Subversion Repositories openrisc_2011-10-31

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

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

   Copyright 1993, 1994, 1995, 1996, 1997, 1998, 1999, 2000, 2001, 2007, 2008

   Copyright 1993, 1994, 1995, 1996, 1997, 1998, 1999, 2000, 2001, 2007, 2008

   Free Software Foundation, Inc.

   Free Software Foundation, Inc.

   This program is free software; you can redistribute it and/or modify

   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

   it under the terms of the GNU General Public License as published by

   the Free Software Foundation; either version 3 of the License, or

   the Free Software Foundation; either version 3 of the License, or

   (at your option) any later version.

   (at your option) any later version.

   This program is distributed in the hope that it will be useful,

   This program is distributed in the hope that it will be useful,

   but WITHOUT ANY WARRANTY; without even the implied warranty of

   but WITHOUT ANY WARRANTY; without even the implied warranty of

   MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the

   MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the

   GNU General Public License for more details.

   GNU General Public License for more details.

   You should have received a copy of the GNU General Public License

   You should have received a copy of the GNU General Public License

   along with this program.  If not, see <http://www.gnu.org/licenses/>.

   along with this program.  If not, see <http://www.gnu.org/licenses/>.

   */

   */

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

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

// ====================== basic C++ types  =======================

// ====================== basic C++ types  =======================

bool            v_bool;

bool            v_bool;

bool            v_bool_array[2];

bool            v_bool_array[2];

typedef struct fleep fleep;

typedef struct fleep fleep;

struct fleep { int a; } s;

struct fleep { int a; } s;

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

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

struct default_public_struct {

struct default_public_struct {

 // defaults to public:

 // defaults to public:

  int a;

  int a;

  int b;

  int b;

};

};

struct explicit_public_struct {

struct explicit_public_struct {

 public:

 public:

  int a;

  int a;

  int b;

  int b;

};

};

struct protected_struct {

struct protected_struct {

 protected:

 protected:

  int a;

  int a;

  int b;

  int b;

};

};

struct private_struct {

struct private_struct {

 private:

 private:

  int a;

  int a;

  int b;

  int b;

};

};

struct mixed_protection_struct {

struct mixed_protection_struct {

 public:

 public:

  int a;

  int a;

  int b;

  int b;

 private:

 private:

  int c;

  int c;

  int d;

  int d;

 protected:

 protected:

  int e;

  int e;

  int f;

  int f;

 public:

 public:

  int g;

  int g;

 private:

 private:

  int h;

  int h;

 protected:

 protected:

  int i;

  int i;

};

};

class public_class {

class public_class {

 public:

 public:

  int a;

  int a;

  int b;

  int b;

};

};

class protected_class {

class protected_class {

 protected:

 protected:

  int a;

  int a;

  int b;

  int b;

};

};

class default_private_class {

class default_private_class {

 // defaults to private:

 // defaults to private:

  int a;

  int a;

  int b;

  int b;

};

};

class explicit_private_class {

class explicit_private_class {

 private:

 private:

  int a;

  int a;

  int b;

  int b;

};

};

class mixed_protection_class {

class mixed_protection_class {

 public:

 public:

  int a;

  int a;

  int b;

  int b;

 private:

 private:

  int c;

  int c;

  int d;

  int d;

 protected:

 protected:

  int e;

  int e;

  int f;

  int f;

 public:

 public:

  int g;

  int g;

 private:

 private:

  int h;

  int h;

 protected:

 protected:

  int i;

  int i;

};

};

class const_vol_method_class {

class const_vol_method_class {

public:

public:

  int a;

  int a;

  int b;

  int b;

  int foo (int &) const;

  int foo (int &) const;

  int bar (int &) volatile;

  int bar (int &) volatile;

  int baz (int &) const volatile;

  int baz (int &) const volatile;

};

};

int const_vol_method_class::foo (int & ir) const

int const_vol_method_class::foo (int & ir) const

{

{

  return ir + 3;

  return ir + 3;

}

}

int const_vol_method_class::bar (int & ir) volatile

int const_vol_method_class::bar (int & ir) volatile

{

{

  return ir + 4;

  return ir + 4;

}

}

int const_vol_method_class::baz (int & ir) const volatile

int const_vol_method_class::baz (int & ir) const volatile

{

{

  return ir + 5;

  return ir + 5;

}

}

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

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

class A {

class A {

 public:

 public:

  int a;

  int a;

  int x;

  int x;

};

};

A g_A;

A g_A;

class B : public A {

class B : public A {

 public:

 public:

  int b;

  int b;

  int x;

  int x;

};

};

B g_B;

B g_B;

class C : public A {

class C : public A {

 public:

 public:

  int c;

  int c;

  int x;

  int x;

};

};

C g_C;

C g_C;

class D : public B, public C {

class D : public B, public C {

 public:

 public:

  int d;

  int d;

  int x;

  int x;

};

};

D g_D;

D g_D;

class E : public D {

class E : public D {

 public:

 public:

  int e;

  int e;

  int x;

  int x;

};

};

E g_E;

E g_E;

class class_with_anon_union

class class_with_anon_union

{

{

 public:

 public:

  int one;

  int one;

  union

  union

  {

  {

    int a;

    int a;

    long b;

    long b;

  };

  };

};

};

class_with_anon_union g_anon_union;

class_with_anon_union g_anon_union;

void inheritance2 (void)

void inheritance2 (void)

{

{

}

}

void inheritance1 (void)

void inheritance1 (void)

{

{

  int ival;

  int ival;

  int *intp;

  int *intp;

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

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

  g_A.A::a = 1;

  g_A.A::a = 1;

  g_A.A::x = 2;

  g_A.A::x = 2;

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

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

  g_B.A::a = 3;

  g_B.A::a = 3;

  g_B.A::x = 4;

  g_B.A::x = 4;

  g_B.B::b = 5;

  g_B.B::b = 5;

  g_B.B::x = 6;

  g_B.B::x = 6;

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

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

  g_C.A::a = 7;

  g_C.A::a = 7;

  g_C.A::x = 8;

  g_C.A::x = 8;

  g_C.C::c = 9;

  g_C.C::c = 9;

  g_C.C::x = 10;

  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}

  // {{{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

  // The following initialization code is non-portable, but allows us

  // to initialize all members of g_D until we can fill in the missing

  // to initialize all members of g_D until we can fill in the missing

  // initialization code with legal C++ code.

  // initialization code with legal C++ code.

  for (intp = (int *) &g_D, ival = 11;

  for (intp = (int *) &g_D, ival = 11;

       intp < ((int *) &g_D + sizeof (g_D) / sizeof (int));

       intp < ((int *) &g_D + sizeof (g_D) / sizeof (int));

       intp++, ival++)

       intp++, ival++)

    {

    {

      *intp = ival;

      *intp = ival;

    }

    }

  // Overlay the nonportable initialization with legal initialization.

  // Overlay the nonportable initialization with legal initialization.

  // ????? = 11;  (g_D.A::a = 11; is ambiguous)

  // ????? = 11;  (g_D.A::a = 11; is ambiguous)

  // ????? = 12;  (g_D.A::x = 12; is ambiguous)

  // ????? = 12;  (g_D.A::x = 12; is ambiguous)

/* djb 6-3-2000

/* djb 6-3-2000

        This should take care of it. Rather than try to initialize using an ambiguous

        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

        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.

        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::a = 15;

  g_D.C::x = 12;

  g_D.C::x = 12;

  g_D.B::a = 11;

  g_D.B::a = 11;

  g_D.B::x = 12;

  g_D.B::x = 12;

  g_D.B::b = 13;

  g_D.B::b = 13;

  g_D.B::x = 14;

  g_D.B::x = 14;

  // ????? = 15;

  // ????? = 15;

  // ????? = 16;

  // ????? = 16;

  g_D.C::c = 17;

  g_D.C::c = 17;

  g_D.C::x = 18;

  g_D.C::x = 18;

  g_D.D::d = 19;

  g_D.D::d = 19;

  g_D.D::x = 20;

  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}

  // {{{{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

  // The following initialization code is non-portable, but allows us

  // to initialize all members of g_D until we can fill in the missing

  // to initialize all members of g_D until we can fill in the missing

  // initialization code with legal C++ code.

  // initialization code with legal C++ code.

  for (intp = (int *) &g_E, ival = 21;

  for (intp = (int *) &g_E, ival = 21;

       intp < ((int *) &g_E + sizeof (g_E) / sizeof (int));

       intp < ((int *) &g_E + sizeof (g_E) / sizeof (int));

       intp++, ival++)

       intp++, ival++)

  {

  {

    *intp = ival;

    *intp = ival;

  }

  }

  // Overlay the nonportable initialization with legal initialization.

  // Overlay the nonportable initialization with legal initialization.

  // ????? = 21;  (g_E.A::a = 21; is ambiguous)

  // ????? = 21;  (g_E.A::a = 21; is ambiguous)

  // ????? = 22;  (g_E.A::x = 22; is ambiguous)

  // ????? = 22;  (g_E.A::x = 22; is ambiguous)

  g_E.B::b = 23;

  g_E.B::b = 23;

  g_E.B::x = 24;

  g_E.B::x = 24;

  // ????? = 25;

  // ????? = 25;

  // ????? = 26;

  // ????? = 26;

  g_E.C::c = 27;

  g_E.C::c = 27;

  g_E.C::x = 28;

  g_E.C::x = 28;

  g_E.D::d = 29;

  g_E.D::d = 29;

  g_E.D::x = 30;

  g_E.D::x = 30;

  g_E.E::e = 31;

  g_E.E::e = 31;

  g_E.E::x = 32;

  g_E.E::x = 32;

  g_anon_union.one = 1;

  g_anon_union.one = 1;

  g_anon_union.a = 2;

  g_anon_union.a = 2;

  inheritance2 ();

  inheritance2 ();

}

}

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

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

class Static {

class Static {

public:

public:

  static void ii(int, int);

  static void ii(int, int);

};

};

void Static::ii (int, int) { }

void Static::ii (int, int) { }

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

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

class vA {

class vA {

 public:

 public:

  int va;

  int va;

  int vx;

  int vx;

};

};

vA g_vA;

vA g_vA;

class vB : public virtual vA {

class vB : public virtual vA {

 public:

 public:

  int vb;

  int vb;

  int vx;

  int vx;

};

};

vB g_vB;

vB g_vB;

class vC : public virtual vA {

class vC : public virtual vA {

 public:

 public:

  int vc;

  int vc;

  int vx;

  int vx;

};

};

vC g_vC;

vC g_vC;

class vD : public virtual vB, public virtual vC {

class vD : public virtual vB, public virtual vC {

 public:

 public:

  int vd;

  int vd;

  int vx;

  int vx;

};

};

vD g_vD;

vD g_vD;

class vE : public virtual vD {

class vE : public virtual vD {

 public:

 public:

  int ve;

  int ve;

  int vx;

  int vx;

};

};

vE g_vE;

vE g_vE;

void inheritance4 (void)

void inheritance4 (void)

{

{

}

}

void inheritance3 (void)

void inheritance3 (void)

{

{

  int ival;

  int ival;

  int *intp;

  int *intp;

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

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

  g_vA.vA::va = 1;

  g_vA.vA::va = 1;

  g_vA.vA::vx = 2;

  g_vA.vA::vx = 2;

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

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

  g_vB.vA::va = 3;

  g_vB.vA::va = 3;

  g_vB.vA::vx = 4;

  g_vB.vA::vx = 4;

  g_vB.vB::vb = 5;

  g_vB.vB::vb = 5;

  g_vB.vB::vx = 6;

  g_vB.vB::vx = 6;

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

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

  g_vC.vA::va = 7;

  g_vC.vA::va = 7;

  g_vC.vA::vx = 8;

  g_vC.vA::vx = 8;

  g_vC.vC::vc = 9;

  g_vC.vC::vc = 9;

  g_vC.vC::vx = 10;

  g_vC.vC::vx = 10;

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

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

  g_vD.vA::va = 11;

  g_vD.vA::va = 11;

  g_vD.vA::vx = 12;

  g_vD.vA::vx = 12;

  g_vD.vB::vb = 13;

  g_vD.vB::vb = 13;

  g_vD.vB::vx = 14;

  g_vD.vB::vx = 14;

  g_vD.vC::vc = 15;

  g_vD.vC::vc = 15;

  g_vD.vC::vx = 16;

  g_vD.vC::vx = 16;

  g_vD.vD::vd = 17;

  g_vD.vD::vd = 17;

  g_vD.vD::vx = 18;

  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}

  // {{{{{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::va = 19;

  g_vD.vA::vx = 20;

  g_vD.vA::vx = 20;

  g_vD.vB::vb = 21;

  g_vD.vB::vb = 21;

  g_vD.vB::vx = 22;

  g_vD.vB::vx = 22;

  g_vD.vC::vc = 23;

  g_vD.vC::vc = 23;

  g_vD.vC::vx = 24;

  g_vD.vC::vx = 24;

  g_vD.vD::vd = 25;

  g_vD.vD::vd = 25;

  g_vD.vD::vx = 26;

  g_vD.vD::vx = 26;

  g_vE.vE::ve = 27;

  g_vE.vE::ve = 27;

  g_vE.vE::vx = 28;

  g_vE.vE::vx = 28;

  inheritance4 ();

  inheritance4 ();

}

}

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

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

class Base1 {

class Base1 {

 public:

 public:

  int x;

  int x;

  Base1(int i) { x = i; }

  Base1(int i) { x = i; }

};

};

class Foo

class Foo

{

{

 public:

 public:

  int x;

  int x;

  int y;

  int y;

  static int st;

  static int st;

  Foo (int i, int j) { x = i; y = j; }

  Foo (int i, int j) { x = i; y = j; }

  int operator! ();

  int operator! ();

  operator int ();

  operator int ();

  int times (int y);

  int times (int y);

};

};

class Bar : public Base1, public Foo {

class Bar : public Base1, public Foo {

 public:

 public:

  int z;

  int z;

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

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

};

};

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

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

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

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

int Foo::st = 100;

int Foo::st = 100;

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

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

Foo foo(10, 11);

Foo foo(10, 11);

Bar bar(20, 21, 22);

Bar bar(20, 21, 22);

class ClassWithEnum {

class ClassWithEnum {

public:

public:

  enum PrivEnum { red, green, blue, yellow = 42 };

  enum PrivEnum { red, green, blue, yellow = 42 };

  PrivEnum priv_enum;

  PrivEnum priv_enum;

  int x;

  int x;

};

};

void enums2 (void)

void enums2 (void)

{

{

}

}

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

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

   enumeration fields.  */

   enumeration fields.  */

void enums1 ()

void enums1 ()

{

{

  ClassWithEnum obj_with_enum;

  ClassWithEnum obj_with_enum;

  obj_with_enum.priv_enum = ClassWithEnum::red;

  obj_with_enum.priv_enum = ClassWithEnum::red;

  obj_with_enum.x = 0;

  obj_with_enum.x = 0;

  enums2 ();

  enums2 ();

  obj_with_enum.priv_enum = ClassWithEnum::green;

  obj_with_enum.priv_enum = ClassWithEnum::green;

}

}

class ClassParam {

class ClassParam {

public:

public:

  int Aptr_a (A *a) { return a->a; }

  int Aptr_a (A *a) { return a->a; }

  int Aptr_x (A *a) { return a->x; }

  int Aptr_x (A *a) { return a->x; }

  int Aref_a (A &a) { return a.a; }

  int Aref_a (A &a) { return a.a; }

  int Aref_x (A &a) { return a.x; }

  int Aref_x (A &a) { return a.x; }

  int Aval_a (A a) { return a.a; }

  int Aval_a (A a) { return a.a; }

  int Aval_x (A a) { return a.x; }

  int Aval_x (A a) { return a.x; }

};

};

ClassParam class_param;

ClassParam class_param;

class Contains_static_instance

class Contains_static_instance

{

{

 public:

 public:

  int x;

  int x;

  int y;

  int y;

  Contains_static_instance (int i, int j) { x = i; y = j; }

  Contains_static_instance (int i, int j) { x = i; y = j; }

  static Contains_static_instance null;

  static Contains_static_instance null;

};

};

Contains_static_instance Contains_static_instance::null(0,0);

Contains_static_instance Contains_static_instance::null(0,0);

Contains_static_instance csi(10,20);

Contains_static_instance csi(10,20);

class Contains_nested_static_instance

class Contains_nested_static_instance

{

{

 public:

 public:

  class Nested

  class Nested

  {

  {

   public:

   public:

    Nested(int i) : z(i) {}

    Nested(int i) : z(i) {}

    int z;

    int z;

    static Contains_nested_static_instance xx;

    static Contains_nested_static_instance xx;

  };

  };

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

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

  int x;

  int x;

  int y;

  int y;

  static Contains_nested_static_instance null;

  static Contains_nested_static_instance null;

  static Nested yy;

  static Nested yy;

};

};

Contains_nested_static_instance Contains_nested_static_instance::null(0, 0);

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::Nested Contains_nested_static_instance::yy(5);

Contains_nested_static_instance

Contains_nested_static_instance

  Contains_nested_static_instance::Nested::xx(1,2);

  Contains_nested_static_instance::Nested::xx(1,2);

Contains_nested_static_instance cnsi(30,40);

Contains_nested_static_instance cnsi(30,40);

typedef struct {

typedef struct {

  int one;

  int one;

  int two;

  int two;

} tagless_struct;

} tagless_struct;

tagless_struct v_tagless;

tagless_struct v_tagless;

/* Try to get the compiler to allocate a class in a register.  */

/* Try to get the compiler to allocate a class in a register.  */

class small {

class small {

 public:

 public:

  int x;

  int x;

  int method ();

  int method ();

};

};

int

int

small::method ()

small::method ()

{

{

  return x + 5;

  return x + 5;

}

}

void marker_reg1 () {}

void marker_reg1 () {}

int

int

register_class ()

register_class ()

{

{

  /* We don't call any methods for v, so gcc version cygnus-2.3.3-930220

  /* 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

     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.  */

     it means that GDB can't call any methods for that variable.  */

  register small v;

  register small v;

  int i;

  int i;

  /* Perform a computation sufficiently complicated that optimizing compilers

  /* Perform a computation sufficiently complicated that optimizing compilers

     won't optimized out the variable.  If some compiler constant-folds this

     won't optimized out the variable.  If some compiler constant-folds this

     whole loop, maybe using a parameter to this function here would help.  */

     whole loop, maybe using a parameter to this function here would help.  */

  v.x = 0;

  v.x = 0;

  for (i = 0; i < 13; ++i)

  for (i = 0; i < 13; ++i)

    v.x += i;

    v.x += i;

  --v.x; /* v.x is now 77 */

  --v.x; /* v.x is now 77 */

  marker_reg1 ();

  marker_reg1 ();

  return v.x + 5;

  return v.x + 5;

}

}

void dummy()

void dummy()

{

{

  v_bool = true;

  v_bool = true;

  v_bool_array[0] = false;

  v_bool_array[0] = false;

  v_bool_array[1] = v_bool;

  v_bool_array[1] = v_bool;

}

}

void use_methods ()