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|
/* Data structure definitions for a generic GCC target.
Copyright (C) 2001, 2002, 2003, 2004, 2005, 2006, 2007
Free Software Foundation, Inc.
This program 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.
This program 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 this program; see the file COPYING3. If not see
<http://www.gnu.org/licenses/>.
In other words, you are welcome to use, share and improve this program.
You are forbidden to forbid anyone else to use, share and improve
what you give them. Help stamp out software-hoarding! */
/* This file contains a data structure that describes a GCC target.
At present it is incomplete, but in future it should grow to
contain most or all target machine and target O/S specific
information.
This structure has its initializer declared in target-def.h in the
form of large macro TARGET_INITIALIZER that expands to many smaller
macros.
The smaller macros each initialize one component of the structure,
and each has a default. Each target should have a file that
includes target.h and target-def.h, and overrides any inappropriate
defaults by undefining the relevant macro and defining a suitable
replacement. That file should then contain the definition of
"targetm" like so:
struct gcc_target targetm = TARGET_INITIALIZER;
Doing things this way allows us to bring together everything that
defines a GCC target. By supplying a default that is appropriate
to most targets, we can easily add new items without needing to
edit dozens of target configuration files. It should also allow us
to gradually reduce the amount of conditional compilation that is
scattered throughout GCC. */
#ifndef GCC_TARGET_H
#define GCC_TARGET_H
#include "tm.h"
#include "insn-modes.h"
/* Types used by the record_gcc_switches() target function. */
typedef enum
{
SWITCH_TYPE_PASSED, /* A switch passed on the command line. */
SWITCH_TYPE_ENABLED, /* An option that is currently enabled. */
SWITCH_TYPE_DESCRIPTIVE, /* Descriptive text, not a switch or option. */
SWITCH_TYPE_LINE_START, /* Please emit any necessary text at the start of a line. */
SWITCH_TYPE_LINE_END /* Please emit a line terminator. */
}
print_switch_type;
typedef int (* print_switch_fn_type) (print_switch_type, const char *);
/* An example implementation for ELF targets. Defined in varasm.c */
extern int elf_record_gcc_switches (print_switch_type type, const char *);
struct stdarg_info;
struct spec_info_def;
/* The struct used by the secondary_reload target hook. */
typedef struct secondary_reload_info
{
/* icode is actually an enum insn_code, but we don't want to force every
file that includes target.h to include optabs.h . */
int icode;
int extra_cost; /* Cost for using (a) scratch register(s) to be taken
into account by copy_cost. */
/* The next two members are for the use of the backward
compatibility hook. */
struct secondary_reload_info *prev_sri;
int t_icode; /* Actually an enum insn_code - see above. */
} secondary_reload_info;
/* This is defined in sched-int.h . */
struct _dep;
struct gcc_target
{
/* Functions that output assembler for the target. */
struct asm_out
{
/* Opening and closing parentheses for asm expression grouping. */
const char *open_paren, *close_paren;
/* Assembler instructions for creating various kinds of integer object. */
const char *byte_op;
struct asm_int_op
{
const char *hi;
const char *si;
const char *di;
const char *ti;
} aligned_op, unaligned_op;
/* Try to output the assembler code for an integer object whose
value is given by X. SIZE is the size of the object in bytes and
ALIGNED_P indicates whether it is aligned. Return true if
successful. Only handles cases for which BYTE_OP, ALIGNED_OP
and UNALIGNED_OP are NULL. */
bool (* integer) (rtx x, unsigned int size, int aligned_p);
/* Output code that will globalize a label. */
void (* globalize_label) (FILE *, const char *);
/* Output code that will globalize a declaration. */
void (* globalize_decl_name) (FILE *, tree);
/* Output code that will emit a label for unwind info, if this
target requires such labels. Second argument is the decl the
unwind info is associated with, third is a boolean: true if
this is for exception handling, fourth is a boolean: true if
this is only a placeholder for an omitted FDE. */
void (* unwind_label) (FILE *, tree, int, int);
/* Output code that will emit a label to divide up the exception
table. */
void (* except_table_label) (FILE *);
/* Emit any directives required to unwind this instruction. */
void (* unwind_emit) (FILE *, rtx);
/* Output an internal label. */
void (* internal_label) (FILE *, const char *, unsigned long);
/* Emit a ttype table reference to a typeinfo object. */
bool (* ttype) (rtx);
/* Emit an assembler directive to set visibility for the symbol
associated with the tree decl. */
void (* visibility) (tree, int);
/* Output the assembler code for entry to a function. */
void (* function_prologue) (FILE *, HOST_WIDE_INT);
/* Output the assembler code for end of prologue. */
void (* function_end_prologue) (FILE *);
/* Output the assembler code for start of epilogue. */
void (* function_begin_epilogue) (FILE *);
/* Output the assembler code for function exit. */
void (* function_epilogue) (FILE *, HOST_WIDE_INT);
/* Initialize target-specific sections. */
void (* init_sections) (void);
/* Tell assembler to change to section NAME with attributes FLAGS.
If DECL is non-NULL, it is the VAR_DECL or FUNCTION_DECL with
which this section is associated. */
void (* named_section) (const char *name, unsigned int flags, tree decl);
/* Return a mask describing how relocations should be treated when
selecting sections. Bit 1 should be set if global relocations
should be placed in a read-write section; bit 0 should be set if
local relocations should be placed in a read-write section. */
int (*reloc_rw_mask) (void);
/* Return a section for EXP. It may be a DECL or a constant. RELOC
is nonzero if runtime relocations must be applied; bit 1 will be
set if the runtime relocations require non-local name resolution.
ALIGN is the required alignment of the data. */
section *(* select_section) (tree, int, unsigned HOST_WIDE_INT);
/* Return a section for X. MODE is X's mode and ALIGN is its
alignment in bits. */
section *(* select_rtx_section) (enum machine_mode, rtx,
unsigned HOST_WIDE_INT);
/* Select a unique section name for DECL. RELOC is the same as
for SELECT_SECTION. */
void (* unique_section) (tree, int);
/* Return the readonly data section associated with function DECL. */
section *(* function_rodata_section) (tree);
/* Output a constructor for a symbol with a given priority. */
void (* constructor) (rtx, int);
/* Output a destructor for a symbol with a given priority. */
void (* destructor) (rtx, int);
/* Output the assembler code for a thunk function. THUNK_DECL is the
declaration for the thunk function itself, FUNCTION is the decl for
the target function. DELTA is an immediate constant offset to be
added to THIS. If VCALL_OFFSET is nonzero, the word at
*(*this + vcall_offset) should be added to THIS. */
void (* output_mi_thunk) (FILE *file, tree thunk_decl,
HOST_WIDE_INT delta, HOST_WIDE_INT vcall_offset,
tree function_decl);
/* Determine whether output_mi_thunk would succeed. */
/* ??? Ideally, this hook would not exist, and success or failure
would be returned from output_mi_thunk directly. But there's
too much undo-able setup involved in invoking output_mi_thunk.
Could be fixed by making output_mi_thunk emit rtl instead of
text to the output file. */
bool (* can_output_mi_thunk) (tree thunk_decl, HOST_WIDE_INT delta,
HOST_WIDE_INT vcall_offset,
tree function_decl);
/* Output any boilerplate text needed at the beginning of a
translation unit. */
void (*file_start) (void);
/* Output any boilerplate text needed at the end of a
translation unit. */
void (*file_end) (void);
/* Output an assembler pseudo-op to declare a library function name
external. */
void (*external_libcall) (rtx);
/* Output an assembler directive to mark decl live. This instructs
linker to not dead code strip this symbol. */
void (*mark_decl_preserved) (const char *);
/* Output a record of the command line switches that have been passed. */
print_switch_fn_type record_gcc_switches;
/* The name of the section that the example ELF implementation of
record_gcc_switches will use to store the information. Target
specific versions of record_gcc_switches may or may not use
this information. */
const char * record_gcc_switches_section;
/* Output the definition of a section anchor. */
void (*output_anchor) (rtx);
/* Output a DTP-relative reference to a TLS symbol. */
void (*output_dwarf_dtprel) (FILE *file, int size, rtx x);
} asm_out;
/* Functions relating to instruction scheduling. */
struct sched
{
/* Given the current cost, COST, of an insn, INSN, calculate and
return a new cost based on its relationship to DEP_INSN through
the dependence LINK. The default is to make no adjustment. */
int (* adjust_cost) (rtx insn, rtx link, rtx dep_insn, int cost);
/* Adjust the priority of an insn as you see fit. Returns the new
priority. */
int (* adjust_priority) (rtx, int);
/* Function which returns the maximum number of insns that can be
scheduled in the same machine cycle. This must be constant
over an entire compilation. The default is 1. */
int (* issue_rate) (void);
/* Calculate how much this insn affects how many more insns we
can emit this cycle. Default is they all cost the same. */
int (* variable_issue) (FILE *, int, rtx, int);
/* Initialize machine-dependent scheduling code. */
void (* md_init) (FILE *, int, int);
/* Finalize machine-dependent scheduling code. */
void (* md_finish) (FILE *, int);
/* Initialize machine-dependent function while scheduling code. */
void (* md_init_global) (FILE *, int, int);
/* Finalize machine-dependent function wide scheduling code. */
void (* md_finish_global) (FILE *, int);
/* Reorder insns in a machine-dependent fashion, in two different
places. Default does nothing. */
int (* reorder) (FILE *, int, rtx *, int *, int);
int (* reorder2) (FILE *, int, rtx *, int *, int);
/* The following member value is a pointer to a function called
after evaluation forward dependencies of insns in chain given
by two parameter values (head and tail correspondingly). */
void (* dependencies_evaluation_hook) (rtx, rtx);
/* The values of the following four members are pointers to
functions used to simplify the automaton descriptions.
dfa_pre_cycle_insn and dfa_post_cycle_insn give functions
returning insns which are used to change the pipeline hazard
recognizer state when the new simulated processor cycle
correspondingly starts and finishes. The function defined by
init_dfa_pre_cycle_insn and init_dfa_post_cycle_insn are used
to initialize the corresponding insns. The default values of
the members result in not changing the automaton state when
the new simulated processor cycle correspondingly starts and
finishes. */
void (* init_dfa_pre_cycle_insn) (void);
rtx (* dfa_pre_cycle_insn) (void);
void (* init_dfa_post_cycle_insn) (void);
rtx (* dfa_post_cycle_insn) (void);
/* The values of the following two members are pointers to
functions used to simplify the automaton descriptions.
dfa_pre_advance_cycle and dfa_post_advance_cycle are getting called
immediatelly before and after cycle is advanced. */
void (* dfa_pre_advance_cycle) (void);
void (* dfa_post_advance_cycle) (void);
/* The following member value is a pointer to a function returning value
which defines how many insns in queue `ready' will we try for
multi-pass scheduling. If the member value is nonzero and the
function returns positive value, the DFA based scheduler will make
multi-pass scheduling for the first cycle. In other words, we will
try to choose ready insn which permits to start maximum number of
insns on the same cycle. */
int (* first_cycle_multipass_dfa_lookahead) (void);
/* The following member value is pointer to a function controlling
what insns from the ready insn queue will be considered for the
multipass insn scheduling. If the hook returns zero for insn
passed as the parameter, the insn will be not chosen to be
issued. */
int (* first_cycle_multipass_dfa_lookahead_guard) (rtx);
/* The following member value is pointer to a function called by
the insn scheduler before issuing insn passed as the third
parameter on given cycle. If the hook returns nonzero, the
insn is not issued on given processors cycle. Instead of that,
the processor cycle is advanced. If the value passed through
the last parameter is zero, the insn ready queue is not sorted
on the new cycle start as usually. The first parameter passes
file for debugging output. The second one passes the scheduler
verbose level of the debugging output. The forth and the fifth
parameter values are correspondingly processor cycle on which
the previous insn has been issued and the current processor
cycle. */
int (* dfa_new_cycle) (FILE *, int, rtx, int, int, int *);
/* The following member value is a pointer to a function called by the
insn scheduler. It should return true if there exists a dependence
which is considered costly by the target, between the insn
DEP_PRO (&_DEP), and the insn DEP_CON (&_DEP). The first parameter is
the dep that represents the dependence between the two insns. The
second argument is the cost of the dependence as estimated by
the scheduler. The last argument is the distance in cycles
between the already scheduled insn (first parameter) and the
the second insn (second parameter). */
bool (* is_costly_dependence) (struct _dep *_dep, int, int);
/* The following member value is a pointer to a function called
by the insn scheduler. This hook is called to notify the backend
that new instructions were emitted. */
void (* h_i_d_extended) (void);
/* The following member value is a pointer to a function called
by the insn scheduler.
The first parameter is an instruction, the second parameter is the type
of the requested speculation, and the third parameter is a pointer to the
speculative pattern of the corresponding type (set if return value == 1).
It should return
-1, if there is no pattern, that will satisfy the requested speculation
type,
0, if current pattern satisfies the requested speculation type,
1, if pattern of the instruction should be changed to the newly
generated one. */
int (* speculate_insn) (rtx, int, rtx *);
/* The following member value is a pointer to a function called
by the insn scheduler. It should return true if the check instruction
corresponding to the instruction passed as the parameter needs a
recovery block. */
bool (* needs_block_p) (rtx);
/* The following member value is a pointer to a function called
by the insn scheduler. It should return a pattern for the check
instruction.
The first parameter is a speculative instruction, the second parameter
is the label of the corresponding recovery block (or null, if it is a
simple check). If the mutation of the check is requested (e.g. from
ld.c to chk.a), the third parameter is true - in this case the first
parameter is the previous check. */
rtx (* gen_check) (rtx, rtx, bool);
/* The following member value is a pointer to a function controlling
what insns from the ready insn queue will be considered for the
multipass insn scheduling. If the hook returns zero for the insn
passed as the parameter, the insn will not be chosen to be
issued. This hook is used to discard speculative instructions,
that stand at the first position of the ready list. */
bool (* first_cycle_multipass_dfa_lookahead_guard_spec) (rtx);
/* The following member value is a pointer to a function that provides
information about the speculation capabilities of the target.
The parameter is a pointer to spec_info variable. */
void (* set_sched_flags) (struct spec_info_def *);
} sched;
/* Functions relating to vectorization. */
struct vectorize
{
/* The following member value is a pointer to a function called
by the vectorizer, and return the decl of the target builtin
function. */
tree (* builtin_mask_for_load) (void);
/* Returns a code for builtin that realizes vectorized version of
function, or NULL_TREE if not available. */
tree (* builtin_vectorized_function) (unsigned, tree, tree);
/* Returns a code for builtin that realizes vectorized version of
conversion, or NULL_TREE if not available. */
tree (* builtin_conversion) (unsigned, tree);
/* Target builtin that implements vector widening multiplication.
builtin_mul_widen_eve computes the element-by-element products
for the even elements, and builtin_mul_widen_odd computes the
element-by-element products for the odd elements. */
tree (* builtin_mul_widen_even) (tree);
tree (* builtin_mul_widen_odd) (tree);
/* Returns the cost to be added to the overheads involved with
executing the vectorized version of a loop. */
int (*builtin_vectorization_cost) (bool);
/* Return true if vector alignment is reachable (by peeling N
iterations) for the given type. */
bool (* vector_alignment_reachable) (tree, bool);
} vectorize;
/* The initial value of target_flags. */
int default_target_flags;
/* Handle target switch CODE (an OPT_* value). ARG is the argument
passed to the switch; it is NULL if no argument was. VALUE is the
value of ARG if CODE specifies a UInteger option, otherwise it is
1 if the positive form of the switch was used and 0 if the negative
form was. Return true if the switch was valid. */
bool (* handle_option) (size_t code, const char *arg, int value);
/* Display extra, target specific information in response to a
--target-help switch. */
void (* target_help) (void);
/* Return machine mode for filter value. */
enum machine_mode (* eh_return_filter_mode) (void);
/* Return machine mode for libgcc expanded cmp instructions. */
enum machine_mode (* libgcc_cmp_return_mode) (void);
/* Return machine mode for libgcc expanded shift instructions. */
enum machine_mode (* libgcc_shift_count_mode) (void);
/* Given two decls, merge their attributes and return the result. */
tree (* merge_decl_attributes) (tree, tree);
/* Given two types, merge their attributes and return the result. */
tree (* merge_type_attributes) (tree, tree);
/* Table of machine attributes and functions to handle them.
Ignored if NULL. */
const struct attribute_spec *attribute_table;
/* Return zero if the attributes on TYPE1 and TYPE2 are incompatible,
one if they are compatible and two if they are nearly compatible
(which causes a warning to be generated). */
int (* comp_type_attributes) (tree type1, tree type2);
/* Assign default attributes to the newly defined TYPE. */
void (* set_default_type_attributes) (tree type);
/* Insert attributes on the newly created DECL. */
void (* insert_attributes) (tree decl, tree *attributes);
/* Return true if FNDECL (which has at least one machine attribute)
can be inlined despite its machine attributes, false otherwise. */
bool (* function_attribute_inlinable_p) (tree fndecl);
/* Return true if bitfields in RECORD_TYPE should follow the
Microsoft Visual C++ bitfield layout rules. */
bool (* ms_bitfield_layout_p) (tree record_type);
/* True if the target supports decimal floating point. */
bool (* decimal_float_supported_p) (void);
/* True if the target supports fixed-point. */
bool (* fixed_point_supported_p) (void);
/* Return true if anonymous bitfields affect structure alignment. */
bool (* align_anon_bitfield) (void);
/* Return true if volatile bitfields should use the narrowest type possible.
Return false if they should use the container type. */
bool (* narrow_volatile_bitfield) (void);
/* Set up target-specific built-in functions. */
void (* init_builtins) (void);
/* Expand a target-specific builtin. */
rtx (* expand_builtin) (tree exp, rtx target, rtx subtarget,
enum machine_mode mode, int ignore);
/* Select a replacement for a target-specific builtin. This is done
*before* regular type checking, and so allows the target to implement
a crude form of function overloading. The result is a complete
expression that implements the operation. */
tree (*resolve_overloaded_builtin) (tree decl, tree params);
/* Fold a target-specific builtin. */
tree (* fold_builtin) (tree fndecl, tree arglist, bool ignore);
/* Returns a code for a target-specific builtin that implements
reciprocal of the function, or NULL_TREE if not available. */
tree (* builtin_reciprocal) (unsigned, bool, bool);
/* For a vendor-specific TYPE, return a pointer to a statically-allocated
string containing the C++ mangling for TYPE. In all other cases, return
NULL. */
const char * (* mangle_type) (tree type);
/* Make any adjustments to libfunc names needed for this target. */
void (* init_libfuncs) (void);
/* Given a decl, a section name, and whether the decl initializer
has relocs, choose attributes for the section. */
/* ??? Should be merged with SELECT_SECTION and UNIQUE_SECTION. */
unsigned int (* section_type_flags) (tree, const char *, int);
/* True if new jumps cannot be created, to replace existing ones or
not, at the current point in the compilation. */
bool (* cannot_modify_jumps_p) (void);
/* Return a register class for which branch target register
optimizations should be applied. */
int (* branch_target_register_class) (void);
/* Return true if branch target register optimizations should include
callee-saved registers that are not already live during the current
function. AFTER_PE_GEN is true if prologues and epilogues have
already been generated. */
bool (* branch_target_register_callee_saved) (bool after_pe_gen);
/* True if the constant X cannot be placed in the constant pool. */
bool (* cannot_force_const_mem) (rtx);
/* True if the insn X cannot be duplicated. */
bool (* cannot_copy_insn_p) (rtx);
/* True if X is considered to be commutative. */
bool (* commutative_p) (rtx, int);
/* Given an address RTX, undo the effects of LEGITIMIZE_ADDRESS. */
rtx (* delegitimize_address) (rtx);
/* True if the given constant can be put into an object_block. */
bool (* use_blocks_for_constant_p) (enum machine_mode, rtx);
/* The minimum and maximum byte offsets for anchored addresses. */
HOST_WIDE_INT min_anchor_offset;
HOST_WIDE_INT max_anchor_offset;
/* True if section anchors can be used to access the given symbol. */
bool (* use_anchors_for_symbol_p) (rtx);
/* True if it is OK to do sibling call optimization for the specified
call expression EXP. DECL will be the called function, or NULL if
this is an indirect call. */
bool (*function_ok_for_sibcall) (tree decl, tree exp);
/* True if EXP should be placed in a "small data" section. */
bool (* in_small_data_p) (tree);
/* True if EXP names an object for which name resolution must resolve
to the current module. */
bool (* binds_local_p) (tree);
/* Modify and return the identifier of a DECL's external name,
originally identified by ID, as required by the target,
(eg, append @nn to windows32 stdcall function names).
The default is to return ID without modification. */
tree (* mangle_decl_assembler_name) (tree decl, tree id);
/* Do something target-specific to record properties of the DECL into
the associated SYMBOL_REF. */
void (* encode_section_info) (tree, rtx, int);
/* Undo the effects of encode_section_info on the symbol string. */
const char * (* strip_name_encoding) (const char *);
/* If shift optabs for MODE are known to always truncate the shift count,
return the mask that they apply. Return 0 otherwise. */
unsigned HOST_WIDE_INT (* shift_truncation_mask) (enum machine_mode mode);
/* Return the number of divisions in the given MODE that should be present,
so that it is profitable to turn the division into a multiplication by
the reciprocal. */
unsigned int (* min_divisions_for_recip_mul) (enum machine_mode mode);
/* If the representation of integral MODE is such that values are
always sign-extended to a wider mode MODE_REP then return
SIGN_EXTEND. Return UNKNOWN otherwise. */
/* Note that the return type ought to be RTX_CODE, but that's not
necessarily defined at this point. */
int (* mode_rep_extended) (enum machine_mode mode,
enum machine_mode mode_rep);
/* True if MODE is valid for a pointer in __attribute__((mode("MODE"))). */
bool (* valid_pointer_mode) (enum machine_mode mode);
/* True if MODE is valid for the target. By "valid", we mean able to
be manipulated in non-trivial ways. In particular, this means all
the arithmetic is supported. */
bool (* scalar_mode_supported_p) (enum machine_mode mode);
/* Similarly for vector modes. "Supported" here is less strict. At
least some operations are supported; need to check optabs or builtins
for further details. */
bool (* vector_mode_supported_p) (enum machine_mode mode);
/* True if a vector is opaque. */
bool (* vector_opaque_p) (tree);
/* Compute a (partial) cost for rtx X. Return true if the complete
cost has been computed, and false if subexpressions should be
scanned. In either case, *TOTAL contains the cost result. */
/* Note that CODE and OUTER_CODE ought to be RTX_CODE, but that's
not necessarily defined at this point. */
bool (* rtx_costs) (rtx x, int code, int outer_code, int *total);
/* Compute the cost of X, used as an address. Never called with
invalid addresses. */
int (* address_cost) (rtx x);
/* Return where to allocate pseudo for a given hard register initial
value. */
rtx (* allocate_initial_value) (rtx x);
/* Given a register, this hook should return a parallel of registers
to represent where to find the register pieces. Define this hook
if the register and its mode are represented in Dwarf in
non-contiguous locations, or if the register should be
represented in more than one register in Dwarf. Otherwise, this
hook should return NULL_RTX. */
rtx (* dwarf_register_span) (rtx);
/* If expand_builtin_init_dwarf_reg_sizes needs to fill in table
entries not corresponding directly to registers below
FIRST_PSEUDO_REGISTER, this hook should generate the necessary
code, given the address of the table. */
void (* init_dwarf_reg_sizes_extra) (tree);
/* Fetch the fixed register(s) which hold condition codes, for
targets where it makes sense to look for duplicate assignments to
the condition codes. This should return true if there is such a
register, false otherwise. The arguments should be set to the
fixed register numbers. Up to two condition code registers are
supported. If there is only one for this target, the int pointed
at by the second argument should be set to -1. */
bool (* fixed_condition_code_regs) (unsigned int *, unsigned int *);
/* If two condition code modes are compatible, return a condition
code mode which is compatible with both, such that a comparison
done in the returned mode will work for both of the original
modes. If the condition code modes are not compatible, return
VOIDmode. */
enum machine_mode (* cc_modes_compatible) (enum machine_mode,
enum machine_mode);
/* Do machine-dependent code transformations. Called just before
delayed-branch scheduling. */
void (* machine_dependent_reorg) (void);
/* Create the __builtin_va_list type. */
tree (* build_builtin_va_list) (void);
/* Gimplifies a VA_ARG_EXPR. */
tree (* gimplify_va_arg_expr) (tree valist, tree type, tree *pre_p,
tree *post_p);
/* Validity-checking routines for PCH files, target-specific.
get_pch_validity returns a pointer to the data to be stored,
and stores the size in its argument. pch_valid_p gets the same
information back and returns NULL if the PCH is valid,
or an error message if not.
*/
void * (* get_pch_validity) (size_t *);
const char * (* pch_valid_p) (const void *, size_t);
/* If nonnull, this function checks whether a PCH file with the
given set of target flags can be used. It returns NULL if so,
otherwise it returns an error message. */
const char *(*check_pch_target_flags) (int);
/* True if the compiler should give an enum type only as many
bytes as it takes to represent the range of possible values of
that type. */
bool (* default_short_enums) (void);
/* This target hook returns an rtx that is used to store the address
of the current frame into the built-in setjmp buffer. */
rtx (* builtin_setjmp_frame_value) (void);
/* This target hook should add STRING_CST trees for any hard regs
the port wishes to automatically clobber for an asm. */
tree (* md_asm_clobbers) (tree, tree, tree);
/* This target hook allows the backend to specify a calling convention
in the debug information. This function actually returns an
enum dwarf_calling_convention, but because of forward declarations
and not wanting to include dwarf2.h everywhere target.h is included
the function is being declared as an int. */
int (* dwarf_calling_convention) (tree);
/* This target hook allows the backend to emit frame-related insns that
contain UNSPECs or UNSPEC_VOLATILEs. The call frame debugging info
engine will invoke it on insns of the form
(set (reg) (unspec [...] UNSPEC_INDEX))
and
(set (reg) (unspec_volatile [...] UNSPECV_INDEX))
to let the backend emit the call frame instructions. */
void (* dwarf_handle_frame_unspec) (const char *, rtx, int);
/* Perform architecture specific checking of statements gimplified
from VA_ARG_EXPR. LHS is left hand side of MODIFY_EXPR, RHS
is right hand side. Returns true if the statements doesn't need
to be checked for va_list references. */
bool (* stdarg_optimize_hook) (struct stdarg_info *ai, tree lhs, tree rhs);
/* This target hook allows the operating system to override the DECL
that represents the external variable that contains the stack
protection guard variable. The type of this DECL is ptr_type_node. */
tree (* stack_protect_guard) (void);
/* This target hook allows the operating system to override the CALL_EXPR
that is invoked when a check vs the guard variable fails. */
tree (* stack_protect_fail) (void);
/* Returns NULL if target supports the insn within a doloop block,
otherwise it returns an error message. */
const char * (*invalid_within_doloop) (rtx);
/* DECL is a variable or function with __attribute__((dllimport))
specified. Use this hook if the target needs to add extra validation
checks to handle_dll_attribute (). */
bool (* valid_dllimport_attribute_p) (tree decl);
/* Functions relating to calls - argument passing, returns, etc. */
struct calls {
bool (*promote_function_args) (tree fntype);
bool (*promote_function_return) (tree fntype);
bool (*promote_prototypes) (tree fntype);
rtx (*struct_value_rtx) (tree fndecl, int incoming);
bool (*return_in_memory) (tree type, tree fndecl);
bool (*return_in_msb) (tree type);
/* Return true if a parameter must be passed by reference. TYPE may
be null if this is a libcall. CA may be null if this query is
from __builtin_va_arg. */
bool (*pass_by_reference) (CUMULATIVE_ARGS *ca, enum machine_mode mode,
tree type, bool named_arg);
rtx (*expand_builtin_saveregs) (void);
/* Returns pretend_argument_size. */
void (*setup_incoming_varargs) (CUMULATIVE_ARGS *ca, enum machine_mode mode,
tree type, int *pretend_arg_size,
int second_time);
bool (*strict_argument_naming) (CUMULATIVE_ARGS *ca);
/* Returns true if we should use
targetm.calls.setup_incoming_varargs() and/or
targetm.calls.strict_argument_naming(). */
bool (*pretend_outgoing_varargs_named) (CUMULATIVE_ARGS *ca);
/* Given a complex type T, return true if a parameter of type T
should be passed as two scalars. */
bool (* split_complex_arg) (tree type);
/* Return true if type T, mode MODE, may not be passed in registers,
but must be passed on the stack. */
/* ??? This predicate should be applied strictly after pass-by-reference.
Need audit to verify that this is the case. */
bool (* must_pass_in_stack) (enum machine_mode mode, tree t);
/* Return true if type TYPE, mode MODE, which is passed by reference,
should have the object copy generated by the callee rather than
the caller. It is never called for TYPE requiring constructors. */
bool (* callee_copies) (CUMULATIVE_ARGS *ca, enum machine_mode mode,
tree type, bool named);
/* Return zero for arguments passed entirely on the stack or entirely
in registers. If passed in both, return the number of bytes passed
in registers; the balance is therefore passed on the stack. */
int (* arg_partial_bytes) (CUMULATIVE_ARGS *ca, enum machine_mode mode,
tree type, bool named);
/* Return the diagnostic message string if function without a prototype
is not allowed for this 'val' argument; NULL otherwise. */
const char *(*invalid_arg_for_unprototyped_fn) (tree typelist,
tree funcdecl, tree val);
/* Return an rtx for the return value location of the function
specified by FN_DECL_OR_TYPE with a return type of RET_TYPE. */
rtx (*function_value) (tree ret_type, tree fn_decl_or_type,
bool outgoing);
/* Return an rtx for the argument pointer incoming to the
current function. */
rtx (*internal_arg_pointer) (void);
} calls;
/* Return the diagnostic message string if conversion from FROMTYPE
to TOTYPE is not allowed, NULL otherwise. */
const char *(*invalid_conversion) (tree fromtype, tree totype);
/* Return the diagnostic message string if the unary operation OP is
not permitted on TYPE, NULL otherwise. */
const char *(*invalid_unary_op) (int op, tree type);
/* Return the diagnostic message string if the binary operation OP
is not permitted on TYPE1 and TYPE2, NULL otherwise. */
const char *(*invalid_binary_op) (int op, tree type1, tree type2);
/* Return the class for a secondary reload, and fill in extra information. */
enum reg_class (*secondary_reload) (bool, rtx, enum reg_class,
enum machine_mode,
struct secondary_reload_info *);
/* Functions specific to the C family of frontends. */
struct c {
/* Return machine mode for non-standard suffix
or VOIDmode if non-standard suffixes are unsupported. */
enum machine_mode (*mode_for_suffix) (char);
} c;
/* Functions specific to the C++ frontend. */
struct cxx {
/* Return the integer type used for guard variables. */
tree (*guard_type) (void);
/* Return true if only the low bit of the guard should be tested. */
bool (*guard_mask_bit) (void);
/* Returns the size of the array cookie for an array of type. */
tree (*get_cookie_size) (tree);
/* Returns true if the element size should be stored in the
array cookie. */
bool (*cookie_has_size) (void);
/* Allows backends to perform additional processing when
deciding if a class should be exported or imported. */
int (*import_export_class) (tree, int);
/* Returns true if constructors and destructors return "this". */
bool (*cdtor_returns_this) (void);
/* Returns true if the key method for a class can be an inline
function, so long as it is not declared inline in the class
itself. Returning true is the behavior required by the Itanium
C++ ABI. */
bool (*key_method_may_be_inline) (void);
/* DECL is a virtual table, virtual table table, typeinfo object,
or other similar implicit class data object that will be
emitted with external linkage in this translation unit. No ELF
visibility has been explicitly specified. If the target needs
to specify a visibility other than that of the containing class,
use this hook to set DECL_VISIBILITY and
DECL_VISIBILITY_SPECIFIED. */
void (*determine_class_data_visibility) (tree decl);
/* Returns true (the default) if virtual tables and other
similar implicit class data objects are always COMDAT if they
have external linkage. If this hook returns false, then
class data for classes whose virtual table will be emitted in
only one translation unit will not be COMDAT. */
bool (*class_data_always_comdat) (void);
/* Returns true (the default) if the RTTI for the basic types,
which is always defined in the C++ runtime, should be COMDAT;
false if it should not be COMDAT. */
bool (*library_rtti_comdat) (void);
/* Returns true if __aeabi_atexit should be used to register static
destructors. */
bool (*use_aeabi_atexit) (void);
/* Returns true if target may use atexit in the same manner as
__cxa_atexit to register static destructors. */
bool (*use_atexit_for_cxa_atexit) (void);
/* TYPE is a C++ class (i.e., RECORD_TYPE or UNION_TYPE) that
has just been defined. Use this hook to make adjustments to the
class (eg, tweak visibility or perform any other required
target modifications). */
void (*adjust_class_at_definition) (tree type);
} cxx;
/* For targets that need to mark extra registers as live on entry to
the function, they should define this target hook and set their
bits in the bitmap passed in. */
void (*live_on_entry) (bitmap);
/* True if unwinding tables should be generated by default. */
bool unwind_tables_default;
/* Leave the boolean fields at the end. */
/* True if arbitrary sections are supported. */
bool have_named_sections;
/* True if we can create zeroed data by switching to a BSS section
and then using ASM_OUTPUT_SKIP to allocate the space. */
bool have_switchable_bss_sections;
/* True if "native" constructors and destructors are supported,
false if we're using collect2 for the job. */
bool have_ctors_dtors;
/* True if thread-local storage is supported. */
bool have_tls;
/* True if a small readonly data section is supported. */
bool have_srodata_section;
/* True if EH frame info sections should be zero-terminated. */
bool terminate_dw2_eh_frame_info;
/* True if #NO_APP should be emitted at the beginning of
assembly output. */
bool file_start_app_off;
/* True if output_file_directive should be called for main_input_filename
at the beginning of assembly output. */
bool file_start_file_directive;
/* True if #pragma redefine_extname is to be supported. */
bool handle_pragma_redefine_extname;
/* True if #pragma extern_prefix is to be supported. */
bool handle_pragma_extern_prefix;
/* True if the target is allowed to reorder memory accesses unless
synchronization is explicitly requested. */
bool relaxed_ordering;
/* Returns true if we should generate exception tables for use with the
ARM EABI. The effects the encoding of function exception specifications.
*/
bool arm_eabi_unwinder;
/* Leave the boolean fields at the end. */
};
extern struct gcc_target targetm;
struct gcc_targetcm {
/* Handle target switch CODE (an OPT_* value). ARG is the argument
passed to the switch; it is NULL if no argument was. VALUE is the
value of ARG if CODE specifies a UInteger option, otherwise it is
1 if the positive form of the switch was used and 0 if the negative
form was. Return true if the switch was valid. */
bool (*handle_c_option) (size_t code, const char *arg, int value);
};
/* Each target can provide their own. */
extern struct gcc_targetcm targetcm;
#endif /* GCC_TARGET_H */
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