz (int & ir) const volatile
131	{
132	return ir + 5;
133	}
134
135	// ========================= simple inheritance ==========================
136
137	class A {
138	public:
139	int a;
140	int x;
141	};
142
143	A g_A;
144
145	class B : public A {
146	public:
147	int b;
148	int x;
149	};
150
151	B g_B;
152
153	class C : public A {
154	public:
155	int c;
156	int x;
157	};
158
159	C g_C;
160
161	class D : public B, public C {
162	public:
163	int d;
164	int x;
165	};
166
167	D g_D;
168
169	class E : public D {
170	public:
171	int e;
172	int x;
173	};
174
175	E g_E;
176
177	class class_with_anon_union
178	{
179	public:
180	int one;
181	union
182	{
183	int a;
184	long b;
185	};
186	};
187
188	class_with_anon_union g_anon_union;
189
190	void inheritance2 (void)
191	{
192	}
193
194	void inheritance1 (void)
195	{
196	int ival;
197	int *intp;
198
199	// {A::a, A::x}
200
201	g_A.A::a = 1;
202	g_A.A::x = 2;
203
204	// {{A::a,A::x},B::b,B::x}
205
206	g_B.A::a = 3;
207	g_B.A::x = 4;
208	g_B.B::b = 5;
209	g_B.B::x = 6;
210
211	// {{A::a,A::x},C::c,C::x}
212
213	g_C.A::a = 7;
214	g_C.A::x = 8;
215	g_C.C::c = 9;
216	g_C.C::x = 10;
217
218	// {{{A::a,A::x},B::b,B::x},{{A::a,A::x},C::c,C::x},D::d,D::x}
219
220	// The following initialization code is non-portable, but allows us
221	// to initialize all members of g_D until we can fill in the missing
222	// initialization code with legal C++ code.
223
224	for (intp = (int *) &g_D, ival = 11;
225	intp < ((int *) &g_D + sizeof (g_D) / sizeof (int));
226	intp++, ival++)
227	{
228	*intp = ival;
229	}
230
231	// Overlay the nonportable initialization with legal initialization.
232
233	// ????? = 11; (g_D.A::a = 11; is ambiguous)
234	// ????? = 12; (g_D.A::x = 12; is ambiguous)
235	/* djb 6-3-2000
236
237	This should take care of it. Rather than try to initialize using an ambiguous
238	construct, use 2 unambiguous ones for each. Since the ambiguous a/x member is
239	coming from C, and B, initialize D's C::a, and B::a, and D's C::x and B::x.
240	*/
241	g_D.C::a = 15;
242	g_D.C::x = 12;
243	g_D.B::a = 11;
244	g_D.B::x = 12;
245	g_D.B::b = 13;
246	g_D.B::x = 14;
247	// ????? = 15;
248	// ????? = 16;
249	g_D.C::c = 17;
250	g_D.C::x = 18;
251	g_D.D::d = 19;
252	g_D.D::x = 20;
253
254
255	// {{{{A::a,A::x},B::b,B::x},{{A::a,A::x},C::c,C::x},D::d,D::x}},E::e,E::x}
256
257	// The following initialization code is non-portable, but allows us
258	// to initialize all members of g_D until we can fill in the missing
259	// initialization code with legal C++ code.
260
261	for (intp = (int *) &g_E, ival = 21;
262	intp < ((int *) &g_E + sizeof (g_E) / sizeof (int));
263	intp++, ival++)
264	{
265	*intp = ival;
266	}
267
268	// Overlay the nonportable initialization with legal initialization.
269
270	// ????? = 21; (g_E.A::a = 21; is ambiguous)
271	// ????? = 22; (g_E.A::x = 22; is ambiguous)
272	g_E.B::b = 23;
273	g_E.B::x = 24;
274	// ????? = 25;
275	// ????? = 26;
276	g_E.C::c = 27;
277	g_E.C::x = 28;
278	g_E.D::d = 29;
279	g_E.D::x = 30;
280	g_E.E::e = 31;
281	g_E.E::x = 32;
282
283	g_anon_union.one = 1;
284	g_anon_union.a = 2;
285
286	inheritance2 ();
287	}
288
289	// ======================== static member functions =====================
290
291	class Static {
292	public:
293	static void ii(int, int);
294	};
295	void Static::ii (int, int) { }
296
297	// ======================== virtual base classes=========================
298
299	class vA {
300	public:
301	int va;
302	int vx;
303	};
304
305	vA g_vA;
306
307	class vB : public virtual vA {
308	public:
309	int vb;
310	int vx;
311	};
312
313	vB g_vB;
314
315	class vC : public virtual vA {
316	public:
317	int vc;
318	int vx;
319	};
320
321	vC g_vC;
322
323	class vD : public virtual vB, public virtual vC {
324	public:
325	int vd;
326	int vx;
327	};
328
329	vD g_vD;
330
331	class vE : public virtual vD {
332	public:
333	int ve;
334	int vx;
335	};
336
337	vE g_vE;
338
339	void inheritance4 (void)
340	{
341	}
342
343	void inheritance3 (void)
344	{
345	int ival;
346	int *intp;
347
348	// {vA::va, vA::vx}
349
350	g_vA.vA::va = 1;
351	g_vA.vA::vx = 2;
352
353	// {{vA::va, vA::vx}, vB::vb, vB::vx}
354
355	g_vB.vA::va = 3;
356	g_vB.vA::vx = 4;
357	g_vB.vB::vb = 5;
358	g_vB.vB::vx = 6;
359
360	// {{vA::va, vA::vx}, vC::vc, vC::vx}
361
362	g_vC.vA::va = 7;
363	g_vC.vA::vx = 8;
364	g_vC.vC::vc = 9;
365	g_vC.vC::vx = 10;
366
367	// {{{{vA::va, vA::vx}, vB::vb, vB::vx}, vC::vc, vC::vx}, vD::vd,vD::vx}
368
369	g_vD.vA::va = 11;
370	g_vD.vA::vx = 12;
371	g_vD.vB::vb = 13;
372	g_vD.vB::vx = 14;
373	g_vD.vC::vc = 15;
374	g_vD.vC::vx = 16;
375	g_vD.vD::vd = 17;
376	g_vD.vD::vx = 18;
377
378
379	// {{{{{vA::va,vA::vx},vB::vb,vB::vx},vC::vc,vC::vx},vD::vd,vD::vx},vE::ve,vE::vx}
380
381	g_vD.vA::va = 19;
382	g_vD.vA::vx = 20;
383	g_vD.vB::vb = 21;
384	g_vD.vB::vx = 22;
385	g_vD.vC::vc = 23;
386	g_vD.vC::vx = 24;
387	g_vD.vD::vd = 25;
388	g_vD.vD::vx = 26;
389	g_vE.vE::ve = 27;
390	g_vE.vE::vx = 28;
391
392	inheritance4 ();
393	}
394
395	// ======================================================================
396
397	class Base1 {
398	public:
399	int x;
400	Base1(int i) { x = i; }
3fe8f3b3	401	~Base1 () { }
ed69573c MC	402	};
ed69573c MC	403
3fe8f3b3 KS	404	typedef Base1 base1;
3fe8f3b3 KS	405
ed69573c MC	406	class Foo
	407	{
	408	public:
	409	int x;
	410	int y;
	411	static int st;
	412	Foo (int i, int j) { x = i; y = j; }
	413	int operator! ();
	414	operator int ();
	415	int times (int y);
	416	};
	417
40f0318e KS	418	typedef Foo ByAnyOtherName;
40f0318e KS	419
ed69573c MC	420	class Bar : public Base1, public Foo {
	421	public:
	422	int z;
	423	Bar (int i, int j, int k) : Base1 (10*k), Foo (i, j) { z = k; }
	424	};
	425
	426	int Foo::operator! () { return !x; }
	427
	428	int Foo::times (int y) { return x * y; }
	429
	430	int Foo::st = 100;
	431
	432	Foo::operator int() { return x; }
	433
40f0318e	434	ByAnyOtherName foo(10, 11);
ed69573c MC	435	Bar bar(20, 21, 22);
ed69573c MC	436
0def5aaa DE	437	/* Use a typedef for the baseclass to exercise gnu-v3-abi.c:gnuv3_dynamic_class
	438	recursion. It's important that the class itself have no name to make sure
	439	the typedef makes it through to the recursive call. */
	440	typedef class {
	441	public:
	442	int x;
	443	virtual int get_x () { return x; }
	444	} DynamicBase2;
	445
	446	class DynamicBar : public DynamicBase2
	447	{
	448	public:
	449	DynamicBar (int i, int j) { x = i; y = j; }
	450	int y;
	451	};
	452
	453	DynamicBar dynbar (23, 24);
	454
ed69573c MC	455	class ClassWithEnum {
	456	public:
	457	enum PrivEnum { red, green, blue, yellow = 42 };
	458	PrivEnum priv_enum;
	459	int x;
	460	};
	461
	462	void enums2 (void)
	463	{
	464	}
	465
	466	/* classes.exp relies on statement order in this function for testing
	467	enumeration fields. */
	468
	469	void enums1 ()
	470	{
	471	ClassWithEnum obj_with_enum;
	472	obj_with_enum.priv_enum = ClassWithEnum::red;
	473	obj_with_enum.x = 0;
	474	enums2 ();
	475	obj_with_enum.priv_enum = ClassWithEnum::green;
c7414a01	476	obj_with_enum.x = 1;
ed69573c MC	477	}
	478
	479	class ClassParam {
	480	public:
	481	int Aptr_a (A *a) { return a->a; }
	482	int Aptr_x (A *a) { return a->x; }
	483	int Aref_a (A &a) { return a.a; }
	484	int Aref_x (A &a) { return a.x; }
	485	int Aval_a (A a) { return a.a; }
	486	int Aval_x (A a) { return a.x; }
	487	};
	488
	489	ClassParam class_param;
	490
	491	class Contains_static_instance
	492	{
	493	public:
	494	int x;
	495	int y;
	496	Contains_static_instance (int i, int j) { x = i; y = j; }
	497	static Contains_static_instance null;
	498	};
	499
	500	Contains_static_instance Contains_static_instance::null(0,0);
	501	Contains_static_instance csi(10,20);
	502
	503	class Contains_nested_static_instance
	504	{
	505	public:
	506	class Nested
	507	{
	508	public:
	509	Nested(int i) : z(i) {}
	510	int z;
	511	static Contains_nested_static_instance xx;
	512	};
	513
	514	Contains_nested_static_instance(int i, int j) : x(i), y(j) {}
	515
	516	int x;
	517	int y;
	518
	519	static Contains_nested_static_instance null;
	520	static Nested yy;
	521	};
	522
	523	Contains_nested_static_instance Contains_nested_static_instance::null(0, 0);
	524	Contains_nested_static_instance::Nested Contains_nested_static_instance::yy(5);
	525	Contains_nested_static_instance
	526	Contains_nested_static_instance::Nested::xx(1,2);
	527	Contains_nested_static_instance cnsi(30,40);
	528
	529	typedef struct {
	530	int one;
	531	int two;
	532	} tagless_struct;
	533	tagless_struct v_tagless;
	534
	535	/* Try to get the compiler to allocate a class in a register. */
	536	class small {
	537	public:
	538	int x;
	539	int method ();
	540	};
541
542	int
543	small::method ()
544	{
545	return x + 5;
546	}
547
548	void marker_reg1 () {}
549
550	int
551	register_class ()
552	{
553	/* We don't call any methods for v, so gcc version cygnus-2.3.3-930220
554	might put this variable in a register. This is a lose, though, because
555	it means that GDB can't call any methods for that variable. */
556	register small v;
557
558	int i;
559
560	/* Perform a computation sufficiently complicated that optimizing compilers
561	won't optimized out the variable. If some compiler constant-folds this
562	whole loop, maybe using a parameter to this function here would help. */
563	v.x = 0;
564	for (i = 0; i < 13; ++i)
565	v.x += i;
566	--v.x; /* v.x is now 77 */
567	marker_reg1 ();
568	return v.x + 5;
569	}
570
571	void dummy()
572	{
573	v_bool = true;
574	v_bool_array[0] = false;
575	v_bool_array[1] = v_bool;
576	}
577
578	void use_methods ()
579	{
580	/* Refer to methods so that they don't get optimized away. */
581	int i;
582	i = class_param.Aptr_a (&g_A);
583	i = class_param.Aptr_x (&g_A);
584	i = class_param.Aref_a (g_A);
585	i = class_param.Aref_x (g_A);
586	i = class_param.Aval_a (g_A);
587	i = class_param.Aval_x (g_A);
3fe8f3b3 KS	588
3fe8f3b3 KS	589	base1 b (3);
ed69573c MC	590	}
	591
	592
	593	int
	594	main()
	595	{
ed69573c MC	596	dummy();
	597	inheritance1 ();
	598	inheritance3 ();
	599	enums1 ();
	600	register_class ();
	601
	602	/* FIXME: pmi gets optimized out. Need to do some more computation with
	603	it or something. (No one notices, because the test is xfail'd anyway,
	604	but that probably won't always be true...). */
	605	int Foo::* pmi = &Foo::y;
	606
	607	/* Make sure the AIX linker doesn't remove the variable. */
	608	v_tagless.one = 5;
	609
	610	use_methods ();
	611
	612	return foo.*pmi;
	613	}
	614
	615	/* Create an instance for some classes, otherwise they get optimized away. */
	616
	617	default_public_struct default_public_s;
	618	explicit_public_struct explicit_public_s;
	619	protected_struct protected_s;
	620	private_struct private_s;
	621	mixed_protection_struct mixed_protection_s;
	622	public_class public_c;
	623	protected_class protected_c;
	624	default_private_class default_private_c;
	625	explicit_private_class explicit_private_c;
	626	mixed_protection_class mixed_protection_c;