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/* Definitions for code generation pass of GNU compiler.
Copyright (C) 2001-2013 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
<http://www.gnu.org/licenses/>. */
#ifndef GCC_OPTABS_H
#define GCC_OPTABS_H
#include "insn-codes.h"
#include "insn-opinit.h"
typedef enum optab_tag optab;
typedef enum optab_tag convert_optab;
typedef enum optab_tag direct_optab;
struct optab_libcall_d
{
char libcall_suffix;
const char *libcall_basename;
void (*libcall_gen) (optab, const char *name,
char suffix, enum machine_mode);
};
struct convert_optab_libcall_d
{
const char *libcall_basename;
void (*libcall_gen) (convert_optab, const char *name,
enum machine_mode, enum machine_mode);
};
/* Given an enum insn_code, access the function to construct
the body of that kind of insn. */
#define GEN_FCN(CODE) (insn_data[CODE].genfun)
/* Contains the optab used for each rtx code, and vice-versa. */
extern const optab code_to_optab_[NUM_RTX_CODE];
extern const enum rtx_code optab_to_code_[NUM_OPTABS];
static inline optab
code_to_optab (enum rtx_code code)
{
return code_to_optab_[code];
}
static inline enum rtx_code
optab_to_code (optab op)
{
return optab_to_code_[op];
}
extern const struct convert_optab_libcall_d convlib_def[NUM_CONVLIB_OPTABS];
extern const struct optab_libcall_d normlib_def[NUM_NORMLIB_OPTABS];
/* Returns the active icode for the given (encoded) optab. */
extern enum insn_code raw_optab_handler (unsigned);
extern bool swap_optab_enable (optab, enum machine_mode, bool);
/* Target-dependent globals. */
struct target_optabs {
/* Patterns that are used by optabs that are enabled for this target. */
bool pat_enable[NUM_OPTAB_PATTERNS];
};
extern struct target_optabs default_target_optabs;
extern struct target_optabs *this_fn_optabs;
#if SWITCHABLE_TARGET
extern struct target_optabs *this_target_optabs;
#else
#define this_target_optabs (&default_target_optabs)
#endif
/* Define functions given in optabs.c. */
extern rtx expand_widen_pattern_expr (sepops ops, rtx op0, rtx op1, rtx wide_op,
rtx target, int unsignedp);
extern rtx expand_ternary_op (enum machine_mode mode, optab ternary_optab,
rtx op0, rtx op1, rtx op2, rtx target,
int unsignedp);
/* Expand a binary operation given optab and rtx operands. */
extern rtx expand_binop (enum machine_mode, optab, rtx, rtx, rtx, int,
enum optab_methods);
extern rtx simplify_expand_binop (enum machine_mode mode, optab binoptab,
rtx op0, rtx op1, rtx target, int unsignedp,
enum optab_methods methods);
extern bool force_expand_binop (enum machine_mode, optab, rtx, rtx, rtx, int,
enum optab_methods);
/* Expand a binary operation with both signed and unsigned forms. */
extern rtx sign_expand_binop (enum machine_mode, optab, optab, rtx, rtx,
rtx, int, enum optab_methods);
/* Generate code to perform an operation on one operand with two results. */
extern int expand_twoval_unop (optab, rtx, rtx, rtx, int);
/* Generate code to perform an operation on two operands with two results. */
extern int expand_twoval_binop (optab, rtx, rtx, rtx, rtx, int);
/* Generate code to perform an operation on two operands with two
results, using a library function. */
extern bool expand_twoval_binop_libfunc (optab, rtx, rtx, rtx, rtx,
enum rtx_code);
/* Expand a unary arithmetic operation given optab rtx operand. */
extern rtx expand_unop (enum machine_mode, optab, rtx, rtx, int);
/* Expand the absolute value operation. */
extern rtx expand_abs_nojump (enum machine_mode, rtx, rtx, int);
extern rtx expand_abs (enum machine_mode, rtx, rtx, int, int);
/* Expand the one's complement absolute value operation. */
extern rtx expand_one_cmpl_abs_nojump (enum machine_mode, rtx, rtx);
/* Expand the copysign operation. */
extern rtx expand_copysign (rtx, rtx, rtx);
/* Generate an instruction with a given INSN_CODE with an output and
an input. */
extern void emit_unop_insn (enum insn_code, rtx, rtx, enum rtx_code);
extern bool maybe_emit_unop_insn (enum insn_code, rtx, rtx, enum rtx_code);
/* Find a widening optab even if it doesn't widen as much as we want. */
#define find_widening_optab_handler(A,B,C,D) \
find_widening_optab_handler_and_mode (A, B, C, D, NULL)
extern enum insn_code find_widening_optab_handler_and_mode (optab,
enum machine_mode,
enum machine_mode,
int,
enum machine_mode *);
/* An extra flag to control optab_for_tree_code's behavior. This is needed to
distinguish between machines with a vector shift that takes a scalar for the
shift amount vs. machines that take a vector for the shift amount. */
enum optab_subtype
{
optab_default,
optab_scalar,
optab_vector
};
/* Return the optab used for computing the given operation on the type given by
the second argument. The third argument distinguishes between the types of
vector shifts and rotates */
extern optab optab_for_tree_code (enum tree_code, const_tree, enum optab_subtype);
/* The various uses that a comparison can have; used by can_compare_p:
jumps, conditional moves, store flag operations. */
enum can_compare_purpose
{
ccp_jump,
ccp_cmov,
ccp_store_flag
};
/* Nonzero if a compare of mode MODE can be done straightforwardly
(without splitting it into pieces). */
extern int can_compare_p (enum rtx_code, enum machine_mode,
enum can_compare_purpose);
/* Return the INSN_CODE to use for an extend operation. */
extern enum insn_code can_extend_p (enum machine_mode, enum machine_mode, int);
/* Generate the body of an insn to extend Y (with mode MFROM)
into X (with mode MTO). Do zero-extension if UNSIGNEDP is nonzero. */
extern rtx gen_extend_insn (rtx, rtx, enum machine_mode,
enum machine_mode, int);
/* Call this to reset the function entry for one optab. */
extern void set_optab_libfunc (optab, enum machine_mode, const char *);
extern void set_conv_libfunc (convert_optab, enum machine_mode,
enum machine_mode, const char *);
/* Call this to install all of the __sync libcalls up to size MAX. */
extern void init_sync_libfuncs (int max);
/* Generate code for a FIXED_CONVERT_EXPR. */
extern void expand_fixed_convert (rtx, rtx, int, int);
/* Generate code for a FLOAT_EXPR. */
extern void expand_float (rtx, rtx, int);
/* Return the insn_code for a FLOAT_EXPR. */
enum insn_code can_float_p (enum machine_mode, enum machine_mode, int);
/* Return true if there is an inline compare and swap pattern. */
extern bool can_compare_and_swap_p (enum machine_mode, bool);
/* Return true if there is an inline atomic exchange pattern. */
extern bool can_atomic_exchange_p (enum machine_mode, bool);
/* Generate code for a compare and swap. */
extern bool expand_atomic_compare_and_swap (rtx *, rtx *, rtx, rtx, rtx, bool,
enum memmodel, enum memmodel);
/* Generate memory barriers. */
extern void expand_mem_thread_fence (enum memmodel);
extern void expand_mem_signal_fence (enum memmodel);
/* Check whether an operation represented by the code CODE is a
convert operation that is supported by the target platform in
vector form */
bool supportable_convert_operation (enum tree_code, tree, tree, tree *,
enum tree_code *);
/* Generate code for a FIX_EXPR. */
extern void expand_fix (rtx, rtx, int);
/* Generate code for float to integral conversion. */
extern bool expand_sfix_optab (rtx, rtx, convert_optab);
/* Generate code for a widening multiply. */
extern rtx expand_widening_mult (enum machine_mode, rtx, rtx, rtx, int, optab);
/* Return tree if target supports vector operations for COND_EXPR. */
bool expand_vec_cond_expr_p (tree, tree);
/* Generate code for VEC_COND_EXPR. */
extern rtx expand_vec_cond_expr (tree, tree, tree, tree, rtx);
/* Generate code for VEC_LSHIFT_EXPR and VEC_RSHIFT_EXPR. */
extern rtx expand_vec_shift_expr (sepops, rtx);
/* Return tree if target supports vector operations for VEC_PERM_EXPR. */
extern bool can_vec_perm_p (enum machine_mode, bool, const unsigned char *);
/* Generate code for VEC_PERM_EXPR. */
extern rtx expand_vec_perm (enum machine_mode, rtx, rtx, rtx, rtx);
/* Return non-zero if target supports a given highpart multiplication. */
extern int can_mult_highpart_p (enum machine_mode, bool);
/* Generate code for MULT_HIGHPART_EXPR. */
extern rtx expand_mult_highpart (enum machine_mode, rtx, rtx, rtx, bool);
/* Return the insn used to implement mode MODE of OP, or CODE_FOR_nothing
if the target does not have such an insn. */
static inline enum insn_code
optab_handler (optab op, enum machine_mode mode)
{
unsigned scode = (op << 16) | mode;
gcc_assert (op > LAST_CONV_OPTAB);
return raw_optab_handler (scode);
}
/* Return the insn used to perform conversion OP from mode FROM_MODE
to mode TO_MODE; return CODE_FOR_nothing if the target does not have
such an insn. */
static inline enum insn_code
convert_optab_handler (convert_optab op, enum machine_mode to_mode,
enum machine_mode from_mode)
{
unsigned scode = (op << 16) | (from_mode << 8) | to_mode;
gcc_assert (op > unknown_optab && op <= LAST_CONV_OPTAB);
return raw_optab_handler (scode);
}
/* Like optab_handler, but for widening_operations that have a
TO_MODE and a FROM_MODE. */
static inline enum insn_code
widening_optab_handler (optab op, enum machine_mode to_mode,
enum machine_mode from_mode)
{
unsigned scode = (op << 16) | to_mode;
if (to_mode != from_mode && from_mode != VOIDmode)
{
/* ??? Why does find_widening_optab_handler_and_mode attempt to
widen things that can't be widened? E.g. add_optab... */
if (op > LAST_CONV_OPTAB)
return CODE_FOR_nothing;
scode |= from_mode << 8;
}
return raw_optab_handler (scode);
}
/* Return the insn used to implement mode MODE of OP, or CODE_FOR_nothing
if the target does not have such an insn. */
static inline enum insn_code
direct_optab_handler (direct_optab op, enum machine_mode mode)
{
return optab_handler (op, mode);
}
/* Return true if UNOPTAB is for a trapping-on-overflow operation. */
static inline bool
trapv_unoptab_p (optab unoptab)
{
return (unoptab == negv_optab
|| unoptab == absv_optab);
}
/* Return true if BINOPTAB is for a trapping-on-overflow operation. */
static inline bool
trapv_binoptab_p (optab binoptab)
{
return (binoptab == addv_optab
|| binoptab == subv_optab
|| binoptab == smulv_optab);
}
extern rtx optab_libfunc (optab optab, enum machine_mode mode);
extern rtx convert_optab_libfunc (convert_optab optab, enum machine_mode mode1,
enum machine_mode mode2);
/* Describes an instruction that inserts or extracts a bitfield. */
struct extraction_insn
{
/* The code of the instruction. */
enum insn_code icode;
/* The mode that the structure operand should have. This is byte_mode
when using the legacy insv, extv and extzv patterns to access memory. */
enum machine_mode struct_mode;
/* The mode of the field to be inserted or extracted, and by extension
the mode of the insertion or extraction itself. */
enum machine_mode field_mode;
/* The mode of the field's bit position. This is only important
when the position is variable rather than constant. */
enum machine_mode pos_mode;
};
/* Enumerates the possible extraction_insn operations. */
enum extraction_pattern { EP_insv, EP_extv, EP_extzv };
extern bool get_best_reg_extraction_insn (extraction_insn *,
enum extraction_pattern,
unsigned HOST_WIDE_INT,
enum machine_mode);
extern bool get_best_mem_extraction_insn (extraction_insn *,
enum extraction_pattern,
HOST_WIDE_INT, HOST_WIDE_INT,
enum machine_mode);
extern bool insn_operand_matches (enum insn_code icode, unsigned int opno,
rtx operand);
/* Describes the type of an expand_operand. Each value is associated
with a create_*_operand function; see the comments above those
functions for details. */
enum expand_operand_type {
EXPAND_FIXED,
EXPAND_OUTPUT,
EXPAND_INPUT,
EXPAND_CONVERT_TO,
EXPAND_CONVERT_FROM,
EXPAND_ADDRESS,
EXPAND_INTEGER
};
/* Information about an operand for instruction expansion. */
struct expand_operand {
/* The type of operand. */
ENUM_BITFIELD (expand_operand_type) type : 8;
/* True if any conversion should treat VALUE as being unsigned
rather than signed. Only meaningful for certain types. */
unsigned int unsigned_p : 1;
/* Unused; available for future use. */
unsigned int unused : 7;
/* The mode passed to the convert_*_operand function. It has a
type-dependent meaning. */
ENUM_BITFIELD (machine_mode) mode : 16;
/* The value of the operand. */
rtx value;
};
/* Initialize OP with the given fields. Initialise the other fields
to their default values. */
static inline void
create_expand_operand (struct expand_operand *op,
enum expand_operand_type type,
rtx value, enum machine_mode mode,
bool unsigned_p)
{
op->type = type;
op->unsigned_p = unsigned_p;
op->unused = 0;
op->mode = mode;
op->value = value;
}
/* Make OP describe an operand that must use rtx X, even if X is volatile. */
static inline void
create_fixed_operand (struct expand_operand *op, rtx x)
{
create_expand_operand (op, EXPAND_FIXED, x, VOIDmode, false);
}
/* Make OP describe an output operand that must have mode MODE.
X, if nonnull, is a suggestion for where the output should be stored.
It is OK for VALUE to be inconsistent with MODE, although it will just
be ignored in that case. */
static inline void
create_output_operand (struct expand_operand *op, rtx x,
enum machine_mode mode)
{
create_expand_operand (op, EXPAND_OUTPUT, x, mode, false);
}
/* Make OP describe an input operand that must have mode MODE and
value VALUE; MODE cannot be VOIDmode. The backend may request that
VALUE be copied into a different kind of rtx before being passed
as an operand. */
static inline void
create_input_operand (struct expand_operand *op, rtx value,
enum machine_mode mode)
{
create_expand_operand (op, EXPAND_INPUT, value, mode, false);
}
/* Like create_input_operand, except that VALUE must first be converted
to mode MODE. UNSIGNED_P says whether VALUE is unsigned. */
static inline void
create_convert_operand_to (struct expand_operand *op, rtx value,
enum machine_mode mode, bool unsigned_p)
{
create_expand_operand (op, EXPAND_CONVERT_TO, value, mode, unsigned_p);
}
/* Make OP describe an input operand that should have the same value
as VALUE, after any mode conversion that the backend might request.
If VALUE is a CONST_INT, it should be treated as having mode MODE.
UNSIGNED_P says whether VALUE is unsigned. */
static inline void
create_convert_operand_from (struct expand_operand *op, rtx value,
enum machine_mode mode, bool unsigned_p)
{
create_expand_operand (op, EXPAND_CONVERT_FROM, value, mode, unsigned_p);
}
extern void create_convert_operand_from_type (struct expand_operand *op,
rtx value, tree type);
/* Make OP describe an input Pmode address operand. VALUE is the value
of the address, but it may need to be converted to Pmode first. */
static inline void
create_address_operand (struct expand_operand *op, rtx value)
{
create_expand_operand (op, EXPAND_ADDRESS, value, Pmode, false);
}
/* Make OP describe an input operand that has value INTVAL and that has
no inherent mode. This function should only be used for operands that
are always expand-time constants. The backend may request that INTVAL
be copied into a different kind of rtx, but it must specify the mode
of that rtx if so. */
static inline void
create_integer_operand (struct expand_operand *op, HOST_WIDE_INT intval)
{
create_expand_operand (op, EXPAND_INTEGER, GEN_INT (intval), VOIDmode, false);
}
extern bool valid_multiword_target_p (rtx);
extern bool maybe_legitimize_operands (enum insn_code icode,
unsigned int opno, unsigned int nops,
struct expand_operand *ops);
extern rtx maybe_gen_insn (enum insn_code icode, unsigned int nops,
struct expand_operand *ops);
extern bool maybe_expand_insn (enum insn_code icode, unsigned int nops,
struct expand_operand *ops);
extern bool maybe_expand_jump_insn (enum insn_code icode, unsigned int nops,
struct expand_operand *ops);
extern void expand_insn (enum insn_code icode, unsigned int nops,
struct expand_operand *ops);
extern void expand_jump_insn (enum insn_code icode, unsigned int nops,
struct expand_operand *ops);
extern rtx prepare_operand (enum insn_code, rtx, int, enum machine_mode,
enum machine_mode, int);
extern void gen_int_libfunc (optab, const char *, char, enum machine_mode);
extern void gen_fp_libfunc (optab, const char *, char, enum machine_mode);
extern void gen_fixed_libfunc (optab, const char *, char, enum machine_mode);
extern void gen_signed_fixed_libfunc (optab, const char *, char,
enum machine_mode);
extern void gen_unsigned_fixed_libfunc (optab, const char *, char,
enum machine_mode);
extern void gen_int_fp_libfunc (optab, const char *, char, enum machine_mode);
extern void gen_intv_fp_libfunc (optab, const char *, char, enum machine_mode);
extern void gen_int_fp_fixed_libfunc (optab, const char *, char,
enum machine_mode);
extern void gen_int_fp_signed_fixed_libfunc (optab, const char *, char,
enum machine_mode);
extern void gen_int_fixed_libfunc (optab, const char *, char,
enum machine_mode);
extern void gen_int_signed_fixed_libfunc (optab, const char *, char,
enum machine_mode);
extern void gen_int_unsigned_fixed_libfunc (optab, const char *, char,
enum machine_mode);
extern void gen_interclass_conv_libfunc (convert_optab, const char *,
enum machine_mode, enum machine_mode);
extern void gen_int_to_fp_conv_libfunc (convert_optab, const char *,
enum machine_mode, enum machine_mode);
extern void gen_ufloat_conv_libfunc (convert_optab, const char *,
enum machine_mode, enum machine_mode);
extern void gen_int_to_fp_nondecimal_conv_libfunc (convert_optab,
const char *,
enum machine_mode,
enum machine_mode);
extern void gen_fp_to_int_conv_libfunc (convert_optab, const char *,
enum machine_mode, enum machine_mode);
extern void gen_intraclass_conv_libfunc (convert_optab, const char *,
enum machine_mode, enum machine_mode);
extern void gen_trunc_conv_libfunc (convert_optab, const char *,
enum machine_mode, enum machine_mode);
extern void gen_extend_conv_libfunc (convert_optab, const char *,
enum machine_mode, enum machine_mode);
extern void gen_fract_conv_libfunc (convert_optab, const char *,
enum machine_mode, enum machine_mode);
extern void gen_fractuns_conv_libfunc (convert_optab, const char *,
enum machine_mode, enum machine_mode);
extern void gen_satfract_conv_libfunc (convert_optab, const char *,
enum machine_mode, enum machine_mode);
extern void gen_satfractuns_conv_libfunc (convert_optab, const char *,
enum machine_mode,
enum machine_mode);
extern void init_tree_optimization_optabs (tree);
#endif /* GCC_OPTABS_H */
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