[thirdparty/gcc.git] / gcc / config / mips / loongson2ef.md

;; Pipeline model for ST Microelectronics Loongson-2E/2F cores.

;; Copyright (C) 2008-2016 Free Software Foundation, Inc.
;; Contributed by CodeSourcery.
;;
;; 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/>.

(define_c_enum "unspec" [
  UNSPEC_LOONGSON_ALU1_TURN_ENABLED_INSN
  UNSPEC_LOONGSON_ALU2_TURN_ENABLED_INSN
  UNSPEC_LOONGSON_FALU1_TURN_ENABLED_INSN
  UNSPEC_LOONGSON_FALU2_TURN_ENABLED_INSN
])

;; Automaton for integer instructions.
(define_automaton "ls2_alu")

;; ALU1 and ALU2.
;; We need to query these units to adjust round-robin counter.
(define_query_cpu_unit "ls2_alu1_core,ls2_alu2_core" "ls2_alu")

;; Pseudo units to help modeling of ALU1/2 round-robin dispatch strategy.
(define_cpu_unit "ls2_alu1_turn,ls2_alu2_turn" "ls2_alu")

;; Pseudo units to enable/disable ls2_alu[12]_turn units.
;; ls2_alu[12]_turn unit can be subscribed only after ls2_alu[12]_turn_enabled
;; unit is subscribed.
(define_cpu_unit "ls2_alu1_turn_enabled,ls2_alu2_turn_enabled" "ls2_alu")
(presence_set "ls2_alu1_turn" "ls2_alu1_turn_enabled")
(presence_set "ls2_alu2_turn" "ls2_alu2_turn_enabled")

;; Reservations for ALU1 (ALU2) instructions.
;; Instruction goes to ALU1 (ALU2) and makes next ALU1/2 instruction to
;; be dispatched to ALU2 (ALU1).
(define_reservation "ls2_alu1"
  "(ls2_alu1_core+ls2_alu2_turn_enabled)|ls2_alu1_core")
(define_reservation "ls2_alu2"
  "(ls2_alu2_core+ls2_alu1_turn_enabled)|ls2_alu2_core")

;; Reservation for ALU1/2 instructions.
;; Instruction will go to ALU1 iff ls2_alu1_turn_enabled is subscribed and
;; switch the turn to ALU2 by subscribing ls2_alu2_turn_enabled.
;; Or to ALU2 otherwise.
(define_reservation "ls2_alu"
  "(ls2_alu1_core+ls2_alu1_turn+ls2_alu2_turn_enabled)
   |(ls2_alu1_core+ls2_alu1_turn)
   |(ls2_alu2_core+ls2_alu2_turn+ls2_alu1_turn_enabled)
   |(ls2_alu2_core+ls2_alu2_turn)")

;; Automaton for floating-point instructions.
(define_automaton "ls2_falu")

;; FALU1 and FALU2.
;; We need to query these units to adjust round-robin counter.
(define_query_cpu_unit "ls2_falu1_core,ls2_falu2_core" "ls2_falu")

;; Pseudo units to help modeling of FALU1/2 round-robin dispatch strategy.
(define_cpu_unit "ls2_falu1_turn,ls2_falu2_turn" "ls2_falu")

;; Pseudo units to enable/disable ls2_falu[12]_turn units.
;; ls2_falu[12]_turn unit can be subscribed only after
;; ls2_falu[12]_turn_enabled unit is subscribed.
(define_cpu_unit "ls2_falu1_turn_enabled,ls2_falu2_turn_enabled" "ls2_falu")
(presence_set "ls2_falu1_turn" "ls2_falu1_turn_enabled")
(presence_set "ls2_falu2_turn" "ls2_falu2_turn_enabled")

;; Reservations for FALU1 (FALU2) instructions.
;; Instruction goes to FALU1 (FALU2) and makes next FALU1/2 instruction to
;; be dispatched to FALU2 (FALU1).
(define_reservation "ls2_falu1"
  "(ls2_falu1_core+ls2_falu2_turn_enabled)|ls2_falu1_core")
(define_reservation "ls2_falu2"
  "(ls2_falu2_core+ls2_falu1_turn_enabled)|ls2_falu2_core")

;; Reservation for FALU1/2 instructions.
;; Instruction will go to FALU1 iff ls2_falu1_turn_enabled is subscribed and
;; switch the turn to FALU2 by subscribing ls2_falu2_turn_enabled.
;; Or to FALU2 otherwise.
(define_reservation "ls2_falu"
  "(ls2_falu1+ls2_falu1_turn+ls2_falu2_turn_enabled)
   |(ls2_falu1+ls2_falu1_turn)
   |(ls2_falu2+ls2_falu2_turn+ls2_falu1_turn_enabled)
   |(ls2_falu2+ls2_falu2_turn)")

;; The following 4 instructions each subscribe one of
;; ls2_[f]alu{1,2}_turn_enabled units according to this attribute.
;; These instructions are used in mips.c: sched_ls2_dfa_post_advance_cycle.

(define_attr "ls2_turn_type" "alu1,alu2,falu1,falu2,unknown,atomic,syncloop"
  (const_string "unknown"))

;; Subscribe ls2_alu1_turn_enabled.
(define_insn "ls2_alu1_turn_enabled_insn"
  [(unspec [(const_int 0)] UNSPEC_LOONGSON_ALU1_TURN_ENABLED_INSN)]
  "TUNE_LOONGSON_2EF"
  { gcc_unreachable (); }
  [(set_attr "ls2_turn_type" "alu1")])

(define_insn_reservation "ls2_alu1_turn_enabled" 0
  (eq_attr "ls2_turn_type" "alu1")
  "ls2_alu1_turn_enabled")

;; Subscribe ls2_alu2_turn_enabled.
(define_insn "ls2_alu2_turn_enabled_insn"
  [(unspec [(const_int 0)] UNSPEC_LOONGSON_ALU2_TURN_ENABLED_INSN)]
  "TUNE_LOONGSON_2EF"
  { gcc_unreachable (); }
  [(set_attr "ls2_turn_type" "alu2")])

(define_insn_reservation "ls2_alu2_turn_enabled" 0
  (eq_attr "ls2_turn_type" "alu2")
  "ls2_alu2_turn_enabled")

;; Subscribe ls2_falu1_turn_enabled.
(define_insn "ls2_falu1_turn_enabled_insn"
  [(unspec [(const_int 0)] UNSPEC_LOONGSON_FALU1_TURN_ENABLED_INSN)]
  "TUNE_LOONGSON_2EF"
  { gcc_unreachable (); }
  [(set_attr "ls2_turn_type" "falu1")])

(define_insn_reservation "ls2_falu1_turn_enabled" 0
  (eq_attr "ls2_turn_type" "falu1")
  "ls2_falu1_turn_enabled")

;; Subscribe ls2_falu2_turn_enabled.
(define_insn "ls2_falu2_turn_enabled_insn"
  [(unspec [(const_int 0)] UNSPEC_LOONGSON_FALU2_TURN_ENABLED_INSN)]
  "TUNE_LOONGSON_2EF"
  { gcc_unreachable (); }
  [(set_attr "ls2_turn_type" "falu2")])

(define_insn_reservation "ls2_falu2_turn_enabled" 0
  (eq_attr "ls2_turn_type" "falu2")
  "ls2_falu2_turn_enabled")

;; Automaton for memory operations.
(define_automaton "ls2_mem")

;; Memory unit.
(define_query_cpu_unit "ls2_mem" "ls2_mem")

;; Reservation for integer instructions.
(define_insn_reservation "ls2_alu" 2
  (and (eq_attr "cpu" "loongson_2e,loongson_2f")
       (eq_attr "type" "arith,condmove,const,logical,mfhi,mflo,move,
                        mthi,mtlo,nop,shift,signext,slt"))
  "ls2_alu")

;; Reservation for branch instructions.
(define_insn_reservation "ls2_branch" 2
  (and (eq_attr "cpu" "loongson_2e,loongson_2f")
       (eq_attr "type" "branch,jump,call,trap"))
  "ls2_alu1")

;; Reservation for integer multiplication instructions.
(define_insn_reservation "ls2_imult" 5
  (and (eq_attr "cpu" "loongson_2e,loongson_2f")
       (eq_attr "type" "imul,imul3nc"))
  "ls2_alu2,ls2_alu2_core")

;; Reservation for integer division / remainder instructions.
;; These instructions use the SRT algorithm and hence take 2-38 cycles.
(define_insn_reservation "ls2_idiv" 20
  (and (eq_attr "cpu" "loongson_2e,loongson_2f")
       (eq_attr "type" "idiv,idiv3"))
  "ls2_alu2,ls2_alu2_core*18")

;; Reservation for memory load instructions.
(define_insn_reservation "ls2_load" 5
  (and (eq_attr "cpu" "loongson_2e,loongson_2f")
       (eq_attr "type" "load,fpload,mfc,mtc"))
  "ls2_mem")

(define_insn_reservation "ls2_prefetch" 0
  (and (eq_attr "cpu" "loongson_2e,loongson_2f")
       (eq_attr "type" "prefetch,prefetchx"))
  "ls2_mem")

;; Reservation for memory store instructions.
;; With stores we assume they don't alias with dependent loads.
;; Therefore we set the latency to zero.
(define_insn_reservation "ls2_store" 0
  (and (eq_attr "cpu" "loongson_2e,loongson_2f")
       (eq_attr "type" "store,fpstore"))
  "ls2_mem")

;; Reservation for floating-point instructions of latency 3.
(define_insn_reservation "ls2_fp3" 3
  (and (eq_attr "cpu" "loongson_2e,loongson_2f")
       (eq_attr "type" "fabs,fneg,fcmp,fmove"))
  "ls2_falu1")

;; Reservation for floating-point instructions of latency 5.
(define_insn_reservation "ls2_fp5" 5
  (and (eq_attr "cpu" "loongson_2e,loongson_2f")
       (eq_attr "type" "fcvt"))
  "ls2_falu1")

;; Reservation for floating-point instructions that can go
;; to either of FALU1/2 units.
(define_insn_reservation "ls2_falu" 7
  (and (eq_attr "cpu" "loongson_2e,loongson_2f")
       (eq_attr "type" "fadd,fmul,fmadd"))
  "ls2_falu")

;; Reservation for floating-point division / remainder instructions.
;; These instructions use the SRT algorithm and hence take a variable amount
;; of cycles:
;; div.s takes 5-11 cycles
;; div.d takes 5-18 cycles
(define_insn_reservation "ls2_fdiv" 9
  (and (eq_attr "cpu" "loongson_2e,loongson_2f")
       (eq_attr "type" "fdiv"))
  "ls2_falu2,ls2_falu2_core*7")

;; Reservation for floating-point sqrt instructions.
;; These instructions use the SRT algorithm and hence take a variable amount
;; of cycles:
;; sqrt.s takes 5-17 cycles
;; sqrt.d takes 5-32 cycles
(define_insn_reservation "ls2_fsqrt" 15
  (and (eq_attr "cpu" "loongson_2e,loongson_2f")
       (eq_attr "type" "fsqrt"))
  "ls2_falu2,ls2_falu2_core*13")

;; Two consecutive ALU instructions.
(define_insn_reservation "ls2_multi" 4
  (and (eq_attr "cpu" "loongson_2e,loongson_2f")
       (eq_attr "type" "multi"))
  "(ls2_alu1,ls2_alu2_core)|(ls2_alu2,ls2_alu1_core)")

;; Reservation for everything else.  Normally, this reservation
;; will only be used to handle cases like compiling for non-loongson
;; CPUs with -mtune=loongson2?.
;;
;; This reservation depends upon the fact that DFA will check
;; reservations in the same order as they appear in the file.
(define_insn_reservation "ls2_unknown" 1
  (eq_attr "cpu" "loongson_2e,loongson_2f")
  "ls2_alu1_core+ls2_alu2_core+ls2_falu1_core+ls2_falu2_core+ls2_mem")
Commit	Line	Data
58684fa0 MK	1	;; Pipeline model for ST Microelectronics Loongson-2E/2F cores.
58684fa0 MK	2
818ab71a	3	;; Copyright (C) 2008-2016 Free Software Foundation, Inc.
58684fa0 MK	4	;; Contributed by CodeSourcery.
	5	;;
	6	;; GCC is free software; you can redistribute it and/or modify
	7	;; it under the terms of the GNU General Public License as published by
	8	;; the Free Software Foundation; either version 3, or (at your option)
	9	;; any later version.
	10	;;
	11	;; GCC is distributed in the hope that it will be useful,
	12	;; but WITHOUT ANY WARRANTY; without even the implied warranty of
	13	;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
	14	;; GNU General Public License for more details.
	15	;;
	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/>.
	19
24609606 RS	20	(define_c_enum "unspec" [
	21	UNSPEC_LOONGSON_ALU1_TURN_ENABLED_INSN
	22	UNSPEC_LOONGSON_ALU2_TURN_ENABLED_INSN
	23	UNSPEC_LOONGSON_FALU1_TURN_ENABLED_INSN
	24	UNSPEC_LOONGSON_FALU2_TURN_ENABLED_INSN
	25	])
	26
58684fa0 MK	27	;; Automaton for integer instructions.
	28	(define_automaton "ls2_alu")
	29
	30	;; ALU1 and ALU2.
	31	;; We need to query these units to adjust round-robin counter.
	32	(define_query_cpu_unit "ls2_alu1_core,ls2_alu2_core" "ls2_alu")
	33
	34	;; Pseudo units to help modeling of ALU1/2 round-robin dispatch strategy.
	35	(define_cpu_unit "ls2_alu1_turn,ls2_alu2_turn" "ls2_alu")
	36
	37	;; Pseudo units to enable/disable ls2_alu[12]_turn units.
	38	;; ls2_alu[12]_turn unit can be subscribed only after ls2_alu[12]_turn_enabled
	39	;; unit is subscribed.
	40	(define_cpu_unit "ls2_alu1_turn_enabled,ls2_alu2_turn_enabled" "ls2_alu")
	41	(presence_set "ls2_alu1_turn" "ls2_alu1_turn_enabled")
	42	(presence_set "ls2_alu2_turn" "ls2_alu2_turn_enabled")
	43
	44	;; Reservations for ALU1 (ALU2) instructions.
	45	;; Instruction goes to ALU1 (ALU2) and makes next ALU1/2 instruction to
	46	;; be dispatched to ALU2 (ALU1).
	47	(define_reservation "ls2_alu1"
	48	"(ls2_alu1_core+ls2_alu2_turn_enabled)\|ls2_alu1_core")
	49	(define_reservation "ls2_alu2"
	50	"(ls2_alu2_core+ls2_alu1_turn_enabled)\|ls2_alu2_core")
	51
	52	;; Reservation for ALU1/2 instructions.
	53	;; Instruction will go to ALU1 iff ls2_alu1_turn_enabled is subscribed and
	54	;; switch the turn to ALU2 by subscribing ls2_alu2_turn_enabled.
	55	;; Or to ALU2 otherwise.
	56	(define_reservation "ls2_alu"
	57	"(ls2_alu1_core+ls2_alu1_turn+ls2_alu2_turn_enabled)
	58	\|(ls2_alu1_core+ls2_alu1_turn)
	59	\|(ls2_alu2_core+ls2_alu2_turn+ls2_alu1_turn_enabled)
	60	\|(ls2_alu2_core+ls2_alu2_turn)")
	61
	62	;; Automaton for floating-point instructions.
	63	(define_automaton "ls2_falu")
	64
	65	;; FALU1 and FALU2.
	66	;; We need to query these units to adjust round-robin counter.
	67	(define_query_cpu_unit "ls2_falu1_core,ls2_falu2_core" "ls2_falu")
	68
	69	;; Pseudo units to help modeling of FALU1/2 round-robin dispatch strategy.
	70	(define_cpu_unit "ls2_falu1_turn,ls2_falu2_turn" "ls2_falu")
	71
	72	;; Pseudo units to enable/disable ls2_falu[12]_turn units.
	73	;; ls2_falu[12]_turn unit can be subscribed only after
	74	;; ls2_falu[12]_turn_enabled unit is subscribed.
	75	(define_cpu_unit "ls2_falu1_turn_enabled,ls2_falu2_turn_enabled" "ls2_falu")
	76	(presence_set "ls2_falu1_turn" "ls2_falu1_turn_enabled")
	77	(presence_set "ls2_falu2_turn" "ls2_falu2_turn_enabled")
	78
	79	;; Reservations for FALU1 (FALU2) instructions.
	80	;; Instruction goes to FALU1 (FALU2) and makes next FALU1/2 instruction to
	81	;; be dispatched to FALU2 (FALU1).
	82	(define_reservation "ls2_falu1"
	83	"(ls2_falu1_core+ls2_falu2_turn_enabled)\|ls2_falu1_core")
	84	(define_reservation "ls2_falu2"
	85	"(ls2_falu2_core+ls2_falu1_turn_enabled)\|ls2_falu2_core")
	86
	87	;; Reservation for FALU1/2 instructions.
	88	;; Instruction will go to FALU1 iff ls2_falu1_turn_enabled is subscribed and
	89	;; switch the turn to FALU2 by subscribing ls2_falu2_turn_enabled.
	90	;; Or to FALU2 otherwise.
91	(define_reservation "ls2_falu"
92	"(ls2_falu1+ls2_falu1_turn+ls2_falu2_turn_enabled)
93	\|(ls2_falu1+ls2_falu1_turn)
94	\|(ls2_falu2+ls2_falu2_turn+ls2_falu1_turn_enabled)
95	\|(ls2_falu2+ls2_falu2_turn)")
96
97	;; The following 4 instructions each subscribe one of
98	;; ls2_[f]alu{1,2}_turn_enabled units according to this attribute.
99	;; These instructions are used in mips.c: sched_ls2_dfa_post_advance_cycle.
100
3088716e	101	(define_attr "ls2_turn_type" "alu1,alu2,falu1,falu2,unknown,atomic,syncloop"
58684fa0 MK	102	(const_string "unknown"))
	103
	104	;; Subscribe ls2_alu1_turn_enabled.
	105	(define_insn "ls2_alu1_turn_enabled_insn"
	106	[(unspec [(const_int 0)] UNSPEC_LOONGSON_ALU1_TURN_ENABLED_INSN)]
	107	"TUNE_LOONGSON_2EF"
	108	{ gcc_unreachable (); }
	109	[(set_attr "ls2_turn_type" "alu1")])
	110
	111	(define_insn_reservation "ls2_alu1_turn_enabled" 0
	112	(eq_attr "ls2_turn_type" "alu1")
	113	"ls2_alu1_turn_enabled")
	114
	115	;; Subscribe ls2_alu2_turn_enabled.
	116	(define_insn "ls2_alu2_turn_enabled_insn"
	117	[(unspec [(const_int 0)] UNSPEC_LOONGSON_ALU2_TURN_ENABLED_INSN)]
	118	"TUNE_LOONGSON_2EF"
	119	{ gcc_unreachable (); }
	120	[(set_attr "ls2_turn_type" "alu2")])
	121
	122	(define_insn_reservation "ls2_alu2_turn_enabled" 0
	123	(eq_attr "ls2_turn_type" "alu2")
	124	"ls2_alu2_turn_enabled")
	125
	126	;; Subscribe ls2_falu1_turn_enabled.
	127	(define_insn "ls2_falu1_turn_enabled_insn"
	128	[(unspec [(const_int 0)] UNSPEC_LOONGSON_FALU1_TURN_ENABLED_INSN)]
	129	"TUNE_LOONGSON_2EF"
	130	{ gcc_unreachable (); }
	131	[(set_attr "ls2_turn_type" "falu1")])
	132
	133	(define_insn_reservation "ls2_falu1_turn_enabled" 0
	134	(eq_attr "ls2_turn_type" "falu1")
	135	"ls2_falu1_turn_enabled")
	136
	137	;; Subscribe ls2_falu2_turn_enabled.
	138	(define_insn "ls2_falu2_turn_enabled_insn"
	139	[(unspec [(const_int 0)] UNSPEC_LOONGSON_FALU2_TURN_ENABLED_INSN)]
	140	"TUNE_LOONGSON_2EF"
	141	{ gcc_unreachable (); }
	142	[(set_attr "ls2_turn_type" "falu2")])
	143
	144	(define_insn_reservation "ls2_falu2_turn_enabled" 0
	145	(eq_attr "ls2_turn_type" "falu2")
	146	"ls2_falu2_turn_enabled")
	147
	148	;; Automaton for memory operations.
	149	(define_automaton "ls2_mem")
	150
	151	;; Memory unit.
	152	(define_query_cpu_unit "ls2_mem" "ls2_mem")
	153
	154	;; Reservation for integer instructions.
	155	(define_insn_reservation "ls2_alu" 2
	156	(and (eq_attr "cpu" "loongson_2e,loongson_2f")
cb00489c RS	157	(eq_attr "type" "arith,condmove,const,logical,mfhi,mflo,move,
cb00489c RS	158	mthi,mtlo,nop,shift,signext,slt"))
58684fa0 MK	159	"ls2_alu")
	160
	161	;; Reservation for branch instructions.
	162	(define_insn_reservation "ls2_branch" 2
	163	(and (eq_attr "cpu" "loongson_2e,loongson_2f")
	164	(eq_attr "type" "branch,jump,call,trap"))
	165	"ls2_alu1")
	166
	167	;; Reservation for integer multiplication instructions.
	168	(define_insn_reservation "ls2_imult" 5
	169	(and (eq_attr "cpu" "loongson_2e,loongson_2f")
1a0f175d	170	(eq_attr "type" "imul,imul3nc"))
58684fa0 MK	171	"ls2_alu2,ls2_alu2_core")
	172
	173	;; Reservation for integer division / remainder instructions.
	174	;; These instructions use the SRT algorithm and hence take 2-38 cycles.
	175	(define_insn_reservation "ls2_idiv" 20
	176	(and (eq_attr "cpu" "loongson_2e,loongson_2f")
1a0f175d	177	(eq_attr "type" "idiv,idiv3"))
58684fa0 MK	178	"ls2_alu2,ls2_alu2_core*18")
	179
	180	;; Reservation for memory load instructions.
	181	(define_insn_reservation "ls2_load" 5
	182	(and (eq_attr "cpu" "loongson_2e,loongson_2f")
	183	(eq_attr "type" "load,fpload,mfc,mtc"))
	184	"ls2_mem")
	185
1a0f175d RB	186	(define_insn_reservation "ls2_prefetch" 0
	187	(and (eq_attr "cpu" "loongson_2e,loongson_2f")
	188	(eq_attr "type" "prefetch,prefetchx"))
	189	"ls2_mem")
	190
58684fa0 MK	191	;; Reservation for memory store instructions.
	192	;; With stores we assume they don't alias with dependent loads.
	193	;; Therefore we set the latency to zero.
	194	(define_insn_reservation "ls2_store" 0
	195	(and (eq_attr "cpu" "loongson_2e,loongson_2f")
	196	(eq_attr "type" "store,fpstore"))
	197	"ls2_mem")
	198
	199	;; Reservation for floating-point instructions of latency 3.
	200	(define_insn_reservation "ls2_fp3" 3
	201	(and (eq_attr "cpu" "loongson_2e,loongson_2f")
	202	(eq_attr "type" "fabs,fneg,fcmp,fmove"))
	203	"ls2_falu1")
	204
	205	;; Reservation for floating-point instructions of latency 5.
	206	(define_insn_reservation "ls2_fp5" 5
	207	(and (eq_attr "cpu" "loongson_2e,loongson_2f")
	208	(eq_attr "type" "fcvt"))
	209	"ls2_falu1")
	210
	211	;; Reservation for floating-point instructions that can go
	212	;; to either of FALU1/2 units.
	213	(define_insn_reservation "ls2_falu" 7
	214	(and (eq_attr "cpu" "loongson_2e,loongson_2f")
	215	(eq_attr "type" "fadd,fmul,fmadd"))
	216	"ls2_falu")
	217
	218	;; Reservation for floating-point division / remainder instructions.
	219	;; These instructions use the SRT algorithm and hence take a variable amount
	220	;; of cycles:
	221	;; div.s takes 5-11 cycles
	222	;; div.d takes 5-18 cycles
	223	(define_insn_reservation "ls2_fdiv" 9
	224	(and (eq_attr "cpu" "loongson_2e,loongson_2f")
	225	(eq_attr "type" "fdiv"))
	226	"ls2_falu2,ls2_falu2_core*7")
	227
	228	;; Reservation for floating-point sqrt instructions.
	229	;; These instructions use the SRT algorithm and hence take a variable amount
	230	;; of cycles:
	231	;; sqrt.s takes 5-17 cycles
	232	;; sqrt.d takes 5-32 cycles
	233	(define_insn_reservation "ls2_fsqrt" 15
	234	(and (eq_attr "cpu" "loongson_2e,loongson_2f")
	235	(eq_attr "type" "fsqrt"))
	236	"ls2_falu2,ls2_falu2_core*13")
	237
	238	;; Two consecutive ALU instructions.
	239	(define_insn_reservation "ls2_multi" 4
	240	(and (eq_attr "cpu" "loongson_2e,loongson_2f")
	241	(eq_attr "type" "multi"))
	242	"(ls2_alu1,ls2_alu2_core)\|(ls2_alu2,ls2_alu1_core)")
	243
	244	;; Reservation for everything else. Normally, this reservation
	245	;; will only be used to handle cases like compiling for non-loongson
	246	;; CPUs with -mtune=loongson2?.
	247	;;
	248	;; This reservation depends upon the fact that DFA will check
	249	;; reservations in the same order as they appear in the file.
	250	(define_insn_reservation "ls2_unknown" 1
	251	(eq_attr "cpu" "loongson_2e,loongson_2f")
	252	"ls2_alu1_core+ls2_alu2_core+ls2_falu1_core+ls2_falu2_core+ls2_mem")