/* The lang_hooks data structure.
Copyright (C) 2001-2020 Free Software Foundation, Inc.
This file is part of GCC.
GCC is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 3, or (at your option)
any later version.
GCC is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with GCC; see the file COPYING3. If not see
. */
#ifndef GCC_LANG_HOOKS_H
#define GCC_LANG_HOOKS_H
/* FIXME: This file should be #include-d after tree.h (for enum tree_code). */
struct diagnostic_info;
struct gimplify_omp_ctx;
struct array_descr_info;
/* A print hook for print_tree (). */
typedef void (*lang_print_tree_hook) (FILE *, tree, int indent);
enum classify_record
{ RECORD_IS_STRUCT, RECORD_IS_CLASS, RECORD_IS_INTERFACE };
class substring_loc;
/* The following hooks are documented in langhooks.c. Must not be
NULL. */
struct lang_hooks_for_tree_inlining
{
bool (*var_mod_type_p) (tree, tree);
};
/* The following hooks are used by tree-dump.c. */
struct lang_hooks_for_tree_dump
{
/* Dump language-specific parts of tree nodes. Returns nonzero if it
does not want the usual dumping of the second argument. */
bool (*dump_tree) (void *, tree);
/* Determine type qualifiers in a language-specific way. */
int (*type_quals) (const_tree);
};
/* Hooks related to types. */
struct lang_hooks_for_types
{
/* Return a new type (with the indicated CODE), doing whatever
language-specific processing is required. */
tree (*make_type) (enum tree_code);
/* Make an enum type with the given name and values, associating
them all with the given source location. */
tree (*simulate_enum_decl) (location_t, const char *, vec);
/* Return what kind of RECORD_TYPE this is, mainly for purposes of
debug information. If not defined, record types are assumed to
be structures. */
enum classify_record (*classify_record) (tree);
/* Given MODE and UNSIGNEDP, return a suitable type-tree with that
mode. */
tree (*type_for_mode) (machine_mode, int);
/* Given PRECISION and UNSIGNEDP, return a suitable type-tree for an
integer type with at least that precision. */
tree (*type_for_size) (unsigned, int);
/* True if the type is an instantiation of a generic type,
e.g. C++ template implicit specializations. */
bool (*generic_p) (const_tree);
/* Returns the TREE_VEC of elements of a given generic argument pack. */
tree (*get_argument_pack_elems) (const_tree);
/* Given a type, apply default promotions to unnamed function
arguments and return the new type. Return the same type if no
change. Required by any language that supports variadic
arguments. The default hook dies. */
tree (*type_promotes_to) (tree);
/* Register TYPE as a builtin type with the indicated NAME. The
TYPE is placed in the outermost lexical scope. The semantics
should be analogous to:
typedef TYPE NAME;
in C. The default hook ignores the declaration. */
void (*register_builtin_type) (tree, const char *);
/* This routine is called in tree.c to print an error message for
invalid use of an incomplete type. VALUE is the expression that
was used (or 0 if that isn't known) and TYPE is the type that was
invalid. LOC is the location of the use. */
void (*incomplete_type_error) (location_t loc, const_tree value,
const_tree type);
/* Called from assign_temp to return the maximum size, if there is one,
for a type. */
tree (*max_size) (const_tree);
/* Register language specific type size variables as potentially OpenMP
firstprivate variables. */
void (*omp_firstprivatize_type_sizes) (struct gimplify_omp_ctx *, tree);
/* Return true if TYPE is a mappable type. */
bool (*omp_mappable_type) (tree type);
/* Return TRUE if TYPE1 and TYPE2 are identical for type hashing purposes.
Called only after doing all language independent checks.
At present, this function is only called when both TYPE1 and TYPE2 are
FUNCTION_TYPE or METHOD_TYPE. */
bool (*type_hash_eq) (const_tree, const_tree);
/* If non-NULL, return TYPE1 with any language-specific modifiers copied from
TYPE2. */
tree (*copy_lang_qualifiers) (const_tree, const_tree);
/* Return TRUE if TYPE uses a hidden descriptor and fills in information
for the debugger about the array bounds, strides, etc. */
bool (*get_array_descr_info) (const_tree, struct array_descr_info *);
/* Fill in information for the debugger about the bounds of TYPE. */
void (*get_subrange_bounds) (const_tree, tree *, tree *);
/* Called on INTEGER_TYPEs. Return NULL_TREE for non-biased types. For
biased types, return as an INTEGER_CST node the value that is represented
by a physical zero. */
tree (*get_type_bias) (const_tree);
/* A type descriptive of TYPE's complex layout generated to help the
debugger to decode variable-length or self-referential constructs.
This is only used for the AT_GNAT_descriptive_type DWARF attribute. */
tree (*descriptive_type) (const_tree);
/* If we requested a pointer to a vector, build up the pointers that
we stripped off while looking for the inner type. Similarly for
return values from functions. The argument TYPE is the top of the
chain, and BOTTOM is the new type which we will point to. */
tree (*reconstruct_complex_type) (tree, tree);
/* Returns the tree that represents the underlying data type used to
implement the enumeration. The default implementation will just use
type_for_size. Used in dwarf2out.c to add a DW_AT_type base type
reference to a DW_TAG_enumeration. */
tree (*enum_underlying_base_type) (const_tree);
/* Return a type to use in the debug info instead of TYPE, or NULL_TREE to
keep TYPE. This is useful to keep a single "source type" when the
middle-end uses specialized types, for instance constrained discriminated
types in Ada. */
tree (*get_debug_type) (const_tree);
/* Return TRUE if TYPE implements a fixed point type and fills in information
for the debugger about scale factor, etc. */
bool (*get_fixed_point_type_info) (const_tree,
struct fixed_point_type_info *);
/* Returns -1 if dwarf ATTR shouldn't be added for TYPE, or the attribute
value otherwise. */
int (*type_dwarf_attribute) (const_tree, int);
/* Returns a tree for the unit size of T excluding tail padding that
might be used by objects inheriting from T. */
tree (*unit_size_without_reusable_padding) (tree);
};
/* Language hooks related to decls and the symbol table. */
struct lang_hooks_for_decls
{
/* Return true if we are in the global binding level. This hook is really
needed only if the language supports variable-sized types at the global
level, i.e. declared outside subprograms. */
bool (*global_bindings_p) (void);
/* Function to add a decl to the current scope level. Takes one
argument, a decl to add. Returns that decl, or, if the same
symbol is already declared, may return a different decl for that
name. */
tree (*pushdecl) (tree);
/* Returns the chain of decls so far in the current scope level. */
tree (*getdecls) (void);
/* Returns -1 if dwarf ATTR shouldn't be added for DECL, or the attribute
value otherwise. */
int (*decl_dwarf_attribute) (const_tree, int);
/* Returns True if the parameter is a generic parameter decl
of a generic type, e.g a template template parameter for the C++ FE. */
bool (*generic_generic_parameter_decl_p) (const_tree);
/* Determine if a function parameter got expanded from a
function parameter pack. */
bool (*function_parm_expanded_from_pack_p) (tree, tree);
/* Returns the generic declaration of a generic function instantiations. */
tree (*get_generic_function_decl) (const_tree);
/* Returns true when we should warn for an unused global DECL.
We will already have checked that it has static binding. */
bool (*warn_unused_global) (const_tree);
/* Perform any post compilation-proper parser cleanups and
processing. This is currently only needed for the C++ parser,
which hopefully can be cleaned up so this hook is no longer
necessary. */
void (*post_compilation_parsing_cleanups) (void);
/* True if this decl may be called via a sibcall. */
bool (*ok_for_sibcall) (const_tree);
/* Return a tree for the actual data of an array descriptor - or NULL_TREE
if original tree is not an array descriptor. If the second argument
is true, only the TREE_TYPE is returned without generating a new tree. */
tree (*omp_array_data) (tree, bool);
/* True if OpenMP should regard this DECL as being a scalar which has Fortran's
allocatable or pointer attribute. */
bool (*omp_is_allocatable_or_ptr) (const_tree);
/* Check whether this DECL belongs to a Fortran optional argument.
With 'for_present_check' set to false, decls which are optional parameters
themselve are returned as tree - or a NULL_TREE otherwise. Those decls are
always pointers. With 'for_present_check' set to true, the decl for
checking whether an argument is present is returned; for arguments with
value attribute this is the hidden argument and of BOOLEAN_TYPE. If the
decl is unrelated to optional arguments, NULL_TREE is returned. */
tree (*omp_check_optional_argument) (tree, bool);
/* True if OpenMP should privatize what this DECL points to rather
than the DECL itself. */
bool (*omp_privatize_by_reference) (const_tree);
/* Return sharing kind if OpenMP sharing attribute of DECL is
predetermined, OMP_CLAUSE_DEFAULT_UNSPECIFIED otherwise. */
enum omp_clause_default_kind (*omp_predetermined_sharing) (tree);
/* Return mapping kind if OpenMP mapping attribute of DECL is
predetermined, OMP_CLAUSE_DEFAULTMAP_CATEGORY_UNSPECIFIED otherwise. */
enum omp_clause_defaultmap_kind (*omp_predetermined_mapping) (tree);
/* Return decl that should be reported for DEFAULT(NONE) failure
diagnostics. Usually the DECL passed in. */
tree (*omp_report_decl) (tree);
/* Return true if DECL's DECL_VALUE_EXPR (if any) should be
disregarded in OpenMP construct, because it is going to be
remapped during OpenMP lowering. SHARED is true if DECL
is going to be shared, false if it is going to be privatized. */
bool (*omp_disregard_value_expr) (tree, bool);
/* Return true if DECL that is shared iff SHARED is true should
be put into OMP_CLAUSE_PRIVATE_DEBUG. */
bool (*omp_private_debug_clause) (tree, bool);
/* Return true if DECL in private clause needs
OMP_CLAUSE_PRIVATE_OUTER_REF on the private clause. */
bool (*omp_private_outer_ref) (tree);
/* Build and return code for a default constructor for DECL in
response to CLAUSE. OUTER is corresponding outer region's
variable if needed. Return NULL if nothing to be done. */
tree (*omp_clause_default_ctor) (tree clause, tree decl, tree outer);
/* Build and return code for a copy constructor from SRC to DST. */
tree (*omp_clause_copy_ctor) (tree clause, tree dst, tree src);
/* Similarly, except use an assignment operator instead. */
tree (*omp_clause_assign_op) (tree clause, tree dst, tree src);
/* Build and return code for a constructor of DST that sets it to
SRC + ADD. */
tree (*omp_clause_linear_ctor) (tree clause, tree dst, tree src, tree add);
/* Build and return code destructing DECL. Return NULL if nothing
to be done. */
tree (*omp_clause_dtor) (tree clause, tree decl);
/* Do language specific checking on an implicitly determined clause. */
void (*omp_finish_clause) (tree clause, gimple_seq *pre_p, bool);
/* Return true if DECL is a scalar variable (for the purpose of
implicit firstprivatization). */
bool (*omp_scalar_p) (tree decl);
/* Return a pointer to the tree representing the initializer
expression for the non-local variable DECL. Return NULL if
DECL is not initialized. */
tree *(*omp_get_decl_init) (tree decl);
/* Free any extra memory used to hold initializer information for
variable declarations. omp_get_decl_init must not be called
after calling this. */
void (*omp_finish_decl_inits) (void);
};
/* Language hooks related to LTO serialization. */
struct lang_hooks_for_lto
{
/* Begin a new LTO section named NAME. */
void (*begin_section) (const char *name);
/* Write DATA of length LEN to the currently open LTO section. BLOCK is a
pointer to the dynamically allocated memory containing DATA. The
append_data function is responsible for freeing it when it is no longer
needed. */
void (*append_data) (const void *data, size_t len, void *block);
/* End the previously begun LTO section. */
void (*end_section) (void);
};
/* Language-specific hooks. See langhooks-def.h for defaults. */
struct lang_hooks
{
/* String identifying the front end and optionally language standard
version, e.g. "GNU C++98". */
const char *name;
/* sizeof (struct lang_identifier), so make_node () creates
identifier nodes long enough for the language-specific slots. */
size_t identifier_size;
/* Remove any parts of the tree that are used only by the FE. */
void (*free_lang_data) (tree);
/* Determines the size of any language-specific tcc_constant,
tcc_exceptional or tcc_type nodes. Since it is called from
make_node, the only information available is the tree code.
Expected to die on unrecognized codes. */
size_t (*tree_size) (enum tree_code);
/* Return the language mask used for converting argv into a sequence
of options. */
unsigned int (*option_lang_mask) (void);
/* Initialize variables in an options structure. */
void (*init_options_struct) (struct gcc_options *opts);
/* After the initialize_diagnostics hook is called, do any simple
initialization needed before any calls to handle_option, other
than that done by the init_options_struct hook. */
void (*init_options) (unsigned int decoded_options_count,
struct cl_decoded_option *decoded_options);
/* Callback used to perform language-specific initialization for the
global diagnostic context structure. */
void (*initialize_diagnostics) (diagnostic_context *);
/* Beginning the main source file. */
void (*preprocess_main_file) (cpp_reader *, line_maps *,
const line_map_ordinary *);
/* Adjust libcpp options and callbacks. */
void (*preprocess_options) (cpp_reader *);
/* Undefining a macro. */
void (*preprocess_undef) (cpp_reader *, location_t, cpp_hashnode *);
/* Observer for preprocessing stream. */
uintptr_t (*preprocess_token) (cpp_reader *, const cpp_token *, uintptr_t);
/* Various flags it can return about the token. */
enum PT_flags
{
PT_begin_pragma = 1 << 0
};
/* Register language-specific dumps. */
void (*register_dumps) (gcc::dump_manager *);
/* Return true if a warning should be given about option OPTION,
which is for the wrong language, false if it should be quietly
ignored. */
bool (*complain_wrong_lang_p) (const struct cl_option *option);
/* Handle the switch CODE, which has real type enum opt_code from
options.h. If the switch takes an argument, it is passed in ARG
which points to permanent storage. The handler is responsible for
checking whether ARG is NULL, which indicates that no argument
was in fact supplied. For -f and -W switches, VALUE is 1 or 0
for the positive and negative forms respectively. HANDLERS should
be passed to any recursive handle_option calls. LOC is the
location of the option.
Return true if the switch is valid, false if invalid. */
bool (*handle_option) (size_t code, const char *arg, HOST_WIDE_INT value,
int kind, location_t loc,
const struct cl_option_handlers *handlers);
/* Called when all command line options have been parsed to allow
further processing and initialization
Should return true to indicate that a compiler back-end is
not required, such as with the -E option.
If errorcount is nonzero after this call the compiler exits
immediately and the finish hook is not called. */
bool (*post_options) (const char **);
/* Called after post_options to initialize the front end. Return
false to indicate that no further compilation be performed, in
which case the finish hook is called immediately. */
bool (*init) (void);
/* Called at the end of compilation, as a finalizer. */
void (*finish) (void);
/* Parses the entire file. */
void (*parse_file) (void);
/* Determines if it's ok for a function to have no noreturn attribute. */
bool (*missing_noreturn_ok_p) (tree);
/* Called to obtain the alias set to be used for an expression or type.
Returns -1 if the language does nothing special for it. */
alias_set_type (*get_alias_set) (tree);
/* Function to finish handling an incomplete decl at the end of
compilation. Default hook is does nothing. */
void (*finish_incomplete_decl) (tree);
/* Replace the DECL_LANG_SPECIFIC data, which may be NULL, of the
DECL_NODE with a newly GC-allocated copy. */
void (*dup_lang_specific_decl) (tree);
/* Set the DECL_ASSEMBLER_NAME for a node. If it is the sort of
thing that the assembler should talk about, set
DECL_ASSEMBLER_NAME to an appropriate IDENTIFIER_NODE.
Otherwise, set it to the ERROR_MARK_NODE to ensure that the
assembler does not talk about it. */
void (*set_decl_assembler_name) (tree);
/* Overwrite the DECL_ASSEMBLER_NAME for a node. The name is being
changed (including to or from NULL_TREE). */
void (*overwrite_decl_assembler_name) (tree, tree);
/* The front end can add its own statistics to -fmem-report with
this hook. It should output to stderr. */
void (*print_statistics) (void);
/* Called by print_tree when there is a tree of class tcc_exceptional
that it doesn't know how to display. */
lang_print_tree_hook print_xnode;
/* Called to print language-dependent parts of tcc_decl, tcc_type,
and IDENTIFIER_NODE nodes. */
lang_print_tree_hook print_decl;
lang_print_tree_hook print_type;
lang_print_tree_hook print_identifier;
/* Computes the name to use to print a declaration. DECL is the
non-NULL declaration in question. VERBOSITY determines what
information will be printed: 0: DECL_NAME, demangled as
necessary. 1: and scope information. 2: and any other
information that might be interesting, such as function parameter
types in C++. The name is in the internal character set and
needs to be converted to the locale character set of diagnostics,
or to the execution character set for strings such as
__PRETTY_FUNCTION__. */
const char *(*decl_printable_name) (tree decl, int verbosity);
/* Computes the dwarf-2/3 name for a tree. VERBOSITY determines what
information will be printed: 0: DECL_NAME, demangled as
necessary. 1: and scope information. */
const char *(*dwarf_name) (tree, int verbosity);
/* This compares two types for equivalence ("compatible" in C-based languages).
This routine should only return 1 if it is sure. It should not be used
in contexts where erroneously returning 0 causes problems. */
int (*types_compatible_p) (tree x, tree y);
/* Called by report_error_function to print out function name. */
void (*print_error_function) (diagnostic_context *, const char *,
struct diagnostic_info *);
/* Convert a character from the host's to the target's character
set. The character should be in what C calls the "basic source
character set" (roughly, the set of characters defined by plain
old ASCII). The default is to return the character unchanged,
which is correct in most circumstances. Note that both argument
and result should be sign-extended under -fsigned-char,
zero-extended under -fno-signed-char. */
HOST_WIDE_INT (*to_target_charset) (HOST_WIDE_INT);
/* Pointers to machine-independent attribute tables, for front ends
using attribs.c. If one is NULL, it is ignored. Respectively, a
table of attributes specific to the language, a table of
attributes common to two or more languages (to allow easy
sharing), and a table of attributes for checking formats. */
const struct attribute_spec *attribute_table;
const struct attribute_spec *common_attribute_table;
const struct attribute_spec *format_attribute_table;
struct lang_hooks_for_tree_inlining tree_inlining;
struct lang_hooks_for_tree_dump tree_dump;
struct lang_hooks_for_decls decls;
struct lang_hooks_for_types types;
struct lang_hooks_for_lto lto;
/* Returns a TREE_VEC of the generic parameters of an instantiation of
a generic type or decl, e.g. C++ template instantiation. If
TREE_CHAIN of the return value is set, it is an INTEGER_CST
indicating how many of the elements are non-default. */
tree (*get_innermost_generic_parms) (const_tree);
/* Returns the TREE_VEC of arguments of an instantiation
of a generic type of decl, e.g. C++ template instantiation. */
tree (*get_innermost_generic_args) (const_tree);
/* Determine if a tree is a function parameter pack. */
bool (*function_parameter_pack_p) (const_tree);
/* Perform language-specific gimplification on the argument. Returns an
enum gimplify_status, though we can't see that type here. */
int (*gimplify_expr) (tree *, gimple_seq *, gimple_seq *);
/* Do language specific processing in the builtin function DECL */
tree (*builtin_function) (tree decl);
/* Like builtin_function, but make sure the scope is the external scope.
This is used to delay putting in back end builtin functions until the ISA
that defines the builtin is declared via function specific target options,
which can save memory for machines like the x86_64 that have multiple
ISAs. If this points to the same function as builtin_function, the
backend must add all of the builtins at program initialization time. */
tree (*builtin_function_ext_scope) (tree decl);
/* Do language-specific processing for target-specific built-in
function DECL, so that it is defined in the global scope (only)
and is available without needing to be explicitly declared.
This is intended for targets that want to inject declarations of
built-in functions into the source language (such as in response
to a pragma) rather than providing them in the source language itself. */
tree (*simulate_builtin_function_decl) (tree decl);
/* Used to set up the tree_contains_structure array for a frontend. */
void (*init_ts) (void);
/* Called by recompute_tree_invariant_for_addr_expr to go from EXPR
to a contained expression or DECL, possibly updating *TC or *SE
if in the process TREE_CONSTANT or TREE_SIDE_EFFECTS need updating. */
tree (*expr_to_decl) (tree expr, bool *tc, bool *se);
/* The EH personality function decl. */
tree (*eh_personality) (void);
/* Map a type to a runtime object to match type. */
tree (*eh_runtime_type) (tree);
/* If non-NULL, this is a function that returns a function decl to be
executed if an unhandled exception is propagated out of a cleanup
region. For example, in C++, an exception thrown by a destructor
during stack unwinding is required to result in a call to
`std::terminate', so the C++ version of this function returns a
FUNCTION_DECL for `std::terminate'. */
tree (*eh_protect_cleanup_actions) (void);
/* Return true if a stmt can fallthru. Used by block_may_fallthru
to possibly handle language trees. */
bool (*block_may_fallthru) (const_tree);
/* True if this language uses __cxa_end_cleanup when the ARM EABI
is enabled. */
bool eh_use_cxa_end_cleanup;
/* True if this language requires deep unsharing of tree nodes prior to
gimplification. */
bool deep_unsharing;
/* True if this language may use custom descriptors for nested functions
instead of trampolines. */
bool custom_function_descriptors;
/* True if this language emits begin stmt notes. */
bool emits_begin_stmt;
/* Run all lang-specific selftests. */
void (*run_lang_selftests) (void);
/* Attempt to determine the source location of the substring.
If successful, return NULL and write the source location to *OUT_LOC.
Otherwise return an error message. Error messages are intended
for GCC developers (to help debugging) rather than for end-users. */
const char *(*get_substring_location) (const substring_loc &,
location_t *out_loc);
/* Invoked before the early_finish debug hook is invoked. */
void (*finalize_early_debug) (void);
/* Whenever you add entries here, make sure you adjust langhooks-def.h
and langhooks.c accordingly. */
};
/* Each front end provides its own. */
extern struct lang_hooks lang_hooks;
extern tree add_builtin_function (const char *name, tree type,
int function_code, enum built_in_class cl,
const char *library_name,
tree attrs);
extern tree add_builtin_function_ext_scope (const char *name, tree type,
int function_code,
enum built_in_class cl,
const char *library_name,
tree attrs);
extern tree simulate_builtin_function_decl (location_t, const char *, tree,
int, const char *, tree);
extern tree add_builtin_type (const char *name, tree type);
/* Language helper functions. */
extern bool lang_GNU_C (void);
extern bool lang_GNU_CXX (void);
extern bool lang_GNU_Fortran (void);
extern bool lang_GNU_OBJC (void);
#endif /* GCC_LANG_HOOKS_H */