gcc/symtab-thunks.h - gcc - Git at Google

 /* Representation of thunks inside symbol table.
    Copyright (C) 2003-2022 Free Software Foundation, Inc.
    Contributed by Jan Hubicka

 This file is part of GCC.

 GCC 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, or (at your option) any later
 version.

 GCC 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 GCC; see the file COPYING3.  If not see
 <http://www.gnu.org/licenses/>.  */

 #ifndef GCC_SYMTAB_THUNKS_H
 #define GCC_SYMTAB_THUNKS_H

 /* This symbol annotation holds information about thunk.

    Thunks are basically wrappers around methods which are introduced in case
    of multiple inheritance in order to adjust the value of the "this" pointer
    or of the returned value.

    In the case of this-adjusting thunks, each back-end can override the
    can_output_mi_thunk/output_mi_thunk target hooks to generate a minimal thunk
    (with a tail call for instance) directly as assembly.  For the default hook
    or for the case where the can_output_mi_thunk hooks return false, the thunk
    is gimplified and lowered using the regular machinery.  */

 struct GTY(()) thunk_info {
   /* Constructor.  */
   thunk_info ()
     : fixed_offset (0),
       virtual_value (0),
       indirect_offset (0),
       alias (NULL),
       this_adjusting (false),
       virtual_offset_p (false)
   {
   }
   /* Copy constructor.  */
   thunk_info (const thunk_info &t)
     : fixed_offset (t.fixed_offset),
       virtual_value (t.virtual_value),
       indirect_offset (t.indirect_offset),
       alias (t.alias),
       this_adjusting (t.this_adjusting),
       virtual_offset_p (t.virtual_offset_p)
   {
   }

   /* Compare for equiality.  */
   bool
   operator==(const thunk_info &other) const
   {
     return fixed_offset == other.fixed_offset
 	   && virtual_value == other.virtual_value
 	   && indirect_offset == other.indirect_offset
 	   && this_adjusting == other.this_adjusting
 	   && virtual_offset_p == other.virtual_offset_p;
   }
   bool
   operator!=(const thunk_info &other) const
   {
     return !(*this == other);
   }
   /* Copy operator.  */
   thunk_info &
   operator=(const thunk_info &other)
   {
     fixed_offset = other.fixed_offset;
     virtual_value = other.virtual_value;
     indirect_offset = other.indirect_offset;
     alias = other.alias;
     this_adjusting = other.this_adjusting;
     virtual_offset_p = other.virtual_offset_p;
     return *this;
   }

   /* Offset used to adjust "this".  */
   HOST_WIDE_INT fixed_offset;

   /* Offset in the virtual table to get the offset to adjust "this".  Valid iff
      VIRTUAL_OFFSET_P is true.  */
   HOST_WIDE_INT virtual_value;

   /* Offset from "this" to get the offset to adjust "this".  Zero means: this
      offset is to be ignored.  */
   HOST_WIDE_INT indirect_offset;

   /* Thunk target, i.e. the method that this thunk wraps.  Depending on the
      TARGET_USE_LOCAL_THUNK_ALIAS_P macro, this may have to be a new alias.  */
   tree alias;

   /* Nonzero for a "this" adjusting thunk and zero for a result adjusting
      thunk.  */
   bool this_adjusting;

   /* If true, this thunk is what we call a virtual thunk.  In this case:
      * for this-adjusting thunks, after the FIXED_OFFSET based adjustment is
        done, add to the result the offset found in the vtable at:
 	 vptr + VIRTUAL_VALUE
      * for result-adjusting thunks, the FIXED_OFFSET adjustment is done after
        the virtual one.  */
   bool virtual_offset_p;


   /* Dump thunk_info.  */
   void dump (FILE *);

   /* Stream out thunk_info.  */
   void stream_out (class lto_simple_output_block *);

   /* Stream in trunk_info.  */
   void stream_in (class lto_input_block *);

   hashval_t hash ();


   /* Return thunk_info, if available.  */
   static thunk_info *get (cgraph_node *node);

   /* Return thunk_info possibly creating new one.  */
   static thunk_info *get_create (cgraph_node *node);

   /* Remove thunk_info.  */
   static void remove (cgraph_node *node);

   /* Add unprocessed thunk.  */
   void register_early (cgraph_node *node);

   /* Attach recorded thunks to cgraph_nodes.  */
   static void process_early_thunks ();

   /* Release all thunk_infos.  */
   static void release (void);
 };

 bool expand_thunk (cgraph_node *, bool, bool);

 /* Return thunk_info, if available.  */
 inline thunk_info *
 thunk_info::get (cgraph_node *node)
 {
   if (!symtab->m_thunks)
     return NULL;
   return symtab->m_thunks->get (node);
 }

 /* Remove thunk_info association for NODE.  */
 inline void
 thunk_info::remove (cgraph_node *node)
 {
   symtab->m_thunks->remove (node);
 }

 /* Free thunk info summaries.  */
 inline void
 thunk_info::release ()
 {
   if (symtab->m_thunks)
     ggc_delete (symtab->m_thunks);
   symtab->m_thunks = NULL;
 }
 #endif  /* GCC_SYMTAB_THUNKS_H  */
	/* Representation of thunks inside symbol table.
	Copyright (C) 2003-2022 Free Software Foundation, Inc.
	Contributed by Jan Hubicka

	This file is part of GCC.

	GCC 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, or (at your option) any later
	version.

	GCC 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 GCC; see the file COPYING3. If not see
	<http://www.gnu.org/licenses/>. */

	#ifndef GCC_SYMTAB_THUNKS_H
	#define GCC_SYMTAB_THUNKS_H

	/* This symbol annotation holds information about thunk.

	Thunks are basically wrappers around methods which are introduced in case
	of multiple inheritance in order to adjust the value of the "this" pointer
	or of the returned value.

	In the case of this-adjusting thunks, each back-end can override the
	can_output_mi_thunk/output_mi_thunk target hooks to generate a minimal thunk
	(with a tail call for instance) directly as assembly. For the default hook
	or for the case where the can_output_mi_thunk hooks return false, the thunk
	is gimplified and lowered using the regular machinery. */

	struct GTY(()) thunk_info {
	/* Constructor. */
	thunk_info ()
	: fixed_offset (0),
	virtual_value (0),
	indirect_offset (0),
	alias (NULL),
	this_adjusting (false),
	virtual_offset_p (false)
	{
	}
	/* Copy constructor. */
	thunk_info (const thunk_info &t)
	: fixed_offset (t.fixed_offset),
	virtual_value (t.virtual_value),
	indirect_offset (t.indirect_offset),
	alias (t.alias),
	this_adjusting (t.this_adjusting),
	virtual_offset_p (t.virtual_offset_p)
	{
	}

	/* Compare for equiality. */
	bool
	operator==(const thunk_info &other) const
	{
	return fixed_offset == other.fixed_offset
	&& virtual_value == other.virtual_value
	&& indirect_offset == other.indirect_offset
	&& this_adjusting == other.this_adjusting
	&& virtual_offset_p == other.virtual_offset_p;
	}
	bool
	operator!=(const thunk_info &other) const
	{
	return !(*this == other);
	}
	/* Copy operator. */
	thunk_info &
	operator=(const thunk_info &other)
	{
	fixed_offset = other.fixed_offset;
	virtual_value = other.virtual_value;
	indirect_offset = other.indirect_offset;
	alias = other.alias;
	this_adjusting = other.this_adjusting;
	virtual_offset_p = other.virtual_offset_p;
	return *this;
	}

	/* Offset used to adjust "this". */
	HOST_WIDE_INT fixed_offset;

	/* Offset in the virtual table to get the offset to adjust "this". Valid iff
	VIRTUAL_OFFSET_P is true. */
	HOST_WIDE_INT virtual_value;

	/* Offset from "this" to get the offset to adjust "this". Zero means: this
	offset is to be ignored. */
	HOST_WIDE_INT indirect_offset;

	/* Thunk target, i.e. the method that this thunk wraps. Depending on the
	TARGET_USE_LOCAL_THUNK_ALIAS_P macro, this may have to be a new alias. */
	tree alias;

	/* Nonzero for a "this" adjusting thunk and zero for a result adjusting
	thunk. */
	bool this_adjusting;

	/* If true, this thunk is what we call a virtual thunk. In this case:
	* for this-adjusting thunks, after the FIXED_OFFSET based adjustment is
	done, add to the result the offset found in the vtable at:
	vptr + VIRTUAL_VALUE
	* for result-adjusting thunks, the FIXED_OFFSET adjustment is done after
	the virtual one. */
	bool virtual_offset_p;



	/* Dump thunk_info. */
	void dump (FILE *);

	/* Stream out thunk_info. */
	void stream_out (class lto_simple_output_block *);

	/* Stream in trunk_info. */
	void stream_in (class lto_input_block *);

	hashval_t hash ();



	/* Return thunk_info, if available. */
	static thunk_info get (cgraph_node node);

	/* Return thunk_info possibly creating new one. */
	static thunk_info get_create (cgraph_node node);

	/* Remove thunk_info. */
	static void remove (cgraph_node *node);

	/* Add unprocessed thunk. */
	void register_early (cgraph_node *node);

	/* Attach recorded thunks to cgraph_nodes. */
	static void process_early_thunks ();

	/* Release all thunk_infos. */
	static void release (void);
	};

	bool expand_thunk (cgraph_node *, bool, bool);

	/* Return thunk_info, if available. */
	inline thunk_info *
	thunk_info::get (cgraph_node *node)
	{
	if (!symtab->m_thunks)
	return NULL;
	return symtab->m_thunks->get (node);
	}

	/* Remove thunk_info association for NODE. */
	inline void
	thunk_info::remove (cgraph_node *node)
	{
	symtab->m_thunks->remove (node);
	}

	/* Free thunk info summaries. */
	inline void
	thunk_info::release ()
	{
	if (symtab->m_thunks)
	ggc_delete (symtab->m_thunks);
	symtab->m_thunks = NULL;
	}
	#endif /* GCC_SYMTAB_THUNKS_H */