RISC-V: Add RISC-V into vect_cmdline_needed
[official-gcc.git] / gcc / recog.h
blobc6ef619c5dd73b309b958a6a69c64b7a8c058780
1 /* Declarations for interface to insn recognizer and insn-output.cc.
2 Copyright (C) 1987-2023 Free Software Foundation, Inc.
4 This file is part of GCC.
6 GCC is free software; you can redistribute it and/or modify it under
7 the terms of the GNU General Public License as published by the Free
8 Software Foundation; either version 3, or (at your option) any later
9 version.
11 GCC is distributed in the hope that it will be useful, but WITHOUT ANY
12 WARRANTY; without even the implied warranty of MERCHANTABILITY or
13 FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
14 for more details.
16 You should have received a copy of the GNU General Public License
17 along with GCC; see the file COPYING3. If not see
18 <http://www.gnu.org/licenses/>. */
20 #ifndef GCC_RECOG_H
21 #define GCC_RECOG_H
23 /* For enum tree_code ERROR_MARK. */
24 #include "tree.h"
26 /* Random number that should be large enough for all purposes. Also define
27 a type that has at least MAX_RECOG_ALTERNATIVES + 1 bits, with the extra
28 bit giving an invalid value that can be used to mean "uninitialized". */
29 #define MAX_RECOG_ALTERNATIVES 35
30 typedef uint64_t alternative_mask; /* Keep in sync with genattrtab.cc. */
32 /* A mask of all alternatives. */
33 #define ALL_ALTERNATIVES ((alternative_mask) -1)
35 /* A mask containing just alternative X. */
36 #define ALTERNATIVE_BIT(X) ((alternative_mask) 1 << (X))
38 /* Types of operands. */
39 enum op_type {
40 OP_IN,
41 OP_OUT,
42 OP_INOUT
45 struct operand_alternative
47 /* Pointer to the beginning of the constraint string for this alternative,
48 for easier access by alternative number. */
49 const char *constraint;
51 /* The register class valid for this alternative (possibly NO_REGS). */
52 ENUM_BITFIELD (reg_class) cl : 16;
54 /* "Badness" of this alternative, computed from number of '?' and '!'
55 characters in the constraint string. */
56 unsigned int reject : 16;
58 /* -1 if no matching constraint was found, or an operand number. */
59 int matches : 8;
60 /* The same information, but reversed: -1 if this operand is not
61 matched by any other, or the operand number of the operand that
62 matches this one. */
63 int matched : 8;
65 /* Nonzero if '&' was found in the constraint string. */
66 unsigned int earlyclobber : 1;
67 /* Nonzero if TARGET_MEM_CONSTRAINT was found in the constraint
68 string. */
69 unsigned int memory_ok : 1;
70 /* Nonzero if 'p' was found in the constraint string. */
71 unsigned int is_address : 1;
72 /* Nonzero if 'X' was found in the constraint string, or if the constraint
73 string for this alternative was empty. */
74 unsigned int anything_ok : 1;
76 unsigned int unused : 12;
79 /* Return the class for operand I of alternative ALT, taking matching
80 constraints into account. */
82 inline enum reg_class
83 alternative_class (const operand_alternative *alt, int i)
85 return alt[i].matches >= 0 ? alt[alt[i].matches].cl : alt[i].cl;
88 /* A class for substituting one rtx for another within an instruction,
89 or for recursively simplifying the instruction as-is. Derived classes
90 can record or filter certain decisions. */
92 class insn_propagation : public simplify_context
94 public:
95 /* Assignments for RESULT_FLAGS.
97 UNSIMPLIFIED is true if a substitution has been made inside an rtx
98 X and if neither X nor its parent expressions could be simplified.
100 FIRST_SPARE_RESULT is the first flag available for derived classes. */
101 static const uint16_t UNSIMPLIFIED = 1U << 0;
102 static const uint16_t FIRST_SPARE_RESULT = 1U << 1;
104 insn_propagation (rtx_insn *);
105 insn_propagation (rtx_insn *, rtx, rtx, bool = true);
106 bool apply_to_pattern (rtx *);
107 bool apply_to_rvalue (rtx *);
109 /* Return true if we should accept a substitution into the address of
110 memory expression MEM. Undoing changes OLD_NUM_CHANGES and up restores
111 MEM's original address. */
112 virtual bool check_mem (int /*old_num_changes*/,
113 rtx /*mem*/) { return true; }
115 /* Note that we've simplified OLD_RTX into NEW_RTX. When substituting,
116 this only happens if a substitution occured within OLD_RTX.
117 Undoing OLD_NUM_CHANGES and up will restore the old form of OLD_RTX.
118 OLD_RESULT_FLAGS is the value that RESULT_FLAGS had before processing
119 OLD_RTX. */
120 virtual void note_simplification (int /*old_num_changes*/,
121 uint16_t /*old_result_flags*/,
122 rtx /*old_rtx*/, rtx /*new_rtx*/) {}
124 private:
125 bool apply_to_mem_1 (rtx);
126 bool apply_to_lvalue_1 (rtx);
127 bool apply_to_rvalue_1 (rtx *);
128 bool apply_to_pattern_1 (rtx *);
130 public:
131 /* The instruction that we are simplifying or propagating into. */
132 rtx_insn *insn;
134 /* If FROM is nonnull, we're replacing FROM with TO, otherwise we're
135 just doing a recursive simplification. */
136 rtx from;
137 rtx to;
139 /* The number of times that we have replaced FROM with TO. */
140 unsigned int num_replacements;
142 /* A bitmask of flags that describe the result of the simplificiation;
143 see above for details. */
144 uint16_t result_flags : 16;
146 /* True if we should unshare TO when making the next substitution,
147 false if we can use TO itself. */
148 uint16_t should_unshare : 1;
150 /* True if we should call check_mem after substituting into a memory. */
151 uint16_t should_check_mems : 1;
153 /* True if we should call note_simplification after each simplification. */
154 uint16_t should_note_simplifications : 1;
156 /* For future expansion. */
157 uint16_t spare : 13;
159 /* Gives the reason that a substitution failed, for debug purposes. */
160 const char *failure_reason;
163 /* Try to replace FROM with TO in INSN. SHARED_P is true if TO is shared
164 with other instructions, false if INSN can use TO directly. */
166 inline insn_propagation::insn_propagation (rtx_insn *insn, rtx from, rtx to,
167 bool shared_p)
168 : insn (insn),
169 from (from),
170 to (to),
171 num_replacements (0),
172 result_flags (0),
173 should_unshare (shared_p),
174 should_check_mems (false),
175 should_note_simplifications (false),
176 spare (0),
177 failure_reason (nullptr)
181 /* Try to simplify INSN without performing a substitution. */
183 inline insn_propagation::insn_propagation (rtx_insn *insn)
184 : insn_propagation (insn, NULL_RTX, NULL_RTX)
188 extern void init_recog (void);
189 extern void init_recog_no_volatile (void);
190 extern bool check_asm_operands (rtx);
191 extern int asm_operand_ok (rtx, const char *, const char **);
192 extern bool validate_change (rtx, rtx *, rtx, bool);
193 extern bool validate_unshare_change (rtx, rtx *, rtx, bool);
194 extern bool validate_change_xveclen (rtx, rtx *, int, bool);
195 extern bool canonicalize_change_group (rtx_insn *insn, rtx x);
196 extern bool insn_invalid_p (rtx_insn *, bool);
197 extern bool verify_changes (int);
198 extern void confirm_change_group (void);
199 extern bool apply_change_group (void);
200 extern int num_validated_changes (void);
201 extern void cancel_changes (int);
202 extern void temporarily_undo_changes (int);
203 extern void redo_changes (int);
204 extern bool constrain_operands (int, alternative_mask);
205 extern bool constrain_operands_cached (rtx_insn *, int);
206 extern bool memory_address_addr_space_p (machine_mode, rtx, addr_space_t,
207 code_helper = ERROR_MARK);
208 #define memory_address_p(mode,addr) \
209 memory_address_addr_space_p ((mode), (addr), ADDR_SPACE_GENERIC)
210 extern bool strict_memory_address_addr_space_p (machine_mode, rtx, addr_space_t,
211 code_helper = ERROR_MARK);
212 #define strict_memory_address_p(mode,addr) \
213 strict_memory_address_addr_space_p ((mode), (addr), ADDR_SPACE_GENERIC)
214 extern bool validate_replace_rtx_subexp (rtx, rtx, rtx_insn *, rtx *);
215 extern bool validate_replace_rtx (rtx, rtx, rtx_insn *);
216 extern bool validate_replace_rtx_part (rtx, rtx, rtx *, rtx_insn *);
217 extern bool validate_replace_rtx_part_nosimplify (rtx, rtx, rtx *, rtx_insn *);
218 extern void validate_replace_rtx_group (rtx, rtx, rtx_insn *);
219 extern void validate_replace_src_group (rtx, rtx, rtx_insn *);
220 extern bool validate_simplify_insn (rtx_insn *insn);
221 extern int num_changes_pending (void);
222 extern bool reg_fits_class_p (const_rtx, reg_class_t, int, machine_mode);
223 extern bool valid_insn_p (rtx_insn *);
225 extern bool offsettable_memref_p (rtx);
226 extern bool offsettable_nonstrict_memref_p (rtx);
227 extern bool offsettable_address_addr_space_p (int, machine_mode, rtx,
228 addr_space_t);
229 #define offsettable_address_p(strict,mode,addr) \
230 offsettable_address_addr_space_p ((strict), (mode), (addr), \
231 ADDR_SPACE_GENERIC)
232 extern bool mode_dependent_address_p (rtx, addr_space_t);
234 extern int recog (rtx, rtx_insn *, int *);
235 #ifndef GENERATOR_FILE
236 inline int recog_memoized (rtx_insn *insn);
237 #endif
238 extern void add_clobbers (rtx, int);
239 extern bool added_clobbers_hard_reg_p (int);
240 extern void insn_extract (rtx_insn *);
241 extern void extract_insn (rtx_insn *);
242 extern void extract_constrain_insn (rtx_insn *insn);
243 extern void extract_constrain_insn_cached (rtx_insn *);
244 extern void extract_insn_cached (rtx_insn *);
245 extern void preprocess_constraints (int, int, const char **,
246 operand_alternative *, rtx **);
247 extern const operand_alternative *preprocess_insn_constraints (unsigned int);
248 extern void preprocess_constraints (rtx_insn *);
249 extern rtx_insn *peep2_next_insn (int);
250 extern bool peep2_regno_dead_p (int, int);
251 extern bool peep2_reg_dead_p (int, rtx);
252 #ifdef HARD_CONST
253 extern rtx peep2_find_free_register (int, int, const char *,
254 machine_mode, HARD_REG_SET *);
255 #endif
256 extern rtx_insn *peephole2_insns (rtx, rtx_insn *, int *);
258 extern bool store_data_bypass_p (rtx_insn *, rtx_insn *);
259 extern bool if_test_bypass_p (rtx_insn *, rtx_insn *);
261 extern void copy_frame_info_to_split_insn (rtx_insn *, rtx_insn *);
263 #ifndef GENERATOR_FILE
264 /* Try recognizing the instruction INSN,
265 and return the code number that results.
266 Remember the code so that repeated calls do not
267 need to spend the time for actual rerecognition.
269 This function is the normal interface to instruction recognition.
270 The automatically-generated function `recog' is normally called
271 through this one. */
273 inline int
274 recog_memoized (rtx_insn *insn)
276 if (INSN_CODE (insn) < 0)
277 INSN_CODE (insn) = recog (PATTERN (insn), insn, 0);
278 return INSN_CODE (insn);
280 #endif
282 /* Skip chars until the next ',' or the end of the string. This is
283 useful to skip alternatives in a constraint string. */
284 inline const char *
285 skip_alternative (const char *p)
287 const char *r = p;
288 while (*r != '\0' && *r != ',')
289 r++;
290 if (*r == ',')
291 r++;
292 return r;
295 /* Nonzero means volatile operands are recognized. */
296 extern int volatile_ok;
298 /* RAII class for temporarily setting volatile_ok. */
300 class temporary_volatile_ok
302 public:
303 temporary_volatile_ok (int value) : save_volatile_ok (volatile_ok)
305 volatile_ok = value;
308 ~temporary_volatile_ok () { volatile_ok = save_volatile_ok; }
310 private:
311 temporary_volatile_ok (const temporary_volatile_ok &);
312 int save_volatile_ok;
315 /* Set by constrain_operands to the number of the alternative that
316 matched. */
317 extern int which_alternative;
319 /* The following vectors hold the results from insn_extract. */
321 struct recog_data_d
323 /* It is very tempting to make the 5 operand related arrays into a
324 structure and index on that. However, to be source compatible
325 with all of the existing md file insn constraints and output
326 templates, we need `operand' as a flat array. Without that
327 member, making an array for the rest seems pointless. */
329 /* Gives value of operand N. */
330 rtx operand[MAX_RECOG_OPERANDS];
332 /* Gives location where operand N was found. */
333 rtx *operand_loc[MAX_RECOG_OPERANDS];
335 /* Gives the constraint string for operand N. */
336 const char *constraints[MAX_RECOG_OPERANDS];
338 /* Nonzero if operand N is a match_operator or a match_parallel. */
339 char is_operator[MAX_RECOG_OPERANDS];
341 /* Gives the mode of operand N. */
342 machine_mode operand_mode[MAX_RECOG_OPERANDS];
344 /* Gives the type (in, out, inout) for operand N. */
345 enum op_type operand_type[MAX_RECOG_OPERANDS];
347 /* Gives location where the Nth duplicate-appearance of an operand
348 was found. This is something that matched MATCH_DUP. */
349 rtx *dup_loc[MAX_DUP_OPERANDS];
351 /* Gives the operand number that was duplicated in the Nth
352 duplicate-appearance of an operand. */
353 char dup_num[MAX_DUP_OPERANDS];
355 /* ??? Note that these are `char' instead of `unsigned char' to (try to)
356 avoid certain lossage from K&R C, wherein `unsigned char' default
357 promotes to `unsigned int' instead of `int' as in ISO C. As of 1999,
358 the most common places to bootstrap from K&R C are SunOS and HPUX,
359 both of which have signed characters by default. The only other
360 supported natives that have both K&R C and unsigned characters are
361 ROMP and Irix 3, and neither have been seen for a while, but do
362 continue to consider unsignedness when performing arithmetic inside
363 a comparison. */
365 /* The number of operands of the insn. */
366 char n_operands;
368 /* The number of MATCH_DUPs in the insn. */
369 char n_dups;
371 /* The number of alternatives in the constraints for the insn. */
372 char n_alternatives;
374 /* True if insn is ASM_OPERANDS. */
375 bool is_asm;
377 /* In case we are caching, hold insn data was generated for. */
378 rtx_insn *insn;
381 extern struct recog_data_d recog_data;
383 extern const operand_alternative *recog_op_alt;
385 /* Return a pointer to an array in which index OP describes the constraints
386 on operand OP of the current instruction alternative (which_alternative).
387 Only valid after calling preprocess_constraints and constrain_operands. */
389 inline const operand_alternative *
390 which_op_alt ()
392 gcc_checking_assert (IN_RANGE (which_alternative, 0,
393 recog_data.n_alternatives - 1));
394 return &recog_op_alt[which_alternative * recog_data.n_operands];
397 /* A table defined in insn-output.cc that give information about
398 each insn-code value. */
400 typedef bool (*insn_operand_predicate_fn) (rtx, machine_mode);
401 typedef const char * (*insn_output_fn) (rtx *, rtx_insn *);
403 struct insn_gen_fn
405 typedef void (*stored_funcptr) (void);
407 template<typename ...Ts>
408 rtx_insn *operator() (Ts... args) const
410 typedef rtx_insn *(*funcptr) (decltype ((void) args, NULL_RTX)...);
411 return ((funcptr) func) (args...);
414 // This is for compatibility of code that invokes functions like
415 // (*funcptr) (arg)
416 insn_gen_fn operator * (void) const { return *this; }
418 // The wrapped function pointer must be public and there must not be any
419 // constructors. Otherwise the insn_data_d struct initializers generated
420 // by genoutput.cc will result in static initializer functions, which defeats
421 // the purpose of the generated insn_data_d array.
422 stored_funcptr func;
425 struct insn_operand_data
427 const insn_operand_predicate_fn predicate;
429 const char *const constraint;
431 ENUM_BITFIELD(machine_mode) const mode : 16;
433 const char strict_low;
435 const char is_operator;
437 const char eliminable;
439 const char allows_mem;
442 /* Legal values for insn_data.output_format. Indicate what type of data
443 is stored in insn_data.output. */
444 #define INSN_OUTPUT_FORMAT_NONE 0 /* abort */
445 #define INSN_OUTPUT_FORMAT_SINGLE 1 /* const char * */
446 #define INSN_OUTPUT_FORMAT_MULTI 2 /* const char * const * */
447 #define INSN_OUTPUT_FORMAT_FUNCTION 3 /* const char * (*)(...) */
449 struct insn_data_d
451 const char *const name;
452 #if HAVE_DESIGNATED_UNION_INITIALIZERS
453 union {
454 const char *single;
455 const char *const *multi;
456 insn_output_fn function;
457 } output;
458 #else
459 struct {
460 const char *single;
461 const char *const *multi;
462 insn_output_fn function;
463 } output;
464 #endif
465 const insn_gen_fn genfun;
466 const struct insn_operand_data *const operand;
468 const char n_generator_args;
469 const char n_operands;
470 const char n_dups;
471 const char n_alternatives;
472 const char output_format;
475 extern const struct insn_data_d insn_data[];
476 extern int peep2_current_count;
478 #ifndef GENERATOR_FILE
479 #include "insn-codes.h"
481 /* An enum of boolean attributes that may only depend on the current
482 subtarget, not on things like operands or compiler phase. */
483 enum bool_attr {
484 BA_ENABLED,
485 BA_PREFERRED_FOR_SPEED,
486 BA_PREFERRED_FOR_SIZE,
487 BA_LAST = BA_PREFERRED_FOR_SIZE
490 /* Target-dependent globals. */
491 struct target_recog {
492 bool x_initialized;
493 alternative_mask x_bool_attr_masks[NUM_INSN_CODES][BA_LAST + 1];
494 operand_alternative *x_op_alt[NUM_INSN_CODES];
497 extern struct target_recog default_target_recog;
498 #if SWITCHABLE_TARGET
499 extern struct target_recog *this_target_recog;
500 #else
501 #define this_target_recog (&default_target_recog)
502 #endif
504 alternative_mask get_enabled_alternatives (rtx_insn *);
505 alternative_mask get_preferred_alternatives (rtx_insn *);
506 alternative_mask get_preferred_alternatives (rtx_insn *, basic_block);
507 bool check_bool_attrs (rtx_insn *);
509 void recog_init ();
511 /* This RAII class can help to undo tentative insn changes on failure.
512 When an object of the class goes out of scope, it undoes all group
513 changes that have been made via the validate_change machinery and
514 not yet confirmed via confirm_change_group.
516 For example:
518 insn_change_watermark watermark;
519 validate_change (..., true); // A
521 if (test)
522 // Undoes change A.
523 return false;
525 validate_change (..., true); // B
527 if (test)
528 // Undoes changes A and B.
529 return false;
531 confirm_change_group ();
533 Code that wants to avoid this behavior can use keep ():
535 insn_change_watermark watermark;
536 validate_change (..., true); // A
538 if (test)
539 // Undoes change A.
540 return false;
542 watermark.keep ();
543 validate_change (..., true); // B
545 if (test)
546 // Undoes change B, but not A.
547 return false;
549 confirm_change_group (); */
550 class insn_change_watermark
552 public:
553 insn_change_watermark () : m_old_num_changes (num_validated_changes ()) {}
554 ~insn_change_watermark ();
555 void keep () { m_old_num_changes = num_validated_changes (); }
557 private:
558 int m_old_num_changes;
561 inline insn_change_watermark::~insn_change_watermark ()
563 if (m_old_num_changes < num_validated_changes ())
564 cancel_changes (m_old_num_changes);
567 #endif
569 #endif /* GCC_RECOG_H */