X-Git-Url: http://nsz.repo.hu/git/?a=blobdiff_plain;f=include%2Flibfirm%2Ftyperep.h;h=adabf1b30200d559037d2f065abd9edea52568ca;hb=a158f864beaee2de7ba4e0610a3a9960a0be5ed4;hp=09a5ce4ca12eb81d72e4b9f26aad2c603e66381a;hpb=840ab2edd15d2804f16a92e5c9e90a8d9e62f73d;p=libfirm diff --git a/include/libfirm/typerep.h b/include/libfirm/typerep.h index 09a5ce4ca..adabf1b30 100644 --- a/include/libfirm/typerep.h +++ b/include/libfirm/typerep.h @@ -1,20 +1,6 @@ /* - * Copyright (C) 1995-2008 University of Karlsruhe. All right reserved. - * * 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. + * Copyright (C) 2012 University of Karlsruhe. */ /** @@ -30,7 +16,7 @@ #include "begin.h" /** - * @page entity Entity representation + * @defgroup ir_entity Entities * * An entity is the representation of program known objects in Firm. * The primary concept of entities is to represent members of complex @@ -73,7 +59,17 @@ * * These fields can only be accessed via access functions. * - * @see ir_type, ir_entity + * 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. + * + * @{ */ /** @@ -81,10 +77,13 @@ */ typedef enum { /** - * The entity is visible outside the compilation unit, but it is defined - * here. + * The entity is visible across compilation units. It might have an + * initializer/graph. + * Note that entities with visibility_external without initializer are + * assumed to be defined in another compilation unit (not like C variables + * which are considered 'uninitialized' in this case). */ - ir_visibility_default, + ir_visibility_external, /** * The entity is local to the compilation unit. * A local entity is not visible in other compilation units. @@ -93,18 +92,13 @@ typedef enum { */ ir_visibility_local, /** - * The entity is defined outside the compilation unit but potentially used - * here. - */ - 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). + * 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 + ir_visibility_private, } ir_visibility; /** @@ -147,22 +141,30 @@ typedef enum ir_linkage { * read/write behaviour to global variables or changing calling conventions * from cdecl to fastcall. */ - IR_LINKAGE_HIDDEN_USER = 1 << 4 + IR_LINKAGE_HIDDEN_USER = 1 << 4, + /** + * Do not generate code even if the entity has a graph attached. The graph + * is only used for inlining. Otherwise the entity is regarded as a + * declaration of an externally defined entity. + * This linkage flag can be used to implement C99 "inline" or GNU89 + * "extern inline". + */ + IR_LINKAGE_NO_CODEGEN = 1 << 5, } ir_linkage; ENUM_BITSET(ir_linkage) /** - * Return the visibility class of an entity + * Returns the visibility class of an entity */ FIRM_API ir_visibility get_entity_visibility(const ir_entity *entity); /** - * Set visibility class of an entity + * Sets visibility class of an entity */ FIRM_API void set_entity_visibility(ir_entity *entity, ir_visibility visibility); /** - * Return 1 if the entity is visible outside the current compilation unit + * Returns 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 @@ -172,8 +174,9 @@ FIRM_API void set_entity_visibility(ir_entity *entity, ir_visibility visibility) FIRM_API int entity_is_externally_visible(const ir_entity *entity); /** - * Return 1 if the entity has a definition (initializer) in the current - * compilation unit + * Returns 1 if the entity has a definition (initializer) in the current + * compilation unit. Note that this function returns false if + * IR_LINKAGE_NO_CODEGEN is set even if a graph is present. */ FIRM_API int entity_has_definition(const ir_entity *entity); @@ -200,6 +203,27 @@ FIRM_API ir_entity *new_entity(ir_type *owner, ident *name, ir_type *tp); FIRM_API ir_entity *new_d_entity(ir_type *owner, ident *name, ir_type *tp, dbg_info *db); +/** + * 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); + +/** + * Check an entity. Currently, we check only if initialized constants + * are build on the const irg graph. + * + * @return non-zero if no errors were found + */ +FIRM_API int check_entity(const ir_entity *ent); + /** * Copies the entity if the new_owner is different from the * owner of the old entity, else returns the old entity. @@ -273,20 +297,13 @@ FIRM_API void set_entity_type(ir_entity *ent, ir_type *tp); /** Returns the linkage of an entity. */ FIRM_API ir_linkage get_entity_linkage(const ir_entity *entity); -/** Sets the linkage of an entity. */ +/** Sets the linkage flags of entity @p entity to @p linkage. */ FIRM_API void set_entity_linkage(ir_entity *entity, ir_linkage linkage); +/** Adds linkage flags @p linkage to entity @p entity. */ FIRM_API void add_entity_linkage(ir_entity *entity, ir_linkage linkage); +/** Remove linkage flags @p linkage from entity @p entity. */ FIRM_API void remove_entity_linkage(ir_entity *entity, ir_linkage linkage); -/** - * This enumeration flags the volatility of entities and Loads/Stores. - * @deprecated - */ -typedef enum { - volatility_non_volatile, /**< The entity is not volatile. Default. */ - volatility_is_volatile /**< The entity is volatile. */ -} ir_volatility; - /** * Returns the volatility of an entity. * @deprecated @@ -299,7 +316,7 @@ FIRM_API ir_volatility get_entity_volatility(const ir_entity *ent); */ FIRM_API void set_entity_volatility(ir_entity *ent, ir_volatility vol); -/** Return the name of the volatility. */ +/** Returns the name of the volatility. */ FIRM_API const char *get_volatility_name(ir_volatility var); /** Returns alignment of entity in bytes */ @@ -311,38 +328,30 @@ FIRM_API unsigned get_entity_alignment(const ir_entity *entity); */ FIRM_API void set_entity_alignment(ir_entity *entity, unsigned alignment); - -/** - * This enumeration flags the align of Loads/Stores. - * @deprecated - */ -typedef enum { - align_non_aligned, /**< The entity is not aligned. */ - align_is_aligned /**< The entity is aligned. Default */ -} ir_align; - /** - * Returns indication wether entity is aligned in memory. + * Returns indication whether entity is aligned in memory. * @deprecated */ FIRM_API ir_align get_entity_aligned(const ir_entity *ent); /** - * Sets indication wether entity is aligned in memory + * Sets indication whether entity is aligned in memory * @deprecated */ FIRM_API void set_entity_aligned(ir_entity *ent, ir_align a); -/** Return the name of the alignment. */ +/** Returns the name of the alignment. */ FIRM_API const char *get_align_name(ir_align a); -/** Returns the offset of an entity (in a compound) in bytes. Only set if layout = fixed. */ +/** Returns the offset of an entity (in a compound) in bytes. Only set if + * layout = fixed. */ FIRM_API int get_entity_offset(const ir_entity *ent); /** Sets the offset of an entity (in a compound) in bytes. */ FIRM_API void set_entity_offset(ir_entity *ent, int offset); -/** Returns the offset bit remainder of a bitfield entity (in a compound) in bits. Only set if layout = fixed. */ +/** Returns the offset bit remainder of a bitfield entity (in a compound) in + * bits. Only set if layout = fixed. */ FIRM_API unsigned char get_entity_offset_bits_remainder(const ir_entity *ent); /** Sets the offset bit remainder of a bitfield entity (in a compound) in bits. */ @@ -355,24 +364,24 @@ FIRM_API void *get_entity_link(const ir_entity *ent); /** Stores new intermediate information. */ FIRM_API void set_entity_link(ir_entity *ent, void *l); -/* -- Fields of method entities -- */ -/** The entity knows the corresponding irg if the entity is a method. - This allows to get from a Call to the called irg. */ +/** + * The entity knows the corresponding irg if the entity is a method. + * This allows to get from a Call to the called irg. + */ FIRM_API ir_graph *get_entity_irg(const ir_entity *ent); -FIRM_API void set_entity_irg(ir_entity *ent, ir_graph *irg); /** A reserved value for "not yet set". */ #define IR_VTABLE_NUM_NOT_SET ((unsigned)(-1)) -/** Gets the entity vtable number. */ +/** Returns the entity vtable number. */ FIRM_API unsigned get_entity_vtable_number(const ir_entity *ent); /** Sets the entity vtable number. */ FIRM_API void set_entity_vtable_number(ir_entity *ent, unsigned vtable_number); -/** Set label number of an entity with code type */ +/** Sets label number of an entity with code type */ FIRM_API void set_entity_label(ir_entity *ent, ir_label_t label); -/** Return label number of an entity with code type */ +/** Returns label number of an entity with code type */ FIRM_API ir_label_t get_entity_label(const ir_entity *ent); /** Checks if an entity is compiler generated. */ @@ -397,7 +406,7 @@ typedef enum { | ir_usage_reinterpret_cast } ir_entity_usage; -/** Return the entity usage */ +/** Returns the entity usage */ FIRM_API ir_entity_usage get_entity_usage(const ir_entity *ent); /** Sets/resets the state of the address taken flag of an entity. */ @@ -418,7 +427,32 @@ FIRM_API dbg_info *get_entity_dbg_info(const ir_entity *ent); */ FIRM_API void set_entity_dbg_info(ir_entity *ent, dbg_info *db); -/* -- Representation of constant values of entities -- */ +/** + * Sepcial parameter number which can be used for parameter entities to + * indicate the first non-declared parameter in a procedure with variable + * arguments. + * We assumes that all additional parameters for variable parameters are on the + * stack. Starting from this address you can walk the stack to find all other + * parameters. + */ +#define IR_VA_START_PARAMETER_NUMBER ((size_t)-1) + +/** + * 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); + /** * Returns true if the the node is representable as code on * const_code_irg. @@ -438,10 +472,16 @@ FIRM_API int is_irn_const_expression(ir_node *n); */ FIRM_API ir_node *copy_const_value(dbg_info *dbg, ir_node *n, ir_node *to_block); -/* Set has no effect for existent entities of type method. */ -FIRM_API ir_node *get_atomic_ent_value(ir_entity *ent); +/** Returns initial value of entity with atomic type @p ent. */ +FIRM_API ir_node *get_atomic_ent_value(const ir_entity *ent); +/** Sets initial value of entity with atomic type @p ent to node @p val. + * @note @p val must be a node in the const_code graph */ FIRM_API void set_atomic_ent_value(ir_entity *ent, ir_node *val); +/** @defgroup ir_initializer Entity Initializers + * @{ + */ + /** the kind (type) of an initializer */ typedef enum ir_initializer_kind_t { /** initializer containing an ir_node from the const-code irg */ @@ -454,46 +494,48 @@ typedef enum ir_initializer_kind_t { IR_INITIALIZER_COMPOUND } ir_initializer_kind_t; -/** returns kind of an initializer */ +/** Returns kind of an initializer */ FIRM_API ir_initializer_kind_t get_initializer_kind(const ir_initializer_t *initializer); -/** Return the name of the initializer kind. */ +/** Returns the name of the initializer kind. */ FIRM_API const char *get_initializer_kind_name(ir_initializer_kind_t ini); /** - * returns the null initializer (there's only one instance of it in a program ) + * Returns the null initializer (there's only one instance of it in a program ) */ FIRM_API ir_initializer_t *get_initializer_null(void); /** - * creates an initializer containing a reference to a node on the const-code + * Creates an initializer containing a reference to a node on the const-code * irg. */ FIRM_API ir_initializer_t *create_initializer_const(ir_node *value); -/** creates an initializer containing a single tarval value */ +/** Creates an initializer containing a single tarval value */ FIRM_API ir_initializer_t *create_initializer_tarval(ir_tarval *tv); -/** return value contained in a const initializer */ +/** Returns value contained in a const initializer */ FIRM_API ir_node *get_initializer_const_value(const ir_initializer_t *initializer); -/** return value contained in a tarval initializer */ +/** Returns value contained in a tarval initializer */ FIRM_API ir_tarval *get_initializer_tarval_value(const ir_initializer_t *initialzier); -/** creates a compound initializer which holds @p n_entries entries */ -FIRM_API ir_initializer_t *create_initializer_compound(unsigned n_entries); +/** Creates a compound initializer which holds @p n_entries entries */ +FIRM_API ir_initializer_t *create_initializer_compound(size_t n_entries); -/** returns the number of entries in a compound initializer */ -FIRM_API unsigned get_initializer_compound_n_entries(const ir_initializer_t *initializer); +/** Returns the number of entries in a compound initializer */ +FIRM_API size_t get_initializer_compound_n_entries(const ir_initializer_t *initializer); -/** sets entry with index @p index to the initializer @p value */ +/** Sets entry with index @p index to the initializer @p value */ FIRM_API void set_initializer_compound_value(ir_initializer_t *initializer, - unsigned index, + size_t index, ir_initializer_t *value); -/** returns the value with index @p index of a compound initializer */ +/** Returns the value with index @p index of a compound initializer */ FIRM_API ir_initializer_t *get_initializer_compound_value( - const ir_initializer_t *initializer, unsigned index); + const ir_initializer_t *initializer, size_t index); + +/** @} */ /** Sets the new style initializers of an entity. */ FIRM_API void set_entity_initializer(ir_entity *entity, ir_initializer_t *initializer); @@ -501,31 +543,40 @@ FIRM_API void set_entity_initializer(ir_entity *entity, ir_initializer_t *initia /** Returns true, if an entity has new style initializers. */ FIRM_API int has_entity_initializer(const ir_entity *entity); -/** Return the new style initializers of an entity. */ +/** Returns the new style initializers of an entity. */ FIRM_API ir_initializer_t *get_entity_initializer(const ir_entity *entity); -/* --- Fields of entities with a class type as owner --- */ -/* 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. */ +/** Adds entity @p ent to the list of entities that overwrite @p overwritten. */ FIRM_API void add_entity_overwrites(ir_entity *ent, ir_entity *overwritten); -FIRM_API int get_entity_n_overwrites(const ir_entity *ent); -FIRM_API int get_entity_overwrites_index(const ir_entity *ent, ir_entity *overwritten); -FIRM_API ir_entity *get_entity_overwrites(const ir_entity *ent, int pos); -FIRM_API void set_entity_overwrites(ir_entity *ent, int pos, ir_entity *overwritten); +/** Returns the number of entities in the list of entities that overwrite + * entity @p ent. */ +FIRM_API size_t get_entity_n_overwrites(const ir_entity *ent); +/** Returns index of @p overwritten in list of entities overwriting entity + * @p ent. */ +FIRM_API size_t get_entity_overwrites_index(const ir_entity *ent, + ir_entity *overwritten); +/** Returns entry @p pos in list of entities overwriting entity @p ent. */ +FIRM_API ir_entity *get_entity_overwrites(const ir_entity *ent, size_t pos); +/** Sets entry @p pos in list of entities overwriting entity @p ent. */ +FIRM_API void set_entity_overwrites(ir_entity *ent, size_t pos, + ir_entity *overwritten); +/** Remove @p overwritten from list of entities overwriting entity @p ent. */ FIRM_API void remove_entity_overwrites(ir_entity *ent, ir_entity *overwritten); -FIRM_API int get_entity_n_overwrittenby(const ir_entity *ent); -FIRM_API int get_entity_overwrittenby_index(const ir_entity *ent, ir_entity *overwrites); -FIRM_API ir_entity *get_entity_overwrittenby(const ir_entity *ent, int pos); -FIRM_API void set_entity_overwrittenby(ir_entity *ent, int pos, ir_entity *overwrites); -FIRM_API void remove_entity_overwrittenby(ir_entity *ent, ir_entity *overwrites); +/** Returns number of entities overwritten by @p ent. */ +FIRM_API size_t get_entity_n_overwrittenby(const ir_entity *ent); +/** Returns index of @p overwrites in list of entities overwritten by entity + * @p ent. */ +FIRM_API size_t get_entity_overwrittenby_index(const ir_entity *ent, + ir_entity *overwrites); +/** Return entry @p pos in list of entities overwritten by entity @p ent. */ +FIRM_API ir_entity *get_entity_overwrittenby(const ir_entity *ent, size_t pos); +/** Sets entry @p pos in list of entities overwritten by entity @p ent. */ +FIRM_API void set_entity_overwrittenby(ir_entity *ent, size_t pos, + ir_entity *overwrites); +/** Removes entry @p overwrites in list of entities overwritten by @p ent. */ +FIRM_API void remove_entity_overwrittenby(ir_entity *ent, + ir_entity *overwrites); /** * Checks whether a pointer points to an entity. @@ -555,19 +606,24 @@ FIRM_API int is_method_entity(const ir_entity *ent); */ FIRM_API long get_entity_nr(const ir_entity *ent); -/** Returns the entities visited count. */ +/** Returns the entities visited counter. + * @see @ref visited_counters */ FIRM_API ir_visited_t get_entity_visited(const ir_entity *ent); -/** Sets the entities visited count. */ +/** Sets the entities visited counter. + * @see @ref visited_counters */ FIRM_API void set_entity_visited(ir_entity *ent, ir_visited_t num); -/** Sets visited field in entity to entity_visited. */ +/** Marks entity as visited. + * @see @ref visited_counters */ FIRM_API void mark_entity_visited(ir_entity *ent); -/** Returns true if this entity was visited. */ +/** Returns true if this entity was visited. + * @see @ref visited_counters */ FIRM_API int entity_visited(const ir_entity *ent); -/** Returns true if this entity was not visited. */ +/** Returns true if this entity was not visited. + * @see @ref visited_counters */ FIRM_API int entity_not_visited(const ir_entity *ent); /** @@ -587,10 +643,6 @@ FIRM_API void set_entity_additional_properties(ir_entity *ent, FIRM_API void add_entity_additional_properties(ir_entity *ent, mtp_additional_properties flag); -/** Returns the class type that this type info entity represents or NULL - if ent is no type info entity. */ -FIRM_API ir_type *get_entity_repr_class(const ir_entity *ent); - /** * @page unknown_entity The Unknown entity * @@ -624,12 +676,48 @@ FIRM_API ir_type *get_entity_repr_class(const ir_entity *ent); * - link = NULL */ -/** A variable that contains the only unknown entity. */ -FIRM_API ir_entity *unknown_entity; - /** Returns the @link unknown_entity unknown entity @endlink. */ FIRM_API ir_entity *get_unknown_entity(void); +/** Tests whether entity @p entity is (the) unknown entity. + * @returns 1 if it is the unknown entity, 0 otherwise */ +FIRM_API int is_unknown_entity(const ir_entity *entity); + +/** @deprecated */ +typedef enum { + allocation_automatic, + allocation_parameter, + allocation_dynamic, + allocation_static +} ir_allocation; +/** @deprecated */ +FIRM_API ir_allocation get_entity_allocation(const ir_entity *ent); +/** @deprecated */ +FIRM_API void set_entity_allocation(ir_entity *ent, ir_allocation al); + +/** @deprecated */ +typedef enum { + peculiarity_existent, + peculiarity_description, + peculiarity_inherited +} ir_peculiarity; +/** @deprecated */ +FIRM_API ir_peculiarity get_entity_peculiarity(const ir_entity *ent); +/** @deprecated */ +FIRM_API void set_entity_peculiarity(ir_entity *ent, ir_peculiarity pec); + +/** @deprecated */ +FIRM_API int is_entity_final(const ir_entity *ent); +/** @deprecated */ +FIRM_API void set_entity_final(ir_entity *ent, int final); + +/** @deprecated */ +FIRM_API ir_peculiarity get_class_peculiarity(const ir_type *clss); +/** @deprecated */ +FIRM_API void set_class_peculiarity(ir_type *clss, ir_peculiarity pec); + +/** @} */ + /** Encodes how a pointer parameter is accessed. */ typedef enum ptr_access_kind { ptr_access_none = 0, /**< no access */ @@ -641,25 +729,46 @@ typedef enum ptr_access_kind { } ptr_access_kind; ENUM_BITSET(ptr_access_kind) -#define IS_READ(a) ((a) & ptr_access_read) -#define IS_WRITTEN(a) ((a) & ptr_access_write) -#define IS_STORED(a) ((a) & ptr_access_store) +/** + * @defgroup ir_type Type System + * + * Datastructure to hold type information. + * + * This module supplies a datastructure to represent all types + * known in the compiled program. This includes types specified + * in the program as well as types defined by the language. In the + * view of the intermediate representation there is no difference + * between these types. Finally it specifies some auxiliary types. + * + * There exist several kinds of types, arranged by the structure of + * the type. 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. + * + * Types are different from the modes defined in irmode: Types are + * on the level of the programming language, modes at the level of + * the target processor. + * + * @{ + */ /** - * @page tyop type operations + * @defgroup tp_op Type Opcodes * 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 { +typedef enum tp_opcode { tpo_uninitialized = 0, /* not a type opcode */ tpo_class, /**< A class type. */ tpo_struct, /**< A struct type. */ @@ -702,125 +811,7 @@ FIRM_API const char *get_tpop_name(const tp_op *op); */ FIRM_API tp_opcode get_tpop_code(const tp_op *op); -/** - * 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. - */ -FIRM_API const tp_op *type_class; -FIRM_API const tp_op *get_tpop_class(void); - -/** - * 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. - */ -FIRM_API const tp_op *type_struct; -FIRM_API const tp_op *get_tpop_struct(void); - -/** - * 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. - */ -FIRM_API const tp_op *type_method; -FIRM_API const tp_op *get_tpop_method(void); - -/** - * 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. - */ -FIRM_API const tp_op *type_union; -FIRM_API const tp_op *get_tpop_union(void); - -/** - * 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. - */ -FIRM_API const tp_op *type_array; -FIRM_API const tp_op *get_tpop_array(void); - -/** - * 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. - */ -FIRM_API const tp_op *type_enumeration; -FIRM_API const tp_op *get_tpop_enumeration(void); - -/** - * 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. - */ -FIRM_API const tp_op *type_pointer; -FIRM_API const tp_op *get_tpop_pointer(void); - -/** - * 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. - */ -FIRM_API const tp_op *type_primitive; -FIRM_API const tp_op *get_tpop_primitive(void); - -/** - * The code type is used to mark pieces of code (basic blocks) - */ -FIRM_API const tp_op *tpop_code; -FIRM_API const tp_op *get_tpop_code_type(void); - -/** - * 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. - */ -FIRM_API const tp_op *tpop_none; -FIRM_API const tp_op *get_tpop_none(void); - -/** - * 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. - */ -FIRM_API const tp_op *tpop_unknown; -FIRM_API const tp_op *get_tpop_unknown(void); - -/* ----------------------------------------------------------------------- */ -/* Classify pairs of types/entities in the inheritance relations. */ -/* ----------------------------------------------------------------------- */ +/** @} */ /** Returns true if low is subclass of high. * @@ -867,10 +858,6 @@ FIRM_API int is_overwritten_by(ir_entity *high, ir_entity *low); FIRM_API ir_entity *resolve_ent_polymorphy(ir_type *dynamic_class, ir_entity* static_ent); -/* ----------------------------------------------------------------------- */ -/* Resolve implicit inheritance. */ -/* ----------------------------------------------------------------------- */ - /** Default name mangling for inherited entities. * * Returns an ident that consists of the name of type followed by an @@ -930,11 +917,16 @@ typedef enum { inh_transitive_closure_max /**< Invalid value. */ } inh_transitive_closure_state; +/** Sets the transitive closure of sub/superclass state for the + * whole program. */ FIRM_API void set_irp_inh_transitive_closure_state(inh_transitive_closure_state s); +/** Sets the transitive closure of sub/superclass state for the + * whole program to #inh_transitive_closure_invalid */ FIRM_API void invalidate_irp_inh_transitive_closure_state(void); +/** Returns the transitive closure of sub/superclass state for the + * whole program. */ FIRM_API inh_transitive_closure_state get_irp_inh_transitive_closure_state(void); - /** Compute transitive closure of the subclass/superclass and * overwrites/overwrittenby relation. * @@ -945,170 +937,80 @@ FIRM_API void compute_inh_transitive_closure(void); /** Free memory occupied by the transitive closure information. */ FIRM_API void free_inh_transitive_closure(void); - -/* - subtype ------------------------------------------------------------- */ - -/** Iterate over all transitive subtypes. */ +/** Start iteration over all transitive subtypes of @p tp */ FIRM_API ir_type *get_class_trans_subtype_first(const ir_type *tp); +/** + * Returns next type in a subtype iteration started by + * get_class_trans_subtype_first() + */ FIRM_API ir_type *get_class_trans_subtype_next(const ir_type *tp); +/** + * Check if @p subtp is a subtype of @p tp. This function checks the full + * transitive closure of the subtype relation and not just direct subtyping. + * @return 1 if it is a subtype, 0 otherwise + */ FIRM_API int is_class_trans_subtype(const ir_type *tp, const ir_type *subtp); -/* - supertype ----------------------------------------------------------- */ - -/** Iterate over all transitive supertypes. */ +/** Start iteration over all transitive supertypes of @p tp */ FIRM_API ir_type *get_class_trans_supertype_first(const ir_type *tp); +/** + * Returns next type in a supertype iteration started by + * get_class_trans_supertype_first() + */ FIRM_API ir_type *get_class_trans_supertype_next(const ir_type *tp); -/* - overwrittenby ------------------------------------------------------- */ - -/** Iterate over all entities that transitive overwrite this entities. */ +/** Start iteration over all entities that transitive overwrite entity @p ent.*/ FIRM_API ir_entity *get_entity_trans_overwrittenby_first(const ir_entity *ent); +/** + * Returns next entity in a overwrittenby iteration started by + * get_entity_trans_overwrittenby_first() + */ FIRM_API ir_entity *get_entity_trans_overwrittenby_next(const ir_entity *ent); -/* - overwrites ---------------------------------------------------------- */ - -/** Iterate over all transitive overwritten entities. */ +/** Start iteration over all transitive overwritten entities, overwritten by + * entity @p ent */ FIRM_API ir_entity *get_entity_trans_overwrites_first(const ir_entity *ent); +/** + * Returns next entity in a overwrites iteration started by + * get_entity_trans_overwrites_first() + */ FIRM_API ir_entity *get_entity_trans_overwrites_next(const ir_entity *ent); -/* ----------------------------------------------------------------------- */ -/** 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()) +/** + * Checks a type. + * + * @return non-zero if no errors were found */ -/* ----------------------------------------------------------------------- */ +FIRM_API int check_type(const ir_type *tp); -/** Flags for class cast state. - * - * 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; -FIRM_API const char *get_class_cast_state_string(ir_class_cast_state s); - -FIRM_API void set_irg_class_cast_state(ir_graph *irg, - ir_class_cast_state s); -FIRM_API ir_class_cast_state get_irg_class_cast_state(const ir_graph *irg); -FIRM_API void set_irp_class_cast_state(ir_class_cast_state s); -FIRM_API ir_class_cast_state get_irp_class_cast_state(void); - -/** Verify the class cast state of an irg. - * - * Asserts if state is to high, outputs debug warning if state is to low - * and firm verbosity is set. - */ -FIRM_API void verify_irg_class_cast_state(ir_graph *irg); - -/** - * possible trverify() error codes - */ -enum trverify_error_codes { - no_error = 0, /**< no error */ - error_ent_not_cont, /**< overwritten entity not in superclass */ - error_null_mem, /**< compound contains NULL member */ - error_const_on_wrong_irg, /**< constant placed on wrong IRG */ - error_existent_entity_without_irg, /**< Method entities with pecularity_exist must have an irg */ - error_wrong_ent_overwrites, /**< number of entity overwrites exceeds number of class overwrites */ - error_inherited_ent_without_const, /**< inherited method entity not pointing to existent entity */ - error_glob_ent_allocation, /**< wrong allocation of a global entity */ - error_ent_const_mode, /**< Mode of constant in entity did not match entities type. */ - error_ent_wrong_owner /**< Mode of constant in entity did not match entities type. */ -}; - -/** - * Checks a type. - * - * @return - * 0 if no error encountered - */ -FIRM_API int check_type(ir_type *tp); - -/** - * Check an entity. Currently, we check only if initialized constants - * are build on the const irg graph. - * - * @return - * 0 if no error encountered - * != 0 a trverify_error_codes code - */ -FIRM_API int check_entity(ir_entity *ent); - -/** - * Walks the type information and performs a set of sanity checks. +/** + * Walks the type information and performs a set of sanity checks. * * Currently, the following checks are executed: * - values of initialized entities must be allocated on the constant IRG * - class types: doesn't have NULL members * - class types: all overwrites are existent in the super type * - * @return - * 0 if graph is correct - * else error code. + * @return 0 if no error encountered */ FIRM_API int tr_verify(void); /** - * @page type representation of types - * - * Datastructure to hold type information. - * - * This module supplies a datastructure to represent all types - * known in the compiled program. This includes types specified - * in the program as well as types defined by the language. In the - * view of the intermediate representation there is no difference - * between these types. Finally it specifies some auxiliary types. + * Frees the memory used by the type. * - * There exist several kinds of types, arranged by the structure of - * the type. 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. - * - * Types are different from the modes defined in irmode: Types are - * on the level of the programming language, modes at the level of - * the target processor. - */ - -/** Frees all entities associated with a type. - * Does not free the array entity. - * Warning: ensure these entities are not referenced anywhere else. + * Removes the type from the type list and frees all entities + * belonging to the type. */ -FIRM_API void free_type_entities(ir_type *tp); - -/** Frees the memory used by the type. - * - * Removes the type from the type list. Does not free the entities - * belonging to the type, except for the array element entity. Does - * not free if tp is "none" or "unknown". Frees entities in value - * param subtypes of method types!!! Make sure these are not - * referenced any more. Further make sure there is no pointer type - * that refers to this type. */ FIRM_API void free_type(ir_type *tp); +/** Returns type opcode of type @p tp */ FIRM_API const tp_op *get_type_tpop(const ir_type *tp); +/** Returns name identifier of type opcode of type @p tp */ FIRM_API ident *get_type_tpop_nameid(const ir_type *tp); +/** Returns name of type opcode of type @p tp */ FIRM_API const char *get_type_tpop_name(const ir_type *tp); +/** Returns opcode of type opcode of type @p tp */ FIRM_API tp_opcode get_type_tpop_code(const ir_type *tp); /** @@ -1176,27 +1078,32 @@ FIRM_API void set_type_size_bytes(ir_type *tp, unsigned size); /** Returns the alignment of a type in bytes. */ FIRM_API unsigned get_type_alignment_bytes(ir_type *tp); -/** Returns the alignment of a type in bits. +/** Sets the alignment of a type in bytes. * * If the alignment of a type is * not set, it is calculated here according to the following rules: * -#.) if a type has a mode, the alignment is the mode size. - * -#.) compound types have the alignment of there biggest member. - * -#.) array types have the alignment of there element type. + * -#.) compound types have the alignment of their biggest member. + * -#.) array types have the alignment of their element type. * -#.) method types return 0 here. * -#.) all other types return 1 here (i.e. aligned at byte). */ FIRM_API void set_type_alignment_bytes(ir_type *tp, unsigned align); -/** Returns the visited count of a type. */ +/** Returns the visited counter of a type. + * @see @ref visited_counters */ FIRM_API ir_visited_t get_type_visited(const ir_type *tp); -/** Sets the visited count of a type to num. */ +/** Sets the visited counter of a type to num. + * @see @ref visited_counters */ FIRM_API void set_type_visited(ir_type *tp, ir_visited_t num); -/** Sets visited field in type to type_visited. */ +/** Sets visited field in type to type_visited. + * @see @ref visited_counters */ FIRM_API void mark_type_visited(ir_type *tp); -/** Returns non-zero if the type is already visited */ +/** Returns non-zero if the type is already visited + * @see @ref visited_counters */ FIRM_API int type_visited(const ir_type *tp); -/** Returns non-zero if the type is not yet visited */ +/** Returns non-zero if the type is not yet visited + * @see @ref visited_counters */ FIRM_API int type_not_visited(const ir_type *tp); /** Returns the associated link field of a type. */ @@ -1204,21 +1111,15 @@ FIRM_API void *get_type_link(const ir_type *tp); /** Sets the associated link field of a type. */ FIRM_API void set_type_link(ir_type *tp, void *l); -/** - * Visited flag to traverse the type information. - * - * Increase this flag by one before traversing the type information - * using inc_master_type_visited(). - * Mark type nodes as visited by mark_type_visited(ir_type). - * Check whether node was already visited by type_visited(ir_type) - * and type_not_visited(ir_type). - * Or use the function to walk all types. - * - * @see typewalk - */ +/** Increments type visited reference counter by one. + * @see @ref visited_counters, mark_type_visited(), type_visited() */ +FIRM_API void inc_master_type_visited(void); +/** Sets type visited reference counter. + * @see @ref visited_counters */ FIRM_API void set_master_type_visited(ir_visited_t val); +/** Returns type visited reference counter. + * @see @ref visited_counters */ FIRM_API ir_visited_t get_master_type_visited(void); -FIRM_API void inc_master_type_visited(void); /** * Sets the debug information of a type. @@ -1245,6 +1146,13 @@ FIRM_API type_dbg_info *get_type_dbg_info(const ir_type *tp); */ FIRM_API int is_type(const void *thing); +/** + * Outputs a unique number for this type if libfirm is compiled for + * debugging, (configure with --enable-debug) else returns the address + * of the type cast to long. + */ +FIRM_API long get_type_nr(const ir_type *tp); + /** * Checks whether two types are structurally equal. * @@ -1320,7 +1228,8 @@ FIRM_API int equal_type(ir_type *typ1, ir_type *typ2); FIRM_API int smaller_type(ir_type *st, ir_type *lt); /** - * @page class_type Representation of a class type + * @ingroup compound_type + * @defgroup class_type Class * * If the type opcode is set to type_class the type represents class * types. A list of fields and methods is associated with a class. @@ -1339,12 +1248,6 @@ FIRM_API int smaller_type(ir_type *st, ir_type *lt); * * - supertypes: A list of direct superclasses. * - * - type_info: An entity representing the type information of this class. - * This entity can be of arbitrari type, Firm did not use it yet. - * It allows to express the coupling of a type with an entity - * representing this type. This information is useful for lowering - * of InstOf and TypeChk nodes. Default: NULL - * * - vtable_size: The size of this class virtual function table. * Default: 0 * @@ -1363,6 +1266,7 @@ FIRM_API int smaller_type(ir_type *st, ir_type *lt); * between interfaces, abstract classes and other classes that all may * have the peculiarity peculiarity_description. Depending on this flag * the lowering might do different actions. Default: false + * @{ */ /** Creates a new class type. */ @@ -1371,22 +1275,26 @@ FIRM_API ir_type *new_type_class(ident *name); /** Creates a new class type with debug information. */ FIRM_API ir_type *new_d_type_class(ident *name, type_dbg_info *db); -/* --- manipulate private fields of class type --- */ - -/** return identifier of the class type */ +/** Returns identifier of the class type */ FIRM_API ident *get_class_ident(const ir_type *clss); -/** return identifier of the class type */ +/** Returns identifier of the class type */ FIRM_API const char *get_class_name(const ir_type *clss); /** Returns the number of members of this class. */ -FIRM_API int get_class_n_members(const ir_type *clss); +FIRM_API size_t get_class_n_members(const ir_type *clss); /** Returns the member at position pos, 0 <= pos < n_member */ -FIRM_API ir_entity *get_class_member(const ir_type *clss, int pos); +FIRM_API ir_entity *get_class_member(const ir_type *clss, size_t pos); -/** Returns index of mem in clss, -1 if not contained. */ -FIRM_API int get_class_member_index(const ir_type *clss, ir_entity *mem); +/** + * Special index returned when get_class_member_index() cannot find a member. + * This index is never used for actual members. + */ +#define INVALID_MEMBER_INDEX ((size_t)-1) + +/** Returns index of mem in clss, INVALID_MEMBER_INDEX if not contained. */ +FIRM_API size_t get_class_member_index(const ir_type *clss, ir_entity *mem); /** Finds the member with name 'name'. If several members with the same * name returns one of them. Returns NULL if no member found. */ @@ -1399,34 +1307,26 @@ FIRM_API ir_entity *get_class_member_by_name(ir_type *clss, ident *name); FIRM_API void add_class_subtype(ir_type *clss, ir_type *subtype); /** Returns the number of subtypes */ -FIRM_API int get_class_n_subtypes(const ir_type *clss); +FIRM_API size_t get_class_n_subtypes(const ir_type *clss); -/** Gets the subtype at position pos, 0 <= pos < n_subtype. */ -FIRM_API ir_type *get_class_subtype(ir_type *clss, int pos); +/** Returns the subtype at position pos, 0 <= pos < n_subtype. */ +FIRM_API ir_type *get_class_subtype(ir_type *clss, size_t pos); /** Returns the index to access subclass as subtype of class. * * If subclass is no direct subtype of class returns -1. */ -FIRM_API int get_class_subtype_index(ir_type *clss, const ir_type *subclass); +FIRM_API size_t get_class_subtype_index(ir_type *clss, const ir_type *subclass); /** Sets the subtype at position pos, 0 <= pos < n_subtype. * * Does not set the corresponding supertype relation for subtype: this might * be a different position! */ -FIRM_API void set_class_subtype(ir_type *clss, ir_type *subtype, int pos); +FIRM_API void set_class_subtype(ir_type *clss, ir_type *subtype, size_t pos); /** Finds subtype in the list of subtypes and removes it */ FIRM_API void remove_class_subtype(ir_type *clss, ir_type *subtype); -/* Convenience macros */ -#define add_class_derived_type(clss, drvtype) add_class_subtype(clss, drvtype) -#define get_class_n_derived_types(clss) get_class_n_subtypes(clss) -#define get_class_derived_type(clss, pos) get_class_subtype(clss, pos) -#define get_class_derived_type_index(clss, drvtype) get_class_subtype_index(clss, drvtype) -#define set_class_derived_type(clss, drvtype, pos) set_class_subtype(clss, drvtype, pos) -#define remove_class_derived_type(clss, drvtype) remove_class_subtype(clss, drvtype) - /** Adds supertype as supertype to class. * * Checks whether clss is a subtype of supertype. If not @@ -1434,40 +1334,26 @@ FIRM_API void remove_class_subtype(ir_type *clss, ir_type *subtype); FIRM_API void add_class_supertype(ir_type *clss, ir_type *supertype); /** Returns the number of supertypes */ -FIRM_API int get_class_n_supertypes(const ir_type *clss); +FIRM_API size_t get_class_n_supertypes(const ir_type *clss); /** Returns the index to access superclass as supertype of class. * * If superclass is no direct supertype of class returns -1. */ -FIRM_API int get_class_supertype_index(ir_type *clss, ir_type *super_clss); +FIRM_API size_t get_class_supertype_index(ir_type *clss, ir_type *super_clss); -/** Gets the supertype at position pos, 0 <= pos < n_supertype. */ -FIRM_API ir_type *get_class_supertype(ir_type *clss, int pos); +/** Returns the supertype at position pos, 0 <= pos < n_supertype. */ +FIRM_API ir_type *get_class_supertype(ir_type *clss, size_t pos); /** Sets the supertype at position pos, 0 <= pos < n_supertype. * * Does not set the corresponding subtype relation for supertype: this might * be at a different position! */ -FIRM_API void set_class_supertype(ir_type *clss, ir_type *supertype, int pos); +FIRM_API void set_class_supertype(ir_type *clss, ir_type *supertype, size_t pos); /** Finds supertype in the list of supertypes and removes it */ FIRM_API void remove_class_supertype(ir_type *clss, ir_type *supertype); -/** Convenience macro */ -#define add_class_base_type(clss, basetype) add_class_supertype(clss, basetype) -#define get_class_n_base_types(clss) get_class_n_supertypes(clss) -#define get_class_base_type_index(clss, base_clss) get_class_supertype_index(clss, base_clss) -#define get_class_base_type(clss, pos) get_class_supertype(clss, pos) -#define set_class_base_type(clss, basetype, pos) set_class_supertype(clss, basetype, pos) -#define remove_class_base_type(clss, basetype) remove_class_supertype(clss, basetype) - -/** Returns the type info entity of a class. */ -FIRM_API ir_entity *get_class_type_info(const ir_type *clss); - -/** Set a type info entity for the class. */ -FIRM_API void set_class_type_info(ir_type *clss, ir_entity *ent); - /** Returns the size of the virtual function table. */ FIRM_API unsigned get_class_vtable_size(const ir_type *clss); @@ -1480,13 +1366,13 @@ FIRM_API int is_class_final(const ir_type *clss); /** Sets the class final flag. */ FIRM_API void set_class_final(ir_type *clss, int flag); -/** Return non-zero if a class is an interface */ +/** Returns non-zero if a class is an interface */ FIRM_API int is_class_interface(const ir_type *clss); /** Sets the class interface flag. */ FIRM_API void set_class_interface(ir_type *clss, int flag); -/** Return non-zero if a class is an abstract class. */ +/** Returns non-zero if a class is an abstract class. */ FIRM_API int is_class_abstract(const ir_type *clss); /** Sets the class abstract flag. */ @@ -1496,7 +1382,21 @@ FIRM_API void set_class_abstract(ir_type *clss, int flag); FIRM_API int is_Class_type(const ir_type *clss); /** - * @page struct_type Representation of a struct type + * 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. + * This struct is dynamically allocated but constant for the lifetime + * of the library. + */ +FIRM_API const tp_op *type_class; +/** Returns type opcode for class type. @see type_class */ +FIRM_API const tp_op *get_tpop_class(void); + +/** @} */ + +/** @ingroup compound_type + * @defgroup struct_type Struct * * A struct type represents aggregate types that consist of a list * of fields. @@ -1510,34 +1410,101 @@ FIRM_API int is_Class_type(const ir_type *clss); * but not shrinked. * This is a dynamic list that can be grown with an "add_" function, * but not shrinked. + * @{ */ + /** Creates a new type struct */ FIRM_API ir_type *new_type_struct(ident *name); /** Creates a new type struct with debug information. */ FIRM_API ir_type *new_d_type_struct(ident *name, type_dbg_info* db); -/* --- manipulate private fields of struct --- */ - -/** return struct identifier */ +/** Returns struct identifier */ FIRM_API ident *get_struct_ident(const ir_type *strct); -/** return struct identifier as c-string*/ +/** Returns struct identifier as c-string*/ FIRM_API const char *get_struct_name(const ir_type *strct); /** Returns the number of members of this struct. */ -FIRM_API int get_struct_n_members(const ir_type *strct); +FIRM_API size_t get_struct_n_members(const ir_type *strct); -/** Returns the member at position pos, 0 <= pos < n_member */ -FIRM_API ir_entity *get_struct_member(const ir_type *strct, int pos); +/** Returns the member at position pos, pos < n_member */ +FIRM_API ir_entity *get_struct_member(const ir_type *strct, size_t pos); /** Returns index of member in strct, -1 if not contained. */ -FIRM_API int get_struct_member_index(const ir_type *strct, ir_entity *member); +FIRM_API size_t get_struct_member_index(const ir_type *strct, ir_entity *member); /** Returns true if a type is a struct type. */ FIRM_API int is_Struct_type(const ir_type *strct); /** - * @page method_type Representation of a method type + * 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. + */ +FIRM_API const tp_op *type_struct; +/** Returns type opcode for struct type. @see type_struct */ +FIRM_API const tp_op *get_tpop_struct(void); + +/** @} */ + +/** + * @ingroup compound_type + * @defgroup union_type Union + * + * The union type represents union types. Note that this representation + * resembles the C union type. For tagged variant types like in Pascal or + * Modula a combination of a struct and a union type must be used. + * + * - n_types: Number of unioned types. + * - members: Entities for unioned types. Fixed length array. + * This is a dynamic list that can be grown with an "add_" + * function, but not shrinked. + * @{ + */ +/** Creates a new type union. */ +FIRM_API ir_type *new_type_union(ident *name); + +/** Creates a new type union with debug information. */ +FIRM_API ir_type *new_d_type_union(ident *name, type_dbg_info* db); + + +/** Returns union identifier */ +FIRM_API ident *get_union_ident(const ir_type *uni); + +/** Returns union identifier as c-string */ +FIRM_API const char *get_union_name(const ir_type *uni); + +/** Returns the number of unioned types of this union */ +FIRM_API size_t get_union_n_members(const ir_type *uni); + +/** Returns the entity at position pos of a union */ +FIRM_API ir_entity *get_union_member(const ir_type *uni, size_t pos); + +/** Returns index of member in uni, -1 if not contained. */ +FIRM_API size_t get_union_member_index(const ir_type *uni, ir_entity *member); + +/** Returns true if a type is a union type. */ +FIRM_API int is_Union_type(const ir_type *uni); + +/** + * 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. + */ +FIRM_API const tp_op *type_union; +/** Returns type opcode for union type. @see type_union */ +FIRM_API const tp_op *get_tpop_union(void); + +/** @} */ + +/** + * @defgroup method_type Method * * A method type represents a method, function or procedure type. * It contains a list of the parameter and result types, as these @@ -1564,17 +1531,9 @@ FIRM_API int is_Struct_type(const ir_type *strct); * - res_type: A list with the types of parameters. This list is ordered. * The nth type in this list corresponds to the nth input to * Return nodes. (See ircons.h for more information.) - * - * - value_res_ents - * A list of entities (whose owner is a struct private to the - * method type) that represent results passed by value. + * @{ */ -/* These macros define the suffixes for the types and entities used - to represent value parameters / results. */ -#define VALUE_PARAMS_SUFFIX "val_param" -#define VALUE_RESS_SUFFIX "val_res" - /** Create a new method type. * * @param n_param the number of parameters @@ -1583,7 +1542,7 @@ FIRM_API int is_Struct_type(const ir_type *strct); * The arrays for the parameter and result types are not initialized by * the constructor. */ -FIRM_API ir_type *new_type_method(int n_param, int n_res); +FIRM_API ir_type *new_type_method(size_t n_param, size_t n_res); /** Create a new method type with debug information. * @@ -1594,56 +1553,24 @@ FIRM_API ir_type *new_type_method(int n_param, int n_res); * The arrays for the parameter and result types are not initialized by * the constructor. */ -FIRM_API ir_type *new_d_type_method(int n_param, int n_res, type_dbg_info *db); - -/* -- manipulate private fields of method. -- */ +FIRM_API ir_type *new_d_type_method(size_t n_param, size_t n_res, + type_dbg_info *db); /** Returns the number of parameters of this method. */ -FIRM_API int get_method_n_params(const ir_type *method); +FIRM_API size_t get_method_n_params(const ir_type *method); /** Returns the type of the parameter at position pos of a method. */ -FIRM_API ir_type *get_method_param_type(ir_type *method, int pos); +FIRM_API ir_type *get_method_param_type(const ir_type *method, size_t pos); /** Sets the type of the parameter at position pos of a method. - Also changes the type in the pass-by-value representation by just - changing the type of the corresponding entity if the representation is constructed. */ -FIRM_API void set_method_param_type(ir_type *method, int pos, ir_type *tp); -/** Returns an entity that represents the copied value argument. Only necessary - for compounds passed by value. This information is constructed only on demand. */ -FIRM_API ir_entity *get_method_value_param_ent(ir_type *method, int pos); -/** - * Sets the type that represents the copied value arguments. - */ -FIRM_API void set_method_value_param_type(ir_type *method, ir_type *tp); -/** - * Returns a type that represents the copied value arguments if one - * was allocated, else NULL. - */ -FIRM_API ir_type *get_method_value_param_type(const ir_type *method); -/** Returns an ident representing the parameters name. Returns NULL if not set. - For debug support only. */ -FIRM_API ident *get_method_param_ident(ir_type *method, int pos); -/** Returns a string representing the parameters name. Returns NULL if not set. - For debug support only. */ -FIRM_API const char *get_method_param_name(ir_type *method, int pos); -/** Sets an ident representing the parameters name. For debug support only. */ -FIRM_API void set_method_param_ident(ir_type *method, int pos, ident *id); - + * Note: does not change the corresponding parameter entities (if there are any) + */ +FIRM_API void set_method_param_type(ir_type *method, size_t pos, ir_type *tp); /** Returns the number of results of a method type. */ -FIRM_API int get_method_n_ress(const ir_type *method); +FIRM_API size_t get_method_n_ress(const ir_type *method); /** Returns the return type of a method type at position pos. */ -FIRM_API ir_type *get_method_res_type(ir_type *method, int pos); -/** Sets the type of the result at position pos of a method. - Also changes the type in the pass-by-value representation by just - changing the type of the corresponding entity if the representation is constructed. */ -FIRM_API void set_method_res_type(ir_type *method, int pos, ir_type *tp); -/** Returns an entity that represents the copied value result. Only necessary - for compounds passed by value. This information is constructed only on demand. */ -FIRM_API ir_entity *get_method_value_res_ent(ir_type *method, int pos); - -/** - * Returns a type that represents the copied value results. - */ -FIRM_API ir_type *get_method_value_res_type(const ir_type *method); +FIRM_API ir_type *get_method_res_type(const ir_type *method, size_t pos); +/** Sets the type of the result at position pos of a method. */ +FIRM_API void set_method_res_type(ir_type *method, size_t pos, ir_type *tp); /** * This enum flags the variadicity of methods (methods with a @@ -1664,22 +1591,6 @@ FIRM_API ir_variadicity get_method_variadicity(const ir_type *method); /** Sets the variadicity of a method. */ FIRM_API void set_method_variadicity(ir_type *method, ir_variadicity vari); -/** - * Returns the first variadic parameter index of a type. - * If this index was NOT set, the index of the last parameter - * of the method type plus one is returned for variadic functions. - * Non-variadic function types always return -1 here. - */ -FIRM_API int get_method_first_variadic_param_index(const ir_type *method); - -/** - * Sets the first variadic parameter index. This allows to specify - * a complete call type (containing the type of all parameters) - * but still have the knowledge, which parameter must be passed as - * variadic one. - */ -FIRM_API void set_method_first_variadic_param_index(ir_type *method, int index); - /** Returns the mask of the additional graph properties. */ FIRM_API mtp_additional_properties get_method_additional_properties(const ir_type *method); @@ -1714,9 +1625,6 @@ typedef enum { cc_bits = (0xFF << 24)/**< The calling convention bits. */ } calling_convention; -/* some often used cases: made as defines because firmjni cannot handle two - equal enum values. */ - /** cdecl calling convention */ #define cc_cdecl_set (0) /** stdcall calling convention */ @@ -1745,7 +1653,7 @@ typedef enum { #define SET_CDECL(cc_mask) (((cc_mask) & ~cc_bits) | cc_cdecl_set) /** - * Set. the STDCALL convention bits. + * Sets the STDCALL convention bits. */ #define SET_STDCALL(cc_mask) (((cc_mask) & ~cc_bits) | cc_stdcall_set) @@ -1770,49 +1678,24 @@ FIRM_API void set_method_n_regparams(ir_type *method, unsigned n_regs); FIRM_API int is_Method_type(const ir_type *method); /** - * @page union_type Representation of a union (variant) type. - * - * The union type represents union types. Note that this representation - * resembles the C union type. For tagged variant types like in Pascal or Modula - * a combination of a struct and a union type must be used. + * This type opcode marks that the corresponding type is a method type. * - * - n_types: Number of unioned types. - * - members: Entities for unioned types. Fixed length array. - * This is a dynamic list that can be grown with an "add_" function, - * but not shrinked. + * Consequently it refers to a list of arguments and results. + * This struct is dynamically allocated but constant for the lifetime + * of the library. */ -/** Creates a new type union. */ -FIRM_API ir_type *new_type_union(ident *name); - -/** Creates a new type union with debug information. */ -FIRM_API ir_type *new_d_type_union(ident *name, type_dbg_info* db); - -/* --- manipulate private fields of struct --- */ - -/** return union identifier */ -FIRM_API ident *get_union_ident(const ir_type *uni); - -/** return union identifier as c-string */ -FIRM_API const char *get_union_name(const ir_type *uni); - -/** Returns the number of unioned types of this union */ -FIRM_API int get_union_n_members(const ir_type *uni); - -/** Returns the entity at position pos of a union */ -FIRM_API ir_entity *get_union_member(const ir_type *uni, int pos); +FIRM_API const tp_op *type_method; +/** Returns type opcode for method type @see type_method */ +FIRM_API const tp_op *get_tpop_method(void); -/** Returns index of member in uni, -1 if not contained. */ -FIRM_API int get_union_member_index(const ir_type *uni, ir_entity *member); - -/** Returns true if a type is a union type. */ -FIRM_API int is_Union_type(const ir_type *uni); +/** @} */ /** - * @page array_type Representation of an array type + * @defgroup array_type Array * * The array type represents rectangular multi dimensional arrays. * The constants representing the bounds must be allocated to - * get_const_code_irg() by setting current_ir_graph accordingly. + * get_const_code_irg(). * * - n_dimensions: Number of array dimensions. * - *lower_bound: Lower bounds of dimensions. Usually all 0. @@ -1820,6 +1703,7 @@ FIRM_API int is_Union_type(const ir_type *uni); * - *element_type: The type of the array elements. * - *element_ent: An entity for the array elements to be used for * element selection with Sel. + * @{ */ /** Create a new type array. @@ -1827,131 +1711,157 @@ FIRM_API int is_Union_type(const ir_type *uni); * Sets n_dimension to dimension and all dimension entries to NULL. * Initializes order to the order of the dimensions. * The entity for array elements is built automatically. - * Set dimension sizes after call to constructor with set_* routines. + * Sets dimension sizes after call to constructor with set_* routines. */ -FIRM_API ir_type *new_type_array(int n_dims, ir_type *element_type); +FIRM_API ir_type *new_type_array(size_t n_dims, ir_type *element_type); /** Create a new type array with debug information. * * Sets n_dimension to dimension and all dimension entries to NULL. * Initializes order to the order of the dimensions. * The entity for array elements is built automatically. - * Set dimension sizes after call to constructor with set_* routines. + * Sets dimension sizes after call to constructor with set_* routines. * A legal array type must have at least one dimension set. */ -FIRM_API ir_type *new_d_type_array(int n_dims, ir_type *element_type, +FIRM_API ir_type *new_d_type_array(size_t n_dims, ir_type *element_type, type_dbg_info* db); -/* --- manipulate private fields of array type --- */ /** Returns the number of array dimensions of this type. */ -FIRM_API int get_array_n_dimensions(const ir_type *array); +FIRM_API size_t get_array_n_dimensions(const ir_type *array); /** * Allocates Const nodes of mode_Is for one array dimension. * Upper bound in Firm is the element next to the last, i.e. [lower,upper[ */ -FIRM_API void set_array_bounds_int(ir_type *array, int dimension, +FIRM_API void set_array_bounds_int(ir_type *array, size_t dimension, int lower_bound, int upper_bound); /** * Sets the bounds for one array dimension. * Upper bound in Firm is the element next to the last, i.e. [lower,upper[ */ -FIRM_API void set_array_bounds(ir_type *array, int dimension, +FIRM_API void set_array_bounds(ir_type *array, size_t dimension, ir_node *lower_bound, ir_node *upper_bound); /** Sets the lower bound for one array dimension, i.e. [lower,upper[ */ -FIRM_API void set_array_lower_bound(ir_type *array, int dimension, +FIRM_API void set_array_lower_bound(ir_type *array, size_t dimension, ir_node *lower_bound); /** Allocates Const nodes of mode_Is for the lower bound of an array dimension, i.e. [lower,upper[ */ -FIRM_API void set_array_lower_bound_int(ir_type *array, int dimension, +FIRM_API void set_array_lower_bound_int(ir_type *array, size_t dimension, int lower_bound); /** Sets the upper bound for one array dimension, i.e. [lower,upper[ */ -FIRM_API void set_array_upper_bound(ir_type *array, int dimension, +FIRM_API void set_array_upper_bound(ir_type *array, size_t dimension, ir_node *upper_bound); /** Allocates Const nodes of mode_Is for the upper bound of an array dimension, i.e. [lower,upper[. */ -FIRM_API void set_array_upper_bound_int(ir_type *array, int dimension, +FIRM_API void set_array_upper_bound_int(ir_type *array, size_t dimension, int upper_bound); /** Returns true if lower bound != Unknown. */ -FIRM_API int has_array_lower_bound(const ir_type *array, int dimension); +FIRM_API int has_array_lower_bound(const ir_type *array, size_t dimension); /** Returns the lower bound of an array. */ -FIRM_API ir_node *get_array_lower_bound(const ir_type *array, int dimension); +FIRM_API ir_node *get_array_lower_bound(const ir_type *array, size_t dimension); /** Works only if bound is Const node with tarval that can be converted to long. */ -FIRM_API long get_array_lower_bound_int(const ir_type *array, int dimension); +FIRM_API long get_array_lower_bound_int(const ir_type *array, size_t dimension); /** returns true if lower bound != Unknown */ -FIRM_API int has_array_upper_bound(const ir_type *array, int dimension); +FIRM_API int has_array_upper_bound(const ir_type *array, size_t dimension); /** Returns the upper bound of an array. */ -FIRM_API ir_node *get_array_upper_bound(const ir_type *array, int dimension); +FIRM_API ir_node *get_array_upper_bound(const ir_type *array, size_t dimension); /** Works only if bound is Const node with tarval that can be converted to long. */ -FIRM_API long get_array_upper_bound_int(const ir_type *array, int dimension); +FIRM_API long get_array_upper_bound_int(const ir_type *array, size_t dimension); /** Sets an array dimension to a specific order. */ -FIRM_API void set_array_order(ir_type *array, int dimension, int order); +FIRM_API void set_array_order(ir_type *array, size_t dimension, size_t order); /** Returns the order of an array dimension. */ -FIRM_API int get_array_order(const ir_type *array, int dimension); +FIRM_API size_t get_array_order(const ir_type *array, size_t dimension); /** Find the array dimension that is placed at order order. */ -FIRM_API int find_array_dimension(const ir_type *array, int order); +FIRM_API size_t find_array_dimension(const ir_type *array, size_t order); /** Sets the array element type. */ -FIRM_API void set_array_element_type(ir_type *array, ir_type* tp); +FIRM_API void set_array_element_type(ir_type *array, ir_type *tp); -/** Gets the array element type. */ +/** Returns the array element type. */ FIRM_API ir_type *get_array_element_type(const ir_type *array); /** Sets the array element entity. */ FIRM_API void set_array_element_entity(ir_type *array, ir_entity *ent); -/** Get the array element entity. */ +/** Returns the array element entity. */ FIRM_API ir_entity *get_array_element_entity(const ir_type *array); +/** + * Sets the array variable size flag. + * If this flag is set then no upper/lower bounds need to be set and + * get_type_size_bytes() returns -1 + */ +FIRM_API void set_array_variable_size(ir_type *array, int variable_size_flag); + +/** + * Returns the array variable size flag. + * @see set_array_variable_size() + */ +FIRM_API int is_array_variable_size(const ir_type *array); + /** Returns true if a type is an array type. */ FIRM_API int is_Array_type(const ir_type *array); /** - * @page enumeration_type Representation of an enumeration type + * 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. + */ +FIRM_API const tp_op *type_array; +/** Returns type opcode for array type. @see type_array */ +FIRM_API const tp_op *get_tpop_array(void); + +/** @} */ + +/** + * @defgroup enumeration_type Enumeration * * Enumeration types need not necessarily be represented explicitly * by Firm types, as the frontend can lower them to integer constants as * well. For debugging purposes or similar tasks this information is useful. - * The type state layout_fixed is set, if all enumeration constant have - * there tarvals assigned. Until then + * The type state layout_fixed is set, if all enumeration constants have + * their tarvals assigned. Until then * * - *const: The target values representing the constants used to * represent individual enumerations. + * @{ */ /** Create a new type enumeration -- set the enumerators independently. */ -FIRM_API ir_type *new_type_enumeration(ident *name, int n_enums); +FIRM_API ir_type *new_type_enumeration(ident *name, size_t n_enums); /** Create a new type enumeration with debug information -- set the enumerators independently. */ -FIRM_API ir_type *new_d_type_enumeration(ident *name, int n_enums, +FIRM_API ir_type *new_d_type_enumeration(ident *name, size_t n_enums, type_dbg_info *db); -/* --- manipulate fields of enumeration type. --- */ -/** return enumeration identifier */ +/** Returns enumeration identifier */ FIRM_API ident *get_enumeration_ident(const ir_type *enumeration); -/** return enumeration identifier as c-string */ +/** Returns enumeration identifier as c-string */ FIRM_API const char *get_enumeration_name(const ir_type *enumeration); -/** Set an enumeration constant to a enumeration type at a given position. */ -FIRM_API void set_enumeration_const(ir_type *enumeration, int pos, +/** Sets an enumeration constant to a enumeration type at a given position. */ +FIRM_API void set_enumeration_const(ir_type *enumeration, size_t pos, ident *nameid, ir_tarval *con); /** Returns the number of enumeration values of this enumeration */ -FIRM_API int get_enumeration_n_enums(const ir_type *enumeration); +FIRM_API size_t get_enumeration_n_enums(const ir_type *enumeration); /** Returns the enumeration constant at a given position. */ FIRM_API ir_enum_const *get_enumeration_const(const ir_type *enumeration, - int pos); + size_t pos); /** Returns the enumeration type owner of an enumeration constant. */ FIRM_API ir_type *get_enumeration_owner(const ir_enum_const *enum_cnst); @@ -1975,10 +1885,26 @@ FIRM_API const char *get_enumeration_const_name(const ir_enum_const *enum_cnst); FIRM_API int is_Enumeration_type(const ir_type *enumeration); /** - * @page pointer_type Representation of a pointer type + * 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. + */ +FIRM_API const tp_op *type_enumeration; +/** Returns type opcode for enumeration type. @see type_enumeration */ +FIRM_API const tp_op *get_tpop_enumeration(void); + +/** @} */ + +/** + * @defgroup pointer_type Pointer * * Pointer types: - * - points_to: The type of the entity this pointer points to. + * - points_to: The type this pointer points to. + * @{ */ /** Creates a new type pointer. */ @@ -1987,7 +1913,6 @@ FIRM_API ir_type *new_type_pointer(ir_type *points_to); /** Creates a new type pointer with debug information. */ FIRM_API ir_type *new_d_type_pointer(ir_type *points_to, type_dbg_info* db); -/* --- manipulate fields of type_pointer --- */ /** Sets the type to which a pointer points to. */ FIRM_API void set_pointer_points_to_type(ir_type *pointer, ir_type *tp); @@ -2004,11 +1929,25 @@ FIRM_API int is_Pointer_type(const ir_type *pointer); FIRM_API ir_type *find_pointer_type_to_type(ir_type *tp); /** - * @page primitive_type Representation of a primitive type + * 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. + */ +FIRM_API const tp_op *type_pointer; +/** Returns type opcode for pointer type. @see type_pointer */ +FIRM_API const tp_op *get_tpop_pointer(void); + +/** @} */ + +/** + * @defgroup primitive_type Primitive * * Primitive types are types that represent atomic data values that * map directly to modes. They don't have private attributes. The * important information they carry is held in the common mode field. + * @{ */ /** Creates a new primitive type. */ FIRM_API ir_type *new_type_primitive(ir_mode *mode); @@ -2019,14 +1958,28 @@ FIRM_API ir_type *new_d_type_primitive(ir_mode *mode, type_dbg_info* db); /** Returns true if a type is a primitive type. */ FIRM_API int is_Primitive_type(const ir_type *primitive); -/** Return the base type of a primitive (bitfield) type or NULL if none. */ +/** Returns the base type of a primitive (bitfield) type or NULL if none. */ FIRM_API ir_type *get_primitive_base_type(const ir_type *tp); /** Sets the base type of a primitive (bitfield) type. */ FIRM_API void set_primitive_base_type(ir_type *tp, ir_type *base_tp); /** - * @page none_type The None type + * 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. + */ +FIRM_API const tp_op *type_primitive; +/** Returns type opcode for primitive type. @see type_primitive */ +FIRM_API const tp_op *get_tpop_primitive(void); + +/** @} */ + +/** + * @defgroup none_type None * * This type is an auxiliary type dedicated to support type analyses. * @@ -2041,20 +1994,44 @@ FIRM_API void set_primitive_base_type(ir_type *tp, ir_type *base_tp); * - name: "type_none" * - state: layout_fixed * - size: 0 + * @{ */ -/** A variable that contains the only none type. */ -FIRM_API ir_type *firm_none_type; - -/** A variable that contains the only code type. */ -FIRM_API ir_type *firm_code_type; - /** Returns the none type. */ FIRM_API ir_type *get_none_type(void); +/** Checks whether type @p type is the none type. */ +FIRM_API int is_none_type(const ir_type *type); +/** + * 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. + */ +FIRM_API const tp_op *tpop_none; +/** Returns type opcode for none type. @see tpop_none */ +FIRM_API const tp_op *get_tpop_none(void); +/** @} */ + +/** @defgroup code_type Code + * @{ + */ /** Returns the code type. */ FIRM_API ir_type *get_code_type(void); +/** + * Checks whether a type is a code type. + */ +FIRM_API int is_code_type(const ir_type *tp); +/** + * The code type is used to mark pieces of code (basic blocks) + */ +FIRM_API const tp_op *tpop_code; +/** Returns type opcode for code type. @see tpop_code */ +FIRM_API const tp_op *get_tpop_code_type(void); +/** @} */ /** - * @page unknown_type The Unknown type + * @defgroup unknown_type Unknown * * This type is an auxiliary type dedicated to support type analyses. * @@ -2069,13 +2046,24 @@ FIRM_API ir_type *get_code_type(void); * - name: "type_unknown" * - state: layout_fixed * - size: 0 + * @{ */ -/** A variable that contains the only unknown type. */ -FIRM_API ir_type *firm_unknown_type; - /** Returns the unknown type. */ FIRM_API ir_type *get_unknown_type(void); - +/** Checks whether type @p type is the unknown type */ +FIRM_API int is_unknown_type(const ir_type *type); +/** + * 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. + */ +FIRM_API const tp_op *tpop_unknown; +/** Returns type opcode for unknown type. @see tpop_unknown */ +FIRM_API const tp_op *get_tpop_unknown(void); +/** @} */ /** * Checks whether a type is atomic. @@ -2084,18 +2072,22 @@ FIRM_API ir_type *get_unknown_type(void); */ FIRM_API int is_atomic_type(const ir_type *tp); -/* --- Support for compound types --- */ +/** + * @defgroup compound_type Compound + * + * @{ + */ /** - * Gets the identifier of a compound type + * Returns the identifier of a compound type */ FIRM_API ident *get_compound_ident(const ir_type *tp); -/** return compound identifier as c-string */ +/** Returns compound identifier as c-string */ FIRM_API const char *get_compound_name(const ir_type *tp); /** - * Gets the number of elements in a Firm compound type. + * Returns the number of elements in a Firm compound type. * * This is just a comfortability function, because structs and * classes can often be treated be the same code, but they have @@ -2105,20 +2097,37 @@ FIRM_API const char *get_compound_name(const ir_type *tp); * * @return Number of members in the compound type. */ -FIRM_API int get_compound_n_members(const ir_type *tp); +FIRM_API size_t get_compound_n_members(const ir_type *tp); /** - * Gets the member of a Firm compound type at position pos. + * Returns the member of a Firm compound type at position pos. * * @param tp The type (must be struct, union or class). * @param pos The number of the member. * * @return The member entity at position pos. */ -FIRM_API ir_entity *get_compound_member(const ir_type *tp, int pos); +FIRM_API ir_entity *get_compound_member(const ir_type *tp, size_t pos); /** Returns index of member in tp, -1 if not contained. */ -FIRM_API int get_compound_member_index(const ir_type *tp, ir_entity *member); +FIRM_API size_t get_compound_member_index(const ir_type *tp, ir_entity *member); + +/** Remove a member from a compound type. */ +FIRM_API void remove_compound_member(ir_type *compound, ir_entity *entity); + +/** + * Sets the variable size flag of a compound type. + * The last member of a variable size compound type may be an array type + * without explicit size. So the get_type_size_bytes() of a variable size + * compound type only returns a minimum size for the type (the size if the + * last members size is 0) + */ +FIRM_API void set_compound_variable_size(ir_type *compound, int variable_size); + +/** + * Returns the variable size flag. @see set_compound_variable_size() + */ +FIRM_API int is_compound_variable_size(const ir_type *compound); /** * layout members of a struct/union or class type in a default way. @@ -2134,32 +2143,11 @@ FIRM_API void default_layout_compound_type(ir_type *tp); */ FIRM_API int is_compound_type(const ir_type *tp); -/** - * Checks wether a type is a code type. - */ -FIRM_API int is_code_type(const ir_type *tp); - -/** - * Checks, whether a type is a frame type. - */ -FIRM_API int is_frame_type(const ir_type *tp); +/** @} */ -/** - * Checks, whether a type is a value parameter type. - */ -FIRM_API int is_value_param_type(const ir_type *tp); - -/** - * Checks, whether a type is a lowered type. +/** @defgroup frame_type Frame + * @{ */ -FIRM_API int is_lowered_type(const ir_type *tp); - -/** - * Makes a new value type. Value types are struct types, - * so all struct access functions work. - * Value types are not in the global list of types. - */ -FIRM_API ir_type *new_type_value(void); /** * Makes a new frame type. Frame types are class types, @@ -2168,6 +2156,11 @@ FIRM_API ir_type *new_type_value(void); */ FIRM_API ir_type *new_type_frame(void); +/** + * Checks, whether a type is a frame type. + */ +FIRM_API int is_frame_type(const ir_type *tp); + /** * Makes a clone of a frame type. * Sets entity links from old frame entities to new onces and @@ -2175,18 +2168,6 @@ FIRM_API ir_type *new_type_frame(void); */ FIRM_API ir_type *clone_frame_type(ir_type *type); -/** - * Sets a lowered type for a type. This sets both associations - * and marks lowered_type as a "lowered" one. - */ -FIRM_API void set_lowered_type(ir_type *tp, ir_type *lowered_type); - -/** - * Gets the lowered/unlowered type of a type or NULL if this type - * has no lowered/unlowered one. - */ -FIRM_API ir_type *get_associated_type(const ir_type *tp); - /** * Allocate an area of size bytes aligned at alignment * at the start or the end of a frame type. @@ -2202,18 +2183,12 @@ FIRM_API ir_type *get_associated_type(const ir_type *tp); FIRM_API ir_entity *frame_alloc_area(ir_type *frame_type, int size, unsigned alignment, int at_start); -/*-----------------------------------------------------------------*/ -/** Debug aides **/ -/*-----------------------------------------------------------------*/ +/** @} */ /** - * Outputs a unique number for this type if libfirm is compiled for - * debugging, (configure with --enable-debug) else returns the address - * of the type cast to long. + * @defgroup trwalk Traversing + * @{ */ -FIRM_API long get_type_nr(const ir_type *tp); - -/* ------------------------------------------------------------------------ */ /** Type for a function that compares two types. * @@ -2222,8 +2197,6 @@ FIRM_API long get_type_nr(const ir_type *tp); */ typedef int (compare_types_func_t)(const void *tp1, const void *tp2); -/* ------------------------------------------------------------------------ */ - /** A data type to treat types and entities as the same. */ typedef union { ir_type *typ; /**< points to a type */ @@ -2250,11 +2223,6 @@ typedef void class_walk_func(ir_type *clss, void *env); * Does not touch frame types or types for value params ... */ FIRM_API void type_walk(type_walk_func *pre, type_walk_func *post, void *env); -/** Touches every type, entity, frame type, and value param type in - * unspecified order (also all segment types). */ -FIRM_API void type_walk_prog(type_walk_func *pre, type_walk_func *post, - void *env); - /** Walks over all type information reachable from an ir graph. * * Walks over all type information reachable from irg, i.e., starts a @@ -2328,40 +2296,11 @@ FIRM_API void types_calc_finalization(void); /** @deprecated */ FIRM_API ir_visibility get_type_visibility(const ir_type *tp); /** @deprecated */ -FIRM_API void set_type_visibility(ir_type *tp, ir_visibility v); - -/** @deprecated */ -typedef enum { - allocation_automatic, - allocation_parameter, - allocation_dynamic, - allocation_static -} ir_allocation; -/** @deprecated */ -FIRM_API ir_allocation get_entity_allocation(const ir_entity *ent); -/** @deprecated */ -FIRM_API void set_entity_allocation(ir_entity *ent, ir_allocation al); +FIRM_API void set_type_visibility(ir_type *tp, ir_visibility v); -/** @deprecated */ -typedef enum { - peculiarity_existent, - peculiarity_description, - peculiarity_inherited -} ir_peculiarity; -/** @deprecated */ -FIRM_API ir_peculiarity get_entity_peculiarity(const ir_entity *ent); -/** @deprecated */ -FIRM_API void set_entity_peculiarity(ir_entity *ent, ir_peculiarity pec); - -/** @deprecated */ -FIRM_API int is_entity_final(const ir_entity *ent); -/** @deprecated */ -FIRM_API void set_entity_final(ir_entity *ent, int final); +/** @} */ -/** @deprecated */ -FIRM_API ir_peculiarity get_class_peculiarity(const ir_type *clss); -/** @deprecated */ -FIRM_API void set_class_peculiarity(ir_type *clss, ir_peculiarity pec); +/** @} */ #include "end.h"