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/**************************************************************************** * * * GNAT COMPILER COMPONENTS * * * * G I G I * * * * C Header File * * * * Copyright (C) 1992-2009, Free Software Foundation, Inc. * * * * GNAT is free software; you can redistribute it and/or modify it under * * terms of the GNU General Public License as published by the Free Soft- * * ware Foundation; either version 3, or (at your option) any later ver- * * sion. GNAT is distributed in the hope that it will be useful, but WITH- * * OUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY * * or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License * * for more details. You should have received a copy of the GNU General * * Public License distributed with GNAT; see file COPYING3. If not see * * <http://www.gnu.org/licenses/>. * * * * GNAT was originally developed by the GNAT team at New York University. * * Extensive contributions were provided by Ada Core Technologies Inc. * * * ****************************************************************************/ /* Declare all functions and types used by gigi. */ /* Given GNAT_ENTITY, a GNAT defining identifier node, which denotes some Ada entity, this routine returns the equivalent GCC tree for that entity (an ..._DECL node) and associates the ..._DECL node with the input GNAT defining identifier. If GNAT_ENTITY is a variable or a constant declaration, GNU_EXPR gives its initial value (in GCC tree form). This is optional for variables. For renamed entities, GNU_EXPR gives the object being renamed. DEFINITION is nonzero if this call is intended for a definition. This is used for separate compilation where it necessary to know whether an external declaration or a definition should be created if the GCC equivalent was not created previously. The value of 1 is normally used for a nonzero DEFINITION, but a value of 2 is used in special circumstances, defined in the code. */ extern tree gnat_to_gnu_entity (Entity_Id gnat_entity, tree gnu_expr, int definition); /* Similar, but if the returned value is a COMPONENT_REF, return the FIELD_DECL. */ extern tree gnat_to_gnu_field_decl (Entity_Id gnat_entity); /* Similar, but GNAT_ENTITY is assumed to refer to a GNAT type. Return the GCC type corresponding to that entity. */ extern tree gnat_to_gnu_type (Entity_Id gnat_entity); /* Wrap up compilation of T, a TYPE_DECL, possibly deferring it. */ extern void rest_of_type_decl_compilation (tree t); /* Start a new statement group chained to the previous group. */ extern void start_stmt_group (void); /* Add GNU_STMT to the current BLOCK_STMT node. */ extern void add_stmt (tree gnu_stmt); /* Similar, but set the location of GNU_STMT to that of GNAT_NODE. */ extern void add_stmt_with_node (tree gnu_stmt, Node_Id gnat_node); /* Return code corresponding to the current code group. It is normally a STATEMENT_LIST, but may also be a BIND_EXPR or TRY_FINALLY_EXPR if BLOCK or cleanups were set. */ extern tree end_stmt_group (void); /* Set the BLOCK node corresponding to the current code group to GNU_BLOCK. */ extern void set_block_for_group (tree); /* Add a declaration statement for GNU_DECL to the current BLOCK_STMT node. Get SLOC from GNAT_ENTITY. */ extern void add_decl_expr (tree gnu_decl, Entity_Id gnat_entity); /* Mark nodes rooted at T with TREE_VISITED and types as having their sized gimplified. We use this to indicate all variable sizes and positions in global types may not be shared by any subprogram. */ extern void mark_visited (tree t); /* This macro calls the above function but short-circuits the common case of a constant to save time and also checks for NULL. */ #define MARK_VISITED(EXP) \ do { \ if((EXP) && !TREE_CONSTANT (EXP)) \ mark_visited (EXP); \ } while (0) /* Finalize any From_With_Type incomplete types. We do this after processing our compilation unit and after processing its spec, if this is a body. */ extern void finalize_from_with_types (void); /* Return the equivalent type to be used for GNAT_ENTITY, if it's a kind of type (such E_Task_Type) that has a different type which Gigi uses for its representation. If the type does not have a special type for its representation, return GNAT_ENTITY. If a type is supposed to exist, but does not, abort unless annotating types, in which case return Empty. If GNAT_ENTITY is Empty, return Empty. */ extern Entity_Id Gigi_Equivalent_Type (Entity_Id gnat_entity); /* Given GNAT_ENTITY, elaborate all expressions that are required to be elaborated at the point of its definition, but do nothing else. */ extern void elaborate_entity (Entity_Id gnat_entity); /* Mark GNAT_ENTITY as going out of scope at this point. Recursively mark any entities on its entity chain similarly. */ extern void mark_out_of_scope (Entity_Id gnat_entity); /* Get the unpadded version of a GNAT type. */ extern tree get_unpadded_type (Entity_Id gnat_entity); /* Called when we need to protect a variable object using a save_expr. */ extern tree maybe_variable (tree gnu_operand); /* Create a record type that contains a SIZE bytes long field of TYPE with a starting bit position so that it is aligned to ALIGN bits, and leaving at least ROOM bytes free before the field. BASE_ALIGN is the alignment the record is guaranteed to get. */ extern tree make_aligning_type (tree type, unsigned int align, tree size, unsigned int base_align, int room); /* Ensure that TYPE has SIZE and ALIGN. Make and return a new padded type if needed. We have already verified that SIZE and TYPE are large enough. GNAT_ENTITY is used to name the resulting record and to issue a warning. IS_COMPONENT_TYPE is true if this is being done for the component type of an array. IS_USER_TYPE is true if we must complete the original type. DEFINITION is true if this type is being defined. SAME_RM_SIZE is true if the RM size of the resulting type is to be set to SIZE too; otherwise, it's set to the RM size of the original type. */ extern tree maybe_pad_type (tree type, tree size, unsigned int align, Entity_Id gnat_entity, bool is_component_type, bool is_user_type, bool definition, bool same_rm_size); /* Given a GNU tree and a GNAT list of choices, generate an expression to test the value passed against the list of choices. */ extern tree choices_to_gnu (tree operand, Node_Id choices); /* Given GNAT_ENTITY, an object (constant, variable, parameter, exception) and GNU_TYPE, its corresponding GCC type, set Esize and Alignment to the size and alignment used by Gigi. Prefer SIZE over TYPE_SIZE if non-null. BY_REF is true if the object is used by reference. */ extern void annotate_object (Entity_Id gnat_entity, tree gnu_type, tree size, bool by_ref); /* Given a type T, a FIELD_DECL F, and a replacement value R, return a new type with all size expressions that contain F updated by replacing F with R. If F is NULL_TREE, always make a new RECORD_TYPE, even if nothing has changed. */ extern tree substitute_in_type (tree t, tree f, tree r); /* Return the RM size of GNU_TYPE. This is the actual number of bits needed to represent the object. */ extern tree rm_size (tree gnu_type); /* Return the name to be used for GNAT_ENTITY. If a type, create a fully-qualified name, possibly with type information encoding. Otherwise, return the name. */ extern tree get_entity_name (Entity_Id gnat_entity); /* Return an identifier representing the external name to be used for GNAT_ENTITY. If SUFFIX is specified, the name is followed by "___" and the specified suffix. */ extern tree create_concat_name (Entity_Id gnat_entity, const char *suffix); /* Given GNU_NAME, an IDENTIFIER_NODE containing a name and SUFFIX, a string, return a new IDENTIFIER_NODE that is the concatenation of the name followed by "___" and the specified suffix. */ extern tree concat_name (tree gnu_name, const char *suffix); /* If true, then gigi is being called on an analyzed but unexpanded tree, and the only purpose of the call is to properly annotate types with representation information. */ extern bool type_annotate_only; /* Current file name without path */ extern const char *ref_filename; /* This structure must be kept synchronized with Call_Back_End. */ struct File_Info_Type { File_Name_Type File_Name; Nat Num_Source_Lines; }; /* This is the main program of the back-end. It sets up all the table structures and then generates code. ??? Needs parameter descriptions */ extern void gigi (Node_Id gnat_root, int max_gnat_node, int number_name, struct Node *nodes_ptr, Node_Id *next_node_ptr, Node_Id *prev_node_ptr, struct Elist_Header *elists_ptr, struct Elmt_Item *elmts_ptr, struct String_Entry *strings_ptr, Char_Code *strings_chars_ptr, struct List_Header *list_headers_ptr, Nat number_file, struct File_Info_Type *file_info_ptr, Entity_Id standard_boolean, Entity_Id standard_integer, Entity_Id standard_long_long_float, Entity_Id standard_exception_type, Int gigi_operating_mode); /* GNAT_NODE is the root of some GNAT tree. Return the root of the GCC tree corresponding to that GNAT tree. Normally, no code is generated; we just return an equivalent tree which is used elsewhere to generate code. */ extern tree gnat_to_gnu (Node_Id gnat_node); /* GNU_STMT is a statement. We generate code for that statement. */ extern void gnat_expand_stmt (tree gnu_stmt); /* Generate GIMPLE in place for the expression at *EXPR_P. */ extern int gnat_gimplify_expr (tree *expr_p, gimple_seq *pre_p, gimple_seq *post_p ATTRIBUTE_UNUSED); /* Do the processing for the declaration of a GNAT_ENTITY, a type. If a separate Freeze node exists, delay the bulk of the processing. Otherwise make a GCC type for GNAT_ENTITY and set up the correspondence. */ extern void process_type (Entity_Id gnat_entity); /* Convert SLOC into LOCUS. Return true if SLOC corresponds to a source code location and false if it doesn't. In the former case, set the Gigi global variable REF_FILENAME to the simple debug file name as given by sinput. */ extern bool Sloc_to_locus (Source_Ptr Sloc, location_t *locus); /* Post an error message. MSG is the error message, properly annotated. NODE is the node at which to post the error and the node to use for the "&" substitution. */ extern void post_error (const char *msg, Node_Id node); /* Similar, but NODE is the node at which to post the error and ENT is the node to use for the "&" substitution. */ extern void post_error_ne (const char *msg, Node_Id node, Entity_Id ent); /* Similar, but NODE is the node at which to post the error, ENT is the node to use for the "&" substitution, and N is the number to use for the ^. */ extern void post_error_ne_num (const char *msg, Node_Id node, Entity_Id ent, int n); /* Similar to post_error_ne_num, but T is a GCC tree representing the number to write. If the tree represents a constant that fits within a host integer, the text inside curly brackets in MSG will be output (presumably including a '^'). Otherwise that text will not be output and the text inside square brackets will be output instead. */ extern void post_error_ne_tree (const char *msg, Node_Id node, Entity_Id ent, tree t); /* Similar to post_error_ne_tree, except that NUM is a second integer to write in the message. */ extern void post_error_ne_tree_2 (const char *msg, Node_Id node, Entity_Id ent, tree t, int num); /* Protect EXP from multiple evaluation. This may make a SAVE_EXPR. */ extern tree protect_multiple_eval (tree exp); /* Return a label to branch to for the exception type in KIND or NULL_TREE if none. */ extern tree get_exception_label (char kind); /* Current node being treated, in case gigi_abort or Check_Elaboration_Code called. */ extern Node_Id error_gnat_node; /* This is equivalent to stabilize_reference in tree.c, but we know how to handle our own nodes and we take extra arguments. FORCE says whether to force evaluation of everything. We set SUCCESS to true unless we walk through something we don't know how to stabilize. */ extern tree maybe_stabilize_reference (tree ref, bool force, bool *success); /* Highest number in the front-end node table. */ extern int max_gnat_nodes; /* If nonzero, pretend we are allocating at global level. */ extern int force_global; /* The default alignment of "double" floating-point types, i.e. floating point types whose size is equal to 64 bits, or 0 if this alignment is not specifically capped. */ extern int double_float_alignment; /* The default alignment of "double" or larger scalar types, i.e. scalar types whose size is greater or equal to 64 bits, or 0 if this alignment is not specifically capped. */ extern int double_scalar_alignment; /* Standard data type sizes. Most of these are not used. */ #ifndef CHAR_TYPE_SIZE #define CHAR_TYPE_SIZE BITS_PER_UNIT #endif #ifndef SHORT_TYPE_SIZE #define SHORT_TYPE_SIZE (BITS_PER_UNIT * MIN ((UNITS_PER_WORD + 1) / 2, 2)) #endif #ifndef INT_TYPE_SIZE #define INT_TYPE_SIZE BITS_PER_WORD #endif #ifndef LONG_TYPE_SIZE #define LONG_TYPE_SIZE BITS_PER_WORD #endif #ifndef LONG_LONG_TYPE_SIZE #define LONG_LONG_TYPE_SIZE (BITS_PER_WORD * 2) #endif #ifndef FLOAT_TYPE_SIZE #define FLOAT_TYPE_SIZE BITS_PER_WORD #endif #ifndef DOUBLE_TYPE_SIZE #define DOUBLE_TYPE_SIZE (BITS_PER_WORD * 2) #endif #ifndef LONG_DOUBLE_TYPE_SIZE #define LONG_DOUBLE_TYPE_SIZE (BITS_PER_WORD * 2) #endif /* The choice of SIZE_TYPE here is very problematic. We need a signed type whose bit width is Pmode. Assume "long" is such a type here. */ #undef SIZE_TYPE #define SIZE_TYPE "long int" /* Data structures used to represent attributes. */ enum attr_type { ATTR_MACHINE_ATTRIBUTE, ATTR_LINK_ALIAS, ATTR_LINK_SECTION, ATTR_LINK_CONSTRUCTOR, ATTR_LINK_DESTRUCTOR, ATTR_THREAD_LOCAL_STORAGE, ATTR_WEAK_EXTERNAL }; struct attrib { struct attrib *next; enum attr_type type; tree name; tree args; Node_Id error_point; }; /* Table of machine-independent internal attributes. */ extern const struct attribute_spec gnat_internal_attribute_table[]; /* Define the entries in the standard data array. */ enum standard_datatypes { /* The longest floating-point type. */ ADT_longest_float_type, /* The type of an exception. */ ADT_except_type, /* Type declaration node <==> typedef void *T */ ADT_ptr_void_type, /* Function type declaration -- void T() */ ADT_void_ftype, /* Type declaration node <==> typedef void *T() */ ADT_ptr_void_ftype, /* Type declaration node <==> typedef virtual void *T() */ ADT_fdesc_type, /* Null pointer for above type */ ADT_null_fdesc, /* Function declaration nodes for run-time functions for allocating memory. Ada allocators cause calls to these functions to be generated. Malloc32 is used only on 64bit systems needing to allocate 32bit memory. */ ADT_malloc_decl, ADT_malloc32_decl, /* Likewise for freeing memory. */ ADT_free_decl, /* Function decl node for 64-bit multiplication with overflow checking */ ADT_mulv64_decl, /* Types and decls used by our temporary exception mechanism. See init_gigi_decls for details. */ ADT_jmpbuf_type, ADT_jmpbuf_ptr_type, ADT_get_jmpbuf_decl, ADT_set_jmpbuf_decl, ADT_get_excptr_decl, ADT_setjmp_decl, ADT_longjmp_decl, ADT_update_setjmp_buf_decl, ADT_raise_nodefer_decl, ADT_begin_handler_decl, ADT_end_handler_decl, ADT_others_decl, ADT_all_others_decl, ADT_LAST}; extern GTY(()) tree gnat_std_decls[(int) ADT_LAST]; extern GTY(()) tree gnat_raise_decls[(int) LAST_REASON_CODE + 1]; #define longest_float_type_node gnat_std_decls[(int) ADT_longest_float_type] #define except_type_node gnat_std_decls[(int) ADT_except_type] #define ptr_void_type_node gnat_std_decls[(int) ADT_ptr_void_type] #define void_ftype gnat_std_decls[(int) ADT_void_ftype] #define ptr_void_ftype gnat_std_decls[(int) ADT_ptr_void_ftype] #define fdesc_type_node gnat_std_decls[(int) ADT_fdesc_type] #define null_fdesc_node gnat_std_decls[(int) ADT_null_fdesc] #define malloc_decl gnat_std_decls[(int) ADT_malloc_decl] #define malloc32_decl gnat_std_decls[(int) ADT_malloc32_decl] #define free_decl gnat_std_decls[(int) ADT_free_decl] #define mulv64_decl gnat_std_decls[(int) ADT_mulv64_decl] #define jmpbuf_type gnat_std_decls[(int) ADT_jmpbuf_type] #define jmpbuf_ptr_type gnat_std_decls[(int) ADT_jmpbuf_ptr_type] #define get_jmpbuf_decl gnat_std_decls[(int) ADT_get_jmpbuf_decl] #define set_jmpbuf_decl gnat_std_decls[(int) ADT_set_jmpbuf_decl] #define get_excptr_decl gnat_std_decls[(int) ADT_get_excptr_decl] #define setjmp_decl gnat_std_decls[(int) ADT_setjmp_decl] #define longjmp_decl gnat_std_decls[(int) ADT_longjmp_decl] #define update_setjmp_buf_decl gnat_std_decls[(int) ADT_update_setjmp_buf_decl] #define raise_nodefer_decl gnat_std_decls[(int) ADT_raise_nodefer_decl] #define begin_handler_decl gnat_std_decls[(int) ADT_begin_handler_decl] #define others_decl gnat_std_decls[(int) ADT_others_decl] #define all_others_decl gnat_std_decls[(int) ADT_all_others_decl] #define end_handler_decl gnat_std_decls[(int) ADT_end_handler_decl] /* Routines expected by the gcc back-end. They must have exactly the same prototype and names as below. */ /* Returns nonzero if we are currently in the global binding level. */ extern int global_bindings_p (void); /* Enter and exit a new binding level. */ extern void gnat_pushlevel (void); extern void gnat_poplevel (void); /* Set SUPERCONTEXT of the BLOCK for the current binding level to FNDECL and point FNDECL to this BLOCK. */ extern void set_current_block_context (tree fndecl); /* Set the jmpbuf_decl for the current binding level to DECL. */ extern void set_block_jmpbuf_decl (tree decl); /* Get the setjmp_decl, if any, for the current binding level. */ extern tree get_block_jmpbuf_decl (void); /* Records a ..._DECL node DECL as belonging to the current lexical scope and uses GNAT_NODE for location information. */ extern void gnat_pushdecl (tree decl, Node_Id gnat_node); extern void gnat_init_decl_processing (void); extern void gnat_init_gcc_eh (void); extern void gnat_install_builtins (void); /* Return an integer type with the number of bits of precision given by PRECISION. UNSIGNEDP is nonzero if the type is unsigned; otherwise it is a signed type. */ extern tree gnat_type_for_size (unsigned precision, int unsignedp); /* Return a data type that has machine mode MODE. UNSIGNEDP selects an unsigned type; otherwise a signed type is returned. */ extern tree gnat_type_for_mode (enum machine_mode mode, int unsignedp); /* Emit debug info for all global variable declarations. */ extern void gnat_write_global_declarations (void); /* Return the unsigned version of a TYPE_NODE, a scalar type. */ extern tree gnat_unsigned_type (tree type_node); /* Return the signed version of a TYPE_NODE, a scalar type. */ extern tree gnat_signed_type (tree type_node); /* Return 1 if the types T1 and T2 are compatible, i.e. if they can be transparently converted to each other. */ extern int gnat_types_compatible_p (tree t1, tree t2); /* Create an expression whose value is that of EXPR, converted to type TYPE. The TREE_TYPE of the value is always TYPE. This function implements all reasonable conversions; callers should filter out those that are not permitted by the language being compiled. */ extern tree convert (tree type, tree expr); /* Routines created solely for the tree translator's sake. Their prototypes can be changed as desired. */ /* Initialize the association of GNAT nodes to GCC trees. */ extern void init_gnat_to_gnu (void); /* GNAT_ENTITY is a GNAT tree node for a defining identifier. GNU_DECL is the GCC tree which is to be associated with GNAT_ENTITY. Such gnu tree node is always an ..._DECL node. If NO_CHECK is nonzero, the latter check is suppressed. If GNU_DECL is zero, a previous association is to be reset. */ extern void save_gnu_tree (Entity_Id gnat_entity, tree gnu_decl, bool no_check); /* GNAT_ENTITY is a GNAT tree node for a defining identifier. Return the ..._DECL node that was associated with it. If there is no tree node associated with GNAT_ENTITY, abort. */ extern tree get_gnu_tree (Entity_Id gnat_entity); /* Return nonzero if a GCC tree has been associated with GNAT_ENTITY. */ extern bool present_gnu_tree (Entity_Id gnat_entity); /* Initialize the association of GNAT nodes to GCC trees as dummies. */ extern void init_dummy_type (void); /* Make a dummy type corresponding to GNAT_TYPE. */ extern tree make_dummy_type (Entity_Id gnat_type); /* Record TYPE as a builtin type for Ada. NAME is the name of the type. */ extern void record_builtin_type (const char *name, tree type); /* Given a record type RECORD_TYPE and a list of FIELD_DECL nodes FIELD_LIST, finish constructing the record or union type. If REP_LEVEL is zero, this record has no representation clause and so will be entirely laid out here. If REP_LEVEL is one, this record has a representation clause and has been laid out already; only set the sizes and alignment. If REP_LEVEL is two, this record is derived from a parent record and thus inherits its layout; only make a pass on the fields to finalize them. DEBUG_INFO_P is true if we need to write debug information about this type. */ extern void finish_record_type (tree record_type, tree field_list, int rep_level, bool debug_info_p); /* Wrap up compilation of RECORD_TYPE, i.e. output all the debug information associated with it. It need not be invoked directly in most cases since finish_record_type takes care of doing so, but this can be necessary if a parallel type is to be attached to the record type. */ extern void rest_of_record_type_compilation (tree record_type); /* Append PARALLEL_TYPE on the chain of parallel types for decl. */ extern void add_parallel_type (tree decl, tree parallel_type); /* Return the parallel type associated to a type, if any. */ extern tree get_parallel_type (tree type); /* Returns a FUNCTION_TYPE node. RETURN_TYPE is the type returned by the subprogram. If it is void_type_node, then we are dealing with a procedure, otherwise we are dealing with a function. PARAM_DECL_LIST is a list of PARM_DECL nodes that are the subprogram arguments. CICO_LIST is the copy-in/copy-out list to be stored into TYPE_CI_CO_LIST. RETURNS_UNCONSTRAINED is true if the function returns an unconstrained object. RETURNS_BY_REF is true if the function returns by reference. RETURNS_BY_TARGET_PTR is true if the function is to be passed (as its first parameter) the address of the place to copy its result. */ extern tree create_subprog_type (tree return_type, tree param_decl_list, tree cico_list, bool returns_unconstrained, bool returns_by_ref, bool returns_by_target_ptr); /* Return a copy of TYPE, but safe to modify in any way. */ extern tree copy_type (tree type); /* Return a subtype of sizetype with range MIN to MAX and whose TYPE_INDEX_TYPE is INDEX. GNAT_NODE is used for the position of the associated TYPE_DECL. */ extern tree create_index_type (tree min, tree max, tree index, Node_Id gnat_node); /* Return a subtype of TYPE with range MIN to MAX. If TYPE is NULL, sizetype is used. */ extern tree create_range_type (tree type, tree min, tree max); /* Return a TYPE_DECL node suitable for the TYPE_STUB_DECL field of a type. TYPE_NAME gives the name of the type and TYPE is a ..._TYPE node giving its data type. */ extern tree create_type_stub_decl (tree type_name, tree type); /* Return a TYPE_DECL node. TYPE_NAME gives the name of the type and TYPE is a ..._TYPE node giving its data type. ARTIFICIAL_P is true if this is a declaration that was generated by the compiler. DEBUG_INFO_P is true if we need to write debug information about this type. GNAT_NODE is used for the position of the decl. */ extern tree create_type_decl (tree type_name, tree type, struct attrib *attr_list, bool artificial_p, bool debug_info_p, Node_Id gnat_node); /* Return a VAR_DECL or CONST_DECL node. VAR_NAME gives the name of the variable. ASM_NAME is its assembler name (if provided). TYPE is its data type (a GCC ..._TYPE node). VAR_INIT is the GCC tree for an optional initial expression; NULL_TREE if none. CONST_FLAG is true if this variable is constant, in which case we might return a CONST_DECL node unless CONST_DECL_ALLOWED_P is false. PUBLIC_FLAG is true if this definition is to be made visible outside of the current compilation unit. This flag should be set when processing the variable definitions in a package specification. EXTERN_FLAG is nonzero when processing an external variable declaration (as opposed to a definition: no storage is to be allocated for the variable). STATIC_FLAG is only relevant when not at top level. In that case it indicates whether to always allocate storage to the variable. GNAT_NODE is used for the position of the decl. */ extern tree create_var_decl_1 (tree var_name, tree asm_name, tree type, tree var_init, bool const_flag, bool public_flag, bool extern_flag, bool static_flag, bool const_decl_allowed_p, struct attrib *attr_list, Node_Id gnat_node); /* Wrapper around create_var_decl_1 for cases where we don't care whether a VAR or a CONST decl node is created. */ #define create_var_decl(var_name, asm_name, type, var_init, \ const_flag, public_flag, extern_flag, \ static_flag, attr_list, gnat_node) \ create_var_decl_1 (var_name, asm_name, type, var_init, \ const_flag, public_flag, extern_flag, \ static_flag, true, attr_list, gnat_node) /* Wrapper around create_var_decl_1 for cases where a VAR_DECL node is required. The primary intent is for DECL_CONST_CORRESPONDING_VARs, which must be VAR_DECLs and on which we want TREE_READONLY set to have them possibly assigned to a readonly data section. */ #define create_true_var_decl(var_name, asm_name, type, var_init, \ const_flag, public_flag, extern_flag, \ static_flag, attr_list, gnat_node) \ create_var_decl_1 (var_name, asm_name, type, var_init, \ const_flag, public_flag, extern_flag, \ static_flag, false, attr_list, gnat_node) /* Given a DECL and ATTR_LIST, apply the listed attributes. */ extern void process_attributes (tree decl, struct attrib *attr_list); /* Record DECL as a global renaming pointer. */ extern void record_global_renaming_pointer (tree decl); /* Invalidate the global renaming pointers. */ extern void invalidate_global_renaming_pointers (void); /* Return a FIELD_DECL node. FIELD_NAME is the field's name, FIELD_TYPE is its type and RECORD_TYPE is the type of the enclosing record. PACKED is 1 if the enclosing record is packed, -1 if it has Component_Alignment of Storage_Unit. If SIZE is nonzero, it is the specified size of the field. If POS is nonzero, it is the bit position. If ADDRESSABLE is nonzero, it means we are allowed to take the address of the field; if it is negative, we should not make a bitfield, which is used by make_aligning_type. */ extern tree create_field_decl (tree field_name, tree field_type, tree record_type, int packed, tree size, tree pos, int addressable); /* Returns a PARM_DECL node. PARAM_NAME is the name of the parameter, PARAM_TYPE is its type. READONLY is true if the parameter is readonly (either an In parameter or an address of a pass-by-ref parameter). */ extern tree create_param_decl (tree param_name, tree param_type, bool readonly); /* Returns a FUNCTION_DECL node. SUBPROG_NAME is the name of the subprogram, ASM_NAME is its assembler name, SUBPROG_TYPE is its type (a FUNCTION_TYPE node), PARAM_DECL_LIST is the list of the subprogram arguments (a list of PARM_DECL nodes chained through the TREE_CHAIN field). INLINE_FLAG, PUBLIC_FLAG, EXTERN_FLAG, and ATTR_LIST are used to set the appropriate fields in the FUNCTION_DECL. GNAT_NODE gives the location. */ extern tree create_subprog_decl (tree subprog_name, tree asm_name, tree subprog_type, tree param_decl_list, bool inlinee_flag, bool public_flag, bool extern_flag, struct attrib *attr_list, Node_Id gnat_node); /* Returns a LABEL_DECL node for LABEL_NAME. */ extern tree create_label_decl (tree label_name); /* Set up the framework for generating code for SUBPROG_DECL, a subprogram body. This routine needs to be invoked before processing the declarations appearing in the subprogram. */ extern void begin_subprog_body (tree subprog_decl); /* Finish the definition of the current subprogram BODY and finalize it. */ extern void end_subprog_body (tree body); /* Build a template of type TEMPLATE_TYPE from the array bounds of ARRAY_TYPE. EXPR is an expression that we can use to locate any PLACEHOLDER_EXPRs. Return a constructor for the template. */ extern tree build_template (tree template_type, tree array_type, tree expr); /* Build a 64bit VMS descriptor from a Mechanism_Type, which must specify a descriptor type, and the GCC type of an object. Each FIELD_DECL in the type contains in its DECL_INITIAL the expression to use when a constructor is made for the type. GNAT_ENTITY is a gnat node used to print out an error message if the mechanism cannot be applied to an object of that type and also for the name. */ extern tree build_vms_descriptor (tree type, Mechanism_Type mech, Entity_Id gnat_entity); /* Build a 32bit VMS descriptor from a Mechanism_Type. See above. */ extern tree build_vms_descriptor32 (tree type, Mechanism_Type mech, Entity_Id gnat_entity); /* Build a stub for the subprogram specified by the GCC tree GNU_SUBPROG and the GNAT node GNAT_SUBPROG. */ extern void build_function_stub (tree gnu_subprog, Entity_Id gnat_subprog); /* Build a type to be used to represent an aliased object whose nominal type is an unconstrained array. This consists of a RECORD_TYPE containing a field of TEMPLATE_TYPE and a field of OBJECT_TYPE, which is an ARRAY_TYPE. If ARRAY_TYPE is that of the unconstrained array, this is used to represent an arbitrary unconstrained object. Use NAME as the name of the record. */ extern tree build_unc_object_type (tree template_type, tree object_type, tree name); /* Same as build_unc_object_type, but taking a thin or fat pointer type instead of the template type. */ extern tree build_unc_object_type_from_ptr (tree thin_fat_ptr_type, tree object_type, tree name); /* Shift the component offsets within an unconstrained object TYPE to make it suitable for use as a designated type for thin pointers. */ extern void shift_unc_components_for_thin_pointers (tree type); /* Update anything previously pointing to OLD_TYPE to point to NEW_TYPE. In the normal case this is just two adjustments, but we have more to do if NEW is an UNCONSTRAINED_ARRAY_TYPE. */ extern void update_pointer_to (tree old_type, tree new_type); /* EXP is an expression for the size of an object. If this size contains discriminant references, replace them with the maximum (if MAX_P) or minimum (if !MAX_P) possible value of the discriminant. */ extern tree max_size (tree exp, bool max_p); /* Remove all conversions that are done in EXP. This includes converting from a padded type or to a left-justified modular type. If TRUE_ADDRESS is true, always return the address of the containing object even if the address is not bit-aligned. */ extern tree remove_conversions (tree exp, bool true_address); /* If EXP's type is an UNCONSTRAINED_ARRAY_TYPE, return an expression that refers to the underlying array. If its type has TYPE_CONTAINS_TEMPLATE_P, likewise return an expression pointing to the underlying array. */ extern tree maybe_unconstrained_array (tree exp); /* If EXP's type is a VECTOR_TYPE, return EXP converted to the associated TYPE_REPRESENTATIVE_ARRAY. */ extern tree maybe_vector_array (tree exp); /* Return an expression that does an unchecked conversion of EXPR to TYPE. If NOTRUNC_P is true, truncation operations should be suppressed. */ extern tree unchecked_convert (tree type, tree expr, bool notrunc_p); /* Return the appropriate GCC tree code for the specified GNAT_TYPE, the latter being a record type as predicated by Is_Record_Type. */ extern enum tree_code tree_code_for_record_type (Entity_Id gnat_type); /* Return true if GNAT_TYPE is a "double" floating-point type, i.e. whose size is equal to 64 bits, or an array of such a type. Set ALIGN_CLAUSE according to the presence of an alignment clause on the type or, if it is an array, on the component type. */ extern bool is_double_float_or_array (Entity_Id gnat_type, bool *align_clause); /* Return true if GNAT_TYPE is a "double" or larger scalar type, i.e. whose size is greater or equal to 64 bits, or an array of such a type. Set ALIGN_CLAUSE according to the presence of an alignment clause on the type or, if it is an array, on the component type. */ extern bool is_double_scalar_or_array (Entity_Id gnat_type, bool *align_clause); /* Return true if GNU_TYPE is suitable as the type of a non-aliased component of an aggregate type. */ extern bool type_for_nonaliased_component_p (tree gnu_type); /* Return the base type of TYPE. */ extern tree get_base_type (tree type); /* EXP is a GCC tree representing an address. See if we can find how strictly the object at that address is aligned. Return that alignment strictly the object at that address is aligned. Return that alignment in bits. If we don't know anything about the alignment, return 0. */ extern unsigned int known_alignment (tree exp); /* Return true if VALUE is a multiple of FACTOR. FACTOR must be a power of 2. */ extern bool value_factor_p (tree value, HOST_WIDE_INT factor); /* Make a binary operation of kind OP_CODE. RESULT_TYPE is the type desired for the result. Usually the operation is to be performed in that type. For MODIFY_EXPR and ARRAY_REF, RESULT_TYPE may be 0 in which case the type to be used will be derived from the operands. */ extern tree build_binary_op (enum tree_code op_code, tree result_type, tree left_operand, tree right_operand); /* Similar, but make unary operation. */ extern tree build_unary_op (enum tree_code op_code, tree result_type, tree operand); /* Similar, but for COND_EXPR. */ extern tree build_cond_expr (tree result_type, tree condition_operand, tree true_operand, tree false_operand); /* Similar, but for RETURN_EXPR. */ extern tree build_return_expr (tree result_decl, tree ret_val); /* Build a CALL_EXPR to call FUNDECL with one argument, ARG. Return the CALL_EXPR. */ extern tree build_call_1_expr (tree fundecl, tree arg); /* Build a CALL_EXPR to call FUNDECL with two argument, ARG1 & ARG2. Return the CALL_EXPR. */ extern tree build_call_2_expr (tree fundecl, tree arg1, tree arg2); /* Likewise to call FUNDECL with no arguments. */ extern tree build_call_0_expr (tree fundecl); /* Call a function that raises an exception and pass the line number and file name, if requested. MSG says which exception function to call. GNAT_NODE is the gnat node conveying the source location for which the error should be signaled, or Empty in which case the error is signaled on the current ref_file_name/input_line. KIND says which kind of exception this is for (N_Raise_{Constraint,Storage,Program}_Error). */ extern tree build_call_raise (int msg, Node_Id gnat_node, char kind); /* Return a CONSTRUCTOR of TYPE whose list is LIST. This is not the same as build_constructor in the language-independent tree.c. */ extern tree gnat_build_constructor (tree type, tree list); /* Return a COMPONENT_REF to access a field that is given by COMPONENT, an IDENTIFIER_NODE giving the name of the field, FIELD, a FIELD_DECL, for the field, or both. Don't fold the result if NO_FOLD_P. */ extern tree build_component_ref (tree record_variable, tree component, tree field, bool no_fold_p); /* Build a GCC tree to call an allocation or deallocation function. If GNU_OBJ is nonzero, it is an object to deallocate. Otherwise, generate an allocator. GNU_SIZE is the number of bytes to allocate and GNU_TYPE is the contained object type, used to determine the to-be-honored address alignment. GNAT_PROC, if present, is a procedure to call and GNAT_POOL is the storage pool to use. If not present, malloc and free are used. GNAT_NODE is used to provide an error location for restriction violation messages. */ extern tree build_call_alloc_dealloc (tree gnu_obj, tree gnu_size, tree gnu_type, Entity_Id gnat_proc, Entity_Id gnat_pool, Node_Id gnat_node); /* Build a GCC tree to correspond to allocating an object of TYPE whose initial value if INIT, if INIT is nonzero. Convert the expression to RESULT_TYPE, which must be some type of pointer. Return the tree. GNAT_PROC and GNAT_POOL optionally give the procedure to call and the storage pool to use. GNAT_NODE is used to provide an error location for restriction violation messages. If IGNORE_INIT_TYPE is true, ignore the type of INIT for the purpose of determining the size; this will cause the maximum size to be allocated if TYPE is of self-referential size. */ extern tree build_allocator (tree type, tree init, tree result_type, Entity_Id gnat_proc, Entity_Id gnat_pool, Node_Id gnat_node, bool); /* Fill in a VMS descriptor for EXPR and return a constructor for it. GNAT_FORMAL is how we find the descriptor record. GNAT_ACTUAL is how we derive the source location on a C_E */ extern tree fill_vms_descriptor (tree expr, Entity_Id gnat_formal, Node_Id gnat_actual); /* Indicate that we need to make the address of EXPR_NODE and it therefore should not be allocated in a register. Return true if successful. */ extern bool gnat_mark_addressable (tree expr_node); /* Implementation of the builtin_function langhook. */ extern tree gnat_builtin_function (tree decl); /* Search the chain of currently reachable declarations for a builtin FUNCTION_DECL node corresponding to function NAME (an IDENTIFIER_NODE). Return the first node found, if any, or NULL_TREE otherwise. */ extern tree builtin_decl_for (tree name); /* GNU_TYPE is a type. Determine if it should be passed by reference by default. */ extern bool default_pass_by_ref (tree gnu_type); /* GNU_TYPE is the type of a subprogram parameter. Determine from the type if it should be passed by reference. */ extern bool must_pass_by_ref (tree gnu_type); /* This function is called by the front end to enumerate all the supported modes for the machine. We pass a function which is called back with the following integer parameters: FLOAT_P nonzero if this represents a floating-point mode COMPLEX_P nonzero is this represents a complex mode COUNT count of number of items, nonzero for vector mode PRECISION number of bits in data representation MANTISSA number of bits in mantissa, if FP and known, else zero. SIZE number of bits used to store data ALIGN number of bits to which mode is aligned. */ extern void enumerate_modes (void (*f) (int, int, int, int, int, int, unsigned int)); /* Return the size of the FP mode with precision PREC. */ extern int fp_prec_to_size (int prec); /* Return the precision of the FP mode with size SIZE. */ extern int fp_size_to_prec (int size); /* These functions return the basic data type sizes and related parameters about the target machine. */ extern Pos get_target_bits_per_unit (void); extern Pos get_target_bits_per_word (void); extern Pos get_target_char_size (void); extern Pos get_target_wchar_t_size (void); extern Pos get_target_short_size (void); extern Pos get_target_int_size (void); extern Pos get_target_long_size (void); extern Pos get_target_long_long_size (void); extern Pos get_target_float_size (void); extern Pos get_target_double_size (void); extern Pos get_target_long_double_size (void); extern Pos get_target_pointer_size (void); extern Pos get_target_maximum_default_alignment (void); extern Pos get_target_default_allocator_alignment (void); extern Pos get_target_maximum_allowed_alignment (void); extern Pos get_target_maximum_alignment (void); extern Nat get_float_words_be (void); extern Nat get_words_be (void); extern Nat get_bytes_be (void); extern Nat get_bits_be (void); extern Nat get_target_strict_alignment (void); extern Nat get_target_double_float_alignment (void); extern Nat get_target_double_scalar_alignment (void); /* Let code know whether we are targetting VMS without need of intrusive preprocessor directives. */ #ifndef TARGET_ABI_OPEN_VMS #define TARGET_ABI_OPEN_VMS 0 #endif /* VMS macro set by default, when clear forces 32bit mallocs and 32bit Descriptors. Always used in combination with TARGET_ABI_OPEN_VMS so no effect on non-VMS systems. */ #ifndef TARGET_MALLOC64 #define TARGET_MALLOC64 0 #endif /* Convenient shortcuts. */ #define VECTOR_TYPE_P(TYPE) (TREE_CODE (TYPE) == VECTOR_TYPE)
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