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/* -*- c++ -*- */
// ============================================================================
//
// = LIBRARY
// TAO IDL
//
// = FILENAME
// be_state.h
//
// = DESCRIPTION
// The Code generator state class and its subclasses
//
// = AUTHOR
// Aniruddha Gokhale
//
// ============================================================================
#if !defined (TAO_BE_STATE_H)
#define TAO_BE_STATE_H
class be_state
{
// =TITLE
// be_state
// =DESCRIPTION
// Emits code based on current state. This is an abstract base class. The
// task of code generation is handled by subclasses.
public:
virtual int gen_code (be_type *bt, be_decl *d, be_type *type=0) = 0;
// code generation for node "d" whose type is "bt". The third parameter is
// used for recursive invocation involving a typedef
virtual ~be_state (void);
// destructor
protected:
be_state (void);
// constructor
};
// ============== subclasses ====================
class be_state_struct_ch: public be_state
{
// =TITLE
// be_state_struct_ch
// =DESCRIPTION
// struct generation in client header
public:
be_state_struct_ch (void);
// constructor
virtual int gen_code (be_type *bt, be_decl *d, be_type *type=0);
// code generation for node "d" whose type is "bt". The third parameter is
// used for recursive invocation involving a typedef
};
typedef ACE_Singleton<be_state_struct_ch, ACE_SYNCH_MUTEX> TAO_BE_STATE_STRUCT_CH;
class be_state_union_disctypedefn_ch: public be_state
{
// =TITLE
// be_state_union_disctypedefn_ch
// =DESCRIPTION
// union discriminant defn generation in client header
public:
be_state_union_disctypedefn_ch (void);
// constructor
virtual int gen_code (be_type *bt, be_decl *d, be_type *type=0);
// code generation for node "d" whose type is "bt". The third parameter is
// used for recursive invocation involving a typedef
};
typedef ACE_Singleton<be_state_union_disctypedefn_ch, ACE_SYNCH_MUTEX>
TAO_BE_STATE_UNION_DISCTYPEDEFN_CH;
class be_state_union_disctypedefn_ci: public be_state
{
// =TITLE
// be_state_union_disctypedefn_ci
// =DESCRIPTION
// union discriminant defn generation in client inline file
public:
be_state_union_disctypedefn_ci (void);
// constructor
virtual int gen_code (be_type *bt, be_decl *d, be_type *type=0);
// code generation for node "d" whose type is "bt". The third parameter is
// used for recursive invocation involving a typedef
};
typedef ACE_Singleton<be_state_union_disctypedefn_ci, ACE_SYNCH_MUTEX>
TAO_BE_STATE_UNION_DISCTYPEDEFN_CI;
class be_state_union_public_ch: public be_state
{
// =TITLE
// be_state_union_public_ch
// =DESCRIPTION
// union discriminant defn generation in client header file
public:
be_state_union_public_ch (void);
// constructor
virtual int gen_code (be_type *bt, be_decl *d, be_type *type=0);
// code generation for node "d" whose type is "bt". The third parameter is
// used for recursive invocation involving a typedef
};
typedef ACE_Singleton<be_state_union_public_ch, ACE_SYNCH_MUTEX>
TAO_BE_STATE_UNION_PUBLIC_CH;
class be_state_union_public_ci: public be_state
{
// =TITLE
// be_state_union_public_ci
// =DESCRIPTION
// union discriminant defn generation in client inline file
public:
be_state_union_public_ci (void);
// constructor
virtual int gen_code (be_type *bt, be_decl *d, be_type *type=0);
// code generation for node "d" whose type is "bt". The third parameter is
// used for recursive invocation involving a typedef
};
typedef ACE_Singleton<be_state_union_public_ci, ACE_SYNCH_MUTEX>
TAO_BE_STATE_UNION_PUBLIC_CI;
class be_state_union_private_ch: public be_state
{
// =TITLE
// be_state_union_private_ch
// =DESCRIPTION
// union discriminant defn generation in client header file
public:
be_state_union_private_ch (void);
// constructor
virtual int gen_code (be_type *bt, be_decl *d, be_type *type=0);
// code generation for node "d" whose type is "bt". The third parameter is
// used for recursive invocation involving a typedef
};
typedef ACE_Singleton<be_state_union_private_ch, ACE_SYNCH_MUTEX>
TAO_BE_STATE_UNION_PRIVATE_CH;
class be_state_operation: public be_state
{
// =TITLE
// be_state_operation
// =DESCRIPTION
// operation return type
public:
be_state_operation (void);
// constructor
virtual int gen_code (be_type *bt, be_decl *d, be_type *type=0);
// code generation for node "d" whose type is "bt". The third parameter is
// used for recursive invocation involving a typedef
};
typedef ACE_Singleton<be_state_operation, ACE_SYNCH_MUTEX>
TAO_BE_STATE_OPERATION;
class be_state_argument: public be_state
{
// =TITLE
// be_state_argument
// =DESCRIPTION
// argument return type
public:
be_state_argument (void);
// constructor
virtual int gen_code (be_type *bt, be_decl *d, be_type *type=0);
// code generation for node "d" whose type is "bt". The third parameter is
// used for recursive invocation involving a typedef
};
typedef ACE_Singleton<be_state_argument, ACE_SYNCH_MUTEX>
TAO_BE_STATE_ARGUMENT;
#endif // end of be_state
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