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09cae750 | 1 | /* Definition of RISC-V target for GNU compiler. |
a945c346 | 2 | Copyright (C) 2011-2024 Free Software Foundation, Inc. |
09cae750 PD |
3 | Contributed by Andrew Waterman (andrew@sifive.com). |
4 | Based on MIPS target for GNU compiler. | |
5 | ||
6 | This file is part of GCC. | |
7 | ||
8 | GCC is free software; you can redistribute it and/or modify | |
9 | it under the terms of the GNU General Public License as published by | |
10 | the Free Software Foundation; either version 3, or (at your option) | |
11 | any later version. | |
12 | ||
13 | GCC is distributed in the hope that it will be useful, | |
14 | but WITHOUT ANY WARRANTY; without even the implied warranty of | |
15 | MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the | |
16 | GNU General Public License for more details. | |
17 | ||
18 | You should have received a copy of the GNU General Public License | |
19 | along with GCC; see the file COPYING3. If not see | |
20 | <http://www.gnu.org/licenses/>. */ | |
21 | ||
22 | #ifndef GCC_RISCV_PROTOS_H | |
23 | #define GCC_RISCV_PROTOS_H | |
24 | ||
942ab49b PN |
25 | #include "memmodel.h" |
26 | ||
09cae750 PD |
27 | /* Symbol types we understand. The order of this list must match that of |
28 | the unspec enum in riscv.md, subsequent to UNSPEC_ADDRESS_FIRST. */ | |
29 | enum riscv_symbol_type { | |
30 | SYMBOL_ABSOLUTE, | |
d07d0e99 | 31 | SYMBOL_FORCE_TO_MEM, |
09cae750 PD |
32 | SYMBOL_PCREL, |
33 | SYMBOL_GOT_DISP, | |
34 | SYMBOL_TLS, | |
35 | SYMBOL_TLS_LE, | |
36 | SYMBOL_TLS_IE, | |
37 | SYMBOL_TLS_GD | |
38 | }; | |
39 | #define NUM_SYMBOL_TYPES (SYMBOL_TLS_GD + 1) | |
40 | ||
96ad6ab2 CM |
41 | /* Classifies an address. |
42 | ||
43 | ADDRESS_REG | |
44 | A natural register + offset address. The register satisfies | |
45 | riscv_valid_base_register_p and the offset is a const_arith_operand. | |
46 | ||
2d65622f CM |
47 | ADDRESS_REG_REG |
48 | A base register indexed by (optionally scaled) register. | |
49 | ||
50 | ADDRESS_REG_UREG | |
51 | A base register indexed by (optionally scaled) zero-extended register. | |
52 | ||
53 | ADDRESS_REG_WB | |
54 | A base register indexed by immediate offset with writeback. | |
55 | ||
96ad6ab2 CM |
56 | ADDRESS_LO_SUM |
57 | A LO_SUM rtx. The first operand is a valid base register and | |
58 | the second operand is a symbolic address. | |
59 | ||
60 | ADDRESS_CONST_INT | |
61 | A signed 16-bit constant address. | |
62 | ||
63 | ADDRESS_SYMBOLIC: | |
64 | A constant symbolic address. */ | |
65 | enum riscv_address_type { | |
66 | ADDRESS_REG, | |
2d65622f CM |
67 | ADDRESS_REG_REG, |
68 | ADDRESS_REG_UREG, | |
69 | ADDRESS_REG_WB, | |
96ad6ab2 CM |
70 | ADDRESS_LO_SUM, |
71 | ADDRESS_CONST_INT, | |
72 | ADDRESS_SYMBOLIC | |
73 | }; | |
74 | ||
75 | /* Information about an address described by riscv_address_type. | |
76 | ||
77 | ADDRESS_CONST_INT | |
78 | No fields are used. | |
79 | ||
80 | ADDRESS_REG | |
81 | REG is the base register and OFFSET is the constant offset. | |
82 | ||
2d65622f CM |
83 | ADDRESS_REG_REG and ADDRESS_REG_UREG |
84 | REG is the base register and OFFSET is the index register. | |
85 | ||
86 | ADDRESS_REG_WB | |
87 | REG is the base register, OFFSET is the constant offset, and | |
88 | shift is the shift amount for the offset. | |
89 | ||
96ad6ab2 CM |
90 | ADDRESS_LO_SUM |
91 | REG and OFFSET are the operands to the LO_SUM and SYMBOL_TYPE | |
92 | is the type of symbol it references. | |
93 | ||
94 | ADDRESS_SYMBOLIC | |
95 | SYMBOL_TYPE is the type of symbol that the address references. */ | |
96 | struct riscv_address_info { | |
97 | enum riscv_address_type type; | |
98 | rtx reg; | |
99 | rtx offset; | |
100 | enum riscv_symbol_type symbol_type; | |
2d65622f | 101 | int shift; |
96ad6ab2 CM |
102 | }; |
103 | ||
e53b6e56 | 104 | /* Routines implemented in riscv.cc. */ |
9a55cc62 | 105 | extern const char *riscv_asm_output_opcode (FILE *asm_out_file, const char *p); |
09cae750 PD |
106 | extern enum riscv_symbol_type riscv_classify_symbolic_expression (rtx); |
107 | extern bool riscv_symbolic_constant_p (rtx, enum riscv_symbol_type *); | |
30699b99 | 108 | extern int riscv_float_const_rtx_index_for_fli (rtx); |
b8506a8a | 109 | extern int riscv_regno_mode_ok_for_base_p (int, machine_mode, bool); |
2d65622f | 110 | extern bool riscv_valid_base_register_p (rtx, machine_mode, bool); |
42360427 CM |
111 | extern enum reg_class riscv_index_reg_class (); |
112 | extern int riscv_regno_ok_for_index_p (int); | |
b8506a8a | 113 | extern int riscv_address_insns (rtx, machine_mode, bool); |
09cae750 PD |
114 | extern int riscv_const_insns (rtx); |
115 | extern int riscv_split_const_insns (rtx); | |
116 | extern int riscv_load_store_insns (rtx, rtx_insn *); | |
117 | extern rtx riscv_emit_move (rtx, rtx); | |
05302544 | 118 | extern bool riscv_split_symbol (rtx, rtx, machine_mode, rtx *); |
09cae750 PD |
119 | extern bool riscv_split_symbol_type (enum riscv_symbol_type); |
120 | extern rtx riscv_unspec_address (rtx, enum riscv_symbol_type); | |
05302544 | 121 | extern void riscv_move_integer (rtx, rtx, HOST_WIDE_INT, machine_mode); |
b8506a8a | 122 | extern bool riscv_legitimize_move (machine_mode, rtx, rtx); |
09cae750 PD |
123 | extern rtx riscv_subword (rtx, bool); |
124 | extern bool riscv_split_64bit_move_p (rtx, rtx); | |
125 | extern void riscv_split_doubleword_move (rtx, rtx); | |
126 | extern const char *riscv_output_move (rtx, rtx); | |
8cad5b14 | 127 | extern const char *riscv_output_return (); |
4abcc500 | 128 | extern void riscv_declare_function_name (FILE *, const char *, tree); |
5f110561 | 129 | extern void riscv_declare_function_size (FILE *, const char *, tree); |
4abcc500 LD |
130 | extern void riscv_asm_output_alias (FILE *, const tree, const tree); |
131 | extern void riscv_asm_output_external (FILE *, const tree, const char *); | |
3d1d3132 FG |
132 | extern bool |
133 | riscv_zcmp_valid_stack_adj_bytes_p (HOST_WIDE_INT, int); | |
0a5170b5 | 134 | extern void riscv_legitimize_poly_move (machine_mode, rtx, rtx, rtx); |
02fcaf41 | 135 | |
09cae750 | 136 | #ifdef RTX_CODE |
8ae83274 | 137 | extern void riscv_expand_int_scc (rtx, enum rtx_code, rtx, rtx, bool *invert_ptr = 0); |
9a1a2e98 MR |
138 | extern void riscv_expand_float_scc (rtx, enum rtx_code, rtx, rtx, |
139 | bool *invert_ptr = nullptr); | |
09cae750 | 140 | extern void riscv_expand_conditional_branch (rtx, enum rtx_code, rtx, rtx); |
4daeedcb | 141 | extern rtx riscv_emit_unary (enum rtx_code code, rtx dest, rtx x); |
99bfdb07 | 142 | extern rtx riscv_emit_binary (enum rtx_code code, rtx dest, rtx x, rtx y); |
09cae750 | 143 | #endif |
8e7ffe12 | 144 | extern bool riscv_expand_conditional_move (rtx, rtx, rtx, rtx); |
09cae750 PD |
145 | extern rtx riscv_legitimize_call_address (rtx); |
146 | extern void riscv_set_return_address (rtx, rtx); | |
09cae750 | 147 | extern rtx riscv_return_addr (int, rtx); |
3496ca4e | 148 | extern poly_int64 riscv_initial_elimination_offset (int, int); |
09cae750 | 149 | extern void riscv_expand_prologue (void); |
fd1e52dc | 150 | extern void riscv_expand_epilogue (int); |
d0ebdd9f | 151 | extern bool riscv_epilogue_uses (unsigned int); |
09cae750 | 152 | extern bool riscv_can_use_return_insn (void); |
6ed01e6b | 153 | extern rtx riscv_function_value (const_tree, const_tree, enum machine_mode); |
88108b27 | 154 | extern bool riscv_store_data_bypass_p (rtx_insn *, rtx_insn *); |
d0e0c130 KC |
155 | extern rtx riscv_gen_gpr_save_insn (struct riscv_frame_info *); |
156 | extern bool riscv_gpr_save_operation_p (rtx); | |
b4feb49c | 157 | extern void riscv_reinit (void); |
f556cd8b | 158 | extern poly_uint64 riscv_regmode_natural_size (machine_mode); |
7e924ba3 | 159 | extern bool riscv_v_ext_vector_mode_p (machine_mode); |
12847288 | 160 | extern bool riscv_v_ext_tuple_mode_p (machine_mode); |
33b153ff | 161 | extern bool riscv_v_ext_vls_mode_p (machine_mode); |
6ae5565e | 162 | extern int riscv_get_v_regno_alignment (machine_mode); |
787ac959 | 163 | extern bool riscv_shamt_matches_mask_p (int, HOST_WIDE_INT); |
f797260a PN |
164 | extern void riscv_subword_address (rtx, rtx *, rtx *, rtx *, rtx *); |
165 | extern void riscv_lshift_subword (machine_mode, rtx, rtx, rtx *); | |
942ab49b | 166 | extern enum memmodel riscv_union_memmodels (enum memmodel, enum memmodel); |
09cae750 | 167 | |
e53b6e56 | 168 | /* Routines implemented in riscv-c.cc. */ |
09cae750 | 169 | void riscv_cpu_cpp_builtins (cpp_reader *); |
7d935cdd | 170 | void riscv_register_pragmas (void); |
09cae750 | 171 | |
e53b6e56 | 172 | /* Routines implemented in riscv-builtins.cc. */ |
09cae750 | 173 | extern void riscv_atomic_assign_expand_fenv (tree *, tree *, tree *); |
60bd33bc | 174 | extern bool riscv_gimple_fold_builtin (gimple_stmt_iterator *); |
b8506a8a | 175 | extern rtx riscv_expand_builtin (tree, rtx, rtx, machine_mode, int); |
09cae750 PD |
176 | extern tree riscv_builtin_decl (unsigned int, bool); |
177 | extern void riscv_init_builtins (void); | |
178 | ||
e53b6e56 | 179 | /* Routines implemented in riscv-common.cc. */ |
f908b69c | 180 | extern std::string riscv_arch_str (bool version_p = true); |
b4feb49c | 181 | extern void riscv_parse_arch_string (const char *, struct gcc_options *, location_t); |
8e966210 | 182 | |
e0a5b313 KC |
183 | extern bool riscv_hard_regno_rename_ok (unsigned, unsigned); |
184 | ||
de6320a8 | 185 | rtl_opt_pass * make_pass_shorten_memrefs (gcc::context *ctxt); |
e37bc2cf | 186 | rtl_opt_pass * make_pass_avlprop (gcc::context *ctxt); |
9243c3d1 | 187 | rtl_opt_pass * make_pass_vsetvl (gcc::context *ctxt); |
de6320a8 | 188 | |
32874560 CM |
189 | /* Routines implemented in riscv-string.c. */ |
190 | extern bool riscv_expand_block_move (rtx, rtx, rtx); | |
191 | ||
72eb8335 KC |
192 | /* Information about one CPU we know about. */ |
193 | struct riscv_cpu_info { | |
194 | /* This CPU's canonical name. */ | |
195 | const char *name; | |
196 | ||
197 | /* Default arch for this CPU, could be NULL if no default arch. */ | |
198 | const char *arch; | |
199 | ||
200 | /* Which automaton to use for tuning. */ | |
201 | const char *tune; | |
202 | }; | |
203 | ||
204 | extern const riscv_cpu_info *riscv_find_cpu (const char *); | |
205 | ||
5e0f67b8 JZ |
206 | /* Common vector costs in any kind of vectorization (e.g VLA and VLS). */ |
207 | struct common_vector_cost | |
208 | { | |
209 | /* Cost of any integer vector operation, excluding the ones handled | |
210 | specially below. */ | |
211 | const int int_stmt_cost; | |
212 | ||
213 | /* Cost of any fp vector operation, excluding the ones handled | |
214 | specially below. */ | |
215 | const int fp_stmt_cost; | |
216 | ||
217 | /* Gather/scatter vectorization cost. */ | |
218 | const int gather_load_cost; | |
219 | const int scatter_store_cost; | |
220 | ||
221 | /* Cost of a vector-to-scalar operation. */ | |
222 | const int vec_to_scalar_cost; | |
223 | ||
224 | /* Cost of a scalar-to-vector operation. */ | |
225 | const int scalar_to_vec_cost; | |
226 | ||
227 | /* Cost of a permute operation. */ | |
228 | const int permute_cost; | |
229 | ||
230 | /* Cost of an aligned vector load. */ | |
231 | const int align_load_cost; | |
232 | ||
233 | /* Cost of an aligned vector store. */ | |
234 | const int align_store_cost; | |
235 | ||
236 | /* Cost of an unaligned vector load. */ | |
237 | const int unalign_load_cost; | |
238 | ||
239 | /* Cost of an unaligned vector store. */ | |
240 | const int unalign_store_cost; | |
241 | }; | |
242 | ||
243 | /* scalable vectorization (VLA) specific cost. */ | |
244 | struct scalable_vector_cost : common_vector_cost | |
245 | { | |
246 | CONSTEXPR scalable_vector_cost (const common_vector_cost &base) | |
247 | : common_vector_cost (base) | |
248 | {} | |
249 | ||
250 | /* TODO: We will need more other kinds of vector cost for VLA. | |
251 | E.g. fold_left reduction cost, lanes load/store cost, ..., etc. */ | |
252 | }; | |
253 | ||
0acb6367 JZ |
254 | /* Additional costs for register copies. Cost is for one register. */ |
255 | struct regmove_vector_cost | |
256 | { | |
257 | const int GR2VR; | |
258 | const int FR2VR; | |
7be87b7d JZ |
259 | const int VR2GR; |
260 | const int VR2FR; | |
0acb6367 JZ |
261 | }; |
262 | ||
5e0f67b8 JZ |
263 | /* Cost for vector insn classes. */ |
264 | struct cpu_vector_cost | |
265 | { | |
266 | /* Cost of any integer scalar operation, excluding load and store. */ | |
267 | const int scalar_int_stmt_cost; | |
268 | ||
269 | /* Cost of any fp scalar operation, excluding load and store. */ | |
270 | const int scalar_fp_stmt_cost; | |
271 | ||
272 | /* Cost of a scalar load. */ | |
273 | const int scalar_load_cost; | |
274 | ||
275 | /* Cost of a scalar store. */ | |
276 | const int scalar_store_cost; | |
277 | ||
278 | /* Cost of a taken branch. */ | |
279 | const int cond_taken_branch_cost; | |
280 | ||
281 | /* Cost of a not-taken branch. */ | |
282 | const int cond_not_taken_branch_cost; | |
283 | ||
284 | /* Cost of an VLS modes operations. */ | |
285 | const common_vector_cost *vls; | |
286 | ||
287 | /* Cost of an VLA modes operations. */ | |
288 | const scalable_vector_cost *vla; | |
0acb6367 JZ |
289 | |
290 | /* Cost of vector register move operations. */ | |
291 | const regmove_vector_cost *regmove; | |
5e0f67b8 JZ |
292 | }; |
293 | ||
b4feb49c | 294 | /* Routines implemented in riscv-selftests.cc. */ |
295 | #if CHECKING_P | |
296 | namespace selftest { | |
3b6d44f4 | 297 | void riscv_run_selftests (void); |
b4feb49c | 298 | } // namespace selftest |
299 | #endif | |
300 | ||
7d935cdd | 301 | namespace riscv_vector { |
01260a82 | 302 | #define RVV_VLMAX regno_reg_rtx[X0_REGNUM] |
272e119d | 303 | #define RVV_VUNDEF(MODE) \ |
01260a82 | 304 | gen_rtx_UNSPEC (MODE, gen_rtvec (1, RVV_VLMAX), UNSPEC_VUNDEF) |
b3176bdc | 305 | |
79ab19bc LD |
306 | /* These flags describe how to pass the operands to a rvv insn pattern. |
307 | e.g.: | |
308 | If a insn has this flags: | |
309 | HAS_DEST_P | HAS_MASK_P | USE_VUNDEF_MERGE_P | |
310 | | TU_POLICY_P | BINARY_OP_P | FRM_DYN_P | |
311 | that means: | |
312 | operands[0] is the dest operand | |
313 | operands[1] is the mask operand | |
314 | operands[2] is the merge operand | |
315 | operands[3] and operands[4] is the two operand to do the operation. | |
316 | operands[5] is the vl operand | |
317 | operands[6] is the tail policy operand | |
318 | operands[7] is the mask policy operands | |
319 | operands[8] is the rounding mode operands | |
320 | ||
321 | Then you can call `emit_vlmax_insn (flags, icode, ops)` to emit a insn. | |
322 | and ops[0] is the dest operand (operands[0]), ops[1] is the mask | |
323 | operand (operands[1]), ops[2] and ops[3] is the two | |
324 | operands (operands[3], operands[4]) to do the operation. Other operands | |
325 | will be created by emit_vlmax_insn according to the flags information. | |
326 | */ | |
327 | enum insn_flags : unsigned int | |
51fd69ec | 328 | { |
79ab19bc LD |
329 | /* flags for dest, mask, merge operands. */ |
330 | /* Means INSN has dest operand. False for STORE insn. */ | |
331 | HAS_DEST_P = 1 << 0, | |
332 | /* Means INSN has mask operand. */ | |
333 | HAS_MASK_P = 1 << 1, | |
334 | /* Means using ALL_TRUES for mask operand. */ | |
335 | USE_ALL_TRUES_MASK_P = 1 << 2, | |
336 | /* Means using ONE_TRUE for mask operand. */ | |
337 | USE_ONE_TRUE_MASK_P = 1 << 3, | |
338 | /* Means INSN has merge operand. */ | |
339 | HAS_MERGE_P = 1 << 4, | |
340 | /* Means using VUNDEF for merge operand. */ | |
341 | USE_VUNDEF_MERGE_P = 1 << 5, | |
342 | ||
343 | /* flags for tail policy and mask plicy operands. */ | |
344 | /* Means the tail policy is TAIL_UNDISTURBED. */ | |
345 | TU_POLICY_P = 1 << 6, | |
346 | /* Means the tail policy is default (return by get_prefer_tail_policy). */ | |
347 | TDEFAULT_POLICY_P = 1 << 7, | |
348 | /* Means the mask policy is MASK_UNDISTURBED. */ | |
349 | MU_POLICY_P = 1 << 8, | |
350 | /* Means the mask policy is default (return by get_prefer_mask_policy). */ | |
351 | MDEFAULT_POLICY_P = 1 << 9, | |
352 | ||
353 | /* flags for the number operands to do the operation. */ | |
354 | /* Means INSN need zero operand to do the operation. e.g. vid.v */ | |
355 | NULLARY_OP_P = 1 << 10, | |
356 | /* Means INSN need one operand to do the operation. */ | |
357 | UNARY_OP_P = 1 << 11, | |
358 | /* Means INSN need two operands to do the operation. */ | |
359 | BINARY_OP_P = 1 << 12, | |
360 | /* Means INSN need two operands to do the operation. */ | |
361 | TERNARY_OP_P = 1 << 13, | |
362 | ||
dd6e5d29 LD |
363 | /* flags for get vtype mode from the index number. default from dest operand. */ |
364 | VTYPE_MODE_FROM_OP1_P = 1 << 14, | |
79ab19bc LD |
365 | |
366 | /* flags for the floating-point rounding mode. */ | |
367 | /* Means INSN has FRM operand and the value is FRM_DYN. */ | |
368 | FRM_DYN_P = 1 << 15, | |
8bf5636e PL |
369 | |
370 | /* Means INSN has FRM operand and the value is FRM_RUP. */ | |
371 | FRM_RUP_P = 1 << 16, | |
83441e75 PL |
372 | |
373 | /* Means INSN has FRM operand and the value is FRM_RDN. */ | |
374 | FRM_RDN_P = 1 << 17, | |
d324984f PL |
375 | |
376 | /* Means INSN has FRM operand and the value is FRM_RMM. */ | |
377 | FRM_RMM_P = 1 << 18, | |
fcbbf158 PL |
378 | |
379 | /* Means INSN has FRM operand and the value is FRM_RNE. */ | |
380 | FRM_RNE_P = 1 << 19, | |
0141ee79 JZ |
381 | |
382 | /* Means INSN has VXRM operand and the value is VXRM_RNU. */ | |
383 | VXRM_RNU_P = 1 << 20, | |
384 | ||
385 | /* Means INSN has VXRM operand and the value is VXRM_RDN. */ | |
386 | VXRM_RDN_P = 1 << 21, | |
51fd69ec | 387 | }; |
79ab19bc LD |
388 | |
389 | enum insn_type : unsigned int | |
390 | { | |
391 | /* some flags macros. */ | |
392 | /* For non-mask insn with tama. */ | |
393 | __NORMAL_OP = HAS_DEST_P | HAS_MASK_P | USE_ALL_TRUES_MASK_P | HAS_MERGE_P | |
394 | | USE_VUNDEF_MERGE_P | TDEFAULT_POLICY_P | MDEFAULT_POLICY_P, | |
395 | /* For non-mask insn with ta, without mask policy operand. */ | |
396 | __NORMAL_OP_TA = HAS_DEST_P | HAS_MASK_P | USE_ALL_TRUES_MASK_P | HAS_MERGE_P | |
397 | | USE_VUNDEF_MERGE_P | TDEFAULT_POLICY_P, | |
398 | /* For non-mask insn with ta, without mask operand and mask policy operand. */ | |
399 | __NORMAL_OP_TA2 | |
400 | = HAS_DEST_P | HAS_MERGE_P | USE_VUNDEF_MERGE_P | TDEFAULT_POLICY_P, | |
401 | /* For non-mask insn with ma, without tail policy operand. */ | |
402 | __NORMAL_OP_MA = HAS_DEST_P | HAS_MASK_P | USE_ALL_TRUES_MASK_P | HAS_MERGE_P | |
403 | | USE_VUNDEF_MERGE_P | MDEFAULT_POLICY_P, | |
404 | /* For mask insn with tama. */ | |
405 | __MASK_OP_TAMA = HAS_DEST_P | HAS_MASK_P | HAS_MERGE_P | USE_VUNDEF_MERGE_P | |
406 | | TDEFAULT_POLICY_P | MDEFAULT_POLICY_P, | |
407 | /* For mask insn with tamu. */ | |
408 | __MASK_OP_TAMU | |
409 | = HAS_DEST_P | HAS_MASK_P | HAS_MERGE_P | TDEFAULT_POLICY_P | MU_POLICY_P, | |
410 | /* For mask insn with tuma. */ | |
411 | __MASK_OP_TUMA = HAS_DEST_P | HAS_MASK_P | USE_ALL_TRUES_MASK_P | HAS_MERGE_P | |
412 | | TU_POLICY_P | MDEFAULT_POLICY_P, | |
413 | /* For mask insn with mu. */ | |
414 | __MASK_OP_MU = HAS_DEST_P | HAS_MASK_P | HAS_MERGE_P | MU_POLICY_P, | |
415 | /* For mask insn with ta, without mask policy operand. */ | |
416 | __MASK_OP_TA = HAS_DEST_P | HAS_MASK_P | HAS_MERGE_P | USE_VUNDEF_MERGE_P | |
417 | | TDEFAULT_POLICY_P, | |
418 | ||
419 | /* Nullary operator. e.g. vid.v */ | |
420 | NULLARY_OP = __NORMAL_OP | NULLARY_OP_P, | |
421 | ||
422 | /* Unary operator. */ | |
423 | UNARY_OP = __NORMAL_OP | UNARY_OP_P, | |
424 | UNARY_OP_TAMA = __MASK_OP_TAMA | UNARY_OP_P, | |
425 | UNARY_OP_TAMU = __MASK_OP_TAMU | UNARY_OP_P, | |
426 | UNARY_OP_FRM_DYN = UNARY_OP | FRM_DYN_P, | |
2cc4f58a | 427 | UNARY_OP_FRM_RMM = UNARY_OP | FRM_RMM_P, |
51f7bfaa | 428 | UNARY_OP_FRM_RUP = UNARY_OP | FRM_RUP_P, |
8f52040e | 429 | UNARY_OP_FRM_RDN = UNARY_OP | FRM_RDN_P, |
85858c71 PL |
430 | UNARY_OP_TAMA_FRM_DYN = UNARY_OP_TAMA | FRM_DYN_P, |
431 | UNARY_OP_TAMA_FRM_RUP = UNARY_OP_TAMA | FRM_RUP_P, | |
432 | UNARY_OP_TAMA_FRM_RDN = UNARY_OP_TAMA | FRM_RDN_P, | |
433 | UNARY_OP_TAMA_FRM_RMM = UNARY_OP_TAMA | FRM_RMM_P, | |
434 | UNARY_OP_TAMA_FRM_RNE = UNARY_OP_TAMA | FRM_RNE_P, | |
e2023d2d | 435 | UNARY_OP_TAMU_FRM_DYN = UNARY_OP_TAMU | FRM_DYN_P, |
8bf5636e | 436 | UNARY_OP_TAMU_FRM_RUP = UNARY_OP_TAMU | FRM_RUP_P, |
83441e75 | 437 | UNARY_OP_TAMU_FRM_RDN = UNARY_OP_TAMU | FRM_RDN_P, |
d324984f | 438 | UNARY_OP_TAMU_FRM_RMM = UNARY_OP_TAMU | FRM_RMM_P, |
fcbbf158 | 439 | UNARY_OP_TAMU_FRM_RNE = UNARY_OP_TAMU | FRM_RNE_P, |
79ab19bc LD |
440 | |
441 | /* Binary operator. */ | |
442 | BINARY_OP = __NORMAL_OP | BINARY_OP_P, | |
443 | BINARY_OP_TAMA = __MASK_OP_TAMA | BINARY_OP_P, | |
444 | BINARY_OP_TAMU = __MASK_OP_TAMU | BINARY_OP_P, | |
445 | BINARY_OP_TUMA = __MASK_OP_TUMA | BINARY_OP_P, | |
446 | BINARY_OP_FRM_DYN = BINARY_OP | FRM_DYN_P, | |
0141ee79 JZ |
447 | BINARY_OP_VXRM_RNU = BINARY_OP | VXRM_RNU_P, |
448 | BINARY_OP_VXRM_RDN = BINARY_OP | VXRM_RDN_P, | |
79ab19bc LD |
449 | |
450 | /* Ternary operator. Always have real merge operand. */ | |
451 | TERNARY_OP = HAS_DEST_P | HAS_MASK_P | USE_ALL_TRUES_MASK_P | HAS_MERGE_P | |
452 | | TDEFAULT_POLICY_P | MDEFAULT_POLICY_P | TERNARY_OP_P, | |
453 | TERNARY_OP_FRM_DYN = TERNARY_OP | FRM_DYN_P, | |
454 | ||
455 | /* For vwmacc, no merge operand. */ | |
456 | WIDEN_TERNARY_OP = HAS_DEST_P | HAS_MASK_P | USE_ALL_TRUES_MASK_P | |
457 | | TDEFAULT_POLICY_P | MDEFAULT_POLICY_P | TERNARY_OP_P, | |
458 | WIDEN_TERNARY_OP_FRM_DYN = WIDEN_TERNARY_OP | FRM_DYN_P, | |
459 | ||
460 | /* For vmerge, no mask operand, no mask policy operand. */ | |
461 | MERGE_OP = __NORMAL_OP_TA2 | TERNARY_OP_P, | |
462 | ||
0c42741a RD |
463 | /* For vmerge with TU policy. */ |
464 | MERGE_OP_TU = HAS_DEST_P | HAS_MERGE_P | TERNARY_OP_P | TU_POLICY_P, | |
465 | ||
79ab19bc LD |
466 | /* For vm<compare>, no tail policy operand. */ |
467 | COMPARE_OP = __NORMAL_OP_MA | TERNARY_OP_P, | |
468 | COMPARE_OP_MU = __MASK_OP_MU | TERNARY_OP_P, | |
469 | ||
470 | /* For scatter insn: no dest operand, no merge operand, no tail and mask | |
471 | policy operands. */ | |
472 | SCATTER_OP_M = HAS_MASK_P | TERNARY_OP_P, | |
473 | ||
474 | /* For vcpop.m, no merge operand, no tail and mask policy operands. */ | |
475 | CPOP_OP = HAS_DEST_P | HAS_MASK_P | USE_ALL_TRUES_MASK_P | UNARY_OP_P | |
dd6e5d29 | 476 | | VTYPE_MODE_FROM_OP1_P, |
79ab19bc LD |
477 | |
478 | /* For mask instrunctions, no tail and mask policy operands. */ | |
479 | UNARY_MASK_OP = HAS_DEST_P | HAS_MASK_P | USE_ALL_TRUES_MASK_P | HAS_MERGE_P | |
480 | | USE_VUNDEF_MERGE_P | UNARY_OP_P, | |
481 | BINARY_MASK_OP = HAS_DEST_P | HAS_MASK_P | USE_ALL_TRUES_MASK_P | HAS_MERGE_P | |
482 | | USE_VUNDEF_MERGE_P | BINARY_OP_P, | |
483 | ||
484 | /* For vcompress.vm */ | |
485 | COMPRESS_OP = __NORMAL_OP_TA2 | BINARY_OP_P, | |
486 | /* has merge operand but use ta. */ | |
487 | COMPRESS_OP_MERGE | |
488 | = HAS_DEST_P | HAS_MERGE_P | TDEFAULT_POLICY_P | BINARY_OP_P, | |
489 | ||
6aaf72ff JZ |
490 | /* For vslideup.up has merge operand but use ta. */ |
491 | SLIDEUP_OP_MERGE = HAS_DEST_P | HAS_MASK_P | USE_ALL_TRUES_MASK_P | |
492 | | HAS_MERGE_P | TDEFAULT_POLICY_P | MDEFAULT_POLICY_P | |
493 | | BINARY_OP_P, | |
494 | ||
79ab19bc | 495 | /* For vreduce, no mask policy operand. */ |
dd6e5d29 | 496 | REDUCE_OP = __NORMAL_OP_TA | BINARY_OP_P | VTYPE_MODE_FROM_OP1_P, |
5bc8c83d | 497 | REDUCE_OP_M = __MASK_OP_TA | BINARY_OP_P | VTYPE_MODE_FROM_OP1_P, |
dd6e5d29 | 498 | REDUCE_OP_FRM_DYN = REDUCE_OP | FRM_DYN_P | VTYPE_MODE_FROM_OP1_P, |
79ab19bc | 499 | REDUCE_OP_M_FRM_DYN |
dd6e5d29 | 500 | = __MASK_OP_TA | BINARY_OP_P | FRM_DYN_P | VTYPE_MODE_FROM_OP1_P, |
79ab19bc LD |
501 | |
502 | /* For vmv.s.x/vfmv.s.f. */ | |
503 | SCALAR_MOVE_OP = HAS_DEST_P | HAS_MASK_P | USE_ONE_TRUE_MASK_P | HAS_MERGE_P | |
504 | | USE_VUNDEF_MERGE_P | TDEFAULT_POLICY_P | MDEFAULT_POLICY_P | |
505 | | UNARY_OP_P, | |
28f16f6d PL |
506 | |
507 | SCALAR_MOVE_MERGED_OP = HAS_DEST_P | HAS_MASK_P | USE_ONE_TRUE_MASK_P | |
508 | | HAS_MERGE_P | TDEFAULT_POLICY_P | MDEFAULT_POLICY_P | |
509 | | UNARY_OP_P, | |
79ab19bc LD |
510 | }; |
511 | ||
3b16afeb JZZ |
512 | enum vlmul_type |
513 | { | |
514 | LMUL_1 = 0, | |
515 | LMUL_2 = 1, | |
516 | LMUL_4 = 2, | |
517 | LMUL_8 = 3, | |
518 | LMUL_RESERVED = 4, | |
519 | LMUL_F8 = 5, | |
520 | LMUL_F4 = 6, | |
521 | LMUL_F2 = 7, | |
ec99ffab | 522 | NUM_LMUL = 8 |
3b16afeb | 523 | }; |
9243c3d1 | 524 | |
e99cdab8 LD |
525 | /* The RISC-V vsetvli pass uses "known vlmax" operations for optimization. |
526 | Whether or not an instruction actually is a vlmax operation is not | |
527 | recognizable from the length operand alone but the avl_type operand | |
528 | is used instead. In general, there are two cases: | |
529 | ||
530 | - Emit a vlmax operation by calling emit_vlmax_insn[_lra]. Here we emit | |
531 | a vsetvli with vlmax configuration and set the avl_type to VLMAX for | |
532 | VLA modes or VLS for VLS modes. | |
533 | - Emit an operation that uses the existing (last-set) length and | |
534 | set the avl_type to NONVLMAX. | |
535 | ||
536 | Sometimes we also need to set the VLMAX or VLS avl_type to an operation that | |
537 | already uses a given length register. This can happen during or after | |
538 | register allocation when we are not allowed to create a new register. | |
539 | For that case we also allow to set the avl_type to VLMAX or VLS. | |
540 | */ | |
9243c3d1 JZZ |
541 | enum avl_type |
542 | { | |
e99cdab8 LD |
543 | NONVLMAX = 0, |
544 | VLMAX = 1, | |
545 | VLS = 2, | |
9243c3d1 | 546 | }; |
7d935cdd | 547 | /* Routines implemented in riscv-vector-builtins.cc. */ |
3b6d44f4 JZZ |
548 | void init_builtins (void); |
549 | const char *mangle_builtin_type (const_tree); | |
509c10a6 | 550 | tree lookup_vector_type_attribute (const_tree); |
94a4b932 | 551 | bool builtin_type_p (const_tree); |
7d935cdd | 552 | #ifdef GCC_TARGET_H |
3b6d44f4 | 553 | bool verify_type_context (location_t, type_context_kind, const_tree, bool); |
631e86b7 JZ |
554 | bool expand_vec_perm_const (machine_mode, machine_mode, rtx, rtx, rtx, |
555 | const vec_perm_indices &); | |
7d935cdd | 556 | #endif |
3b6d44f4 JZZ |
557 | void handle_pragma_vector (void); |
558 | tree builtin_decl (unsigned, bool); | |
60bd33bc | 559 | gimple *gimple_fold_builtin (unsigned int, gimple_stmt_iterator *, gcall *); |
3b6d44f4 | 560 | rtx expand_builtin (unsigned int, tree, rtx); |
7caa1ae5 JZZ |
561 | bool check_builtin_call (location_t, vec<location_t>, unsigned int, |
562 | tree, unsigned int, tree *); | |
1a55724f | 563 | tree resolve_overloaded_builtin (unsigned int, vec<tree, va_gc> *); |
3b6d44f4 | 564 | bool const_vec_all_same_in_range_p (rtx, HOST_WIDE_INT, HOST_WIDE_INT); |
f416a3fd | 565 | bool legitimize_move (rtx, rtx *); |
cd0c433e | 566 | void emit_vlmax_vsetvl (machine_mode, rtx); |
40fc8e3d | 567 | void emit_hard_vlmax_vsetvl (machine_mode, rtx); |
79ab19bc LD |
568 | void emit_vlmax_insn (unsigned, unsigned, rtx *); |
569 | void emit_nonvlmax_insn (unsigned, unsigned, rtx *, rtx); | |
570 | void emit_vlmax_insn_lra (unsigned, unsigned, rtx *, rtx); | |
3b6d44f4 | 571 | enum vlmul_type get_vlmul (machine_mode); |
b3176bdc | 572 | rtx get_vlmax_rtx (machine_mode); |
3b6d44f4 | 573 | unsigned int get_ratio (machine_mode); |
12847288 JZZ |
574 | unsigned int get_nf (machine_mode); |
575 | machine_mode get_subpart_mode (machine_mode); | |
3b6d44f4 JZZ |
576 | int get_ta (rtx); |
577 | int get_ma (rtx); | |
578 | int get_avl_type (rtx); | |
579 | unsigned int calculate_ratio (unsigned int, enum vlmul_type); | |
f556cd8b JZZ |
580 | enum tail_policy |
581 | { | |
582 | TAIL_UNDISTURBED = 0, | |
583 | TAIL_AGNOSTIC = 1, | |
9243c3d1 | 584 | TAIL_ANY = 2, |
f556cd8b JZZ |
585 | }; |
586 | ||
587 | enum mask_policy | |
588 | { | |
589 | MASK_UNDISTURBED = 0, | |
590 | MASK_AGNOSTIC = 1, | |
9243c3d1 | 591 | MASK_ANY = 2, |
f556cd8b | 592 | }; |
8390a2af | 593 | |
e69d050f LD |
594 | /* Return true if VALUE is agnostic or any policy. */ |
595 | #define IS_AGNOSTIC(VALUE) (bool) (VALUE & 0x1 || (VALUE >> 1 & 0x1)) | |
596 | ||
9243c3d1 JZZ |
597 | enum tail_policy get_prefer_tail_policy (); |
598 | enum mask_policy get_prefer_mask_policy (); | |
a143c3f7 | 599 | rtx get_avl_type_rtx (enum avl_type); |
6c9bcb6c | 600 | opt_machine_mode get_vector_mode (scalar_mode, poly_uint64); |
12847288 | 601 | opt_machine_mode get_tuple_mode (machine_mode, unsigned int); |
3b6d44f4 JZZ |
602 | bool simm5_p (rtx); |
603 | bool neg_simm5_p (rtx); | |
a035d133 | 604 | #ifdef RTX_CODE |
3b6d44f4 | 605 | bool has_vi_variant_p (rtx_code, rtx); |
e0600a02 JZ |
606 | void expand_vec_cmp (rtx, rtx_code, rtx, rtx); |
607 | bool expand_vec_cmp_float (rtx, rtx_code, rtx, rtx, bool); | |
4d1c8b04 LD |
608 | void expand_cond_len_unop (unsigned, rtx *); |
609 | void expand_cond_len_binop (unsigned, rtx *); | |
e6413b5d | 610 | void expand_reduction (unsigned, unsigned, rtx *, rtx); |
8bf5636e | 611 | void expand_vec_ceil (rtx, rtx, machine_mode, machine_mode); |
83441e75 | 612 | void expand_vec_floor (rtx, rtx, machine_mode, machine_mode); |
e2023d2d | 613 | void expand_vec_nearbyint (rtx, rtx, machine_mode, machine_mode); |
e4cf5f54 | 614 | void expand_vec_rint (rtx, rtx, machine_mode, machine_mode); |
d324984f | 615 | void expand_vec_round (rtx, rtx, machine_mode, machine_mode); |
1c4ca595 | 616 | void expand_vec_trunc (rtx, rtx, machine_mode, machine_mode); |
fcbbf158 | 617 | void expand_vec_roundeven (rtx, rtx, machine_mode, machine_mode); |
5dfa501d PL |
618 | void expand_vec_lrint (rtx, rtx, machine_mode, machine_mode, machine_mode); |
619 | void expand_vec_lround (rtx, rtx, machine_mode, machine_mode, machine_mode); | |
51f7bfaa | 620 | void expand_vec_lceil (rtx, rtx, machine_mode, machine_mode); |
8f52040e | 621 | void expand_vec_lfloor (rtx, rtx, machine_mode, machine_mode); |
a035d133 | 622 | #endif |
51fd69ec | 623 | bool sew64_scalar_helper (rtx *, rtx *, rtx, machine_mode, |
eb1cdb3e | 624 | bool, void (*)(rtx *, rtx), enum avl_type); |
ec99ffab | 625 | rtx gen_scalar_move_mask (machine_mode); |
9c032218 | 626 | rtx gen_no_side_effects_vsetvl_rtx (machine_mode, rtx, rtx); |
1bff101b JZZ |
627 | |
628 | /* RVV vector register sizes. | |
629 | TODO: Currently, we only add RVV_32/RVV_64/RVV_128, we may need to | |
630 | support other values in the future. */ | |
631 | enum vlen_enum | |
632 | { | |
633 | RVV_32 = 32, | |
634 | RVV_64 = 64, | |
635 | RVV_65536 = 65536 | |
636 | }; | |
637 | bool slide1_sew64_helper (int, machine_mode, machine_mode, | |
638 | machine_mode, rtx *); | |
db4f7a9b | 639 | rtx gen_avl_for_scalar_move (rtx); |
51fd69ec | 640 | void expand_tuple_move (rtx *); |
9464e72b | 641 | bool expand_block_move (rtx, rtx, rtx); |
2d76f2b4 | 642 | machine_mode preferred_simd_mode (scalar_mode); |
1349f530 | 643 | machine_mode get_mask_mode (machine_mode); |
71a5ac67 | 644 | void expand_vec_series (rtx, rtx, rtx, rtx = 0); |
1c1a9d8e | 645 | void expand_vec_init (rtx, rtx); |
2418cdfc | 646 | void expand_vec_perm (rtx, rtx, rtx, rtx); |
55dcf277 | 647 | void expand_select_vl (rtx *); |
d42d199e | 648 | void expand_load_store (rtx *, bool); |
f048af2a | 649 | void expand_gather_scatter (rtx *, bool); |
0d2673e9 | 650 | void expand_cond_len_ternop (unsigned, rtx *); |
95d2ce05 | 651 | void prepare_ternary_operands (rtx *); |
fe578886 | 652 | void expand_lanes_load_store (rtx *, bool); |
e7545cad | 653 | void expand_fold_extract_last (rtx *); |
8a87ba0b JZ |
654 | void expand_cond_unop (unsigned, rtx *); |
655 | void expand_cond_binop (unsigned, rtx *); | |
656 | void expand_cond_ternop (unsigned, rtx *); | |
82bbbb73 | 657 | void expand_popcount (rtx *); |
2664964b | 658 | void expand_rawmemchr (machine_mode, rtx, rtx, rtx, bool = false); |
d468718c | 659 | bool expand_strcmp (rtx, rtx, rtx, rtx, unsigned HOST_WIDE_INT, bool); |
0a5170b5 | 660 | void emit_vec_extract (rtx, rtx, rtx); |
47ffabaf | 661 | |
5ed88078 | 662 | /* Rounding mode bitfield for fixed point VXRM. */ |
47ffabaf | 663 | enum fixed_point_rounding_mode |
5ed88078 JZ |
664 | { |
665 | VXRM_RNU, | |
666 | VXRM_RNE, | |
667 | VXRM_RDN, | |
668 | VXRM_ROD | |
669 | }; | |
47ffabaf | 670 | |
7f4644f8 PL |
671 | /* Rounding mode bitfield for floating point FRM. The value of enum comes |
672 | from the below link. | |
673 | https://github.com/riscv/riscv-isa-manual/blob/main/src/f-st-ext.adoc#floating-point-control-and-status-register | |
674 | */ | |
47ffabaf | 675 | enum floating_point_rounding_mode |
8cd140d3 | 676 | { |
7f4644f8 PL |
677 | FRM_RNE = 0, /* Aka 0b000. */ |
678 | FRM_RTZ = 1, /* Aka 0b001. */ | |
679 | FRM_RDN = 2, /* Aka 0b010. */ | |
680 | FRM_RUP = 3, /* Aka 0b011. */ | |
681 | FRM_RMM = 4, /* Aka 0b100. */ | |
682 | FRM_DYN = 7, /* Aka 0b111. */ | |
4d1e97f5 PL |
683 | FRM_STATIC_MIN = FRM_RNE, |
684 | FRM_STATIC_MAX = FRM_RMM, | |
4cede0de PL |
685 | FRM_DYN_EXIT = 8, |
686 | FRM_DYN_CALL = 9, | |
687 | FRM_NONE = 10, | |
8cd140d3 | 688 | }; |
25907509 | 689 | |
4cede0de | 690 | enum floating_point_rounding_mode get_frm_mode (rtx); |
25907509 RD |
691 | opt_machine_mode vectorize_related_mode (machine_mode, scalar_mode, |
692 | poly_uint64); | |
693 | unsigned int autovectorize_vector_modes (vec<machine_mode> *, bool); | |
d05aac04 JZ |
694 | bool cmp_lmul_le_one (machine_mode); |
695 | bool cmp_lmul_gt_one (machine_mode); | |
66c26e5c | 696 | bool vls_mode_valid_p (machine_mode); |
5e714992 | 697 | bool vlmax_avl_type_p (rtx_insn *); |
8064e7e2 JZ |
698 | bool has_vl_op (rtx_insn *); |
699 | bool tail_agnostic_p (rtx_insn *); | |
700 | void validate_change_or_fail (rtx, rtx *, rtx, bool); | |
701 | bool nonvlmax_avl_type_p (rtx_insn *); | |
702 | bool vlmax_avl_p (rtx); | |
703 | uint8_t get_sew (rtx_insn *); | |
704 | enum vlmul_type get_vlmul (rtx_insn *); | |
705 | int count_regno_occurrences (rtx_insn *, unsigned int); | |
5ea3c039 | 706 | bool imm_avl_p (machine_mode); |
418bd642 | 707 | bool can_be_broadcasted_p (rtx); |
8b93a0f3 | 708 | bool gather_scatter_valid_offset_p (machine_mode); |
fda2e1ab | 709 | HOST_WIDE_INT estimated_poly_value (poly_int64, unsigned int); |
9873f13d | 710 | bool whole_reg_to_reg_move_p (rtx *, machine_mode, int); |
f9df0034 | 711 | bool splat_to_scalar_move_p (rtx *); |
7d935cdd JZZ |
712 | } |
713 | ||
cbd50570 JZZ |
714 | /* We classify builtin types into two classes: |
715 | 1. General builtin class which is defined in riscv_builtins. | |
716 | 2. Vector builtin class which is a special builtin architecture | |
717 | that implement intrinsic short into "pragma". */ | |
718 | enum riscv_builtin_class | |
719 | { | |
720 | RISCV_BUILTIN_GENERAL, | |
721 | RISCV_BUILTIN_VECTOR | |
722 | }; | |
723 | ||
724 | const unsigned int RISCV_BUILTIN_SHIFT = 1; | |
725 | ||
726 | /* Mask that selects the riscv_builtin_class part of a function code. */ | |
727 | const unsigned int RISCV_BUILTIN_CLASS = (1 << RISCV_BUILTIN_SHIFT) - 1; | |
728 | ||
df48285b | 729 | /* Routines implemented in riscv-string.cc. */ |
949f1ccf | 730 | extern bool riscv_expand_strcmp (rtx, rtx, rtx, rtx, rtx); |
df48285b CM |
731 | extern bool riscv_expand_strlen (rtx, rtx, rtx, rtx); |
732 | ||
02fcaf41 | 733 | /* Routines implemented in thead.cc. */ |
c177f28d | 734 | extern bool extract_base_offset_in_addr (rtx, rtx *, rtx *); |
02fcaf41 CM |
735 | extern bool th_mempair_operands_p (rtx[4], bool, machine_mode); |
736 | extern void th_mempair_order_operands (rtx[4], bool, machine_mode); | |
737 | extern void th_mempair_prepare_save_restore_operands (rtx[4], bool, | |
738 | machine_mode, | |
739 | int, HOST_WIDE_INT, | |
740 | int, HOST_WIDE_INT); | |
741 | extern void th_mempair_save_restore_regs (rtx[4], bool, machine_mode); | |
52e809d5 JM |
742 | extern unsigned int th_int_get_mask (unsigned int); |
743 | extern unsigned int th_int_get_save_adjustment (void); | |
744 | extern rtx th_int_adjust_cfi_prologue (unsigned int); | |
9a55cc62 | 745 | extern const char *th_asm_output_opcode (FILE *asm_out_file, const char *p); |
02fcaf41 CM |
746 | #ifdef RTX_CODE |
747 | extern const char* | |
748 | th_mempair_output_move (rtx[4], bool, machine_mode, RTX_CODE); | |
2d65622f CM |
749 | extern bool th_memidx_legitimate_modify_p (rtx); |
750 | extern bool th_memidx_legitimate_modify_p (rtx, bool); | |
751 | extern bool th_memidx_legitimate_index_p (rtx); | |
752 | extern bool th_memidx_legitimate_index_p (rtx, bool); | |
753 | extern bool th_classify_address (struct riscv_address_info *, | |
754 | rtx, machine_mode, bool); | |
755 | extern const char *th_output_move (rtx, rtx); | |
756 | extern bool th_print_operand_address (FILE *, machine_mode, rtx); | |
02fcaf41 CM |
757 | #endif |
758 | ||
065be0ff | 759 | extern bool riscv_use_divmod_expander (void); |
1d4d302a | 760 | void riscv_init_cumulative_args (CUMULATIVE_ARGS *, tree, rtx, tree, int); |
5f110561 KC |
761 | extern bool |
762 | riscv_option_valid_attribute_p (tree, tree, tree, int); | |
763 | extern void | |
764 | riscv_override_options_internal (struct gcc_options *); | |
765 | ||
766 | struct riscv_tune_param; | |
767 | /* Information about one micro-arch we know about. */ | |
768 | struct riscv_tune_info { | |
769 | /* This micro-arch canonical name. */ | |
770 | const char *name; | |
771 | ||
772 | /* Which automaton to use for tuning. */ | |
773 | enum riscv_microarchitecture_type microarchitecture; | |
774 | ||
775 | /* Tuning parameters for this micro-arch. */ | |
776 | const struct riscv_tune_param *tune_param; | |
777 | }; | |
778 | ||
779 | const struct riscv_tune_info * | |
780 | riscv_parse_tune (const char *, bool); | |
0acb6367 | 781 | const cpu_vector_cost *get_vector_costs (); |
1d4d302a | 782 | |
09cae750 | 783 | #endif /* ! GCC_RISCV_PROTOS_H */ |