/*
- * Copyright (C) 1995-2008 University of Karlsruhe. All right reserved.
+ * Copyright (C) 1995-2011 University of Karlsruhe. All right reserved.
*
* This file is part of libFirm.
*
* @file
* @brief Representation of types -- private header.
* @author Goetz Lindenmaier, Michael Beck
- * @version $Id$
* @see type.h tpop_t.h tpop.h
*/
#ifndef FIRM_TR_TYPE_T_H
#define FIRM_TR_TYPE_T_H
+#include <stdbool.h>
#include "typerep.h"
#include "tpop_t.h"
#include "irgraph.h"
/** A (type, ir_entity) pair. */
typedef struct {
- ir_type *tp; /**< A type. */
- ir_entity *ent; /**< An ir_entity. */
- ident *param_name; /**< For debugging purposes: the name of the parameter */
+ ir_type *tp; /**< A type. */
+ ir_entity *ent; /**< An ir_entity. */
} tp_ent_pair;
/** Method type attributes. */
typedef struct {
- int n_params; /**< Number of parameters. */
+ size_t n_params; /**< Number of parameters. */
tp_ent_pair *params; /**< Array of parameter type/value entities pairs. */
- ir_type *value_params; /**< A type whose entities represent copied value arguments. */
- int n_res; /**< Number of results. */
+ size_t n_res; /**< Number of results. */
tp_ent_pair *res_type; /**< Array of result type/value ir_entity pairs. */
- ir_type *value_ress; /**< A type whose entities represent copied value results. */
- ir_variadicity variadicity; /**< The variadicity of the method. */
- int first_variadic_param; /**< The index of the first variadic parameter or -1 if non-variadic .*/
- unsigned additional_properties; /**< Set of additional method properties. */
+ ir_variadicity variadicity; /**< The variadicity of the method. */
+ mtp_additional_properties additional_properties; /**< Set of additional method properties. */
unsigned irg_calling_conv; /**< A set of calling convention flags. */
} mtd_attr;
/** Array type attributes. */
typedef struct {
- int n_dimensions; /**< Number of array dimensions. */
+ size_t n_dimensions; /**< Number of array dimensions. */
ir_node **lower_bound; /**< Lower bounds of dimensions. Usually all 0. */
ir_node **upper_bound; /**< Upper bounds or dimensions. */
- int *order; /**< Ordering of dimensions. */
+ size_t *order; /**< Ordering of dimensions. */
ir_type *element_type; /**< The type of the array elements. */
ir_entity *element_ent; /**< entity for the array elements, to be used for
element selection with a Sel node. */
/** An enumerator constant. */
struct ir_enum_const {
- tarval *value; /**< The constants that represents this enumerator identifier. */
+ ir_tarval *value; /**< The constants that represents this enumerator identifier. */
ident *nameid; /**< The name of the enumerator identifier. */
ir_type *owner; /**< owner type of this enumerator constant. */
};
/** Additional type flags. */
enum type_flags {
- tf_none = 0, /**< No flags. */
- tf_lowered_type = 1, /**< Set if this is a lowered type. */
- tf_layout_fixed = 2, /**< Set if the layout of a type is fixed */
-
- tf_frame_type = 4, /**< Set if this is a frame type. */
- tf_value_param_type = 8, /**< Set if this is a value param type. */
- tf_global_type = 16, /**< Set only for the global type */
- tf_tls_type = 32, /**< Set only for the tls type */
- tf_constructors = 64, /**< Set only for the constructors segment type */
- tf_destructors = 128, /**< Set only for the destructors segment type */
+ tf_none = 0, /**< No flags. */
+ tf_lowered_type = 1U << 0, /**< Set if this is a lowered type. */
+ tf_layout_fixed = 1U << 1, /**< Set if the layout of a type is fixed */
+
+ tf_frame_type = 1U << 2, /**< Set if this is a frame type. */
+ tf_segment = 1U << 3, /**< type represents a linker segment */
+ tf_global_type = 1U << 4, /**< Set only for the global type */
+ tf_tls_type = 1U << 5, /**< Set only for the tls type */
+ tf_constructors = 1U << 6, /**< Set only for the constructors segment type */
+ tf_destructors = 1U << 7, /**< Set only for the destructors segment type */
+ tf_variable_size = 1U << 8, /**< compound or array type may have variable size last element */
};
+ENUM_BITSET(type_flags)
/**
* An abstract data type to represent types.
* the type. These are distinguished by a type opcode.
* A type is described by a set of attributes. Some of these attributes
* are common to all types, others depend on the kind of the type.
- *
- * The following describes the common attributes. They can only be
- * accessed by the functions given below.
- *
- * The common fields are:
- *
- * - firm_kind: A firm_kind tag containing k_type. This is useful
- * for dynamically checking whether a node is a type node.
- * - type_op: A tp_op specifying the kind of the type.
- * - name: An identifier specifying the name of the type. To be
- * set by the frontend.
- * - size: The size of the type, i.e. an entity of this type will
- * occupy size bits in memory. In several cases this is
- * determined when fixing the layout of this type (class,
- * struct, union, array, enumeration).
- * - alignment The alignment of the type, i.e. an entity of this type will
- * be allocated an an address in memory with this alignment.
- * In several cases this is determined when fixing the layout
- * of this type (class, struct, union, array)
- * - mode: The mode to be used to represent the type on a machine.
- * - state: The state of the type. The state represents whether the
- * layout of the type is undefined or fixed (values: layout_undefined
- * or layout_fixed). Compound types can have an undefined
- * layout. The layout of the basic types primitive and pointer
- * is always layout_fixed. If the layout of
- * compound types is fixed all entities must have an offset
- * and the size of the type must be set.
- * A fixed layout for enumeration types means that each enumeration
- * is associated with an implementation value.
- * - assoc_type: The associated lowered/upper type.
- * - visit: A counter for walks of the type information.
- * - link: A void* to associate some additional information with the type.
- *
- * These fields can only be accessed via access functions.
- *
- * Depending on the value of @c type_op, i.e., depending on the kind of the
- * type the adt contains further attributes. These are documented below.
- *
- * @see
- *
- * @link class_type class @endlink, @link struct_type struct @endlink,
- * @link method_type method @endlink, @link union_type union @endlink,
- * @link array_type array @endlink, @link enumeration_type enumeration @endlink,
- * @link pointer_type pointer @endlink, @link primitive_type primitive @endlink
- *
- * @todo
- * mode maybe not global field??
*/
struct ir_type {
firm_kind kind; /**< the firm kind, must be k_type */
ident *name; /**< The name of the type */
ir_visibility visibility;/**< Visibility of entities of this type. */
unsigned flags; /**< Type flags, a bitmask of enum type_flags. */
- unsigned size; /**< Size of an ir_entity of this type. This is determined
- when fixing the layout of this class. Size must be
- given in bytes. */
- unsigned align; /**< Alignment of an ir_entity of this type. This should be
- set according to the source language needs. If not set it's
- calculated automatically by get_type_alignment().
+ unsigned size; /**< Size of an ir_entity of this type. This is
+ determined when fixing the layout of this
+ class. Size must be given in bytes. */
+ unsigned align; /**< Alignment of an ir_entity of this type. This
+ should be set according to the source
+ language needs. If not set, it's calculated
+ automatically by get_type_alignment().
Alignment must be given in bytes. */
ir_mode *mode; /**< The mode for atomic types */
ir_visited_t visit; /**< visited counter for walks of the type information */
void *link; /**< holds temporary data - like in irnode_t.h */
type_dbg_info *dbi; /**< A pointer to information for debug support. */
- ir_type *assoc_type; /**< The associated lowered/unlowered type */
-
- /* ------------- fields for analyses ---------------*/
+ ir_type *higher_type; /**< link to highlevel type in case of lowered
+ types */
#ifdef DEBUG_libfirm
- long nr; /**< An unique node number for each node to make output
- readable. */
+ long nr; /**< An unique node number for each node to make
+ output readable. */
#endif
- tp_attr attr; /**< Type kind specific fields. This must be the last
- entry in this struct! Varying size! */
+ tp_attr attr; /**< Type kind specific fields. This must be the
+ last entry in this struct! Varying size! */
};
-/**
- * Creates a new type representation:
- *
- * @param type_op the kind of this type. May not be type_id.
- * @param mode the mode to be used for this type, may be NULL
- * @param db debug info
- *
- * @return A new type of the given type. The remaining private attributes are not
- * initialized. The type is in state layout_undefined.
- */
-ir_type *new_type(const tp_op *type_op, ir_mode *mode, type_dbg_info *db);
-void free_type_attrs(ir_type *tp);
+void free_type_entities(ir_type *tp);
void free_class_entities (ir_type *clss);
void free_struct_entities (ir_type *strct);
int get_class_dfn(const ir_type *clss);
void add_compound_member(ir_type *compound, ir_entity *entity);
-void remove_compound_member(ir_type *compound, ir_entity *entity);
/** Initialize the type module. */
-void ir_init_type(void);
+void ir_init_type(ir_prog *irp);
/** free internal datastructures of type module */
-void ir_finish_type(void);
+void ir_finish_type(ir_prog *irp);
/** Clone an existing method type.
*
*/
ir_type *clone_type_method(ir_type *tp);
-/* ------------------- *
- * inline functions *
- * ------------------- */
-
extern ir_visited_t firm_type_visited;
-static inline void _set_master_type_visited(ir_visited_t val) { firm_type_visited = val; }
-static inline ir_visited_t _get_master_type_visited(void) { return firm_type_visited; }
-static inline void _inc_master_type_visited(void) { ++firm_type_visited; }
+static inline void _set_master_type_visited(ir_visited_t val)
+{
+ firm_type_visited = val;
+}
+
+static inline ir_visited_t _get_master_type_visited(void)
+{
+ return firm_type_visited;
+}
+
+static inline void _inc_master_type_visited(void)
+{
+ ++firm_type_visited;
+}
+
+static inline int is_lowered_type(const ir_type *tp)
+{
+ return tp->flags & tf_lowered_type;
+}
+
+static inline ir_type *get_higher_type(const ir_type *tp)
+{
+ return tp->higher_type;
+}
+
+static inline void set_higher_type(ir_type *tp, ir_type *higher_type)
+{
+ tp->flags |= tf_lowered_type;
+ tp->higher_type = higher_type;
+}
static inline void *_get_type_link(const ir_type *tp)
{
static inline int _is_type(const void *thing)
{
- return (get_kind(thing) == k_type);
+ return get_kind(thing) == k_type;
}
static inline int _is_class_type(const ir_type *clss)
{
- assert(clss);
- return (clss->type_op == type_class);
+ return clss->type_op == type_class;
}
-static inline int _get_class_n_members (const ir_type *clss)
+static inline size_t _get_class_n_members(const ir_type *clss)
{
- assert(clss && (clss->type_op == type_class));
- return (ARR_LEN (clss->attr.ca.members));
+ assert(clss->type_op == type_class);
+ return ARR_LEN(clss->attr.ca.members);
}
-static inline ir_entity *_get_class_member(const ir_type *clss, int pos)
+static inline ir_entity *_get_class_member(const ir_type *clss, size_t pos)
{
- assert(clss && (clss->type_op == type_class));
- assert(pos >= 0 && pos < _get_class_n_members(clss));
+ assert(clss->type_op == type_class);
+ assert(pos < _get_class_n_members(clss));
return clss->attr.ca.members[pos];
}
static inline unsigned _get_class_vtable_size(const ir_type *clss)
{
- assert(clss && (clss->type_op == type_class));
+ assert(clss->type_op == type_class);
return clss->attr.ca.vtable_size;
}
static inline void _set_class_vtable_size(ir_type *clss, unsigned vtable_size)
{
- assert(clss && (clss->type_op == type_class));
+ assert(clss->type_op == type_class);
clss->attr.ca.vtable_size = vtable_size;
}
static inline int _is_class_final(const ir_type *clss)
{
- assert(clss && (clss->type_op == type_class));
+ assert(clss->type_op == type_class);
return clss->attr.ca.clss_flags & cf_final_class;
}
static inline void _set_class_final(ir_type *clss, int final)
{
- assert(clss && (clss->type_op == type_class));
+ assert(clss->type_op == type_class);
if (final)
clss->attr.ca.clss_flags |= cf_final_class;
else
static inline int _is_class_interface(const ir_type *clss)
{
- assert(clss && (clss->type_op == type_class));
+ assert(clss->type_op == type_class);
return clss->attr.ca.clss_flags & cf_interface_class;
}
static inline void _set_class_interface(ir_type *clss, int final)
{
- assert(clss && (clss->type_op == type_class));
+ assert(clss->type_op == type_class);
if (final)
clss->attr.ca.clss_flags |= cf_interface_class;
else
static inline int _is_class_abstract(const ir_type *clss)
{
- assert(clss && (clss->type_op == type_class));
+ assert(clss->type_op == type_class);
return clss->attr.ca.clss_flags & cf_absctract_class;
}
static inline void _set_class_abstract(ir_type *clss, int final)
{
- assert(clss && (clss->type_op == type_class));
+ assert(clss->type_op == type_class);
if (final)
clss->attr.ca.clss_flags |= cf_absctract_class;
else
static inline int _is_struct_type(const ir_type *strct)
{
- assert(strct);
return (strct->type_op == type_struct);
}
static inline int _is_method_type(const ir_type *method)
{
- assert(method);
return (method->type_op == type_method);
}
static inline int _is_union_type(const ir_type *uni)
{
- assert(uni);
return (uni->type_op == type_union);
}
static inline int _is_array_type(const ir_type *array)
{
- assert(array);
return (array->type_op == type_array);
}
static inline int _is_enumeration_type(const ir_type *enumeration)
{
- assert(enumeration);
return (enumeration->type_op == type_enumeration);
}
static inline int _is_pointer_type(const ir_type *pointer)
{
- assert(pointer);
return (pointer->type_op == type_pointer);
}
/** Returns true if a type is a primitive type. */
static inline int _is_primitive_type(const ir_type *primitive)
{
- assert(primitive && primitive->kind == k_type);
+ assert(primitive->kind == k_type);
return (primitive->type_op == type_primitive);
}
static inline int _is_atomic_type(const ir_type *tp)
{
- assert(tp && tp->kind == k_type);
+ assert(tp->kind == k_type);
return (_is_primitive_type(tp) || _is_pointer_type(tp) ||
_is_enumeration_type(tp));
}
-static inline int _get_method_n_params(const ir_type *method)
+static inline size_t _get_method_n_params(const ir_type *method)
{
- assert(method && (method->type_op == type_method));
+ assert(method->type_op == type_method);
return method->attr.ma.n_params;
}
-static inline int _get_method_n_ress(const ir_type *method)
+static inline size_t _get_method_n_ress(const ir_type *method)
{
- assert(method && (method->type_op == type_method));
+ assert(method->type_op == type_method);
return method->attr.ma.n_res;
}
-static inline unsigned _get_method_additional_properties(const ir_type *method)
+static inline mtp_additional_properties _get_method_additional_properties(const ir_type *method)
{
- assert(method && (method->type_op == type_method));
+ assert(method->type_op == type_method);
return method->attr.ma.additional_properties;
}
-static inline void _set_method_additional_properties(ir_type *method, unsigned mask)
+static inline void _set_method_additional_properties(ir_type *method, mtp_additional_properties mask)
{
- assert(method && (method->type_op == type_method));
+ assert(method->type_op == type_method);
/* do not allow to set the mtp_property_inherited flag or
* the automatic inheritance of flags will not work */
method->attr.ma.additional_properties = mask & ~mtp_property_inherited;
}
-static inline void _set_method_additional_property(ir_type *method, mtp_additional_property flag)
+static inline void _add_method_additional_properties(ir_type *method, mtp_additional_properties flag)
{
- assert(method && (method->type_op == type_method));
+ assert(method->type_op == type_method);
/* do not allow to set the mtp_property_inherited flag or
* the automatic inheritance of flags will not work */
static inline unsigned _get_method_calling_convention(const ir_type *method)
{
- assert(method && (method->type_op == type_method));
+ assert(method->type_op == type_method);
return method->attr.ma.irg_calling_conv;
}
static inline void _set_method_calling_convention(ir_type *method, unsigned cc_mask)
{
- assert(method && (method->type_op == type_method));
+ assert(method->type_op == type_method);
method->attr.ma.irg_calling_conv = cc_mask;
}
#define get_method_n_ress(method) _get_method_n_ress(method)
#define get_method_additional_properties(method) _get_method_additional_properties(method)
#define set_method_additional_properties(method, mask) _set_method_additional_properties(method, mask)
-#define set_method_additional_property(method, flag) _set_method_additional_property(method, flag)
+#define add_method_additional_properties(method, flag) _add_method_additional_properties(method, flag)
#define get_method_calling_convention(method) _get_method_calling_convention(method)
#define set_method_calling_convention(method, cc_mask) _set_method_calling_convention(method, cc_mask)