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/*
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 * Copyright (C) 1995-2011 University of Karlsruhe.  All right reserved.
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 *
 * This file is part of libFirm.
 *
 * This file may be distributed and/or modified under the terms of the
 * GNU General Public License version 2 as published by the Free Software
 * Foundation and appearing in the file LICENSE.GPL included in the
 * packaging of this file.
 *
 * Licensees holding valid libFirm Professional Edition licenses may use
 * this file in accordance with the libFirm Commercial License.
 * Agreement provided with the Software.
 *
 * This file is provided AS IS with NO WARRANTY OF ANY KIND, INCLUDING THE
 * WARRANTY OF DESIGN, MERCHANTABILITY AND FITNESS FOR A PARTICULAR
 * PURPOSE.
 */
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/**
 * @file
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 * @brief Declarations for functions and datastructures to represent types
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 */
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#ifndef FIRM_TYPEREP_H
#define FIRM_TYPEREP_H

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#include <stdlib.h>
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#include "firm_types.h"

#include "begin.h"
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/**
 * @page entity       Entity representation
 *
 * An entity is the representation of program known objects in Firm.
 * The primary concept of entities is to represent members of complex
 * types, i.e., fields and methods of classes.  As not all programming
 * language model all variables and methods as members of some class,
 * the concept of entities is extended to cover also local and global
 * variables, and arbitrary procedures.
 *
 * An entity always specifies the type of the object it represents and
 * the type of the object it is a part of, the owner of the entity.
 * Originally this is the type of the class of which the entity is a
 * member.
 * The owner of local variables is the procedure they are defined in.
 * The owner of global variables and procedures visible in the whole
 * program is a universally defined class type "GlobalType".  The owner
 * of procedures defined in the scope of an other procedure is the
 * enclosing procedure.
 *
 * The type ir_entity is an abstract data type to represent program entities.
 * If contains the following attributes:
 *
 *   - owner:      A compound type this entity is a part of.
 *   - type:       The type of this entity.
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 *   - name:       The string that represents this entity in the source program
 *   - linkage:    A flag indicating how the linker treats a symbol
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 *   - offset:     The offset of the entity within the compound object in bytes.  Only set
 *                 if the owner in the state "layout_fixed".
 *   - offset_bits_remainder:   The offset bit remainder of a bitfield entity (in a compound)
 *                 in bits.  Only set if the owner in the state "layout_fixed".
 *   - overwrites: A list of entities overwritten by this entity.  This list is only
 *                 existent if the owner of this entity is a class.  The members in
 *                 this list must be entities of super classes.
 *   - overwrittenby: A list of entities that overwrite this entity.  This list is only
 *                 existent if the owner of this entity is a class.  The members in
 *                 this list must be entities of sub classes.
 *   - link:       A void* to associate some additional information with the entity.
 *   - irg:        If the entity is a method this is the ir graph that represents the
 *                 code of the method.
 *   - visited:    visited flag.  Master flag is type_visited.
 *
 * These fields can only be accessed via access functions.
 *
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 * Overwrites is a field that specifies that an access to the overwritten
 * entity in the supertype must use this entity.  It's a list as with
 * multiple inheritance several entities can be overwritten.  This field
 * is mostly useful for method entities.
 * If a Sel node selects an entity that is overwritten by other entities it
 * must return a pointer to the entity of the dynamic type of the pointer
 * that is passed to it.  Lowering of the Sel node must assure this.
 * Overwrittenby is the inverse of overwrites.  Both add routines add
 * both relations, they only differ in the order of arguments.
 *
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 * @see  ir_type, ir_entity
 */

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/**
 * Visibility classed for entities.
 */
typedef enum {
	/**
	 * The entity is visible outside the compilation unit, but it is defined
	 * here.
	 */
	ir_visibility_default,
	/**
	 * The entity is local to the compilation unit.
	 * A local entity is not visible in other compilation units.
	 * Note that the entity might still be accessed indirectly from other units
	 * through pointers.
	 */
	ir_visibility_local,
	/**
	 * The entity is defined outside the compilation unit but potentially used
	 * here.
	 */
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	ir_visibility_external,
	/**
	 * This has the same semantic as visibility_local. Additionally the symbol is
	 * completely hidden from the linker (it only appears in the assembly).
	 * While visibility_local is probably still visible to debuggers,
	 * visibility_private symbols aren't and probably won't appear in the object
	 * files
	 */
	ir_visibility_private
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} ir_visibility;

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/**
 * linkage specifies how the linker treats symbols
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 */
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typedef enum ir_linkage {
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	IR_LINKAGE_DEFAULT         = 0,
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	/**
	 * A symbol whose definition won't change in a program.
	 * Optimisation might replace loads from this entity with constants.
	 * Also most linkers put such data in a constant segment which is shared
	 * between multiple running instances of the same application.
	 */
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	IR_LINKAGE_CONSTANT        = 1 << 0,
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	/**
	 * The entity is a weak symbol.
	 * A weak symbol is overridden by a non-weak symbol if one exists.
	 * Most linkers only support the IR_LINKAGE_WEAK in combination with
	 * IR_LINKAGE_MERGE.
	 */
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	IR_LINKAGE_WEAK            = 1 << 1,
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	/**
	 * The entity may be removed when it isn't referenced anywhere in the
	 * compilation unit even if it is exported (non-local).
	 * Typically used for C++ instantiated template code (,,COMDAT'' section).
	 */
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	IR_LINKAGE_GARBAGE_COLLECT = 1 << 2,
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	/**
	 * The linker will try to merge entities with same name from different
	 * compilation units. This is the usual behaviour for global variables
	 * without explicit initialisation in C (``COMMON'' symbols). It's also
	 * typically used in C++ for instantiated template code (,,COMDAT'' section)
	 */
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	IR_LINKAGE_MERGE           = 1 << 3,
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	/**
	 * Some entity uses are potentially hidden from the compiler.
	 * (For example because they happen in an asm("") statement. This flag
	 *  should be set for __attribute__((used)) in C code).
	 * Setting this flag prohibits that the compiler making assumptions about
	 * read/write behaviour to global variables or changing calling conventions
	 * from cdecl to fastcall.
	 */
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	IR_LINKAGE_HIDDEN_USER     = 1 << 4
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} ir_linkage;
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ENUM_BITSET(ir_linkage)
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/**
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 * Return the visibility class of an entity
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 */
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FIRM_API ir_visibility get_entity_visibility(const ir_entity *entity);
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/**
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 * Set visibility class of an entity
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 */
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FIRM_API void set_entity_visibility(ir_entity *entity, ir_visibility visibility);
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/**
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 * Return 1 if the entity is visible outside the current compilation unit
 * or to unknown callers (like asm statements).
 * (The entity might still be accessible indirectly through pointers)
 * This is a convenience function and does the same as
 * get_entity_visibility(entity) != ir_visibility_local ||
 * (get_entity_linkage(entity) & IR_LINKAGE_HIDDEN_USER)
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 */
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FIRM_API int entity_is_externally_visible(const ir_entity *entity);
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/**
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 * Return 1 if the entity has a definition (initializer) in the current
 * compilation unit
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 */
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FIRM_API int entity_has_definition(const ir_entity *entity);
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/**
 * Creates a new entity.
 *
 * Automatically inserts the entity as a member of owner.
 * Entity is automatic_allocated and uninitialized except if the type
 * is type_method, then it is static_allocated and constant.  The constant
 * value is a pointer to the method.
 * Visibility is local, offset -1, and it is not volatile.
 */
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FIRM_API ir_entity *new_entity(ir_type *owner, ident *name, ir_type *tp);
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/**
 * Creates a new entity.
 *
 * Automatically inserts the entity as a member of owner.
 * The entity is automatic allocated and uninitialized except if the type
 * is type_method, then it is static allocated and constant.  The constant
 * value is a pointer to the method.
 * Visibility is local, offset -1, and it is not volatile.
 */
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FIRM_API ir_entity *new_d_entity(ir_type *owner, ident *name, ir_type *tp,
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                                 dbg_info *db);
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/**
 * Creates a new entity corresponding to a function parameter.
 * This must be created on an irgs frame_type
 */
FIRM_API ir_entity *new_parameter_entity(ir_type *owner, size_t pos,
                                         ir_type *type);

/**
 * Like new_parameter_entity() but with debug information.
 */
FIRM_API ir_entity *new_d_parameter_entity(ir_type *owner, size_t pos,
                                           ir_type *type, dbg_info *dbgi);

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/**
 * Copies the entity if the new_owner is different from the
 * owner of the old entity,  else returns the old entity.
 *
 * Automatically inserts the new entity as a member of owner.
 * Resets the overwrites/overwritten_by fields.
 * Keeps the old atomic value.
 */
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FIRM_API ir_entity *copy_entity_own(ir_entity *old, ir_type *new_owner);
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/**
 * Copies the entity if the new_name is different from the
 * name of the old entity, else returns the old entity.
 *
 * Automatically inserts the new entity as a member of owner.
 * The mangled name ld_name is set to NULL.
 * Overwrites relation is copied from old.
 */
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FIRM_API ir_entity *copy_entity_name(ir_entity *old, ident *new_name);
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/**
 * Frees the entity.
 *
 * The owner will still contain the pointer to this
 * entity, as well as all other references!
 */
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FIRM_API void free_entity(ir_entity *ent);
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/** Returns the name of an entity. */
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FIRM_API const char *get_entity_name(const ir_entity *ent);
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/** Returns the ident of an entity. */
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FIRM_API ident *get_entity_ident(const ir_entity *ent);
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/** Sets the ident of the entity. */
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FIRM_API void set_entity_ident(ir_entity *ent, ident *id);
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/** Returns the mangled name of the entity.
 *
 * If the mangled name is set it returns the existing name.
 * Else it generates a name with mangle_entity()
 * and remembers this new name internally.
 */
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FIRM_API ident *get_entity_ld_ident(const ir_entity *ent);
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/** Sets the mangled name of the entity. */
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FIRM_API void set_entity_ld_ident(ir_entity *ent, ident *ld_ident);
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/** Returns the mangled name of the entity as a string. */
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FIRM_API const char *get_entity_ld_name(const ir_entity *ent);
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/** returns 1 if the entity has an ld_ident set explicitely */
FIRM_API int entity_has_ld_ident(const ir_entity *entity);

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/** Returns the owner of the entity. */
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FIRM_API ir_type *get_entity_owner(const ir_entity *ent);
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/**
 * Sets the owner field in entity to owner.
 * Automatically removes entity from old owner type and adds it to the new
 * one.
 */
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FIRM_API void set_entity_owner(ir_entity *ent, ir_type *owner);
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/** Returns the type of an entity. */
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FIRM_API ir_type *get_entity_type(const ir_entity *ent);
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/** Sets the type of an entity. */
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FIRM_API void set_entity_type(ir_entity *ent, ir_type *tp);
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/** Returns the linkage of an entity. */
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FIRM_API ir_linkage get_entity_linkage(const ir_entity *entity);
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/** Sets the linkage of an entity. */
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FIRM_API void set_entity_linkage(ir_entity *entity, ir_linkage linkage);
FIRM_API void add_entity_linkage(ir_entity *entity, ir_linkage linkage);
FIRM_API void remove_entity_linkage(ir_entity *entity, ir_linkage linkage);
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/**
 * Returns the volatility of an entity.
 * @deprecated
 */
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FIRM_API ir_volatility get_entity_volatility(const ir_entity *ent);
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/**
 * Sets the volatility of an entity.
 * @deprecated
 */
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FIRM_API void set_entity_volatility(ir_entity *ent, ir_volatility vol);
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/** Return the name of the volatility. */
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FIRM_API const char *get_volatility_name(ir_volatility var);
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/** Returns alignment of entity in bytes */
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FIRM_API unsigned get_entity_alignment(const ir_entity *entity);
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/** Allows you to override the type alignment for an entity.
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 * @param entity      the entity
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 * @param alignment   alignment in bytes
 */
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FIRM_API void set_entity_alignment(ir_entity *entity, unsigned alignment);
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/**
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 * Returns indication whether entity is aligned in memory.
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 * @deprecated
 */
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FIRM_API ir_align get_entity_aligned(const ir_entity *ent);
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/**
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 * Sets indication whether entity is aligned in memory
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 * @deprecated
 */
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FIRM_API void set_entity_aligned(ir_entity *ent, ir_align a);
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/** Return the name of the alignment. */
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FIRM_API const char *get_align_name(ir_align a);
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/** Returns the offset of an entity (in a compound) in bytes. Only set if layout = fixed. */
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FIRM_API int get_entity_offset(const ir_entity *ent);
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/** Sets the offset of an entity (in a compound) in bytes. */
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FIRM_API void set_entity_offset(ir_entity *ent, int offset);
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/** Returns the offset bit remainder of a bitfield entity (in a compound) in bits. Only set if layout = fixed. */
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FIRM_API unsigned char get_entity_offset_bits_remainder(const ir_entity *ent);
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/** Sets the offset bit remainder of a bitfield entity (in a compound) in bits. */
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FIRM_API void set_entity_offset_bits_remainder(ir_entity *ent,
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                                               unsigned char offset);
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/** Returns the stored intermediate information. */
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FIRM_API void *get_entity_link(const ir_entity *ent);
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/** Stores new intermediate information. */
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FIRM_API void set_entity_link(ir_entity *ent, void *l);
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/**
 * The entity knows the corresponding irg if the entity is a method.
 * This allows to get from a Call to the called irg.
 */
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FIRM_API ir_graph *get_entity_irg(const ir_entity *ent);
FIRM_API void set_entity_irg(ir_entity *ent, ir_graph *irg);
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/** A reserved value for "not yet set". */
#define IR_VTABLE_NUM_NOT_SET ((unsigned)(-1))

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/** Gets the entity vtable number. */
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FIRM_API unsigned get_entity_vtable_number(const ir_entity *ent);
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/** Sets the entity vtable number. */
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FIRM_API void set_entity_vtable_number(ir_entity *ent, unsigned vtable_number);
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/** Set label number of an entity with code type */
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FIRM_API void set_entity_label(ir_entity *ent, ir_label_t label);
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/** Return label number of an entity with code type */
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FIRM_API ir_label_t get_entity_label(const ir_entity *ent);
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/** Checks if an entity is compiler generated. */
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FIRM_API int is_entity_compiler_generated(const ir_entity *ent);
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/** Sets/resets the compiler generated flag. */
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FIRM_API void set_entity_compiler_generated(ir_entity *ent, int flag);
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/**
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 * Bitfield type indicating the way an entity is used.
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 */
typedef enum {
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	ir_usage_none             = 0,      /**< This entity is unused. */
	ir_usage_address_taken    = 1 << 0, /**< The address of this entity was taken. */
	ir_usage_write            = 1 << 1, /**< The entity was written to. */
	ir_usage_read             = 1 << 2, /**< The entity was read. */
	ir_usage_reinterpret_cast = 1 << 3, /**< The entity was read but with a wrong mode
	                                         (an implicit reinterpret cast) */
	/** Unknown access */
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	ir_usage_unknown
		= ir_usage_address_taken | ir_usage_write | ir_usage_read
		| ir_usage_reinterpret_cast
} ir_entity_usage;

/** Return the entity usage */
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FIRM_API ir_entity_usage get_entity_usage(const ir_entity *ent);
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/** Sets/resets the state of the address taken flag of an entity. */
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FIRM_API void set_entity_usage(ir_entity *ent, ir_entity_usage flag);
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/**
 * Returns the debug information of an entity.
 *
 * @param ent The entity.
 */
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FIRM_API dbg_info *get_entity_dbg_info(const ir_entity *ent);
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/**
 * Sets the debug information of an entity.
 *
 * @param ent The entity.
 * @param db  The debug info.
 */
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FIRM_API void set_entity_dbg_info(ir_entity *ent, dbg_info *db);
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#define IR_VA_START_PARAMETER_NUMBER  ((size_t)-1)

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/**
 * returns true if a given entity is a parameter_entity representing the
 * address of a function parameter
 */
FIRM_API int is_parameter_entity(const ir_entity *entity);

/**
 * returns number of parameter a parameter entitiy represents
 */
FIRM_API size_t get_entity_parameter_number(const ir_entity *entity);

/**
 * set number of parameter an entity represents
 */
FIRM_API void set_entity_parameter_number(ir_entity *entity, size_t n);

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/**
 * Returns true if the the node is representable as code on
 * const_code_irg.
 *
 * @deprecated This function is not used by libFirm and stays here
 *             only as a helper for the old Jack frontend.
 */
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FIRM_API int is_irn_const_expression(ir_node *n);
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/**
 * Copies a Firm subgraph that complies to the restrictions for
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 * constant expressions to block.
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 *
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 * @param dbg       debug info for all newly created nodes
 * @param n         the node
 * @param to_block  block to copy to
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 */
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FIRM_API ir_node *copy_const_value(dbg_info *dbg, ir_node *n, ir_node *to_block);
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FIRM_API ir_node *get_atomic_ent_value(ir_entity *ent);
FIRM_API void set_atomic_ent_value(ir_entity *ent, ir_node *val);
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/** the kind (type) of an initializer */
typedef enum ir_initializer_kind_t {
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	/** initializer containing an ir_node from the const-code irg */
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	IR_INITIALIZER_CONST,
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	/** initializer containing a tarval */
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	IR_INITIALIZER_TARVAL,
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	/** initializes type with default values (usually 0) */
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	IR_INITIALIZER_NULL,
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	/** list of initializers used to initializer a compound or array type */
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	IR_INITIALIZER_COMPOUND
} ir_initializer_kind_t;

/** returns kind of an initializer */
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FIRM_API ir_initializer_kind_t get_initializer_kind(const ir_initializer_t *initializer);
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/** Return the name of the initializer kind. */
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FIRM_API const char *get_initializer_kind_name(ir_initializer_kind_t ini);
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/**
 * returns the null initializer (there's only one instance of it in a program )
 */
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FIRM_API ir_initializer_t *get_initializer_null(void);
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/**
 * creates an initializer containing a reference to a node on the const-code
 * irg.
 */
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FIRM_API ir_initializer_t *create_initializer_const(ir_node *value);
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/** creates an initializer containing a single tarval value */
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FIRM_API ir_initializer_t *create_initializer_tarval(ir_tarval *tv);
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/** return value contained in a const initializer */
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FIRM_API ir_node *get_initializer_const_value(const ir_initializer_t *initializer);
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/** return value contained in a tarval initializer */
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FIRM_API ir_tarval *get_initializer_tarval_value(const ir_initializer_t *initialzier);
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/** creates a compound initializer which holds @p n_entries entries */
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FIRM_API ir_initializer_t *create_initializer_compound(size_t n_entries);
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/** returns the number of entries in a compound initializer */
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FIRM_API size_t get_initializer_compound_n_entries(const ir_initializer_t *initializer);
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/** sets entry with index @p index to the initializer @p value */
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FIRM_API void set_initializer_compound_value(ir_initializer_t *initializer,
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                                             size_t index,
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                                             ir_initializer_t *value);
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/** returns the value with index @p index of a compound initializer */
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FIRM_API ir_initializer_t *get_initializer_compound_value(
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		const ir_initializer_t *initializer, size_t index);
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/** Sets the new style initializers of an entity. */
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FIRM_API void set_entity_initializer(ir_entity *entity, ir_initializer_t *initializer);
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/** Returns true, if an entity has new style initializers. */
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FIRM_API int has_entity_initializer(const ir_entity *entity);
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/** Return the new style initializers of an entity. */
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FIRM_API ir_initializer_t *get_entity_initializer(const ir_entity *entity);
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FIRM_API void add_entity_overwrites(ir_entity *ent, ir_entity *overwritten);
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FIRM_API size_t get_entity_n_overwrites(const ir_entity *ent);
FIRM_API size_t get_entity_overwrites_index(const ir_entity *ent, ir_entity *overwritten);
FIRM_API ir_entity *get_entity_overwrites(const ir_entity *ent, size_t pos);
FIRM_API void set_entity_overwrites(ir_entity *ent, size_t pos, ir_entity *overwritten);
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FIRM_API void remove_entity_overwrites(ir_entity *ent, ir_entity *overwritten);
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FIRM_API size_t get_entity_n_overwrittenby(const ir_entity *ent);
FIRM_API size_t get_entity_overwrittenby_index(const ir_entity *ent, ir_entity *overwrites);
FIRM_API ir_entity *get_entity_overwrittenby(const ir_entity *ent, size_t pos);
FIRM_API void set_entity_overwrittenby(ir_entity *ent, size_t pos, ir_entity *overwrites);
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FIRM_API void remove_entity_overwrittenby(ir_entity *ent, ir_entity *overwrites);
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/**
 *   Checks whether a pointer points to an entity.
 *
 *   @param thing     an arbitrary pointer
 *
 *   @return
 *       true if the thing is an entity, else false
 */
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FIRM_API int is_entity(const void *thing);
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/** Returns true if the type of the entity is a primitive, pointer
 * enumeration or method type.
 *
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 * @note This is a different classification than from is_primitive_type().
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 */
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FIRM_API int is_atomic_entity(const ir_entity *ent);
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/** Returns true if the type of the entity is a class, structure,
   array or union type. */
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FIRM_API int is_compound_entity(const ir_entity *ent);
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/** Returns true if the type of the entity is a Method type. */
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FIRM_API int is_method_entity(const ir_entity *ent);
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/** Outputs a unique number for this entity if libfirm is compiled for
 *  debugging, (configure with --enable-debug) else returns the address
 *  of the type cast to long.
 */
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FIRM_API long get_entity_nr(const ir_entity *ent);
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/** Returns the entities visited count. */
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FIRM_API ir_visited_t get_entity_visited(const ir_entity *ent);
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/** Sets the entities visited count. */
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FIRM_API void set_entity_visited(ir_entity *ent, ir_visited_t num);
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/** Sets visited field in entity to entity_visited. */
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FIRM_API void mark_entity_visited(ir_entity *ent);
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/** Returns true if this entity was visited. */
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FIRM_API int entity_visited(const ir_entity *ent);
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/** Returns true if this entity was not visited. */
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FIRM_API int entity_not_visited(const ir_entity *ent);
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/**
 * Returns the mask of the additional entity properties.
 * The properties are automatically inherited from the irg if available
 * or from the method type if they were not set using
 * set_entity_additional_properties() or
 * set_entity_additional_property().
 */
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FIRM_API mtp_additional_properties get_entity_additional_properties(const ir_entity *ent);
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/** Sets the mask of the additional graph properties. */
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FIRM_API void set_entity_additional_properties(ir_entity *ent,
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                                               mtp_additional_properties prop);
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/** Sets additional graph properties. */
FIRM_API void add_entity_additional_properties(ir_entity *ent,
                                               mtp_additional_properties flag);
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/** Returns the class type that this type info entity represents or NULL
    if ent is no type info entity. */
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FIRM_API ir_type *get_entity_repr_class(const ir_entity *ent);
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/**
 * @page unknown_entity  The Unknown entity
 *
 *  This entity is an auxiliary entity dedicated to support analyses.
 *
 *  The unknown entity represents that there could be an entity, but it is not
 *  known.  This entity can be used to initialize fields before an analysis (not known
 *  yet) or to represent the top of a lattice (could not be determined).  There exists
 *  exactly one entity unknown. This entity has as owner and as type the unknown type. It is
 *  allocated when initializing the entity module.
 *
 *  The entity can take the role of any entity, also methods.  It returns default
 *  values in these cases.
 *
 *  The following values are set:
 *
 * - name          = "unknown_entity"
 * - ld_name       = "unknown_entity"
 * - owner         = unknown_type
 * - type          = unknown_type
 * - offset        = -1
 * - value         = SymConst(unknown_entity)
 * - values        = NULL
 * - val_paths     = NULL
 * - volatility    = volatility_non_volatile
 * - stickyness    = stickyness_unsticky
 * - ld_name       = NULL
 * - overwrites    = NULL
 * - overwrittenby = NULL
 * - irg           = NULL
 * - link          = NULL
 */
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/** A variable that contains the only unknown entity. */
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FIRM_API ir_entity *unknown_entity;
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/** Returns the @link unknown_entity unknown entity @endlink. */
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FIRM_API ir_entity *get_unknown_entity(void);
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/** Encodes how a pointer parameter is accessed. */
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typedef enum ptr_access_kind {
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	ptr_access_none  = 0,                                 /**< no access */
	ptr_access_read  = 1,                                 /**< read access */
	ptr_access_write = 2,                                 /**< write access */
	ptr_access_rw    = ptr_access_read|ptr_access_write,  /**< read AND write access */
	ptr_access_store = 4,                                 /**< the pointer is stored */
	ptr_access_all   = ptr_access_rw|ptr_access_store     /**< all possible access */
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} ptr_access_kind;
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ENUM_BITSET(ptr_access_kind)
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#define IS_READ(a)     ((a) & ptr_access_read)
#define IS_WRITTEN(a)  ((a) & ptr_access_write)
#define IS_STORED(a)   ((a) & ptr_access_store)

/**
 * @page tyop  type operations
 *  This module specifies the kinds of types available in firm.
 *
 *  They are called type opcodes. These include classes, structs, methods, unions,
 *  arrays, enumerations, pointers and primitive types.
 *  Special types with own opcodes are the id type, a type representing an unknown
 *  type and a type used to specify that something has no type.
 */

/**
 *  An enum for the type kinds.
 *  For each type kind exists a typecode to identify it.
 */
typedef enum {
	tpo_uninitialized = 0,   /* not a type opcode */
	tpo_class,               /**< A class type. */
	tpo_struct,              /**< A struct type. */
	tpo_method,              /**< A method type. */
	tpo_union,               /**< An union type. */
	tpo_array,               /**< An array type. */
	tpo_enumeration,         /**< An enumeration type. */
	tpo_pointer,             /**< A pointer type. */
	tpo_primitive,           /**< A primitive type. */
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	tpo_code,                /**< a piece of code (a basic block) */
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	tpo_none,                /**< Special type for the None type. */
	tpo_unknown,             /**< Special code for the Unknown type. */
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	tpo_last = tpo_unknown   /* not a type opcode */
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} tp_opcode;

/**
 * A structure containing information about a kind of type.
 * A structure containing information about a kind of type.  So far
 * this is only the kind name, an enum for case-switching and some
 * internal values.
 *
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 * @see  get_tpop_name(), get_tpop_code()
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 */
typedef struct tp_op tp_op;


/**
 * Returns the string for the type opcode.
 *
 * @param op  The type opcode to get the string from.
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 * @return    a string.
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 */
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FIRM_API const char *get_tpop_name(const tp_op *op);
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/**
 * Returns an enum for the type opcode.
 *
 * @param op   The type opcode to get the enum from.
 * @return the enum.
 */
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FIRM_API tp_opcode get_tpop_code(const tp_op *op);
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/**
 * This type opcode marks that the corresponding type is a class type.
 *
 * Consequently the type refers to supertypes, subtypes and entities.
 * Entities can be any fields, but also methods.
 * @@@ value class or not???
 * This struct is dynamically allocated but constant for the lifetime
 * of the library.
 */
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FIRM_API const tp_op *type_class;
FIRM_API const tp_op *get_tpop_class(void);
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/**
 * This type opcode marks that the corresponding type is a compound type
 * as a struct in C.
 *
 * Consequently the type refers to a list of entities
 * which may not be methods (but pointers to methods).
 * This struct is dynamically allocated but constant for the lifetime
 * of the library.
 */
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FIRM_API const tp_op *type_struct;
FIRM_API const tp_op *get_tpop_struct(void);
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/**
 * This type opcode marks that the corresponding type is a method type.
 *
 * Consequently it refers to a list of arguments and results.
 * This struct is dynamically allocated but constant for the lifetime
 * of the library.
 */
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FIRM_API const tp_op *type_method;
FIRM_API const tp_op *get_tpop_method(void);
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/**
 * This type opcode marks that the corresponding type is a union type.
 *
 * Consequently it refers to a list of unioned types.
 * This struct is dynamically allocated but constant for the lifetime
 * of the library.
 */
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FIRM_API const tp_op *type_union;
FIRM_API const tp_op *get_tpop_union(void);
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/**
 * This type opcode marks that the corresponding type is an array type.
 *
 * Consequently it contains a list of dimensions (lower and upper bounds)
 * and an element type.
 * This struct is dynamically allocated but constant for the lifetime
 * of the library.
 */
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FIRM_API const tp_op *type_array;
FIRM_API const tp_op *get_tpop_array(void);
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/**
 * This type opcode marks that the corresponding type is an enumeration type.
 *
 * Consequently it contains a list of idents for the enumeration identifiers
 * and a list of target values that are the constants used to implement
 * the enumerators.
 * This struct is dynamically allocated but constant for the lifetime
 * of the library.
 */
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FIRM_API const tp_op *type_enumeration;
FIRM_API const tp_op *get_tpop_enumeration(void);
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/**
 * This type opcode marks that the corresponding type is a pointer type.
 *
 * It contains a reference to the type the pointer points to.
 * This struct is dynamically allocated but constant for the lifetime
 * of the library.
 */
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FIRM_API const tp_op *type_pointer;
FIRM_API const tp_op *get_tpop_pointer(void);
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/**
 * This type opcode marks that the corresponding type is a primitive type.
 *
 * Primitive types are types that are directly mapped to target machine
 * modes.
 * This struct is dynamically allocated but constant for the lifetime
 * of the library.
 */
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FIRM_API const tp_op *type_primitive;
FIRM_API const tp_op *get_tpop_primitive(void);
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/**
 * The code type is used to mark pieces of code (basic blocks)
 */
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FIRM_API const tp_op *tpop_code;
FIRM_API const tp_op *get_tpop_code_type(void);
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/**
 * This type opcode is an auxiliary opcode dedicated to support type analyses.
 *
 * Types with this opcode represents that there is no type.
 * The type can be used to initialize fields of the type* that actually can not
 * contain a type or that are initialized for an analysis. There exists exactly
 * one type with this opcode.
 */
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FIRM_API const tp_op *tpop_none;
FIRM_API const tp_op *get_tpop_none(void);
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/**
 * This type opcode is an auxiliary opcode dedicated to support type analyses.
 *
 * Types with this opcode represents that there could be a type, but it is not
 * known.  This type can be used to initialize fields before an analysis (not known
 * yet) or to represent the top of a lattice (could not be determined).  There exists
 * exactly one type with this opcode.
 */
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FIRM_API const tp_op *tpop_unknown;
FIRM_API const tp_op *get_tpop_unknown(void);
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/** Returns true if low is subclass of high.
 *
 *  Low is a subclass of high if low == high or if low is a subclass of
 *  a subclass of high.  I.e, we search in all subtypes of high for low.
 *  @@@ this can be implemented more efficient if we know the set of all
 *  subclasses of high.  */
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FIRM_API int is_SubClass_of(ir_type *low, ir_type *high);
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/** Subclass check for pointers to classes.
 *
 *  Dereferences at both types the same amount of pointer types (as
 *  many as possible).  If the remaining types are both class types
 *  and subclasses, returns true, else false.  Can also be called with
 *  two class types.  */
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FIRM_API int is_SubClass_ptr_of(ir_type *low, ir_type *high);
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/** Returns true if high is superclass of low.
 *
 *  Low is a subclass of high if low == high or if low is a subclass of
 *  a subclass of high.  I.e, we search in all subtypes of high for low.
 *  @@@ this can be implemented more efficient if we know the set of all
 *  subclasses of high.  */
#define is_SuperClass_of(high, low) is_SubClass_of(low, high)

/** Superclass check for pointers to classes.
 *
 *  Dereferences at both types the same amount of pointer types (as
 *  many as possible).  If the remaining types are both class types
 *  and superclasses, returns true, else false.  Can also be called with
 *  two class types.  */
#define is_SuperClass_ptr_of(low, high) is_SubClass_ptr_of(high, low)

/** Returns true if high is (transitive) overwritten by low.
 *
 *  Returns false if high == low. */
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FIRM_API int is_overwritten_by(ir_entity *high, ir_entity *low);
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/** Resolve polymorphism in the inheritance relation.
 *
 *  Returns the dynamically referenced entity if the static entity and the
 *  dynamic type are given.
 *  Searches downwards in overwritten tree. */
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FIRM_API ir_entity *resolve_ent_polymorphy(ir_type *dynamic_class,
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                                           ir_entity* static_ent);
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/** Default name mangling for inherited entities.
 *
 *  Returns an ident that consists of the name of type followed by an
 *  underscore and the name (not ld_name) of the entity. */
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FIRM_API ident *default_mangle_inherited_name(const ir_entity *ent,
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                                              const ir_type *clss);
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/** Type of argument functions for inheritance resolver.
 *
 * @param ent     The entity in the super type that will be overwritten
 *                by the newly generated entity, for which this name is
 *                used.
 * @param clss    The class type in which the new entity will be placed.
 */
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typedef ident *mangle_inherited_name_func(const ir_entity *ent,
                                          const ir_type *clss);
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/** Resolve implicit inheritance.
 *
 *  Resolves the implicit inheritance supplied by firm.  Firm defines,
 *  that each entity that is not overwritten in a subclass is
 *  inherited to this subclass without change implicitly.  This
 *  function generates entities that explicitly represent this
 *  inheritance.  It generates for each entity overwriting entities in
 *  all subclasses of the owner of the entity, if the entity is not
 *  overwritten in that subclass.
 *
 *  The name of the new entity is generated with the function passed.
 *  If the function is NULL, the default_mangle_inherited_name() is
 *  used.
 */
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FIRM_API void resolve_inheritance(mangle_inherited_name_func *mfunc);
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/* ----------------------------------------------------------------------- */
/* The transitive closure of the subclass/superclass and                   */
/* overwrites/overwrittenby relation.                                      */
/*                                                                         */
/* A walk over the ir (O(#types+#entities)) computes the transitive        */
/* closure.  Adding a new type/entity or changing the basic relations in   */
/* some other way invalidates the transitive closure, i.e., it is not      */
/* updated by the basic functions.                                         */
/*                                                                         */
/* The transitive edges are held in a set, not in an array as the          */
/* underlying relation.                                                    */
/*                                                                         */
/* Do the sets contain the node itself?  I assume NOT!                     */
/* ----------------------------------------------------------------------- */

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/**
 * The state of the transitive closure.
 */
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typedef enum {
	inh_transitive_closure_none,       /**<  Closure is not computed, can not be accessed. */
	inh_transitive_closure_valid,      /**<  Closure computed and valid. */
	inh_transitive_closure_invalid,    /**<  Closure invalid, but can be accessed. */
	inh_transitive_closure_max         /**<  Invalid value. */
} inh_transitive_closure_state;

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FIRM_API void set_irp_inh_transitive_closure_state(inh_transitive_closure_state s);
FIRM_API void invalidate_irp_inh_transitive_closure_state(void);
FIRM_API inh_transitive_closure_state get_irp_inh_transitive_closure_state(void);
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/** Compute transitive closure of the subclass/superclass and
 * overwrites/overwrittenby relation.
 *
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 * transitive closure.    */
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FIRM_API void compute_inh_transitive_closure(void);
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/** Free memory occupied by the transitive closure information. */
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FIRM_API void free_inh_transitive_closure(void);
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/** Iterate over all transitive subtypes. */
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FIRM_API ir_type *get_class_trans_subtype_first(const ir_type *tp);
FIRM_API ir_type *get_class_trans_subtype_next(const ir_type *tp);
FIRM_API int is_class_trans_subtype(const ir_type *tp, const ir_type *subtp);
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/** Iterate over all transitive supertypes. */
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FIRM_API ir_type *get_class_trans_supertype_first(const ir_type *tp);
FIRM_API ir_type *get_class_trans_supertype_next(const ir_type *tp);
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/** Iterate over all entities that transitive overwrite this entities. */
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FIRM_API ir_entity *get_entity_trans_overwrittenby_first(const ir_entity *ent);
FIRM_API ir_entity *get_entity_trans_overwrittenby_next(const ir_entity *ent);
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/** Iterate over all transitive overwritten entities. */
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FIRM_API ir_entity *get_entity_trans_overwrites_first(const ir_entity *ent);
FIRM_API ir_entity *get_entity_trans_overwrites_next(const ir_entity *ent);
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/** The state of Cast operations that cast class types or pointers to class
 *  types.
 *
 * The state expresses, how far Cast operations conform with the class
 * hierarchy.
 *
 *   class A {}
 *   class B1 extends A {}
 *   class B2 extends A {}
 *   class C  extends B1 {}
 * normalized:  Cast operations conform with the inheritance relation.
 *   I.e., the type of the operand of a Cast is either a super= or a sub-
 *   type of the type casted to. Example: (A)((B2) (new C())).
 * transitive:  Cast operations conform with the transitive inheritance
 *   relation. Example: (A)(new C()).
 * any:  Cast operations do not conform with the transitive inheritance
 *   relation.  Example: (B2)(new B1())
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 *
 * Flags for class cast state.
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 *
 * The state in irp is always smaller or equal to the state of any
 * irg.
 *
 * We rely on the ordering of the enum. */
typedef enum {
	ir_class_casts_any        = 0, /**< There are class casts that do not cast in conformance with
	                                    the class hierarchy.  @@@ So far this does not happen in Firm. */
	ir_class_casts_transitive = 1, /**< Class casts conform to transitive inheritance edges. Default. */
	ir_class_casts_normalized = 2, /**< Class casts conform to inheritance edges. */
	ir_class_casts_state_max
} ir_class_cast_state;
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