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;;- Machine description for Renesas / SuperH SH.
;;  Copyright (C) 1993, 1994, 1995, 1996, 1997, 1998, 1999, 2000, 2001, 2002,
;;  2003, 2004, 2005, 2006, 2007 Free Software Foundation, Inc.
;;  Contributed by Steve Chamberlain (sac@cygnus.com).
;;  Improved by Jim Wilson (wilson@cygnus.com).

;; 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/>.


;; ??? Should prepend a * to all pattern names which are not used.
;; This will make the compiler smaller, and rebuilds after changes faster.

;; ??? Should be enhanced to include support for many more GNU superoptimizer
;; sequences.  Especially the sequences for arithmetic right shifts.

;; ??? Should check all DImode patterns for consistency and usefulness.

;; ??? The MAC.W and MAC.L instructions are not supported.  There is no
;; way to generate them.

;; ??? The cmp/str instruction is not supported.  Perhaps it can be used
;; for a str* inline function.

;; BSR is not generated by the compiler proper, but when relaxing, it
;; generates .uses pseudo-ops that allow linker relaxation to create
;; BSR.  This is actually implemented in bfd/{coff,elf32}-sh.c

;; Special constraints for SH machine description:
;;
;;    t -- T
;;    x -- mac
;;    l -- pr
;;    z -- r0
;;
;; Special formats used for outputting SH instructions:
;;
;;   %.  --  print a .s if insn needs delay slot
;;   %@  --  print rte/rts if is/isn't an interrupt function
;;   %#  --  output a nop if there is nothing to put in the delay slot
;;   %O  --  print a constant without the #
;;   %R  --  print the lsw reg of a double
;;   %S  --  print the msw reg of a double
;;   %T  --  print next word of a double REG or MEM
;;
;; Special predicates:
;;
;;  arith_operand          -- operand is valid source for arithmetic op
;;  arith_reg_operand      -- operand is valid register for arithmetic op
;;  general_movdst_operand -- operand is valid move destination
;;  general_movsrc_operand -- operand is valid move source
;;  logical_operand        -- operand is valid source for logical op

;; -------------------------------------------------------------------------
;; Constants
;; -------------------------------------------------------------------------

(define_constants [
  (AP_REG       145)
  (PR_REG       146)
  (T_REG        147)
  (GBR_REG      144)
  (MACH_REG     148)
  (MACL_REG     149)
  (FPUL_REG     150)
  (RAP_REG      152)

  (FPSCR_REG    151)

  (PIC_REG      12)
  (FP_REG       14)
  (SP_REG       15)

  (PR_MEDIA_REG 18)
  (T_MEDIA_REG  19)

  (R0_REG       0)
  (R1_REG       1)
  (R2_REG       2)
  (R3_REG       3)
  (R4_REG       4)
  (R5_REG       5)
  (R6_REG       6)
  (R7_REG       7)
  (R8_REG       8)
  (R9_REG       9)
  (R10_REG      10)
  (R20_REG      20)
  (R21_REG      21)
  (R22_REG      22)
  (R23_REG      23)

  (DR0_REG      64)
  (DR2_REG      66)
  (DR4_REG      68)
  (FR23_REG     87)

  (TR0_REG      128)
  (TR1_REG      129)
  (TR2_REG      130)

  (XD0_REG      136)

  ;; These are used with unspec.
  (UNSPEC_COMPACT_ARGS  0)
  (UNSPEC_MOVA          1)
  (UNSPEC_CASESI        2)
  (UNSPEC_DATALABEL     3)
  (UNSPEC_BBR           4)
  (UNSPEC_SFUNC         5)
  (UNSPEC_PIC           6)
  (UNSPEC_GOT           7)
  (UNSPEC_GOTOFF        8)
  (UNSPEC_PLT           9)
  (UNSPEC_CALLER        10)
  (UNSPEC_GOTPLT        11)
  (UNSPEC_ICACHE        12)
  (UNSPEC_INIT_TRAMP    13)
  (UNSPEC_FCOSA         14)
  (UNSPEC_FSRRA         15)
  (UNSPEC_FSINA         16)
  (UNSPEC_NSB           17)
  (UNSPEC_ALLOCO        18)
  (UNSPEC_EH_RETURN     19)
  (UNSPEC_TLSGD         20)
  (UNSPEC_TLSLDM        21)
  (UNSPEC_TLSIE         22)
  (UNSPEC_DTPOFF        23)
  (UNSPEC_GOTTPOFF      24)
  (UNSPEC_TPOFF         25)
  (UNSPEC_RA            26)
  (UNSPEC_DIV_INV_M0    30)
  (UNSPEC_DIV_INV_M1    31)
  (UNSPEC_DIV_INV_M2    32)
  (UNSPEC_DIV_INV_M3    33)
  (UNSPEC_DIV_INV20     34)
  (UNSPEC_DIV_INV_TABLE 37)
  (UNSPEC_ASHIFTRT      35)
  (UNSPEC_THUNK         36)
  (UNSPEC_SP_SET        40)
  (UNSPEC_SP_TEST       41)

  ;; These are used with unspec_volatile.
  (UNSPECV_BLOCKAGE     0)
  (UNSPECV_ALIGN        1)
  (UNSPECV_CONST2       2)
  (UNSPECV_CONST4       4)
  (UNSPECV_CONST8       6)
  (UNSPECV_WINDOW_END   10)
  (UNSPECV_CONST_END    11)
])

;; -------------------------------------------------------------------------
;; Attributes
;; -------------------------------------------------------------------------

;; Target CPU.

(define_attr "cpu"
 "sh1,sh2,sh2e,sh2a,sh3,sh3e,sh4,sh4a,sh5"
  (const (symbol_ref "sh_cpu_attr")))

(define_attr "endian" "big,little"
 (const (if_then_else (symbol_ref "TARGET_LITTLE_ENDIAN")
                      (const_string "little") (const_string "big"))))

;; Indicate if the default fpu mode is single precision.
(define_attr "fpu_single" "yes,no"
  (const (if_then_else (symbol_ref "TARGET_FPU_SINGLE")
                         (const_string "yes") (const_string "no"))))

(define_attr "fmovd" "yes,no"
  (const (if_then_else (symbol_ref "TARGET_FMOVD")
                       (const_string "yes") (const_string "no"))))
;; pipeline model
(define_attr "pipe_model" "sh1,sh4,sh5media"
  (const
   (cond [(symbol_ref "TARGET_SHMEDIA") (const_string "sh5media")
          (symbol_ref "TARGET_SUPERSCALAR") (const_string "sh4")]
         (const_string "sh1"))))

;; cbranch      conditional branch instructions
;; jump         unconditional jumps
;; arith        ordinary arithmetic
;; arith3       a compound insn that behaves similarly to a sequence of
;;              three insns of type arith
;; arith3b      like above, but might end with a redirected branch
;; load         from memory
;; load_si      Likewise, SImode variant for general register.
;; fload        Likewise, but load to fp register.
;; store        to memory
;; move         general purpose register to register
;; mt_group     other sh4 mt instructions
;; fmove        register to register, floating point
;; smpy         word precision integer multiply
;; dmpy         longword or doublelongword precision integer multiply
;; return       rts
;; pload        load of pr reg, which can't be put into delay slot of rts
;; prset        copy register to pr reg, ditto
;; pstore       store of pr reg, which can't be put into delay slot of jsr
;; prget        copy pr to register, ditto
;; pcload       pc relative load of constant value
;; pcfload      Likewise, but load to fp register.
;; pcload_si    Likewise, SImode variant for general register.
;; rte          return from exception
;; sfunc        special function call with known used registers
;; call         function call
;; fp           floating point
;; fdiv         floating point divide (or square root)
;; gp_fpul      move from general purpose register to fpul
;; fpul_gp      move from fpul to general purpose register
;; mac_gp       move from mac[lh] to general purpose register
;; dfp_arith, dfp_cmp,dfp_conv
;; ftrc_s       fix_truncsfsi2_i4
;; dfdiv        double precision floating point divide (or square root)
;; cwb          ic_invalidate_line_i
;; movua        SH4a unaligned load
;; fsrra        square root reciprocal approximate
;; fsca         sine and cosine approximate
;; tls_load     load TLS related address
;; arith_media  SHmedia arithmetic, logical, and shift instructions
;; cbranch_media SHmedia conditional branch instructions
;; cmp_media    SHmedia compare instructions
;; dfdiv_media  SHmedia double precision divide and square root
;; dfmul_media  SHmedia double precision multiply instruction
;; dfparith_media SHmedia double precision floating point arithmetic
;; dfpconv_media SHmedia double precision floating point conversions
;; dmpy_media   SHmedia longword multiply
;; fcmp_media   SHmedia floating point compare instructions
;; fdiv_media   SHmedia single precision divide and square root
;; fload_media  SHmedia floating point register load instructions
;; fmove_media  SHmedia floating point register moves (inc. fabs and fneg)
;; fparith_media SHmedia single precision floating point arithmetic
;; fpconv_media SHmedia single precision floating point conversions
;; fstore_media SHmedia floating point register store instructions
;; gettr_media  SHmedia gettr instruction
;; invalidate_line_media SHmedia invalidate_line sequence
;; jump_media   SHmedia unconditional branch instructions
;; load_media   SHmedia general register load instructions
;; pt_media     SHmedia pt instruction (expanded by assembler)
;; ptabs_media  SHmedia ptabs instruction
;; store_media  SHmedia general register store instructions
;; mcmp_media   SHmedia multimedia compare, absolute, saturating ops
;; mac_media    SHmedia mac-style fixed point operations
;; d2mpy_media  SHmedia: two 32 bit integer multiplies
;; atrans_media SHmedia approximate transcendental functions
;; ustore_media SHmedia unaligned stores
;; nil          no-op move, will be deleted.

(define_attr "type"
 "mt_group,cbranch,jump,jump_ind,arith,arith3,arith3b,dyn_shift,load,load_si,fload,store,move,fmove,smpy,dmpy,return,pload,prset,pstore,prget,pcload,pcload_si,pcfload,rte,sfunc,call,fp,fdiv,ftrc_s,dfp_arith,dfp_cmp,dfp_conv,dfdiv,gp_fpul,fpul_gp,mac_gp,mem_fpscr,gp_fpscr,cwb,movua,fsrra,fsca,tls_load,arith_media,cbranch_media,cmp_media,dfdiv_media,dfmul_media,dfparith_media,dfpconv_media,dmpy_media,fcmp_media,fdiv_media,fload_media,fmove_media,fparith_media,fpconv_media,fstore_media,gettr_media,invalidate_line_media,jump_media,load_media,pt_media,ptabs_media,store_media,mcmp_media,mac_media,d2mpy_media,atrans_media,ustore_media,nil,other"
  (const_string "other"))

;; We define a new attribute namely "insn_class".We use
;; this for the DFA based pipeline description.
;;
;; mt_group      SH4 "mt" group instructions.
;;
;; ex_group      SH4 "ex" group instructions.
;;
;; ls_group      SH4 "ls" group instructions.
;;

(define_attr "insn_class"
  "mt_group,ex_group,ls_group,br_group,fe_group,co_group,none"
  (cond [(eq_attr "type" "move,mt_group") (const_string "mt_group")
         (eq_attr "type" "arith,dyn_shift") (const_string "ex_group")
         (eq_attr "type" "fmove,load,pcload,load_si,pcload_si,fload,pcfload,store,gp_fpul,fpul_gp") (const_string "ls_group")
         (eq_attr "type" "cbranch,jump") (const_string "br_group")
         (eq_attr "type" "fp,fdiv,ftrc_s,dfp_arith,dfp_conv,dfdiv")
           (const_string "fe_group")
         (eq_attr "type" "jump_ind,smpy,dmpy,mac_gp,return,pload,prset,pstore,prget,rte,sfunc,call,dfp_cmp,mem_fpscr,gp_fpscr,cwb") (const_string "co_group")]
        (const_string "none")))
;; nil are zero instructions, and arith3 / arith3b are multiple instructions,
;; so these do not belong in an insn group, although they are modeled
;; with their own define_insn_reservations.

;; Indicate what precision must be selected in fpscr for this insn, if any.

(define_attr "fp_mode" "single,double,none" (const_string "none"))

;; Indicate if the fpu mode is set by this instruction
;; "unknown" must have the value as "none" in fp_mode, and means
;; that the instruction/abi has left the processor in an unknown
;; state.
;; "none" means that nothing has changed and no mode is set.
;; This attribute is only used for the Renesas ABI.
(define_attr "fp_set" "single,double,unknown,none" (const_string "none"))

; If a conditional branch destination is within -252..258 bytes away
; from the instruction it can be 2 bytes long.  Something in the
; range -4090..4100 bytes can be 6 bytes long.  All other conditional
; branches are initially assumed to be 16 bytes long.
; In machine_dependent_reorg, we split all branches that are longer than
; 2 bytes.

;; The maximum range used for SImode constant pool entries is 1018.  A final
;; instruction can add 8 bytes while only being 4 bytes in size, thus we
;; can have a total of 1022 bytes in the pool.  Add 4 bytes for a branch
;; instruction around the pool table, 2 bytes of alignment before the table,
;; and 30 bytes of alignment after the table.  That gives a maximum total
;; pool size of 1058 bytes.
;; Worst case code/pool content size ratio is 1:2 (using asms).
;; Thus, in the worst case, there is one instruction in front of a maximum
;; sized pool, and then there are 1052 bytes of pool for every 508 bytes of
;; code.  For the last n bytes of code, there are 2n + 36 bytes of pool.
;; If we have a forward branch, the initial table will be put after the
;; unconditional branch.
;;
;; ??? We could do much better by keeping track of the actual pcloads within
;; the branch range and in the pcload range in front of the branch range.

;; ??? This looks ugly because genattrtab won't allow if_then_else or cond
;; inside an le.
(define_attr "short_cbranch_p" "no,yes"
  (cond [(ne (symbol_ref "mdep_reorg_phase <= SH_FIXUP_PCLOAD") (const_int 0))
         (const_string "no")
         (leu (plus (minus (match_dup 0) (pc)) (const_int 252)) (const_int 506))
         (const_string "yes")
         (ne (symbol_ref "NEXT_INSN (PREV_INSN (insn)) != insn") (const_int 0))
         (const_string "no")
         (leu (plus (minus (match_dup 0) (pc)) (const_int 252)) (const_int 508))
         (const_string "yes")
         ] (const_string "no")))

(define_attr "med_branch_p" "no,yes"
  (cond [(leu (plus (minus (match_dup 0) (pc)) (const_int 990))
              (const_int 1988))
         (const_string "yes")
         (ne (symbol_ref "mdep_reorg_phase <= SH_FIXUP_PCLOAD") (const_int 0))
         (const_string "no")
         (leu (plus (minus (match_dup 0) (pc)) (const_int 4092))
              (const_int 8186))
         (const_string "yes")
         ] (const_string "no")))

(define_attr "med_cbranch_p" "no,yes"
  (cond [(leu (plus (minus (match_dup 0) (pc)) (const_int 988))
              (const_int 1986))
         (const_string "yes")
         (ne (symbol_ref "mdep_reorg_phase <= SH_FIXUP_PCLOAD") (const_int 0))
         (const_string "no")
         (leu (plus (minus (match_dup 0) (pc)) (const_int 4090))
               (const_int 8184))
         (const_string "yes")
         ] (const_string "no")))

(define_attr "braf_branch_p" "no,yes"
  (cond [(ne (symbol_ref "! TARGET_SH2") (const_int 0))
         (const_string "no")
         (leu (plus (minus (match_dup 0) (pc)) (const_int 10330))
              (const_int 20660))
         (const_string "yes")
         (ne (symbol_ref "mdep_reorg_phase <= SH_FIXUP_PCLOAD") (const_int 0))
         (const_string "no")
         (leu (plus (minus (match_dup 0) (pc)) (const_int 32764))
              (const_int 65530))
         (const_string "yes")
         ] (const_string "no")))

(define_attr "braf_cbranch_p" "no,yes"
  (cond [(ne (symbol_ref "! TARGET_SH2") (const_int 0))
         (const_string "no")
         (leu (plus (minus (match_dup 0) (pc)) (const_int 10328))
              (const_int 20658))
         (const_string "yes")
         (ne (symbol_ref "mdep_reorg_phase <= SH_FIXUP_PCLOAD") (const_int 0))
         (const_string "no")
         (leu (plus (minus (match_dup 0) (pc)) (const_int 32762))
              (const_int 65528))
         (const_string "yes")
         ] (const_string "no")))

; An unconditional jump in the range -4092..4098 can be 2 bytes long.
; For wider ranges, we need a combination of a code and a data part.
; If we can get a scratch register for a long range jump, the code
; part can be 4 bytes long; otherwise, it must be 8 bytes long.
; If the jump is in the range -32764..32770, the data part can be 2 bytes
; long; otherwise, it must be 6 bytes long.

; All other instructions are two bytes long by default.

;; ??? This should use something like *branch_p (minus (match_dup 0) (pc)),
;; but getattrtab doesn't understand this.
(define_attr "length" ""
  (cond [(eq_attr "type" "cbranch")
         (cond [(eq_attr "short_cbranch_p" "yes")
                (const_int 2)
                (eq_attr "med_cbranch_p" "yes")
                (const_int 6)
                (eq_attr "braf_cbranch_p" "yes")
                (const_int 12)
;; ??? using pc is not computed transitively.
                (ne (match_dup 0) (match_dup 0))
                (const_int 14)
                (ne (symbol_ref ("flag_pic")) (const_int 0))
                (const_int 24)
                ] (const_int 16))
         (eq_attr "type" "jump")
         (cond [(eq_attr "med_branch_p" "yes")
                (const_int 2)
                (and (ne (symbol_ref "prev_nonnote_insn (insn)")
                         (const_int 0))
                     (and (eq (symbol_ref "GET_CODE (prev_nonnote_insn (insn))")
                              (symbol_ref "INSN"))
                          (eq (symbol_ref "INSN_CODE (prev_nonnote_insn (insn))")
                              (symbol_ref "code_for_indirect_jump_scratch"))))
                (cond [(eq_attr "braf_branch_p" "yes")
                       (const_int 6)
                       (eq (symbol_ref "flag_pic") (const_int 0))
                       (const_int 10)
                       (ne (symbol_ref "TARGET_SH2") (const_int 0))
                       (const_int 10)] (const_int 18))
                (eq_attr "braf_branch_p" "yes")
                (const_int 10)
;; ??? using pc is not computed transitively.
                (ne (match_dup 0) (match_dup 0))
                (const_int 12)
                (ne (symbol_ref ("flag_pic")) (const_int 0))
                (const_int 22)
                ] (const_int 14))
         (eq_attr "type" "pt_media")
         (if_then_else (ne (symbol_ref "TARGET_SHMEDIA64") (const_int 0))
                       (const_int 20) (const_int 12))
         (and (eq_attr "type" "jump_media")
              (ne (symbol_ref "TARGET_SH5_CUT2_WORKAROUND") (const_int 0)))
         (const_int 8)
         ] (if_then_else (ne (symbol_ref "TARGET_SHMEDIA") (const_int 0))
                         (const_int 4)
                         (const_int 2))))

;; DFA descriptions for the pipelines

(include "sh1.md")
(include "shmedia.md")
(include "sh4.md")

(include "predicates.md")

;; Definitions for filling delay slots

(define_attr "needs_delay_slot" "yes,no" (const_string "no"))

;; ??? This should be (nil) instead of (const_int 0)
(define_attr "hit_stack" "yes,no"
        (cond [(eq (symbol_ref "find_regno_note (insn, REG_INC, SP_REG)")
                   (const_int 0))
               (const_string "no")]
              (const_string "yes")))

(define_attr "interrupt_function" "no,yes"
  (const (symbol_ref "current_function_interrupt")))

(define_attr "in_delay_slot" "yes,no"
  (cond [(eq_attr "type" "cbranch") (const_string "no")
         (eq_attr "type" "pcload,pcload_si") (const_string "no")
         (eq_attr "needs_delay_slot" "yes") (const_string "no")
         (eq_attr "length" "2") (const_string "yes")
         ] (const_string "no")))

(define_attr "cond_delay_slot" "yes,no"
  (cond [(eq_attr "in_delay_slot" "yes") (const_string "yes")
         ] (const_string "no")))

(define_attr "is_sfunc" ""
  (if_then_else (eq_attr "type" "sfunc") (const_int 1) (const_int 0)))

(define_attr "is_mac_media" ""
  (if_then_else (eq_attr "type" "mac_media") (const_int 1) (const_int 0)))

(define_attr "branch_zero" "yes,no"
  (cond [(eq_attr "type" "!cbranch") (const_string "no")
         (ne (symbol_ref "(next_active_insn (insn)\
                           == (prev_active_insn\
                               (XEXP (SET_SRC (PATTERN (insn)), 1))))\
                          && get_attr_length (next_active_insn (insn)) == 2")
             (const_int 0))
         (const_string "yes")]
        (const_string "no")))

;; SH4 Double-precision computation with double-precision result -
;; the two halves are ready at different times.
(define_attr "dfp_comp" "yes,no"
  (cond [(eq_attr "type" "dfp_arith,dfp_conv,dfdiv") (const_string "yes")]
        (const_string "no")))

;; Insns for which the latency of a preceding fp insn is decreased by one.
(define_attr "late_fp_use" "yes,no" (const_string "no"))
;; And feeding insns for which this relevant.
(define_attr "any_fp_comp" "yes,no"
  (cond [(eq_attr "type" "fp,fdiv,ftrc_s,dfp_arith,dfp_conv,dfdiv")
         (const_string "yes")]
        (const_string "no")))

(define_attr "any_int_load" "yes,no"
  (cond [(eq_attr "type" "load,load_si,pcload,pcload_si")
         (const_string "yes")]
        (const_string "no")))

(define_attr "highpart" "user, ignore, extend, depend, must_split"
  (const_string "user"))

(define_delay
  (eq_attr "needs_delay_slot" "yes")
  [(eq_attr "in_delay_slot" "yes") (nil) (nil)])

;; On the SH and SH2, the rte instruction reads the return pc from the stack,
;; and thus we can't put a pop instruction in its delay slot.
;; ??? On the SH3, the rte instruction does not use the stack, so a pop
;; instruction can go in the delay slot.

;; Since a normal return (rts) implicitly uses the PR register,
;; we can't allow PR register loads in an rts delay slot.

(define_delay
  (eq_attr "type" "return")
  [(and (eq_attr "in_delay_slot" "yes")
        (ior (and (eq_attr "interrupt_function" "no")
                  (eq_attr "type" "!pload,prset"))
             (and (eq_attr "interrupt_function" "yes")
                  (ior
                   (ne (symbol_ref "TARGET_SH3") (const_int 0))
                   (eq_attr "hit_stack" "no"))))) (nil) (nil)])

;; Since a call implicitly uses the PR register, we can't allow
;; a PR register store in a jsr delay slot.

(define_delay
  (ior (eq_attr "type" "call") (eq_attr "type" "sfunc"))
  [(and (eq_attr "in_delay_slot" "yes")
        (eq_attr "type" "!pstore,prget")) (nil) (nil)])

;; Say that we have annulled true branches, since this gives smaller and
;; faster code when branches are predicted as not taken.

;; ??? The non-annulled condition should really be "in_delay_slot",
;; but insns that can be filled in non-annulled get priority over insns
;; that can only be filled in anulled.

(define_delay
  (and (eq_attr "type" "cbranch")
       (ne (symbol_ref "TARGET_SH2") (const_int 0)))
  ;; SH2e has a hardware bug that pretty much prohibits the use of
  ;; annuled delay slots.
  [(eq_attr "cond_delay_slot" "yes") (and (eq_attr "cond_delay_slot" "yes")
                                          (not (eq_attr "cpu" "sh2e"))) (nil)])

;; -------------------------------------------------------------------------
;; SImode signed integer comparisons
;; -------------------------------------------------------------------------

(define_insn ""
  [(set (reg:SI T_REG)
        (eq:SI (and:SI (match_operand:SI 0 "arith_reg_operand" "z,r")
                       (match_operand:SI 1 "arith_operand" "K08,r"))
               (const_int 0)))]
  "TARGET_SH1"
  "tst  %1,%0"
  [(set_attr "type" "mt_group")])

;; ??? Perhaps should only accept reg/constant if the register is reg 0.
;; That would still allow reload to create cmpi instructions, but would
;; perhaps allow forcing the constant into a register when that is better.
;; Probably should use r0 for mem/imm compares, but force constant into a
;; register for pseudo/imm compares.

(define_insn "cmpeqsi_t"
  [(set (reg:SI T_REG)
        (eq:SI (match_operand:SI 0 "arith_reg_operand" "r,z,r")
               (match_operand:SI 1 "arith_operand" "N,rI08,r")))]
  "TARGET_SH1"
  "@
        tst     %0,%0
        cmp/eq  %1,%0
        cmp/eq  %1,%0"
   [(set_attr "type" "mt_group")])

(define_insn "cmpgtsi_t"
  [(set (reg:SI T_REG)
        (gt:SI (match_operand:SI 0 "arith_reg_operand" "r,r")
               (match_operand:SI 1 "arith_reg_or_0_operand" "r,N")))]
  "TARGET_SH1"
  "@
        cmp/gt  %1,%0
        cmp/pl  %0"
   [(set_attr "type" "mt_group")])

(define_insn "cmpgesi_t"
  [(set (reg:SI T_REG)
        (ge:SI (match_operand:SI 0 "arith_reg_operand" "r,r")
               (match_operand:SI 1 "arith_reg_or_0_operand" "r,N")))]
  "TARGET_SH1"
  "@
        cmp/ge  %1,%0
        cmp/pz  %0"
   [(set_attr "type" "mt_group")])

;; -------------------------------------------------------------------------
;; SImode unsigned integer comparisons
;; -------------------------------------------------------------------------

(define_insn "cmpgeusi_t"
  [(set (reg:SI T_REG)
        (geu:SI (match_operand:SI 0 "arith_reg_operand" "r")
                (match_operand:SI 1 "arith_reg_operand" "r")))]
  "TARGET_SH1"
  "cmp/hs       %1,%0"
   [(set_attr "type" "mt_group")])

(define_insn "cmpgtusi_t"
  [(set (reg:SI T_REG)
        (gtu:SI (match_operand:SI 0 "arith_reg_operand" "r")
                (match_operand:SI 1 "arith_reg_operand" "r")))]
  "TARGET_SH1"
  "cmp/hi       %1,%0"
   [(set_attr "type" "mt_group")])

;; We save the compare operands in the cmpxx patterns and use them when
;; we generate the branch.

(define_expand "cmpsi"
  [(set (reg:SI T_REG)
        (compare (match_operand:SI 0 "cmpsi_operand" "")
                 (match_operand:SI 1 "arith_operand" "")))]
  "TARGET_SH1 || TARGET_SHMEDIA"
  "
{
  if (GET_CODE (operands[0]) == REG && REGNO (operands[0]) == T_REG
      && GET_CODE (operands[1]) != CONST_INT)
    operands[0] = copy_to_mode_reg (SImode, operands[0]);
  sh_compare_op0 = operands[0];
  sh_compare_op1 = operands[1];
  DONE;
}")

;; -------------------------------------------------------------------------
;; DImode signed integer comparisons
;; -------------------------------------------------------------------------

;; ??? Could get better scheduling by splitting the initial test from the
;; rest of the insn after reload.  However, the gain would hardly justify
;; the sh.md size increase necessary to do that.

(define_insn ""
  [(set (reg:SI T_REG)
        (eq:SI (and:DI (match_operand:DI 0 "arith_reg_operand" "r")
                       (match_operand:DI 1 "arith_operand" "r"))
               (const_int 0)))]
  "TARGET_SH1"
  "* return output_branchy_insn (EQ, \"tst\\t%S1,%S0\;bf\\t%l9\;tst\\t%R1,%R0\",
                                 insn, operands);"
  [(set_attr "length" "6")
   (set_attr "type" "arith3b")])

(define_insn "cmpeqdi_t"
  [(set (reg:SI T_REG)
        (eq:SI (match_operand:DI 0 "arith_reg_operand" "r,r")
               (match_operand:DI 1 "arith_reg_or_0_operand" "N,r")))]
  "TARGET_SH1"
  "@
        tst     %S0,%S0\;bf     %,Ldi%=\;tst    %R0,%R0\\n%,Ldi%=:
        cmp/eq  %S1,%S0\;bf     %,Ldi%=\;cmp/eq %R1,%R0\\n%,Ldi%=:"
  [(set_attr "length" "6")
   (set_attr "type" "arith3b")])

(define_split
  [(set (reg:SI T_REG)
        (eq:SI (match_operand:DI 0 "arith_reg_operand" "")
               (match_operand:DI 1 "arith_reg_or_0_operand" "")))]
;; If we applied this split when not optimizing, it would only be
;; applied during the machine-dependent reorg, when no new basic blocks
;; may be created.
  "TARGET_SH1 && reload_completed && optimize"
  [(set (reg:SI T_REG) (eq:SI (match_dup 2) (match_dup 3)))
   (set (pc) (if_then_else (eq (reg:SI T_REG) (const_int 0))
                           (label_ref (match_dup 6))
                           (pc)))
   (set (reg:SI T_REG) (eq:SI (match_dup 4) (match_dup 5)))
   (match_dup 6)]
  "
{
  operands[2]
    = gen_rtx_REG (SImode,
                   true_regnum (operands[0]) + (TARGET_LITTLE_ENDIAN ? 1 : 0));
  operands[3]
    = (operands[1] == const0_rtx
       ? const0_rtx
       : gen_rtx_REG (SImode,
                      true_regnum (operands[1])
                      + (TARGET_LITTLE_ENDIAN ? 1 : 0)));
  operands[4] = gen_lowpart (SImode, operands[0]);
  operands[5] = gen_lowpart (SImode, operands[1]);
  operands[6] = gen_label_rtx ();
}")

(define_insn "cmpgtdi_t"
  [(set (reg:SI T_REG)
        (gt:SI (match_operand:DI 0 "arith_reg_operand" "r,r")
               (match_operand:DI 1 "arith_reg_or_0_operand" "r,N")))]
  "TARGET_SH2"
  "@
        cmp/eq\\t%S1,%S0\;bf{.|/}s\\t%,Ldi%=\;cmp/gt\\t%S1,%S0\;cmp/hi\\t%R1,%R0\\n%,Ldi%=:
        tst\\t%S0,%S0\;bf{.|/}s\\t%,Ldi%=\;cmp/pl\\t%S0\;cmp/hi\\t%S0,%R0\\n%,Ldi%=:"
  [(set_attr "length" "8")
   (set_attr "type" "arith3")])

(define_insn "cmpgedi_t"
  [(set (reg:SI T_REG)
        (ge:SI (match_operand:DI 0 "arith_reg_operand" "r,r")
               (match_operand:DI 1 "arith_reg_or_0_operand" "r,N")))]
  "TARGET_SH2"
  "@
        cmp/eq\\t%S1,%S0\;bf{.|/}s\\t%,Ldi%=\;cmp/ge\\t%S1,%S0\;cmp/hs\\t%R1,%R0\\n%,Ldi%=:
        cmp/pz\\t%S0"
  [(set_attr "length" "8,2")
   (set_attr "type" "arith3,mt_group")])

;; -------------------------------------------------------------------------
;; DImode unsigned integer comparisons
;; -------------------------------------------------------------------------

(define_insn "cmpgeudi_t"
  [(set (reg:SI T_REG)
        (geu:SI (match_operand:DI 0 "arith_reg_operand" "r")
                (match_operand:DI 1 "arith_reg_operand" "r")))]
  "TARGET_SH2"
  "cmp/eq\\t%S1,%S0\;bf{.|/}s\\t%,Ldi%=\;cmp/hs\\t%S1,%S0\;cmp/hs\\t%R1,%R0\\n%,Ldi%=:"
  [(set_attr "length" "8")
   (set_attr "type" "arith3")])

(define_insn "cmpgtudi_t"
  [(set (reg:SI T_REG)
        (gtu:SI (match_operand:DI 0 "arith_reg_operand" "r")
                (match_operand:DI 1 "arith_reg_operand" "r")))]
  "TARGET_SH2"
  "cmp/eq\\t%S1,%S0\;bf{.|/}s\\t%,Ldi%=\;cmp/hi\\t%S1,%S0\;cmp/hi\\t%R1,%R0\\n%,Ldi%=:"
  [(set_attr "length" "8")
   (set_attr "type" "arith3")])

(define_insn "cmpeqsi_media"
  [(set (match_operand:SI 0 "register_operand" "=r")
        (eq:SI (match_operand:SI 1 "logical_operand" "%r")
               (match_operand:SI 2 "cmp_operand" "Nr")))]
  "TARGET_SHMEDIA"
  "cmpeq        %1, %N2, %0"
  [(set_attr "type" "cmp_media")])

(define_insn "cmpeqdi_media"
  [(set (match_operand:SI 0 "register_operand" "=r")
        (eq:SI (match_operand:DI 1 "register_operand" "%r")
               (match_operand:DI 2 "cmp_operand" "Nr")))]
  "TARGET_SHMEDIA"
  "cmpeq        %1, %N2, %0"
  [(set_attr "type" "cmp_media")])

(define_insn "cmpgtsi_media"
  [(set (match_operand:SI 0 "register_operand" "=r")
        (gt:SI (match_operand:SI 1 "cmp_operand" "Nr")
               (match_operand:SI 2 "cmp_operand" "rN")))]
  "TARGET_SHMEDIA"
  "cmpgt        %N1, %N2, %0"
  [(set_attr "type" "cmp_media")])

(define_insn "cmpgtdi_media"
  [(set (match_operand:SI 0 "register_operand" "=r")
        (gt:SI (match_operand:DI 1 "arith_reg_or_0_operand" "Nr")
               (match_operand:DI 2 "arith_reg_or_0_operand" "rN")))]
  "TARGET_SHMEDIA"
  "cmpgt        %N1, %N2, %0"
  [(set_attr "type" "cmp_media")])

(define_insn "cmpgtusi_media"
  [(set (match_operand:SI 0 "register_operand" "=r")
        (gtu:SI (match_operand:SI 1 "cmp_operand" "Nr")
                (match_operand:SI 2 "cmp_operand" "rN")))]
  "TARGET_SHMEDIA"
  "cmpgtu       %N1, %N2, %0"
  [(set_attr "type" "cmp_media")])

(define_insn "cmpgtudi_media"
  [(set (match_operand:SI 0 "register_operand" "=r")
        (gtu:SI (match_operand:DI 1 "arith_reg_or_0_operand" "Nr")
                (match_operand:DI 2 "arith_reg_or_0_operand" "rN")))]
  "TARGET_SHMEDIA"
  "cmpgtu       %N1, %N2, %0"
  [(set_attr "type" "cmp_media")])

; These two patterns are for combine.
(define_insn "*cmpne0sisi_media"
  [(set (match_operand:SI 0 "register_operand" "=r")
        (ne:SI (match_operand:SI 1 "arith_reg_operand" "r") (const_int 0)))]
  "TARGET_SHMEDIA"
  "cmpgtu       %1,r63,%0"
  [(set_attr "type" "cmp_media")])

;; We save the compare operands in the cmpxx patterns and use them when
;; we generate the branch.

(define_expand "cmpdi"
  [(set (reg:SI T_REG)
        (compare (match_operand:DI 0 "arith_operand" "")
                 (match_operand:DI 1 "arith_operand" "")))]
  "TARGET_SH2 || TARGET_SHMEDIA"
  "
{
  sh_compare_op0 = operands[0];
  sh_compare_op1 = operands[1];
  DONE;
}")
;; -------------------------------------------------------------------------
;; Conditional move instructions
;; -------------------------------------------------------------------------

;; The insn names may seem reversed, but note that cmveq performs the move
;; if op1 == 0, and cmvne does it if op1 != 0.

(define_insn "movdicc_false"
  [(set (match_operand:DI 0 "arith_reg_dest" "=r")
        (if_then_else:DI (eq (match_operand:DI 1 "arith_reg_operand" "r")
                             (const_int 0))
         (match_operand:DI 2 "arith_reg_or_0_operand" "rN")
         (match_operand:DI 3 "arith_reg_operand" "0")))]
  "TARGET_SHMEDIA"
  "cmveq        %1, %N2, %0"
  [(set_attr "type" "arith_media")])

(define_insn "movdicc_true"
  [(set (match_operand:DI 0 "arith_reg_dest" "=r")
        (if_then_else:DI (ne (match_operand:DI 1 "arith_reg_operand" "r")
                             (const_int 0))
         (match_operand:DI 2 "arith_reg_or_0_operand" "rN")
         (match_operand:DI 3 "arith_reg_operand" "0")))]
  "TARGET_SHMEDIA"
  "cmvne        %1, %N2, %0"
  [(set_attr "type" "arith_media")])

(define_peephole2
  [(set (match_operand:DI 0 "arith_reg_dest" "")
        (if_then_else:DI (match_operator 3 "equality_comparison_operator"
                           [(match_operand:DI 1 "arith_reg_operand" "")
                            (const_int 0)])
         (match_operand:DI 2 "arith_reg_dest" "")
         (match_dup 0)))
   (set (match_dup 2) (match_dup 0))]
  "TARGET_SHMEDIA && peep2_reg_dead_p (2, operands[0])"
  [(set (match_dup 2)
        (if_then_else:DI (match_dup 3) (match_dup 0) (match_dup 2)))]
  "
{
  operands[3] = gen_rtx_fmt_ee (reverse_condition (GET_CODE (operands[3])),
                                VOIDmode, operands[1], CONST0_RTX (DImode));
}")

(define_peephole2
  [(set (match_operand:DI 0 "general_movdst_operand" "")
        (match_operand:DI 1 "arith_reg_or_0_operand" ""))
   (set (match_operand:DI 2 "arith_reg_dest" "")
        (if_then_else:DI (match_operator 4 "equality_comparison_operator"
                           [(match_operand:DI 3 "arith_reg_operand" "")
                            (const_int 0)])
         (match_dup 0)
         (match_dup 2)))]
  "TARGET_SHMEDIA && peep2_reg_dead_p (2, operands[0])"
  [(set (match_dup 2)
        (if_then_else:DI (match_dup 4) (match_dup 1) (match_dup 2)))]
  "")

(define_expand "movdicc"
  [(set (match_operand:DI 0 "register_operand" "")
        (if_then_else:DI (match_operand 1 "comparison_operator" "")
                         (match_operand:DI 2 "register_operand" "")
                         (match_operand:DI 3 "register_operand" "")))]
  "TARGET_SHMEDIA"
  "
{
  if ((GET_CODE (operands[1]) == EQ || GET_CODE (operands[1]) == NE)
      && GET_MODE (sh_compare_op0) == DImode
      && sh_compare_op1 == const0_rtx)
    operands[1] = gen_rtx_fmt_ee (GET_CODE (operands[1]), VOIDmode,
                                  sh_compare_op0, sh_compare_op1);
  else
    {
      rtx tmp;

      if (no_new_pseudos)
        FAIL;

      tmp = gen_reg_rtx (DImode);

      switch (GET_CODE (operands[1]))
        {
        case EQ:
          emit_insn (gen_seq (tmp));
          operands[1] = gen_rtx_NE (VOIDmode, tmp, const0_rtx);
          break;

        case NE:
          emit_insn (gen_seq (tmp));
          operands[1] = gen_rtx_EQ (VOIDmode, tmp, const0_rtx);
          break;

        case GT:
          emit_insn (gen_sgt (tmp));
          operands[1] = gen_rtx_NE (VOIDmode, tmp, const0_rtx);
          break;

        case LT:
          emit_insn (gen_slt (tmp));
          operands[1] = gen_rtx_NE (VOIDmode, tmp, const0_rtx);
          break;

        case GE:
          emit_insn (gen_slt (tmp));
          operands[1] = gen_rtx_EQ (VOIDmode, tmp, const0_rtx);
          break;

        case LE:
          emit_insn (gen_sgt (tmp));
          operands[1] = gen_rtx_EQ (VOIDmode, tmp, const0_rtx);
          break;

        case GTU:
          emit_insn (gen_sgtu (tmp));
          operands[1] = gen_rtx_NE (VOIDmode, tmp, const0_rtx);
          break;

        case LTU:
          emit_insn (gen_sltu (tmp));
          operands[1] = gen_rtx_NE (VOIDmode, tmp, const0_rtx);
          break;

        case GEU:
          emit_insn (gen_sltu (tmp));
          operands[1] = gen_rtx_EQ (VOIDmode, tmp, const0_rtx);
          break;

        case LEU:
          emit_insn (gen_sgtu (tmp));
          operands[1] = gen_rtx_EQ (VOIDmode, tmp, const0_rtx);
          break;

        case UNORDERED:
          emit_insn (gen_sunordered (tmp));
          operands[1] = gen_rtx_NE (VOIDmode, tmp, const0_rtx);
          break;

        case ORDERED:
          emit_insn (gen_sunordered (tmp));
          operands[1] = gen_rtx_EQ (VOIDmode, tmp, const0_rtx);
          break;

        case UNEQ:
        case UNGE:
        case UNGT:
        case UNLE:
        case UNLT:
        case LTGT:
          FAIL;

        default:
          gcc_unreachable ();
        }
    }
}")

;; Add SImode variants for cmveq / cmvne to compensate for not promoting
;; SImode to DImode.
(define_insn "movsicc_false"
  [(set (match_operand:SI 0 "arith_reg_dest" "=r")
        (if_then_else:SI (eq (match_operand:SI 1 "arith_reg_operand" "r")
                          (const_int 0))
         (match_operand:SI 2 "arith_reg_or_0_operand" "rN")
         (match_operand:SI 3 "arith_reg_operand" "0")))]
  "TARGET_SHMEDIA"
  "cmveq        %1, %N2, %0"
  [(set_attr "type" "arith_media")])

(define_insn "movsicc_true"
  [(set (match_operand:SI 0 "arith_reg_dest" "=r")
        (if_then_else:SI (ne (match_operand:SI 1 "arith_reg_operand" "r")
                          (const_int 0))
         (match_operand:SI 2 "arith_reg_or_0_operand" "rN")
         (match_operand:SI 3 "arith_reg_operand" "0")))]
  "TARGET_SHMEDIA"
  "cmvne        %1, %N2, %0"
  [(set_attr "type" "arith_media")])

(define_peephole2
  [(set (match_operand:SI 0 "arith_reg_dest" "")
        (if_then_else:SI (match_operator 3 "equality_comparison_operator"
                           [(match_operand:SI 1 "arith_reg_operand" "")
                            (const_int 0)])
         (match_operand:SI 2 "arith_reg_dest" "")
         (match_dup 0)))
   (set (match_dup 2) (match_dup 0))]
  "TARGET_SHMEDIA && peep2_reg_dead_p (2, operands[0])"
  [(set (match_dup 2)
        (if_then_else:SI (match_dup 3) (match_dup 0) (match_dup 2)))]
  "
{
  operands[3] = gen_rtx_fmt_ee (reverse_condition (GET_CODE (operands[3])),
                                VOIDmode, operands[1], CONST0_RTX (SImode));
}")

(define_peephole2
  [(set (match_operand:SI 0 "general_movdst_operand" "")
        (match_operand:SI 1 "arith_reg_or_0_operand" ""))
   (set (match_operand:SI 2 "arith_reg_dest" "")
        (if_then_else:SI (match_operator 4 "equality_comparison_operator"
                           [(match_operand:SI 3 "arith_reg_operand" "")
                            (const_int 0)])
         (match_dup 0)
         (match_dup 2)))]
  "TARGET_SHMEDIA && peep2_reg_dead_p (2, operands[0])
   && (GET_CODE (operands[1]) != REG || GENERAL_REGISTER_P (REGNO (operands[1])))"
  [(set (match_dup 2)
        (if_then_else:SI (match_dup 4) (match_dup 1) (match_dup 2)))]
  "
{
  replace_rtx (operands[4], operands[0], operands[1]);
}")

(define_peephole2
  [(set (match_operand 0 "any_register_operand" "")
        (match_operand 1 "any_register_operand" ""))
   (set (match_operand 2 "any_register_operand" "") (match_operand 3 "" ""))
   (set (match_operand 4 "" "") (match_operand 5 "" ""))]
  "(HARD_REGNO_NREGS (REGNO (operands[0]), GET_MODE (operands[2]))
    <= HARD_REGNO_NREGS (REGNO (operands[0]), GET_MODE (operands[0])))
   && peep2_reg_dead_p (3, operands[0]) && peep2_reg_dead_p (3, operands[2])
   && ! FIND_REG_INC_NOTE (peep2_next_insn (2), operands[0])
   && ! FIND_REG_INC_NOTE (peep2_next_insn (2), operands[2])
   && ! reg_overlap_mentioned_p (operands[0], operands[3])
   && ! reg_overlap_mentioned_p (operands[2], operands[0])
   && ! reg_overlap_mentioned_p (operands[0], operands[1])
   && (REGNO_REG_CLASS (REGNO (operands[0]))
       == REGNO_REG_CLASS (REGNO (operands[2])))
   && (REGNO_REG_CLASS (REGNO (operands[1]))
       == REGNO_REG_CLASS (REGNO (operands[0])))"
  [(set (match_dup 0) (match_dup 3))
   (set (match_dup 4) (match_dup 5))]
  "
{
  rtx set1, set2;
  rtx replacements[4];

  /* We want to replace occurrences of operands[0] with operands[1] and
     operands[2] with operands[0] in operands[4]/operands[5].
     Doing just two replace_rtx calls naively would result in the second
     replacement undoing all that the first did if operands[1] and operands[2]
     are identical, so we must do this simultaneously.  */
  replacements[0] = operands[0];
  replacements[1] = operands[1];
  replacements[2] = operands[2];
  replacements[3] = operands[0];
  if (!replace_n_hard_rtx (operands[5], replacements, 2, 0)
      || !replace_n_hard_rtx (operands[4], replacements, 2, 0)
      || !replace_n_hard_rtx (operands[2], replacements, 2, 0))
    FAIL;

  operands[5] = replace_n_hard_rtx (operands[5], replacements, 2, 1);
  replace_n_hard_rtx (operands[4], replacements, 2, 1);
  operands[2] = replace_n_hard_rtx (operands[2], replacements, 2, 1);
  /* The operands array is aliased to recog_data.operand, which gets
     clobbered by extract_insn, so finish with it now.  */
  set1 = gen_rtx_SET (VOIDmode, operands[2], operands[3]);
  set2 = gen_rtx_SET (VOIDmode, operands[4], operands[5]);
  /* ??? The last insn might be a jump insn, but the generic peephole2 code
     always uses emit_insn.  */
  /* Check that we don't violate matching constraints or earlyclobbers.  */
  extract_insn (emit_insn (set1));
  if (! constrain_operands (1))
    goto failure;
  extract_insn (emit (set2));
  if (! constrain_operands (1))
    {
      rtx tmp;
    failure:
      tmp = replacements[0];
      replacements[0] = replacements[1];
      replacements[1] = tmp;
      tmp = replacements[2];
      replacements[2] = replacements[3];
      replacements[3] = tmp;
      replace_n_hard_rtx (SET_DEST (set1), replacements, 2, 1);
      replace_n_hard_rtx (SET_DEST (set2), replacements, 2, 1);
      replace_n_hard_rtx (SET_SRC (set2), replacements, 2, 1);
      FAIL;
    }
  DONE;
}")

;; The register allocator is rather clumsy in handling multi-way conditional
;; moves, so allow the combiner to make them, and we split them up after
;; reload.  */
(define_insn_and_split "*movsicc_umin"
  [(set (match_operand:SI 0 "arith_reg_dest" "=&r")
        (umin:SI (if_then_else:SI
                   (eq (match_operand:SI 1 "arith_reg_operand" "r")
                       (const_int 0))
                   (match_operand:SI 2 "arith_reg_or_0_operand" "rN")
                   (match_operand:SI 3 "register_operand" "0"))
                 (match_operand:SI 4 "arith_reg_or_0_operand" "r")))
   (clobber (match_scratch:SI 5 "=&r"))]
  "TARGET_SHMEDIA && no_new_pseudos"
  "#"
  "TARGET_SHMEDIA && reload_completed"
  [(pc)]
  "
{
  emit_insn (gen_movsicc_false (operands[0], operands[1], operands[2],
                                operands[3]));
  emit_insn (gen_cmpgtusi_media (operands[5], operands[4], operands[0]));
  emit_insn (gen_movsicc_false (operands[0], operands[5], operands[4],
                                operands[0]));
  DONE;
}")

(define_insn "*movsicc_t_false"
  [(set (match_operand:SI 0 "arith_reg_dest" "=r,r")
        (if_then_else (eq (reg:SI T_REG) (const_int 0))
                      (match_operand:SI 1 "general_movsrc_operand" "r,I08")
                      (match_operand:SI 2 "arith_reg_operand" "0,0")))]
  "TARGET_PRETEND_CMOVE
   && (arith_reg_operand (operands[1], SImode)
       || (immediate_operand (operands[1], SImode)
           && CONST_OK_FOR_I08 (INTVAL (operands[1]))))"
  "bt 0f\;mov %1,%0\\n0:"
  [(set_attr "type" "mt_group,arith") ;; poor approximation
   (set_attr "length" "4")])

(define_insn "*movsicc_t_true"
  [(set (match_operand:SI 0 "arith_reg_dest" "=r,r")
        (if_then_else (ne (reg:SI T_REG) (const_int 0))
                      (match_operand:SI 1 "general_movsrc_operand" "r,I08")
                      (match_operand:SI 2 "arith_reg_operand" "0,0")))]
  "TARGET_PRETEND_CMOVE
   && (arith_reg_operand (operands[1], SImode)
       || (immediate_operand (operands[1], SImode)
           && CONST_OK_FOR_I08 (INTVAL (operands[1]))))"
  "bf 0f\;mov %1,%0\\n0:"
  [(set_attr "type" "mt_group,arith") ;; poor approximation
   (set_attr "length" "4")])

(define_expand "movsicc"
  [(set (match_operand:SI 0 "arith_reg_dest" "")
        (if_then_else:SI (match_operand 1 "comparison_operator" "")
                         (match_operand:SI 2 "arith_reg_or_0_operand" "")
                         (match_operand:SI 3 "arith_reg_operand" "")))]
  "TARGET_SHMEDIA || TARGET_PRETEND_CMOVE"
  "
{
  if ((GET_CODE (operands[1]) == EQ || GET_CODE (operands[1]) == NE)
      && GET_MODE (sh_compare_op0) == SImode
      && (TARGET_SHMEDIA
          || (REG_P (sh_compare_op0) && REGNO (sh_compare_op0) == T_REG))
      && sh_compare_op1 == const0_rtx)
    operands[1] = gen_rtx_fmt_ee (GET_CODE (operands[1]), VOIDmode,
                                  sh_compare_op0, sh_compare_op1);
  else if (TARGET_PRETEND_CMOVE)
    {
      enum rtx_code code = GET_CODE (operands[1]);
      enum rtx_code new_code = code;
      rtx tmp;

      if (! currently_expanding_to_rtl)
        FAIL;
      switch (code)
        {
        case LT: case LE: case LEU: case LTU:
          if (GET_MODE_CLASS (GET_MODE (sh_compare_op0)) != MODE_INT)
            break;
        case NE:
          new_code = reverse_condition (code);
          break;
        case EQ: case GT: case GE: case GEU: case GTU:
          break;
        default:
          FAIL;
        }
      tmp = prepare_scc_operands (new_code);
      operands[1] = gen_rtx_fmt_ee (new_code == code ? NE : EQ, VOIDmode,
                                    tmp, const0_rtx);
    }
  else
    {
      rtx tmp;

      if (no_new_pseudos)
        FAIL;

      tmp = gen_reg_rtx (SImode);

      switch (GET_CODE (operands[1]))
        {
        case EQ:
          emit_insn (gen_seq (tmp));
          operands[1] = gen_rtx_NE (VOIDmode, tmp, const0_rtx);
          break;

        case NE:
          emit_insn (gen_seq (tmp));
          operands[1] = gen_rtx_EQ (VOIDmode, tmp, const0_rtx);
          break;

        case GT:
          emit_insn (gen_sgt (tmp));
          operands[1] = gen_rtx_NE (VOIDmode, tmp, const0_rtx);
          break;

        case LT:
          emit_insn (gen_slt (tmp));
          operands[1] = gen_rtx_NE (VOIDmode, tmp, const0_rtx);
          break;

        case GE:
          emit_insn (gen_slt (tmp));
          operands[1] = gen_rtx_EQ (VOIDmode, tmp, const0_rtx);
          break;

        case LE:
          emit_insn (gen_sgt (tmp));
          operands[1] = gen_rtx_EQ (VOIDmode, tmp, const0_rtx);
          break;

        case GTU:
          emit_insn (gen_sgtu (tmp));
          operands[1] = gen_rtx_NE (VOIDmode, tmp, const0_rtx);
          break;

        case LTU:
          emit_insn (gen_sltu (tmp));
          operands[1] = gen_rtx_NE (VOIDmode, tmp, const0_rtx);
          break;

        case GEU:
          emit_insn (gen_sltu (tmp));
          operands[1] = gen_rtx_EQ (VOIDmode, tmp, const0_rtx);
          break;

        case LEU:
          emit_insn (gen_sgtu (tmp));
          operands[1] = gen_rtx_EQ (VOIDmode, tmp, const0_rtx);
          break;

        case UNORDERED:
          emit_insn (gen_sunordered (tmp));
          operands[1] = gen_rtx_NE (VOIDmode, tmp, const0_rtx);
          break;

        case ORDERED:
          emit_insn (gen_sunordered (tmp));
          operands[1] = gen_rtx_EQ (VOIDmode, tmp, const0_rtx);
          break;

        case UNEQ:
        case UNGE:
        case UNGT:
        case UNLE:
        case UNLT:
        case LTGT:
          FAIL;

        default:
          abort ();
        }
    }
}")

(define_expand "movqicc"
  [(set (match_operand:QI 0 "register_operand" "")
        (if_then_else:QI (match_operand 1 "comparison_operator" "")
                         (match_operand:QI 2 "register_operand" "")
                         (match_operand:QI 3 "register_operand" "")))]
  "TARGET_SHMEDIA"
  "
{
  operands[0] = simplify_gen_subreg (SImode, operands[0], QImode, 0);
  operands[2] = simplify_gen_subreg (SImode, operands[2], QImode, 0);
  operands[3] = simplify_gen_subreg (SImode, operands[3], QImode, 0);
  emit (gen_movsicc (operands[0], operands[1], operands[2], operands[3]));
  DONE;
}")

;; -------------------------------------------------------------------------
;; Addition instructions
;; -------------------------------------------------------------------------

(define_expand "adddi3"
  [(set (match_operand:DI 0 "arith_reg_operand" "")
        (plus:DI (match_operand:DI 1 "arith_reg_operand" "")
                 (match_operand:DI 2 "arith_operand" "")))]
  ""
  "
{
  if (TARGET_SH1)
    {
      if (no_new_pseudos && ! arith_reg_operand (operands[2], DImode))
        FAIL;
      operands[2] = force_reg (DImode, operands[2]);
      emit_insn (gen_adddi3_compact (operands[0], operands[1], operands[2]));
      DONE;
    }
}")

(define_insn "*adddi3_media"
  [(set (match_operand:DI 0 "arith_reg_dest" "=r,r")
        (plus:DI (match_operand:DI 1 "arith_reg_operand" "%r,r")
                 (match_operand:DI 2 "arith_operand" "r,I10")))]
  "TARGET_SHMEDIA"
  "@
        add     %1, %2, %0
        addi    %1, %2, %0"
  [(set_attr "type" "arith_media")])

(define_insn "*adddisi3_media"
  [(set (subreg:DI (match_operand:SI 0 "arith_reg_operand" "=r,r") 0)
        (plus:DI (match_operand:DI 1 "arith_reg_operand" "%r,r")
                 (match_operand:DI 2 "arith_operand" "r,I10")))]
  "TARGET_SHMEDIA"
  "@
        add.l   %1, %2, %0
        addi.l  %1, %2, %0"
  [(set_attr "type" "arith_media")
   (set_attr "highpart" "ignore")])

(define_insn "adddi3z_media"
  [(set (match_operand:DI 0 "arith_reg_dest" "=r")
        (zero_extend:DI
         (plus:SI (match_operand:SI 1 "extend_reg_operand" "r")
                  (match_operand:SI 2 "extend_reg_or_0_operand" "rN"))))]
  "TARGET_SHMEDIA"
  "addz.l       %1, %N2, %0"
  [(set_attr "type" "arith_media")
   (set_attr "highpart" "ignore")])

(define_insn "adddi3_compact"
  [(set (match_operand:DI 0 "arith_reg_dest" "=&r")
        (plus:DI (match_operand:DI 1 "arith_reg_operand" "%0")
                 (match_operand:DI 2 "arith_reg_operand" "r")))
   (clobber (reg:SI T_REG))]
  "TARGET_SH1"
  "#"
  [(set_attr "length" "6")])

(define_split
  [(set (match_operand:DI 0 "arith_reg_dest" "")
        (plus:DI (match_operand:DI 1 "arith_reg_operand" "")
                 (match_operand:DI 2 "arith_reg_operand" "")))
   (clobber (reg:SI T_REG))]
  "TARGET_SH1 && reload_completed"
  [(const_int 0)]
  "
{
  rtx high0, high2, low0 = gen_lowpart (SImode, operands[0]);
  high0 = gen_rtx_REG (SImode,
                       true_regnum (operands[0])
                       + (TARGET_LITTLE_ENDIAN ? 1 : 0));
  high2 = gen_rtx_REG (SImode,
                       true_regnum (operands[2])
                       + (TARGET_LITTLE_ENDIAN ? 1 : 0));
  emit_insn (gen_clrt ());
  emit_insn (gen_addc (low0, low0, gen_lowpart (SImode, operands[2])));
  emit_insn (gen_addc1 (high0, high0, high2));
  DONE;
}")

(define_insn "addc"
  [(set (match_operand:SI 0 "arith_reg_dest" "=r")
        (plus:SI (plus:SI (match_operand:SI 1 "arith_reg_operand" "0")
                          (match_operand:SI 2 "arith_reg_operand" "r"))
                 (reg:SI T_REG)))
   (set (reg:SI T_REG)
        (ltu:SI (plus:SI (match_dup 1) (match_dup 2)) (match_dup 1)))]
  "TARGET_SH1"
  "addc %2,%0"
  [(set_attr "type" "arith")])

(define_insn "addc1"
  [(set (match_operand:SI 0 "arith_reg_dest" "=r")
        (plus:SI (plus:SI (match_operand:SI 1 "arith_reg_operand" "0")
                          (match_operand:SI 2 "arith_reg_operand" "r"))
                 (reg:SI T_REG)))
   (clobber (reg:SI T_REG))]
  "TARGET_SH1"
  "addc %2,%0"
  [(set_attr "type" "arith")])

(define_expand "addsi3"
  [(set (match_operand:SI 0 "arith_reg_operand" "")
        (plus:SI (match_operand:SI 1 "arith_operand" "")
                 (match_operand:SI 2 "arith_operand" "")))]
  ""
  "
{
  if (TARGET_SHMEDIA)
    operands[1] = force_reg (SImode, operands[1]);
}")

(define_insn "addsi3_media"
  [(set (match_operand:SI 0 "arith_reg_dest" "=r,r")
        (plus:SI (match_operand:SI 1 "extend_reg_operand" "%r,r")
                 (match_operand:SI 2 "arith_operand" "r,I10")))]
  "TARGET_SHMEDIA"
  "@
        add.l   %1, %2, %0
        addi.l  %1, %2, %0"
  [(set_attr "type" "arith_media")
   (set_attr "highpart" "ignore")])

(define_insn "addsidi3_media"
  [(set (match_operand:DI 0 "arith_reg_dest" "=r,r")
        (sign_extend:DI (plus:SI (match_operand:SI 1 "extend_reg_operand"
                                  "%r,r")
                                 (match_operand:SI 2 "arith_operand"
                                  "r,I10"))))]
  "TARGET_SHMEDIA"
  "@
        add.l   %1, %2, %0
        addi.l  %1, %2, %0"
  [(set_attr "type" "arith_media")
   (set_attr "highpart" "ignore")])

(define_insn "*addsi3_compact"
  [(set (match_operand:SI 0 "arith_reg_dest" "=r")
        (plus:SI (match_operand:SI 1 "arith_operand" "%0")
                 (match_operand:SI 2 "arith_operand" "rI08")))]
  "TARGET_SH1"
  "add  %2,%0"
  [(set_attr "type" "arith")])

;; -------------------------------------------------------------------------
;; Subtraction instructions
;; -------------------------------------------------------------------------

(define_expand "subdi3"
  [(set (match_operand:DI 0 "arith_reg_operand" "")
        (minus:DI (match_operand:DI 1 "arith_reg_or_0_operand" "")
                  (match_operand:DI 2 "arith_reg_operand" "")))]
  ""
  "
{
  if (TARGET_SH1)
    {
      operands[1] = force_reg (DImode, operands[1]);
      emit_insn (gen_subdi3_compact (operands[0], operands[1], operands[2]));
      DONE;
    }
}")

(define_insn "*subdi3_media"
  [(set (match_operand:DI 0 "arith_reg_dest" "=r")
        (minus:DI (match_operand:DI 1 "arith_reg_or_0_operand" "rN")
                  (match_operand:DI 2 "arith_reg_operand" "r")))]
  "TARGET_SHMEDIA"
  "sub  %N1, %2, %0"
  [(set_attr "type" "arith_media")])
  
(define_insn "subdisi3_media"
  [(set (subreg:DI (match_operand:SI 0 "arith_reg_operand" "=r") 0)
        (minus:DI (match_operand:DI 1 "arith_reg_or_0_operand" "rN")
                  (match_operand:DI 2 "arith_reg_operand" "r")))]
  "TARGET_SHMEDIA"
  "sub.l        %N1, %2, %0"
  [(set_attr "type" "arith_media")
   (set_attr "highpart" "ignore")])

(define_insn "subdi3_compact"
  [(set (match_operand:DI 0 "arith_reg_dest" "=&r")
        (minus:DI (match_operand:DI 1 "arith_reg_operand" "0")
                 (match_operand:DI 2 "arith_reg_operand" "r")))
   (clobber (reg:SI T_REG))]
  "TARGET_SH1"
  "#"
  [(set_attr "length" "6")])

(define_split
  [(set (match_operand:DI 0 "arith_reg_dest" "")
        (minus:DI (match_operand:DI 1 "arith_reg_operand" "")
                  (match_operand:DI 2 "arith_reg_operand" "")))
   (clobber (reg:SI T_REG))]
  "TARGET_SH1 && reload_completed"
  [(const_int 0)]
  "
{
  rtx high0, high2, low0 = gen_lowpart (SImode, operands[0]);
  high0 = gen_rtx_REG (SImode,
                       true_regnum (operands[0])
                       + (TARGET_LITTLE_ENDIAN ? 1 : 0));
  high2 = gen_rtx_REG (SImode,
                       true_regnum (operands[2])
                       + (TARGET_LITTLE_ENDIAN ? 1 : 0));
  emit_insn (gen_clrt ());
  emit_insn (gen_subc (low0, low0, gen_lowpart (SImode, operands[2])));
  emit_insn (gen_subc1 (high0, high0, high2));
  DONE;
}")

(define_insn "subc"
  [(set (match_operand:SI 0 "arith_reg_dest" "=r")
        (minus:SI (minus:SI (match_operand:SI 1 "arith_reg_operand" "0")
                            (match_operand:SI 2 "arith_reg_operand" "r"))
                  (reg:SI T_REG)))
   (set (reg:SI T_REG)
        (gtu:SI (minus:SI (minus:SI (match_dup 1) (match_dup 2))
                          (reg:SI T_REG))
                (match_dup 1)))]
  "TARGET_SH1"
  "subc %2,%0"
  [(set_attr "type" "arith")])

(define_insn "subc1"
  [(set (match_operand:SI 0 "arith_reg_dest" "=r")
        (minus:SI (minus:SI (match_operand:SI 1 "arith_reg_operand" "0")
                            (match_operand:SI 2 "arith_reg_operand" "r"))
                  (reg:SI T_REG)))
   (clobber (reg:SI T_REG))]
  "TARGET_SH1"
  "subc %2,%0"
  [(set_attr "type" "arith")])

;; life_analysis thinks rn is live before subc rn,rn, so make a special
;; pattern for this case.  This helps multimedia applications that compute
;; the sum of absolute differences.
(define_insn "mov_neg_si_t"
  [(set (match_operand:SI 0 "arith_reg_dest" "=r") (neg:SI (reg:SI T_REG)))]
  "TARGET_SH1"
  "subc %0,%0"
  [(set_attr "type" "arith")])

(define_insn "*subsi3_internal"
  [(set (match_operand:SI 0 "arith_reg_dest" "=r")
        (minus:SI (match_operand:SI 1 "arith_reg_operand" "0")
                  (match_operand:SI 2 "arith_reg_operand" "r")))]
  "TARGET_SH1"
  "sub  %2,%0"
  [(set_attr "type" "arith")])

(define_insn_and_split "*subsi3_media"
  [(set (match_operand:SI 0 "arith_reg_dest" "=r")
        (minus:SI (match_operand:SI 1 "minuend_operand" "rN")
                  (match_operand:SI 2 "extend_reg_operand" "r")))]
  "TARGET_SHMEDIA
   && (operands[1] != constm1_rtx
       || (GET_CODE (operands[2]) != TRUNCATE
           && GET_CODE (operands[2]) != SUBREG))"
  "sub.l        %N1, %2, %0"
  "operands[1] == constm1_rtx"
  [(set (match_dup 0) (xor:SI (match_dup 2) (match_dup 1)))]
  ""
  [(set_attr "type" "arith_media")
   (set_attr "highpart" "ignore")])

(define_split
  [(set (match_operand:SI 0 "arith_reg_dest" "")
        (zero_extend:SI (subreg:QI (not:SI (subreg:SI (match_operand:QI 1
                                                       "general_extend_operand"
                                                       "") 0)) 0)))]
  "TARGET_SHMEDIA && TARGET_LITTLE_ENDIAN"
  [(set (match_dup 0) (zero_extend:SI (match_dup 1)))
   (set (match_dup 0) (xor:SI (match_dup 0) (const_int 255)))]
  "")

(define_split
  [(set (match_operand:SI 0 "arith_reg_dest" "")
        (zero_extend:SI (subreg:QI (not:SI (subreg:SI (match_operand:QI 1
                                                       "general_extend_operand"
                                                       "") 0)) 3)))]
  "TARGET_SHMEDIA && ! TARGET_LITTLE_ENDIAN"
  [(set (match_dup 0) (zero_extend:SI (match_dup 1)))
   (set (match_dup 0) (xor:SI (match_dup 0) (const_int 255)))]
  "")
;; Convert `constant - reg' to `neg rX; add rX, #const' since this
;; will sometimes save one instruction.  Otherwise we might get
;; `mov #const, rY; sub rY,rX; mov rX, rY' if the source and dest regs
;; are the same.

(define_expand "subsi3"
  [(set (match_operand:SI 0 "arith_reg_operand" "")
        (minus:SI (match_operand:SI 1 "arith_operand" "")
                  (match_operand:SI 2 "arith_reg_operand" "")))]
  ""
  "
{
  if (TARGET_SH1 && GET_CODE (operands[1]) == CONST_INT)
    {
      emit_insn (gen_negsi2 (operands[0], operands[2]));
      emit_insn (gen_addsi3 (operands[0], operands[0], operands[1]));
      DONE;
    }
  if (TARGET_SHMEDIA)
    {
      if (no_new_pseudos && ! arith_reg_or_0_operand (operands[1], SImode))
        FAIL;
      if (operands[1] != const0_rtx && GET_CODE (operands[1]) != SUBREG)
        operands[1] = force_reg (SImode, operands[1]);
    }
}")

;; -------------------------------------------------------------------------
;; Division instructions
;; -------------------------------------------------------------------------

;; We take advantage of the library routines which don't clobber as many
;; registers as a normal function call would.

;; The INSN_REFERENCES_ARE_DELAYED in sh.h is problematic because it
;; also has an effect on the register that holds the address of the sfunc.
;; To make this work, we have an extra dummy insn that shows the use
;; of this register for reorg.

(define_insn "use_sfunc_addr"
  [(set (reg:SI PR_REG)
        (unspec:SI [(match_operand:SI 0 "register_operand" "r")] UNSPEC_SFUNC))]
  "TARGET_SH1 && check_use_sfunc_addr (insn, operands[0])"
  ""
  [(set_attr "length" "0")])

(define_insn "udivsi3_sh2a"
  [(set (match_operand:SI 0 "arith_reg_dest" "=r")
        (udiv:SI (match_operand:SI 1 "arith_reg_operand" "0")
                (match_operand:SI 2 "arith_reg_operand" "z")))]
  "TARGET_SH2A"
  "divu %2,%1"
  [(set_attr "type" "arith")
   (set_attr "in_delay_slot" "no")])

;; We must use a pseudo-reg forced to reg 0 in the SET_DEST rather than
;; hard register 0.  If we used hard register 0, then the next instruction
;; would be a move from hard register 0 to a pseudo-reg.  If the pseudo-reg
;; gets allocated to a stack slot that needs its address reloaded, then
;; there is nothing to prevent reload from using r0 to reload the address.
;; This reload would clobber the value in r0 we are trying to store.
;; If we let reload allocate r0, then this problem can never happen.

(define_insn "udivsi3_i1"
  [(set (match_operand:SI 0 "register_operand" "=z")
        (udiv:SI (reg:SI R4_REG) (reg:SI R5_REG)))
   (clobber (reg:SI T_REG))
   (clobber (reg:SI PR_REG))
   (clobber (reg:SI R4_REG))
   (use (match_operand:SI 1 "arith_reg_operand" "r"))]
  "TARGET_SH1 && ! TARGET_SH4"
  "jsr  @%1%#"
  [(set_attr "type" "sfunc")
   (set_attr "needs_delay_slot" "yes")])

; Since shmedia-nofpu code could be linked against shcompact code, and
; the udivsi3 libcall has the same name, we must consider all registers
; clobbered that are in the union of the registers clobbered by the
; shmedia and the shcompact implementation.  Note, if the shcompact
; implementation actually used shcompact code, we'd need to clobber
; also r23 and fr23.
(define_insn "udivsi3_i1_media"
  [(set (match_operand:SI 0 "register_operand" "=z")
        (udiv:SI (reg:SI R4_REG) (reg:SI R5_REG)))
   (clobber (reg:SI T_MEDIA_REG))
   (clobber (reg:SI PR_MEDIA_REG))
   (clobber (reg:SI R20_REG))
   (clobber (reg:SI R21_REG))
   (clobber (reg:SI R22_REG))
   (clobber (reg:DI TR0_REG))
   (clobber (reg:DI TR1_REG))
   (clobber (reg:DI TR2_REG))
   (use (match_operand 1 "target_reg_operand" "b"))]
  "TARGET_SHMEDIA && (! TARGET_SHMEDIA_FPU || ! TARGET_DIVIDE_FP)"
  "blink        %1, r18"
  [(set_attr "type" "sfunc")
   (set_attr "needs_delay_slot" "yes")])

(define_expand "udivsi3_i4_media"
  [(set (match_dup 3)
        (zero_extend:DI (match_operand:SI 1 "register_operand" "")))
   (set (match_dup 4)
        (zero_extend:DI (match_operand:SI 2 "register_operand" "")))
   (set (match_dup 5) (float:DF (match_dup 3)))
   (set (match_dup 6) (float:DF (match_dup 4)))
   (set (match_dup 7) (div:DF (match_dup 5) (match_dup 6)))
   (set (match_dup 8) (fix:DI (match_dup 7)))
   (set (match_operand:SI 0 "register_operand" "")
        (truncate:SI (match_dup 8)))]
  "TARGET_SHMEDIA_FPU"
  "
{
  operands[3] = gen_reg_rtx (DImode);
  operands[4] = gen_reg_rtx (DImode);
  operands[5] = gen_reg_rtx (DFmode);
  operands[6] = gen_reg_rtx (DFmode);
  operands[7] = gen_reg_rtx (DFmode);
  operands[8] = gen_reg_rtx (DImode);
}")

(define_insn "udivsi3_i4"
  [(set (match_operand:SI 0 "register_operand" "=y")
        (udiv:SI (reg:SI R4_REG) (reg:SI R5_REG)))
   (clobber (reg:SI T_REG))
   (clobber (reg:SI PR_REG))
   (clobber (reg:DF DR0_REG))
   (clobber (reg:DF DR2_REG))
   (clobber (reg:DF DR4_REG))
   (clobber (reg:SI R0_REG))
   (clobber (reg:SI R1_REG))
   (clobber (reg:SI R4_REG))
   (clobber (reg:SI R5_REG))
   (use (reg:PSI FPSCR_REG))
   (use (match_operand:SI 1 "arith_reg_operand" "r"))]
  "TARGET_SH4 && ! TARGET_FPU_SINGLE"
  "jsr  @%1%#"
  [(set_attr "type" "sfunc")
   (set_attr "fp_mode" "double")
   (set_attr "needs_delay_slot" "yes")])

(define_insn "udivsi3_i4_single"
  [(set (match_operand:SI 0 "register_operand" "=y")
        (udiv:SI (reg:SI R4_REG) (reg:SI R5_REG)))
   (clobber (reg:SI T_REG))
   (clobber (reg:SI PR_REG))
   (clobber (reg:DF DR0_REG))
   (clobber (reg:DF DR2_REG))
   (clobber (reg:DF DR4_REG))
   (clobber (reg:SI R0_REG))
   (clobber (reg:SI R1_REG))
   (clobber (reg:SI R4_REG))
   (clobber (reg:SI R5_REG))
   (use (match_operand:SI 1 "arith_reg_operand" "r"))]
  "(TARGET_HARD_SH4 || TARGET_SHCOMPACT) && TARGET_FPU_SINGLE"
  "jsr  @%1%#"
  [(set_attr "type" "sfunc")
   (set_attr "needs_delay_slot" "yes")])

(define_insn "udivsi3_i4_int"
  [(set (match_operand:SI 0 "register_operand" "=z")
        (udiv:SI (reg:SI R4_REG) (reg:SI R5_REG)))
   (clobber (reg:SI T_REG))
   (clobber (reg:SI R1_REG))
   (clobber (reg:SI PR_REG))
   (clobber (reg:SI MACH_REG))
   (clobber (reg:SI MACL_REG))
   (use (match_operand:SI 1 "arith_reg_operand" "r"))]
  "TARGET_SH1"
  "jsr  @%1%#"
  [(set_attr "type" "sfunc")
   (set_attr "needs_delay_slot" "yes")])


(define_expand "udivsi3"
  [(set (match_dup 3) (symbol_ref:SI "__udivsi3"))
   (set (reg:SI R4_REG) (match_operand:SI 1 "general_operand" ""))
   (set (reg:SI R5_REG) (match_operand:SI 2 "general_operand" ""))
   (parallel [(set (match_operand:SI 0 "register_operand" "")
                   (udiv:SI (reg:SI R4_REG)
                            (reg:SI R5_REG)))
              (clobber (reg:SI T_REG))
              (clobber (reg:SI PR_REG))
              (clobber (reg:SI R4_REG))
              (use (match_dup 3))])]
  ""
  "
{
  rtx first, last;

  operands[3] = gen_reg_rtx (Pmode);
  /* Emit the move of the address to a pseudo outside of the libcall.  */
  if (TARGET_DIVIDE_CALL_TABLE)
    {
      /* libgcc2:__udivmoddi4 is not supposed to use an actual division, since
         that causes problems when the divide code is supposed to come from a
         separate library.  Division by zero is undefined, so dividing 1 can be
         implemented by comparing with the divisor.  */
      if (operands[1] == const1_rtx && currently_expanding_to_rtl)
        {
          emit_insn (gen_cmpsi (operands[1], operands[2]));
          emit_insn (gen_sgeu (operands[0]));
          DONE;
        }
      else if (operands[2] == const0_rtx)
        {
          emit_move_insn (operands[0], operands[2]);
          DONE;
        }
      function_symbol (operands[3], \"__udivsi3_i4i\", SFUNC_GOT);
      last = gen_udivsi3_i4_int (operands[0], operands[3]);
    }
  else if (TARGET_DIVIDE_CALL_FP)
    {
      function_symbol (operands[3], \"__udivsi3_i4\", SFUNC_STATIC);
      if (TARGET_FPU_SINGLE)
        last = gen_udivsi3_i4_single (operands[0], operands[3]);
      else
        last = gen_udivsi3_i4 (operands[0], operands[3]);
    }
  else if (TARGET_SHMEDIA_FPU)
    {
      operands[1] = force_reg (SImode, operands[1]);
      operands[2] = force_reg (SImode, operands[2]);
      emit_insn (gen_udivsi3_i4_media (operands[0], operands[1], operands[2]));
      DONE;
    }
  else if (TARGET_SH2A)
    {
      operands[1] = force_reg (SImode, operands[1]);
      operands[2] = force_reg (SImode, operands[2]);
      emit_insn (gen_udivsi3_sh2a (operands[0], operands[1], operands[2]));
      DONE;
    }
  else if (TARGET_SH5)
    {
      function_symbol (operands[3],
                       TARGET_FPU_ANY ? \"__udivsi3_i4\" : \"__udivsi3\",
                       SFUNC_STATIC);

      if (TARGET_SHMEDIA)
        last = gen_udivsi3_i1_media (operands[0], operands[3]);
      else if (TARGET_FPU_ANY)
        last = gen_udivsi3_i4_single (operands[0], operands[3]);
      else
        last = gen_udivsi3_i1 (operands[0], operands[3]);
    }
  else
    {
      function_symbol (operands[3], \"__udivsi3\", SFUNC_STATIC);
      last = gen_udivsi3_i1 (operands[0], operands[3]);
    }
  first = emit_move_insn (gen_rtx_REG (SImode, 4), operands[1]);
  emit_move_insn (gen_rtx_REG (SImode, 5), operands[2]);
  last = emit_insn (last);
  /* Wrap the sequence in REG_LIBCALL / REG_RETVAL notes so that loop
     invariant code motion can move it.  */
  REG_NOTES (first) = gen_rtx_INSN_LIST (REG_LIBCALL, last, REG_NOTES (first));
  REG_NOTES (last) = gen_rtx_INSN_LIST (REG_RETVAL, first, REG_NOTES (last));
  DONE;
}")

(define_insn "divsi3_sh2a"
  [(set (match_operand:SI 0 "arith_reg_dest" "=r")
        (div:SI (match_operand:SI 1 "arith_reg_operand" "0")
                (match_operand:SI 2 "arith_reg_operand" "z")))]
  "TARGET_SH2A"
  "divs %2,%1"
  [(set_attr "type" "arith")
   (set_attr "in_delay_slot" "no")])

(define_insn "divsi3_i1"
  [(set (match_operand:SI 0 "register_operand" "=z")
        (div:SI (reg:SI R4_REG) (reg:SI R5_REG)))
   (clobber (reg:SI T_REG))
   (clobber (reg:SI PR_REG))
   (clobber (reg:SI R1_REG))
   (clobber (reg:SI R2_REG))
   (clobber (reg:SI R3_REG))
   (use (match_operand:SI 1 "arith_reg_operand" "r"))]
  "TARGET_SH1 && ! TARGET_SH4"
  "jsr  @%1%#"
  [(set_attr "type" "sfunc")
   (set_attr "needs_delay_slot" "yes")])

(define_insn "divsi3_i1_media"
  [(set (match_operand:SI 0 "register_operand" "=z")
        (div:SI (reg:SI R4_REG) (reg:SI R5_REG)))
   (clobber (reg:SI T_MEDIA_REG))
   (clobber (reg:SI PR_MEDIA_REG))
   (clobber (reg:SI R1_REG))
   (clobber (reg:SI R20_REG))
   (clobber (reg:SI R21_REG))
   (clobber (reg:SI TR0_REG))
   (use (match_operand 1 "target_reg_operand" "b"))]
  "TARGET_SHMEDIA && (! TARGET_SHMEDIA_FPU || ! TARGET_DIVIDE_FP)"
  "blink        %1, r18"
  [(set_attr "type" "sfunc")])

(define_insn "divsi3_media_2"
  [(set (match_operand:SI 0 "register_operand" "=z")
        (div:SI (reg:SI R4_REG) (reg:SI R5_REG)))
   (clobber (reg:SI T_MEDIA_REG))
   (clobber (reg:SI PR_MEDIA_REG))
   (clobber (reg:SI R1_REG))
   (clobber (reg:SI R21_REG))
   (clobber (reg:SI TR0_REG))
   (use (reg:SI R20_REG))
   (use (match_operand 1 "target_reg_operand" "b"))]
  "TARGET_SHMEDIA && (! TARGET_SHMEDIA_FPU || ! TARGET_DIVIDE_FP)"
  "blink        %1, r18"
  [(set_attr "type" "sfunc")])

;; This pattern acts as a placeholder for -mdiv=inv:call to carry
;; hard reg clobbers and data dependencies that we need when we want
;; to rematerialize the division into a call.
(define_insn_and_split "divsi_inv_call"
  [(set (match_operand:SI 0 "register_operand" "=r")
        (div:SI (match_operand:SI 1 "register_operand" "r")
                (match_operand:SI 2 "register_operand" "r")))
   (clobber (reg:SI R4_REG))
   (clobber (reg:SI R5_REG))
   (clobber (reg:SI T_MEDIA_REG))
   (clobber (reg:SI PR_MEDIA_REG))
   (clobber (reg:SI R1_REG))
   (clobber (reg:SI R21_REG))
   (clobber (reg:SI TR0_REG))
   (clobber (reg:SI R20_REG))
   (use (match_operand:SI 3 "register_operand" "r"))]
  "TARGET_SHMEDIA"
  "#"
  "&& (high_life_started || reload_completed)"
  [(set (match_dup 0) (match_dup 3))]
  ""
  [(set_attr "highpart" "must_split")])

;; This is the combiner pattern for -mdiv=inv:call .
(define_insn_and_split "*divsi_inv_call_combine"
  [(set (match_operand:SI 0 "register_operand" "=z")
        (div:SI (match_operand:SI 1 "register_operand" "r")
                (match_operand:SI 2 "register_operand" "r")))
   (clobber (reg:SI R4_REG))
   (clobber (reg:SI R5_REG))
   (clobber (reg:SI T_MEDIA_REG))
   (clobber (reg:SI PR_MEDIA_REG))
   (clobber (reg:SI R1_REG))
   (clobber (reg:SI R21_REG))
   (clobber (reg:SI TR0_REG))
   (clobber (reg:SI R20_REG))
   (use (unspec:SI [(match_dup 1)
                    (match_operand:SI 3 "" "")
                    (unspec:SI [(match_operand:SI 4 "" "")
                                (match_dup 3)
                                (match_operand:DI 5 "" "")]
                     UNSPEC_DIV_INV_M2)
                    (match_operand:DI 6 "" "")
                    (const_int 0)
                    (const_int 0)]
         UNSPEC_DIV_INV_M3))]
  "TARGET_SHMEDIA"
  "#"
  "&& (high_life_started || reload_completed)"
  [(pc)]
  "
{
  const char *name = sh_divsi3_libfunc;
  enum sh_function_kind kind = SFUNC_GOT;
  rtx sym;

  emit_move_insn (gen_rtx_REG (SImode, R4_REG), operands[1]);
  emit_move_insn (gen_rtx_REG (SImode, R5_REG), operands[2]);
  while (TARGET_DIVIDE_INV_CALL2)
    {
      rtx x = operands[3];

      if (GET_CODE (x) != UNSPEC || XINT (x, 1) != UNSPEC_DIV_INV_M1)
        break;
      x = XVECEXP (x, 0, 0);
      name = \"__sdivsi3_2\";
      kind = SFUNC_STATIC;
      emit_move_insn (gen_rtx_REG (DImode, R20_REG), x);
      break;
    }
  sym = function_symbol (NULL, name, kind);
  emit_insn (gen_divsi3_media_2 (operands[0], sym));
  DONE;
}"
  [(set_attr "highpart" "must_split")])

(define_expand "divsi3_i4_media"
  [(set (match_dup 3) (float:DF (match_operand:SI 1 "register_operand" "r")))
   (set (match_dup 4) (float:DF (match_operand:SI 2 "register_operand" "r")))
   (set (match_dup 5) (div:DF (match_dup 3) (match_dup 4)))
   (set (match_operand:SI 0 "register_operand" "=r")
        (fix:SI (match_dup 5)))]
  "TARGET_SHMEDIA_FPU"
  "
{
  operands[3] = gen_reg_rtx (DFmode);
  operands[4] = gen_reg_rtx (DFmode);
  operands[5] = gen_reg_rtx (DFmode);
}")

(define_insn "divsi3_i4"
  [(set (match_operand:SI 0 "register_operand" "=y")
        (div:SI (reg:SI R4_REG) (reg:SI R5_REG)))
   (clobber (reg:SI PR_REG))
   (clobber (reg:DF DR0_REG))
   (clobber (reg:DF DR2_REG))
   (use (reg:PSI FPSCR_REG))
   (use (match_operand:SI 1 "arith_reg_operand" "r"))]
  "TARGET_SH4 && ! TARGET_FPU_SINGLE"
  "jsr  @%1%#"
  [(set_attr "type" "sfunc")
   (set_attr "fp_mode" "double")
   (set_attr "needs_delay_slot" "yes")])

(define_insn "divsi3_i4_single"
  [(set (match_operand:SI 0 "register_operand" "=y")
        (div:SI (reg:SI R4_REG) (reg:SI R5_REG)))
   (clobber (reg:SI PR_REG))
   (clobber (reg:DF DR0_REG))
   (clobber (reg:DF DR2_REG))
   (clobber (reg:SI R2_REG))
   (use (match_operand:SI 1 "arith_reg_operand" "r"))]
  "(TARGET_HARD_SH4 || TARGET_SHCOMPACT) && TARGET_FPU_SINGLE"
  "jsr  @%1%#"
  [(set_attr "type" "sfunc")
   (set_attr "needs_delay_slot" "yes")])

(define_insn "divsi3_i4_int"
  [(set (match_operand:SI 0 "register_operand" "=z")
        (div:SI (reg:SI R4_REG) (reg:SI R5_REG)))
   (clobber (reg:SI T_REG))
   (clobber (reg:SI PR_REG))
   (clobber (reg:SI R1_REG))
   (clobber (reg:SI MACH_REG))
   (clobber (reg:SI MACL_REG))
   (use (match_operand:SI 1 "arith_reg_operand" "r"))]
  "TARGET_SH1"
  "jsr  @%1%#"
  [(set_attr "type" "sfunc")
   (set_attr "needs_delay_slot" "yes")])

(define_expand "divsi3"
  [(set (match_dup 3) (symbol_ref:SI "__sdivsi3"))
   (set (reg:SI R4_REG) (match_operand:SI 1 "general_operand" ""))
   (set (reg:SI R5_REG) (match_operand:SI 2 "general_operand" ""))
   (parallel [(set (match_operand:SI 0 "register_operand" "")
                   (div:SI (reg:SI R4_REG)
                           (reg:SI R5_REG)))
              (clobber (reg:SI T_REG))
              (clobber (reg:SI PR_REG))
              (clobber (reg:SI R1_REG))
              (clobber (reg:SI R2_REG))
              (clobber (reg:SI R3_REG))
              (use (match_dup 3))])]
  ""
  "
{
  rtx first, last;

  operands[3] = gen_reg_rtx (Pmode);
  /* Emit the move of the address to a pseudo outside of the libcall.  */
  if (TARGET_DIVIDE_CALL_TABLE)
    {
      function_symbol (operands[3], sh_divsi3_libfunc, SFUNC_GOT);
      last = gen_divsi3_i4_int (operands[0], operands[3]);
    }
  else if (TARGET_DIVIDE_CALL_FP)
    {
      function_symbol (operands[3], sh_divsi3_libfunc, SFUNC_STATIC);
      if (TARGET_FPU_SINGLE)
        last = gen_divsi3_i4_single (operands[0], operands[3]);
      else
        last = gen_divsi3_i4 (operands[0], operands[3]);
    }
  else if (TARGET_SH2A)
    {
      operands[1] = force_reg (SImode, operands[1]);
      operands[2] = force_reg (SImode, operands[2]);
      emit_insn (gen_divsi3_sh2a (operands[0], operands[1], operands[2]));
      DONE;
    }
  else if (TARGET_DIVIDE_INV)
    {
      rtx dividend = operands[1];
      rtx divisor = operands[2];
      rtx tab_base;
      rtx nsb_res = gen_reg_rtx (DImode);
      rtx norm64 = gen_reg_rtx (DImode);
      rtx tab_ix = gen_reg_rtx (DImode);
      rtx norm32 = gen_reg_rtx (SImode);
      rtx i92 = force_reg (DImode, GEN_INT (92));
      rtx scratch0a = gen_reg_rtx (DImode);
      rtx scratch0b = gen_reg_rtx (DImode);
      rtx inv0 = gen_reg_rtx (SImode);
      rtx scratch1a = gen_reg_rtx (DImode);
      rtx scratch1b = gen_reg_rtx (DImode);
      rtx shift = gen_reg_rtx (DImode);
      rtx i2p27, i43;
      rtx inv1 = gen_reg_rtx (SImode);
      rtx scratch2a = gen_reg_rtx (DImode);
      rtx scratch2b = gen_reg_rtx (SImode);
      rtx inv2 = gen_reg_rtx (SImode);
      rtx scratch3a = gen_reg_rtx (DImode);
      rtx scratch3b = gen_reg_rtx (DImode);
      rtx scratch3c = gen_reg_rtx (DImode);
      rtx scratch3d = gen_reg_rtx (SImode);
      rtx scratch3e = gen_reg_rtx (DImode);
      rtx result = gen_reg_rtx (SImode);

      if (! arith_reg_or_0_operand (dividend, SImode))
        dividend = force_reg (SImode, dividend);
      if (! arith_reg_operand (divisor, SImode))
        divisor = force_reg (SImode, divisor);
      if (flag_pic && Pmode != DImode)
        {
          tab_base = gen_rtx_SYMBOL_REF (Pmode, \"__div_table\");
          tab_base = gen_datalabel_ref (tab_base);
          tab_base = force_reg (DImode, gen_rtx_SIGN_EXTEND (DImode, tab_base));
        }
      else
        {
          tab_base = gen_rtx_SYMBOL_REF (DImode, \"__div_table\");
          tab_base = gen_datalabel_ref (tab_base);
          tab_base = force_reg (DImode, tab_base);
        }
      if (TARGET_DIVIDE_INV20U)
        i2p27 = force_reg (DImode, GEN_INT (-2 << 27));
      else
        i2p27 = GEN_INT (0);
      if (TARGET_DIVIDE_INV20U || TARGET_DIVIDE_INV20L)
        i43 = force_reg (DImode, GEN_INT (43));
      else
        i43 = GEN_INT (0);
      emit_insn (gen_nsbdi (nsb_res,
                            simplify_gen_subreg (DImode, divisor, SImode, 0)));
      emit_insn (gen_ashldi3_media (norm64,
                                    gen_rtx_SUBREG (DImode, divisor, 0),
                                    nsb_res));
      emit_insn (gen_ashrdi3_media (tab_ix, norm64, GEN_INT (58)));
      emit_insn (gen_ashrdisi3_media_high (norm32, norm64, GEN_INT (32)));
      emit_insn (gen_divsi_inv_m1 (inv1, tab_base, tab_ix, norm32,
                                   inv0, scratch0a, scratch0b,
                                   scratch1a, scratch1b));
      emit_insn (gen_subdi3 (shift, i92, nsb_res));
      emit_insn (gen_divsi_inv_m2 (inv2, norm32, inv1, i92,
                                   scratch2a));
      emit_insn (gen_divsi_inv_m3 (result, dividend, inv1, inv2, shift,
                                   i2p27, i43,
                                   scratch3a, scratch3b, scratch3c,
                                   scratch2a, scratch2b, scratch3d, scratch3e));
      if (TARGET_DIVIDE_INV_CALL || TARGET_DIVIDE_INV_CALL2)
        emit_insn (gen_divsi_inv_call (operands[0], dividend, divisor, result));
      else if (TARGET_DIVIDE_INV_FP)
        emit_insn (gen_divsi_inv_fp (operands[0], dividend, divisor, result,
                                     gen_reg_rtx (SImode), gen_reg_rtx (SImode),
                                     gen_reg_rtx (DFmode), gen_reg_rtx (DFmode),
                                     gen_reg_rtx (DFmode)));
      else
        emit_move_insn (operands[0], result);
      DONE;
    }
  else if (TARGET_SHMEDIA_FPU && TARGET_DIVIDE_FP)
    {
      operands[1] = force_reg (SImode, operands[1]);
      operands[2] = force_reg (SImode, operands[2]);
      emit_insn (gen_divsi3_i4_media (operands[0], operands[1], operands[2]));
      DONE;
    }
  else if (TARGET_SH5)
    {
      if (TARGET_DIVIDE_CALL2)
        {
          rtx tab_base = gen_rtx_SYMBOL_REF (Pmode, \"__div_table\");
          tab_base = gen_datalabel_ref (tab_base);
          emit_move_insn (gen_rtx_REG (Pmode, R20_REG), tab_base);
        }
      if (TARGET_FPU_ANY && TARGET_SH1)
        function_symbol (operands[3], sh_divsi3_libfunc, SFUNC_STATIC);
      else if (TARGET_DIVIDE_CALL2)
        function_symbol (operands[3], \"__sdivsi3_2\", SFUNC_STATIC);
      else
        function_symbol (operands[3], sh_divsi3_libfunc, SFUNC_GOT);

      if (TARGET_SHMEDIA)
        last = ((TARGET_DIVIDE_CALL2 ? gen_divsi3_media_2 : gen_divsi3_i1_media)
                (operands[0], operands[3]));
      else if (TARGET_FPU_ANY)
        last = gen_divsi3_i4_single (operands[0], operands[3]);
      else
        last = gen_divsi3_i1 (operands[0], operands[3]);
    }
  else
    {
      function_symbol (operands[3], sh_divsi3_libfunc, SFUNC_GOT);
      last = gen_divsi3_i1 (operands[0], operands[3]);
    }
  first = emit_move_insn (gen_rtx_REG (SImode, 4), operands[1]);
  emit_move_insn (gen_rtx_REG (SImode, 5), operands[2]);
  last = emit_insn (last);
  /* Wrap the sequence in REG_LIBCALL / REG_RETVAL notes so that loop
     invariant code motion can move it.  */
  REG_NOTES (first) = gen_rtx_INSN_LIST (REG_LIBCALL, last, REG_NOTES (first));
  REG_NOTES (last) = gen_rtx_INSN_LIST (REG_RETVAL, first, REG_NOTES (last));
  DONE;
}")

;; operands: scratch, tab_base, tab_ix
;; These are unspecs because we could generate an indexed addressing mode
;; even if -m5-32media, where INDEX_REG_CLASS == NO_REGS, and this would
;; confuse reload.  See PR27117.

(define_insn "divsi_inv_qitable"
  [(set (match_operand:DI 0 "register_operand" "=r")
        (zero_extend:DI (unspec:QI [(match_operand:DI 1 "register_operand" "r")
                                    (match_operand:DI 2 "register_operand" "r")]
                         UNSPEC_DIV_INV_TABLE)))]
  "TARGET_SHMEDIA"
  "@
        ldx.ub  %1, %2, %0"
  [(set_attr "type" "load_media")
   (set_attr "highpart" "user")])

;; operands: scratch, tab_base, tab_ix
(define_insn "divsi_inv_hitable"
  [(set (match_operand:DI 0 "register_operand" "=r")
        (sign_extend:DI (unspec:HI [(match_operand:DI 1 "register_operand" "r")
                                    (match_operand:DI 2 "register_operand" "r")]
                         UNSPEC_DIV_INV_TABLE)))]
  "TARGET_SHMEDIA"
  "@
        ldx.w   %1, %2, %0"
  [(set_attr "type" "load_media")
   (set_attr "highpart" "user")])

;; operands: inv0, tab_base, tab_ix, norm32
;; scratch equiv in sdivsi3_2: r19, r21
(define_expand "divsi_inv_m0"
  [(set (match_operand:SI 0 "register_operand" "=r")
        (unspec:SI [(match_operand:DI 1 "register_operand" "r")
                    (match_operand:DI 2 "register_operand" "r")
                    (match_operand:SI 3 "register_operand" "r")]
         UNSPEC_DIV_INV_M0))
   (clobber (match_operand:DI 4 "register_operand" "=r"))
   (clobber (match_operand:DI 5 "register_operand" "=r"))]
  "TARGET_SHMEDIA"
  "
{
/*
tab_base: r20
tab_ix: r21
norm32: r25
 ldx.ub r20, r21, r19 // u0.8
 shlli r21, 1, r21
 muls.l r25, r19, r19 // s2.38
 ldx.w r20, r21, r21  // s2.14
 shari r19, 24, r19   // truncate to s2.14
 sub r21, r19, r19    // some 11 bit inverse in s1.14
*/

  rtx inv0 = operands[0];
  rtx tab_base = operands[1];
  rtx tab_ix = operands[2];
  rtx norm32 = operands[3];
  rtx scratch0 = operands[4];
  rtx scratch0_si = simplify_gen_subreg (SImode, scratch0, DImode, SIDI_OFF);
  rtx scratch1 = operands[5];

  emit_insn (gen_divsi_inv_qitable (scratch0, tab_base, tab_ix));
  emit_insn (gen_ashldi3_media (scratch1, tab_ix, GEN_INT (1)));
  emit_insn (gen_mulsidi3_media (scratch0, norm32, scratch0_si));
  emit_insn (gen_divsi_inv_hitable (scratch1, tab_base, scratch1));
  emit_insn (gen_ashrdi3_media (scratch0, scratch0, GEN_INT (24)));
  emit_insn (gen_subdisi3_media (inv0, scratch1, scratch0));
  DONE;
}")

;; operands: inv1, tab_base, tab_ix, norm32
(define_insn_and_split "divsi_inv_m1"
  [(set (match_operand:SI 0 "register_operand" "=r")
        (unspec:SI [(match_operand:DI 1 "register_operand" "r")
                    (match_operand:DI 2 "register_operand" "r")
                    (match_operand:SI 3 "register_operand" "r")]
         UNSPEC_DIV_INV_M1))
   (clobber (match_operand:SI 4 "register_operand" "=r"))
   (clobber (match_operand:DI 5 "register_operand" "=r"))
   (clobber (match_operand:DI 6 "register_operand" "=r"))
   (clobber (match_operand:DI 7 "register_operand" "=r"))
   (clobber (match_operand:DI 8 "register_operand" "=r"))]
  "TARGET_SHMEDIA"
  "#"
  "&& no_new_pseudos"
  [(pc)]
  "
{
/* inv0: r19
 muls.l r19, r19, r18 // u0.28
 muls.l r25, r18, r18 // s2.58
 shlli r19, 45, r0    // multiply by two and convert to s2.58
 sub r0, r18, r18
 shari r18, 28, r18   // some 18 bit inverse in s1.30
*/

  rtx inv1 = operands[0];
  rtx tab_base = operands[1];
  rtx tab_ix = operands[2];
  rtx norm32 = operands[3];
  rtx inv0 = operands[4];
  rtx inv0_di = simplify_gen_subreg (DImode, inv0, SImode, 0);
  rtx scratch0a = operands[5];
  rtx scratch0b = operands[6];
  rtx scratch0 = operands[7];
  rtx scratch1 = operands[8];
  rtx scratch1_si = simplify_gen_subreg (SImode, scratch1, DImode, SIDI_OFF);

  emit_insn (gen_divsi_inv_m0 (inv0, tab_base, tab_ix, norm32,
                               scratch0a, scratch0b));
  emit_insn (gen_mulsidi3_media (scratch1, inv0, inv0));
  emit_insn (gen_mulsidi3_media (scratch1, norm32, scratch1_si));
  emit_insn (gen_ashldi3_media (scratch0, inv0_di, GEN_INT (45)));
  emit_insn (gen_subdi3 (scratch1, scratch0, scratch1));
  emit_insn (gen_ashrdisi3_media_opaque (inv1, scratch1, GEN_INT (28)));
  DONE;
}")

;; operands: inv2, norm32, inv1, i92
(define_insn_and_split "divsi_inv_m2"
  [(set (match_operand:SI 0 "register_operand" "=r")
        (unspec:SI [(match_operand:SI 1 "register_operand" "r")
                    (match_operand:SI 2 "register_operand" "r")
                    (match_operand:DI 3 "register_operand" "r")]
         UNSPEC_DIV_INV_M2))
   (clobber (match_operand:DI 4 "register_operand" "=r"))]
  "TARGET_SHMEDIA"
  "#"
  "&& no_new_pseudos"
  [(pc)]
  "
{
/*
 muls.l r18, r25, r0  // s2.60
 shari r0, 16, r0     // s-16.44
  sub
 muls.l r0, r18, r19  // s-16.74
 shari r19, 30, r19   // s-16.44
*/
  rtx inv2 = operands[0];
  rtx norm32 = operands[1];
  rtx inv1 = operands[2];
  rtx i92 = operands[3];
  rtx scratch0 = operands[4];
  rtx scratch0_si = simplify_gen_subreg (SImode, scratch0, DImode, SIDI_OFF);

  emit_insn (gen_mulsidi3_media (scratch0, inv1, norm32));
  emit_insn (gen_ashrdi3_media (scratch0, scratch0, GEN_INT (16)));
  emit_insn (gen_subdi3 (scratch0, i92, scratch0));
  emit_insn (gen_mulsidi3_media (scratch0, scratch0_si, inv1));
  emit_insn (gen_ashrdisi3_media_opaque (inv2, scratch0, GEN_INT (30)));
  DONE;
}")

(define_insn_and_split "divsi_inv_m3"
  [(set (match_operand:SI 0 "register_operand" "=r")
        (unspec:SI [(match_operand:SI 1 "arith_reg_or_0_operand" "rN")
                    (match_operand:SI 2 "register_operand" "r")
                    (match_operand:SI 3 "register_operand" "r")
                    (match_operand:DI 4 "register_operand" "r")
                    (match_operand:DI 5 "arith_reg_or_0_operand" "rN")
                    (match_operand:DI 6 "arith_reg_or_0_operand" "rN")]
         UNSPEC_DIV_INV_M3))
   (clobber (match_operand:DI 7 "register_operand" "=r"))
   (clobber (match_operand:DI 8 "register_operand" "=r"))
   (clobber (match_operand:DI 9 "register_operand" "=r"))
   (clobber (match_operand:DI 10 "register_operand" "=r"))
   (clobber (match_operand:SI 11 "register_operand" "=r"))
   (clobber (match_operand:SI 12 "register_operand" "=r"))
   (clobber (match_operand:DI 13 "register_operand" "=r"))]
  "TARGET_SHMEDIA"
  "#"
  "&& no_new_pseudos"
  [(pc)]
  "
{
/*
  r0: result  r1: shift  r4: dividend  r18: inv1  r19: inv2
  r0: scratch0  r19: scratch1 r21: scratch2

  muls.l r18, r4, r25 // s32.30
 muls.l r19, r4, r19  // s15.30
 shari r25, 63, r21
  shari r19, 14, r19  // s18.-14
 sub r25, r19, r0
 shard r0, r1, r0
 sub r0, r21, r0
*/

  rtx result = operands[0];
  rtx dividend = operands[1];
  rtx inv1 = operands[2];
  rtx inv2 = operands[3];
  rtx shift = operands[4];
  rtx scratch0 = operands[7];
  rtx scratch1 = operands[8];
  rtx scratch2 = operands[9];

  emit_insn (gen_mulsidi3_media (scratch0, inv1, dividend));
  emit_insn (gen_mulsidi3_media (scratch1, inv2, dividend));
  emit_insn (gen_ashrdi3_media (scratch2, scratch0, GEN_INT (63)));
  emit_insn (gen_ashrdi3_media (scratch1, scratch1, GEN_INT (14)));
  emit_insn (gen_adddi3 (scratch0, scratch0, scratch1));
  emit_insn (gen_ashrdi3_media (scratch0, scratch0, shift));
  emit_insn (gen_subdisi3_media (result, scratch0, scratch2));
  DONE;
}")

;; operands: quotient, dividend, inv1, inv2, shift, i2p27, i43
;; inv1: tab_base, tab_ix, norm32
;; inv2: norm32, inv1, i92
(define_insn_and_split "divsi_inv_m1_3"
  [(set (match_operand:SI 0 "register_operand" "=r")
        (unspec:SI [(match_operand:SI 1 "arith_reg_or_0_operand" "rN")
                    (unspec:SI [(match_operand:DI 2 "register_operand" "r")
                                (match_operand:DI 3 "register_operand" "r")
                                (match_operand:SI 4 "register_operand" "r")]
                     UNSPEC_DIV_INV_M1)
                    (unspec:SI [(match_dup 4)
                                (unspec:SI [(match_dup 2)
                                            (match_dup 3)
                                            (match_dup 4)] UNSPEC_DIV_INV_M1)
                                (match_operand:SI 5 "" "")]
                     UNSPEC_DIV_INV_M2)
                    (match_operand:DI 6 "register_operand" "r")
                    (match_operand:DI 7 "arith_reg_or_0_operand" "rN")
                    (match_operand:DI 8 "arith_reg_or_0_operand" "rN")]
         UNSPEC_DIV_INV_M3))
   (clobber (match_operand:DI 9 "register_operand" "=r"))
   (clobber (match_operand:DI 10 "register_operand" "=r"))
   (clobber (match_operand:DI 11 "register_operand" "=r"))
   (clobber (match_operand:DI 12 "register_operand" "=r"))
   (clobber (match_operand:SI 13 "register_operand" "=r"))
   (clobber (match_operand:SI 14 "register_operand" "=r"))
   (clobber (match_operand:DI 15 "register_operand" "=r"))]
  "TARGET_SHMEDIA
   && (TARGET_DIVIDE_INV_MINLAT
       || TARGET_DIVIDE_INV20U || TARGET_DIVIDE_INV20L)"
  "#"
  "&& no_new_pseudos"
  [(pc)]
  "
{
  rtx result = operands[0];
  rtx dividend = operands[1];
  rtx tab_base = operands[2];
  rtx tab_ix = operands[3];
  rtx norm32 = operands[4];
  /* rtx i92 = operands[5]; */
  rtx shift = operands[6];
  rtx i2p27 = operands[7];
  rtx i43 = operands[8];
  rtx scratch0 = operands[9];
  rtx scratch0_si = simplify_gen_subreg (SImode, scratch0, DImode, SIDI_OFF);
  rtx scratch1 = operands[10];
  rtx scratch1_si = simplify_gen_subreg (SImode, scratch1, DImode, SIDI_OFF);
  rtx scratch2 = operands[11];
  rtx scratch3 = operands[12];
  rtx scratch4 = operands[13];
  rtx scratch4_di = simplify_gen_subreg (DImode, scratch4, SImode, 0);
  rtx scratch5 = operands[14];
  rtx scratch5_di = simplify_gen_subreg (DImode, scratch5, SImode, 0);
  rtx scratch6 = operands[15];

  emit_insn (gen_divsi_inv_m0 (scratch4, tab_base, tab_ix, norm32,
                               scratch0, scratch1));
  /* inv0 == scratch4 */
  if (! TARGET_DIVIDE_INV20U)
    {
      emit_insn (gen_mulsidi3_media (scratch0, scratch4, scratch4));
      i2p27 = scratch0;
      emit_insn (gen_mulsidi3_media (scratch1, norm32, scratch0_si));
    }
  else
    {
      emit_insn (gen_mulsidi3_media (scratch1, scratch4, scratch4));
      emit_insn (gen_mulsidi3_media (scratch1, norm32, scratch1_si));
    }
  emit_insn (gen_ashldi3_media (scratch2, scratch4_di, GEN_INT (45)));
  emit_insn (gen_subdi3 (scratch1, scratch2, scratch1));
  emit_insn (gen_ashrdisi3_media_opaque (scratch4, scratch1, GEN_INT (28)));
  /* inv1 == scratch4 */

  if (TARGET_DIVIDE_INV_MINLAT)
    {
      emit_insn (gen_mulsidi3_media (scratch1, scratch4, norm32));
      emit_insn (gen_mulsidi3_media (scratch2, dividend, scratch4));
      emit_insn (gen_ashrdi3_media (scratch1, scratch1, GEN_INT (16)));
      emit_insn (gen_mulsidi3_media (scratch1, scratch1_si, scratch4));
      emit_insn (gen_ashrdi3_media (scratch3, scratch2, GEN_INT (63)));
      emit_insn (gen_ashrsi3_media (scratch5, dividend, GEN_INT (14)));
      emit_insn (gen_ashrdi3_media (scratch1, scratch1, GEN_INT (30)));
      emit_insn (gen_mulsidi3_media (scratch1, scratch1_si, scratch5));
      emit_insn (gen_xordi3 (scratch0, scratch3, i2p27));
      emit_insn (gen_adddi3 (scratch2, scratch2, scratch0));
      emit_insn (gen_subdi3 (scratch2, scratch2, scratch1));
    }
  else
    {
      rtx label = gen_rtx_LABEL_REF (Pmode, gen_label_rtx ());
      /* Use separate scratch regs for nsb and sign to allow scheduling.  */
      emit_insn (gen_nsbdi (scratch6,
                            simplify_gen_subreg (DImode, dividend, SImode, 0)));
      emit_insn (gen_xorsi3 (scratch5, dividend, norm32));
      emit_insn (gen_ashrdi3_media (scratch3, scratch5_di, GEN_INT (63)));
      emit_insn (gen_divsi_inv20 (scratch2,
                                  norm32, scratch4, dividend,
                                  scratch6, scratch3, i43,
                                  /* scratch0 may be shared with i2p27.  */
                                  scratch0, scratch1, scratch5,
                                  label, label, i2p27));
    }
  emit_insn (gen_ashrdi3_media (scratch2, scratch2, shift));
  emit_insn (gen_subdisi3_media (result, scratch2, scratch3));
  DONE;
}")

(define_insn "divsi_inv20"
  [(set (match_operand:DI 0 "register_operand" "=&r")
        (unspec:DI [(match_operand:SI 1 "register_operand" "r")
                    (match_operand:SI 2 "register_operand" "r")
                    (match_operand:SI 3 "register_operand" "r")
                    (match_operand:DI 4 "register_operand" "r")
                    (match_operand:DI 5 "register_operand" "r")
                    (match_operand:DI 6 "register_operand" "r")
                    (match_operand:DI 12 "register_operand" "r")
                    (match_operand 10 "target_operand" "b")
                    (match_operand 11 "immediate_operand" "i")]
         UNSPEC_DIV_INV20))
   (clobber (match_operand:DI 7 "register_operand" "=&r"))
   (clobber (match_operand:DI 8 "register_operand" "=&r"))
   (clobber (match_operand:SI 9 "register_operand" "=r"))]
  "TARGET_SHMEDIA
   && (TARGET_DIVIDE_INV20U || TARGET_DIVIDE_INV20L)"
  "*
{
/* operands: %0 div_result, %1 norm32, %2 inv1, %3 dividend,
             %4 dividend_nsb, %5 result_sign, %6 i43, %12 i2p27,
             %7 round_scratch, %8 scratch0 (di), %9 scratch1 (si)
             %10 label (tr), %11 label (imm)

 muls.l inv1, norm32, scratch0  // s2.60
  muls.l inv1, dividend, result // s32.30
  xor i2p27, result_sign, round_scratch
 bge/u dividend_nsb, i43, tr.. (label)
 shari scratch0, 16, scratch0   // s-16.44
 muls.l sratch0_si, inv1, scratch0 // s-16.74
  sub result, round_scratch, result
  shari dividend, 14, scratch1   // s19.-14
 shari scratch0, 30, scratch0   // s-16.44
 muls.l scratch0, scratch1, round_scratch // s15.30
label:
 sub result, round_scratch, result */

  int likely = TARGET_DIVIDE_INV20L;

  if (! likely) output_asm_insn (\"muls.l\t%2, %1 , %8\", operands);
  output_asm_insn (\"muls.l\t%2, %3, %0\;xor\t%12, %5, %7\", operands);
  output_asm_insn (likely
                   ? \"bge/l\t%4, %6, %10\;muls.l\t%2, %1 , %8\"
                   : \"bge/u\t%4, %6, %10\", operands);
  output_asm_insn (\"shari\t%8, 16, %8\;muls.l\t%8, %2, %8\", operands);
  if (! likely) output_asm_insn (\"sub\t%0, %7, %0\", operands);
  output_asm_insn (\"shari\t%3, 14, %9\;shari\t%8, 30, %8\", operands);
  return (likely
          ? \"muls.l\t%8, %9, %8\;sub\t%0, %8, %0\n%11:\tadd\t%0, %7, %0\"
          : \"muls.l\t%8, %9, %7\n%11:\tsub\t%0, %7, %0\");
}")

(define_insn_and_split "divsi_inv_fp"
  [(set (match_operand:SI 0 "general_movdst_operand" "=rf")
        (div:SI (match_operand:SI 1 "general_movsrc_operand" "rf")
                (match_operand:SI 2 "register_operand" "rf")))
   (use (match_operand:SI 3 "general_movsrc_operand" "r"))
   (clobber (match_operand:SI 4 "register_operand" "=r"))
   (clobber (match_operand:SI 5 "register_operand" "=r"))
   (clobber (match_operand:DF 6 "register_operand" "=r"))
   (clobber (match_operand:DF 7 "register_operand" "=r"))
   (clobber (match_operand:DF 8 "register_operand" "=r"))]
  "TARGET_SHMEDIA_FPU"
  "#"
  "&& (high_life_started || reload_completed)"
  [(set (match_dup 0) (match_dup 3))]
  ""
  [(set_attr "highpart" "must_split")])

;; If a matching group of divide-by-inverse instructions is in the same
;; basic block after gcse & loop optimizations, we want to transform them
;; to a straight division using floating point for TARGET_DIVIDE_INV_FP.
(define_insn_and_split "*divsi_inv_fp_combine"
  [(set (match_operand:SI 0 "register_operand" "=f")
        (div:SI (match_operand:SI 1 "register_operand" "f")
                (match_operand:SI 2 "register_operand" "f")))
   (use (unspec:SI [(match_dup 1)
                    (match_operand:SI 3 "" "")
                    (unspec:SI [(match_operand:SI 4 "" "")
                                (match_dup 3)
                                (match_operand:DI 5 "" "")] UNSPEC_DIV_INV_M2)
                    (match_operand:DI 6 "" "")
                    (const_int 0)
                    (const_int 0)] UNSPEC_DIV_INV_M3))
   (clobber (match_operand:SI 7 "fp_arith_reg_operand" ""))
   (clobber (match_operand:SI 8 "fp_arith_reg_operand" ""))
   (clobber (match_operand:DF 9 "fp_arith_reg_operand" ""))
   (clobber (match_operand:DF 10 "fp_arith_reg_operand" ""))
   (clobber (match_operand:DF 11 "fp_arith_reg_operand" ""))]
  "TARGET_SHMEDIA_FPU && TARGET_DIVIDE_INV_FP && no_new_pseudos"
  "#"
  "&& 1"
  [(set (match_dup 9) (float:DF (match_dup 1)))
   (set (match_dup 10) (float:DF (match_dup 2)))
   (set (match_dup 11) (div:DF (match_dup 9) (match_dup 10)))
   (set (match_dup 8)
        (fix:SI (match_dup 11)))
   (set (match_dup 0) (match_dup 8))]
  "
{
  if (! fp_arith_reg_operand (operands[1], SImode))
    {
      emit_move_insn (operands[7], operands[1]);
      operands[1] = operands[7];
    }
  if (! fp_arith_reg_operand (operands[2], SImode))
    {
      emit_move_insn (operands[8], operands[2]);
      operands[2] = operands[8];
    }
}"
  [(set_attr "highpart" "must_split")])

;; -------------------------------------------------------------------------
;; Multiplication instructions
;; -------------------------------------------------------------------------

(define_insn "umulhisi3_i"
  [(set (reg:SI MACL_REG)
        (mult:SI (zero_extend:SI
                  (match_operand:HI 0 "arith_reg_operand" "r"))
                 (zero_extend:SI
                  (match_operand:HI 1 "arith_reg_operand" "r"))))]
  "TARGET_SH1"
  "mulu.w       %1,%0"
  [(set_attr "type" "smpy")])

(define_insn "mulhisi3_i"
  [(set (reg:SI MACL_REG)
        (mult:SI (sign_extend:SI
                  (match_operand:HI 0 "arith_reg_operand" "r"))
                 (sign_extend:SI
                  (match_operand:HI 1 "arith_reg_operand" "r"))))]
  "TARGET_SH1"
  "muls.w       %1,%0"
  [(set_attr "type" "smpy")])

(define_expand "mulhisi3"
  [(set (reg:SI MACL_REG)
        (mult:SI (sign_extend:SI
                  (match_operand:HI 1 "arith_reg_operand" ""))
                 (sign_extend:SI
                  (match_operand:HI 2 "arith_reg_operand" ""))))
   (set (match_operand:SI 0 "arith_reg_operand" "")
        (reg:SI MACL_REG))]
  "TARGET_SH1"
  "
{
  rtx first, last;

  first = emit_insn (gen_mulhisi3_i (operands[1], operands[2]));
  last = emit_move_insn (operands[0], gen_rtx_REG (SImode, MACL_REG));
  /* Wrap the sequence in REG_LIBCALL / REG_RETVAL notes so that loop
     invariant code motion can move it.  */
  REG_NOTES (first) = gen_rtx_INSN_LIST (REG_LIBCALL, last, REG_NOTES (first));
  REG_NOTES (last) = gen_rtx_INSN_LIST (REG_RETVAL, first, REG_NOTES (last));
  /* expand_binop can't find a suitable code in umul_widen_optab to
     make a REG_EQUAL note from, so make one here.
     See also smulsi3_highpart.
     ??? Alternatively, we could put this at the calling site of expand_binop,
     i.e. expand_expr.  */
  REG_NOTES (last)
    = gen_rtx_EXPR_LIST (REG_EQUAL, copy_rtx (SET_SRC (single_set (first))),
                         REG_NOTES (last));
  DONE;
}")

(define_expand "umulhisi3"
  [(set (reg:SI MACL_REG)
        (mult:SI (zero_extend:SI
                  (match_operand:HI 1 "arith_reg_operand" ""))
                 (zero_extend:SI
                  (match_operand:HI 2 "arith_reg_operand" ""))))
   (set (match_operand:SI 0 "arith_reg_operand" "")
        (reg:SI MACL_REG))]
  "TARGET_SH1"
  "
{
  rtx first, last;

  first = emit_insn (gen_umulhisi3_i (operands[1], operands[2]));
  last = emit_move_insn (operands[0], gen_rtx_REG (SImode, MACL_REG));
  /* Wrap the sequence in REG_LIBCALL / REG_RETVAL notes so that loop
     invariant code motion can move it.  */
  REG_NOTES (first) = gen_rtx_INSN_LIST (REG_LIBCALL, last, REG_NOTES (first));
  REG_NOTES (last) = gen_rtx_INSN_LIST (REG_RETVAL, first, REG_NOTES (last));
  /* expand_binop can't find a suitable code in umul_widen_optab to
     make a REG_EQUAL note from, so make one here.
     See also smulsi3_highpart.
     ??? Alternatively, we could put this at the calling site of expand_binop,
     i.e. expand_expr.  */
  REG_NOTES (last)
    = gen_rtx_EXPR_LIST (REG_EQUAL, copy_rtx (SET_SRC (single_set (first))),
                         REG_NOTES (last));
  DONE;
}")

;; mulsi3 on the SH2 can be done in one instruction, on the SH1 we generate
;; a call to a routine which clobbers known registers.

(define_insn ""
  [(set (match_operand:SI 1 "register_operand" "=z")
        (mult:SI (reg:SI R4_REG) (reg:SI R5_REG)))
   (clobber (reg:SI MACL_REG))
   (clobber (reg:SI T_REG))
   (clobber (reg:SI PR_REG))
   (clobber (reg:SI R3_REG))
   (clobber (reg:SI R2_REG))
   (clobber (reg:SI R1_REG))
   (use (match_operand:SI 0 "arith_reg_operand" "r"))]
  "TARGET_SH1"
  "jsr  @%0%#"
  [(set_attr "type" "sfunc")
   (set_attr "needs_delay_slot" "yes")])

(define_expand "mulsi3_call"
  [(set (reg:SI R4_REG) (match_operand:SI 1 "general_operand" ""))
   (set (reg:SI R5_REG) (match_operand:SI 2 "general_operand" ""))
   (parallel[(set (match_operand:SI 0 "register_operand" "")
                  (mult:SI (reg:SI R4_REG)
                           (reg:SI R5_REG)))
             (clobber (reg:SI MACL_REG))
             (clobber (reg:SI T_REG))
             (clobber (reg:SI PR_REG))
             (clobber (reg:SI R3_REG))
             (clobber (reg:SI R2_REG))
             (clobber (reg:SI R1_REG))
             (use (match_operand:SI 3 "register_operand" ""))])]
  "TARGET_SH1"
  "")

(define_insn "mul_r"
  [(set (match_operand:SI 0 "arith_reg_dest" "=r")
        (mult:SI (match_operand:SI 1 "arith_reg_operand" "0")
                 (match_operand:SI 2 "arith_reg_operand" "z")))]
  "TARGET_SH2A"
  "mulr %2,%0"
  [(set_attr "type" "dmpy")])

(define_insn "mul_l"
  [(set (reg:SI MACL_REG)
        (mult:SI (match_operand:SI 0 "arith_reg_operand" "r")
                 (match_operand:SI 1 "arith_reg_operand" "r")))]
  "TARGET_SH2"
  "mul.l        %1,%0"
  [(set_attr "type" "dmpy")])

(define_expand "mulsi3"
  [(set (reg:SI MACL_REG)
        (mult:SI  (match_operand:SI 1 "arith_reg_operand" "")
                  (match_operand:SI 2 "arith_reg_operand" "")))
   (set (match_operand:SI 0 "arith_reg_operand" "")
        (reg:SI MACL_REG))]
  "TARGET_SH1"
  "
{
  rtx first, last;

  if (!TARGET_SH2)
    {
      /* The address must be set outside the libcall,
         since it goes into a pseudo.  */
      rtx sym = function_symbol (NULL, \"__mulsi3\", SFUNC_STATIC);
      rtx addr = force_reg (SImode, sym);
      rtx insns = gen_mulsi3_call (operands[0], operands[1],
                                   operands[2], addr);
      first = insns;
      last = emit_insn (insns);
    }
  else
    {
      rtx macl = gen_rtx_REG (SImode, MACL_REG);

      first = emit_insn (gen_mul_l (operands[1], operands[2]));
      /* consec_sets_giv can only recognize the first insn that sets a
         giv as the giv insn.  So we must tag this also with a REG_EQUAL
         note.  */
      last = emit_insn (gen_movsi_i ((operands[0]), macl));
    }
  /* Wrap the sequence in REG_LIBCALL / REG_RETVAL notes so that loop
     invariant code motion can move it.  */
  REG_NOTES (first) = gen_rtx_INSN_LIST (REG_LIBCALL, last, REG_NOTES (first));
  REG_NOTES (last) = gen_rtx_INSN_LIST (REG_RETVAL, first, REG_NOTES (last));
  DONE;
}")

(define_insn "mulsidi3_i"
  [(set (reg:SI MACH_REG)
        (truncate:SI
         (lshiftrt:DI
          (mult:DI
           (sign_extend:DI (match_operand:SI 0 "arith_reg_operand" "r"))
           (sign_extend:DI (match_operand:SI 1 "arith_reg_operand" "r")))
          (const_int 32))))
   (set (reg:SI MACL_REG)
        (mult:SI (match_dup 0)
                 (match_dup 1)))]
  "TARGET_SH2"
  "dmuls.l      %1,%0"
  [(set_attr "type" "dmpy")])

(define_expand "mulsidi3"
  [(set (match_operand:DI 0 "arith_reg_operand" "=r")
        (mult:DI (sign_extend:DI (match_operand:SI 1 "arith_reg_operand" "r"))
                 (sign_extend:DI (match_operand:SI 2 "arith_reg_operand" "r"))))]
  "TARGET_SH2 || TARGET_SHMEDIA"
  "
{
  if (TARGET_SH2)
    {
       emit_insn (gen_mulsidi3_compact (operands[0], operands[1],
                                        operands[2]));
       DONE;
    }
}")

(define_insn "mulsidi3_media"
  [(set (match_operand:DI 0 "arith_reg_dest" "=r")
        (mult:DI (sign_extend:DI (match_operand:SI 1 "extend_reg_operand" "%r"))
                 (sign_extend:DI (match_operand:SI 2 "extend_reg_operand" "r"))))]
  "TARGET_SHMEDIA"
  "muls.l       %1, %2, %0"
  [(set_attr "type" "dmpy_media")
   (set_attr "highpart" "ignore")])

(define_insn "mulsidi3_compact"
  [(set (match_operand:DI 0 "arith_reg_dest" "=r")
        (mult:DI
         (sign_extend:DI (match_operand:SI 1 "arith_reg_operand" "r"))
         (sign_extend:DI (match_operand:SI 2 "arith_reg_operand" "r"))))
   (clobber (reg:SI MACH_REG))
   (clobber (reg:SI MACL_REG))]
  "TARGET_SH2"
  "#")

(define_split
  [(set (match_operand:DI 0 "arith_reg_dest" "")
        (mult:DI
         (sign_extend:DI (match_operand:SI 1 "arith_reg_operand" ""))
         (sign_extend:DI (match_operand:SI 2 "arith_reg_operand" ""))))
   (clobber (reg:SI MACH_REG))
   (clobber (reg:SI MACL_REG))]
  "TARGET_SH2"
  [(const_int 0)]
  "
{
  rtx low_dst = gen_lowpart (SImode, operands[0]);
  rtx high_dst = gen_highpart (SImode, operands[0]);

  emit_insn (gen_mulsidi3_i (operands[1], operands[2]));

  emit_move_insn (low_dst, gen_rtx_REG (SImode, MACL_REG));
  emit_move_insn (high_dst, gen_rtx_REG (SImode, MACH_REG));
  /* We need something to tag the possible REG_EQUAL notes on to.  */
  emit_move_insn (operands[0], operands[0]);
  DONE;
}")

(define_insn "umulsidi3_i"
  [(set (reg:SI MACH_REG)
        (truncate:SI
         (lshiftrt:DI
          (mult:DI
           (zero_extend:DI (match_operand:SI 0 "arith_reg_operand" "r"))
           (zero_extend:DI (match_operand:SI 1 "arith_reg_operand" "r")))
          (const_int 32))))
   (set (reg:SI MACL_REG)
        (mult:SI (match_dup 0)
                 (match_dup 1)))]
  "TARGET_SH2"
  "dmulu.l      %1,%0"
  [(set_attr "type" "dmpy")])

(define_expand "umulsidi3"
  [(set (match_operand:DI 0 "arith_reg_operand" "=r")
        (mult:DI (zero_extend:DI (match_operand:SI 1 "arith_reg_operand" "r"))
                 (zero_extend:DI (match_operand:SI 2 "arith_reg_operand" "r"))))]
  "TARGET_SH2 || TARGET_SHMEDIA"
  "
{
  if (TARGET_SH2)
    {
       emit_insn (gen_umulsidi3_compact (operands[0], operands[1],
                                         operands[2]));
       DONE;
    }
}")

(define_insn "umulsidi3_media"
  [(set (match_operand:DI 0 "arith_reg_dest" "=r")
        (mult:DI (zero_extend:DI (match_operand:SI 1 "extend_reg_operand" "%r"))
                 (zero_extend:DI (match_operand:SI 2 "extend_reg_operand" "r"))))]
  "TARGET_SHMEDIA"
  "mulu.l       %1, %2, %0"
  [(set_attr "type" "dmpy_media")
   (set_attr "highpart" "ignore")])

(define_insn "umulsidi3_compact"
  [(set (match_operand:DI 0 "arith_reg_dest" "=r")
        (mult:DI
         (zero_extend:DI (match_operand:SI 1 "arith_reg_operand" "r"))
         (zero_extend:DI (match_operand:SI 2 "arith_reg_operand" "r"))))
   (clobber (reg:SI MACH_REG))
   (clobber (reg:SI MACL_REG))]
  "TARGET_SH2"
  "#")

(define_split
  [(set (match_operand:DI 0 "arith_reg_dest" "")
        (mult:DI (zero_extend:DI (match_operand:SI 1 "arith_reg_operand" ""))
                 (zero_extend:DI (match_operand:SI 2 "arith_reg_operand" ""))))
   (clobber (reg:SI MACH_REG))
   (clobber (reg:SI MACL_REG))]
  "TARGET_SH2"
  [(const_int 0)]
  "
{
  rtx low_dst = gen_lowpart (SImode, operands[0]);
  rtx high_dst = gen_highpart (SImode, operands[0]);

  emit_insn (gen_umulsidi3_i (operands[1], operands[2]));

  emit_move_insn (low_dst, gen_rtx_REG (SImode, MACL_REG));
  emit_move_insn (high_dst, gen_rtx_REG (SImode, MACH_REG));
  /* We need something to tag the possible REG_EQUAL notes on to.  */
  emit_move_insn (operands[0], operands[0]);
  DONE;
}")

(define_insn "smulsi3_highpart_i"
  [(set (reg:SI MACH_REG)
        (truncate:SI
         (lshiftrt:DI
          (mult:DI
           (sign_extend:DI (match_operand:SI 0 "arith_reg_operand" "r"))
           (sign_extend:DI (match_operand:SI 1 "arith_reg_operand" "r")))
          (const_int 32))))
   (clobber (reg:SI MACL_REG))]
  "TARGET_SH2"
  "dmuls.l      %1,%0"
  [(set_attr "type" "dmpy")])

(define_expand "smulsi3_highpart"
  [(parallel
    [(set (reg:SI MACH_REG)
          (truncate:SI
           (lshiftrt:DI
            (mult:DI
             (sign_extend:DI (match_operand:SI 1 "arith_reg_operand" ""))
             (sign_extend:DI (match_operand:SI 2 "arith_reg_operand" "")))
            (const_int 32))))
    (clobber (reg:SI MACL_REG))])
   (set (match_operand:SI 0 "arith_reg_operand" "")
        (reg:SI MACH_REG))]
  "TARGET_SH2"
  "
{
  rtx first, last;

  first = emit_insn (gen_smulsi3_highpart_i (operands[1], operands[2]));
  last = emit_move_insn (operands[0], gen_rtx_REG (SImode, MACH_REG));
  /* Wrap the sequence in REG_LIBCALL / REG_RETVAL notes so that loop
     invariant code motion can move it.  */
  REG_NOTES (first) = gen_rtx_INSN_LIST (REG_LIBCALL, last, REG_NOTES (first));
  REG_NOTES (last) = gen_rtx_INSN_LIST (REG_RETVAL, first, REG_NOTES (last));
  /* expand_binop can't find a suitable code in mul_highpart_optab to
     make a REG_EQUAL note from, so make one here.
     See also {,u}mulhisi.
     ??? Alternatively, we could put this at the calling site of expand_binop,
     i.e. expand_mult_highpart.  */
  REG_NOTES (last)
    = gen_rtx_EXPR_LIST (REG_EQUAL, copy_rtx (SET_SRC (single_set (first))),
                         REG_NOTES (last));
  DONE;
}")

(define_insn "umulsi3_highpart_i"
  [(set (reg:SI MACH_REG)
        (truncate:SI
         (lshiftrt:DI
          (mult:DI
           (zero_extend:DI (match_operand:SI 0 "arith_reg_operand" "r"))
           (zero_extend:DI (match_operand:SI 1 "arith_reg_operand" "r")))
          (const_int 32))))
   (clobber (reg:SI MACL_REG))]
  "TARGET_SH2"
  "dmulu.l      %1,%0"
  [(set_attr "type" "dmpy")])

(define_expand "umulsi3_highpart"
  [(parallel
    [(set (reg:SI MACH_REG)
          (truncate:SI
           (lshiftrt:DI
            (mult:DI
             (zero_extend:DI (match_operand:SI 1 "arith_reg_operand" ""))
             (zero_extend:DI (match_operand:SI 2 "arith_reg_operand" "")))
            (const_int 32))))
    (clobber (reg:SI MACL_REG))])
   (set (match_operand:SI 0 "arith_reg_operand" "")
        (reg:SI MACH_REG))]
  "TARGET_SH2"
  "
{
  rtx first, last;

  first = emit_insn (gen_umulsi3_highpart_i (operands[1], operands[2]));
  last = emit_move_insn (operands[0], gen_rtx_REG (SImode, MACH_REG));
  /* Wrap the sequence in REG_LIBCALL / REG_RETVAL notes so that loop
     invariant code motion can move it.  */
  REG_NOTES (first) = gen_rtx_INSN_LIST (REG_LIBCALL, last, REG_NOTES (first));
  REG_NOTES (last) = gen_rtx_INSN_LIST (REG_RETVAL, first, REG_NOTES (last));
  DONE;
}")

(define_insn_and_split "muldi3"
  [(set (match_operand:DI 0 "arith_reg_dest" "=r")
        (mult:DI (match_operand:DI 1 "arith_reg_operand" "r")
                 (match_operand:DI 2 "arith_reg_operand" "r")))
   (clobber (match_scratch:DI 3 "=&r"))
   (clobber (match_scratch:DI 4 "=r"))]
  "TARGET_SHMEDIA"
  "#"
  "reload_completed"
  [(const_int 0)]
  "
{
  rtx op3_v2si, op2_v2si;

  op3_v2si = operands[3];
  if (GET_CODE (op3_v2si) == SIGN_EXTEND)
    {
      op3_v2si = XEXP (op3_v2si, 0);
      op3_v2si = simplify_gen_subreg (DImode, op3_v2si, GET_MODE (op3_v2si), 0);
    }
  op3_v2si = simplify_gen_subreg (V2SImode, op3_v2si, DImode, 0);
  op2_v2si = operands[2];
  if (GET_CODE (op2_v2si) == SIGN_EXTEND)
    {
      op2_v2si = XEXP (op2_v2si, 0);
      op2_v2si = simplify_gen_subreg (DImode, op2_v2si, GET_MODE (op2_v2si), 0);
    }
  op2_v2si = simplify_gen_subreg (V2SImode, op2_v2si, DImode, 0);
  emit_insn (gen_rotldi3 (operands[3], operands[1], GEN_INT (32)));
  emit_insn (gen_mulv2si3 (op3_v2si, op3_v2si, op2_v2si));
  emit_insn (gen_umulsidi3_media (operands[4],
                                 sh_gen_truncate (SImode, operands[1], 0),
                                 sh_gen_truncate (SImode, operands[2], 0)));
  emit_insn (gen_anddi3 (operands[0], operands[3], GEN_INT (0xffffffff00000000LL)));
  emit_insn (gen_ashldi3_media (operands[3], operands[3], GEN_INT (32)));
  emit_insn (gen_adddi3 (operands[0], operands[3], operands[0]));
  emit_insn (gen_adddi3 (operands[0], operands[4], operands[0]));
  DONE;
}")


;; -------------------------------------------------------------------------
;; Logical operations
;; -------------------------------------------------------------------------

(define_insn "*andsi3_compact"
  [(set (match_operand:SI 0 "arith_reg_dest" "=r,z")
        (and:SI (match_operand:SI 1 "arith_reg_operand" "%0,0")
                (match_operand:SI 2 "logical_operand" "r,K08")))]
  "TARGET_SH1"
  "and  %2,%0"
  [(set_attr "type" "arith")])

(define_insn "*andsi3_media"
  [(set (match_operand:SI 0 "arith_reg_dest" "=r,r")
        (and:SI (match_operand:SI 1 "logical_reg_operand" "%r,r")
                (match_operand:SI 2 "logical_operand" "r,I10")))]
  "TARGET_SHMEDIA"
  "@
        and     %1, %2, %0
        andi    %1, %2, %0"
  [(set_attr "type" "arith_media")])

;; If the constant is 255, then emit an extu.b instruction instead of an
;; and, since that will give better code.

(define_expand "andsi3"
  [(set (match_operand:SI 0 "arith_reg_operand" "")
        (and:SI (match_operand:SI 1 "logical_reg_operand" "")
                (match_operand:SI 2 "logical_operand" "")))]
  ""
  "
{
  if (TARGET_SH1
      && GET_CODE (operands[2]) == CONST_INT && INTVAL (operands[2]) == 255)
    {
      emit_insn (gen_zero_extendqisi2 (operands[0],
                                       gen_lowpart (QImode, operands[1])));
      DONE;
    }
}")

(define_insn_and_split "anddi3"
  [(set (match_operand:DI 0 "arith_reg_dest" "=r,r,r")
        (and:DI (match_operand:DI 1 "arith_reg_operand" "%r,r,r")
                (match_operand:DI 2 "and_operand" "r,I10,J16")))]
  "TARGET_SHMEDIA"
  "@
        and     %1, %2, %0
        andi    %1, %2, %0
        #"
  "reload_completed
   && ! logical_operand (operands[2], DImode)"
  [(const_int 0)]
  "
{
  if ((unsigned)INTVAL (operands[2]) == (unsigned) 0xffffffff)
    emit_insn (gen_mshflo_l_di (operands[0], operands[1], CONST0_RTX (DImode)));
  else
    emit_insn (gen_mshfhi_l_di (operands[0], CONST0_RTX (DImode), operands[1]));
  DONE;
}"
  [(set_attr "type" "arith_media")])

(define_insn "andcsi3"
  [(set (match_operand:SI 0 "arith_reg_dest" "=r")
        (and:SI (match_operand:SI 1 "arith_reg_operand" "r")
                (not:SI (match_operand:SI 2 "arith_reg_operand" "r"))))]
  "TARGET_SHMEDIA"
  "andc %1,%2,%0"
  [(set_attr "type" "arith_media")])

(define_insn "andcdi3"
  [(set (match_operand:DI 0 "arith_reg_dest" "=r")
        (and:DI (match_operand:DI 1 "arith_reg_operand" "r")
                (not:DI (match_operand:DI 2 "arith_reg_operand" "r"))))]
  "TARGET_SHMEDIA"
  "andc %1,%2,%0"
  [(set_attr "type" "arith_media")])

(define_expand "iorsi3"
  [(set (match_operand:SI 0 "arith_reg_operand" "")
        (ior:SI (match_operand:SI 1 "logical_reg_operand" "")
                (match_operand:SI 2 "logical_operand" "")))]
  ""
  "")

(define_insn "*iorsi3_compact"
  [(set (match_operand:SI 0 "arith_reg_dest" "=r,z")
        (ior:SI (match_operand:SI 1 "arith_reg_operand" "%0,0")
                (match_operand:SI 2 "logical_operand" "r,K08")))]
  "TARGET_SH1"
  "or   %2,%0"
  [(set_attr "type" "arith")])

(define_insn "*iorsi3_media"
  [(set (match_operand:SI 0 "arith_reg_dest" "=r,r")
        (ior:SI (match_operand:SI 1 "logical_reg_operand" "%r,r")
                (match_operand:SI 2 "logical_operand" "r,I10")))]
  "TARGET_SHMEDIA"
  "@
        or      %1, %2, %0
        ori     %1, %2, %0"
  [(set_attr "type" "arith_media")])

(define_insn "iordi3"
  [(set (match_operand:DI 0 "arith_reg_dest" "=r,r")
        (ior:DI (match_operand:DI 1 "arith_reg_operand" "%r,r")
                (match_operand:DI 2 "logical_operand" "r,I10")))]
  "TARGET_SHMEDIA"
  "@
        or      %1, %2, %0
        ori     %1, %2, %0"
  [(set_attr "type" "arith_media")])

(define_insn_and_split "*logical_sidi3"
  [(set (match_operand:DI 0 "arith_reg_dest" "=r,r")
        (sign_extend:DI (match_operator:SI 3 "logical_operator"
                          [(match_operand:SI 1 "arith_reg_operand" "%r,r")
                           (match_operand:SI 2 "logical_operand" "r,I10")])))]
  "TARGET_SHMEDIA"
  "#"
  "&& reload_completed"
  [(set (match_dup 0) (match_dup 3))]
  "
{
  operands[3]
    = gen_rtx_fmt_ee (GET_CODE (operands[3]), DImode,
                      simplify_gen_subreg (DImode, operands[1], SImode, 0),
                      simplify_gen_subreg (DImode, operands[2], SImode, 0));
}")

(define_insn_and_split "*logical_sidisi3"
  [(set (match_operand:SI 0 "arith_reg_dest" "=r,r")
        (truncate:SI (sign_extend:DI
                        (match_operator:SI 3 "logical_operator"
                          [(match_operand:SI 1 "arith_reg_operand" "%r,r")
                           (match_operand:SI 2 "logical_operand" "r,I10")]))))]
  "TARGET_SHMEDIA"
  "#"
  "&& 1"
  [(set (match_dup 0) (match_dup 3))])

(define_insn_and_split "*logical_sidi3_2"
  [(set (match_operand:DI 0 "arith_reg_dest" "=r,r")
        (sign_extend:DI (truncate:SI (sign_extend:DI
                        (match_operator:SI 3 "logical_operator"
                          [(match_operand:SI 1 "arith_reg_operand" "%r,r")
                           (match_operand:SI 2 "logical_operand" "r,I10")])))))]
  "TARGET_SHMEDIA"
  "#"
  "&& 1"
  [(set (match_dup 0) (sign_extend:DI (match_dup 3)))])

(define_expand "xorsi3"
  [(set (match_operand:SI 0 "arith_reg_operand" "")
        (xor:SI (match_operand:SI 1 "logical_reg_operand" "")
                (match_operand:SI 2 "xor_operand" "")))]
  ""
  "")

(define_insn "*xorsi3_compact"
  [(set (match_operand:SI 0 "arith_reg_dest" "=z,r")
        (xor:SI (match_operand:SI 1 "arith_reg_operand" "%0,0")
                (match_operand:SI 2 "logical_operand" "K08,r")))]
  "TARGET_SH1"
  "xor  %2,%0"
  [(set_attr "type" "arith")])

(define_insn "*xorsi3_media"
  [(set (match_operand:SI 0 "arith_reg_dest" "=r,r")
        (xor:SI (match_operand:SI 1 "logical_reg_operand" "%r,r")
                (match_operand:SI 2 "xor_operand" "r,I06")))]
  "TARGET_SHMEDIA"
  "@
        xor     %1, %2, %0
        xori    %1, %2, %0"
  [(set_attr "type" "arith_media")])

(define_insn "xordi3"
  [(set (match_operand:DI 0 "arith_reg_dest" "=r,r")
        (xor:DI (match_operand:DI 1 "arith_reg_operand" "%r,r")
                (match_operand:DI 2 "xor_operand" "r,I06")))]
  "TARGET_SHMEDIA"
  "@
        xor     %1, %2, %0
        xori    %1, %2, %0"
  [(set_attr "type" "arith_media")])

;; Combiner bridge pattern for 2 * sign extend -> logical op -> truncate.
;; converts 2 * sign extend -> logical op into logical op -> sign extend
(define_split
  [(set (match_operand:DI 0 "arith_reg_dest" "")
        (sign_extend:DI (match_operator 4 "binary_logical_operator"
                          [(match_operand 1 "any_register_operand" "")
                           (match_operand 2 "any_register_operand" "")])))]
  "TARGET_SHMEDIA"
  [(set (match_dup 5) (match_dup 4))
   (set (match_dup 0) (sign_extend:DI (match_dup 5)))]
"
{
  enum machine_mode inmode = GET_MODE (operands[1]);
  int offset = 0;

  if (GET_CODE (operands[0]) == SUBREG)
    {
      offset = SUBREG_BYTE (operands[0]);
      operands[0] = SUBREG_REG (operands[0]);
    }
  gcc_assert (GET_CODE (operands[0]) == REG);
  if (! TARGET_LITTLE_ENDIAN)
    offset += 8 - GET_MODE_SIZE (inmode);
  operands[5] = gen_rtx_SUBREG (inmode, operands[0], offset);
}")

;; -------------------------------------------------------------------------
;; Shifts and rotates
;; -------------------------------------------------------------------------

(define_expand "rotldi3"
  [(set (match_operand:DI 0 "arith_reg_dest" "=r")
        (rotate:DI (match_operand:DI 1 "arith_reg_operand" "r")
                   (match_operand:HI 2 "mextr_bit_offset" "i")))]
  "TARGET_SHMEDIA"
  "if (! mextr_bit_offset (operands[2], HImode)) FAIL;")

(define_insn "rotldi3_mextr"
  [(set (match_operand:DI 0 "arith_reg_dest" "=r")
        (rotate:DI (match_operand:DI 1 "arith_reg_operand" "r")
                   (match_operand:HI 2 "mextr_bit_offset" "i")))]
  "TARGET_SHMEDIA"
  "*
{
  static char templ[16];

  sprintf (templ, \"mextr%d\\t%%1,%%1,%%0\",
           8 - (int) (INTVAL (operands[2]) >> 3));
  return templ;
}"
  [(set_attr "type" "arith_media")])

(define_expand "rotrdi3"
  [(set (match_operand:DI 0 "arith_reg_dest" "=r")
        (rotatert:DI (match_operand:DI 1 "arith_reg_operand" "r")
                     (match_operand:HI 2 "mextr_bit_offset" "i")))]
  "TARGET_SHMEDIA"
  "if (! mextr_bit_offset (operands[2], HImode)) FAIL;")

(define_insn "rotrdi3_mextr"
  [(set (match_operand:DI 0 "arith_reg_dest" "=r")
        (rotatert:DI (match_operand:DI 1 "arith_reg_operand" "r")
                     (match_operand:HI 2 "mextr_bit_offset" "i")))]
  "TARGET_SHMEDIA"
  "*
{
  static char templ[16];

  sprintf (templ, \"mextr%d\\t%%1,%%1,%%0\", (int) INTVAL (operands[2]) >> 3);
  return templ;
}"
  [(set_attr "type" "arith_media")])

(define_split
  [(set (match_operand:DI 0 "arith_reg_dest" "")
        (ior:DI (zero_extend:DI (mem:QI (match_operand 1
                                         "ua_address_operand" "")))
                (ashift:DI (match_operand:DI 2 "arith_reg_operand" "")
                           (const_int 8))))
   (clobber (match_operand:DI 3 "register_operand" ""))]
  "TARGET_SHMEDIA"
  [(match_dup 4) (match_dup 5)]
  "
{
  operands[4] = ((TARGET_LITTLE_ENDIAN ? gen_ldhi_q : gen_ldlo_q)
                 (operands[3], operands[1]));
  operands[5] = gen_mextr_rl (operands[0], operands[3], operands[2],
                              GEN_INT (56), GEN_INT (8));
}")

(define_insn "rotlsi3_1"
  [(set (match_operand:SI 0 "arith_reg_dest" "=r")
        (rotate:SI (match_operand:SI 1 "arith_reg_operand" "0")
                   (const_int 1)))
   (set (reg:SI T_REG)
        (lshiftrt:SI (match_dup 1) (const_int 31)))]
  "TARGET_SH1"
  "rotl %0"
  [(set_attr "type" "arith")])

(define_insn "rotlsi3_31"
  [(set (match_operand:SI 0 "arith_reg_dest" "=r")
        (rotate:SI (match_operand:SI 1 "arith_reg_operand" "0")
                   (const_int 31)))
   (clobber (reg:SI T_REG))]
  "TARGET_SH1"
  "rotr %0"
  [(set_attr "type" "arith")])

(define_insn "rotlsi3_16"
  [(set (match_operand:SI 0 "arith_reg_dest" "=r")
        (rotate:SI (match_operand:SI 1 "arith_reg_operand" "r")
                   (const_int 16)))]
  "TARGET_SH1"
  "swap.w       %1,%0"
  [(set_attr "type" "arith")])

(define_expand "rotlsi3"
  [(set (match_operand:SI 0 "arith_reg_dest" "")
        (rotate:SI (match_operand:SI 1 "arith_reg_operand" "")
                   (match_operand:SI 2 "immediate_operand" "")))]
  "TARGET_SH1"
  "
{
  static const char rot_tab[] = {
    000, 000, 000, 000, 000, 000, 010, 001,
    001, 001, 011, 013, 003, 003, 003, 003,
    003, 003, 003, 003, 003, 013, 012, 002,
    002, 002, 010, 000, 000, 000, 000, 000,
  };

  int count, choice;

  if (GET_CODE (operands[2]) != CONST_INT)
    FAIL;
  count = INTVAL (operands[2]);
  choice = rot_tab[count];
  if (choice & 010 && SH_DYNAMIC_SHIFT_COST <= 1)
    FAIL;
  choice &= 7;
  switch (choice)
    {
    case 0:
      emit_move_insn (operands[0], operands[1]);
      count -= (count & 16) * 2;
      break;
    case 3:
     emit_insn (gen_rotlsi3_16 (operands[0], operands[1]));
     count -= 16;
     break;
    case 1:
    case 2:
      {
        rtx parts[2];
        parts[0] = gen_reg_rtx (SImode);
        parts[1] = gen_reg_rtx (SImode);
        emit_insn (gen_rotlsi3_16 (parts[2-choice], operands[1]));
        emit_move_insn (parts[choice-1], operands[1]);
        emit_insn (gen_ashlsi3 (parts[0], parts[0], GEN_INT (8)));
        emit_insn (gen_lshrsi3 (parts[1], parts[1], GEN_INT (8)));
        emit_insn (gen_iorsi3 (operands[0], parts[0], parts[1]));
        count = (count & ~16) - 8;
      }
    }

  for (; count > 0; count--)
    emit_insn (gen_rotlsi3_1 (operands[0], operands[0]));
  for (; count < 0; count++)
    emit_insn (gen_rotlsi3_31 (operands[0], operands[0]));

  DONE;
}")

(define_insn "*rotlhi3_8"
  [(set (match_operand:HI 0 "arith_reg_dest" "=r")
        (rotate:HI (match_operand:HI 1 "arith_reg_operand" "r")
                   (const_int 8)))]
  "TARGET_SH1"
  "swap.b       %1,%0"
  [(set_attr "type" "arith")])

(define_expand "rotlhi3"
  [(set (match_operand:HI 0 "arith_reg_operand" "")
        (rotate:HI (match_operand:HI 1 "arith_reg_operand" "")
                   (match_operand:HI 2 "immediate_operand" "")))]
  "TARGET_SH1"
  "
{
  if (GET_CODE (operands[2]) != CONST_INT || INTVAL (operands[2]) != 8)
    FAIL;
}")

;;
;; shift left

(define_insn "ashlsi3_sh2a"
  [(set (match_operand:SI 0 "arith_reg_dest" "=r")
        (ashift:SI (match_operand:SI 1 "arith_reg_operand" "0")
                   (match_operand:SI 2 "arith_reg_operand" "r")))]
  "TARGET_SH2A"
  "shad %2,%0"
  [(set_attr "type" "arith")
   (set_attr "length" "4")])

;; This pattern is used by init_expmed for computing the costs of shift
;; insns.

(define_insn_and_split "ashlsi3_std"
  [(set (match_operand:SI 0 "arith_reg_dest" "=r,r,r,r")
        (ashift:SI (match_operand:SI 1 "arith_reg_operand" "0,0,0,0")
                   (match_operand:SI 2 "nonmemory_operand" "r,M,P27,?ri")))
   (clobber (match_scratch:SI 3 "=X,X,X,&r"))]
  "TARGET_SH3
   || (TARGET_SH1 && GET_CODE (operands[2]) == CONST_INT
       && CONST_OK_FOR_P27 (INTVAL (operands[2])))"
  "@
   shld %2,%0
   add  %0,%0
   shll%O2      %0
   #"
  "TARGET_SH3
   && reload_completed
   && GET_CODE (operands[2]) == CONST_INT
   && ! CONST_OK_FOR_P27 (INTVAL (operands[2]))"
  [(set (match_dup 3) (match_dup 2))
   (parallel
    [(set (match_dup 0) (ashift:SI (match_dup 1) (match_dup 3)))
     (clobber (match_dup 4))])]
  "operands[4] = gen_rtx_SCRATCH (SImode);"
  [(set_attr "length" "*,*,*,4")
   (set_attr "type" "dyn_shift,arith,arith,arith")])

(define_insn "ashlhi3_k"
  [(set (match_operand:HI 0 "arith_reg_dest" "=r,r")
        (ashift:HI (match_operand:HI 1 "arith_reg_operand" "0,0")
                   (match_operand:HI 2 "const_int_operand" "M,P27")))]
  "TARGET_SH1 && CONST_OK_FOR_P27 (INTVAL (operands[2]))"
  "@
        add     %0,%0
        shll%O2 %0"
  [(set_attr "type" "arith")])

(define_insn "ashlsi3_n"
  [(set (match_operand:SI 0 "arith_reg_dest" "=r")
        (ashift:SI (match_operand:SI 1 "arith_reg_operand" "0")
                   (match_operand:SI 2 "const_int_operand" "n")))
   (clobber (reg:SI T_REG))]
  "TARGET_SH1 && ! sh_dynamicalize_shift_p (operands[2])"
  "#"
  [(set (attr "length")
        (cond [(eq (symbol_ref "shift_insns_rtx (insn)") (const_int 1))
               (const_string "2")
               (eq (symbol_ref "shift_insns_rtx (insn)") (const_int 2))
               (const_string "4")
               (eq (symbol_ref "shift_insns_rtx (insn)") (const_int 3))
               (const_string "6")]
              (const_string "8")))
   (set_attr "type" "arith")])

(define_split
  [(set (match_operand:SI 0 "arith_reg_dest" "")
        (ashift:SI (match_operand:SI 1 "arith_reg_operand" "")
                   (match_operand:SI 2 "const_int_operand" "")))
   (clobber (reg:SI T_REG))]
  "TARGET_SH1 && reload_completed"
  [(use (reg:SI R0_REG))]
  "
{
  gen_shifty_op (ASHIFT, operands);
  DONE;
}")

(define_insn "ashlsi3_media"
  [(set (match_operand:SI 0 "arith_reg_dest" "=r,r")
        (ashift:SI (match_operand:SI 1 "extend_reg_operand" "r,r")
                   (match_operand:SI 2 "shift_count_operand" "r,n")))]
  "TARGET_SHMEDIA"
  "@
        shlld.l %1, %2, %0
        shlli.l %1, %2, %0"
  [(set_attr "type" "arith_media")
   (set_attr "highpart" "ignore")])

(define_expand "ashlsi3"
  [(parallel [(set (match_operand:SI 0 "arith_reg_operand" "")
                   (ashift:SI (match_operand:SI 1 "arith_reg_operand" "")
                              (match_operand:SI 2 "nonmemory_operand" "")))
              (clobber (reg:SI T_REG))])]
  ""
  "
{
  if (TARGET_SHMEDIA)
    {
      emit_insn (gen_ashlsi3_media (operands[0], operands[1], operands[2]));
      DONE;
    }
  if (GET_CODE (operands[2]) == CONST_INT
      && sh_dynamicalize_shift_p (operands[2]))
    operands[2] = force_reg (SImode, operands[2]);
  if (TARGET_SH3)
    {
      emit_insn (gen_ashlsi3_std (operands[0], operands[1], operands[2]));
      DONE;
    }
  if (! immediate_operand (operands[2], GET_MODE (operands[2])))
    FAIL;
}")

(define_insn "*ashlhi3_n"
  [(set (match_operand:HI 0 "arith_reg_dest" "=r")
        (ashift:HI (match_operand:HI 1 "arith_reg_operand" "0")
                   (match_operand:HI 2 "const_int_operand" "n")))
   (clobber (reg:SI T_REG))]
  "TARGET_SH1"
  "#"
  [(set (attr "length")
        (cond [(eq (symbol_ref "shift_insns_rtx (insn)") (const_int 1))
               (const_string "2")
               (eq (symbol_ref "shift_insns_rtx (insn)") (const_int 2))
               (const_string "4")]
              (const_string "6")))
   (set_attr "type" "arith")])

(define_expand "ashlhi3"
  [(parallel [(set (match_operand:HI 0 "arith_reg_operand" "")
                   (ashift:HI (match_operand:HI 1 "arith_reg_operand" "")
                              (match_operand:SI 2 "nonmemory_operand" "")))
              (clobber (reg:SI T_REG))])]
  "TARGET_SH1"
  "
{
  if (GET_CODE (operands[2]) != CONST_INT)
    FAIL;
  /* It may be possible to call gen_ashlhi3 directly with more generic
     operands.  Make sure operands[1] is a HImode register here.  */
  if (!arith_reg_operand (operands[1], HImode))
    operands[1] = copy_to_mode_reg (HImode, operands[1]);
}")

(define_split
  [(set (match_operand:HI 0 "arith_reg_dest" "")
        (ashift:HI (match_operand:HI 1 "arith_reg_operand" "")
                   (match_operand:HI 2 "const_int_operand" "")))
   (clobber (reg:SI T_REG))]
  "TARGET_SH1 && reload_completed"
  [(use (reg:SI R0_REG))]
  "
{
  gen_shifty_hi_op (ASHIFT, operands);
  DONE;
}")

;
; arithmetic shift right
;

(define_insn "ashrsi3_sh2a"
  [(set (match_operand:SI 0 "arith_reg_dest" "=r")
        (ashiftrt:SI (match_operand:SI 1 "arith_reg_operand" "0")
                   (neg:SI (match_operand:SI 2 "arith_reg_operand" "r"))))]
  "TARGET_SH2A"
  "shad %2,%0"
  [(set_attr "type" "dyn_shift")
   (set_attr "length" "4")])

(define_insn "ashrsi3_k"
  [(set (match_operand:SI 0 "arith_reg_dest" "=r")
        (ashiftrt:SI (match_operand:SI 1 "arith_reg_operand" "0")
                     (match_operand:SI 2 "const_int_operand" "M")))
   (clobber (reg:SI T_REG))]
  "TARGET_SH1 && INTVAL (operands[2]) == 1"
  "shar %0"
  [(set_attr "type" "arith")])

;; We can't do HImode right shifts correctly unless we start out with an
;; explicit zero / sign extension; doing that would result in worse overall
;; code, so just let the machine independent code widen the mode.
;; That's why we don't have ashrhi3_k / lshrhi3_k / lshrhi3_m / lshrhi3 .


;; ??? This should be a define expand.

(define_insn "ashrsi2_16"
  [(set (match_operand:SI 0 "arith_reg_dest" "=r")
        (ashiftrt:SI (match_operand:SI 1 "arith_reg_operand" "r")
                     (const_int 16)))]
  "TARGET_SH1"
  "#"
  [(set_attr "length" "4")])

(define_split
  [(set (match_operand:SI 0 "arith_reg_dest" "")
        (ashiftrt:SI (match_operand:SI 1 "arith_reg_operand" "")
                     (const_int 16)))]
  "TARGET_SH1"
  [(set (match_dup 0) (rotate:SI (match_dup 1) (const_int 16)))
   (set (match_dup 0) (sign_extend:SI (match_dup 2)))]
  "operands[2] = gen_lowpart (HImode, operands[0]);")

;; ??? This should be a define expand.

(define_insn "ashrsi2_31"
  [(set (match_operand:SI 0 "arith_reg_dest" "=r")
        (ashiftrt:SI (match_operand:SI 1 "arith_reg_operand" "0")
                     (const_int 31)))
   (clobber (reg:SI T_REG))]
  "TARGET_SH1"
  "#"
  [(set_attr "length" "4")])

(define_split
  [(set (match_operand:SI 0 "arith_reg_dest" "")
        (ashiftrt:SI (match_operand:SI 1 "arith_reg_operand" "")
                     (const_int 31)))
   (clobber (reg:SI T_REG))]
  "TARGET_SH1"
  [(const_int 0)]
  "
{
  emit_insn (gen_ashlsi_c (operands[0], operands[1]));
  emit_insn (gen_mov_neg_si_t (operands[0]));
  DONE;
}")

(define_peephole2
  [(set (match_operand:SI 0 "arith_reg_dest" "") (const_int 0))
   (set (reg:SI T_REG)
        (gt:SI (match_dup 0) (match_operand:SI 1 "arith_reg_operand" "")))]
  "TARGET_SH1
   && peep2_reg_dead_p (2, operands[0])
   && peep2_reg_dead_p (2, operands[1])"
  [(const_int 0)]
  "
{
  emit_insn (gen_ashlsi_c (operands[1], operands[1]));
  DONE;
}")

(define_insn "ashlsi_c"
  [(set (match_operand:SI 0 "arith_reg_dest" "=r")
        (ashift:SI (match_operand:SI 1 "arith_reg_operand" "0") (const_int 1)))
   (set (reg:SI T_REG)
        (lt:SI (match_dup 1) (const_int 0)))]
  "TARGET_SH1"
  "shll %0"
  [(set_attr "type" "arith")])

(define_insn "*ashlsi_c_void"
  [(set (reg:SI T_REG)
        (lt:SI (match_operand:SI 0 "arith_reg_operand" "r") (const_int 0)))
   (clobber (match_scratch:SI 1 "=0"))]
  "TARGET_SH1 && cse_not_expected"
  "shll %0"
  [(set_attr "type" "arith")])

(define_insn "ashrsi3_d"
  [(set (match_operand:SI 0 "arith_reg_dest" "=r")
        (ashiftrt:SI (match_operand:SI 1 "arith_reg_operand" "0")
                     (neg:SI (match_operand:SI 2 "arith_reg_operand" "r"))))]
  "TARGET_SH3"
  "shad %2,%0"
  [(set_attr "type" "dyn_shift")])

(define_insn "ashrsi3_n"
  [(set (reg:SI R4_REG)
        (ashiftrt:SI (reg:SI R4_REG)
                     (match_operand:SI 0 "const_int_operand" "i")))
   (clobber (reg:SI T_REG))
   (clobber (reg:SI PR_REG))
   (use (match_operand:SI 1 "arith_reg_operand" "r"))]
  "TARGET_SH1"
  "jsr  @%1%#"
  [(set_attr "type" "sfunc")
   (set_attr "needs_delay_slot" "yes")])

(define_insn "ashrsi3_media"
  [(set (match_operand:SI 0 "arith_reg_dest" "=r,r")
        (ashiftrt:SI (match_operand:SI 1 "extend_reg_operand" "r,r")
                     (match_operand:SI 2 "shift_count_operand" "r,n")))]
  "TARGET_SHMEDIA"
  "@
        shard.l %1, %2, %0
        shari.l %1, %2, %0"
  [(set_attr "type" "arith_media")
   (set_attr "highpart" "ignore")])

(define_expand "ashrsi3"
  [(parallel [(set (match_operand:SI 0 "arith_reg_operand" "")
                   (ashiftrt:SI (match_operand:SI 1 "arith_reg_operand" "")
                                (match_operand:SI 2 "nonmemory_operand" "")))
              (clobber (reg:SI T_REG))])]
  ""
  "
{
  if (TARGET_SHMEDIA)
    {
      emit_insn (gen_ashrsi3_media (operands[0], operands[1], operands[2]));
      DONE;
    }
  if (expand_ashiftrt (operands))
    DONE;
  else
    FAIL;
}")

;; logical shift right

(define_insn "lshrsi3_sh2a"
  [(set (match_operand:SI 0 "arith_reg_dest" "=r")
        (lshiftrt:SI (match_operand:SI 1 "arith_reg_operand" "0")
                     (neg:SI (match_operand:SI 2 "arith_reg_operand" "r"))))]
  "TARGET_SH2A"
  "shld %2,%0"
  [(set_attr "type" "dyn_shift")
   (set_attr "length" "4")])

(define_insn "lshrsi3_d"
  [(set (match_operand:SI 0 "arith_reg_dest" "=r")
        (lshiftrt:SI (match_operand:SI 1 "arith_reg_operand" "0")
                     (neg:SI (match_operand:SI 2 "arith_reg_operand" "r"))))]
  "TARGET_SH3"
  "shld %2,%0"
  [(set_attr "type" "dyn_shift")])

;;  Only the single bit shift clobbers the T bit.

(define_insn "lshrsi3_m"
  [(set (match_operand:SI 0 "arith_reg_dest" "=r")
        (lshiftrt:SI (match_operand:SI 1 "arith_reg_operand" "0")
                     (match_operand:SI 2 "const_int_operand" "M")))
   (clobber (reg:SI T_REG))]
  "TARGET_SH1 && CONST_OK_FOR_M (INTVAL (operands[2]))"
  "shlr %0"
  [(set_attr "type" "arith")])

(define_insn "lshrsi3_k"
  [(set (match_operand:SI 0 "arith_reg_dest" "=r")
        (lshiftrt:SI (match_operand:SI 1 "arith_reg_operand" "0")
                     (match_operand:SI 2 "const_int_operand" "P27")))]
  "TARGET_SH1 && CONST_OK_FOR_P27 (INTVAL (operands[2]))
   && ! CONST_OK_FOR_M (INTVAL (operands[2]))"
  "shlr%O2      %0"
  [(set_attr "type" "arith")])

(define_insn "lshrsi3_n"
  [(set (match_operand:SI 0 "arith_reg_dest" "=r")
        (lshiftrt:SI (match_operand:SI 1 "arith_reg_operand" "0")
                     (match_operand:SI 2 "const_int_operand" "n")))
   (clobber (reg:SI T_REG))]
  "TARGET_SH1 && ! sh_dynamicalize_shift_p (operands[2])"
  "#"
  [(set (attr "length")
        (cond [(eq (symbol_ref "shift_insns_rtx (insn)") (const_int 1))
               (const_string "2")
               (eq (symbol_ref "shift_insns_rtx (insn)") (const_int 2))
               (const_string "4")
               (eq (symbol_ref "shift_insns_rtx (insn)") (const_int 3))
               (const_string "6")]
              (const_string "8")))
   (set_attr "type" "arith")])

(define_split
  [(set (match_operand:SI 0 "arith_reg_dest" "")
        (lshiftrt:SI (match_operand:SI 1 "arith_reg_operand" "")
                     (match_operand:SI 2 "const_int_operand" "")))
   (clobber (reg:SI T_REG))]
  "TARGET_SH1 && reload_completed"
  [(use (reg:SI R0_REG))]
  "
{
  gen_shifty_op (LSHIFTRT, operands);
  DONE;
}")

(define_insn "lshrsi3_media"
  [(set (match_operand:SI 0 "arith_reg_dest" "=r,r")
        (lshiftrt:SI (match_operand:SI 1 "extend_reg_operand" "r,r")
                     (match_operand:SI 2 "shift_count_operand" "r,n")))]
  "TARGET_SHMEDIA"
  "@
        shlrd.l %1, %2, %0
        shlri.l %1, %2, %0"
  [(set_attr "type" "arith_media")
   (set_attr "highpart" "ignore")])

(define_expand "lshrsi3"
  [(parallel [(set (match_operand:SI 0 "arith_reg_dest" "")
                   (lshiftrt:SI (match_operand:SI 1 "arith_reg_operand" "")
                                (match_operand:SI 2 "nonmemory_operand" "")))
              (clobber (reg:SI T_REG))])]
  ""
  "
{
  if (TARGET_SHMEDIA)
    {
      emit_insn (gen_lshrsi3_media (operands[0], operands[1], operands[2]));
      DONE;
    }
  if (GET_CODE (operands[2]) == CONST_INT
      && sh_dynamicalize_shift_p (operands[2]))
    operands[2] = force_reg (SImode, operands[2]);
  if (TARGET_SH3 && arith_reg_operand (operands[2], GET_MODE (operands[2])))
    {
      rtx count = copy_to_mode_reg (SImode, operands[2]);
      emit_insn (gen_negsi2 (count, count));
      emit_insn (gen_lshrsi3_d (operands[0], operands[1], count));
      DONE;
    }
  if (! immediate_operand (operands[2], GET_MODE (operands[2])))
    FAIL;
}")

;; ??? This should be a define expand.

(define_insn "ashldi3_k"
  [(set (match_operand:DI 0 "arith_reg_dest" "=r")
        (ashift:DI (match_operand:DI 1 "arith_reg_operand" "0")
                   (const_int 1)))
   (clobber (reg:SI T_REG))]
  "TARGET_SH1"
  "shll %R0\;rotcl      %S0"
  [(set_attr "length" "4")
   (set_attr "type" "arith")])

(define_insn "ashldi3_media"
  [(set (match_operand:DI 0 "arith_reg_dest" "=r,r")
        (ashift:DI (match_operand:DI 1 "arith_reg_operand" "r,r")
                   (match_operand:DI 2 "shift_count_operand" "r,n")))]
  "TARGET_SHMEDIA"
  "@
        shlld   %1, %2, %0
        shlli   %1, %2, %0"
  [(set_attr "type" "arith_media")])

(define_insn "*ashldisi3_media"
  [(set (subreg:DI (match_operand:SI 0 "arith_reg_operand" "=r") 0)
        (ashift:DI (match_operand:DI 1 "arith_reg_operand" "r")
                   (match_operand:DI 2 "const_int_operand" "n")))]
  "TARGET_SHMEDIA && INTVAL (operands[2]) < 32"
  "shlli.l      %1, %2, %0"
  [(set_attr "type" "arith_media")
   (set_attr "highpart" "ignore")])

(define_expand "ashldi3"
  [(parallel [(set (match_operand:DI 0 "arith_reg_operand" "")
                   (ashift:DI (match_operand:DI 1 "arith_reg_operand" "")
                              (match_operand:DI 2 "immediate_operand" "")))
              (clobber (reg:SI T_REG))])]
  ""
  "
{
  if (TARGET_SHMEDIA)
    {
      emit_insn (gen_ashldi3_media (operands[0], operands[1], operands[2]));
      DONE;
    }
  if (GET_CODE (operands[2]) != CONST_INT
      || INTVAL (operands[2]) != 1)
    FAIL;
}")

;; ??? This should be a define expand.

(define_insn "lshrdi3_k"
  [(set (match_operand:DI 0 "arith_reg_dest" "=r")
        (lshiftrt:DI (match_operand:DI 1 "arith_reg_operand" "0")
                     (const_int 1)))
   (clobber (reg:SI T_REG))]
  "TARGET_SH1"
  "shlr %S0\;rotcr      %R0"
  [(set_attr "length" "4")
   (set_attr "type" "arith")])

(define_insn "lshrdi3_media"
  [(set (match_operand:DI 0 "ext_dest_operand" "=r,r")
        (lshiftrt:DI (match_operand:DI 1 "arith_reg_operand" "r,r")
                     (match_operand:DI 2 "shift_count_operand" "r,n")))]
  "TARGET_SHMEDIA
   && (arith_reg_dest (operands[0], DImode)
       || (GET_CODE (operands[2]) == CONST_INT && INTVAL (operands[2]) > 32))"
  "@
        shlrd   %1, %2, %0
        shlri   %1, %2, %0"
  [(set_attr "type" "arith_media")])

(define_insn "*lshrdisi3_media"
  [(set (subreg:DI (match_operand:SI 0 "arith_reg_operand" "=r") 0)
        (lshiftrt:DI (match_operand:DI 1 "arith_reg_operand" "r")
                     (match_operand:DI 2 "const_int_operand" "n")))]
  "TARGET_SHMEDIA && INTVAL (operands[2]) < 32"
  "shlri.l      %1, %2, %0"
  [(set_attr "type" "arith_media")
   (set_attr "highpart" "ignore")])

(define_expand "lshrdi3"
  [(parallel [(set (match_operand:DI 0 "arith_reg_operand" "")
                   (lshiftrt:DI (match_operand:DI 1 "arith_reg_operand" "")
                               (match_operand:DI 2 "immediate_operand" "")))
             (clobber (reg:SI T_REG))])]
  ""
  "
{
  if (TARGET_SHMEDIA)
    {
      emit_insn (gen_lshrdi3_media (operands[0], operands[1], operands[2]));
      DONE;
    }
  if (GET_CODE (operands[2]) != CONST_INT
      || INTVAL (operands[2]) != 1)
    FAIL;
}")

;; ??? This should be a define expand.

(define_insn "ashrdi3_k"
  [(set (match_operand:DI 0 "arith_reg_dest" "=r")
        (ashiftrt:DI (match_operand:DI 1 "arith_reg_operand" "0")
                     (const_int 1)))
   (clobber (reg:SI T_REG))]
  "TARGET_SH1"
  "shar %S0\;rotcr      %R0"
  [(set_attr "length" "4")
   (set_attr "type" "arith")])

(define_insn "ashrdi3_media"
  [(set (match_operand:DI 0 "ext_dest_operand" "=r,r")
        (ashiftrt:DI (match_operand:DI 1 "arith_reg_operand" "r,r")
                     (match_operand:DI 2 "shift_count_operand" "r,n")))]
  "TARGET_SHMEDIA
   && (arith_reg_dest (operands[0], DImode)
       || (GET_CODE (operands[2]) == CONST_INT && INTVAL (operands[2]) >= 32))"
  "@
        shard   %1, %2, %0
        shari   %1, %2, %0"
  [(set_attr "type" "arith_media")])

(define_insn "*ashrdisi3_media"
  [(set (subreg:DI (match_operand:SI 0 "arith_reg_operand" "=r") 0)
        (ashiftrt:DI (match_operand:DI 1 "arith_reg_operand" "r")
                     (match_operand:DI 2 "const_int_operand" "n")))]
  "TARGET_SHMEDIA && INTVAL (operands[2]) < 32"
  "shari.l      %1, %2, %0"
  [(set_attr "type" "arith_media")
   (set_attr "highpart" "ignore")])

(define_insn "ashrdisi3_media_high"
  [(set (match_operand:SI 0 "arith_reg_dest" "=r")
        (truncate:SI
           (ashiftrt:DI (match_operand:DI 1 "arith_reg_operand" "r")
                        (match_operand:DI 2 "const_int_operand" "n"))))]
  "TARGET_SHMEDIA && INTVAL (operands[2]) >= 32"
  "shari        %1, %2, %0"
  [(set_attr "type" "arith_media")])

(define_insn "ashrdisi3_media_opaque"
  [(set (match_operand:SI 0 "arith_reg_dest" "=r")
        (unspec:SI [(match_operand:DI 1 "arith_reg_operand" "r")
                    (match_operand:DI 2 "const_int_operand" "n")]
         UNSPEC_ASHIFTRT))]
  "TARGET_SHMEDIA"
  "shari        %1, %2, %0"
  [(set_attr "type" "arith_media")])

(define_expand "ashrdi3"
  [(parallel [(set (match_operand:DI 0 "arith_reg_operand" "")
                   (ashiftrt:DI (match_operand:DI 1 "arith_reg_operand" "")
                                (match_operand:DI 2 "immediate_operand" "")))
              (clobber (reg:SI T_REG))])]
  ""
  "
{
  if (TARGET_SHMEDIA)
    {
      emit_insn (gen_ashrdi3_media (operands[0], operands[1], operands[2]));
      DONE;
    }
  if (GET_CODE (operands[2]) != CONST_INT
      || INTVAL (operands[2]) != 1)
    FAIL;
}")

;; combined left/right shift

(define_split
  [(set (match_operand:SI 0 "register_operand" "")
        (and:SI (ashift:SI (match_operand:SI 1 "register_operand" "")
                           (match_operand:SI 2 "const_int_operand" ""))
                (match_operand:SI 3 "const_int_operand" "")))]
  "TARGET_SH1 && reload_completed && (unsigned)INTVAL (operands[2]) < 32"
  [(use (reg:SI R0_REG))]
  "if (gen_shl_and (operands[0], operands[2], operands[3], operands[1])) FAIL;
   DONE;")

(define_split
  [(set (match_operand:SI 0 "register_operand" "")
        (and:SI (ashift:SI (match_operand:SI 1 "register_operand" "")
                           (match_operand:SI 2 "const_int_operand" ""))
                (match_operand:SI 3 "const_int_operand" "")))
   (clobber (reg:SI T_REG))]
  "TARGET_SH1 && reload_completed && (unsigned)INTVAL (operands[2]) < 32"
  [(use (reg:SI R0_REG))]
  "if (gen_shl_and (operands[0], operands[2], operands[3], operands[1])) FAIL;
   DONE;")

(define_insn ""
  [(set (match_operand:SI 0 "register_operand" "=r")
        (and:SI (ashift:SI (match_operand:SI 1 "register_operand" "0")
                           (match_operand:SI 2 "const_int_operand" "n"))
                (match_operand:SI 3 "const_int_operand" "n")))
   (clobber (reg:SI T_REG))]
  "TARGET_SH1 && shl_and_kind (operands[2], operands[3], 0) == 1"
 "#"
  [(set (attr "length")
        (cond [(eq (symbol_ref "shl_and_length (insn)") (const_int 2))
               (const_string "4")
               (eq (symbol_ref "shl_and_length (insn)") (const_int 3))
               (const_string "6")
               (eq (symbol_ref "shl_and_length (insn)") (const_int 4))
               (const_string "8")
               (eq (symbol_ref "shl_and_length (insn)") (const_int 5))
               (const_string "10")
               (eq (symbol_ref "shl_and_length (insn)") (const_int 6))
               (const_string "12")
               (eq (symbol_ref "shl_and_length (insn)") (const_int 7))
               (const_string "14")
               (eq (symbol_ref "shl_and_length (insn)") (const_int 8))
               (const_string "16")]
              (const_string "18")))
   (set_attr "type" "arith")])

(define_insn ""
  [(set (match_operand:SI 0 "register_operand" "=z")
        (and:SI (ashift:SI (match_operand:SI 1 "register_operand" "0")
                           (match_operand:SI 2 "const_int_operand" "n"))
                (match_operand:SI 3 "const_int_operand" "n")))
   (clobber (reg:SI T_REG))]
  "TARGET_SH1 && shl_and_kind (operands[2], operands[3], 0) == 2"
 "#"
  [(set (attr "length")
        (cond [(eq (symbol_ref "shl_and_length (insn)") (const_int 2))
               (const_string "4")
               (eq (symbol_ref "shl_and_length (insn)") (const_int 3))
               (const_string "6")
               (eq (symbol_ref "shl_and_length (insn)") (const_int 4))
               (const_string "8")]
              (const_string "10")))
   (set_attr "type" "arith")])

;; shift left / and combination with a scratch register: The combine pass
;; does not accept the individual instructions, even though they are
;; cheap.  But it needs a precise description so that it is usable after
;; reload.
(define_insn "and_shl_scratch"
  [(set (match_operand:SI 0 "register_operand" "=r,&r")
        (lshiftrt:SI
         (ashift:SI
          (and:SI
           (lshiftrt:SI (match_operand:SI 1 "register_operand" "r,0")
                        (match_operand:SI 2 "const_int_operand" "N,n"))
           (match_operand:SI 3 "" "0,r"))
          (match_operand:SI 4 "const_int_operand" "n,n"))
         (match_operand:SI 5 "const_int_operand" "n,n")))
   (clobber (reg:SI T_REG))]
  "TARGET_SH1"
  "#"
  [(set (attr "length")
        (cond [(eq (symbol_ref "shl_and_scr_length (insn)") (const_int 2))
               (const_string "4")
               (eq (symbol_ref "shl_and_scr_length (insn)") (const_int 3))
               (const_string "6")
               (eq (symbol_ref "shl_and_scr_length (insn)") (const_int 4))
               (const_string "8")
               (eq (symbol_ref "shl_and_scr_length (insn)") (const_int 5))
               (const_string "10")]
              (const_string "12")))
   (set_attr "type" "arith")])

(define_split
  [(set (match_operand:SI 0 "register_operand" "")
        (lshiftrt:SI
         (ashift:SI
          (and:SI
           (lshiftrt:SI (match_operand:SI 1 "register_operand" "")
                        (match_operand:SI 2 "const_int_operand" ""))
           (match_operand:SI 3 "register_operand" ""))
          (match_operand:SI 4 "const_int_operand" ""))
         (match_operand:SI 5 "const_int_operand" "")))
   (clobber (reg:SI T_REG))]
  "TARGET_SH1"
  [(use (reg:SI R0_REG))]
  "
{
  rtx and_source = operands[rtx_equal_p (operands[0], operands[1]) ? 3 : 1];

  if (INTVAL (operands[2]))
    {
      gen_shifty_op (LSHIFTRT, operands);
    }
  emit_insn (gen_andsi3 (operands[0], operands[0], and_source));
  operands[2] = operands[4];
  gen_shifty_op (ASHIFT, operands);
  if (INTVAL (operands[5]))
    {
      operands[2] = operands[5];
      gen_shifty_op (LSHIFTRT, operands);
    }
  DONE;
}")

;; signed left/right shift combination.
(define_split
  [(set (match_operand:SI 0 "register_operand" "")
        (sign_extract:SI
         (ashift:SI (match_operand:SI 1 "register_operand" "")
                    (match_operand:SI 2 "const_int_operand" ""))
         (match_operand:SI 3 "const_int_operand" "")
         (const_int 0)))
   (clobber (reg:SI T_REG))]
  "TARGET_SH1"
  [(use (reg:SI R0_REG))]
  "if (gen_shl_sext (operands[0], operands[2], operands[3], operands[1])) FAIL;
   DONE;")

(define_insn "shl_sext_ext"
  [(set (match_operand:SI 0 "register_operand" "=r")
        (sign_extract:SI
         (ashift:SI (match_operand:SI 1 "register_operand" "0")
                    (match_operand:SI 2 "const_int_operand" "n"))
         (match_operand:SI 3 "const_int_operand" "n")
         (const_int 0)))
   (clobber (reg:SI T_REG))]
  "TARGET_SH1 && (unsigned)shl_sext_kind (operands[2], operands[3], 0) - 1 < 5"
  "#"
  [(set (attr "length")
        (cond [(eq (symbol_ref "shl_sext_length (insn)") (const_int 1))
               (const_string "2")
               (eq (symbol_ref "shl_sext_length (insn)") (const_int 2))
               (const_string "4")
               (eq (symbol_ref "shl_sext_length (insn)") (const_int 3))
               (const_string "6")
               (eq (symbol_ref "shl_sext_length (insn)") (const_int 4))
               (const_string "8")
               (eq (symbol_ref "shl_sext_length (insn)") (const_int 5))
               (const_string "10")
               (eq (symbol_ref "shl_sext_length (insn)") (const_int 6))
               (const_string "12")
               (eq (symbol_ref "shl_sext_length (insn)") (const_int 7))
               (const_string "14")
               (eq (symbol_ref "shl_sext_length (insn)") (const_int 8))
               (const_string "16")]
              (const_string "18")))
    (set_attr "type" "arith")])

(define_insn "shl_sext_sub"
  [(set (match_operand:SI 0 "register_operand" "=z")
        (sign_extract:SI
         (ashift:SI (match_operand:SI 1 "register_operand" "0")
                    (match_operand:SI 2 "const_int_operand" "n"))
         (match_operand:SI 3 "const_int_operand" "n")
         (const_int 0)))
   (clobber (reg:SI T_REG))]
  "TARGET_SH1 && (shl_sext_kind (operands[2], operands[3], 0) & ~1) == 6"
  "#"
  [(set (attr "length")
        (cond [(eq (symbol_ref "shl_sext_length (insn)") (const_int 3))
               (const_string "6")
               (eq (symbol_ref "shl_sext_length (insn)") (const_int 4))
               (const_string "8")
               (eq (symbol_ref "shl_sext_length (insn)") (const_int 5))
               (const_string "10")
               (eq (symbol_ref "shl_sext_length (insn)") (const_int 6))
               (const_string "12")]
              (const_string "14")))
    (set_attr "type" "arith")])

;; These patterns are found in expansions of DImode shifts by 16, and
;; allow the xtrct instruction to be generated from C source.

(define_insn "xtrct_left"
  [(set (match_operand:SI 0 "arith_reg_dest" "=r")
        (ior:SI (ashift:SI (match_operand:SI 1 "arith_reg_operand" "r")
                           (const_int 16))
                (lshiftrt:SI (match_operand:SI 2 "arith_reg_operand" "0")
                             (const_int 16))))]
  "TARGET_SH1"
  "xtrct        %1,%0"
  [(set_attr "type" "arith")])

(define_insn "xtrct_right"
  [(set (match_operand:SI 0 "arith_reg_dest" "=r")
        (ior:SI (lshiftrt:SI (match_operand:SI 1 "arith_reg_operand" "0")
                             (const_int 16))
                (ashift:SI (match_operand:SI 2 "arith_reg_operand" "r")
                           (const_int 16))))]
  "TARGET_SH1"
  "xtrct        %2,%0"
  [(set_attr "type" "arith")])

;; -------------------------------------------------------------------------
;; Unary arithmetic
;; -------------------------------------------------------------------------

(define_insn "negc"
  [(set (match_operand:SI 0 "arith_reg_dest" "=r")
        (neg:SI (plus:SI (reg:SI T_REG)
                         (match_operand:SI 1 "arith_reg_operand" "r"))))
   (set (reg:SI T_REG)
        (ne:SI (ior:SI (reg:SI T_REG) (match_dup 1))
               (const_int 0)))]
  "TARGET_SH1"
  "negc %1,%0"
  [(set_attr "type" "arith")])

(define_insn "*negdi_media"
  [(set (match_operand:DI 0 "arith_reg_dest" "=r")
        (neg:DI (match_operand:DI 1 "arith_reg_operand" "r")))]
  "TARGET_SHMEDIA"
  "sub  r63, %1, %0"
  [(set_attr "type" "arith_media")])

(define_expand "negdi2"
  [(set (match_operand:DI 0 "arith_reg_operand" "")
        (neg:DI (match_operand:DI 1 "arith_reg_operand" "")))]
  ""
  "
{
  if (TARGET_SH1)
    {
      int low_word = (TARGET_LITTLE_ENDIAN ? 0 : 1);
      int high_word = (TARGET_LITTLE_ENDIAN ? 1 : 0);

      rtx low_src = operand_subword (operands[1], low_word, 0, DImode);
      rtx high_src = operand_subword (operands[1], high_word, 0, DImode);

      rtx low_dst = operand_subword (operands[0], low_word, 1, DImode);
      rtx high_dst = operand_subword (operands[0], high_word, 1, DImode);

      emit_insn (gen_clrt ());
      emit_insn (gen_negc (low_dst, low_src));
      emit_insn (gen_negc (high_dst, high_src));
      DONE;
    }
}")

(define_insn "negsi2"
  [(set (match_operand:SI 0 "arith_reg_dest" "=r")
        (neg:SI (match_operand:SI 1 "arith_reg_operand" "r")))]
  "TARGET_SH1"
  "neg  %1,%0"
  [(set_attr "type" "arith")])

(define_insn "one_cmplsi2"
  [(set (match_operand:SI 0 "arith_reg_dest" "=r")
        (not:SI (match_operand:SI 1 "arith_reg_operand" "r")))]
  "TARGET_SH1"
  "not  %1,%0"
  [(set_attr "type" "arith")])

(define_expand "one_cmpldi2"
  [(set (match_operand:DI 0 "arith_reg_dest" "")
        (xor:DI (match_operand:DI 1 "arith_reg_operand" "")
                (const_int -1)))]
  "TARGET_SHMEDIA" "")

/* The SH4 202 can do zero-offset branches without pipeline stalls.
   This can be used as some kind of conditional execution, which is useful
   for abs.  */
(define_split
  [(set (match_operand:SI 0 "arith_reg_dest" "")
        (plus:SI (xor:SI (neg:SI (reg:SI T_REG))
                         (match_operand:SI 1 "arith_reg_operand" ""))
                 (reg:SI T_REG)))]
  "TARGET_HARD_SH4"
  [(const_int 0)]
  "emit_insn (gen_movsi_i (operands[0], operands[1]));
   emit_insn (gen_cneg (operands[0], operands[0], operands[0]));
   DONE;")

(define_insn "cneg"
  [(set (match_operand:SI 0 "arith_reg_dest" "=r")
        (if_then_else:SI (eq:SI (reg:SI T_REG) (const_int 0))
                      (match_operand:SI 1 "arith_reg_operand" "0")
                      (neg:SI (match_operand:SI 2 "arith_reg_operand" "r"))))]
  "TARGET_HARD_SH4"
  "bf 0f\;neg %2,%0\\n0:"
  [(set_attr "type" "arith") ;; poor approximation
   (set_attr "length" "4")])


;; -------------------------------------------------------------------------
;; Zero extension instructions
;; -------------------------------------------------------------------------

(define_insn "zero_extendsidi2"
  [(set (match_operand:DI 0 "arith_reg_dest" "=r")
        (zero_extend:DI (match_operand:SI 1 "extend_reg_operand" "r")))]
  "TARGET_SHMEDIA"
  "addz.l       %1, r63, %0"
  [(set_attr "type" "arith_media")
   (set_attr "highpart" "extend")])

(define_insn "zero_extendhidi2"
  [(set (match_operand:DI 0 "register_operand" "=r,r")
        (zero_extend:DI (match_operand:HI 1 "general_extend_operand" "r,m")))]
  "TARGET_SHMEDIA"
  "@
        #
        ld%M1.uw        %m1, %0"
  [(set_attr "type" "*,load_media")
   (set (attr "highpart")
        (cond [(ne (symbol_ref "sh_contains_memref_p (insn)") (const_int 0))
               (const_string "user")]
              (const_string "ignore")))])

(define_split
  [(set (match_operand:DI 0 "register_operand" "")
        (zero_extend:DI (match_operand:HI 1 "extend_reg_operand" "")))]
  "TARGET_SHMEDIA && reload_completed"
  [(set (match_dup 0) (ashift:DI (subreg:DI (match_dup 1) 0) (const_int 48)))
   (set (match_dup 0) (lshiftrt:DI (match_dup 0) (const_int 48)))]
  "
{
  if (GET_CODE (operands[1]) == TRUNCATE)
    operands[1] = XEXP (operands[1], 0);
}")

;; ??? when a truncated input to a zero_extend is reloaded, reload will
;; reload the entire truncate expression.
(define_insn_and_split "*loaddi_trunc"
  [(set (match_operand 0 "any_register_operand" "=r")
        (truncate (match_operand:DI 1 "memory_operand" "m")))]
  "TARGET_SHMEDIA && reload_completed"
  "#"
  "TARGET_SHMEDIA && reload_completed"
  [(set (match_dup 0) (match_dup 1))]
  "operands[0] = gen_rtx_REG (DImode, true_regnum (operands[0]));")

(define_insn "zero_extendqidi2"
  [(set (match_operand:DI 0 "register_operand" "=r,r")
        (zero_extend:DI (match_operand:QI 1 "general_extend_operand" "r,m")))]
  "TARGET_SHMEDIA"
  "@
        andi    %1, 255, %0
        ld%M1.ub        %m1, %0"
  [(set_attr "type" "arith_media,load_media")
   (set (attr "highpart")
        (cond [(ne (symbol_ref "sh_contains_memref_p (insn)") (const_int 0))
               (const_string "user")]
              (const_string "ignore")))])

(define_expand "zero_extendhisi2"
  [(set (match_operand:SI 0 "arith_reg_operand" "")
        (zero_extend:SI (match_operand:HI 1 "general_extend_operand" "")))]
  ""
  "
{
  if (! TARGET_SHMEDIA && ! arith_reg_operand (operands[1], HImode))
    operands[1] = copy_to_mode_reg (HImode, operands[1]);
}")

(define_insn "*zero_extendhisi2_compact"
  [(set (match_operand:SI 0 "arith_reg_dest" "=r")
        (zero_extend:SI (match_operand:HI 1 "arith_reg_operand" "r")))]
  "TARGET_SH1"
  "extu.w       %1,%0"
  [(set_attr "type" "arith")])

(define_insn "*zero_extendhisi2_media"
  [(set (match_operand:SI 0 "register_operand" "=r,r")
        (zero_extend:SI (match_operand:HI 1 "general_extend_operand" "r,m")))]
  "TARGET_SHMEDIA"
  "@
        #
        ld%M1.uw        %m1, %0"
  [(set_attr "type" "arith_media,load_media")
   (set (attr "highpart")
        (cond [(ne (symbol_ref "sh_contains_memref_p (insn)") (const_int 0))
               (const_string "user")]
              (const_string "ignore")))])

(define_split
  [(set (match_operand:SI 0 "register_operand" "")
        (zero_extend:SI (match_operand:HI 1 "extend_reg_operand" "")))]
  "TARGET_SHMEDIA && reload_completed"
  [(set (match_dup 0) (ashift:SI (match_dup 2) (const_int 16)))
   (set (match_dup 0) (lshiftrt:SI (match_dup 0) (const_int 16)))]
  "
{
  rtx op1 = operands[1];

  if (GET_CODE (op1) == TRUNCATE)
    op1 = XEXP (op1, 0);
  operands[2]
    = simplify_gen_subreg (SImode, op1, GET_MODE (op1),
                           subreg_lowpart_offset (SImode, GET_MODE (op1)));
}")

(define_expand "zero_extendqisi2"
  [(set (match_operand:SI 0 "arith_reg_operand" "")
        (zero_extend:SI (match_operand:QI 1 "general_extend_operand" "")))]
  ""
  "
{
  if (! TARGET_SHMEDIA && ! arith_reg_operand (operands[1], QImode))
    operands[1] = copy_to_mode_reg (QImode, operands[1]);
}")

(define_insn "*zero_extendqisi2_compact"
  [(set (match_operand:SI 0 "arith_reg_dest" "=r")
        (zero_extend:SI (match_operand:QI 1 "arith_reg_operand" "r")))]
  "TARGET_SH1"
  "extu.b       %1,%0"
  [(set_attr "type" "arith")])

(define_insn "*zero_extendqisi2_media"
  [(set (match_operand:SI 0 "register_operand" "=r,r")
        (zero_extend:SI (match_operand:QI 1 "general_extend_operand" "r,m")))]
  "TARGET_SHMEDIA"
  "@
        andi    %1, 255, %0
        ld%M1.ub        %m1, %0"
  [(set_attr "type" "arith_media,load_media")
   (set (attr "highpart")
        (cond [(ne (symbol_ref "sh_contains_memref_p (insn)") (const_int 0))
               (const_string "user")]
              (const_string "ignore")))])

(define_insn "zero_extendqihi2"
  [(set (match_operand:HI 0 "arith_reg_dest" "=r")
        (zero_extend:HI (match_operand:QI 1 "arith_reg_operand" "r")))]
  "TARGET_SH1"
  "extu.b       %1,%0"
  [(set_attr "type" "arith")])

;; -------------------------------------------------------------------------
;; Sign extension instructions
;; -------------------------------------------------------------------------

;; ??? This should be a define expand.
;; ??? Or perhaps it should be dropped?

;; convert_move generates good code for SH[1-4].
(define_insn "extendsidi2"
  [(set (match_operand:DI 0 "register_operand" "=r,r,r")
        (sign_extend:DI (match_operand:SI 1 "nonimmediate_operand" "r,m,?f")))]
  "TARGET_SHMEDIA"
  "@
        add.l   %1, r63, %0
        ld%M1.l %m1, %0
        fmov.sl %1, %0"
  [(set_attr "type" "arith_media,load_media,fpconv_media")
   (set (attr "highpart")
        (cond [(ne (symbol_ref "sh_contains_memref_p (insn)") (const_int 0))
               (const_string "user")]
              (const_string "extend")))])

(define_insn "extendhidi2"
  [(set (match_operand:DI 0 "register_operand" "=r,r")
        (sign_extend:DI (match_operand:HI 1 "general_extend_operand" "r,m")))]
  "TARGET_SHMEDIA"
  "@
        #
        ld%M1.w %m1, %0"
  [(set_attr "type" "*,load_media")
   (set (attr "highpart")
        (cond [(ne (symbol_ref "sh_contains_memref_p (insn)") (const_int 0))
               (const_string "user")]
              (const_string "ignore")))])

(define_split
  [(set (match_operand:DI 0 "register_operand" "")
        (sign_extend:DI (match_operand:HI 1 "extend_reg_operand" "")))]
  "TARGET_SHMEDIA && reload_completed"
  [(set (match_dup 0) (ashift:DI (subreg:DI (match_dup 1) 0) (const_int 48)))
   (set (match_dup 0) (ashiftrt:DI (match_dup 0) (const_int 48)))]
  "
{
  if (GET_CODE (operands[1]) == TRUNCATE)
    operands[1] = XEXP (operands[1], 0);
}")

(define_insn "extendqidi2"
  [(set (match_operand:DI 0 "register_operand" "=r,r")
        (sign_extend:DI (match_operand:QI 1 "general_extend_operand" "r,m")))]
  "TARGET_SHMEDIA"
  "@
        #
        ld%M1.b %m1, %0"
  [(set_attr "type" "*,load_media")
   (set (attr "highpart")
        (cond [(ne (symbol_ref "sh_contains_memref_p (insn)") (const_int 0))
               (const_string "user")]
              (const_string "ignore")))])

(define_split
  [(set (match_operand:DI 0 "register_operand" "")
        (sign_extend:DI (match_operand:QI 1 "extend_reg_operand" "")))]
  "TARGET_SHMEDIA && reload_completed"
  [(set (match_dup 0) (ashift:DI (subreg:DI (match_dup 1) 0) (const_int 56)))
   (set (match_dup 0) (ashiftrt:DI (match_dup 0) (const_int 56)))]
  "
{
  if (GET_CODE (operands[1]) == TRUNCATE)
    operands[1] = XEXP (operands[1], 0);
}")

(define_expand "extendhisi2"
  [(set (match_operand:SI 0 "arith_reg_dest" "=r,r")
        (sign_extend:SI (match_operand:HI 1 "general_extend_operand" "r,m")))]
  ""
  "")

(define_insn "*extendhisi2_compact"
  [(set (match_operand:SI 0 "arith_reg_dest" "=r,r")
        (sign_extend:SI (match_operand:HI 1 "general_movsrc_operand" "r,m")))]
  "TARGET_SH1"
  "@
        exts.w  %1,%0
        mov.w   %1,%0"
  [(set_attr "type" "arith,load")])

(define_insn "*extendhisi2_media"
  [(set (match_operand:SI 0 "register_operand" "=r,r")
        (sign_extend:SI (match_operand:HI 1 "general_extend_operand" "r,m")))]
  "TARGET_SHMEDIA"
  "@
        #
        ld%M1.w %m1, %0"
  [(set_attr "type" "arith_media,load_media")
   (set (attr "highpart")
        (cond [(ne (symbol_ref "sh_contains_memref_p (insn)") (const_int 0))
               (const_string "user")]
              (const_string "ignore")))])

(define_split
  [(set (match_operand:SI 0 "register_operand" "")
        (sign_extend:SI (match_operand:HI 1 "extend_reg_operand" "")))]
  "TARGET_SHMEDIA && reload_completed"
  [(set (match_dup 0) (ashift:SI (match_dup 2) (const_int 16)))
   (set (match_dup 0) (ashiftrt:SI (match_dup 0) (const_int 16)))]
  "
{
  rtx op1 = operands[1];
  if (GET_CODE (op1) == TRUNCATE)
    op1 = XEXP (op1, 0);
  operands[2]
    = simplify_gen_subreg (SImode, op1, GET_MODE (op1),
                           subreg_lowpart_offset (SImode, GET_MODE (op1)));
}")

(define_expand "extendqisi2"
  [(set (match_operand:SI 0 "arith_reg_dest" "=r,r")
        (sign_extend:SI (match_operand:QI 1 "general_extend_operand" "r,m")))]
  ""
  "")

(define_insn "*extendqisi2_compact"
  [(set (match_operand:SI 0 "arith_reg_dest" "=r,r")
        (sign_extend:SI (match_operand:QI 1 "general_movsrc_operand" "r,m")))]
  "TARGET_SH1"
  "@
        exts.b  %1,%0
        mov.b   %1,%0"
  [(set_attr "type" "arith,load")])

(define_insn "*extendqisi2_media"
  [(set (match_operand:SI 0 "register_operand" "=r,r")
        (sign_extend:SI (match_operand:QI 1 "general_extend_operand" "r,m")))]
  "TARGET_SHMEDIA"
  "@
        #
        ld%M1.b %m1, %0"
  [(set_attr "type" "arith_media,load_media")
   (set (attr "highpart")
        (cond [(ne (symbol_ref "sh_contains_memref_p (insn)") (const_int 0))
               (const_string "user")]
              (const_string "ignore")))])

(define_split
  [(set (match_operand:SI 0 "register_operand" "")
        (sign_extend:SI (match_operand:QI 1 "extend_reg_operand" "")))]
  "TARGET_SHMEDIA && reload_completed"
  [(set (match_dup 0) (ashift:SI (match_dup 2) (const_int 24)))
   (set (match_dup 0) (ashiftrt:SI (match_dup 0) (const_int 24)))]
   "
{
  rtx op1 = operands[1];
  if (GET_CODE (op1) == TRUNCATE)
    op1 = XEXP (op1, 0);
  operands[2]
    = simplify_gen_subreg (SImode, op1, GET_MODE (op1),
                           subreg_lowpart_offset (SImode, GET_MODE (op1)));
}")

(define_insn "extendqihi2"
  [(set (match_operand:HI 0 "arith_reg_dest" "=r,r")
        (sign_extend:HI (match_operand:QI 1 "general_movsrc_operand" "r,m")))]
  "TARGET_SH1"
  "@
        exts.b  %1,%0
        mov.b   %1,%0"
  [(set_attr "type" "arith,load")])

/* It would seem useful to combine the truncXi patterns into the movXi
   patterns, but unary operators are ignored when matching constraints,
   so we need separate patterns.  */
(define_insn "truncdisi2"
  [(set (match_operand:SI 0 "general_movdst_operand" "=r,m,m,f,r,f")
        (truncate:SI (match_operand:DI 1 "register_operand" "r,r,f,r,f,f")))]
  "TARGET_SHMEDIA"
  "@
        add.l   %1, r63, %0
        st%M0.l %m0, %1
        fst%M0.s        %m0, %T1
        fmov.ls %1, %0
        fmov.sl %T1, %0
        fmov.s  %T1, %0"
  [(set_attr "type"   "arith_media,store_media,fstore_media,fload_media,fpconv_media,fmove_media")
   (set (attr "highpart")
        (cond [(ne (symbol_ref "sh_contains_memref_p (insn)") (const_int 0))
               (const_string "user")]
              (const_string "extend")))])

(define_insn "truncdihi2"
  [(set (match_operand:HI 0 "general_movdst_operand" "=?r,m")
        (truncate:HI (match_operand:DI 1 "register_operand" "r,r")))]
  "TARGET_SHMEDIA"
  "@
        shlli\\t%1,48,%0\;shlri\\t%0,48,%0
        st%M0.w %m0, %1"
  [(set_attr "type"   "arith_media,store_media")
   (set_attr "length" "8,4")
   (set (attr "highpart")
        (cond [(ne (symbol_ref "sh_contains_memref_p (insn)") (const_int 0))
               (const_string "user")]
              (const_string "extend")))])

; N.B. This should agree with LOAD_EXTEND_OP and movqi.
; Because we use zero extension, we can't provide signed QImode compares
; using a simple compare or conditional banch insn.
(define_insn "truncdiqi2"
  [(set (match_operand:QI 0 "general_movdst_operand" "=r,m")
        (truncate:QI (match_operand:DI 1 "register_operand" "r,r")))]
  "TARGET_SHMEDIA"
  "@
        andi    %1, 255, %0
        st%M0.b %m0, %1"
  [(set_attr "type"   "arith_media,store")
   (set (attr "highpart")
        (cond [(ne (symbol_ref "sh_contains_memref_p (insn)") (const_int 0))
               (const_string "user")]
              (const_string "extend")))])
;; -------------------------------------------------------------------------
;; Move instructions
;; -------------------------------------------------------------------------

;; define push and pop so it is easy for sh.c
;; We can't use push and pop on SHcompact because the stack must always
;; be 8-byte aligned.

(define_expand "push"
  [(set (mem:SI (pre_dec:SI (reg:SI SP_REG)))
        (match_operand:SI 0 "register_operand" "r,l,x"))]
  "TARGET_SH1 && ! TARGET_SH5"
  "")

(define_expand "pop"
  [(set (match_operand:SI 0 "register_operand" "=r,l,x")
        (mem:SI (post_inc:SI (reg:SI SP_REG))))]
  "TARGET_SH1 && ! TARGET_SH5"
  "")

(define_expand "push_e"
  [(parallel [(set (mem:SF (pre_dec:SI (reg:SI SP_REG)))
                   (match_operand:SF 0 "" ""))
              (use (reg:PSI FPSCR_REG))
              (clobber (scratch:SI))])]
  "TARGET_SH1 && ! TARGET_SH5"
  "")

(define_insn "push_fpul"
  [(set (mem:SF (pre_dec:SI (reg:SI SP_REG))) (reg:SF FPUL_REG))]
  "TARGET_SH2E && ! TARGET_SH5"
  "sts.l        fpul,@-r15"
  [(set_attr "type" "store")
   (set_attr "late_fp_use" "yes")
   (set_attr "hit_stack" "yes")])

;; DFmode pushes for sh4 require a lot of what is defined for movdf_i4,
;; so use that.
(define_expand "push_4"
  [(parallel [(set (mem:DF (pre_dec:SI (reg:SI SP_REG)))
                   (match_operand:DF 0 "" ""))
              (use (reg:PSI FPSCR_REG))
              (clobber (scratch:SI))])]
  "TARGET_SH1 && ! TARGET_SH5"
  "")

(define_expand "pop_e"
  [(parallel [(set (match_operand:SF 0 "" "")
              (mem:SF (post_inc:SI (reg:SI SP_REG))))
              (use (reg:PSI FPSCR_REG))
              (clobber (scratch:SI))])]
  "TARGET_SH1 && ! TARGET_SH5"
  "")

(define_insn "pop_fpul"
  [(set (reg:SF FPUL_REG) (mem:SF (post_inc:SI (reg:SI SP_REG))))]
  "TARGET_SH2E && ! TARGET_SH5"
  "lds.l        @r15+,fpul"
  [(set_attr "type" "load")
   (set_attr "hit_stack" "yes")])

(define_expand "pop_4"
  [(parallel [(set (match_operand:DF 0 "" "")
                   (mem:DF (post_inc:SI (reg:SI SP_REG))))
              (use (reg:PSI FPSCR_REG))
              (clobber (scratch:SI))])]
  "TARGET_SH1 && ! TARGET_SH5"
  "")

(define_expand "push_fpscr"
  [(const_int 0)]
  "TARGET_SH2E"
  "
{
  rtx insn = emit_insn (gen_fpu_switch (gen_frame_mem (PSImode,
                                                 gen_rtx_PRE_DEC (Pmode,
                                                          stack_pointer_rtx)),
                                        get_fpscr_rtx ()));
  REG_NOTES (insn) = gen_rtx_EXPR_LIST (REG_INC, stack_pointer_rtx, NULL_RTX);
  DONE;
}")

(define_expand "pop_fpscr"
  [(const_int 0)]
  "TARGET_SH2E"
  "
{
  rtx insn = emit_insn (gen_fpu_switch (get_fpscr_rtx (),
                                        gen_frame_mem (PSImode,
                                                 gen_rtx_POST_INC (Pmode,
                                                          stack_pointer_rtx))));
  REG_NOTES (insn) = gen_rtx_EXPR_LIST (REG_INC, stack_pointer_rtx, NULL_RTX);
  DONE;
}")

;; These two patterns can happen as the result of optimization, when
;; comparisons get simplified to a move of zero or 1 into the T reg.
;; They don't disappear completely, because the T reg is a fixed hard reg.

(define_insn "clrt"
  [(set (reg:SI T_REG) (const_int 0))]
  "TARGET_SH1"
  "clrt")

(define_insn "sett"
  [(set (reg:SI T_REG) (const_int 1))]
  "TARGET_SH1"
  "sett")

;; t/r must come after r/r, lest reload will try to reload stuff like
;; (set (subreg:SI (mem:QI (plus:SI (reg:SI SP_REG) (const_int 12)) 0) 0)
;; (made from (set (subreg:SI (reg:QI ###) 0) ) into T.
(define_insn "movsi_i"
  [(set (match_operand:SI 0 "general_movdst_operand"
            "=r,r,t,r,r,r,r,m,<,<,x,l,x,l,r")
        (match_operand:SI 1 "general_movsrc_operand"
         "Q,rI08,r,mr,x,l,t,r,x,l,r,r,>,>,i"))]
  "TARGET_SH1
   && ! TARGET_SH2E
   && ! TARGET_SH2A
   && (register_operand (operands[0], SImode)
       || register_operand (operands[1], SImode))"
  "@
        mov.l   %1,%0
        mov     %1,%0
        cmp/pl  %1
        mov.l   %1,%0
        sts     %1,%0
        sts     %1,%0
        movt    %0
        mov.l   %1,%0
        sts.l   %1,%0
        sts.l   %1,%0
        lds     %1,%0
        lds     %1,%0
        lds.l   %1,%0
        lds.l   %1,%0
        fake    %1,%0"
  [(set_attr "type" "pcload_si,move,mt_group,load_si,mac_gp,prget,move,store,store,pstore,move,prset,load,pload,pcload_si")
   (set_attr "length" "*,*,*,*,*,*,*,*,*,*,*,*,*,*,*")])

;; t/r must come after r/r, lest reload will try to reload stuff like
;; (subreg:SI (reg:SF FR14_REG) 0) into T (compiling stdlib/strtod.c -m3e -O2)
;; ??? This allows moves from macl to fpul to be recognized, but these moves
;; will require a reload.
;; ??? We can't include f/f because we need the proper FPSCR setting when
;; TARGET_FMOVD is in effect, and mode switching is done before reload.
(define_insn "movsi_ie"
  [(set (match_operand:SI 0 "general_movdst_operand"
            "=r,r,r,t,r,r,r,r,m,<,<,x,l,x,l,y,<,r,y,r,*f,y,*f,y")
        (match_operand:SI 1 "general_movsrc_operand"
         "Q,rI08,I20,r,mr,x,l,t,r,x,l,r,r,>,>,>,y,i,r,y,y,*f,*f,y"))]
  "(TARGET_SH2E || TARGET_SH2A)
   && (register_operand (operands[0], SImode)
       || register_operand (operands[1], SImode))"
  "@
        mov.l   %1,%0
        mov     %1,%0
        movi20  %1,%0
        cmp/pl  %1
        mov.l   %1,%0
        sts     %1,%0
        sts     %1,%0
        movt    %0
        mov.l   %1,%0
        sts.l   %1,%0
        sts.l   %1,%0
        lds     %1,%0
        lds     %1,%0
        lds.l   %1,%0
        lds.l   %1,%0
        lds.l   %1,%0
        sts.l   %1,%0
        fake    %1,%0
        lds     %1,%0
        sts     %1,%0
        fsts    fpul,%0
        flds    %1,fpul
        fmov    %1,%0
        ! move optimized away"
  [(set_attr "type" "pcload_si,move,move,*,load_si,mac_gp,prget,move,store,store,pstore,move,prset,load,pload,load,store,pcload_si,gp_fpul,fpul_gp,fmove,fmove,fmove,nil")
   (set_attr "late_fp_use" "*,*,*,*,*,*,*,*,*,*,*,*,*,*,*,*,yes,*,*,yes,*,*,*,*")
   (set_attr "length" "*,*,4,*,4,*,*,*,4,*,*,*,*,*,*,*,*,*,*,*,*,*,*,0")])

(define_insn "movsi_i_lowpart"
  [(set (strict_low_part (match_operand:SI 0 "general_movdst_operand" "+r,r,r,r,r,r,m,r"))
        (match_operand:SI 1 "general_movsrc_operand" "Q,rI08,mr,x,l,t,r,i"))]
   "TARGET_SH1
    && (register_operand (operands[0], SImode)
        || register_operand (operands[1], SImode))"
  "@
        mov.l   %1,%0
        mov     %1,%0
        mov.l   %1,%0
        sts     %1,%0
        sts     %1,%0
        movt    %0
        mov.l   %1,%0
        fake    %1,%0"
  [(set_attr "type" "pcload,move,load,move,prget,move,store,pcload")])

(define_insn_and_split "load_ra"
  [(set (match_operand:SI 0 "general_movdst_operand" "")
        (unspec:SI [(match_operand:SI 1 "register_operand" "")] UNSPEC_RA))]
  "TARGET_SH1"
  "#"
  "&& ! currently_expanding_to_rtl"
  [(set (match_dup 0) (match_dup 1))]
  "
{
  if (TARGET_SHCOMPACT && current_function_has_nonlocal_label)
    operands[1] = gen_frame_mem (SImode, return_address_pointer_rtx);
}")

;; The '?'s in the following constraints may not reflect the time taken
;; to perform the move. They are there to discourage the use of floating-
;; point registers for storing integer values.
(define_insn "*movsi_media"
  [(set (match_operand:SI 0 "general_movdst_operand"
                "=r,r,r,r,m,f?,m,f?,r,f?,*b,r,b")
        (match_operand:SI 1 "general_movsrc_operand"
         "r,I16Css,nCpg,m,rZ,m,f?,rZ,f?,f?,r,*b,Csy"))]
  "TARGET_SHMEDIA_FPU
   && (register_operand (operands[0], SImode)
       || sh_register_operand (operands[1], SImode)
       || GET_CODE (operands[1]) == TRUNCATE)"
  "@
        add.l   %1, r63, %0
        movi    %1, %0
        #
        ld%M1.l %m1, %0
        st%M0.l %m0, %N1
        fld%M1.s        %m1, %0
        fst%M0.s        %m0, %1
        fmov.ls %N1, %0
        fmov.sl %1, %0
        fmov.s  %1, %0
        ptabs   %1, %0
        gettr   %1, %0
        pt      %1, %0"
  [(set_attr "type"   "arith_media,arith_media,*,load_media,store_media,fload_media,fstore_media,fload_media,fpconv_media,fmove_media,ptabs_media,gettr_media,pt_media")
   (set_attr "length" "4,4,8,4,4,4,4,4,4,4,4,4,12")
   (set (attr "highpart")
        (cond [(ne (symbol_ref "sh_contains_memref_p (insn)") (const_int 0))
               (const_string "user")]
              (const_string "ignore")))])

(define_insn "*movsi_media_nofpu"
  [(set (match_operand:SI 0 "general_movdst_operand"
                "=r,r,r,r,m,*b,r,*b")
        (match_operand:SI 1 "general_movsrc_operand"
         "r,I16Css,nCpg,m,rZ,r,*b,Csy"))]
  "TARGET_SHMEDIA
   && (register_operand (operands[0], SImode)
       || sh_register_operand (operands[1], SImode)
       || GET_CODE (operands[1]) == TRUNCATE)"
  "@
        add.l   %1, r63, %0
        movi    %1, %0
        #
        ld%M1.l %m1, %0
        st%M0.l %m0, %N1
        ptabs   %1, %0
        gettr   %1, %0
        pt      %1, %0"
  [(set_attr "type"   "arith_media,arith_media,*,load_media,store_media,ptabs_media,gettr_media,pt_media")
   (set_attr "length" "4,4,8,4,4,4,4,12")
   (set (attr "highpart")
        (cond [(ne (symbol_ref "sh_contains_memref_p (insn)") (const_int 0))
               (const_string "user")]
              (const_string "ignore")))])

(define_expand "movsi_const"
  [(set (match_operand:SI 0 "arith_reg_operand" "=r")
        (const:SI (sign_extend:SI
                   (truncate:HI
                    (ashiftrt:SI
                     (match_operand:DI 1 "immediate_operand" "s")
                     (const_int 16))))))
   (set (match_dup 0)
        (ior:SI (ashift:SI (match_dup 0) (const_int 16))
                (const:SI
                  (zero_extend:SI
                   (truncate:HI (match_dup 1))))))]
  "TARGET_SHMEDIA && reload_completed
   && MOVI_SHORI_BASE_OPERAND_P (operands[1])"
  "
{
  if (GET_CODE (operands[1]) == LABEL_REF
      && GET_CODE (XEXP (operands[1], 0)) == CODE_LABEL)
    LABEL_NUSES (XEXP (operands[1], 0)) += 2;
  else if (GOTOFF_P (operands[1]))
    {
      rtx unspec = XEXP (operands[1], 0);

      if (! UNSPEC_GOTOFF_P (unspec))
        {
          unspec = XEXP (unspec, 0);
          if (! UNSPEC_GOTOFF_P (unspec))
            abort ();
        }
      if (GET_CODE (XVECEXP (unspec , 0, 0)) == LABEL_REF
          && (GET_CODE (XEXP (XVECEXP (unspec, 0, 0), 0)) == CODE_LABEL))
        LABEL_NUSES (XEXP (XVECEXP (unspec, 0, 0), 0)) += 2;
    }
}")

(define_expand "movsi_const_16bit"
  [(set (match_operand:SI 0 "arith_reg_operand" "=r")
        (const:SI (sign_extend:SI
                   (truncate:HI
                    (match_operand:DI 1 "immediate_operand" "s")))))]
  "TARGET_SHMEDIA && flag_pic && reload_completed
   && GET_CODE (operands[1]) == SYMBOL_REF"
  "")

(define_split
  [(set (match_operand:SI 0 "arith_reg_dest" "")
        (match_operand:SI 1 "immediate_operand" ""))]
  "TARGET_SHMEDIA && reload_completed
   && MOVI_SHORI_BASE_OPERAND_P (operands[1])"
  [(const_int 0)]
  "
{
  rtx insn = emit_insn (gen_movsi_const (operands[0], operands[1]));

  REG_NOTES (insn) = gen_rtx_EXPR_LIST (REG_EQUAL, operands[1],
                                        REG_NOTES (insn));

  DONE;
}")

(define_split
  [(set (match_operand:SI 0 "register_operand" "")
        (match_operand:SI 1 "immediate_operand" ""))]
  "TARGET_SHMEDIA && reload_completed
   && ((GET_CODE (operands[1]) == CONST_INT
        && ! CONST_OK_FOR_I16 (INTVAL (operands[1])))
       || GET_CODE (operands[1]) == CONST_DOUBLE)"
  [(set (subreg:DI (match_dup 0) 0) (match_dup 1))])

(define_expand "movsi"
  [(set (match_operand:SI 0 "general_movdst_operand" "")
        (match_operand:SI 1 "general_movsrc_operand" ""))]
  ""
  "{ if (prepare_move_operands (operands, SImode)) DONE; }")

(define_expand "ic_invalidate_line"
  [(parallel [(unspec_volatile [(match_operand:SI 0 "register_operand" "+r")
                                (match_dup 1)] UNSPEC_ICACHE)
              (clobber (scratch:SI))])]
  "TARGET_HARD_SH4 || TARGET_SH5"
  "
{
  if (TARGET_SHMEDIA)
    {
      emit_insn (gen_ic_invalidate_line_media (operands[0]));
      DONE;
    }
  else if (TARGET_SHCOMPACT)
    {
      operands[1] = function_symbol (NULL, \"__ic_invalidate\", SFUNC_STATIC);
      operands[1] = force_reg (Pmode, operands[1]);
      emit_insn (gen_ic_invalidate_line_compact (operands[0], operands[1]));
      DONE;
    }
  else if (TARGET_SH4A_ARCH)
    {
      emit_insn (gen_ic_invalidate_line_sh4a (operands[0]));
      DONE;
    }
  operands[0] = force_reg (Pmode, operands[0]);
  operands[1] = force_reg (Pmode, GEN_INT (trunc_int_for_mode (0xf0000008,
                                                               Pmode)));
}")

;; The address %0 is assumed to be 4-aligned at least.  Thus, by ORing
;; 0xf0000008, we get the low-oder bits *1*00 (binary), which fits
;; the requirement *1*00 for associative address writes.  The alignment of
;; %0 implies that its least significant bit is cleared,
;; thus we clear the V bit of a matching entry if there is one.
(define_insn "ic_invalidate_line_i"
  [(unspec_volatile [(match_operand:SI 0 "register_operand" "r")
                     (match_operand:SI 1 "register_operand" "r")]
                     UNSPEC_ICACHE)
   (clobber (match_scratch:SI 2 "=&r"))]
  "TARGET_HARD_SH4"
  "ocbwb\\t@%0\;extu.w\\t%0,%2\;or\\t%1,%2\;mov.l\\t%0,@%2"
  [(set_attr "length" "8")
   (set_attr "type" "cwb")])

(define_insn "ic_invalidate_line_sh4a"
  [(unspec_volatile [(match_operand:SI 0 "register_operand" "r")]
                    UNSPEC_ICACHE)]
  "TARGET_SH4A_ARCH"
  "ocbwb\\t@%0\;synco\;icbi\\t@%0"
  [(set_attr "length" "16")
   (set_attr "type" "cwb")])

;; ??? could make arg 0 an offsettable memory operand to allow to save
;; an add in the code that calculates the address.
(define_insn "ic_invalidate_line_media"
  [(unspec_volatile [(match_operand 0 "any_register_operand" "r")]
                    UNSPEC_ICACHE)]
  "TARGET_SHMEDIA"
  "ocbwb        %0,0\;synco\;icbi       %0, 0\;synci"
  [(set_attr "length" "16")
   (set_attr "type" "invalidate_line_media")])

(define_insn "ic_invalidate_line_compact"
  [(unspec_volatile [(match_operand:SI 0 "register_operand" "z")
                     (match_operand:SI 1 "register_operand" "r")]
                    UNSPEC_ICACHE)
   (clobber (reg:SI PR_REG))]
  "TARGET_SHCOMPACT"
  "jsr @%1%#"
  [(set_attr "type" "sfunc")
   (set_attr "needs_delay_slot" "yes")])

(define_expand "initialize_trampoline"
  [(match_operand:SI 0 "" "")
   (match_operand:SI 1 "" "")
   (match_operand:SI 2 "" "")]
  "TARGET_SHCOMPACT"
  "
{
  rtx sfun, tramp;

  tramp = force_reg (Pmode, operands[0]);
  sfun = force_reg (Pmode, function_symbol (NULL, \"__init_trampoline\",
                                            SFUNC_STATIC));
  emit_move_insn (gen_rtx_REG (SImode, R2_REG), operands[1]);
  emit_move_insn (gen_rtx_REG (SImode, R3_REG), operands[2]);

  emit_insn (gen_initialize_trampoline_compact (tramp, sfun));
  DONE;
}")

(define_insn "initialize_trampoline_compact"
  [(unspec_volatile [(match_operand:SI 0 "register_operand" "z")
                     (match_operand:SI 1 "register_operand" "r")
                     (reg:SI R2_REG) (reg:SI R3_REG)]
                    UNSPEC_INIT_TRAMP)

   (clobber (reg:SI PR_REG))]
  "TARGET_SHCOMPACT"
  "jsr @%1%#"
  [(set_attr "type" "sfunc")
   (set_attr "needs_delay_slot" "yes")])

(define_insn "movqi_i"
  [(set (match_operand:QI 0 "general_movdst_operand" "=r,r,m,r,r,l")
        (match_operand:QI 1 "general_movsrc_operand"  "ri,m,r,t,l,r"))]
  "TARGET_SH1
   && (arith_reg_operand (operands[0], QImode)
       || arith_reg_operand (operands[1], QImode))"
  "@
        mov     %1,%0
        mov.b   %1,%0
        mov.b   %1,%0
        movt    %0
        sts     %1,%0
        lds     %1,%0"
 [(set_attr "type" "move,load,store,move,move,move")])

(define_insn "*movqi_media"
  [(set (match_operand:QI 0 "general_movdst_operand" "=r,r,r,m")
        (match_operand:QI 1 "general_movsrc_operand" "r,I16Css,m,rZ"))]
  "TARGET_SHMEDIA
   && (arith_reg_operand (operands[0], QImode)
       || extend_reg_or_0_operand (operands[1], QImode))"
  "@
        add.l   %1, r63, %0
        movi    %1, %0
        ld%M1.ub        %m1, %0
        st%M0.b %m0, %N1"
  [(set_attr "type" "arith_media,arith_media,load_media,store_media")
   (set (attr "highpart")
        (cond [(ne (symbol_ref "sh_contains_memref_p (insn)") (const_int 0))
               (const_string "user")]
              (const_string "ignore")))])

(define_expand "movqi"
  [(set (match_operand:QI 0 "general_operand" "")
        (match_operand:QI 1 "general_operand"  ""))]
  ""
  "{ if (prepare_move_operands (operands, QImode)) DONE; }")

(define_expand "reload_inqi"
  [(set (match_operand:SI 2 "" "=&r")
        (match_operand:QI 1 "inqhi_operand" ""))
   (set (match_operand:QI 0 "arith_reg_operand" "=r")
        (truncate:QI (match_dup 3)))]
  "TARGET_SHMEDIA"
  "
{
  rtx inner = XEXP (operands[1], 0);
  int regno = REGNO (inner);

  regno += HARD_REGNO_NREGS (regno, GET_MODE (inner)) - 1;
  operands[1] = gen_rtx_REG (SImode, regno);
  operands[3] = gen_rtx_REG (DImode, REGNO (operands[2]));
}")

/* When storing r0, we have to avoid reg+reg addressing.  */
(define_insn "movhi_i"
  [(set (match_operand:HI 0 "general_movdst_operand"   "=r,r,r,r,m,r,l,r")
        (match_operand:HI 1 "general_movsrc_operand" "Q,rI08,m,t,r,l,r,i"))]
  "TARGET_SH1
   && (arith_reg_operand (operands[0], HImode)
       || arith_reg_operand (operands[1], HImode))
   && (GET_CODE (operands[0]) != MEM
       || GET_CODE (XEXP (operands[0], 0)) != PLUS
       || GET_CODE (XEXP (XEXP (operands[0], 0), 1)) != REG
       || ! refers_to_regno_p (R0_REG, R0_REG + 1, operands[1], (rtx *)0))"
  "@
        mov.w   %1,%0
        mov     %1,%0
        mov.w   %1,%0
        movt    %0
        mov.w   %1,%0
        sts     %1,%0
        lds     %1,%0
        fake    %1,%0"
  [(set_attr "type" "pcload,move,load,move,store,move,move,pcload")])

(define_insn "*movhi_media"
  [(set (match_operand:HI 0 "general_movdst_operand"     "=r,r,r,r,m")
        (match_operand:HI 1 "general_movsrc_operand" "r,I16Css,n,m,rZ"))]
  "TARGET_SHMEDIA
   && (arith_reg_operand (operands[0], HImode)
       || arith_reg_or_0_operand (operands[1], HImode))"
  "@
        add.l   %1, r63, %0
        movi    %1, %0
        #
        ld%M1.w %m1, %0
        st%M0.w %m0, %N1"
  [(set_attr "type" "arith_media,arith_media,*,load_media,store_media")
   (set (attr "highpart")
        (cond [(ne (symbol_ref "sh_contains_memref_p (insn)") (const_int 0))
               (const_string "user")]
              (const_string "ignore")))])

(define_split
  [(set (match_operand:HI 0 "register_operand" "")
        (match_operand:HI 1 "immediate_operand" ""))]
  "TARGET_SHMEDIA && reload_completed
   && ! CONST_OK_FOR_I16 (INTVAL (operands[1]))"
  [(set (subreg:DI (match_dup 0) 0) (match_dup 1))])

(define_expand "movhi"
  [(set (match_operand:HI 0 "general_movdst_operand" "")
        (match_operand:HI 1 "general_movsrc_operand"  ""))]
  ""
  "{ if (prepare_move_operands (operands, HImode)) DONE; }")

(define_expand "reload_inhi"
  [(set (match_operand:SI 2 "" "=&r")
        (match_operand:HI 1 "inqhi_operand" ""))
   (set (match_operand:HI 0 "arith_reg_operand" "=r")
        (truncate:HI (match_dup 3)))]
  "TARGET_SHMEDIA"
  "
{
  rtx inner = XEXP (operands[1], 0);
  int regno = REGNO (inner);

  regno += HARD_REGNO_NREGS (regno, GET_MODE (inner)) - 1;
  operands[1] = gen_rtx_REG (SImode, regno);
  operands[3] = gen_rtx_REG (DImode, REGNO (operands[2]));
}")

;; x/r can be created by inlining/cse, e.g. for execute/961213-1.c
;; compiled with -m2 -ml -O3 -funroll-loops
(define_insn "*movdi_i"
  [(set (match_operand:DI 0 "general_movdst_operand" "=r,r,r,m,r,r,r,*!x")
        (match_operand:DI 1 "general_movsrc_operand" "Q,r,m,r,I08,i,x,r"))]
  "TARGET_SH1
   && (arith_reg_operand (operands[0], DImode)
       || arith_reg_operand (operands[1], DImode))"
  "* return output_movedouble (insn, operands, DImode);"
  [(set_attr "length" "4")
   (set_attr "type" "pcload,move,load,store,move,pcload,move,move")])

;; If the output is a register and the input is memory or a register, we have
;; to be careful and see which word needs to be loaded first.

(define_split
  [(set (match_operand:DI 0 "general_movdst_operand" "")
        (match_operand:DI 1 "general_movsrc_operand" ""))]
  "TARGET_SH1 && reload_completed"
  [(set (match_dup 2) (match_dup 3))
   (set (match_dup 4) (match_dup 5))]
  "
{
  int regno;

  if ((GET_CODE (operands[0]) == MEM
       && GET_CODE (XEXP (operands[0], 0)) == PRE_DEC)
      || (GET_CODE (operands[1]) == MEM
          && GET_CODE (XEXP (operands[1], 0)) == POST_INC))
    FAIL;

  switch (GET_CODE (operands[0]))
    {
    case REG:
      regno = REGNO (operands[0]);
      break;
    case SUBREG:
      regno = subreg_regno (operands[0]);
      break;
    case MEM:
      regno = -1;
      break;
    default:
      gcc_unreachable ();
    }

  if (regno == -1
      || ! refers_to_regno_p (regno, regno + 1, operands[1], 0))
    {
      operands[2] = operand_subword (operands[0], 0, 0, DImode);
      operands[3] = operand_subword (operands[1], 0, 0, DImode);
      operands[4] = operand_subword (operands[0], 1, 0, DImode);
      operands[5] = operand_subword (operands[1], 1, 0, DImode);
    }
  else
    {
      operands[2] = operand_subword (operands[0], 1, 0, DImode);
      operands[3] = operand_subword (operands[1], 1, 0, DImode);
      operands[4] = operand_subword (operands[0], 0, 0, DImode);
      operands[5] = operand_subword (operands[1], 0, 0, DImode);
    }

  if (operands[2] == 0 || operands[3] == 0
      || operands[4] == 0 || operands[5] == 0)
    FAIL;
}")

;; The '?'s in the following constraints may not reflect the time taken
;; to perform the move. They are there to discourage the use of floating-
;; point registers for storing integer values.
(define_insn "*movdi_media"
  [(set (match_operand:DI 0 "general_movdst_operand"
                 "=r,r,r,rl,m,f?,m,f?,r,f?,*b,r,*b")
        (match_operand:DI 1 "general_movsrc_operand"
         "r,I16Css,nCpgF,m,rlZ,m,f?,rZ,f?,f?,r,*b,Csy"))]
  "TARGET_SHMEDIA_FPU
   && (register_operand (operands[0], DImode)
       || sh_register_operand (operands[1], DImode))"
  "@
        add     %1, r63, %0
        movi    %1, %0
        #
        ld%M1.q %m1, %0
        st%M0.q %m0, %N1
        fld%M1.d        %m1, %0
        fst%M0.d        %m0, %1
        fmov.qd %N1, %0
        fmov.dq %1, %0
        fmov.d  %1, %0
        ptabs   %1, %0
        gettr   %1, %0
        pt      %1, %0"
  [(set_attr "type"   "arith_media,arith_media,*,load_media,store_media,fload_media,fstore_media,fload_media,dfpconv_media,fmove_media,ptabs_media,gettr_media,pt_media")
   (set_attr "length" "4,4,16,4,4,4,4,4,4,4,4,4,*")])

(define_insn "*movdi_media_nofpu"
  [(set (match_operand:DI 0 "general_movdst_operand" "=r,r,r,rl,m,*b,r,*b");
        (match_operand:DI 1 "general_movsrc_operand" "r,I16Css,nCpgF,m,rlZ,r,*b,Csy"))]
  "TARGET_SHMEDIA
   && (register_operand (operands[0], DImode)
       || sh_register_operand (operands[1], DImode))"
  "@
        add     %1, r63, %0
        movi    %1, %0
        #
        ld%M1.q %m1, %0
        st%M0.q %m0, %N1
        ptabs   %1, %0
        gettr   %1, %0
        pt      %1, %0"
  [(set_attr "type"   "arith_media,arith_media,*,load_media,store_media,ptabs_media,gettr_media,pt_media")
   (set_attr "length" "4,4,16,4,4,4,4,*")])

(define_insn "*movdi_media_I16"
  [(set (match_operand:DI 0 "ext_dest_operand" "=r")
        (match_operand:DI 1 "const_int_operand" "I16"))]
  "TARGET_SHMEDIA && reload_completed"
  "movi %1, %0"
  [(set_attr "type" "arith_media")
   (set_attr "length" "4")])

(define_split
  [(set (match_operand:DI 0 "arith_reg_dest" "")
        (match_operand:DI 1 "immediate_operand" ""))]
  "TARGET_SHMEDIA && reload_completed
   && MOVI_SHORI_BASE_OPERAND_P (operands[1])"
  [(set (match_dup 0) (match_dup 1))]
  "
{
  rtx insn;

  if (TARGET_SHMEDIA64)
    insn = emit_insn (gen_movdi_const (operands[0], operands[1]));
  else
    insn = emit_insn (gen_movdi_const_32bit (operands[0], operands[1]));

  REG_NOTES (insn) = gen_rtx_EXPR_LIST (REG_EQUAL, operands[1],
                                        REG_NOTES (insn));

  DONE;
}")

(define_expand "movdi_const"
  [(set (match_operand:DI 0 "arith_reg_operand" "=r")
        (const:DI (sign_extend:DI
                   (truncate:HI
                    (ashiftrt:DI
                     (match_operand:DI 1 "immediate_operand" "s")
                     (const_int 48))))))
   (set (match_dup 0)
        (ior:DI (ashift:DI (match_dup 0) (const_int 16))
                (const:DI
                 (zero_extend:DI
                  (truncate:HI
                   (ashiftrt:SI
                    (match_dup 1)
                    (const_int 32)))))))
   (set (match_dup 0)
        (ior:DI (ashift:DI (match_dup 0) (const_int 16))
                (const:DI
                 (zero_extend:DI
                  (truncate:HI
                   (ashiftrt:SI
                    (match_dup 1)
                    (const_int 16)))))))
   (set (match_dup 0)
        (ior:DI (ashift:DI (match_dup 0) (const_int 16))
                (const:DI
                 (zero_extend:DI
                  (truncate:HI
                   (match_dup 1))))))]
  "TARGET_SHMEDIA64 && reload_completed
   && MOVI_SHORI_BASE_OPERAND_P (operands[1])"
  "
{
  sh_mark_label (operands[1], 4);
}")

(define_expand "movdi_const_32bit"
  [(set (match_operand:DI 0 "arith_reg_operand" "=r")
        (const:DI (sign_extend:DI
                   (truncate:HI
                    (ashiftrt:DI
                     (match_operand:DI 1 "immediate_operand" "s")
                     (const_int 16))))))
   (set (match_dup 0)
        (ior:DI (ashift:DI (match_dup 0) (const_int 16))
                (const:DI
                 (zero_extend:DI
                  (truncate:HI
                   (match_dup 1))))))]
  "TARGET_SHMEDIA32 && reload_completed
   && MOVI_SHORI_BASE_OPERAND_P (operands[1])"
  "
{
  sh_mark_label (operands[1], 2);
}")

(define_expand "movdi_const_16bit"
  [(set (match_operand:DI 0 "arith_reg_operand" "=r")
        (const:DI (sign_extend:DI
                   (truncate:HI
                    (match_operand:DI 1 "immediate_operand" "s")))))]
  "TARGET_SHMEDIA && flag_pic && reload_completed
   && GET_CODE (operands[1]) == SYMBOL_REF"
  "")

(define_split
  [(set (match_operand:DI 0 "ext_dest_operand" "")
        (match_operand:DI 1 "immediate_operand" ""))]
  "TARGET_SHMEDIA && reload_completed
   && GET_CODE (operands[1]) == CONST_INT
   && ! CONST_OK_FOR_I16 (INTVAL (operands[1]))"
  [(set (match_dup 0) (match_dup 2))
   (match_dup 1)]
  "
{
  unsigned HOST_WIDE_INT val = INTVAL (operands[1]);
  unsigned HOST_WIDE_INT low = val;
  unsigned HOST_WIDE_INT high = val;
  unsigned HOST_WIDE_INT sign;
  unsigned HOST_WIDE_INT val2 = val ^ (val-1);

  /* Zero-extend the 16 least-significant bits.  */
  low &= 0xffff;

  /* Arithmetic shift right the word by 16 bits.  */
  high >>= 16;
  if (GET_CODE (operands[0]) == SUBREG
      && GET_MODE (SUBREG_REG (operands[0])) == SImode)
    {
      high &= 0xffff;
      high ^= 0x8000;
      high -= 0x8000;
    }
  else
    {
      sign = 1;
      sign <<= (HOST_BITS_PER_WIDE_INT - 16 - 1);
      high ^= sign;
      high -= sign;
    }
  do
    {
      /* If we can't generate the constant with a two-insn movi / shori
         sequence, try some other strategies.  */
      if (! CONST_OK_FOR_I16 (high))
        {
          /* Try constant load / left shift.  We know VAL != 0.  */
          val2 = val ^ (val-1);
          if (val2 > 0x1ffff)
            {
              int trailing_zeroes = exact_log2 ((val2 >> 16) + 1) + 15;

              if (CONST_OK_FOR_I16 (val >> trailing_zeroes)
                  || (! CONST_OK_FOR_I16 (high >> 16)
                      && CONST_OK_FOR_I16 (val >> (trailing_zeroes + 16))))
                {
                  val2 = (HOST_WIDE_INT) val >> trailing_zeroes;
                  operands[1] = gen_ashldi3_media (operands[0], operands[0],
                                                   GEN_INT (trailing_zeroes));
                  break;
                }
            }
          /* Try constant load / right shift.  */
          val2 = (val >> 15) + 1;
          if (val2 == (val2 & -val2))
            {
              int shift = 49 - exact_log2 (val2);

              val2 = trunc_int_for_mode (val << shift, DImode);
              if (CONST_OK_FOR_I16 (val2))
                {
                  operands[1] = gen_lshrdi3_media (operands[0], operands[0],
                                                   GEN_INT (shift));
                  break;
                }
            }
          /* Try mperm.w .  */
          val2 = val & 0xffff;
          if ((val >> 16 & 0xffff) == val2
              && (val >> 32 & 0xffff) == val2
              && (val >> 48 & 0xffff) == val2)
            {
              val2 = (HOST_WIDE_INT) val >> 48;
              operands[1] = gen_rtx_REG (V4HImode, true_regnum (operands[0]));
              operands[1] = gen_mperm_w0 (operands[1], operands[1]);
              break;
            }
          /* Try movi / mshflo.l  */
          val2 = (HOST_WIDE_INT) val >> 32;
          if (val2 == ((unsigned HOST_WIDE_INT)
                        trunc_int_for_mode (val, SImode)))
            {
              operands[1] = gen_mshflo_l_di (operands[0], operands[0],
                                             operands[0]);
              break;
            }
          /* Try movi / mshflo.l w/ r63.  */
          val2 = val + ((HOST_WIDE_INT) -1 << 32);
          if ((HOST_WIDE_INT) val2 < 0 && CONST_OK_FOR_I16 (val2))
            {
              operands[1] = gen_mshflo_l_di (operands[0], operands[0],
                                             const0_rtx);
              break;
            }
        }
      val2 = high;
      operands[1] = gen_shori_media (operands[0], operands[0], GEN_INT (low));
    }
  while (0);
  operands[2] = GEN_INT (val2);
}")

(define_split
  [(set (match_operand:DI 0 "ext_dest_operand" "")
        (match_operand:DI 1 "immediate_operand" ""))]
  "TARGET_SHMEDIA && reload_completed
   && GET_CODE (operands[1]) == CONST_DOUBLE"
  [(set (match_dup 0) (match_dup 2))
  (set (match_dup 0)
       (ior:DI (ashift:DI (match_dup 0) (const_int 16)) (match_dup 1)))]
  "
{
  unsigned HOST_WIDE_INT low = CONST_DOUBLE_LOW (operands[1]);
  unsigned HOST_WIDE_INT high = CONST_DOUBLE_HIGH (operands[1]);
  unsigned HOST_WIDE_INT val = low;
  unsigned HOST_WIDE_INT sign;

  /* Zero-extend the 16 least-significant bits.  */
  val &= 0xffff;
  operands[1] = GEN_INT (val);

  /* Arithmetic shift right the double-word by 16 bits.  */
  low >>= 16;
  low |= (high & 0xffff) << (HOST_BITS_PER_WIDE_INT - 16);
  high >>= 16;
  sign = 1;
  sign <<= (HOST_BITS_PER_WIDE_INT - 16 - 1);
  high ^= sign;
  high -= sign;

  /* This will only be true if high is a sign-extension of low, i.e.,
     it must be either 0 or (unsigned)-1, and be zero iff the
     most-significant bit of low is set.  */
  if (high + (low >> (HOST_BITS_PER_WIDE_INT - 1)) == 0)
    operands[2] = GEN_INT (low);
  else
    operands[2] = immed_double_const (low, high, DImode);
}")

(define_insn "shori_media"
  [(set (match_operand:DI 0 "ext_dest_operand" "=r,r")
        (ior:DI (ashift:DI (match_operand:DI 1 "arith_reg_operand" "0,0")
                           (const_int 16))
                (match_operand:DI 2 "immediate_operand" "K16Csu,nF")))]
  "TARGET_SHMEDIA && (reload_completed || arith_reg_dest (operands[0], DImode))"
  "@
        shori   %u2, %0
        #"
  [(set_attr "type" "arith_media,*")])

(define_insn "*shori_media_si"
  [(set (match_operand:SI 0 "arith_reg_dest" "=r")
        (ior:SI (ashift:SI (match_operand:SI 1 "arith_reg_operand" "0")
                           (const_int 16))
                (match_operand:SI 2 "immediate_operand" "K16Csu")))]
  "TARGET_SHMEDIA"
  "shori        %u2, %0")

(define_expand "movdi"
  [(set (match_operand:DI 0 "general_movdst_operand" "")
        (match_operand:DI 1 "general_movsrc_operand" ""))]
  ""
  "{ if (prepare_move_operands (operands, DImode)) DONE; }")

(define_insn "movdf_media"
  [(set (match_operand:DF 0 "general_movdst_operand" "=f,f,r,r,r,f,m,r,m")
        (match_operand:DF 1 "general_movsrc_operand" "f,rZ,f,r,F,m,f,m,rZ"))]
  "TARGET_SHMEDIA_FPU
   && (register_operand (operands[0], DFmode)
       || sh_register_operand (operands[1], DFmode))"
  "@
        fmov.d  %1, %0
        fmov.qd %N1, %0
        fmov.dq %1, %0
        add     %1, r63, %0
        #
        fld%M1.d        %m1, %0
        fst%M0.d        %m0, %1
        ld%M1.q %m1, %0
        st%M0.q %m0, %N1"
  [(set_attr "type" "fmove_media,fload_media,dfpconv_media,arith_media,*,fload_media,fstore_media,load_media,store_media")])

(define_insn "movdf_media_nofpu"
  [(set (match_operand:DF 0 "general_movdst_operand" "=r,r,r,m")
        (match_operand:DF 1 "general_movsrc_operand" "r,F,m,rZ"))]
  "TARGET_SHMEDIA
   && (register_operand (operands[0], DFmode)
       || sh_register_operand (operands[1], DFmode))"
  "@
        add     %1, r63, %0
        #
        ld%M1.q %m1, %0
        st%M0.q %m0, %N1"
  [(set_attr "type" "arith_media,*,load_media,store_media")])

(define_split
  [(set (match_operand:DF 0 "arith_reg_dest" "")
        (match_operand:DF 1 "immediate_operand" ""))]
  "TARGET_SHMEDIA && reload_completed"
  [(set (match_dup 3) (match_dup 2))]
  "
{
  int endian = WORDS_BIG_ENDIAN ? 1 : 0;
  long values[2];
  REAL_VALUE_TYPE value;

  REAL_VALUE_FROM_CONST_DOUBLE (value, operands[1]);
  REAL_VALUE_TO_TARGET_DOUBLE (value, values);

  if (HOST_BITS_PER_WIDE_INT >= 64)
    operands[2] = immed_double_const ((unsigned long) values[endian]
                                      | ((HOST_WIDE_INT) values[1 - endian]
                                         << 32), 0, DImode);
  else
    {
      gcc_assert (HOST_BITS_PER_WIDE_INT == 32);
      operands[2] = immed_double_const (values[endian], values[1 - endian],
                                        DImode);
    }

  operands[3] = gen_rtx_REG (DImode, true_regnum (operands[0]));
}")

;; ??? This should be a define expand.

(define_insn "movdf_k"
  [(set (match_operand:DF 0 "general_movdst_operand" "=r,r,r,m")
        (match_operand:DF 1 "general_movsrc_operand" "r,FQ,m,r"))]
  "TARGET_SH1
   && (! (TARGET_SH4 || TARGET_SH2A_DOUBLE) || reload_completed
       /* ??? We provide some insn so that direct_{load,store}[DFmode] get set */
       || (GET_CODE (operands[0]) == REG && REGNO (operands[0]) == 3)
       || (GET_CODE (operands[1]) == REG && REGNO (operands[1]) == 3))
   && (arith_reg_operand (operands[0], DFmode)
       || arith_reg_operand (operands[1], DFmode))"
  "* return output_movedouble (insn, operands, DFmode);"
  [(set_attr "length" "4")
   (set_attr "type" "move,pcload,load,store")])

;; All alternatives of movdf_i4 are split for ! TARGET_FMOVD.
;; However, the d/F/c/z alternative cannot be split directly; it is converted
;; with special code in machine_dependent_reorg into a load of the R0_REG and
;; the d/m/c/X alternative, which is split later into single-precision
;; instructions.  And when not optimizing, no splits are done before fixing
;; up pcloads, so we need usable length information for that.
(define_insn "movdf_i4"
  [(set (match_operand:DF 0 "general_movdst_operand" "=d,r,d,d,m,r,r,m,!??r,!???d")
        (match_operand:DF 1 "general_movsrc_operand" "d,r,F,m,d,FQ,m,r,d,r"))
   (use (match_operand:PSI 2 "fpscr_operand" "c,c,c,c,c,c,c,c,c,c"))
   (clobber (match_scratch:SI 3 "=X,X,&z,X,X,X,X,X,X,X"))]
  "(TARGET_SH4 || TARGET_SH2A_DOUBLE)
   && (arith_reg_operand (operands[0], DFmode)
       || arith_reg_operand (operands[1], DFmode))"
  "@
        fmov    %1,%0
        #
        #
        fmov.d  %1,%0
        fmov.d  %1,%0
        #
        #
        #
        #
        #"
  [(set_attr_alternative "length"
     [(if_then_else (eq_attr "fmovd" "yes") (const_int 2) (const_int 4))
      (const_int 4)
      (if_then_else (eq_attr "fmovd" "yes") (const_int 4) (const_int 6))
      (if_then_else (eq_attr "fmovd" "yes") (const_int 4) (const_int 6))
      (if_then_else (eq_attr "fmovd" "yes") (const_int 4) (const_int 6))
      (const_int 4)
      (const_int 8) (const_int 8) ;; these need only 8 bytes for @(r0,rn)
      ;; We can't use 4-byte push/pop on SHcompact, so we have to
      ;; increment or decrement r15 explicitly.
      (if_then_else
       (ne (symbol_ref "TARGET_SHCOMPACT") (const_int 0))
       (const_int 10) (const_int 8))
      (if_then_else
       (ne (symbol_ref "TARGET_SHCOMPACT") (const_int 0))
       (const_int 10) (const_int 8))])
   (set_attr "type" "fmove,move,pcfload,fload,store,pcload,load,store,load,fload")
   (set_attr "late_fp_use" "*,*,*,*,yes,*,*,*,*,*")
   (set (attr "fp_mode") (if_then_else (eq_attr "fmovd" "yes")
                                           (const_string "double")
                                           (const_string "none")))])

;; Moving DFmode between fp/general registers through memory
;; (the top of the stack) is faster than moving through fpul even for
;; little endian.  Because the type of an instruction is important for its
;; scheduling,  it is beneficial to split these operations, rather than
;; emitting them in one single chunk, even if this will expose a stack
;; use that will prevent scheduling of other stack accesses beyond this
;; instruction.
(define_split
  [(set (match_operand:DF 0 "register_operand" "")
        (match_operand:DF 1 "register_operand" ""))
   (use (match_operand:PSI 2 "fpscr_operand" ""))
   (clobber (match_scratch:SI 3 "=X"))]
  "(TARGET_SH4 || TARGET_SH2A_DOUBLE) && reload_completed
   && (true_regnum (operands[0]) < 16) != (true_regnum (operands[1]) < 16)"
  [(const_int 0)]
  "
{
  rtx insn, tos;

  if (TARGET_SH5 && true_regnum (operands[1]) < 16)
    {
      emit_move_insn (stack_pointer_rtx,
                      plus_constant (stack_pointer_rtx, -8));
      tos = gen_tmp_stack_mem (DFmode, stack_pointer_rtx);
    }
  else
    tos = gen_tmp_stack_mem (DFmode,
                             gen_rtx_PRE_DEC (Pmode, stack_pointer_rtx));
  insn = emit_insn (gen_movdf_i4 (tos, operands[1], operands[2]));
  if (! (TARGET_SH5 && true_regnum (operands[1]) < 16))
    REG_NOTES (insn) = gen_rtx_EXPR_LIST (REG_INC, stack_pointer_rtx, NULL_RTX);
  if (TARGET_SH5 && true_regnum (operands[0]) < 16)
    tos = gen_tmp_stack_mem (DFmode, stack_pointer_rtx);
  else
    tos = gen_tmp_stack_mem (DFmode,
                             gen_rtx_POST_INC (Pmode, stack_pointer_rtx));
  insn = emit_insn (gen_movdf_i4 (operands[0], tos, operands[2]));
  if (TARGET_SH5 && true_regnum (operands[0]) < 16)
    emit_move_insn (stack_pointer_rtx, plus_constant (stack_pointer_rtx, 8));
  else
    REG_NOTES (insn) = gen_rtx_EXPR_LIST (REG_INC, stack_pointer_rtx, NULL_RTX);
  DONE;
}")

;; local-alloc sometimes allocates scratch registers even when not required,
;; so we must be prepared to handle these.

;; Remove the use and clobber from a movdf_i4 so that we can use movdf_k.
(define_split
  [(set (match_operand:DF 0 "general_movdst_operand" "")
        (match_operand:DF 1 "general_movsrc_operand"  ""))
   (use (match_operand:PSI 2 "fpscr_operand" ""))
   (clobber (match_scratch:SI 3 ""))]
  "(TARGET_SH4 || TARGET_SH2A_DOUBLE)
   && reload_completed
   && true_regnum (operands[0]) < 16
   && true_regnum (operands[1]) < 16"
  [(set (match_dup 0) (match_dup 1))]
  "
{
  /* If this was a reg <-> mem operation with base + index reg addressing,
     we have to handle this in a special way.  */
  rtx mem = operands[0];
  int store_p = 1;
  if (! memory_operand (mem, DFmode))
    {
      mem = operands[1];
      store_p = 0;
    }
  if (GET_CODE (mem) == SUBREG && SUBREG_BYTE (mem) == 0)
    mem = SUBREG_REG (mem);
  if (GET_CODE (mem) == MEM)
    {
      rtx addr = XEXP (mem, 0);
      if (GET_CODE (addr) == PLUS
          && GET_CODE (XEXP (addr, 0)) == REG
          && GET_CODE (XEXP (addr, 1)) == REG)
        {
          int offset;
          rtx reg0 = gen_rtx_REG (Pmode, 0);
          rtx regop = operands[store_p], word0 ,word1;

          if (GET_CODE (regop) == SUBREG)
            alter_subreg (&regop);
          if (REGNO (XEXP (addr, 0)) == REGNO (XEXP (addr, 1)))
            offset = 2;
          else
            offset = 4;
          mem = copy_rtx (mem);
          PUT_MODE (mem, SImode);
          word0 = gen_rtx_SUBREG (SImode, regop, 0);
          alter_subreg (&word0);
          word1 = gen_rtx_SUBREG (SImode, regop, 4);
          alter_subreg (&word1);
          if (store_p || ! refers_to_regno_p (REGNO (word0),
                                              REGNO (word0) + 1, addr, 0))
            {
              emit_insn (store_p
                         ? gen_movsi_ie (mem, word0)
                         : gen_movsi_ie (word0, mem));
              emit_insn (gen_addsi3 (reg0, reg0, GEN_INT (offset)));
              mem = copy_rtx (mem);
              emit_insn (store_p
                         ? gen_movsi_ie (mem, word1)
                         : gen_movsi_ie (word1, mem));
              emit_insn (gen_addsi3 (reg0, reg0, GEN_INT (-offset)));
            }
          else
            {
              emit_insn (gen_addsi3 (reg0, reg0, GEN_INT (offset)));
              emit_insn (gen_movsi_ie (word1, mem));
              emit_insn (gen_addsi3 (reg0, reg0, GEN_INT (-offset)));
              mem = copy_rtx (mem);
              emit_insn (gen_movsi_ie (word0, mem));
            }
          DONE;
        }
    }
}")

;; Split away the clobber of r0 after machine_dependent_reorg has fixed pcloads.
(define_split
  [(set (match_operand:DF 0 "register_operand" "")
        (match_operand:DF 1 "memory_operand"  ""))
   (use (match_operand:PSI 2 "fpscr_operand" ""))
   (clobber (reg:SI R0_REG))]
  "(TARGET_SH4 || TARGET_SH2A_DOUBLE) && reload_completed"
  [(parallel [(set (match_dup 0) (match_dup 1))
              (use (match_dup 2))
              (clobber (scratch:SI))])]
  "")

(define_expand "reload_indf__frn"
  [(parallel [(set (match_operand:DF 0 "register_operand" "=a")
                   (match_operand:DF 1 "immediate_operand" "FQ"))
              (use (reg:PSI FPSCR_REG))
              (clobber (match_operand:SI 2 "register_operand" "=&z"))])]
  "TARGET_SH1"
  "")

(define_expand "reload_outdf__RnFRm"
  [(parallel [(set (match_operand:DF 0 "register_operand" "=r,f")
                   (match_operand:DF 1 "register_operand" "af,r"))
              (clobber (match_operand:SI 2 "register_operand" "=&y,y"))])]
  "TARGET_SH1"
  "")

;; Simplify no-op moves.
(define_split
  [(set (match_operand:SF 0 "register_operand" "")
        (match_operand:SF 1 "register_operand" ""))
   (use (match_operand:PSI 2 "fpscr_operand" ""))
   (clobber (match_scratch:SI 3 ""))]
  "TARGET_SH2E && reload_completed
   && true_regnum (operands[0]) == true_regnum (operands[1])"
  [(set (match_dup 0) (match_dup 0))]
  "")

;; fmovd substitute post-reload splits
(define_split
  [(set (match_operand:DF 0 "register_operand" "")
        (match_operand:DF 1 "register_operand" ""))
   (use (match_operand:PSI 2 "fpscr_operand" ""))
   (clobber (match_scratch:SI 3 ""))]
  "TARGET_SH4 && ! TARGET_FMOVD && reload_completed
   && FP_OR_XD_REGISTER_P (true_regnum (operands[0]))
   && FP_OR_XD_REGISTER_P (true_regnum (operands[1]))"
  [(const_int 0)]
  "
{
  int dst = true_regnum (operands[0]), src = true_regnum (operands[1]);
  emit_insn (gen_movsf_ie (gen_rtx_REG (SFmode, dst),
                           gen_rtx_REG (SFmode, src), operands[2]));
  emit_insn (gen_movsf_ie (gen_rtx_REG (SFmode, dst + 1),
                           gen_rtx_REG (SFmode, src + 1), operands[2]));
  DONE;
}")

(define_split
  [(set (match_operand:DF 0 "register_operand" "")
        (mem:DF (match_operand:SI 1 "register_operand" "")))
   (use (match_operand:PSI 2 "fpscr_operand" ""))
   (clobber (match_scratch:SI 3 ""))]
  "(TARGET_SH4 || TARGET_SH2A_DOUBLE) && ! TARGET_FMOVD && reload_completed
   && FP_OR_XD_REGISTER_P (true_regnum (operands[0]))
   && find_regno_note (insn, REG_DEAD, true_regnum (operands[1]))"
  [(const_int 0)]
  "
{
  int regno = true_regnum (operands[0]);
  rtx insn;
  rtx mem = SET_SRC (XVECEXP (PATTERN (curr_insn), 0, 0));
  rtx mem2
    = change_address (mem, SFmode, gen_rtx_POST_INC (Pmode, operands[1]));
  insn = emit_insn (gen_movsf_ie (gen_rtx_REG (SFmode,
                                           regno + !! TARGET_LITTLE_ENDIAN),
                                  mem2, operands[2]));
  REG_NOTES (insn) = gen_rtx_EXPR_LIST (REG_INC, operands[1], NULL_RTX);
  insn = emit_insn (gen_movsf_ie (gen_rtx_REG (SFmode,
                                               regno + ! TARGET_LITTLE_ENDIAN),
                                  change_address (mem, SFmode, NULL_RTX),
                                  operands[2]));
  DONE;
}")

(define_split
  [(set (match_operand:DF 0 "register_operand" "")
        (match_operand:DF 1 "memory_operand" ""))
   (use (match_operand:PSI 2 "fpscr_operand" ""))
   (clobber (match_scratch:SI 3 ""))]
  "(TARGET_SH4 || TARGET_SH2A_DOUBLE) && ! TARGET_FMOVD && reload_completed
   && FP_OR_XD_REGISTER_P (true_regnum (operands[0]))"
  [(const_int 0)]
  "
{
  int regno = true_regnum (operands[0]);
  rtx addr, insn, adjust = NULL_RTX;
  rtx mem2 = change_address (operands[1], SFmode, NULL_RTX);
  rtx reg0 = gen_rtx_REG (SFmode, regno + !! TARGET_LITTLE_ENDIAN);
  rtx reg1 = gen_rtx_REG (SFmode, regno + ! TARGET_LITTLE_ENDIAN);

  operands[1] = copy_rtx (mem2);
  addr = XEXP (mem2, 0);
  if (GET_CODE (addr) != POST_INC)
    {
      /* If we have to modify the stack pointer, the value that we have
         read with post-increment might be modified by an interrupt,
         so write it back.  */
      if (REGNO (addr) == STACK_POINTER_REGNUM)
        adjust = gen_push_e (reg0);
      else
        adjust = gen_addsi3 (addr, addr, GEN_INT (-4));
      XEXP (mem2, 0) = addr = gen_rtx_POST_INC (SImode, addr);
    }
  addr = XEXP (addr, 0);
  insn = emit_insn (gen_movsf_ie (reg0, mem2, operands[2]));
  REG_NOTES (insn) = gen_rtx_EXPR_LIST (REG_INC, addr, NULL_RTX);
  insn = emit_insn (gen_movsf_ie (reg1, operands[1], operands[2]));
  if (adjust)
    emit_insn (adjust);
  else
    REG_NOTES (insn) = gen_rtx_EXPR_LIST (REG_INC, addr, NULL_RTX);
  DONE;
}")

(define_split
  [(set (match_operand:DF 0 "memory_operand" "")
        (match_operand:DF 1 "register_operand" ""))
   (use (match_operand:PSI 2 "fpscr_operand" ""))
   (clobber (match_scratch:SI 3 ""))]
  "(TARGET_SH4 || TARGET_SH2A_DOUBLE) && ! TARGET_FMOVD && reload_completed
   && FP_OR_XD_REGISTER_P (true_regnum (operands[1]))"
  [(const_int 0)]
  "
{
  int regno = true_regnum (operands[1]);
  rtx insn, addr, adjust = NULL_RTX;

  operands[0] = copy_rtx (operands[0]);
  PUT_MODE (operands[0], SFmode);
  insn = emit_insn (gen_movsf_ie (operands[0],
                                  gen_rtx_REG (SFmode,
                                           regno + ! TARGET_LITTLE_ENDIAN),
                                  operands[2]));
  operands[0] = copy_rtx (operands[0]);
  addr = XEXP (operands[0], 0);
  if (GET_CODE (addr) != PRE_DEC)
    {
      adjust = gen_addsi3 (addr, addr, GEN_INT (4));
      emit_insn_before (adjust, insn);
      XEXP (operands[0], 0) = addr = gen_rtx_PRE_DEC (SImode, addr);
    }
  addr = XEXP (addr, 0);
  if (! adjust)
    REG_NOTES (insn) = gen_rtx_EXPR_LIST (REG_INC, addr, NULL_RTX);
  insn = emit_insn (gen_movsf_ie (operands[0],
                                  gen_rtx_REG (SFmode,
                                           regno + !! TARGET_LITTLE_ENDIAN),
                                  operands[2]));
  REG_NOTES (insn) = gen_rtx_EXPR_LIST (REG_INC, addr, NULL_RTX);
  DONE;
}")

;; If the output is a register and the input is memory or a register, we have
;; to be careful and see which word needs to be loaded first.

(define_split
  [(set (match_operand:DF 0 "general_movdst_operand" "")
        (match_operand:DF 1 "general_movsrc_operand" ""))]
  "TARGET_SH1 && reload_completed"
  [(set (match_dup 2) (match_dup 3))
   (set (match_dup 4) (match_dup 5))]
  "
{
  int regno;

  if ((GET_CODE (operands[0]) == MEM
       && GET_CODE (XEXP (operands[0], 0)) == PRE_DEC)
      || (GET_CODE (operands[1]) == MEM
          && GET_CODE (XEXP (operands[1], 0)) == POST_INC))
    FAIL;

  switch (GET_CODE (operands[0]))
    {
    case REG:
      regno = REGNO (operands[0]);
      break;
    case SUBREG:
      regno = subreg_regno (operands[0]);
      break;
    case MEM:
      regno = -1;
      break;
    default:
      gcc_unreachable ();
    }

  if (regno == -1
      || ! refers_to_regno_p (regno, regno + 1, operands[1], 0))
    {
      operands[2] = operand_subword (operands[0], 0, 0, DFmode);
      operands[3] = operand_subword (operands[1], 0, 0, DFmode);
      operands[4] = operand_subword (operands[0], 1, 0, DFmode);
      operands[5] = operand_subword (operands[1], 1, 0, DFmode);
    }
  else
    {
      operands[2] = operand_subword (operands[0], 1, 0, DFmode);
      operands[3] = operand_subword (operands[1], 1, 0, DFmode);
      operands[4] = operand_subword (operands[0], 0, 0, DFmode);
      operands[5] = operand_subword (operands[1], 0, 0, DFmode);
    }

  if (operands[2] == 0 || operands[3] == 0
      || operands[4] == 0 || operands[5] == 0)
    FAIL;
}")

;; If a base address generated by LEGITIMIZE_ADDRESS for SImode is
;; used only once, let combine add in the index again.

(define_split
  [(set (match_operand:SI 0 "register_operand" "")
        (match_operand:SI 1 "" ""))
   (clobber (match_operand 2 "register_operand" ""))]
  "TARGET_SH1 && ! reload_in_progress && ! reload_completed
   && ALLOW_INDEXED_ADDRESS"
  [(use (reg:SI R0_REG))]
  "
{
  rtx addr, reg, const_int;

  if (GET_CODE (operands[1]) != MEM)
    FAIL;
  addr = XEXP (operands[1], 0);
  if (GET_CODE (addr) != PLUS)
    FAIL;
  reg = XEXP (addr, 0);
  const_int = XEXP (addr, 1);
  if (! (BASE_REGISTER_RTX_P (reg) && INDEX_REGISTER_RTX_P (operands[2])
         && GET_CODE (const_int) == CONST_INT))
    FAIL;
  emit_move_insn (operands[2], const_int);
  emit_move_insn (operands[0],
                  change_address (operands[1], VOIDmode,
                                  gen_rtx_PLUS (SImode, reg, operands[2])));
  DONE;
}")

(define_split
  [(set (match_operand:SI 1 "" "")
        (match_operand:SI 0 "register_operand" ""))
   (clobber (match_operand 2 "register_operand" ""))]
  "TARGET_SH1 && ! reload_in_progress && ! reload_completed
   && ALLOW_INDEXED_ADDRESS"
  [(use (reg:SI R0_REG))]
  "
{
  rtx addr, reg, const_int;

  if (GET_CODE (operands[1]) != MEM)
    FAIL;
  addr = XEXP (operands[1], 0);
  if (GET_CODE (addr) != PLUS)
    FAIL;
  reg = XEXP (addr, 0);
  const_int = XEXP (addr, 1);
  if (! (BASE_REGISTER_RTX_P (reg) && INDEX_REGISTER_RTX_P (operands[2])
         && GET_CODE (const_int) == CONST_INT))
    FAIL;
  emit_move_insn (operands[2], const_int);
  emit_move_insn (change_address (operands[1], VOIDmode,
                                  gen_rtx_PLUS (SImode, reg, operands[2])),
                  operands[0]);
  DONE;
}")

(define_expand "movdf"
  [(set (match_operand:DF 0 "general_movdst_operand" "")
        (match_operand:DF 1 "general_movsrc_operand" ""))]
  ""
  "
{
  if (prepare_move_operands (operands, DFmode)) DONE;
  if (TARGET_SHMEDIA)
    {
      if (TARGET_SHMEDIA_FPU)
        emit_insn (gen_movdf_media (operands[0], operands[1]));
      else
        emit_insn (gen_movdf_media_nofpu (operands[0], operands[1]));
      DONE;
    }
  if (TARGET_SH4 || TARGET_SH2A_DOUBLE)
    {
      emit_df_insn (gen_movdf_i4 (operands[0], operands[1], get_fpscr_rtx ()));
      DONE;
    }
}")

;;This is incompatible with the way gcc uses subregs.
;;(define_insn "movv2sf_i"
;;  [(set (match_operand:V2SF 0 "nonimmediate_operand" "=f,f,m")
;;      (match_operand:V2SF 1 "nonimmediate_operand" "f,m,f"))]
;;  "TARGET_SHMEDIA_FPU
;;   && (fp_arith_reg_operand (operands[0], V2SFmode)
;;       || fp_arith_reg_operand (operands[1], V2SFmode))"
;;  "@
;;      #
;;      fld%M1.p        %m1, %0
;;      fst%M0.p        %m0, %1"
;;  [(set_attr "type" "*,fload_media,fstore_media")])

(define_insn_and_split "movv2sf_i"
  [(set (match_operand:V2SF 0 "general_movdst_operand" "=f,rf,r,m,mf")
        (match_operand:V2SF 1 "general_operand" "fm,rfm?,F?,f,rfZ?"))]
  "TARGET_SHMEDIA_FPU"
  "#"
  "TARGET_SHMEDIA_FPU && reload_completed"
  [(set (match_dup 0) (match_dup 1))]
  "
{
  operands[0] = simplify_gen_subreg (DFmode, operands[0], V2SFmode, 0);
  operands[1] = simplify_gen_subreg (DFmode, operands[1], V2SFmode, 0);
}")

(define_expand "movv2sf"
  [(set (match_operand:V2SF 0 "general_movdst_operand" "")
        (match_operand:V2SF 1 "nonimmediate_operand" ""))]
  "TARGET_SHMEDIA_FPU"
  "
{
  if (prepare_move_operands (operands, V2SFmode))
    DONE;
}")

(define_expand "addv2sf3"
  [(match_operand:V2SF 0 "fp_arith_reg_operand" "")
   (match_operand:V2SF 1 "fp_arith_reg_operand" "")
   (match_operand:V2SF 2 "fp_arith_reg_operand" "")]
  "TARGET_SHMEDIA_FPU"
  "
{
  sh_expand_binop_v2sf (PLUS, operands[0], operands[1], operands[2]);
  DONE;
}")

(define_expand "subv2sf3"
  [(match_operand:V2SF 0 "fp_arith_reg_operand" "")
   (match_operand:V2SF 1 "fp_arith_reg_operand" "")
   (match_operand:V2SF 2 "fp_arith_reg_operand" "")]
  "TARGET_SHMEDIA_FPU"
  "
{
  sh_expand_binop_v2sf (MINUS, operands[0], operands[1], operands[2]);
  DONE;
}")

(define_expand "mulv2sf3"
  [(match_operand:V2SF 0 "fp_arith_reg_operand" "")
   (match_operand:V2SF 1 "fp_arith_reg_operand" "")
   (match_operand:V2SF 2 "fp_arith_reg_operand" "")]
  "TARGET_SHMEDIA_FPU"
  "
{
  sh_expand_binop_v2sf (MULT, operands[0], operands[1], operands[2]);
  DONE;
}")

(define_expand "divv2sf3"
  [(match_operand:V2SF 0 "fp_arith_reg_operand" "")
   (match_operand:V2SF 1 "fp_arith_reg_operand" "")
   (match_operand:V2SF 2 "fp_arith_reg_operand" "")]
  "TARGET_SHMEDIA_FPU"
  "
{
  sh_expand_binop_v2sf (DIV, operands[0], operands[1], operands[2]);
  DONE;
}")

(define_insn_and_split "*movv4sf_i"
  [(set (match_operand:V4SF 0 "general_movdst_operand" "=f,rf,r,m,mf")
        (match_operand:V4SF 1 "general_operand" "fm,rfm?,F?,f,rfZ?"))]
  "TARGET_SHMEDIA_FPU"
  "#"
  "&& reload_completed"
  [(const_int 0)]
  "
{
  int i;

  for (i = 0; i < 4/2; i++)
    {
      rtx x, y;

      if (GET_CODE (operands[0]) == MEM)
        x = adjust_address (operands[0], V2SFmode,
                            i * GET_MODE_SIZE (V2SFmode));
      else
        x = simplify_gen_subreg (V2SFmode, operands[0], V4SFmode, i * 8);

      if (GET_CODE (operands[1]) == MEM)
        y = adjust_address (operands[1], V2SFmode,
                            i * GET_MODE_SIZE (V2SFmode));
      else
        y = simplify_gen_subreg (V2SFmode, operands[1], V4SFmode, i * 8);

      emit_insn (gen_movv2sf_i (x, y));
    }

  DONE;
}"
  [(set_attr "length" "8")])

(define_expand "movv4sf"
  [(set (match_operand:V4SF 0 "nonimmediate_operand" "")
        (match_operand:V4SF 1 "general_operand" ""))]
  "TARGET_SHMEDIA_FPU"
  "
{
  if (prepare_move_operands (operands, V4SFmode))
    DONE;
}")

(define_insn_and_split "*movv16sf_i"
  [(set (match_operand:V16SF 0 "nonimmediate_operand" "=f,f,m")
        (match_operand:V16SF 1 "nonimmediate_operand" "f,m,f"))]
  "TARGET_SHMEDIA_FPU"
  "#"
  "&& reload_completed"
  [(const_int 0)]
  "
{
  int i;

  for (i = 0; i < 16/2; i++)
    {
      rtx x,y;

      if (GET_CODE (operands[0]) == MEM)
        x = adjust_address (operands[0], V2SFmode,
                            i * GET_MODE_SIZE (V2SFmode));
      else
        {
          x = gen_rtx_SUBREG (V2SFmode, operands[0], i * 8);
          alter_subreg (&x);
        }

      if (GET_CODE (operands[1]) == MEM)
        y = adjust_address (operands[1], V2SFmode,
                            i * GET_MODE_SIZE (V2SFmode));
      else
        {
          y = gen_rtx_SUBREG (V2SFmode, operands[1], i * 8);
          alter_subreg (&y);
        }

      emit_insn (gen_movv2sf_i (x, y));
    }

  DONE;
}"
  [(set_attr "length" "32")])

(define_expand "movv16sf"
  [(set (match_operand:V16SF 0 "nonimmediate_operand" "=f,f,m")
        (match_operand:V16SF 1 "nonimmediate_operand" "f,m,f"))]
  "TARGET_SHMEDIA_FPU"
  "
{
  if (prepare_move_operands (operands, V16SFmode))
    DONE;
}")

(define_insn "movsf_media"
  [(set (match_operand:SF 0 "general_movdst_operand" "=f,f,r,r,r,f,m,r,m")
        (match_operand:SF 1 "general_movsrc_operand" "f,rZ,f,r,F,m,f,m,rZ"))]
  "TARGET_SHMEDIA_FPU
   && (register_operand (operands[0], SFmode)
       || sh_register_operand (operands[1], SFmode))"
  "@
        fmov.s  %1, %0
        fmov.ls %N1, %0
        fmov.sl %1, %0
        add.l   %1, r63, %0
        #
        fld%M1.s        %m1, %0
        fst%M0.s        %m0, %1
        ld%M1.l %m1, %0
        st%M0.l %m0, %N1"
  [(set_attr "type" "fmove_media,fload_media,fpconv_media,arith_media,*,fload_media,fstore_media,load_media,store_media")
   (set (attr "highpart")
        (cond [(ne (symbol_ref "sh_contains_memref_p (insn)") (const_int 0))
               (const_string "user")]
              (const_string "ignore")))])

(define_insn "movsf_media_nofpu"
  [(set (match_operand:SF 0 "general_movdst_operand" "=r,r,r,m")
        (match_operand:SF 1 "general_movsrc_operand" "r,F,m,rZ"))]
  "TARGET_SHMEDIA
   && (register_operand (operands[0], SFmode)
       || sh_register_operand (operands[1], SFmode))"
  "@
        add.l   %1, r63, %0
        #
        ld%M1.l %m1, %0
        st%M0.l %m0, %N1"
  [(set_attr "type" "arith_media,*,load_media,store_media")
   (set (attr "highpart")
        (cond [(ne (symbol_ref "sh_contains_memref_p (insn)") (const_int 0))
               (const_string "user")]
              (const_string "ignore")))])

(define_split
  [(set (match_operand:SF 0 "arith_reg_dest" "")
        (match_operand:SF 1 "immediate_operand" ""))]
  "TARGET_SHMEDIA && reload_completed
   && ! FP_REGISTER_P (true_regnum (operands[0]))"
  [(set (match_dup 3) (match_dup 2))]
  "
{
  long values;
  REAL_VALUE_TYPE value;

  REAL_VALUE_FROM_CONST_DOUBLE (value, operands[1]);
  REAL_VALUE_TO_TARGET_SINGLE (value, values);
  operands[2] = GEN_INT (values);

  operands[3] = gen_rtx_REG (DImode, true_regnum (operands[0]));
}")

(define_insn "movsf_i"
  [(set (match_operand:SF 0 "general_movdst_operand" "=r,r,r,r,m,l,r")
        (match_operand:SF 1 "general_movsrc_operand"  "r,G,FQ,mr,r,r,l"))]
  "TARGET_SH1
   && (! TARGET_SH2E
       /* ??? We provide some insn so that direct_{load,store}[SFmode] get set */
       || (GET_CODE (operands[0]) == REG && REGNO (operands[0]) == 3)
       || (GET_CODE (operands[1]) == REG && REGNO (operands[1]) == 3))
   && (arith_reg_operand (operands[0], SFmode)
       || arith_reg_operand (operands[1], SFmode))"
  "@
        mov     %1,%0
        mov     #0,%0
        mov.l   %1,%0
        mov.l   %1,%0
        mov.l   %1,%0
        lds     %1,%0
        sts     %1,%0"
  [(set_attr "type" "move,move,pcload,load,store,move,move")])

;; We may not split the ry/yr/XX alternatives to movsi_ie, since
;; update_flow_info would not know where to put REG_EQUAL notes
;; when the destination changes mode.
(define_insn "movsf_ie"
  [(set (match_operand:SF 0 "general_movdst_operand"
         "=f,r,f,f,fy,f,m,r,r,m,f,y,y,rf,r,y,<,y,y")
        (match_operand:SF 1 "general_movsrc_operand"
          "f,r,G,H,FQ,mf,f,FQ,mr,r,y,f,>,fr,y,r,y,>,y"))
   (use (match_operand:PSI 2 "fpscr_operand" "c,c,c,c,c,c,c,c,c,c,c,c,c,c,c,c,c,c,c"))
   (clobber (match_scratch:SI 3 "=X,X,Bsc,Bsc,&z,X,X,X,X,X,X,X,X,y,X,X,X,X,X"))]

  "TARGET_SH2E
   && (arith_reg_operand (operands[0], SFmode)
       || arith_reg_operand (operands[1], SFmode)
       || arith_reg_operand (operands[3], SImode)
       || (fpul_operand (operands[0], SFmode)
           && memory_operand (operands[1], SFmode)
           && GET_CODE (XEXP (operands[1], 0)) == POST_INC)
       || (fpul_operand (operands[1], SFmode)
           && memory_operand (operands[0], SFmode)
           && GET_CODE (XEXP (operands[0], 0)) == PRE_DEC))"
  "@
        fmov    %1,%0
        mov     %1,%0
        fldi0   %0
        fldi1   %0
        #
        fmov.s  %1,%0
        fmov.s  %1,%0
        mov.l   %1,%0
        mov.l   %1,%0
        mov.l   %1,%0
        fsts    fpul,%0
        flds    %1,fpul
        lds.l   %1,%0
        #
        sts     %1,%0
        lds     %1,%0
        sts.l   %1,%0
        lds.l   %1,%0
        ! move optimized away"
  [(set_attr "type" "fmove,move,fmove,fmove,pcfload,fload,store,pcload,load,store,fmove,fmove,load,*,fpul_gp,gp_fpul,store,load,nil")
   (set_attr "late_fp_use" "*,*,*,*,*,*,yes,*,*,*,*,*,*,*,yes,*,yes,*,*")
   (set_attr "length" "*,*,*,*,4,4,4,*,*,*,2,2,2,4,2,2,2,2,0")
   (set (attr "fp_mode") (if_then_else (eq_attr "fmovd" "yes")
                                           (const_string "single")
                                           (const_string "none")))])

(define_split
  [(set (match_operand:SF 0 "register_operand" "")
        (match_operand:SF 1 "register_operand" ""))
   (use (match_operand:PSI 2 "fpscr_operand" ""))
   (clobber (reg:SI FPUL_REG))]
  "TARGET_SH1"
  [(parallel [(set (reg:SF FPUL_REG) (match_dup 1))
              (use (match_dup 2))
              (clobber (scratch:SI))])
   (parallel [(set (match_dup 0) (reg:SF FPUL_REG))
              (use (match_dup 2))
              (clobber (scratch:SI))])]
  "")

(define_expand "movsf"
  [(set (match_operand:SF 0 "general_movdst_operand" "")
        (match_operand:SF 1 "general_movsrc_operand" ""))]
  ""
  "
{
  if (prepare_move_operands (operands, SFmode))
    DONE;
  if (TARGET_SHMEDIA)
    {
      if (TARGET_SHMEDIA_FPU)
        emit_insn (gen_movsf_media (operands[0], operands[1]));
      else
        emit_insn (gen_movsf_media_nofpu (operands[0], operands[1]));
      DONE;
    }
  if (TARGET_SH2E)
    {
      emit_sf_insn (gen_movsf_ie (operands[0], operands[1], get_fpscr_rtx ()));
      DONE;
    }
}")

(define_insn "mov_nop"
  [(set (match_operand 0 "any_register_operand" "") (match_dup 0))]
  "TARGET_SH2E"
  ""
  [(set_attr "length" "0")
   (set_attr "type" "nil")])

(define_expand "reload_insf__frn"
  [(parallel [(set (match_operand:SF 0 "register_operand" "=a")
                   (match_operand:SF 1 "immediate_operand" "FQ"))
              (use (reg:PSI FPSCR_REG))
              (clobber (match_operand:SI 2 "register_operand" "=&z"))])]
  "TARGET_SH1"
  "")

(define_expand "reload_insi__i_fpul"
  [(parallel [(set (match_operand:SI 0 "fpul_operand" "=y")
                   (match_operand:SI 1 "immediate_operand" "i"))
              (clobber (match_operand:SI 2 "register_operand" "=&z"))])]
  "TARGET_SH1"
  "")

(define_expand "ptabs"
  [(set (match_operand 0 "" "=b") (match_operand 1 "" "r"))]
  "TARGET_SHMEDIA"
  "
{
  if (!TARGET_PT_FIXED)
    {
      rtx eq = operands[1];

      /* ??? For canonical RTL we really should remove any CONST from EQ
         before wrapping it in the AND, and finally wrap the EQ into a
         const if is constant.  However, for reload we must expose the
         input register or symbolic constant, and we can't have
         different insn structures outside of the operands for different
         alternatives of the same pattern.  */
      eq = gen_rtx_EQ (SImode, gen_rtx_AND (Pmode, eq, GEN_INT (3)),
                       GEN_INT (3));
      operands[1]
        = (gen_rtx_IF_THEN_ELSE
            (PDImode,
             eq,
             gen_rtx_MEM (PDImode, operands[1]),
             gen_rtx_fmt_e (TARGET_SHMEDIA32 ? SIGN_EXTEND : TRUNCATE,
                            PDImode, operands[1])));
    }
}")

;; expanded by ptabs expander.
(define_insn "*extendsipdi_media"
  [(set (match_operand:PDI 0 "target_reg_operand" "=b,b");
        (if_then_else:PDI (eq (and:SI (match_operand:SI 1 "target_operand"
                                                          "r,Csy")
                                      (const_int 3))
                              (const_int 3))
                          (mem:PDI (match_dup 1))
                          (sign_extend:PDI (match_dup 1))))]
  "TARGET_SHMEDIA && !TARGET_PT_FIXED"
  "@
        ptabs   %1, %0
        pt      %1, %0"
  [(set_attr "type"   "ptabs_media,pt_media")
   (set_attr "length" "4,*")])

(define_insn "*truncdipdi_media"
  [(set (match_operand:PDI 0 "target_reg_operand" "=b,b");
        (if_then_else:PDI (eq (and:DI (match_operand:DI 1 "target_operand"
                                                          "r,Csy")
                                      (const_int 3))
                              (const_int 3))
                          (mem:PDI (match_dup 1))
                          (truncate:PDI (match_dup 1))))]
  "TARGET_SHMEDIA && !TARGET_PT_FIXED"
  "@
        ptabs   %1, %0
        pt      %1, %0"
  [(set_attr "type"   "ptabs_media,pt_media")
   (set_attr "length" "4,*")])

(define_insn "*movsi_y"
  [(set (match_operand:SI 0 "register_operand" "=y,y")
        (match_operand:SI 1 "immediate_operand" "Qi,I08"))
   (clobber (match_scratch:SI 2 "=&z,r"))]
  "TARGET_SH2E
   && (reload_in_progress || reload_completed)"
  "#"
  [(set_attr "length" "4")
   (set_attr "type" "pcload,move")])

(define_split
  [(set (match_operand:SI 0 "register_operand" "")
        (match_operand:SI 1 "immediate_operand" ""))
   (clobber (match_operand:SI 2 "register_operand" ""))]
  "TARGET_SH1"
  [(set (match_dup 2) (match_dup 1))
   (set (match_dup 0) (match_dup 2))]
  "")

(define_split
  [(set (match_operand:SI 0 "register_operand" "")
        (match_operand:SI 1 "memory_operand" ""))
   (clobber (reg:SI R0_REG))]
  "TARGET_SH1"
  [(set (match_dup 0) (match_dup 1))]
  "")

;; ------------------------------------------------------------------------
;; Define the real conditional branch instructions.
;; ------------------------------------------------------------------------

(define_insn "branch_true"
  [(set (pc) (if_then_else (ne (reg:SI T_REG) (const_int 0))
                           (label_ref (match_operand 0 "" ""))
                           (pc)))]
  "TARGET_SH1"
  "* return output_branch (1, insn, operands);"
  [(set_attr "type" "cbranch")])

(define_insn "branch_false"
  [(set (pc) (if_then_else (eq (reg:SI T_REG) (const_int 0))
                           (label_ref (match_operand 0 "" ""))
                           (pc)))]
  "TARGET_SH1"
  "* return output_branch (0, insn, operands);"
  [(set_attr "type" "cbranch")])

;; Patterns to prevent reorg from re-combining a condbranch with a branch
;; which destination is too far away.
;; The const_int_operand is distinct for each branch target; it avoids
;; unwanted matches with redundant_insn.
(define_insn "block_branch_redirect"
  [(set (pc) (unspec [(match_operand 0 "const_int_operand" "")] UNSPEC_BBR))]
  "TARGET_SH1"
  ""
  [(set_attr "length" "0")])

;; This one has the additional purpose to record a possible scratch register
;; for the following branch.
;; ??? Unfortunately, just setting the scratch register is not good enough,
;; because the insn then might be deemed dead and deleted.  And we can't
;; make the use in the jump insn explicit because that would disable
;; delay slot scheduling from the target.
(define_insn "indirect_jump_scratch"
  [(set (match_operand:SI 0 "register_operand" "=r")
        (unspec:SI [(match_operand 1 "const_int_operand" "")] UNSPEC_BBR))
   (set (pc) (unspec [(const_int 0)] UNSPEC_BBR))]
  "TARGET_SH1"
  ""
  [(set_attr "length" "0")])

;; This one is used to preemt an insn from beyond the bra / braf / jmp
;; being pulled into the delay slot of a condbranch that has been made to
;; jump around the unconditional jump because it was out of range.
(define_insn "stuff_delay_slot"
  [(set (pc)
        (unspec [(match_operand:SI 0 "const_int_operand" "") (pc)] UNSPEC_BBR))
   (set (reg:SI T_REG) (match_operand:SI 1 "const_int_operand" ""))]
  "TARGET_SH1"
  ""
  [(set_attr "length" "0")
   (set_attr "cond_delay_slot" "yes")])

;; Conditional branch insns

(define_expand "beq_media"
  [(set (pc)
        (if_then_else (eq (match_operand:DI 1 "arith_reg_operand" "r,r")
                          (match_operand:DI 2 "arith_operand" "r,I06"))
                      (match_operand 0 "" "")
                      (pc)))]
  "TARGET_SHMEDIA"
  "operands[0] = gen_rtx_LABEL_REF (Pmode, operands[0]);")

(define_insn "*beq_media_i"
  [(set (pc)
        (if_then_else (match_operator 3 "equality_comparison_operator"
                        [(match_operand:DI 1 "arith_reg_operand" "r,r")
                         (match_operand:DI 2 "arith_operand" "r,I06")])
                      (match_operand 0 "target_operand" "b,b")
                      (pc)))]
  "TARGET_SHMEDIA"
  "@
        b%o3%'  %1, %2, %0%>
        b%o3i%' %1, %2, %0%>"
  [(set_attr "type" "cbranch_media")])

(define_insn "*beq_media_i32"
  [(set (pc)
        (if_then_else (match_operator 3 "equality_comparison_operator"
                        [(match_operand:SI 1 "arith_reg_operand" "r,r")
                         (match_operand:SI 2 "arith_operand" "r,I06")])
                      (match_operand 0 "target_operand" "b,b")
                      (pc)))]
  "TARGET_SHMEDIA"
  "@
        b%o3%'  %1, %2, %0%>
        b%o3i%' %1, %2, %0%>"
  [(set_attr "type" "cbranch_media")])

(define_expand "bne_media"
  [(set (pc)
        (if_then_else (ne (match_operand:DI 1 "arith_reg_operand" "r,r")
                          (match_operand:DI 2 "arith_operand" "r,I06"))
                      (match_operand 0 "" "")
                      (pc)))]
  "TARGET_SHMEDIA"
  "operands[0] = gen_rtx_LABEL_REF (Pmode, operands[0]);")

(define_expand "bgt_media"
  [(set (pc)
        (if_then_else (gt (match_operand:DI 1 "arith_reg_or_0_operand" "")
                          (match_operand:DI 2 "arith_reg_or_0_operand" ""))
                      (match_operand 0 "" "")
                      (pc)))]
  "TARGET_SHMEDIA"
  "operands[0] = gen_rtx_LABEL_REF (Pmode, operands[0]);")

(define_expand "bge_media"
  [(set (pc)
        (if_then_else (ge (match_operand:DI 1 "arith_reg_or_0_operand" "")
                          (match_operand:DI 2 "arith_reg_or_0_operand" ""))
                      (match_operand 0 "" "")
                      (pc)))]
  "TARGET_SHMEDIA"
  "operands[0] = gen_rtx_LABEL_REF (Pmode, operands[0]);")

(define_expand "bgtu_media"
  [(set (pc)
        (if_then_else (gtu (match_operand:DI 1 "arith_reg_or_0_operand" "")
                           (match_operand:DI 2 "arith_reg_or_0_operand" ""))
                      (match_operand 0 "" "")
                      (pc)))]
  "TARGET_SHMEDIA"
  "operands[0] = gen_rtx_LABEL_REF (Pmode, operands[0]);")

(define_expand "bgeu_media"
  [(set (pc)
        (if_then_else (geu (match_operand:DI 1 "arith_reg_or_0_operand" "")
                           (match_operand:DI 2 "arith_reg_or_0_operand" ""))
                      (match_operand 0 "" "")
                      (pc)))]
  "TARGET_SHMEDIA"
  "operands[0] = gen_rtx_LABEL_REF (Pmode, operands[0]);")

(define_insn "*bgt_media_i"
  [(set (pc)
        (if_then_else (match_operator 3 "greater_comparison_operator"
                        [(match_operand:DI 1 "arith_reg_or_0_operand" "rN")
                         (match_operand:DI 2 "arith_reg_or_0_operand" "rN")])
                      (match_operand 0 "target_operand" "b")
                      (pc)))]
  "TARGET_SHMEDIA"
  "b%o3%'       %N1, %N2, %0%>"
  [(set_attr "type" "cbranch_media")])

(define_insn "*bgt_media_i32"
  [(set (pc)
        (if_then_else (match_operator 3 "greater_comparison_operator"
                        [(match_operand:SI 1 "arith_reg_or_0_operand" "rN")
                         (match_operand:SI 2 "arith_reg_or_0_operand" "rN")])
                      (match_operand 0 "target_operand" "b")
                      (pc)))]
  "TARGET_SHMEDIA"
  "b%o3%'       %N1, %N2, %0%>"
  [(set_attr "type" "cbranch_media")])

;; These are only needed to make invert_jump() happy - otherwise, jump
;; optimization will be silently disabled.
(define_insn "*blt_media_i"
  [(set (pc)
        (if_then_else (match_operator 3 "less_comparison_operator"
                        [(match_operand:DI 1 "arith_reg_or_0_operand" "rN")
                         (match_operand:DI 2 "arith_reg_or_0_operand" "rN")])
                      (match_operand 0 "target_operand" "b")
                      (pc)))]
  "TARGET_SHMEDIA"
  "b%o3%'       %N2, %N1, %0%>"
  [(set_attr "type" "cbranch_media")])

(define_insn "*blt_media_i32"
  [(set (pc)
        (if_then_else (match_operator 3 "less_comparison_operator"
                        [(match_operand:SI 1 "arith_reg_or_0_operand" "rN")
                         (match_operand:SI 2 "arith_reg_or_0_operand" "rN")])
                      (match_operand 0 "target_operand" "b")
                      (pc)))]
  "TARGET_SHMEDIA"
  "b%o3%'       %N2, %N1, %0%>"
  [(set_attr "type" "cbranch_media")])

(define_expand "beq"
  [(set (pc)
        (if_then_else (ne (reg:SI T_REG) (const_int 0))
                      (label_ref (match_operand 0 "" ""))
                      (pc)))]
  ""
  "
{
  if (TARGET_SHMEDIA)
    {
      enum machine_mode mode = GET_MODE (sh_compare_op0);

      if (mode != DImode && mode != SImode)
        {
          rtx tmp = gen_reg_rtx (DImode);

          emit_insn (gen_seq (tmp));
          emit_jump_insn (gen_bne_media (operands[0], tmp, const0_rtx));
          DONE;
        }

      sh_compare_op0 = force_reg (mode, sh_compare_op0);
      if (CONSTANT_P (sh_compare_op1)
          && (GET_CODE (sh_compare_op1) != CONST_INT
              || ! CONST_OK_FOR_I06 (INTVAL (sh_compare_op1))))
        sh_compare_op1 = force_reg (mode, sh_compare_op1);
      emit_jump_insn (gen_beq_media (operands[0],
                                     sh_compare_op0, sh_compare_op1));
      DONE;
    }

  from_compare (operands, EQ);
}")

(define_expand "bne"
  [(set (pc)
        (if_then_else (eq (reg:SI T_REG) (const_int 0))
                      (label_ref (match_operand 0 "" ""))
                      (pc)))]
  ""
  "
{
  if (TARGET_SHMEDIA)
    {
      enum machine_mode mode = GET_MODE (sh_compare_op0);

      if (mode != DImode && mode != SImode)
        {
          rtx tmp = gen_reg_rtx (DImode);

          emit_insn (gen_seq (tmp));
          emit_jump_insn (gen_beq_media (operands[0], tmp, const0_rtx));
          DONE;
        }

      sh_compare_op0 = force_reg (mode, sh_compare_op0);
      if (CONSTANT_P (sh_compare_op1)
          && (GET_CODE (sh_compare_op1) != CONST_INT
              || ! CONST_OK_FOR_I06 (INTVAL (sh_compare_op1))))
        sh_compare_op1 = force_reg (mode, sh_compare_op1);
      emit_jump_insn (gen_bne_media (operands[0],
                                     sh_compare_op0, sh_compare_op1));
      DONE;
    }

  from_compare (operands, EQ);
}")

(define_expand "bgt"
  [(set (pc)
        (if_then_else (ne (reg:SI T_REG) (const_int 0))
                      (label_ref (match_operand 0 "" ""))
                      (pc)))]
  ""
  "
{
  if (TARGET_SHMEDIA)
    {
      enum machine_mode mode = GET_MODE (sh_compare_op0);

      if (mode != DImode && mode != SImode)
        {
          rtx tmp = gen_reg_rtx (DImode);

          emit_insn (gen_sgt (tmp));
          emit_jump_insn (gen_bne_media (operands[0], tmp, const0_rtx));
          DONE;
        }

      if (sh_compare_op0 != const0_rtx)
        sh_compare_op0 = force_reg (mode, sh_compare_op0);
      if (sh_compare_op1 != const0_rtx)
        sh_compare_op1 = force_reg (mode, sh_compare_op1);
      emit_jump_insn (gen_bgt_media (operands[0],
                                     sh_compare_op0, sh_compare_op1));
      DONE;
    }

  from_compare (operands, GT);
}")

(define_expand "blt"
  [(set (pc)
        (if_then_else (eq (reg:SI T_REG) (const_int 0))
                      (label_ref (match_operand 0 "" ""))
                      (pc)))]
  ""
  "
{
  if (TARGET_SHMEDIA)
    {
      enum machine_mode mode = GET_MODE (sh_compare_op0);

      if (mode != DImode && mode != SImode)
        {
          rtx tmp = gen_reg_rtx (DImode);

          emit_insn (gen_slt (tmp));
          emit_jump_insn (gen_bne_media (operands[0], tmp, const0_rtx));
          DONE;
        }

      if (sh_compare_op0 != const0_rtx)
        sh_compare_op0 = force_reg (mode, sh_compare_op0);
      if (sh_compare_op1 != const0_rtx)
        sh_compare_op1 = force_reg (mode, sh_compare_op1);
      emit_jump_insn (gen_bgt_media (operands[0],
                                     sh_compare_op1, sh_compare_op0));
      DONE;
    }

  if (GET_MODE_CLASS (GET_MODE (sh_compare_op0)) == MODE_FLOAT)
    {
      rtx tmp = sh_compare_op0;
      sh_compare_op0 = sh_compare_op1;
      sh_compare_op1 = tmp;
      emit_insn (gen_bgt (operands[0]));
      DONE;
    }
  from_compare (operands, GE);
}")

(define_expand "ble"
  [(set (pc)
        (if_then_else (eq (reg:SI T_REG) (const_int 0))
                      (label_ref (match_operand 0 "" ""))
                      (pc)))]
  ""
  "
{
  if (TARGET_SHMEDIA)
    {
      enum machine_mode mode = GET_MODE (sh_compare_op0);

      if (mode != DImode && mode != SImode)
        {
          rtx tmp = gen_reg_rtx (DImode);

          emit_insn (gen_sle (tmp));
          emit_jump_insn (gen_bne_media (operands[0], tmp, const0_rtx));
          DONE;
        }

      if (sh_compare_op0 != const0_rtx)
        sh_compare_op0 = force_reg (mode, sh_compare_op0);
      if (sh_compare_op1 != const0_rtx)
        sh_compare_op1 = force_reg (mode, sh_compare_op1);
      emit_jump_insn (gen_bge_media (operands[0],
                                     sh_compare_op1, sh_compare_op0));
      DONE;
    }

  if (TARGET_SH2E
      && TARGET_IEEE
      && GET_MODE_CLASS (GET_MODE (sh_compare_op0)) == MODE_FLOAT)
    {
      rtx tmp = sh_compare_op0;
      sh_compare_op0 = sh_compare_op1;
      sh_compare_op1 = tmp;
      emit_insn (gen_bge (operands[0]));
      DONE;
    }
  from_compare (operands, GT);
}")

(define_expand "bge"
  [(set (pc)
        (if_then_else (ne (reg:SI T_REG) (const_int 0))
                      (label_ref (match_operand 0 "" ""))
                      (pc)))]
  ""
  "
{
  if (TARGET_SHMEDIA)
    {
      enum machine_mode mode = GET_MODE (sh_compare_op0);

      if (mode != DImode && mode != SImode)
        {
          rtx tmp = gen_reg_rtx (DImode);

          emit_insn (gen_sge (tmp));
          emit_jump_insn (gen_bne_media (operands[0], tmp, const0_rtx));
          DONE;
        }

      if (sh_compare_op0 != const0_rtx)
        sh_compare_op0 = force_reg (mode, sh_compare_op0);
      if (sh_compare_op1 != const0_rtx)
        sh_compare_op1 = force_reg (mode, sh_compare_op1);
      emit_jump_insn (gen_bge_media (operands[0],
                                     sh_compare_op0, sh_compare_op1));
      DONE;
    }

  if (TARGET_SH2E
      && ! TARGET_IEEE
      && GET_MODE_CLASS (GET_MODE (sh_compare_op0)) == MODE_FLOAT)
    {
      rtx tmp = sh_compare_op0;
      sh_compare_op0 = sh_compare_op1;
      sh_compare_op1 = tmp;
      emit_insn (gen_ble (operands[0]));
      DONE;
    }
  from_compare (operands, GE);
}")

(define_expand "bgtu"
  [(set (pc)
        (if_then_else (ne (reg:SI T_REG) (const_int 0))
                      (label_ref (match_operand 0 "" ""))
                      (pc)))]
  ""
  "
{
  if (TARGET_SHMEDIA)
    {
      enum machine_mode mode = GET_MODE (sh_compare_op0);

      if (sh_compare_op0 != const0_rtx)
        sh_compare_op0 = force_reg (mode, sh_compare_op0);
      if (sh_compare_op1 != const0_rtx)
        sh_compare_op1 = force_reg (mode, sh_compare_op1);
      emit_jump_insn (gen_bgtu_media (operands[0],
                                      sh_compare_op0, sh_compare_op1));
      DONE;
    }

  from_compare (operands, GTU);
}")

(define_expand "bltu"
  [(set (pc)
        (if_then_else (eq (reg:SI T_REG) (const_int 0))
                      (label_ref (match_operand 0 "" ""))
                      (pc)))]
  ""
  "
{
  if (TARGET_SHMEDIA)
    {
      enum machine_mode mode = GET_MODE (sh_compare_op0);

      if (sh_compare_op0 != const0_rtx)
        sh_compare_op0 = force_reg (mode, sh_compare_op0);
      if (sh_compare_op1 != const0_rtx)
        sh_compare_op1 = force_reg (mode, sh_compare_op1);
      emit_jump_insn (gen_bgtu_media (operands[0],
                                      sh_compare_op1, sh_compare_op0));
      DONE;
    }

  from_compare (operands, GEU);
}")

(define_expand "bgeu"
  [(set (pc)
        (if_then_else (ne (reg:SI T_REG) (const_int 0))
                      (label_ref (match_operand 0 "" ""))
                      (pc)))]
  ""
  "
{
  if (TARGET_SHMEDIA)
    {
      enum machine_mode mode = GET_MODE (sh_compare_op0);

      if (sh_compare_op0 != const0_rtx)
        sh_compare_op0 = force_reg (mode, sh_compare_op0);
      if (sh_compare_op1 != const0_rtx)
        sh_compare_op1 = force_reg (mode, sh_compare_op1);
      emit_jump_insn (gen_bgeu_media (operands[0],
                                      sh_compare_op0, sh_compare_op1));
      DONE;
    }

  from_compare (operands, GEU);
}")

(define_expand "bleu"
  [(set (pc)
        (if_then_else (eq (reg:SI T_REG) (const_int 0))
                      (label_ref (match_operand 0 "" ""))
                      (pc)))]
  ""
  "
{
  if (TARGET_SHMEDIA)
    {
      enum machine_mode mode = GET_MODE (sh_compare_op0);

      if (sh_compare_op0 != const0_rtx)
        sh_compare_op0 = force_reg (mode, sh_compare_op0);
      if (sh_compare_op1 != const0_rtx)
        sh_compare_op1 = force_reg (mode, sh_compare_op1);
      emit_jump_insn (gen_bgeu_media (operands[0],
                                      sh_compare_op1, sh_compare_op0));
      DONE;
    }

  from_compare (operands, GTU);
}")

(define_expand "bunordered"
  [(set (match_dup 1) (unordered:SI (match_dup 2) (match_dup 3)))
   (set (pc)
        (if_then_else (ne (match_dup 1) (const_int 0))
                      (match_operand 0 "" "")
                      (pc)))]
  "TARGET_SHMEDIA"
  "
{
  operands[0] = gen_rtx_LABEL_REF (Pmode, operands[0]);
  operands[1] = gen_reg_rtx (SImode);
  operands[2] = force_reg (GET_MODE (sh_compare_op0), sh_compare_op0);
  operands[3] = force_reg (GET_MODE (sh_compare_op1), sh_compare_op1);
}")

;; combiner splitter for test-and-branch on single bit in register.  This
;; is endian dependent because the non-paradoxical subreg looks different
;; on big endian.
(define_split
  [(set (pc)
        (if_then_else
          (match_operator 3 "equality_comparison_operator"
            [(subreg:SI (zero_extract:DI (subreg:DI (match_operand:SI 1
                                                      "extend_reg_operand" "")
                                                    0)
                                         (const_int 1)
                                         (match_operand 2
                                          "const_int_operand" "")) 0)
             (const_int 0)])
          (match_operand 0 "target_operand" "")
          (pc)))
   (clobber (match_operand:SI 4 "arith_reg_dest" ""))]
  "TARGET_SHMEDIA && TARGET_LITTLE_ENDIAN"
  [(set (match_dup 4) (ashift:SI (match_dup 1) (match_dup 5)))
   (set (pc) (if_then_else (match_dup 6) (match_dup 0) (pc)))]

  "
{
  operands[5] = GEN_INT (31 - INTVAL (operands[2]));
  operands[6] = (GET_CODE (operands[3]) == EQ
                 ? gen_rtx_GE (VOIDmode, operands[4], const0_rtx)
                 : gen_rtx_GT (VOIDmode, const0_rtx, operands[4]));
}")

;; ------------------------------------------------------------------------
;; Jump and linkage insns
;; ------------------------------------------------------------------------

(define_insn "jump_compact"
  [(set (pc)
        (label_ref (match_operand 0 "" "")))]
  "TARGET_SH1"
  "*
{
  /* The length is 16 if the delay slot is unfilled.  */
  if (get_attr_length(insn) > 4)
    return output_far_jump(insn, operands[0]);
  else
    return   \"bra      %l0%#\";
}"
  [(set_attr "type" "jump")
   (set_attr "needs_delay_slot" "yes")])

;; ??? It would be much saner to explicitly use the scratch register
;; in the jump insn, and have indirect_jump_scratch only set it,
;; but fill_simple_delay_slots would refuse to do delay slot filling
;; from the target then, as it uses simplejump_p.
;;(define_insn "jump_compact_far"
;;  [(set (pc)
;;      (label_ref (match_operand 0 "" "")))
;;   (use (match_operand 1 "register_operand" "r")]
;;  "TARGET_SH1"
;;  "* return output_far_jump(insn, operands[0], operands[1]);"
;;  [(set_attr "type" "jump")
;;   (set_attr "needs_delay_slot" "yes")])

(define_insn "jump_media"
  [(set (pc)
        (match_operand 0 "target_operand" "b"))]
  "TARGET_SHMEDIA"
  "blink        %0, r63%>"
  [(set_attr "type" "jump_media")])

(define_expand "jump"
  [(set (pc)
        (label_ref (match_operand 0 "" "")))]
  ""
  "
{
  if (TARGET_SH1)
    emit_jump_insn (gen_jump_compact (operands[0]));
  else if (TARGET_SHMEDIA)
    {
      if (reload_in_progress || reload_completed)
        FAIL;
      emit_jump_insn (gen_jump_media (gen_rtx_LABEL_REF (Pmode,
                                                         operands[0])));
    }
  DONE;
}")

(define_insn "force_mode_for_call"
  [(use (reg:PSI FPSCR_REG))]
  "TARGET_SHCOMPACT"
  ""
  [(set_attr "length" "0")
   (set (attr "fp_mode")
        (if_then_else (eq_attr "fpu_single" "yes")
                      (const_string "single") (const_string "double")))])

(define_insn "calli"
  [(call (mem:SI (match_operand:SI 0 "arith_reg_operand" "r"))
         (match_operand 1 "" ""))
   (use (reg:PSI FPSCR_REG))
   (clobber (reg:SI PR_REG))]
  "TARGET_SH1"
  "jsr  @%0%#"
  [(set_attr "type" "call")
   (set (attr "fp_mode")
        (if_then_else (eq_attr "fpu_single" "yes")
                      (const_string "single") (const_string "double")))
   (set_attr "needs_delay_slot" "yes")
   (set_attr "fp_set" "unknown")])

;; This is a pc-rel call, using bsrf, for use with PIC.

(define_insn "calli_pcrel"
  [(call (mem:SI (match_operand:SI 0 "arith_reg_operand" "r"))
         (match_operand 1 "" ""))
   (use (reg:PSI FPSCR_REG))
   (use (reg:SI PIC_REG))
   (use (match_operand 2 "" ""))
   (clobber (reg:SI PR_REG))]
  "TARGET_SH2"
  "bsrf %0\\n%O2:%#"
  [(set_attr "type" "call")
   (set (attr "fp_mode")
        (if_then_else (eq_attr "fpu_single" "yes")
                      (const_string "single") (const_string "double")))
   (set_attr "needs_delay_slot" "yes")
   (set_attr "fp_set" "unknown")])

(define_insn_and_split "call_pcrel"
  [(call (mem:SI (match_operand:SI 0 "symbol_ref_operand" ""))
         (match_operand 1 "" ""))
   (use (reg:PSI FPSCR_REG))
   (use (reg:SI PIC_REG))
   (clobber (reg:SI PR_REG))
   (clobber (match_scratch:SI 2 "=r"))]
  "TARGET_SH2"
  "#"
  "reload_completed"
  [(const_int 0)]
  "
{
  rtx lab = PATTERN (gen_call_site ());

  if (SYMBOL_REF_LOCAL_P (operands[0]))
    emit_insn (gen_sym_label2reg (operands[2], operands[0], lab));
  else
    emit_insn (gen_symPLT_label2reg (operands[2], operands[0], lab));
  emit_call_insn (gen_calli_pcrel (operands[2], operands[1], lab));
  DONE;
}"
  [(set_attr "type" "call")
   (set (attr "fp_mode")
        (if_then_else (eq_attr "fpu_single" "yes")
                      (const_string "single") (const_string "double")))
   (set_attr "needs_delay_slot" "yes")
   (set_attr "fp_set" "unknown")])

(define_insn "call_compact"
  [(call (mem:SI (match_operand:SI 0 "arith_reg_operand" "r"))
         (match_operand 1 "" ""))
   (match_operand 2 "immediate_operand" "n")
   (use (reg:SI R0_REG))
   (use (reg:SI R1_REG))
   (use (reg:PSI FPSCR_REG))
   (clobber (reg:SI PR_REG))]
  "TARGET_SHCOMPACT && ! (INTVAL (operands[2]) & CALL_COOKIE_RET_TRAMP (1))"
  "jsr  @%0%#"
  [(set_attr "type" "call")
   (set (attr "fp_mode")
        (if_then_else (eq_attr "fpu_single" "yes")
                      (const_string "single") (const_string "double")))
   (set_attr "needs_delay_slot" "yes")])

(define_insn "call_compact_rettramp"
  [(call (mem:SI (match_operand:SI 0 "arith_reg_operand" "r"))
         (match_operand 1 "" ""))
   (match_operand 2 "immediate_operand" "n")
   (use (reg:SI R0_REG))
   (use (reg:SI R1_REG))
   (use (reg:PSI FPSCR_REG))
   (clobber (reg:SI R10_REG))
   (clobber (reg:SI PR_REG))]
  "TARGET_SHCOMPACT && (INTVAL (operands[2]) & CALL_COOKIE_RET_TRAMP (1))"
  "jsr  @%0%#"
  [(set_attr "type" "call")
   (set (attr "fp_mode")
        (if_then_else (eq_attr "fpu_single" "yes")
                      (const_string "single") (const_string "double")))
   (set_attr "needs_delay_slot" "yes")])

(define_insn "call_media"
  [(call (mem:DI (match_operand 0 "target_reg_operand" "b"))
         (match_operand 1 "" ""))
   (clobber (reg:DI PR_MEDIA_REG))]
  "TARGET_SHMEDIA"
  "blink        %0, r18"
  [(set_attr "type" "jump_media")])

(define_insn "call_valuei"
  [(set (match_operand 0 "" "=rf")
        (call (mem:SI (match_operand:SI 1 "arith_reg_operand" "r"))
              (match_operand 2 "" "")))
   (use (reg:PSI FPSCR_REG))
   (clobber (reg:SI PR_REG))]
  "TARGET_SH1"
  "jsr  @%1%#"
  [(set_attr "type" "call")
   (set (attr "fp_mode")
        (if_then_else (eq_attr "fpu_single" "yes")
                      (const_string "single") (const_string "double")))
   (set_attr "needs_delay_slot" "yes")
   (set_attr "fp_set" "unknown")])

(define_insn "call_valuei_pcrel"
  [(set (match_operand 0 "" "=rf")
        (call (mem:SI (match_operand:SI 1 "arith_reg_operand" "r"))
              (match_operand 2 "" "")))
   (use (reg:PSI FPSCR_REG))
   (use (reg:SI PIC_REG))
   (use (match_operand 3 "" ""))
   (clobber (reg:SI PR_REG))]
  "TARGET_SH2"
  "bsrf %1\\n%O3:%#"
  [(set_attr "type" "call")
   (set (attr "fp_mode")
        (if_then_else (eq_attr "fpu_single" "yes")
                      (const_string "single") (const_string "double")))
   (set_attr "needs_delay_slot" "yes")
   (set_attr "fp_set" "unknown")])

(define_insn_and_split "call_value_pcrel"
  [(set (match_operand 0 "" "=rf")
        (call (mem:SI (match_operand:SI 1 "symbol_ref_operand" ""))
              (match_operand 2 "" "")))
   (use (reg:PSI FPSCR_REG))
   (use (reg:SI PIC_REG))
   (clobber (reg:SI PR_REG))
   (clobber (match_scratch:SI 3 "=r"))]
  "TARGET_SH2"
  "#"
  "reload_completed"
  [(const_int 0)]
  "
{
  rtx lab = PATTERN (gen_call_site ());

  if (SYMBOL_REF_LOCAL_P (operands[1]))
    emit_insn (gen_sym_label2reg (operands[3], operands[1], lab));
  else
    emit_insn (gen_symPLT_label2reg (operands[3], operands[1], lab));
  emit_call_insn (gen_call_valuei_pcrel (operands[0], operands[3],
                                         operands[2], lab));
  DONE;
}"
  [(set_attr "type" "call")
   (set (attr "fp_mode")
        (if_then_else (eq_attr "fpu_single" "yes")
                      (const_string "single") (const_string "double")))
   (set_attr "needs_delay_slot" "yes")
   (set_attr "fp_set" "unknown")])

(define_insn "call_value_compact"
  [(set (match_operand 0 "" "=rf")
        (call (mem:SI (match_operand:SI 1 "arith_reg_operand" "r"))
              (match_operand 2 "" "")))
   (match_operand 3 "immediate_operand" "n")
   (use (reg:SI R0_REG))
   (use (reg:SI R1_REG))
   (use (reg:PSI FPSCR_REG))
   (clobber (reg:SI PR_REG))]
  "TARGET_SHCOMPACT && ! (INTVAL (operands[3]) & CALL_COOKIE_RET_TRAMP (1))"
  "jsr  @%1%#"
  [(set_attr "type" "call")
   (set (attr "fp_mode")
        (if_then_else (eq_attr "fpu_single" "yes")
                      (const_string "single") (const_string "double")))
   (set_attr "needs_delay_slot" "yes")])

(define_insn "call_value_compact_rettramp"
  [(set (match_operand 0 "" "=rf")
        (call (mem:SI (match_operand:SI 1 "arith_reg_operand" "r"))
              (match_operand 2 "" "")))
   (match_operand 3 "immediate_operand" "n")
   (use (reg:SI R0_REG))
   (use (reg:SI R1_REG))
   (use (reg:PSI FPSCR_REG))
   (clobber (reg:SI R10_REG))
   (clobber (reg:SI PR_REG))]
  "TARGET_SHCOMPACT && (INTVAL (operands[3]) & CALL_COOKIE_RET_TRAMP (1))"
  "jsr  @%1%#"
  [(set_attr "type" "call")
   (set (attr "fp_mode")
        (if_then_else (eq_attr "fpu_single" "yes")
                      (const_string "single") (const_string "double")))
   (set_attr "needs_delay_slot" "yes")])

(define_insn "call_value_media"
  [(set (match_operand 0 "" "=rf")
        (call (mem:DI (match_operand 1 "target_reg_operand" "b"))
              (match_operand 2 "" "")))
   (clobber (reg:DI PR_MEDIA_REG))]
  "TARGET_SHMEDIA"
  "blink        %1, r18"
  [(set_attr "type" "jump_media")])

(define_expand "call"
  [(parallel [(call (mem:SI (match_operand 0 "arith_reg_operand" ""))
                            (match_operand 1 "" ""))
              (match_operand 2 "" "")
              (use (reg:PSI FPSCR_REG))
              (clobber (reg:SI PR_REG))])]
  ""
  "
{
  if (TARGET_SHMEDIA)
    {
      operands[0] = shmedia_prepare_call_address (operands[0], 0);
      emit_call_insn (gen_call_media (operands[0], operands[1]));
      DONE;
    }
  else if (TARGET_SHCOMPACT && operands[2] && INTVAL (operands[2]))
    {
      rtx cookie_rtx = operands[2];
      long cookie = INTVAL (cookie_rtx);
      rtx func = XEXP (operands[0], 0);
      rtx r0, r1;

      if (flag_pic)
        {
          if (GET_CODE (func) == SYMBOL_REF && ! SYMBOL_REF_LOCAL_P (func))
            {
              rtx reg = gen_reg_rtx (Pmode);

              emit_insn (gen_symGOTPLT2reg (reg, func));
              func = reg;
            }
          else
            func = legitimize_pic_address (func, Pmode, 0);
        }

      r0 = gen_rtx_REG (SImode, R0_REG);
      r1 = gen_rtx_REG (SImode, R1_REG);

      /* Since such a call function may use all call-clobbered
         registers, we force a mode switch earlier, so that we don't
         run out of registers when adjusting fpscr for the call.  */
      emit_insn (gen_force_mode_for_call ());

      operands[0]
        = function_symbol (NULL, \"__GCC_shcompact_call_trampoline\",
                           SFUNC_GOT);
      operands[0] = force_reg (SImode, operands[0]);

      emit_move_insn (r0, func);
      emit_move_insn (r1, cookie_rtx);

      if (cookie & CALL_COOKIE_RET_TRAMP (1))
        emit_call_insn (gen_call_compact_rettramp (operands[0], operands[1],
                                                   operands[2]));
      else
        emit_call_insn (gen_call_compact (operands[0], operands[1],
                                          operands[2]));

      DONE;
    }
  else if (TARGET_SHCOMPACT && flag_pic
           && GET_CODE (XEXP (operands[0], 0)) == SYMBOL_REF
           && ! SYMBOL_REF_LOCAL_P (XEXP (operands[0], 0)))
    {
      rtx reg = gen_reg_rtx (Pmode);

      emit_insn (gen_symGOTPLT2reg (reg, XEXP (operands[0], 0)));
      XEXP (operands[0], 0) = reg;
    }
  if (flag_pic && TARGET_SH2
      && GET_CODE (operands[0]) == MEM
      && GET_CODE (XEXP (operands[0], 0)) == SYMBOL_REF)
    {
      emit_call_insn (gen_call_pcrel (XEXP (operands[0], 0), operands[1]));
      DONE;
    }
  else
  {
    operands[0] = force_reg (SImode, XEXP (operands[0], 0));
    operands[1] = operands[2];
  }

  emit_call_insn (gen_calli (operands[0], operands[1]));
  DONE;
}")

(define_insn "call_pop_compact"
  [(call (mem:SI (match_operand:SI 0 "arith_reg_operand" "r"))
         (match_operand 1 "" ""))
   (match_operand 2 "immediate_operand" "n")
   (set (reg:SI SP_REG) (plus:SI (reg:SI SP_REG)
                                 (match_operand 3 "immediate_operand" "n")))
   (use (reg:SI R0_REG))
   (use (reg:SI R1_REG))
   (use (reg:PSI FPSCR_REG))
   (clobber (reg:SI PR_REG))]
  "TARGET_SHCOMPACT && ! (INTVAL (operands[2]) & CALL_COOKIE_RET_TRAMP (1))"
  "jsr  @%0%#"
  [(set_attr "type" "call")
   (set (attr "fp_mode")
        (if_then_else (eq_attr "fpu_single" "yes")
                      (const_string "single") (const_string "double")))
   (set_attr "needs_delay_slot" "yes")])

(define_insn "call_pop_compact_rettramp"
  [(call (mem:SI (match_operand:SI 0 "arith_reg_operand" "r"))
         (match_operand 1 "" ""))
   (match_operand 2 "immediate_operand" "n")
   (set (reg:SI SP_REG) (plus:SI (reg:SI SP_REG)
                                 (match_operand 3 "immediate_operand" "n")))
   (use (reg:SI R0_REG))
   (use (reg:SI R1_REG))
   (use (reg:PSI FPSCR_REG))
   (clobber (reg:SI R10_REG))
   (clobber (reg:SI PR_REG))]
  "TARGET_SHCOMPACT && (INTVAL (operands[2]) & CALL_COOKIE_RET_TRAMP (1))"
  "jsr  @%0%#"
  [(set_attr "type" "call")
   (set (attr "fp_mode")
        (if_then_else (eq_attr "fpu_single" "yes")
                      (const_string "single") (const_string "double")))
   (set_attr "needs_delay_slot" "yes")])

(define_expand "call_pop"
  [(parallel [(call (mem:SI (match_operand 0 "arith_reg_operand" ""))
                    (match_operand 1 "" ""))
             (match_operand 2 "" "")
             (set (reg:SI SP_REG) (plus:SI (reg:SI SP_REG)
                                           (match_operand 3 "" "")))])]
  "TARGET_SHCOMPACT"
  "
{
  rtx cookie_rtx;
  long cookie;
  rtx func;
  rtx r0, r1;

  gcc_assert (operands[2] && INTVAL (operands[2]));
  cookie_rtx = operands[2];
  cookie = INTVAL (cookie_rtx);
  func = XEXP (operands[0], 0);

  if (flag_pic)
    {
      if (GET_CODE (func) == SYMBOL_REF && ! SYMBOL_REF_LOCAL_P (func))
        {
          rtx reg = gen_reg_rtx (Pmode);
          emit_insn (gen_symGOTPLT2reg (reg, func));
          func = reg;
        }
      else
        func = legitimize_pic_address (func, Pmode, 0);
    }

  r0 = gen_rtx_REG (SImode, R0_REG);
  r1 = gen_rtx_REG (SImode, R1_REG);

  /* Since such a call function may use all call-clobbered
     registers, we force a mode switch earlier, so that we don't
     run out of registers when adjusting fpscr for the call.  */
  emit_insn (gen_force_mode_for_call ());

  operands[0] = function_symbol (NULL, \"__GCC_shcompact_call_trampoline\",
                                 SFUNC_GOT);
  operands[0] = force_reg (SImode, operands[0]);

  emit_move_insn (r0, func);
  emit_move_insn (r1, cookie_rtx);

  if (cookie & CALL_COOKIE_RET_TRAMP (1))
    emit_call_insn (gen_call_pop_compact_rettramp
                     (operands[0], operands[1], operands[2], operands[3]));
  else
    emit_call_insn (gen_call_pop_compact
                     (operands[0], operands[1], operands[2], operands[3]));

  DONE;
}")

(define_expand "call_value"
  [(parallel [(set (match_operand 0 "arith_reg_operand" "")
                   (call (mem:SI (match_operand 1 "arith_reg_operand" ""))
                                 (match_operand 2 "" "")))
              (match_operand 3 "" "")
              (use (reg:PSI FPSCR_REG))
              (clobber (reg:SI PR_REG))])]
  ""
  "
{
  if (TARGET_SHMEDIA)
    {
      operands[1] = shmedia_prepare_call_address (operands[1], 0);
      emit_call_insn (gen_call_value_media (operands[0], operands[1],
                                            operands[2]));
      DONE;
    }
  else if (TARGET_SHCOMPACT && operands[3] && INTVAL (operands[3]))
    {
      rtx cookie_rtx = operands[3];
      long cookie = INTVAL (cookie_rtx);
      rtx func = XEXP (operands[1], 0);
      rtx r0, r1;

      if (flag_pic)
        {
          if (GET_CODE (func) == SYMBOL_REF && ! SYMBOL_REF_LOCAL_P (func))
            {
              rtx reg = gen_reg_rtx (Pmode);

              emit_insn (gen_symGOTPLT2reg (reg, func));
              func = reg;
            }
          else
            func = legitimize_pic_address (func, Pmode, 0);
        }

      r0 = gen_rtx_REG (SImode, R0_REG);
      r1 = gen_rtx_REG (SImode, R1_REG);

      /* Since such a call function may use all call-clobbered
         registers, we force a mode switch earlier, so that we don't
         run out of registers when adjusting fpscr for the call.  */
      emit_insn (gen_force_mode_for_call ());

      operands[1]
        = function_symbol (NULL, \"__GCC_shcompact_call_trampoline\",
                           SFUNC_GOT);
      operands[1] = force_reg (SImode, operands[1]);

      emit_move_insn (r0, func);
      emit_move_insn (r1, cookie_rtx);

      if (cookie & CALL_COOKIE_RET_TRAMP (1))
        emit_call_insn (gen_call_value_compact_rettramp (operands[0],
                                                         operands[1],
                                                         operands[2],
                                                         operands[3]));
      else
        emit_call_insn (gen_call_value_compact (operands[0], operands[1],
                                                operands[2], operands[3]));

      DONE;
    }
  else if (TARGET_SHCOMPACT && flag_pic
           && GET_CODE (XEXP (operands[1], 0)) == SYMBOL_REF
           && ! SYMBOL_REF_LOCAL_P (XEXP (operands[1], 0)))
    {
      rtx reg = gen_reg_rtx (Pmode);

      emit_insn (gen_symGOTPLT2reg (reg, XEXP (operands[1], 0)));
      XEXP (operands[1], 0) = reg;
    }
  if (flag_pic && TARGET_SH2
      && GET_CODE (operands[1]) == MEM
      && GET_CODE (XEXP (operands[1], 0)) == SYMBOL_REF)
    {
      emit_call_insn (gen_call_value_pcrel (operands[0], XEXP (operands[1], 0),
                                            operands[2]));
      DONE;
    }
  else
    operands[1] = force_reg (SImode, XEXP (operands[1], 0));

  emit_call_insn (gen_call_valuei (operands[0], operands[1], operands[2]));
  DONE;
}")

(define_insn "sibcalli"
  [(call (mem:SI (match_operand:SI 0 "register_operand" "k"))
         (match_operand 1 "" ""))
   (use (reg:PSI FPSCR_REG))
   (return)]
  "TARGET_SH1"
  "jmp  @%0%#"
  [(set_attr "needs_delay_slot" "yes")
   (set (attr "fp_mode")
        (if_then_else (eq_attr "fpu_single" "yes")
                      (const_string "single") (const_string "double")))
   (set_attr "type" "jump_ind")])

(define_insn "sibcalli_pcrel"
  [(call (mem:SI (match_operand:SI 0 "arith_reg_operand" "k"))
         (match_operand 1 "" ""))
   (use (match_operand 2 "" ""))
   (use (reg:PSI FPSCR_REG))
   (return)]
  "TARGET_SH2"
  "braf %0\\n%O2:%#"
  [(set_attr "needs_delay_slot" "yes")
   (set (attr "fp_mode")
        (if_then_else (eq_attr "fpu_single" "yes")
                      (const_string "single") (const_string "double")))
   (set_attr "type" "jump_ind")])

;; This uses an unspec to describe that the symbol_ref is very close.
(define_insn "sibcalli_thunk"
  [(call (mem:SI (unspec:SI [(match_operand:SI 0 "symbol_ref_operand" "")]
                             UNSPEC_THUNK))
         (match_operand 1 "" ""))
   (use (reg:PSI FPSCR_REG))
   (return)]
  "TARGET_SH1"
  "bra  %O0"
  [(set_attr "needs_delay_slot" "yes")
   (set (attr "fp_mode")
        (if_then_else (eq_attr "fpu_single" "yes")
                      (const_string "single") (const_string "double")))
   (set_attr "type" "jump")
   (set_attr "length" "2")])

(define_insn_and_split "sibcall_pcrel"
  [(call (mem:SI (match_operand:SI 0 "symbol_ref_operand" ""))
         (match_operand 1 "" ""))
   (use (reg:PSI FPSCR_REG))
   (clobber (match_scratch:SI 2 "=k"))
   (return)]
  "TARGET_SH2"
  "#"
  "reload_completed"
  [(const_int 0)]
  "
{
  rtx lab = PATTERN (gen_call_site ());
  rtx call_insn;

  emit_insn (gen_sym_label2reg (operands[2], operands[0], lab));
  call_insn = emit_call_insn (gen_sibcalli_pcrel (operands[2], operands[1],
                                                  lab));
  SIBLING_CALL_P (call_insn) = 1;
  DONE;
}"
  [(set_attr "needs_delay_slot" "yes")
   (set (attr "fp_mode")
        (if_then_else (eq_attr "fpu_single" "yes")
                      (const_string "single") (const_string "double")))
   (set_attr "type" "jump_ind")])

(define_insn "sibcall_compact"
  [(call (mem:SI (match_operand:SI 0 "register_operand" "k,k"))
         (match_operand 1 "" ""))
   (return)
   (use (match_operand:SI 2 "register_operand" "z,x"))
   (use (reg:SI R1_REG))
   (use (reg:PSI FPSCR_REG))
   ;; We want to make sure the `x' above will only match MACH_REG
   ;; because sibcall_epilogue may clobber MACL_REG.
   (clobber (reg:SI MACL_REG))]
  "TARGET_SHCOMPACT"
  "@
        jmp     @%0%#
        jmp     @%0\\n  sts     %2, r0"
  [(set_attr "needs_delay_slot" "yes,no")
   (set_attr "length" "2,4")
   (set (attr "fp_mode") (const_string "single"))
   (set_attr "type" "jump_ind")])

(define_insn "sibcall_media"
  [(call (mem:DI (match_operand 0 "target_reg_operand" "k"))
         (match_operand 1 "" ""))
   (use (reg:SI PR_MEDIA_REG))
   (return)]
  "TARGET_SHMEDIA"
  "blink        %0, r63"
  [(set_attr "type" "jump_media")])

(define_expand "sibcall"
  [(parallel
    [(call (mem:SI (match_operand 0 "arith_reg_operand" ""))
           (match_operand 1 "" ""))
     (match_operand 2 "" "")
     (use (reg:PSI FPSCR_REG))
     (return)])]
  ""
  "
{
  if (TARGET_SHMEDIA)
    {
      operands[0] = shmedia_prepare_call_address (operands[0], 1);
      emit_call_insn (gen_sibcall_media (operands[0], operands[1]));
      DONE;
    }
  else if (TARGET_SHCOMPACT && operands[2]
           && (INTVAL (operands[2]) & ~ CALL_COOKIE_RET_TRAMP (1)))
    {
      rtx cookie_rtx = operands[2];
      long cookie = INTVAL (cookie_rtx);
      rtx func = XEXP (operands[0], 0);
      rtx mach, r1;

      if (flag_pic)
        {
          if (GET_CODE (func) == SYMBOL_REF && ! SYMBOL_REF_LOCAL_P (func))
            {
              rtx reg = gen_reg_rtx (Pmode);

              emit_insn (gen_symGOT2reg (reg, func));
              func = reg;
            }
          else
            func = legitimize_pic_address (func, Pmode, 0);
        }

      /* FIXME: if we could tell whether all argument registers are
         already taken, we could decide whether to force the use of
         MACH_REG or to stick to R0_REG.  Unfortunately, there's no
         simple way to tell.  We could use the CALL_COOKIE, but we
         can't currently tell a register used for regular argument
         passing from one that is unused.  If we leave it up to reload
         to decide which register to use, it seems to always choose
         R0_REG, which leaves no available registers in SIBCALL_REGS
         to hold the address of the trampoline.  */
      mach = gen_rtx_REG (SImode, MACH_REG);
      r1 = gen_rtx_REG (SImode, R1_REG);

      /* Since such a call function may use all call-clobbered
         registers, we force a mode switch earlier, so that we don't
         run out of registers when adjusting fpscr for the call.  */
      emit_insn (gen_force_mode_for_call ());

      operands[0]
        = function_symbol (NULL, \"__GCC_shcompact_call_trampoline\",
                           SFUNC_GOT);
      operands[0] = force_reg (SImode, operands[0]);

      /* We don't need a return trampoline, since the callee will
         return directly to the upper caller.  */
      if (cookie & CALL_COOKIE_RET_TRAMP (1))
        {
          cookie &= ~ CALL_COOKIE_RET_TRAMP (1);
          cookie_rtx = GEN_INT (cookie);
        }

      emit_move_insn (mach, func);
      emit_move_insn (r1, cookie_rtx);

      emit_call_insn (gen_sibcall_compact (operands[0], operands[1], mach));
      DONE;
    }
  else if (TARGET_SHCOMPACT && flag_pic
           && GET_CODE (XEXP (operands[0], 0)) == SYMBOL_REF
           && ! SYMBOL_REF_LOCAL_P (XEXP (operands[0], 0)))
    {
      rtx reg = gen_reg_rtx (Pmode);

      emit_insn (gen_symGOT2reg (reg, XEXP (operands[0], 0)));
      XEXP (operands[0], 0) = reg;
    }
  if (flag_pic && TARGET_SH2
      && GET_CODE (operands[0]) == MEM
      && GET_CODE (XEXP (operands[0], 0)) == SYMBOL_REF
      /* The PLT needs the PIC register, but the epilogue would have
         to restore it, so we can only use PC-relative PIC calls for
         static functions.  */
      && SYMBOL_REF_LOCAL_P (XEXP (operands[0], 0)))
    {
      emit_call_insn (gen_sibcall_pcrel (XEXP (operands[0], 0), operands[1]));
      DONE;
    }
  else
    operands[0] = force_reg (SImode, XEXP (operands[0], 0));

  emit_call_insn (gen_sibcalli (operands[0], operands[1]));
  DONE;
}")

(define_expand "sibcall_value"
  [(set (match_operand 0 "" "")
        (call (match_operand 1 "" "")
              (match_operand 2 "" "")))
   (match_operand 3 "" "")]
  ""
  "
{
  emit_call_insn (gen_sibcall (operands[1], operands[2], operands[3]));
  DONE;
}")

(define_insn "call_value_pop_compact"
  [(set (match_operand 0 "" "=rf")
        (call (mem:SI (match_operand:SI 1 "arith_reg_operand" "r"))
              (match_operand 2 "" "")))
   (set (reg:SI SP_REG) (plus:SI (reg:SI SP_REG)
                                 (match_operand 4 "immediate_operand" "n")))
   (match_operand 3 "immediate_operand" "n")
   (use (reg:SI R0_REG))
   (use (reg:SI R1_REG))
   (use (reg:PSI FPSCR_REG))
   (clobber (reg:SI PR_REG))]
  "TARGET_SHCOMPACT && ! (INTVAL (operands[3]) & CALL_COOKIE_RET_TRAMP (1))"
  "jsr  @%1%#"
  [(set_attr "type" "call")
   (set (attr "fp_mode")
        (if_then_else (eq_attr "fpu_single" "yes")
                      (const_string "single") (const_string "double")))
   (set_attr "needs_delay_slot" "yes")])

(define_insn "call_value_pop_compact_rettramp"
  [(set (match_operand 0 "" "=rf")
        (call (mem:SI (match_operand:SI 1 "arith_reg_operand" "r"))
              (match_operand 2 "" "")))
   (set (reg:SI SP_REG) (plus:SI (reg:SI SP_REG)
                                 (match_operand 4 "immediate_operand" "n")))
   (match_operand 3 "immediate_operand" "n")
   (use (reg:SI R0_REG))
   (use (reg:SI R1_REG))
   (use (reg:PSI FPSCR_REG))
   (clobber (reg:SI R10_REG))
   (clobber (reg:SI PR_REG))]
  "TARGET_SHCOMPACT && (INTVAL (operands[3]) & CALL_COOKIE_RET_TRAMP (1))"
  "jsr  @%1%#"
  [(set_attr "type" "call")
   (set (attr "fp_mode")
        (if_then_else (eq_attr "fpu_single" "yes")
                      (const_string "single") (const_string "double")))
   (set_attr "needs_delay_slot" "yes")])

(define_expand "call_value_pop"
  [(parallel [(set (match_operand 0 "arith_reg_operand" "")
                   (call (mem:SI (match_operand 1 "arith_reg_operand" ""))
                                 (match_operand 2 "" "")))
              (match_operand 3 "" "")
              (set (reg:SI SP_REG) (plus:SI (reg:SI SP_REG)
                                            (match_operand 4 "" "")))])]
  "TARGET_SHCOMPACT"
  "
{
  rtx cookie_rtx;
  long cookie;
  rtx func;
  rtx r0, r1;

  gcc_assert (TARGET_SHCOMPACT && operands[3] && INTVAL (operands[3]));
  cookie_rtx = operands[3];
  cookie = INTVAL (cookie_rtx);
  func = XEXP (operands[1], 0);

  if (flag_pic)
    {
      if (GET_CODE (func) == SYMBOL_REF && ! SYMBOL_REF_LOCAL_P (func))
        {
          rtx reg = gen_reg_rtx (Pmode);

          emit_insn (gen_symGOTPLT2reg (reg, func));
          func = reg;
        }
      else
        func = legitimize_pic_address (func, Pmode, 0);
    }

  r0 = gen_rtx_REG (SImode, R0_REG);
  r1 = gen_rtx_REG (SImode, R1_REG);

  /* Since such a call function may use all call-clobbered
     registers, we force a mode switch earlier, so that we don't
     run out of registers when adjusting fpscr for the call.  */
  emit_insn (gen_force_mode_for_call ());

  operands[1] = function_symbol (NULL, \"__GCC_shcompact_call_trampoline\",
                                 SFUNC_GOT);
  operands[1] = force_reg (SImode, operands[1]);

  emit_move_insn (r0, func);
  emit_move_insn (r1, cookie_rtx);

  if (cookie & CALL_COOKIE_RET_TRAMP (1))
    emit_call_insn (gen_call_value_pop_compact_rettramp
                        (operands[0], operands[1], operands[2],
                         operands[3], operands[4]));
  else
    emit_call_insn (gen_call_value_pop_compact
                        (operands[0], operands[1], operands[2],
                         operands[3], operands[4]));

  DONE;
}")

(define_expand "sibcall_epilogue"
  [(return)]
  ""
  "
{
  sh_expand_epilogue (1);
  if (TARGET_SHCOMPACT)
    {
      rtx insn, set;

      /* If epilogue clobbers r0, preserve it in macl.  */
      for (insn = get_insns (); insn; insn = NEXT_INSN (insn))
        if ((set = single_set (insn))
            && GET_CODE (SET_DEST (set)) == REG
            && REGNO (SET_DEST (set)) == R0_REG)
          {
            rtx r0 = gen_rtx_REG (SImode, R0_REG);
            rtx tmp = gen_rtx_REG (SImode, MACL_REG);
            rtx i;

            /* We can't tell at this point whether the sibcall is a
               sibcall_compact and, if it is, whether it uses r0 or
               mach as operand 2, so let the instructions that
               preserve r0 be optimized away if r0 turns out to be
               dead.  */
            i = emit_insn_before (gen_rtx_SET (SImode, tmp, r0), insn);
            REG_NOTES (i) = gen_rtx_EXPR_LIST (REG_MAYBE_DEAD, const0_rtx,
                                               REG_NOTES (i));
            i = emit_move_insn (r0, tmp);
            REG_NOTES (i) = gen_rtx_EXPR_LIST (REG_MAYBE_DEAD, const0_rtx,
                                               REG_NOTES (i));
            break;
          }
    }
  DONE;
}")

(define_insn "indirect_jump_compact"
  [(set (pc)
        (match_operand:SI 0 "arith_reg_operand" "r"))]
  "TARGET_SH1"
  "jmp  @%0%#"
  [(set_attr "needs_delay_slot" "yes")
   (set_attr "type" "jump_ind")])

(define_expand "indirect_jump"
  [(set (pc)
        (match_operand 0 "register_operand" ""))]
  ""
  "
{
  if (GET_MODE (operands[0]) != Pmode)
    operands[0] = gen_rtx_SUBREG (Pmode, operands[0], 0);
}")

;; The use of operand 1 / 2 helps us distinguish case table jumps
;; which can be present in structured code from indirect jumps which can not
;; be present in structured code.  This allows -fprofile-arcs to work.

;; For SH1 processors.
(define_insn "casesi_jump_1"
  [(set (pc)
        (match_operand:SI 0 "register_operand" "r"))
   (use (label_ref (match_operand 1 "" "")))]
  "TARGET_SH1"
  "jmp  @%0%#"
  [(set_attr "needs_delay_slot" "yes")
   (set_attr "type" "jump_ind")])

;; For all later processors.
(define_insn "casesi_jump_2"
  [(set (pc) (plus:SI (match_operand:SI 0 "register_operand" "r")
                      (label_ref (match_operand 1 "" ""))))
   (use (label_ref (match_operand 2 "" "")))]
  "TARGET_SH2
   && (! INSN_UID (operands[1]) || prev_real_insn (operands[1]) == insn)"
  "braf %0%#"
  [(set_attr "needs_delay_slot" "yes")
   (set_attr "type" "jump_ind")])

(define_insn "casesi_jump_media"
  [(set (pc) (match_operand 0 "target_reg_operand" "b"))
   (use (label_ref (match_operand 1 "" "")))]
  "TARGET_SHMEDIA"
  "blink        %0, r63"
  [(set_attr "type" "jump_media")])

;; Call subroutine returning any type.
;; ??? This probably doesn't work.

(define_expand "untyped_call"
  [(parallel [(call (match_operand 0 "" "")
                    (const_int 0))
              (match_operand 1 "" "")
              (match_operand 2 "" "")])]
  "(TARGET_SH2E || TARGET_SH2A) || TARGET_SHMEDIA"
  "
{
  int i;

  emit_call_insn (gen_call (operands[0], const0_rtx, const0_rtx));

  for (i = 0; i < XVECLEN (operands[2], 0); i++)
    {
      rtx set = XVECEXP (operands[2], 0, i);
      emit_move_insn (SET_DEST (set), SET_SRC (set));
    }

  /* The optimizer does not know that the call sets the function value
     registers we stored in the result block.  We avoid problems by
     claiming that all hard registers are used and clobbered at this
     point.  */
  emit_insn (gen_blockage ());

  DONE;
}")

;; ------------------------------------------------------------------------
;; Misc insns
;; ------------------------------------------------------------------------

(define_insn "dect"
  [(set (reg:SI T_REG)
        (eq:SI (match_operand:SI 0 "arith_reg_dest" "+r") (const_int 1)))
   (set (match_dup 0) (plus:SI (match_dup 0) (const_int -1)))]
  "TARGET_SH2"
  "dt   %0"
  [(set_attr "type" "arith")])

(define_insn "nop"
  [(const_int 0)]
  ""
  "nop")

;; Load address of a label. This is only generated by the casesi expand,
;; and by machine_dependent_reorg (fixing up fp moves).
;; This must use unspec, because this only works for labels that are
;; within range,

(define_insn "mova"
  [(set (reg:SI R0_REG)
        (unspec:SI [(label_ref (match_operand 0 "" ""))] UNSPEC_MOVA))]
  "TARGET_SH1"
  "mova %O0,r0"
  [(set_attr "in_delay_slot" "no")
   (set_attr "type" "arith")])

;; machine_dependent_reorg will make this a `mova'.
(define_insn "mova_const"
  [(set (reg:SI R0_REG)
        (unspec:SI [(match_operand 0 "immediate_operand" "i")] UNSPEC_MOVA))]
  "TARGET_SH1"
  "#"
  [(set_attr "in_delay_slot" "no")
   (set_attr "type" "arith")])

(define_expand "GOTaddr2picreg"
  [(set (reg:SI R0_REG)
        (unspec:SI [(const:SI (unspec:SI [(match_dup 1)] UNSPEC_PIC))]
                   UNSPEC_MOVA))
   (set (match_dup 0) (const:SI (unspec:SI [(match_dup 1)] UNSPEC_PIC)))
   (set (match_dup 0) (plus:SI (match_dup 0) (reg:SI R0_REG)))]
  "" "
{
  operands[0] = gen_rtx_REG (Pmode, PIC_REG);
  operands[1] = gen_rtx_SYMBOL_REF (VOIDmode, GOT_SYMBOL_NAME);

  if (TARGET_SHMEDIA)
    {
      rtx tr = gen_rtx_REG (Pmode, TR0_REG);
      rtx pic = operands[0];
      rtx lab = PATTERN (gen_call_site ());
      rtx insn, equiv;

      equiv = operands[1];
      operands[1] = gen_rtx_MINUS (Pmode,
                                   operands[1],
                                   gen_rtx_CONST
                                   (Pmode,
                                    gen_rtx_MINUS (Pmode,
                                                   gen_rtx_CONST (Pmode,
                                                                  lab),
                                                   pc_rtx)));
      operands[1] = gen_sym2PIC (operands[1]);
      PUT_MODE (operands[1], Pmode);

      if (Pmode == SImode)
        {
          emit_insn (gen_movsi_const (pic, operands[1]));
          emit_insn (gen_ptrel_si (tr, pic, lab));
        }
      else
        {
          emit_insn (gen_movdi_const (pic, operands[1]));
          emit_insn (gen_ptrel_di (tr, pic, lab));
        }

      insn = emit_move_insn (operands[0], tr);

      REG_NOTES (insn) = gen_rtx_EXPR_LIST (REG_EQUAL, equiv,
                                            REG_NOTES (insn));

      DONE;
    }
}
")

(define_insn "*ptb"
  [(set (match_operand 0 "target_reg_operand" "=b")
        (const (unspec [(match_operand 1 "" "Csy")]
                             UNSPEC_DATALABEL)))]
  "TARGET_SHMEDIA && flag_pic
   && EXTRA_CONSTRAINT_Csy (operands[1])"
  "ptb/u        datalabel %1, %0"
  [(set_attr "type" "ptabs_media")
   (set_attr "length" "*")])

(define_insn "ptrel_si"
  [(set (match_operand:SI 0 "target_reg_operand" "=b")
        (plus:SI (match_operand:SI 1 "register_operand" "r")
              (pc)))
   (match_operand:SI 2 "" "")]
  "TARGET_SHMEDIA"
  "%O2: ptrel/u %1, %0"
  [(set_attr "type" "ptabs_media")])

(define_insn "ptrel_di"
  [(set (match_operand:DI 0 "target_reg_operand" "=b")
        (plus:DI (match_operand:DI 1 "register_operand" "r")
              (pc)))
   (match_operand:DI 2 "" "")]
  "TARGET_SHMEDIA"
  "%O2: ptrel/u %1, %0"
  [(set_attr "type" "ptabs_media")])

(define_expand "builtin_setjmp_receiver"
  [(match_operand 0 "" "")]
  "flag_pic"
  "
{
  emit_insn (gen_GOTaddr2picreg ());
  DONE;
}")

(define_expand "call_site"
  [(unspec [(match_dup 0)] UNSPEC_CALLER)]
  "TARGET_SH1"
  "
{
  static HOST_WIDE_INT i = 0;
  operands[0] = GEN_INT (i);
  i++;
}")

(define_expand "sym_label2reg"
  [(set (match_operand:SI 0 "" "")
        (const:SI (minus:SI
                   (const:SI
                    (unspec:SI [(match_operand:SI 1 "" "")] UNSPEC_PIC))
                   (const:SI
                    (plus:SI
                     (match_operand:SI 2 "" "")
                     (const_int 2))))))]
  "TARGET_SH1" "")

(define_expand "symGOT_load"
  [(set (match_dup 2) (match_operand 1 "" ""))
   (set (match_dup 3) (plus (match_dup 2) (reg PIC_REG)))
   (set (match_operand 0 "" "") (mem (match_dup 3)))]
  ""
  "
{
  rtx insn, mem;

  operands[2] = no_new_pseudos ? operands[0] : gen_reg_rtx (Pmode);
  operands[3] = no_new_pseudos ? operands[0] : gen_reg_rtx (Pmode);

  if (TARGET_SHMEDIA)
    {
      rtx reg = operands[2];

      if (Pmode == DImode)
        {      
          if (flag_pic > 1)
            emit_insn (gen_movdi_const_32bit (reg, operands[1]));
          else
            emit_insn (gen_movdi_const_16bit (reg, operands[1]));
        }
      else
        {
          if (flag_pic > 1)
            emit_insn (gen_movsi_const (reg, operands[1]));
          else
            emit_insn (gen_movsi_const_16bit (reg, operands[1]));
        }
    }
  else
    emit_move_insn (operands[2], operands[1]);

  emit_move_insn (operands[3], gen_rtx_PLUS (Pmode,
                                             operands[2],
                                             gen_rtx_REG (Pmode, PIC_REG)));

  /* When stack protector inserts codes after the result is set to
     R0, @(rX, r12) will cause a spill failure for R0.  Don't schedule
     insns to avoid combining (set A (plus rX r12)) and (set op0 (mem A))
     when rX is a GOT address for the guard symbol.  Ugly but doesn't
     matter because this is a rare situation.  */
  if (!TARGET_SHMEDIA
      && flag_stack_protect
      && GET_CODE (operands[1]) == CONST
      && GET_CODE (XEXP (operands[1], 0)) == UNSPEC
      && GET_CODE (XVECEXP (XEXP (operands[1], 0), 0, 0)) == SYMBOL_REF
      && strcmp (XSTR (XVECEXP (XEXP (operands[1], 0), 0, 0), 0),
                 \"__stack_chk_guard\") == 0)
    emit_insn (gen_blockage ());

  /* N.B. This is not constant for a GOTPLT relocation.  */
  mem = gen_rtx_MEM (Pmode, operands[3]);
  MEM_NOTRAP_P (mem) = 1;
  /* ??? Should we have a special alias set for the GOT?  */
  insn = emit_move_insn (operands[0], mem);

  REG_NOTES (insn) = gen_rtx_EXPR_LIST (REG_EQUAL, XVECEXP (XEXP (operands[1],
                                                                  0), 0, 0),
                                        REG_NOTES (insn));

  DONE;
}")

(define_expand "sym2GOT"
  [(const (unspec [(match_operand 0 "" "")] UNSPEC_GOT))]
  ""
  "")

(define_expand "symGOT2reg"
  [(match_operand 0 "" "") (match_operand 1 "" "")]
  ""
  "
{
  rtx gotsym, insn;

  gotsym = gen_sym2GOT (operands[1]);
  PUT_MODE (gotsym, Pmode);
  insn = emit_insn (gen_symGOT_load (operands[0], gotsym));

  MEM_READONLY_P (SET_SRC (PATTERN (insn))) = 1;

  DONE;
}")

(define_expand "symGOTPLT2reg"
  [(match_operand 0 "" "") (match_operand 1 "" "")]
  ""
  "
{
  rtx pltsym = gen_rtx_CONST (Pmode,
                              gen_rtx_UNSPEC (Pmode,
                                              gen_rtvec (1, operands[1]),
                                              UNSPEC_GOTPLT));
  emit_insn (gen_symGOT_load (operands[0], pltsym));
  DONE;
}")

(define_expand "sym2GOTOFF"
  [(const (unspec [(match_operand 0 "" "")] UNSPEC_GOTOFF))]
  ""
  "")

(define_expand "symGOTOFF2reg"
  [(match_operand 0 "" "") (match_operand 1 "" "")]
  ""
  "
{
  rtx gotoffsym, insn;
  rtx t = no_new_pseudos ? operands[0] : gen_reg_rtx (GET_MODE (operands[0]));

  gotoffsym = gen_sym2GOTOFF (operands[1]);
  PUT_MODE (gotoffsym, Pmode);
  emit_move_insn (t, gotoffsym);
  insn = emit_move_insn (operands[0],
                         gen_rtx_PLUS (Pmode, t,
                                       gen_rtx_REG (Pmode, PIC_REG)));

  REG_NOTES (insn) = gen_rtx_EXPR_LIST (REG_EQUAL, operands[1],
                                        REG_NOTES (insn));

  DONE;
}")

(define_expand "symPLT_label2reg"
  [(set (match_operand:SI 0 "" "")
        (const:SI (minus:SI
                   (const:SI
                    (unspec:SI [(match_operand:SI 1 "" "")] UNSPEC_PLT))
                   (const:SI
                    (minus:SI
                     (const:SI (plus:SI
                                (match_operand:SI 2 "" "")
                                (const_int 2)))
                     (const:SI (unspec:SI [(pc)] UNSPEC_PIC)))))))
   ;; Even though the PIC register is not really used by the call
   ;; sequence in which this is expanded, the PLT code assumes the PIC
   ;; register is set, so we must not skip its initialization.  Since
   ;; we only use this expand as part of calling sequences, and never
   ;; to take the address of a function, this is the best point to
   ;; insert the (use).  Using the PLT to take the address of a
   ;; function would be wrong, not only because the PLT entry could
   ;; then be called from a function that doesn't initialize the PIC
   ;; register to the proper GOT, but also because pointers to the
   ;; same function might not compare equal, should they be set by
   ;; different shared libraries.
   (use (reg:SI PIC_REG))]
  "TARGET_SH1"
  "")

(define_expand "sym2PIC"
  [(const (unspec [(match_operand:SI 0 "" "")] UNSPEC_PIC))]
  ""
  "")

;; TLS code generation.
;; ??? this should be a define_insn_and_split
;; See the thread [PATCH/RFA] SH TLS support on gcc-patches
;; <http://gcc.gnu.org/ml/gcc-patches/2003-02/msg01898.html>
;; for details.

(define_insn "tls_global_dynamic"
  [(set (match_operand:SI 0 "register_operand" "=&z")
        (call:SI (mem:SI (unspec:SI [(match_operand:SI 1 "" "")]
                                  UNSPEC_TLSGD))
              (const_int 0)))
   (use (reg:PSI FPSCR_REG))
   (use (reg:SI PIC_REG))
   (clobber (reg:SI PR_REG))
   (clobber (scratch:SI))]
  "TARGET_SH1"
  "*
{
  return \"\\
mov.l\\t1f,r4\\n\\
\\tmova\\t2f,r0\\n\\
\\tmov.l\\t2f,r1\\n\\
\\tadd\\tr0,r1\\n\\
\\tjsr\\t@r1\\n\\
\\tadd\\tr12,r4\\n\\
\\tbra\\t3f\\n\\
\\tnop\\n\\
\\t.align\\t2\\n\\
1:\\t.long\\t%a1@TLSGD\\n\\
2:\\t.long\\t__tls_get_addr@PLT\\n\\
3:\";
}"
  [(set_attr "type" "tls_load")
   (set_attr "length" "26")])

(define_insn "tls_local_dynamic"
  [(set (match_operand:SI 0 "register_operand" "=&z")
        (call:SI (mem:SI (unspec:SI [(match_operand:SI 1 "" "")]
                                  UNSPEC_TLSLDM))
              (const_int 0)))
   (use (reg:PSI FPSCR_REG))
   (use (reg:SI PIC_REG))
   (clobber (reg:SI PR_REG))
   (clobber (scratch:SI))]
  "TARGET_SH1"
  "*
{
  return \"\\
mov.l\\t1f,r4\\n\\
\\tmova\\t2f,r0\\n\\
\\tmov.l\\t2f,r1\\n\\
\\tadd\\tr0,r1\\n\\
\\tjsr\\t@r1\\n\\
\\tadd\\tr12,r4\\n\\
\\tbra\\t3f\\n\\
\\tnop\\n\\
\\t.align\\t2\\n\\
1:\\t.long\\t%a1@TLSLDM\\n\\
2:\\t.long\\t__tls_get_addr@PLT\\n\\
3:\";
}"
  [(set_attr "type" "tls_load")
   (set_attr "length" "26")])

(define_expand "sym2DTPOFF"
  [(const (unspec [(match_operand 0 "" "")] UNSPEC_DTPOFF))]
  ""
  "")

(define_expand "symDTPOFF2reg"
  [(match_operand 0 "" "") (match_operand 1 "" "") (match_operand 2 "" "")]
  ""
  "
{
  rtx dtpoffsym, insn;
  rtx t = no_new_pseudos ? operands[0] : gen_reg_rtx (GET_MODE (operands[0]));

  dtpoffsym = gen_sym2DTPOFF (operands[1]);
  PUT_MODE (dtpoffsym, Pmode);
  emit_move_insn (t, dtpoffsym);
  insn = emit_move_insn (operands[0],
                         gen_rtx_PLUS (Pmode, t, operands[2]));
  DONE;
}")

(define_expand "sym2GOTTPOFF"
  [(const (unspec [(match_operand 0 "" "")] UNSPEC_GOTTPOFF))]
  ""
  "")

(define_insn "tls_initial_exec"
  [(set (match_operand:SI 0 "register_operand" "=&r")
        (unspec:SI [(match_operand:SI 1 "" "")]
                    UNSPEC_TLSIE))
   (use (reg:SI GBR_REG))
   (use (reg:SI PIC_REG))
   (clobber (reg:SI R0_REG))]
  ""
  "*
{
  return \"\\
mov.l\\t1f,r0\\n\\
\\tstc\\tgbr,%0\\n\\
\\tmov.l\\t@(r0,r12),r0\\n\\
\\tbra\\t2f\\n\\
\\tadd\\tr0,%0\\n\\
\\t.align\\t2\\n\\
1:\\t.long\\t%a1\\n\\
2:\";
}"
  [(set_attr "type" "tls_load")
   (set_attr "length" "16")])

(define_expand "sym2TPOFF"
  [(const (unspec [(match_operand 0 "" "")] UNSPEC_TPOFF))]
  ""
  "")

(define_expand "symTPOFF2reg"
  [(match_operand 0 "" "") (match_operand 1 "" "")]
  ""
  "
{
  rtx tpoffsym, insn;

  tpoffsym = gen_sym2TPOFF (operands[1]);
  PUT_MODE (tpoffsym, Pmode);
  insn = emit_move_insn (operands[0], tpoffsym);
  DONE;
}")

(define_insn "load_gbr"
  [(set (match_operand:SI 0 "register_operand" "") (reg:SI GBR_REG))
   (use (reg:SI GBR_REG))]
  ""
  "stc  gbr,%0"
  [(set_attr "type" "tls_load")])

;; case instruction for switch statements.

;; Operand 0 is index
;; operand 1 is the minimum bound
;; operand 2 is the maximum bound - minimum bound + 1
;; operand 3 is CODE_LABEL for the table;
;; operand 4 is the CODE_LABEL to go to if index out of range.

(define_expand "casesi"
  [(match_operand:SI 0 "arith_reg_operand" "")
   (match_operand:SI 1 "arith_reg_operand" "")
   (match_operand:SI 2 "arith_reg_operand" "")
   (match_operand 3 "" "") (match_operand 4 "" "")]
  ""
  "
{
  rtx reg = gen_reg_rtx (SImode);
  rtx reg2 = gen_reg_rtx (SImode);
  if (TARGET_SHMEDIA)
    {
      rtx reg = gen_reg_rtx (DImode);
      rtx reg2 = gen_reg_rtx (DImode);
      rtx reg3 = gen_reg_rtx (Pmode);
      rtx reg4 = gen_reg_rtx (Pmode);
      rtx reg5 = gen_reg_rtx (Pmode);
      rtx load;

      operands[0] = convert_modes (DImode, SImode, operands[0], 0);
      operands[1] = convert_modes (DImode, SImode, operands[1], 0);
      operands[2] = convert_modes (DImode, SImode, operands[2], 1);

      emit_jump_insn (gen_bgt_media (operands[4], operands[1], operands[0]));
      emit_move_insn (reg, gen_rtx_MINUS (DImode, operands[0], operands[1]));
      emit_jump_insn (gen_bgtu_media (operands[4], reg, operands[2]));
      emit_insn (gen_casesi_shift_media (reg2, reg, operands[3]));
      emit_move_insn (reg3, gen_datalabel_ref (gen_rtx_LABEL_REF
                                               (Pmode, operands[3])));
      /* Messy: can we subreg to clean this up? */
      if (Pmode == DImode)
        load = gen_casesi_load_media (reg4, reg3, reg2, operands[3]);
      else
        load = gen_casesi_load_media (reg4,
                                      gen_rtx_SUBREG (DImode, reg3, 0),
                                      reg2, operands[3]);
      PUT_MODE (SET_SRC (load), Pmode);
      emit_insn (load);
      /* ??? The following add could be eliminated if we used ptrel.  */
      emit_move_insn (reg5, gen_rtx_PLUS (Pmode, reg3, reg4));
      emit_jump_insn (gen_casesi_jump_media (reg5, operands[3]));
      emit_barrier ();
      DONE;
    }
  operands[1] = copy_to_mode_reg (SImode, operands[1]);
  operands[2] = copy_to_mode_reg (SImode, operands[2]);
  /* If optimizing, casesi_worker depends on the mode of the instruction
     before label it 'uses' - operands[3].  */
  emit_insn (gen_casesi_0 (operands[0], operands[1], operands[2], operands[4],
                           reg));
  emit_insn (gen_casesi_worker_0 (reg2, reg, operands[3]));
  if (TARGET_SH2)
    emit_jump_insn (gen_casesi_jump_2 (reg2, gen_label_rtx (), operands[3]));
  else
    emit_jump_insn (gen_casesi_jump_1 (reg2, operands[3]));
  /* For SH2 and newer, the ADDR_DIFF_VEC is not actually relative to
     operands[3], but to lab.  We will fix this up in
     machine_dependent_reorg.  */
  emit_barrier ();
  DONE;
}")

(define_expand "casesi_0"
  [(set (match_operand:SI 4 "" "") (match_operand:SI 0 "arith_reg_operand" ""))
   (set (match_dup 4) (minus:SI (match_dup 4)
                                (match_operand:SI 1 "arith_operand" "")))
   (set (reg:SI T_REG)
        (gtu:SI (match_dup 4)
                (match_operand:SI 2 "arith_reg_operand" "")))
   (set (pc)
        (if_then_else (ne (reg:SI T_REG)
                          (const_int 0))
                      (label_ref (match_operand 3 "" ""))
                      (pc)))]
  "TARGET_SH1"
  "")

;; ??? reload might clobber r0 if we use it explicitly in the RTL before
;; reload; using a R0_REGS pseudo reg is likely to give poor code.
;; So we keep the use of r0 hidden in a R0_REGS clobber until after reload.

(define_insn "casesi_worker_0"
  [(set (match_operand:SI 0 "register_operand" "=r,r")
        (unspec:SI [(match_operand:SI 1 "register_operand" "0,r")
                 (label_ref (match_operand 2 "" ""))] UNSPEC_CASESI))
   (clobber (match_scratch:SI 3 "=X,1"))
   (clobber (match_scratch:SI 4 "=&z,z"))]
  "TARGET_SH1"
  "#")

(define_split
  [(set (match_operand:SI 0 "register_operand" "")
        (unspec:SI [(match_operand:SI 1 "register_operand" "")
                    (label_ref (match_operand 2 "" ""))] UNSPEC_CASESI))
   (clobber (match_scratch:SI 3 ""))
   (clobber (match_scratch:SI 4 ""))]
  "TARGET_SH1 && ! TARGET_SH2 && reload_completed"
  [(set (reg:SI R0_REG) (unspec:SI [(label_ref (match_dup 2))] UNSPEC_MOVA))
   (parallel [(set (match_dup 0)
              (unspec:SI [(reg:SI R0_REG) (match_dup 1)
                          (label_ref (match_dup 2))] UNSPEC_CASESI))
              (clobber (match_dup 3))])
   (set (match_dup 0) (plus:SI (match_dup 0) (reg:SI R0_REG)))]
  "if (GET_CODE (operands[2]) == CODE_LABEL) LABEL_NUSES (operands[2])++;")

(define_split
  [(set (match_operand:SI 0 "register_operand" "")
        (unspec:SI [(match_operand:SI 1 "register_operand" "")
                    (label_ref (match_operand 2 "" ""))] UNSPEC_CASESI))
   (clobber (match_scratch:SI 3 ""))
   (clobber (match_scratch:SI 4 ""))]
  "TARGET_SH2 && reload_completed"
  [(set (reg:SI R0_REG) (unspec:SI [(label_ref (match_dup 2))] UNSPEC_MOVA))
   (parallel [(set (match_dup 0)
              (unspec:SI [(reg:SI R0_REG) (match_dup 1)
                          (label_ref (match_dup 2))] UNSPEC_CASESI))
              (clobber (match_dup 3))])]
  "if (GET_CODE (operands[2]) == CODE_LABEL) LABEL_NUSES (operands[2])++;")

(define_insn "casesi_worker_1"
  [(set (match_operand:SI 0 "register_operand" "=r,r")
        (unspec:SI [(reg:SI R0_REG)
                    (match_operand:SI 1 "register_operand" "0,r")
                    (label_ref (match_operand 2 "" ""))] UNSPEC_CASESI))
   (clobber (match_scratch:SI 3 "=X,1"))]
  "TARGET_SH1"
  "*
{
  rtx diff_vec = PATTERN (next_real_insn (operands[2]));

  gcc_assert (GET_CODE (diff_vec) == ADDR_DIFF_VEC);

  switch (GET_MODE (diff_vec))
    {
    case SImode:
      return \"shll2    %1\;mov.l       @(r0,%1),%0\";
    case HImode:
      return \"add      %1,%1\;mov.w    @(r0,%1),%0\";
    case QImode:
      if (ADDR_DIFF_VEC_FLAGS (diff_vec).offset_unsigned)
        return \"mov.b  @(r0,%1),%0\;extu.b     %0,%0\";
      return \"mov.b    @(r0,%1),%0\";
    default:
      gcc_unreachable ();
    }
}"
  [(set_attr "length" "4")])

(define_insn "casesi_worker_2"
  [(set (match_operand:SI 0 "register_operand" "=r,r")
        (unspec:SI [(reg:SI R0_REG)
                    (match_operand:SI 1 "register_operand" "0,r")
                    (label_ref (match_operand 2 "" ""))
                    (label_ref (match_operand 3 "" ""))] UNSPEC_CASESI))
   (clobber (match_operand:SI 4 "" "=X,1"))]
  "TARGET_SH2 && reload_completed && flag_pic"
  "*
{
  rtx diff_vec = PATTERN (next_real_insn (operands[2]));
  const char *load;

  gcc_assert (GET_CODE (diff_vec) == ADDR_DIFF_VEC);

  switch (GET_MODE (diff_vec))
    {
    case SImode:
      output_asm_insn (\"shll2    %1\", operands);
      load = \"mov.l    @(r0,%1),%0\"; break;
    case HImode:
      output_asm_insn (\"add    %1,%1\", operands);
      load = \"mov.w    @(r0,%1),%0\"; break;
    case QImode:
      if (ADDR_DIFF_VEC_FLAGS (diff_vec).offset_unsigned)
        load = \"mov.b  @(r0,%1),%0\;extu.b     %0,%0\";
      else
        load = \"mov.b  @(r0,%1),%0\";
      break;
    default:
      gcc_unreachable ();
    }
  output_asm_insn (\"add\tr0,%1\;mova\t%O3,r0\\n\", operands);
  return load;
}"
  [(set_attr "length" "8")])

(define_insn "casesi_shift_media"
  [(set (match_operand:DI 0 "arith_reg_dest" "=r")
        (ashift:DI (match_operand:DI 1 "arith_reg_operand" "r")
                   (unspec:DI [(label_ref:DI (match_operand 2 "" ""))]
                    UNSPEC_CASESI)))]
  "TARGET_SHMEDIA"
  "*
{
  rtx diff_vec = PATTERN (next_real_insn (operands[2]));

  gcc_assert (GET_CODE (diff_vec) == ADDR_DIFF_VEC);

  switch (GET_MODE (diff_vec))
    {
    case SImode:
      return \"shlli    %1, 2, %0\";
    case HImode:
      return \"shlli    %1, 1, %0\";
    case QImode:
      if (rtx_equal_p (operands[0], operands[1]))
        return \"\";
      return \"add      %1, r63, %0\";
    default:
      gcc_unreachable ();
    }
}"
  [(set_attr "type" "arith_media")])

(define_insn "casesi_load_media"
  [(set (match_operand 0 "any_arith_reg_dest" "=r")
        (mem (unspec [(match_operand:DI 1 "arith_reg_operand" "r")
                         (match_operand:DI 2 "arith_reg_operand" "r")
                         (label_ref:DI (match_operand 3 "" ""))] UNSPEC_CASESI)))]
  "TARGET_SHMEDIA"
  "*
{
  rtx diff_vec = PATTERN (next_real_insn (operands[3]));

  gcc_assert (GET_CODE (diff_vec) == ADDR_DIFF_VEC);

  switch (GET_MODE (diff_vec))
    {
    case SImode:
      return \"ldx.l    %1, %2, %0\";
    case HImode:
#if 0
      if (ADDR_DIFF_VEC_FLAGS (diff_vec).offset_unsigned)
        return \"ldx.uw %1, %2, %0\";
#endif
      return \"ldx.w    %1, %2, %0\";
    case QImode:
      if (ADDR_DIFF_VEC_FLAGS (diff_vec).offset_unsigned)
        return \"ldx.ub %1, %2, %0\";
      return \"ldx.b    %1, %2, %0\";
    default:
      gcc_unreachable ();
    }
}"
  [(set_attr "type" "load_media")])

(define_expand "return"
  [(return)]
  "reload_completed && ! sh_need_epilogue ()"
  "
{
  if (TARGET_SHMEDIA)
    {
      emit_jump_insn (gen_return_media ());
      DONE;
    }

  if (TARGET_SHCOMPACT
      && (current_function_args_info.call_cookie & CALL_COOKIE_RET_TRAMP (1)))
    {
      emit_jump_insn (gen_shcompact_return_tramp ());
      DONE;
    }
}")

(define_insn "*return_i"
  [(return)]
  "TARGET_SH1 && ! (TARGET_SHCOMPACT
                    && (current_function_args_info.call_cookie
                        & CALL_COOKIE_RET_TRAMP (1)))
   && reload_completed
   && lookup_attribute (\"trap_exit\",
                        DECL_ATTRIBUTES (current_function_decl)) == NULL_TREE"
  "%@   %#"
  [(set_attr "type" "return")
   (set_attr "needs_delay_slot" "yes")])

;; trapa has no delay slot.
(define_insn "*return_trapa"
  [(return)]
  "TARGET_SH1 && !TARGET_SHCOMPACT
   && reload_completed"
  "%@"
  [(set_attr "type" "return")])

(define_expand "shcompact_return_tramp"
  [(return)]
  "TARGET_SHCOMPACT
   && (current_function_args_info.call_cookie & CALL_COOKIE_RET_TRAMP (1))"
  "
{
  rtx reg = gen_rtx_REG (Pmode, R0_REG);

  function_symbol (reg, \"__GCC_shcompact_return_trampoline\", SFUNC_STATIC);
  emit_jump_insn (gen_shcompact_return_tramp_i ());
  DONE;
}")

(define_insn "shcompact_return_tramp_i"
  [(parallel [(return) (use (reg:SI R0_REG))])]
  "TARGET_SHCOMPACT
   && (current_function_args_info.call_cookie & CALL_COOKIE_RET_TRAMP (1))"
  "jmp  @r0%#"
  [(set_attr "type" "jump_ind")
   (set_attr "needs_delay_slot" "yes")])

(define_insn "return_media_i"
  [(parallel [(return) (use (match_operand 0 "target_reg_operand" "k"))])]
  "TARGET_SHMEDIA && reload_completed"
  "blink        %0, r63"
  [(set_attr "type" "jump_media")])

(define_insn "return_media_rte"
  [(return)]
  "TARGET_SHMEDIA && reload_completed && current_function_interrupt"
  "rte"
  [(set_attr "type" "jump_media")])

(define_expand "return_media"
  [(return)]
  "TARGET_SHMEDIA && reload_completed"
  "
{
  int tr_regno = sh_media_register_for_return ();
  rtx tr;

  if (current_function_interrupt)
    {
      emit_jump_insn (gen_return_media_rte ());
      DONE;
    }
  if (tr_regno < 0)
    {
      rtx r18 = gen_rtx_REG (Pmode, PR_MEDIA_REG);

      gcc_assert (call_really_used_regs[TR0_REG] && !fixed_regs[TR0_REG]);
      tr_regno = TR0_REG;
      tr = gen_rtx_REG (Pmode, tr_regno);
      emit_move_insn (tr, r18);
    }
  else
    tr = gen_rtx_REG (Pmode, tr_regno);

  emit_jump_insn (gen_return_media_i (tr));
  DONE;
}")

(define_insn "shcompact_preserve_incoming_args"
  [(set (match_operand:SI 0 "register_operand" "+r")
        (unspec:SI [(match_dup 0)] UNSPEC_COMPACT_ARGS))]
  "TARGET_SHCOMPACT"
  ""
  [(set_attr "length" "0")])

(define_insn "shcompact_incoming_args"
  [(set (reg:SI R2_REG) (unspec:SI [(reg:SI R2_REG)] UNSPEC_COMPACT_ARGS))
   (set (reg:SI R3_REG) (unspec:SI [(reg:SI R3_REG)] UNSPEC_COMPACT_ARGS))
   (set (reg:SI R4_REG) (unspec:SI [(reg:SI R4_REG)] UNSPEC_COMPACT_ARGS))
   (set (reg:SI R5_REG) (unspec:SI [(reg:SI R5_REG)] UNSPEC_COMPACT_ARGS))
   (set (reg:SI R6_REG) (unspec:SI [(reg:SI R6_REG)] UNSPEC_COMPACT_ARGS))
   (set (reg:SI R7_REG) (unspec:SI [(reg:SI R7_REG)] UNSPEC_COMPACT_ARGS))
   (set (reg:SI R8_REG) (unspec:SI [(reg:SI R8_REG)] UNSPEC_COMPACT_ARGS))
   (set (reg:SI R9_REG) (unspec:SI [(reg:SI R9_REG)] UNSPEC_COMPACT_ARGS))
   (set (mem:BLK (reg:SI MACL_REG))
        (unspec:BLK [(reg:SI MACH_REG)] UNSPEC_COMPACT_ARGS))
   (use (reg:SI R0_REG))
   (clobber (reg:SI R0_REG))
   (clobber (reg:SI MACL_REG))
   (clobber (reg:SI MACH_REG))
   (clobber (reg:SI PR_REG))]
  "TARGET_SHCOMPACT"
  "jsr  @r0%#"
  [(set_attr "needs_delay_slot" "yes")])

(define_insn "shmedia_save_restore_regs_compact"
  [(set (reg:SI SP_REG)
        (plus:SI (reg:SI SP_REG)
                 (match_operand:SI 0 "immediate_operand" "i")))
   (use (reg:SI R0_REG))
   (clobber (reg:SI PR_REG))]
  "TARGET_SHCOMPACT
   && (INTVAL (operands[0]) == SHMEDIA_REGS_STACK_ADJUST ()
       || INTVAL (operands[0]) == - SHMEDIA_REGS_STACK_ADJUST ())"
  "jsr @r0%#"
  [(set_attr "needs_delay_slot" "yes")])

(define_expand "prologue"
  [(const_int 0)]
  ""
  "sh_expand_prologue (); DONE;")

(define_expand "epilogue"
  [(return)]
  ""
  "
{
  sh_expand_epilogue (0);
  emit_jump_insn (gen_return ());
  DONE;
}")

(define_expand "eh_return"
  [(use (match_operand 0 "register_operand" ""))]
  ""
{
  rtx ra = operands[0];

  if (TARGET_SHMEDIA64)
    emit_insn (gen_eh_set_ra_di (ra));
  else
    emit_insn (gen_eh_set_ra_si (ra));

  DONE;
})

;; Clobber the return address on the stack.  We can't expand this
;; until we know where it will be put in the stack frame.

(define_insn "eh_set_ra_si"
  [(unspec [(match_operand:SI 0 "register_operand" "r")] UNSPEC_EH_RETURN)
   (clobber (match_scratch:SI 1 "=&r"))]
  "! TARGET_SHMEDIA64"
  "#")

(define_insn "eh_set_ra_di"
  [(unspec [(match_operand:DI 0 "register_operand" "r")] UNSPEC_EH_RETURN)
   (clobber (match_scratch:DI 1 "=&r"))]
  "TARGET_SHMEDIA64"
  "#")

(define_split
  [(unspec [(match_operand 0 "register_operand" "")] UNSPEC_EH_RETURN)
   (clobber (match_scratch 1 ""))]
  "reload_completed"
  [(const_int 0)]
  "
{
  sh_set_return_address (operands[0], operands[1]);
  DONE;
}")

(define_insn "blockage"
  [(unspec_volatile [(const_int 0)] UNSPECV_BLOCKAGE)]
  ""
  ""
  [(set_attr "length" "0")])

;; ------------------------------------------------------------------------
;; Scc instructions
;; ------------------------------------------------------------------------

(define_insn "movt"
  [(set (match_operand:SI 0 "arith_reg_dest" "=r")
        (eq:SI (reg:SI T_REG) (const_int 1)))]
  "TARGET_SH1"
  "movt %0"
  [(set_attr "type" "arith")])

(define_expand "seq"
  [(set (match_operand:SI 0 "arith_reg_dest" "")
        (match_dup 1))]
  ""
  "
{
  if (TARGET_SHMEDIA)
    {
      rtx reg;

      sh_compare_op0 = force_reg (GET_MODE (sh_compare_op0), sh_compare_op0);
      if (sh_compare_op1 != const0_rtx)
        sh_compare_op1 = force_reg (GET_MODE (sh_compare_op1) == VOIDmode
                                    ? GET_MODE (sh_compare_op0)
                                    : GET_MODE (sh_compare_op1),
                                    sh_compare_op1);
      if (GET_MODE_SIZE (GET_MODE (operands[0])) <= 4)
        {
          if (GET_MODE (operands[0]) != SImode)
            operands[0] = gen_rtx_SUBREG (SImode, operands[0], 0);

          switch (GET_MODE (sh_compare_op0))
            {
            case SImode:
              emit_insn (gen_cmpeqsi_media (operands[0],
                                              sh_compare_op0, sh_compare_op1));
              break;

            case DImode:
              emit_insn (gen_cmpeqdi_media (operands[0],
                                              sh_compare_op0, sh_compare_op1));
              break;

            case SFmode:
              if (! TARGET_SHMEDIA_FPU)
                FAIL;
              emit_insn (gen_cmpeqsf_media (operands[0],
                                              sh_compare_op0, sh_compare_op1));
              break;

            case DFmode:
              if (! TARGET_SHMEDIA_FPU)
                FAIL;
              emit_insn (gen_cmpeqdf_media (operands[0],
                                              sh_compare_op0, sh_compare_op1));
              break;

            default:
              FAIL;
            }
          DONE;
        }

      reg = operands[0];
      if (GET_MODE (operands[0]) != SImode)
        reg = no_new_pseudos ? gen_rtx_SUBREG (SImode, operands[0], 0)
                             : gen_reg_rtx (SImode);

      switch (GET_MODE (sh_compare_op0))
        {
        case SImode:
          emit_insn (gen_cmpeqsi_media (reg,
                                        sh_compare_op0, sh_compare_op1));
          break;

        case DImode:
          emit_insn (gen_cmpeqdi_media (reg,
                                        sh_compare_op0, sh_compare_op1));
          break;

        case SFmode:
          if (! TARGET_SHMEDIA_FPU)
            FAIL;
          emit_insn (gen_cmpeqsf_media (reg,
                                        sh_compare_op0, sh_compare_op1));
          break;

        case DFmode:
          if (! TARGET_SHMEDIA_FPU)
            FAIL;
          emit_insn (gen_cmpeqdf_media (reg,
                                        sh_compare_op0, sh_compare_op1));
          break;

        default:
          FAIL;
        }

      if (GET_MODE (operands[0]) == DImode)
        emit_insn (gen_extendsidi2 (operands[0], reg));

      DONE;
    }
  if (sh_expand_t_scc (EQ, operands[0]))
    DONE;
  if (! currently_expanding_to_rtl)
    FAIL;
  operands[1] = prepare_scc_operands (EQ);
}")

(define_expand "slt"
  [(set (match_operand:SI 0 "arith_reg_operand" "")
        (match_dup 1))]
  ""
  "
{
  if (TARGET_SHMEDIA)
    {
      rtx reg;

      sh_compare_op0 = force_reg (GET_MODE (sh_compare_op0), sh_compare_op0);
      if (sh_compare_op1 != const0_rtx)
        sh_compare_op1 = force_reg (GET_MODE (sh_compare_op1) == VOIDmode
                                    ? GET_MODE (sh_compare_op0)
                                    : GET_MODE (sh_compare_op1),
                                    sh_compare_op1);

      reg = operands[0];
      if (GET_MODE (operands[0]) != SImode)
        reg = no_new_pseudos ? gen_rtx_SUBREG (SImode, operands[0], 0)
                             : gen_reg_rtx (SImode);

      switch (GET_MODE (sh_compare_op0))
        {
        case SImode:
          emit_insn (gen_cmpgtsi_media (reg,
                                        sh_compare_op1, sh_compare_op0));
          break;

        case DImode:
          emit_insn (gen_cmpgtdi_media (reg,
                                        sh_compare_op1, sh_compare_op0));
          break;

        case SFmode:
          if (! TARGET_SHMEDIA_FPU)
            FAIL;
          emit_insn (gen_cmpgtsf_media (reg,
                                        sh_compare_op1, sh_compare_op0));
          break;

        case DFmode:
          if (! TARGET_SHMEDIA_FPU)
            FAIL;
          emit_insn (gen_cmpgtdf_media (reg,
                                        sh_compare_op1, sh_compare_op0));
          break;

        default:
          FAIL;
        }

      if (GET_MODE (operands[0]) == DImode)
        emit_insn (gen_extendsidi2 (operands[0], reg));

      DONE;
    }
  if (! currently_expanding_to_rtl)
    FAIL;
  operands[1] = prepare_scc_operands (LT);
}")

(define_expand "sle"
  [(match_operand:SI 0 "arith_reg_operand" "")]
  ""
  "
{
  rtx tmp = sh_compare_op0;

  if (TARGET_SHMEDIA)
    {
      rtx reg;

      sh_compare_op0 = force_reg (GET_MODE (sh_compare_op0), sh_compare_op0);
      if (sh_compare_op1 != const0_rtx)
        sh_compare_op1 = force_reg (GET_MODE (sh_compare_op1) == VOIDmode
                                    ? GET_MODE (sh_compare_op0)
                                    : GET_MODE (sh_compare_op1),
                                    sh_compare_op1);

      reg = operands[0];
      if (GET_MODE (operands[0]) != SImode)
        reg = no_new_pseudos ? gen_rtx_SUBREG (SImode, operands[0], 0)
                             : gen_reg_rtx (SImode);

      switch (GET_MODE (sh_compare_op0))
        {
        case SImode:
          {
            tmp = no_new_pseudos ? reg : gen_reg_rtx (SImode);

            emit_insn (gen_cmpgtsi_media (tmp,
                                          sh_compare_op0, sh_compare_op1));
            emit_insn (gen_cmpeqdi_media (reg, tmp, const0_rtx));
            break;
          }

        case DImode:
          {
            tmp = no_new_pseudos ? reg : gen_reg_rtx (SImode);

            emit_insn (gen_cmpgtdi_media (tmp,
                                          sh_compare_op0, sh_compare_op1));
            emit_insn (gen_cmpeqdi_media (reg, tmp, const0_rtx));
            break;
          }

        case SFmode:
          if (! TARGET_SHMEDIA_FPU)
            FAIL;
          emit_insn (gen_cmpgesf_media (reg,
                                        sh_compare_op1, sh_compare_op0));
          break;

        case DFmode:
          if (! TARGET_SHMEDIA_FPU)
            FAIL;
          emit_insn (gen_cmpgedf_media (reg,
                                        sh_compare_op1, sh_compare_op0));
          break;

        default:
          FAIL;
        }

      if (GET_MODE (operands[0]) == DImode)
        emit_insn (gen_extendsidi2 (operands[0], reg));

      DONE;
    }

  sh_compare_op0 = sh_compare_op1;
  sh_compare_op1 = tmp;
  emit_insn (gen_sge (operands[0]));
  DONE;
}")

(define_expand "sgt"
  [(set (match_operand:SI 0 "arith_reg_operand" "")
        (match_dup 1))]
  ""
  "
{
  if (TARGET_SHMEDIA)
    {
      rtx reg;

      reg = operands[0];
      if (GET_MODE (operands[0]) != SImode)
        reg = no_new_pseudos ? gen_rtx_SUBREG (SImode, operands[0], 0)
                             : gen_reg_rtx (SImode);
      sh_compare_op0 = force_reg (GET_MODE (sh_compare_op0), sh_compare_op0);
      if (sh_compare_op1 != const0_rtx)
        sh_compare_op1 = force_reg (GET_MODE (sh_compare_op1) == VOIDmode
                                    ? GET_MODE (sh_compare_op0)
                                    : GET_MODE (sh_compare_op1),
                                    sh_compare_op1);

      switch (GET_MODE (sh_compare_op0))
        {
        case SImode:
          emit_insn (gen_cmpgtsi_media (reg,
                                        sh_compare_op0, sh_compare_op1));
          break;

        case DImode:
          emit_insn (gen_cmpgtdi_media (reg,
                                        sh_compare_op0, sh_compare_op1));
          break;

        case SFmode:
          if (! TARGET_SHMEDIA_FPU)
            FAIL;
          emit_insn (gen_cmpgtsf_media (reg,
                                        sh_compare_op0, sh_compare_op1));
          break;

        case DFmode:
          if (! TARGET_SHMEDIA_FPU)
            FAIL;
          emit_insn (gen_cmpgtdf_media (reg,
                                        sh_compare_op0, sh_compare_op1));
          break;

        default:
          FAIL;
        }

      if (GET_MODE (operands[0]) == DImode)
        emit_insn (gen_extendsidi2 (operands[0], reg));

      DONE;
    }
  if (! currently_expanding_to_rtl)
    FAIL;
  operands[1] = prepare_scc_operands (GT);
}")

(define_expand "sge"
  [(set (match_operand:SI 0 "arith_reg_operand" "")
        (match_dup 1))]
  ""
  "
{
  if (TARGET_SHMEDIA)
    {
      rtx reg;
      enum machine_mode mode = GET_MODE (sh_compare_op0);

      if ((mode) == VOIDmode)
        mode = GET_MODE (sh_compare_op1);
      reg = operands[0];
      if (GET_MODE (operands[0]) != SImode)
        reg = no_new_pseudos ? gen_rtx_SUBREG (SImode, operands[0], 0)
                             : gen_reg_rtx (SImode);
      sh_compare_op0 = force_reg (mode, sh_compare_op0);
      if (sh_compare_op1 != const0_rtx)
        sh_compare_op1 = force_reg (mode, sh_compare_op1);

      switch (mode)
        {
        case SImode:
          {
            rtx tmp = no_new_pseudos ? reg : gen_reg_rtx (SImode);

            emit_insn (gen_cmpgtsi_media (tmp,
                                          sh_compare_op1, sh_compare_op0));
            emit_insn (gen_cmpeqdi_media (reg, tmp, const0_rtx));
            break;
          }

        case DImode:
          {
            rtx tmp = no_new_pseudos ? reg : gen_reg_rtx (SImode);

            emit_insn (gen_cmpgtdi_media (tmp,
                                          sh_compare_op1, sh_compare_op0));
            emit_insn (gen_cmpeqdi_media (reg, tmp, const0_rtx));
            break;
          }

        case SFmode:
          if (! TARGET_SHMEDIA_FPU)
            FAIL;
          emit_insn (gen_cmpgesf_media (reg,
                                        sh_compare_op0, sh_compare_op1));
          break;

        case DFmode:
          if (! TARGET_SHMEDIA_FPU)
            FAIL;
          emit_insn (gen_cmpgedf_media (reg,
                                        sh_compare_op0, sh_compare_op1));
          break;

        default:
          FAIL;
        }

      if (GET_MODE (operands[0]) == DImode)
        emit_insn (gen_extendsidi2 (operands[0], reg));

      DONE;
    }

  if (! currently_expanding_to_rtl)
    FAIL;
  if (GET_MODE_CLASS (GET_MODE (sh_compare_op0)) == MODE_FLOAT)
    {
      if (TARGET_IEEE)
        {
          rtx lab = gen_label_rtx ();
          prepare_scc_operands (EQ);
          emit_jump_insn (gen_branch_true (lab));
          prepare_scc_operands (GT);
          emit_label (lab);
          emit_insn (gen_movt (operands[0]));
        }
      else
        emit_insn (gen_movnegt (operands[0], prepare_scc_operands (LT)));
      DONE;
    }
  operands[1] = prepare_scc_operands (GE);
}")

(define_expand "sgtu"
  [(set (match_operand:SI 0 "arith_reg_operand" "")
        (match_dup 1))]
  ""
  "
{
  if (TARGET_SHMEDIA)
    {
      rtx reg;

      reg = operands[0];
      if (GET_MODE (operands[0]) == DImode)
        reg = no_new_pseudos ? gen_rtx_SUBREG (SImode, operands[0], 0)
                             : gen_reg_rtx (SImode);
      sh_compare_op0 = force_reg (GET_MODE (sh_compare_op0), sh_compare_op0);
      if (sh_compare_op1 != const0_rtx)
        sh_compare_op1 = force_reg (GET_MODE (sh_compare_op1) == VOIDmode
                                    ? GET_MODE (sh_compare_op0)
                                    : GET_MODE (sh_compare_op1),
                                    sh_compare_op1);

      emit_insn (gen_cmpgtudi_media (reg,
                                     sh_compare_op0, sh_compare_op1));
      if (GET_MODE (operands[0]) == DImode)
        emit_insn (gen_extendsidi2 (operands[0], reg));

      DONE;
    }
  if (! currently_expanding_to_rtl)
    FAIL;
  operands[1] = prepare_scc_operands (GTU);
}")

(define_expand "sltu"
  [(set (match_operand:SI 0 "arith_reg_operand" "")
        (match_dup 1))]
  ""
  "
{
  if (TARGET_SHMEDIA)
    {
      rtx reg;

      reg = operands[0];
      if (GET_MODE (operands[0]) == DImode)
        reg = no_new_pseudos ? gen_rtx_SUBREG (SImode, operands[0], 0)
                             : gen_reg_rtx (SImode);
      sh_compare_op0 = force_reg (GET_MODE (sh_compare_op0), sh_compare_op0);
      if (sh_compare_op1 != const0_rtx)
        sh_compare_op1 = force_reg (GET_MODE (sh_compare_op1) == VOIDmode
                                    ? GET_MODE (sh_compare_op0)
                                    : GET_MODE (sh_compare_op1),
                                    sh_compare_op1);

      emit_insn (gen_cmpgtudi_media (reg,
                                     sh_compare_op1, sh_compare_op0));
      if (GET_MODE (operands[0]) == DImode)
        emit_insn (gen_extendsidi2 (operands[0], reg));

      DONE;
    }
  if (! currently_expanding_to_rtl)
    FAIL;
  operands[1] = prepare_scc_operands (LTU);
}")

(define_expand "sleu"
  [(set (match_operand:SI 0 "arith_reg_operand" "")
        (match_dup 1))]
  ""
  "
{
  if (TARGET_SHMEDIA)
    {
      rtx tmp, reg;

      reg = operands[0];
      if (GET_MODE (operands[0]) != SImode)
        reg = no_new_pseudos ? gen_rtx_SUBREG (SImode, operands[0], 0)
                             : gen_reg_rtx (SImode);
      sh_compare_op0 = force_reg (GET_MODE (sh_compare_op0), sh_compare_op0);
      if (sh_compare_op1 != const0_rtx)
        sh_compare_op1 = force_reg (GET_MODE (sh_compare_op1) == VOIDmode
                                    ? GET_MODE (sh_compare_op0)
                                    : GET_MODE (sh_compare_op1),
                                    sh_compare_op1);

      tmp = no_new_pseudos ? reg : gen_reg_rtx (SImode);

      emit_insn (gen_cmpgtudi_media (tmp, sh_compare_op0, sh_compare_op1));
      emit_insn (gen_cmpeqdi_media (reg, tmp, const0_rtx));
      if (GET_MODE (operands[0]) == DImode)
        emit_insn (gen_extendsidi2 (operands[0], reg));

      DONE;
    }
  if (! currently_expanding_to_rtl)
    FAIL;
  operands[1] = prepare_scc_operands (LEU);
}")

(define_expand "sgeu"
  [(set (match_operand:SI 0 "arith_reg_operand" "")
        (match_dup 1))]
  ""
  "
{
  if (TARGET_SHMEDIA)
    {
      rtx tmp, reg;

      reg = operands[0];
      if (GET_MODE (operands[0]) != SImode)
        reg = no_new_pseudos ? gen_rtx_SUBREG (SImode, operands[0], 0)
                             : gen_reg_rtx (SImode);
      sh_compare_op0 = force_reg (GET_MODE (sh_compare_op0), sh_compare_op0);
      if (sh_compare_op1 != const0_rtx)
        sh_compare_op1 = force_reg (GET_MODE (sh_compare_op1) == VOIDmode
                                    ? GET_MODE (sh_compare_op0)
                                    : GET_MODE (sh_compare_op1),
                                    sh_compare_op1);

      tmp = no_new_pseudos ? operands[0] : gen_reg_rtx (SImode);

      emit_insn (gen_cmpgtudi_media (tmp, sh_compare_op1, sh_compare_op0));
      emit_insn (gen_cmpeqdi_media (reg, tmp, const0_rtx));
      if (GET_MODE (operands[0]) == DImode)
        emit_insn (gen_extendsidi2 (operands[0], reg));

      DONE;
    }

  if (! currently_expanding_to_rtl)
    FAIL;
  operands[1] = prepare_scc_operands (GEU);
}")

;; sne moves the complement of the T reg to DEST like this:
;;      cmp/eq ...
;;      mov    #-1,temp
;;      negc   temp,dest
;;   This is better than xoring compare result with 1 because it does
;;   not require r0 and further, the -1 may be CSE-ed or lifted out of a
;;   loop.

(define_expand "sne"
  [(set (match_dup 2) (const_int -1))
   (parallel [(set (match_operand:SI 0 "arith_reg_operand" "")
                   (neg:SI (plus:SI (match_dup 1)
                                    (match_dup 2))))
              (set (reg:SI T_REG)
                   (ne:SI (ior:SI (match_dup 1) (match_dup 2))
                          (const_int 0)))])]
  ""
  "
{
  if (TARGET_SHMEDIA)
    {
      rtx tmp, reg;

      reg = operands[0];
      if (GET_MODE (operands[0]) != SImode)
        reg = no_new_pseudos ? gen_rtx_SUBREG (SImode, operands[0], 0)
                             : gen_reg_rtx (SImode);
      if (! TARGET_SHMEDIA_FPU
          && GET_MODE (sh_compare_op0) != DImode
          && GET_MODE (sh_compare_op0) != SImode)
        FAIL;

      sh_compare_op0 = force_reg (GET_MODE (sh_compare_op0), sh_compare_op0);
      if (sh_compare_op1 != const0_rtx)
        sh_compare_op1 = force_reg (GET_MODE (sh_compare_op1) == VOIDmode
                                    ? GET_MODE (sh_compare_op0)
                                    : GET_MODE (sh_compare_op1),
                                    sh_compare_op1);

      tmp = no_new_pseudos ? reg : gen_reg_rtx (SImode);

      emit_insn (gen_seq (tmp));
      emit_insn (gen_cmpeqdi_media (reg, tmp, const0_rtx));
      if (GET_MODE (operands[0]) == DImode)
        emit_insn (gen_extendsidi2 (operands[0], reg));

      DONE;
    }

  if (sh_expand_t_scc (NE, operands[0]))
    DONE;
  if (! currently_expanding_to_rtl)
    FAIL;
  operands[1] = prepare_scc_operands (EQ);
  operands[2] = gen_reg_rtx (SImode);
}")

(define_expand "sunordered"
  [(set (match_operand:SI 0 "arith_reg_operand" "")
        (unordered:SI (match_dup 1) (match_dup 2)))]
  "TARGET_SHMEDIA_FPU"
  "
{
  operands[1] = force_reg (GET_MODE (sh_compare_op0), sh_compare_op0);
  operands[2] = force_reg (GET_MODE (sh_compare_op1), sh_compare_op1);
}")

;; Use the same trick for FP sle / sge

;; Apart from the constant use and the T setting, this is like movt,
;; except that it uses the logically negated value of T, i.e.
;; operand[0] := T ? 0 : 1.
(define_expand "movnegt"
  [(set (match_dup 2) (const_int -1))
   (parallel [(set (match_operand 0 "" "")
                   (neg:SI (plus:SI (match_dup 1)
                                    (match_dup 2))))
              (set (reg:SI T_REG)
                   (ne:SI (ior:SI (match_operand 1 "" "") (match_dup 2))
                          (const_int 0)))])]
  "TARGET_SH1"
  "operands[2] = gen_reg_rtx (SImode);")

;; Recognize mov #-1/negc/neg sequence, and change it to movt/add #-1.
;; This prevents a regression that occurred when we switched from xor to
;; mov/neg for sne.

(define_split
  [(set (match_operand:SI 0 "arith_reg_dest" "")
        (plus:SI (reg:SI T_REG)
                 (const_int -1)))]
  "TARGET_SH1"
  [(set (match_dup 0) (eq:SI (reg:SI T_REG) (const_int 1)))
   (set (match_dup 0) (plus:SI (match_dup 0) (const_int -1)))]
  "")

;; -------------------------------------------------------------------------
;; Instructions to cope with inline literal tables
;; -------------------------------------------------------------------------

; 2 byte integer in line

(define_insn "consttable_2"
 [(unspec_volatile [(match_operand:SI 0 "general_operand" "=g")
                    (match_operand 1 "" "")]
                   UNSPECV_CONST2)]
 ""
 "*
{
  if (operands[1] != const0_rtx)
    assemble_integer (operands[0], 2, BITS_PER_UNIT * 2, 1);
  return \"\";
}"
 [(set_attr "length" "2")
 (set_attr "in_delay_slot" "no")])

; 4 byte integer in line

(define_insn "consttable_4"
 [(unspec_volatile [(match_operand:SI 0 "general_operand" "=g")
                    (match_operand 1 "" "")]
                   UNSPECV_CONST4)]
 ""
 "*
{
  if (operands[1] != const0_rtx)
    assemble_integer (operands[0], 4, BITS_PER_UNIT * 4, 1);
  return \"\";
}"
 [(set_attr "length" "4")
  (set_attr "in_delay_slot" "no")])

; 8 byte integer in line

(define_insn "consttable_8"
 [(unspec_volatile [(match_operand:SI 0 "general_operand" "=g")
                    (match_operand 1 "" "")]
                   UNSPECV_CONST8)]
 ""
 "*
{
  if (operands[1] != const0_rtx)
    assemble_integer (operands[0], 8, BITS_PER_UNIT * 8, 1);
  return \"\";
}"
 [(set_attr "length" "8")
  (set_attr "in_delay_slot" "no")])

; 4 byte floating point

(define_insn "consttable_sf"
 [(unspec_volatile [(match_operand:SF 0 "general_operand" "=g")
                    (match_operand 1 "" "")]
                   UNSPECV_CONST4)]
 ""
 "*
{
  if (operands[1] != const0_rtx)
    {
      REAL_VALUE_TYPE d;
      REAL_VALUE_FROM_CONST_DOUBLE (d, operands[0]);
      assemble_real (d, SFmode, GET_MODE_ALIGNMENT (SFmode));
    }
  return \"\";
}"
 [(set_attr "length" "4")
  (set_attr "in_delay_slot" "no")])

; 8 byte floating point

(define_insn "consttable_df"
 [(unspec_volatile [(match_operand:DF 0 "general_operand" "=g")
                    (match_operand 1 "" "")]
                   UNSPECV_CONST8)]
 ""
 "*
{
  if (operands[1] != const0_rtx)
    {
      REAL_VALUE_TYPE d;
      REAL_VALUE_FROM_CONST_DOUBLE (d, operands[0]);
      assemble_real (d, DFmode, GET_MODE_ALIGNMENT (DFmode));
    }
  return \"\";
}"
 [(set_attr "length" "8")
  (set_attr "in_delay_slot" "no")])

;; Alignment is needed for some constant tables; it may also be added for
;; Instructions at the start of loops, or after unconditional branches.
;; ??? We would get more accurate lengths if we did instruction
;; alignment based on the value of INSN_CURRENT_ADDRESS; the approach used
;; here is too conservative.

; align to a two byte boundary

(define_expand "align_2"
 [(unspec_volatile [(const_int 1)] UNSPECV_ALIGN)]
 ""
 "")

; align to a four byte boundary
;; align_4 and align_log are instructions for the starts of loops, or
;; after unconditional branches, which may take up extra room.

(define_expand "align_4"
 [(unspec_volatile [(const_int 2)] UNSPECV_ALIGN)]
 ""
 "")

; align to a cache line boundary

(define_insn "align_log"
 [(unspec_volatile [(match_operand 0 "const_int_operand" "")] UNSPECV_ALIGN)]
 ""
 ""
 [(set_attr "length" "0")
  (set_attr "in_delay_slot" "no")])

; emitted at the end of the literal table, used to emit the
; 32bit branch labels if needed.

(define_insn "consttable_end"
  [(unspec_volatile [(const_int 0)] UNSPECV_CONST_END)]
  ""
  "* return output_jump_label_table ();"
  [(set_attr "in_delay_slot" "no")])

; emitted at the end of the window in the literal table.

(define_insn "consttable_window_end"
  [(unspec_volatile [(match_operand 0 "" "")] UNSPECV_WINDOW_END)]
  ""
  ""
  [(set_attr "length" "0")
   (set_attr "in_delay_slot" "no")])

;; -------------------------------------------------------------------------
;; Misc
;; -------------------------------------------------------------------------

;; String/block move insn.

(define_expand "movmemsi"
  [(parallel [(set (mem:BLK (match_operand:BLK 0 "" ""))
                   (mem:BLK (match_operand:BLK 1 "" "")))
              (use (match_operand:SI 2 "nonmemory_operand" ""))
              (use (match_operand:SI 3 "immediate_operand" ""))
              (clobber (reg:SI PR_REG))
              (clobber (reg:SI R4_REG))
              (clobber (reg:SI R5_REG))
              (clobber (reg:SI R0_REG))])]
  "TARGET_SH1 && ! TARGET_SH5"
  "
{
  if(expand_block_move (operands))
     DONE;
  else FAIL;
}")

(define_insn "block_move_real"
  [(parallel [(set (mem:BLK (reg:SI R4_REG))
                   (mem:BLK (reg:SI R5_REG)))
              (use (match_operand:SI 0 "arith_reg_operand" "r"))
              (clobber (reg:SI PR_REG))
              (clobber (reg:SI R0_REG))])]
  "TARGET_SH1 && ! TARGET_HARD_SH4"
  "jsr  @%0%#"
  [(set_attr "type" "sfunc")
   (set_attr "needs_delay_slot" "yes")])

(define_insn "block_lump_real"
  [(parallel [(set (mem:BLK (reg:SI R4_REG))
                   (mem:BLK (reg:SI R5_REG)))
              (use (match_operand:SI 0 "arith_reg_operand" "r"))
              (use (reg:SI R6_REG))
              (clobber (reg:SI PR_REG))
              (clobber (reg:SI T_REG))
              (clobber (reg:SI R4_REG))
              (clobber (reg:SI R5_REG))
              (clobber (reg:SI R6_REG))
              (clobber (reg:SI R0_REG))])]
  "TARGET_SH1 && ! TARGET_HARD_SH4"
  "jsr  @%0%#"
  [(set_attr "type" "sfunc")
   (set_attr "needs_delay_slot" "yes")])

(define_insn "block_move_real_i4"
  [(parallel [(set (mem:BLK (reg:SI R4_REG))
                   (mem:BLK (reg:SI R5_REG)))
              (use (match_operand:SI 0 "arith_reg_operand" "r"))
              (clobber (reg:SI PR_REG))
              (clobber (reg:SI R0_REG))
              (clobber (reg:SI R1_REG))
              (clobber (reg:SI R2_REG))])]
  "TARGET_HARD_SH4"
  "jsr  @%0%#"
  [(set_attr "type" "sfunc")
   (set_attr "needs_delay_slot" "yes")])

(define_insn "block_lump_real_i4"
  [(parallel [(set (mem:BLK (reg:SI R4_REG))
                   (mem:BLK (reg:SI R5_REG)))
              (use (match_operand:SI 0 "arith_reg_operand" "r"))
              (use (reg:SI R6_REG))
              (clobber (reg:SI PR_REG))
              (clobber (reg:SI T_REG))
              (clobber (reg:SI R4_REG))
              (clobber (reg:SI R5_REG))
              (clobber (reg:SI R6_REG))
              (clobber (reg:SI R0_REG))
              (clobber (reg:SI R1_REG))
              (clobber (reg:SI R2_REG))
              (clobber (reg:SI R3_REG))])]
  "TARGET_HARD_SH4"
  "jsr  @%0%#"
  [(set_attr "type" "sfunc")
   (set_attr "needs_delay_slot" "yes")])

;; -------------------------------------------------------------------------
;; Floating point instructions.
;; -------------------------------------------------------------------------

;; ??? All patterns should have a type attribute.

(define_expand "movpsi"
  [(set (match_operand:PSI 0 "register_operand" "")
        (match_operand:PSI 1 "general_movsrc_operand" ""))]
  "(TARGET_SH4 || TARGET_SH2A_DOUBLE)"
  "")

;; The c / m alternative is a fake to guide reload to load directly into
;; fpscr, since reload doesn't know how to use post-increment.
;; GO_IF_LEGITIMATE_ADDRESS guards about bogus addresses before reload,
;; SECONDARY_INPUT_RELOAD_CLASS does this during reload, and the insn's
;; predicate after reload.
;; The mac_gp type for r/!c might look a bit odd, but it actually schedules
;; like a mac -> gpr move.
(define_insn "fpu_switch"
  [(set (match_operand:PSI 0 "general_movdst_operand" "=c,c,r,c,c,r,m,r,<")
        (match_operand:PSI 1 "general_movsrc_operand" "c,>,m,m,r,r,r,!c,c"))]
  "TARGET_SH2E
   && (! reload_completed
       || true_regnum (operands[0]) != FPSCR_REG
       || GET_CODE (operands[1]) != MEM
       || GET_CODE (XEXP (operands[1], 0)) != PLUS)"
  "@
        ! precision stays the same
        lds.l   %1,fpscr
        mov.l   %1,%0
        #
        lds     %1,fpscr
        mov     %1,%0
        mov.l   %1,%0
        sts     fpscr,%0
        sts.l   fpscr,%0"
  [(set_attr "length" "0,2,2,4,2,2,2,2,2")
   (set_attr "type" "nil,mem_fpscr,load,mem_fpscr,gp_fpscr,move,store,mac_gp,store")])

(define_peephole2
  [(set (reg:PSI FPSCR_REG)
        (mem:PSI (match_operand:SI 0 "register_operand" "")))]
  "(TARGET_SH4 || TARGET_SH2A_DOUBLE) && peep2_reg_dead_p (1, operands[0])"
  [(const_int 0)]
{
  rtx fpscr, mem, new_insn;

  fpscr = SET_DEST (PATTERN (curr_insn));
  mem = SET_SRC (PATTERN (curr_insn));
  mem = replace_equiv_address (mem, gen_rtx_POST_INC (Pmode, operands[0]));

  new_insn = emit_insn (gen_fpu_switch (fpscr, mem));
  REG_NOTES (new_insn) = gen_rtx_EXPR_LIST (REG_INC, operands[0], NULL_RTX);
  DONE;
})

(define_split
  [(set (reg:PSI FPSCR_REG)
        (mem:PSI (match_operand:SI 0 "register_operand" "")))]
  "(TARGET_SH4 || TARGET_SH2A_DOUBLE)
   && (flag_peephole2 ? flow2_completed : reload_completed)"
  [(const_int 0)]
{
  rtx fpscr, mem, new_insn;

  fpscr = SET_DEST (PATTERN (curr_insn));
  mem = SET_SRC (PATTERN (curr_insn));
  mem = replace_equiv_address (mem, gen_rtx_POST_INC (Pmode, operands[0]));

  new_insn = emit_insn (gen_fpu_switch (fpscr, mem));
  REG_NOTES (new_insn) = gen_rtx_EXPR_LIST (REG_INC, operands[0], NULL_RTX);

  if (!find_regno_note (curr_insn, REG_DEAD, true_regnum (operands[0])))
    emit_insn (gen_addsi3 (operands[0], operands[0], GEN_INT (-4)));
  DONE;
})

;; ??? This uses the fp unit, but has no type indicating that.
;; If we did that, this would either give a bogus latency or introduce
;; a bogus FIFO constraint.
;; Since this insn is currently only used for prologues/epilogues,
;; it is probably best to claim no function unit, which matches the
;; current setting.
(define_insn "toggle_sz"
  [(set (reg:PSI FPSCR_REG)
        (xor:PSI (reg:PSI FPSCR_REG) (const_int 1048576)))]
  "(TARGET_SH4 || TARGET_SH2A_DOUBLE)"
  "fschg"
  [(set_attr "type" "fp") (set_attr "fp_set" "unknown")])

;; There's no way we can use it today, since optimize mode switching
;; doesn't enable us to know from which mode we're switching to the
;; mode it requests, to tell whether we can use a relative mode switch
;; (like toggle_pr) or an absolute switch (like loading fpscr from
;; memory).
(define_insn "toggle_pr"
  [(set (reg:PSI FPSCR_REG)
        (xor:PSI (reg:PSI FPSCR_REG) (const_int 524288)))]
  "TARGET_SH4A_FP && ! TARGET_FPU_SINGLE"
  "fpchg"
  [(set_attr "type" "fp")])

(define_expand "addsf3"
  [(set (match_operand:SF 0 "arith_reg_operand" "")
        (plus:SF (match_operand:SF 1 "arith_reg_operand" "")
                 (match_operand:SF 2 "arith_reg_operand" "")))]
  "TARGET_SH2E || TARGET_SHMEDIA_FPU"
  "
{
  if (TARGET_SH2E)
    {
      expand_sf_binop (&gen_addsf3_i, operands);
      DONE;
    }
}")

(define_insn "*addsf3_media"
  [(set (match_operand:SF 0 "fp_arith_reg_operand" "=f")
        (plus:SF (match_operand:SF 1 "fp_arith_reg_operand" "%f")
                 (match_operand:SF 2 "fp_arith_reg_operand" "f")))]
  "TARGET_SHMEDIA_FPU"
  "fadd.s       %1, %2, %0"
  [(set_attr "type" "fparith_media")])

(define_insn_and_split "unary_sf_op"
  [(set (match_operand:V2SF 0 "fp_arith_reg_operand" "=f")
        (vec_select:V2SF
         (vec_concat:V2SF
          (vec_select:SF
           (match_dup 0)
           (parallel [(not:BI (match_operand 3 "const_int_operand" "n"))]))
          (match_operator:SF 2 "unary_float_operator"
            [(vec_select:SF (match_operand:V2SF 1 "fp_arith_reg_operand" "f")
                            (parallel [(match_operand 4
                                        "const_int_operand" "n")]))]))
         (parallel [(not:BI (match_dup 3)) (match_dup 3)])))]
  "TARGET_SHMEDIA_FPU"
  "#"
  "TARGET_SHMEDIA_FPU && reload_completed"
  [(set (match_dup 5) (match_dup 6))]
  "
{
  int endian = TARGET_LITTLE_ENDIAN ? 0 : 1;
  rtx op1 = gen_rtx_REG (SFmode,
                         (true_regnum (operands[1])
                          + (INTVAL (operands[4]) ^ endian)));

  operands[7] = gen_rtx_REG (SFmode,
                             (true_regnum (operands[0])
                              + (INTVAL (operands[3]) ^ endian)));
  operands[6] = gen_rtx_fmt_e (GET_CODE (operands[2]), SFmode, op1);
}"
  [(set_attr "type" "fparith_media")])

(define_insn_and_split "binary_sf_op"
  [(set (match_operand:V2SF 0 "fp_arith_reg_operand" "=f")
        (vec_select:V2SF
         (vec_concat:V2SF
          (vec_select:SF
           (match_dup 0)
           (parallel [(match_operand 7 "const_int_operand" "n")]))
          (match_operator:SF 3 "binary_float_operator"
            [(vec_select:SF (match_operand:V2SF 1 "fp_arith_reg_operand" "f")
                            (parallel [(match_operand 5
                                        "const_int_operand" "n")]))
             (vec_select:SF (match_operand:V2SF 2 "fp_arith_reg_operand" "f")
                            (parallel [(match_operand 6
                                        "const_int_operand" "n")]))]))
         (parallel [(match_dup 7) (match_operand 4 "const_int_operand" "n")])))]
  "TARGET_SHMEDIA_FPU && INTVAL (operands[4]) != INTVAL (operands[7])"
  "#"
  "&& reload_completed"
  [(set (match_dup 8) (match_dup 9))]
  "
{
  int endian = TARGET_LITTLE_ENDIAN ? 0 : 1;
  rtx op1 = gen_rtx_REG (SFmode,
                         (true_regnum (operands[1])
                          + (INTVAL (operands[5]) ^ endian)));
  rtx op2 = gen_rtx_REG (SFmode,
                         (true_regnum (operands[2])
                          + (INTVAL (operands[6]) ^ endian)));

  operands[8] = gen_rtx_REG (SFmode,
                             (true_regnum (operands[0])
                              + (INTVAL (operands[4]) ^ endian)));
  operands[9] = gen_rtx_fmt_ee (GET_CODE (operands[3]), SFmode, op1, op2);
}"
  [(set_attr "type" "fparith_media")])

(define_insn "addsf3_i"
  [(set (match_operand:SF 0 "fp_arith_reg_operand" "=f")
        (plus:SF (match_operand:SF 1 "fp_arith_reg_operand" "%0")
                 (match_operand:SF 2 "fp_arith_reg_operand" "f")))
   (use (match_operand:PSI 3 "fpscr_operand" "c"))]
  "TARGET_SH2E"
  "fadd %2,%0"
  [(set_attr "type" "fp")
   (set_attr "fp_mode" "single")])

(define_expand "subsf3"
  [(set (match_operand:SF 0 "fp_arith_reg_operand" "")
        (minus:SF (match_operand:SF 1 "fp_arith_reg_operand" "")
                  (match_operand:SF 2 "fp_arith_reg_operand" "")))]
  "TARGET_SH2E || TARGET_SHMEDIA_FPU"
  "
{
  if (TARGET_SH2E)
    {
      expand_sf_binop (&gen_subsf3_i, operands);
      DONE;
    }
}")

(define_insn "*subsf3_media"
  [(set (match_operand:SF 0 "fp_arith_reg_operand" "=f")
        (minus:SF (match_operand:SF 1 "fp_arith_reg_operand" "f")
                  (match_operand:SF 2 "fp_arith_reg_operand" "f")))]
  "TARGET_SHMEDIA_FPU"
  "fsub.s       %1, %2, %0"
  [(set_attr "type" "fparith_media")])

(define_insn "subsf3_i"
  [(set (match_operand:SF 0 "fp_arith_reg_operand" "=f")
        (minus:SF (match_operand:SF 1 "fp_arith_reg_operand" "0")
                 (match_operand:SF 2 "fp_arith_reg_operand" "f")))
   (use (match_operand:PSI 3 "fpscr_operand" "c"))]
  "TARGET_SH2E"
  "fsub %2,%0"
  [(set_attr "type" "fp")
   (set_attr "fp_mode" "single")])

;; Unfortunately, the combiner is unable to cope with the USE of the FPSCR
;; register in feeding fp instructions.  Thus, we cannot generate fmac for
;; mixed-precision SH4 targets.  To allow it to be still generated for the
;; SH3E, we use a separate insn for SH3E mulsf3.

(define_expand "mulsf3"
  [(set (match_operand:SF 0 "fp_arith_reg_operand" "")
        (mult:SF (match_operand:SF 1 "fp_arith_reg_operand" "")
                 (match_operand:SF 2 "fp_arith_reg_operand" "")))]
  "TARGET_SH2E || TARGET_SHMEDIA_FPU"
  "
{
  if (TARGET_SH4 || TARGET_SH2A_SINGLE)
    expand_sf_binop (&gen_mulsf3_i4, operands);
  else if (TARGET_SH2E)
    emit_insn (gen_mulsf3_ie (operands[0], operands[1], operands[2]));
  if (! TARGET_SHMEDIA)
    DONE;
}")

(define_insn "*mulsf3_media"
  [(set (match_operand:SF 0 "fp_arith_reg_operand" "=f")
        (mult:SF (match_operand:SF 1 "fp_arith_reg_operand" "%f")
                 (match_operand:SF 2 "fp_arith_reg_operand" "f")))]
  "TARGET_SHMEDIA_FPU"
  "fmul.s       %1, %2, %0"
  [(set_attr "type" "fparith_media")])

(define_insn "mulsf3_i4"
  [(set (match_operand:SF 0 "fp_arith_reg_operand" "=f")
        (mult:SF (match_operand:SF 1 "fp_arith_reg_operand" "%0")
                 (match_operand:SF 2 "fp_arith_reg_operand" "f")))
   (use (match_operand:PSI 3 "fpscr_operand" "c"))]
  "TARGET_SH2E"
  "fmul %2,%0"
  [(set_attr "type" "fp")
   (set_attr "fp_mode" "single")])

(define_insn "mulsf3_ie"
  [(set (match_operand:SF 0 "fp_arith_reg_operand" "=f")
        (mult:SF (match_operand:SF 1 "fp_arith_reg_operand" "%0")
                 (match_operand:SF 2 "fp_arith_reg_operand" "f")))]
  "TARGET_SH2E && ! (TARGET_SH4 || TARGET_SH2A_SINGLE)"
  "fmul %2,%0"
  [(set_attr "type" "fp")])

(define_insn "mac_media"
  [(set (match_operand:SF 0 "fp_arith_reg_operand" "=f")
        (plus:SF (mult:SF (match_operand:SF 1 "fp_arith_reg_operand" "%f")
                          (match_operand:SF 2 "fp_arith_reg_operand" "f"))
                 (match_operand:SF 3 "fp_arith_reg_operand" "0")))]
  "TARGET_SHMEDIA_FPU"
  "fmac.s %1, %2, %0"
  [(set_attr "type" "fparith_media")])

(define_insn "*macsf3"
  [(set (match_operand:SF 0 "fp_arith_reg_operand" "=f")
        (plus:SF (mult:SF (match_operand:SF 1 "fp_arith_reg_operand" "%w")
                          (match_operand:SF 2 "fp_arith_reg_operand" "f"))
                 (match_operand:SF 3 "arith_reg_operand" "0")))
   (use (match_operand:PSI 4 "fpscr_operand" "c"))]
  "TARGET_SH2E && ! TARGET_SH4"
  "fmac fr0,%2,%0"
  [(set_attr "type" "fp")
   (set_attr "fp_mode" "single")])

(define_expand "divsf3"
  [(set (match_operand:SF 0 "arith_reg_operand" "")
        (div:SF (match_operand:SF 1 "arith_reg_operand" "")
                (match_operand:SF 2 "arith_reg_operand" "")))]
  "TARGET_SH2E || TARGET_SHMEDIA_FPU"
  "
{
  if (TARGET_SH2E)
    {
      expand_sf_binop (&gen_divsf3_i, operands);
      DONE;
    }
}")

(define_insn "*divsf3_media"
  [(set (match_operand:SF 0 "fp_arith_reg_operand" "=f")
        (div:SF (match_operand:SF 1 "fp_arith_reg_operand" "f")
                (match_operand:SF 2 "fp_arith_reg_operand" "f")))]
  "TARGET_SHMEDIA_FPU"
  "fdiv.s       %1, %2, %0"
  [(set_attr "type" "fdiv_media")])

(define_insn "divsf3_i"
  [(set (match_operand:SF 0 "arith_reg_dest" "=f")
        (div:SF (match_operand:SF 1 "arith_reg_operand" "0")
                 (match_operand:SF 2 "arith_reg_operand" "f")))
   (use (match_operand:PSI 3 "fpscr_operand" "c"))]
  "TARGET_SH2E"
  "fdiv %2,%0"
  [(set_attr "type" "fdiv")
   (set_attr "fp_mode" "single")])

(define_insn "floatdisf2"
  [(set (match_operand:SF 0 "fp_arith_reg_operand" "=f")
        (float:SF (match_operand:DI 1 "fp_arith_reg_operand" "f")))]
  "TARGET_SHMEDIA_FPU"
  "float.qs %1, %0"
  [(set_attr "type" "fpconv_media")])

(define_expand "floatsisf2"
  [(set (match_operand:SF 0 "fp_arith_reg_operand" "")
        (float:SF (match_operand:SI 1 "fpul_operand" "")))]
  "TARGET_SH2E || TARGET_SHMEDIA_FPU"
  "
{
  if (TARGET_SH4 || TARGET_SH2A_SINGLE)
    {
      emit_sf_insn (gen_floatsisf2_i4 (operands[0], operands[1], get_fpscr_rtx ()));
      DONE;
    }
}")

(define_insn "*floatsisf2_media"
  [(set (match_operand:SF 0 "fp_arith_reg_operand" "=f")
        (float:SF (match_operand:SI 1 "fp_arith_reg_operand" "f")))]
  "TARGET_SHMEDIA_FPU"
  "float.ls     %1, %0"
  [(set_attr "type" "fpconv_media")])

(define_insn "floatsisf2_i4"
  [(set (match_operand:SF 0 "fp_arith_reg_operand" "=f")
        (float:SF (match_operand:SI 1 "fpul_operand" "y")))
   (use (match_operand:PSI 2 "fpscr_operand" "c"))]
  "(TARGET_SH4 || TARGET_SH2A_SINGLE)"
  "float        %1,%0"
  [(set_attr "type" "fp")
   (set_attr "fp_mode" "single")])

(define_insn "*floatsisf2_ie"
  [(set (match_operand:SF 0 "fp_arith_reg_operand" "=f")
        (float:SF (match_operand:SI 1 "fpul_operand" "y")))]
  "TARGET_SH2E && ! (TARGET_SH4 || TARGET_SH2A_SINGLE)"
  "float        %1,%0"
  [(set_attr "type" "fp")])

(define_insn "fix_truncsfdi2"
  [(set (match_operand:DI 0 "fp_arith_reg_dest" "=f")
        (fix:DI (match_operand:SF 1 "fp_arith_reg_operand" "f")))]
  "TARGET_SHMEDIA_FPU"
  "ftrc.sq %1, %0"
  [(set_attr "type" "fpconv_media")])

(define_expand "fix_truncsfsi2"
  [(set (match_operand:SI 0 "fpul_operand" "=y")
        (fix:SI (match_operand:SF 1 "fp_arith_reg_operand" "f")))]
  "TARGET_SH2E || TARGET_SHMEDIA_FPU"
  "
{
  if (TARGET_SH4 || TARGET_SH2A_SINGLE)
    {
      emit_sf_insn (gen_fix_truncsfsi2_i4 (operands[0], operands[1], get_fpscr_rtx ()));
      DONE;
    }
}")

(define_insn "*fix_truncsfsi2_media"
  [(set (match_operand:SI 0 "fp_arith_reg_operand" "=f")
        (fix:SI (match_operand:SF 1 "fp_arith_reg_operand" "f")))]
  "TARGET_SHMEDIA_FPU"
  "ftrc.sl      %1, %0"
  [(set_attr "type" "fpconv_media")])

(define_insn "fix_truncsfsi2_i4"
  [(set (match_operand:SI 0 "fpul_operand" "=y")
        (fix:SI (match_operand:SF 1 "fp_arith_reg_operand" "f")))
   (use (match_operand:PSI 2 "fpscr_operand" "c"))]
  "(TARGET_SH4 || TARGET_SH2A_SINGLE)"
  "ftrc %1,%0"
  [(set_attr "type" "ftrc_s")
   (set_attr "fp_mode" "single")])

;; ??? This pattern is used nowhere.  fix_truncsfsi2 always expands to
;; fix_truncsfsi2_i4.
;; (define_insn "fix_truncsfsi2_i4_2"
;;  [(set (match_operand:SI 0 "arith_reg_operand" "=r")
;;      (fix:SI (match_operand:SF 1 "arith_reg_operand" "f")))
;;   (use (reg:PSI FPSCR_REG))
;;   (clobber (reg:SI FPUL_REG))]
;;  "TARGET_SH4"
;;  "#"
;;  [(set_attr "length" "4")
;;   (set_attr "fp_mode" "single")])

;;(define_split
;;  [(set (match_operand:SI 0 "arith_reg_operand" "=r")
;;      (fix:SI (match_operand:SF 1 "arith_reg_operand" "f")))
;;   (use (match_operand:PSI 2 "fpscr_operand" "c"))
;;   (clobber (reg:SI FPUL_REG))]
;;  "TARGET_SH4"
;;  [(parallel [(set (reg:SI FPUL_REG) (fix:SI (match_dup 1)))
;;            (use (match_dup 2))])
;;   (set (match_dup 0) (reg:SI FPUL_REG))])

(define_insn "*fixsfsi"
  [(set (match_operand:SI 0 "fpul_operand" "=y")
        (fix:SI (match_operand:SF 1 "fp_arith_reg_operand" "f")))]
  "TARGET_SH2E && ! (TARGET_SH4 || TARGET_SH2A_SINGLE)"
  "ftrc %1,%0"
  [(set_attr "type" "fp")])

(define_insn "cmpgtsf_t"
  [(set (reg:SI T_REG)
        (gt:SI (match_operand:SF 0 "fp_arith_reg_operand" "f")
               (match_operand:SF 1 "fp_arith_reg_operand" "f")))]
  "TARGET_SH2E && ! (TARGET_SH4 || TARGET_SH2A_SINGLE)"
  "fcmp/gt      %1,%0"
  [(set_attr "type" "fp")
   (set_attr "fp_mode" "single")])

(define_insn "cmpeqsf_t"
  [(set (reg:SI T_REG)
        (eq:SI (match_operand:SF 0 "fp_arith_reg_operand" "f")
               (match_operand:SF 1 "fp_arith_reg_operand" "f")))]
  "TARGET_SH2E && ! (TARGET_SH4 || TARGET_SH2A_SINGLE)"
  "fcmp/eq      %1,%0"
  [(set_attr "type" "fp")
   (set_attr "fp_mode" "single")])

(define_insn "ieee_ccmpeqsf_t"
  [(set (reg:SI T_REG)
        (ior:SI (reg:SI T_REG)
                (eq:SI (match_operand:SF 0 "fp_arith_reg_operand" "f")
                       (match_operand:SF 1 "fp_arith_reg_operand" "f"))))]
  "TARGET_SH2E && TARGET_IEEE && ! (TARGET_SH4 || TARGET_SH2A_SINGLE)"
  "* return output_ieee_ccmpeq (insn, operands);"
  [(set_attr "length" "4")])


(define_insn "cmpgtsf_t_i4"
  [(set (reg:SI T_REG)
        (gt:SI (match_operand:SF 0 "fp_arith_reg_operand" "f")
               (match_operand:SF 1 "fp_arith_reg_operand" "f")))
   (use (match_operand:PSI 2 "fpscr_operand" "c"))]
  "(TARGET_SH4 || TARGET_SH2A_SINGLE)"
  "fcmp/gt      %1,%0"
  [(set_attr "type" "fp")
   (set_attr "fp_mode" "single")])

(define_insn "cmpeqsf_t_i4"
  [(set (reg:SI T_REG)
        (eq:SI (match_operand:SF 0 "fp_arith_reg_operand" "f")
               (match_operand:SF 1 "fp_arith_reg_operand" "f")))
   (use (match_operand:PSI 2 "fpscr_operand" "c"))]
  "(TARGET_SH4 || TARGET_SH2A_SINGLE)"
  "fcmp/eq      %1,%0"
  [(set_attr "type" "fp")
   (set_attr "fp_mode" "single")])

(define_insn "*ieee_ccmpeqsf_t_4"
  [(set (reg:SI T_REG)
        (ior:SI (reg:SI T_REG)
                (eq:SI (match_operand:SF 0 "fp_arith_reg_operand" "f")
                       (match_operand:SF 1 "fp_arith_reg_operand" "f"))))
   (use (match_operand:PSI 2 "fpscr_operand" "c"))]
  "TARGET_IEEE && (TARGET_SH4 || TARGET_SH2A_SINGLE)"
  "* return output_ieee_ccmpeq (insn, operands);"
  [(set_attr "length" "4")
   (set_attr "fp_mode" "single")])

(define_insn "cmpeqsf_media"
  [(set (match_operand:SI 0 "register_operand" "=r")
        (eq:SI (match_operand:SF 1 "fp_arith_reg_operand" "f")
               (match_operand:SF 2 "fp_arith_reg_operand" "f")))]
  "TARGET_SHMEDIA_FPU"
  "fcmpeq.s     %1, %2, %0"
  [(set_attr "type" "fcmp_media")])

(define_insn "cmpgtsf_media"
  [(set (match_operand:SI 0 "register_operand" "=r")
        (gt:SI (match_operand:SF 1 "fp_arith_reg_operand" "f")
               (match_operand:SF 2 "fp_arith_reg_operand" "f")))]
  "TARGET_SHMEDIA_FPU"
  "fcmpgt.s     %1, %2, %0"
  [(set_attr "type" "fcmp_media")])

(define_insn "cmpgesf_media"
  [(set (match_operand:SI 0 "register_operand" "=r")
        (ge:SI (match_operand:SF 1 "fp_arith_reg_operand" "f")
               (match_operand:SF 2 "fp_arith_reg_operand" "f")))]
  "TARGET_SHMEDIA_FPU"
  "fcmpge.s     %1, %2, %0"
  [(set_attr "type" "fcmp_media")])

(define_insn "cmpunsf_media"
  [(set (match_operand:SI 0 "register_operand" "=r")
        (unordered:SI (match_operand:SF 1 "fp_arith_reg_operand" "f")
                      (match_operand:SF 2 "fp_arith_reg_operand" "f")))]
  "TARGET_SHMEDIA_FPU"
  "fcmpun.s     %1, %2, %0"
  [(set_attr "type" "fcmp_media")])

(define_expand "cmpsf"
  [(set (reg:SI T_REG)
        (compare (match_operand:SF 0 "arith_operand" "")
                 (match_operand:SF 1 "arith_operand" "")))]
  "TARGET_SH2E || TARGET_SHMEDIA_FPU"
  "
{
  sh_compare_op0 = operands[0];
  sh_compare_op1 = operands[1];
  DONE;
}")

(define_expand "negsf2"
  [(set (match_operand:SF 0 "fp_arith_reg_operand" "")
        (neg:SF (match_operand:SF 1 "fp_arith_reg_operand" "")))]
  "TARGET_SH2E || TARGET_SHMEDIA_FPU"
  "
{
  if (TARGET_SH2E)
    {
      expand_sf_unop (&gen_negsf2_i, operands);
      DONE;
    }
}")

(define_insn "*negsf2_media"
  [(set (match_operand:SF 0 "fp_arith_reg_operand" "=f")
        (neg:SF (match_operand:SF 1 "fp_arith_reg_operand" "f")))]
  "TARGET_SHMEDIA_FPU"
  "fneg.s       %1, %0"
  [(set_attr "type" "fmove_media")])

(define_insn "negsf2_i"
  [(set (match_operand:SF 0 "fp_arith_reg_operand" "=f")
        (neg:SF (match_operand:SF 1 "fp_arith_reg_operand" "0")))
   (use (match_operand:PSI 2 "fpscr_operand" "c"))]
  "TARGET_SH2E"
  "fneg %0"
  [(set_attr "type" "fmove")
   (set_attr "fp_mode" "single")])

(define_expand "sqrtsf2"
  [(set (match_operand:SF 0 "fp_arith_reg_operand" "")
        (sqrt:SF (match_operand:SF 1 "fp_arith_reg_operand" "")))]
  "TARGET_SH3E || TARGET_SHMEDIA_FPU"
  "
{
  if (TARGET_SH3E)
    {
      expand_sf_unop (&gen_sqrtsf2_i, operands);
      DONE;
    }
}")

(define_insn "*sqrtsf2_media"
  [(set (match_operand:SF 0 "fp_arith_reg_operand" "=f")
        (sqrt:SF (match_operand:SF 1 "fp_arith_reg_operand" "f")))]
  "TARGET_SHMEDIA_FPU"
  "fsqrt.s      %1, %0"
  [(set_attr "type" "fdiv_media")])

(define_insn "sqrtsf2_i"
  [(set (match_operand:SF 0 "fp_arith_reg_operand" "=f")
        (sqrt:SF (match_operand:SF 1 "fp_arith_reg_operand" "0")))
   (use (match_operand:PSI 2 "fpscr_operand" "c"))]
  "TARGET_SH3E"
  "fsqrt        %0"
  [(set_attr "type" "fdiv")
   (set_attr "fp_mode" "single")])

(define_insn "rsqrtsf2"
  [(set (match_operand:SF 0 "register_operand" "=f")
        (div:SF (match_operand:SF 1 "immediate_operand" "i")
                (sqrt:SF (match_operand:SF 2 "register_operand" "0"))))
   (use (match_operand:PSI 3 "fpscr_operand" "c"))]
  "TARGET_SH4A_FP && flag_unsafe_math_optimizations
   && operands[1] == CONST1_RTX (SFmode)"
  "fsrra        %0"
  [(set_attr "type" "fsrra")
   (set_attr "fp_mode" "single")])

(define_insn "fsca"
  [(set (match_operand:V2SF 0 "fp_arith_reg_operand" "=f")
        (vec_concat:V2SF
         (unspec:SF [(mult:SF
                      (float:SF (match_operand:SI 1 "fpul_operand" "y"))
                      (match_operand:SF 2 "immediate_operand" "i"))
                    ] UNSPEC_FSINA)
         (unspec:SF [(mult:SF (float:SF (match_dup 1)) (match_dup 2))
                    ] UNSPEC_FCOSA)))
   (use (match_operand:PSI 3 "fpscr_operand" "c"))]
  "TARGET_SH4A_FP && flag_unsafe_math_optimizations
   && operands[2] == sh_fsca_int2sf ()"
  "fsca fpul,%d0"
  [(set_attr "type" "fsca")
   (set_attr "fp_mode" "single")])

(define_expand "sinsf2"
  [(set (match_operand:SF 0 "nonimmediate_operand" "")
        (unspec:SF [(match_operand:SF 1 "fp_arith_reg_operand" "")]
                   UNSPEC_FSINA))]
  "TARGET_SH4A_FP && flag_unsafe_math_optimizations"
  "
{
  rtx scaled = gen_reg_rtx (SFmode);
  rtx truncated = gen_reg_rtx (SImode);
  rtx fsca = gen_reg_rtx (V2SFmode);
  rtx scale_reg = force_reg (SFmode, sh_fsca_sf2int ());

  emit_sf_insn (gen_mulsf3 (scaled, operands[1], scale_reg));
  emit_sf_insn (gen_fix_truncsfsi2 (truncated, scaled));
  emit_sf_insn (gen_fsca (fsca, truncated, sh_fsca_int2sf (),
                          get_fpscr_rtx ()));
  emit_move_insn (operands[0], gen_rtx_SUBREG (SFmode, fsca, 0));
  DONE;
}")

(define_expand "cossf2"
  [(set (match_operand:SF 0 "nonimmediate_operand" "")
        (unspec:SF [(match_operand:SF 1 "fp_arith_reg_operand" "")]
                   UNSPEC_FCOSA))]
  "TARGET_SH4A_FP && flag_unsafe_math_optimizations"
  "
{
  rtx scaled = gen_reg_rtx (SFmode);
  rtx truncated = gen_reg_rtx (SImode);
  rtx fsca = gen_reg_rtx (V2SFmode);
  rtx scale_reg = force_reg (SFmode, sh_fsca_sf2int ());

  emit_sf_insn (gen_mulsf3 (scaled, operands[1], scale_reg));
  emit_sf_insn (gen_fix_truncsfsi2 (truncated, scaled));
  emit_sf_insn (gen_fsca (fsca, truncated, sh_fsca_int2sf (),
                          get_fpscr_rtx ()));
  emit_move_insn (operands[0], gen_rtx_SUBREG (SFmode, fsca, 4));
  DONE;
}")

(define_expand "sindf2"
  [(set (match_operand:DF 0 "fp_arith_reg_operand" "")
        (unspec:DF [(match_operand:DF 1 "fp_arith_reg_operand" "")]
                   UNSPEC_FSINA))]
  "TARGET_SH4A_FP && ! TARGET_FPU_SINGLE && flag_unsafe_math_optimizations"
  "
{
  rtx scaled = gen_reg_rtx (DFmode);
  rtx truncated = gen_reg_rtx (SImode);
  rtx fsca = gen_reg_rtx (V2SFmode);
  rtx scale_reg = force_reg (DFmode, sh_fsca_df2int ());
  rtx sfresult = gen_reg_rtx (SFmode);

  emit_df_insn (gen_muldf3 (scaled, operands[1], scale_reg));
  emit_df_insn (gen_fix_truncdfsi2 (truncated, scaled));
  emit_sf_insn (gen_fsca (fsca, truncated, sh_fsca_int2sf (),
                          get_fpscr_rtx ()));
  emit_move_insn (sfresult, gen_rtx_SUBREG (SFmode, fsca, 0));
  emit_df_insn (gen_extendsfdf2 (operands[0], sfresult));
  DONE;
}")

(define_expand "cosdf2"
  [(set (match_operand:DF 0 "fp_arith_reg_operand" "")
        (unspec:DF [(match_operand:DF 1 "fp_arith_reg_operand" "")]
                   UNSPEC_FCOSA))]
  "TARGET_SH4A_FP && ! TARGET_FPU_SINGLE && flag_unsafe_math_optimizations"
  "
{
  rtx scaled = gen_reg_rtx (DFmode);
  rtx truncated = gen_reg_rtx (SImode);
  rtx fsca = gen_reg_rtx (V2SFmode);
  rtx scale_reg = force_reg (DFmode, sh_fsca_df2int ());
  rtx sfresult = gen_reg_rtx (SFmode);

  emit_df_insn (gen_muldf3 (scaled, operands[1], scale_reg));
  emit_df_insn (gen_fix_truncdfsi2 (truncated, scaled));
  emit_sf_insn (gen_fsca (fsca, truncated, sh_fsca_int2sf (),
                          get_fpscr_rtx ()));
  emit_move_insn (sfresult, gen_rtx_SUBREG (SFmode, fsca, 4));
  emit_df_insn (gen_extendsfdf2 (operands[0], sfresult));
  DONE;
}")

(define_expand "abssf2"
  [(set (match_operand:SF 0 "fp_arith_reg_operand" "")
        (abs:SF (match_operand:SF 1 "fp_arith_reg_operand" "")))]
  "TARGET_SH2E || TARGET_SHMEDIA_FPU"
  "
{
  if (TARGET_SH2E)
    {
      expand_sf_unop (&gen_abssf2_i, operands);
      DONE;
    }
}")

(define_insn "*abssf2_media"
  [(set (match_operand:SF 0 "fp_arith_reg_operand" "=f")
        (abs:SF (match_operand:SF 1 "fp_arith_reg_operand" "f")))]
  "TARGET_SHMEDIA_FPU"
  "fabs.s       %1, %0"
  [(set_attr "type" "fmove_media")])

(define_insn "abssf2_i"
  [(set (match_operand:SF 0 "fp_arith_reg_operand" "=f")
        (abs:SF (match_operand:SF 1 "fp_arith_reg_operand" "0")))
   (use (match_operand:PSI 2 "fpscr_operand" "c"))]
  "TARGET_SH2E"
  "fabs %0"
  [(set_attr "type" "fmove")
   (set_attr "fp_mode" "single")])

(define_expand "adddf3"
  [(set (match_operand:DF 0 "fp_arith_reg_operand" "")
        (plus:DF (match_operand:DF 1 "fp_arith_reg_operand" "")
                 (match_operand:DF 2 "fp_arith_reg_operand" "")))]
  "(TARGET_SH4 || TARGET_SH2A_DOUBLE) || TARGET_SHMEDIA_FPU"
  "
{
  if (TARGET_SH4 || TARGET_SH2A_DOUBLE)
    {
      expand_df_binop (&gen_adddf3_i, operands);
      DONE;
    }
}")

(define_insn "*adddf3_media"
  [(set (match_operand:DF 0 "fp_arith_reg_operand" "=f")
        (plus:DF (match_operand:DF 1 "fp_arith_reg_operand" "%f")
                 (match_operand:DF 2 "fp_arith_reg_operand" "f")))]
  "TARGET_SHMEDIA_FPU"
  "fadd.d       %1, %2, %0"
  [(set_attr "type" "dfparith_media")])

(define_insn "adddf3_i"
  [(set (match_operand:DF 0 "fp_arith_reg_operand" "=f")
        (plus:DF (match_operand:DF 1 "fp_arith_reg_operand" "%0")
                 (match_operand:DF 2 "fp_arith_reg_operand" "f")))
   (use (match_operand:PSI 3 "fpscr_operand" "c"))]
  "(TARGET_SH4 || TARGET_SH2A_DOUBLE)"
  "fadd %2,%0"
  [(set_attr "type" "dfp_arith")
   (set_attr "fp_mode" "double")])

(define_expand "subdf3"
  [(set (match_operand:DF 0 "fp_arith_reg_operand" "")
        (minus:DF (match_operand:DF 1 "fp_arith_reg_operand" "")
                  (match_operand:DF 2 "fp_arith_reg_operand" "")))]
  "(TARGET_SH4 || TARGET_SH2A_DOUBLE) || TARGET_SHMEDIA_FPU"
  "
{
  if (TARGET_SH4 || TARGET_SH2A_DOUBLE)
    {
      expand_df_binop (&gen_subdf3_i, operands);
      DONE;
    }
}")

(define_insn "*subdf3_media"
  [(set (match_operand:DF 0 "fp_arith_reg_operand" "=f")
        (minus:DF (match_operand:DF 1 "fp_arith_reg_operand" "f")
                  (match_operand:DF 2 "fp_arith_reg_operand" "f")))]
  "TARGET_SHMEDIA_FPU"
  "fsub.d       %1, %2, %0"
  [(set_attr "type" "dfparith_media")])

(define_insn "subdf3_i"
  [(set (match_operand:DF 0 "fp_arith_reg_operand" "=f")
        (minus:DF (match_operand:DF 1 "fp_arith_reg_operand" "0")
                  (match_operand:DF 2 "fp_arith_reg_operand" "f")))
   (use (match_operand:PSI 3 "fpscr_operand" "c"))]
  "(TARGET_SH4 || TARGET_SH2A_DOUBLE)"
  "fsub %2,%0"
  [(set_attr "type" "dfp_arith")
   (set_attr "fp_mode" "double")])

(define_expand "muldf3"
  [(set (match_operand:DF 0 "fp_arith_reg_operand" "")
        (mult:DF (match_operand:DF 1 "fp_arith_reg_operand" "")
                 (match_operand:DF 2 "fp_arith_reg_operand" "")))]
  "(TARGET_SH4 || TARGET_SH2A_DOUBLE) || TARGET_SHMEDIA_FPU"
  "
{
  if (TARGET_SH4 || TARGET_SH2A_DOUBLE)
    {
      expand_df_binop (&gen_muldf3_i, operands);
      DONE;
    }
}")

(define_insn "*muldf3_media"
  [(set (match_operand:DF 0 "fp_arith_reg_operand" "=f")
        (mult:DF (match_operand:DF 1 "fp_arith_reg_operand" "%f")
                 (match_operand:DF 2 "fp_arith_reg_operand" "f")))]
  "TARGET_SHMEDIA_FPU"
  "fmul.d       %1, %2, %0"
  [(set_attr "type" "dfmul_media")])

(define_insn "muldf3_i"
  [(set (match_operand:DF 0 "fp_arith_reg_operand" "=f")
        (mult:DF (match_operand:DF 1 "fp_arith_reg_operand" "%0")
                 (match_operand:DF 2 "fp_arith_reg_operand" "f")))
   (use (match_operand:PSI 3 "fpscr_operand" "c"))]
  "(TARGET_SH4 || TARGET_SH2A_DOUBLE)"
  "fmul %2,%0"
  [(set_attr "type" "dfp_arith")
   (set_attr "fp_mode" "double")])

(define_expand "divdf3"
  [(set (match_operand:DF 0 "fp_arith_reg_operand" "")
        (div:DF (match_operand:DF 1 "fp_arith_reg_operand" "")
                (match_operand:DF 2 "fp_arith_reg_operand" "")))]
  "(TARGET_SH4 || TARGET_SH2A_DOUBLE) || TARGET_SHMEDIA_FPU"
  "
{
  if (TARGET_SH4 || TARGET_SH2A_DOUBLE)
    {
      expand_df_binop (&gen_divdf3_i, operands);
      DONE;
    }
}")

(define_insn "*divdf3_media"
  [(set (match_operand:DF 0 "fp_arith_reg_operand" "=f")
        (div:DF (match_operand:DF 1 "fp_arith_reg_operand" "f")
                (match_operand:DF 2 "fp_arith_reg_operand" "f")))]
  "TARGET_SHMEDIA_FPU"
  "fdiv.d       %1, %2, %0"
  [(set_attr "type" "dfdiv_media")])

(define_insn "divdf3_i"
  [(set (match_operand:DF 0 "fp_arith_reg_operand" "=f")
        (div:DF (match_operand:DF 1 "fp_arith_reg_operand" "0")
                (match_operand:DF 2 "fp_arith_reg_operand" "f")))
   (use (match_operand:PSI 3 "fpscr_operand" "c"))]
  "(TARGET_SH4 || TARGET_SH2A_DOUBLE)"
  "fdiv %2,%0"
  [(set_attr "type" "dfdiv")
   (set_attr "fp_mode" "double")])

(define_insn "floatdidf2"
  [(set (match_operand:DF 0 "fp_arith_reg_operand" "=f")
        (float:DF (match_operand:DI 1 "fp_arith_reg_operand" "f")))]
  "TARGET_SHMEDIA_FPU"
  "float.qd     %1, %0"
  [(set_attr "type" "dfpconv_media")])

(define_expand "floatsidf2"
  [(set (match_operand:DF 0 "fp_arith_reg_operand" "")
        (float:DF (match_operand:SI 1 "fpul_operand" "")))]
  "(TARGET_SH4 || TARGET_SH2A_DOUBLE) || TARGET_SHMEDIA_FPU"
  "
{
  if (TARGET_SH4 || TARGET_SH2A_DOUBLE)
    {
      emit_df_insn (gen_floatsidf2_i (operands[0], operands[1],
                                      get_fpscr_rtx ()));
      DONE;
    }
}")

(define_insn "*floatsidf2_media"
  [(set (match_operand:DF 0 "fp_arith_reg_operand" "=f")
        (float:DF (match_operand:SI 1 "fp_arith_reg_operand" "f")))]
  "TARGET_SHMEDIA_FPU"
  "float.ld     %1, %0"
  [(set_attr "type" "dfpconv_media")])

(define_insn "floatsidf2_i"
  [(set (match_operand:DF 0 "fp_arith_reg_operand" "=f")
        (float:DF (match_operand:SI 1 "fpul_operand" "y")))
   (use (match_operand:PSI 2 "fpscr_operand" "c"))]
  "(TARGET_SH4 || TARGET_SH2A_DOUBLE)"
  "float        %1,%0"
  [(set_attr "type" "dfp_conv")
   (set_attr "fp_mode" "double")])

(define_insn "fix_truncdfdi2"
  [(set (match_operand:DI 0 "fp_arith_reg_dest" "=f")
        (fix:DI (match_operand:DF 1 "fp_arith_reg_operand" "f")))]
  "TARGET_SHMEDIA_FPU"
  "ftrc.dq      %1, %0"
  [(set_attr "type" "dfpconv_media")])

(define_expand "fix_truncdfsi2"
  [(set (match_operand:SI 0 "fpul_operand" "")
        (fix:SI (match_operand:DF 1 "fp_arith_reg_operand" "")))]
  "(TARGET_SH4 || TARGET_SH2A_DOUBLE) || TARGET_SHMEDIA_FPU"
  "
{
  if (TARGET_SH4 || TARGET_SH2A_DOUBLE)
    {
      emit_df_insn (gen_fix_truncdfsi2_i (operands[0], operands[1],
                                          get_fpscr_rtx ()));
      DONE;
    }
}")

(define_insn "*fix_truncdfsi2_media"
  [(set (match_operand:SI 0 "fp_arith_reg_operand" "=f")
        (fix:SI (match_operand:DF 1 "fp_arith_reg_operand" "f")))]
  "TARGET_SHMEDIA_FPU"
  "ftrc.dl      %1, %0"
  [(set_attr "type" "dfpconv_media")])

(define_insn "fix_truncdfsi2_i"
  [(set (match_operand:SI 0 "fpul_operand" "=y")
        (fix:SI (match_operand:DF 1 "fp_arith_reg_operand" "f")))
   (use (match_operand:PSI 2 "fpscr_operand" "c"))]
  "(TARGET_SH4 || TARGET_SH2A_DOUBLE)"
  "ftrc %1,%0"
  [(set_attr "type" "dfp_conv")
   (set_attr "dfp_comp" "no")
   (set_attr "fp_mode" "double")])

;; ??? This pattern is used nowhere.  fix_truncdfsi2 always expands to
;; fix_truncdfsi2_i.
;; (define_insn "fix_truncdfsi2_i4"
;;   [(set (match_operand:SI 0 "arith_reg_operand" "=r")
;;      (fix:SI (match_operand:DF 1 "arith_reg_operand" "f")))
;;    (use (match_operand:PSI 2 "fpscr_operand" "c"))
;;    (clobber (reg:SI FPUL_REG))]
;;   "TARGET_SH4"
;;   "#"
;;   [(set_attr "length" "4")
;;    (set_attr "fp_mode" "double")])
;;
;; (define_split
;;   [(set (match_operand:SI 0 "arith_reg_operand" "=r")
;;      (fix:SI (match_operand:DF 1 "arith_reg_operand" "f")))
;;    (use (match_operand:PSI 2 "fpscr_operand" "c"))
;;    (clobber (reg:SI FPUL_REG))]
;;   "TARGET_SH4"
;;   [(parallel [(set (reg:SI FPUL_REG) (fix:SI (match_dup 1)))
;;            (use (match_dup 2))])
;;    (set (match_dup 0) (reg:SI FPUL_REG))])

(define_insn "cmpgtdf_t"
  [(set (reg:SI T_REG)
        (gt:SI (match_operand:DF 0 "arith_reg_operand" "f")
               (match_operand:DF 1 "arith_reg_operand" "f")))
   (use (match_operand:PSI 2 "fpscr_operand" "c"))]
  "(TARGET_SH4 || TARGET_SH2A_DOUBLE)"
  "fcmp/gt      %1,%0"
  [(set_attr "type" "dfp_cmp")
   (set_attr "fp_mode" "double")])

(define_insn "cmpeqdf_t"
  [(set (reg:SI T_REG)
        (eq:SI (match_operand:DF 0 "arith_reg_operand" "f")
               (match_operand:DF 1 "arith_reg_operand" "f")))
   (use (match_operand:PSI 2 "fpscr_operand" "c"))]
  "(TARGET_SH4 || TARGET_SH2A_DOUBLE)"
  "fcmp/eq      %1,%0"
  [(set_attr "type" "dfp_cmp")
   (set_attr "fp_mode" "double")])

(define_insn "*ieee_ccmpeqdf_t"
  [(set (reg:SI T_REG)
        (ior:SI (reg:SI T_REG)
                (eq:SI (match_operand:DF 0 "arith_reg_operand" "f")
                       (match_operand:DF 1 "arith_reg_operand" "f"))))
   (use (match_operand:PSI 2 "fpscr_operand" "c"))]
  "TARGET_IEEE && (TARGET_SH4 || TARGET_SH2A_DOUBLE)"
  "* return output_ieee_ccmpeq (insn, operands);"
  [(set_attr "length" "4")
   (set_attr "fp_mode" "double")])

(define_insn "cmpeqdf_media"
  [(set (match_operand:SI 0 "register_operand" "=r")
        (eq:SI (match_operand:DF 1 "fp_arith_reg_operand" "f")
               (match_operand:DF 2 "fp_arith_reg_operand" "f")))]
  "TARGET_SHMEDIA_FPU"
  "fcmpeq.d     %1,%2,%0"
  [(set_attr "type" "fcmp_media")])

(define_insn "cmpgtdf_media"
  [(set (match_operand:SI 0 "register_operand" "=r")
        (gt:SI (match_operand:DF 1 "fp_arith_reg_operand" "f")
               (match_operand:DF 2 "fp_arith_reg_operand" "f")))]
  "TARGET_SHMEDIA_FPU"
  "fcmpgt.d     %1,%2,%0"
  [(set_attr "type" "fcmp_media")])

(define_insn "cmpgedf_media"
  [(set (match_operand:SI 0 "register_operand" "=r")
        (ge:SI (match_operand:DF 1 "fp_arith_reg_operand" "f")
               (match_operand:DF 2 "fp_arith_reg_operand" "f")))]
  "TARGET_SHMEDIA_FPU"
  "fcmpge.d     %1,%2,%0"
  [(set_attr "type" "fcmp_media")])

(define_insn "cmpundf_media"
  [(set (match_operand:SI 0 "register_operand" "=r")
        (unordered:SI (match_operand:DF 1 "fp_arith_reg_operand" "f")
                      (match_operand:DF 2 "fp_arith_reg_operand" "f")))]
  "TARGET_SHMEDIA_FPU"
  "fcmpun.d     %1,%2,%0"
  [(set_attr "type" "fcmp_media")])

(define_expand "cmpdf"
  [(set (reg:SI T_REG)
        (compare (match_operand:DF 0 "arith_operand" "")
                 (match_operand:DF 1 "arith_operand" "")))]
  "(TARGET_SH4 || TARGET_SH2A_DOUBLE) || TARGET_SHMEDIA_FPU"
  "
{
  sh_compare_op0 = operands[0];
  sh_compare_op1 = operands[1];
  DONE;
}")

(define_expand "negdf2"
  [(set (match_operand:DF 0 "arith_reg_operand" "")
        (neg:DF (match_operand:DF 1 "arith_reg_operand" "")))]
  "(TARGET_SH4 || TARGET_SH2A_DOUBLE) || TARGET_SHMEDIA_FPU"
  "
{
  if (TARGET_SH4 || TARGET_SH2A_DOUBLE)
    {
      expand_df_unop (&gen_negdf2_i, operands);
      DONE;
    }
}")

(define_insn "*negdf2_media"
  [(set (match_operand:DF 0 "fp_arith_reg_operand" "=f")
        (neg:DF (match_operand:DF 1 "fp_arith_reg_operand" "f")))]
  "TARGET_SHMEDIA_FPU"
  "fneg.d       %1, %0"
  [(set_attr "type" "fmove_media")])

(define_insn "negdf2_i"
  [(set (match_operand:DF 0 "fp_arith_reg_operand" "=f")
        (neg:DF (match_operand:DF 1 "fp_arith_reg_operand" "0")))
   (use (match_operand:PSI 2 "fpscr_operand" "c"))]
  "(TARGET_SH4 || TARGET_SH2A_DOUBLE)"
  "fneg %0"
  [(set_attr "type" "fmove")
   (set_attr "fp_mode" "double")])

(define_expand "sqrtdf2"
  [(set (match_operand:DF 0 "arith_reg_operand" "")
        (sqrt:DF (match_operand:DF 1 "arith_reg_operand" "")))]
  "(TARGET_SH4 || TARGET_SH2A_DOUBLE) || TARGET_SHMEDIA_FPU"
  "
{
  if (TARGET_SH4 || TARGET_SH2A_DOUBLE)
    {
      expand_df_unop (&gen_sqrtdf2_i, operands);
      DONE;
    }
}")

(define_insn "*sqrtdf2_media"
  [(set (match_operand:DF 0 "fp_arith_reg_operand" "=f")
        (sqrt:DF (match_operand:DF 1 "fp_arith_reg_operand" "f")))]
  "TARGET_SHMEDIA_FPU"
  "fsqrt.d      %1, %0"
  [(set_attr "type" "dfdiv_media")])

(define_insn "sqrtdf2_i"
  [(set (match_operand:DF 0 "fp_arith_reg_operand" "=f")
        (sqrt:DF (match_operand:DF 1 "fp_arith_reg_operand" "0")))
   (use (match_operand:PSI 2 "fpscr_operand" "c"))]
  "(TARGET_SH4 || TARGET_SH2A_DOUBLE)"
  "fsqrt        %0"
  [(set_attr "type" "dfdiv")
   (set_attr "fp_mode" "double")])

(define_expand "absdf2"
  [(set (match_operand:DF 0 "arith_reg_operand" "")
        (abs:DF (match_operand:DF 1 "arith_reg_operand" "")))]
  "(TARGET_SH4 || TARGET_SH2A_DOUBLE) || TARGET_SHMEDIA_FPU"
  "
{
  if (TARGET_SH4 || TARGET_SH2A_DOUBLE)
    {
      expand_df_unop (&gen_absdf2_i, operands);
      DONE;
    }
}")

(define_insn "*absdf2_media"
  [(set (match_operand:DF 0 "fp_arith_reg_operand" "=f")
        (abs:DF (match_operand:DF 1 "fp_arith_reg_operand" "f")))]
  "TARGET_SHMEDIA_FPU"
  "fabs.d       %1, %0"
  [(set_attr "type" "fmove_media")])

(define_insn "absdf2_i"
  [(set (match_operand:DF 0 "fp_arith_reg_operand" "=f")
        (abs:DF (match_operand:DF 1 "fp_arith_reg_operand" "0")))
   (use (match_operand:PSI 2 "fpscr_operand" "c"))]
  "(TARGET_SH4 || TARGET_SH2A_DOUBLE)"
  "fabs %0"
  [(set_attr "type" "fmove")
   (set_attr "fp_mode" "double")])

(define_expand "extendsfdf2"
  [(set (match_operand:DF 0 "fp_arith_reg_operand" "")
        (float_extend:DF (match_operand:SF 1 "fpul_operand" "")))]
  "(TARGET_SH4 || TARGET_SH2A_DOUBLE) || TARGET_SHMEDIA_FPU"
  "
{
  if (TARGET_SH4 || TARGET_SH2A_DOUBLE)
    {
      emit_df_insn (gen_extendsfdf2_i4 (operands[0], operands[1],
                                        get_fpscr_rtx ()));
      DONE;
    }
}")

(define_insn "*extendsfdf2_media"
  [(set (match_operand:DF 0 "fp_arith_reg_operand" "=f")
        (float_extend:DF (match_operand:SF 1 "fp_arith_reg_operand" "f")))]
  "TARGET_SHMEDIA_FPU"
  "fcnv.sd      %1, %0"
  [(set_attr "type" "dfpconv_media")])

(define_insn "extendsfdf2_i4"
  [(set (match_operand:DF 0 "fp_arith_reg_operand" "=f")
        (float_extend:DF (match_operand:SF 1 "fpul_operand" "y")))
   (use (match_operand:PSI 2 "fpscr_operand" "c"))]
  "(TARGET_SH4 || TARGET_SH2A_DOUBLE)"
  "fcnvsd  %1,%0"
  [(set_attr "type" "fp")
   (set_attr "fp_mode" "double")])

(define_expand "truncdfsf2"
  [(set (match_operand:SF 0 "fpul_operand" "")
        (float_truncate:SF (match_operand:DF 1 "fp_arith_reg_operand" "")))]
  "(TARGET_SH4 || TARGET_SH2A_DOUBLE) || TARGET_SHMEDIA_FPU"
  "
{
  if (TARGET_SH4 || TARGET_SH2A_DOUBLE)
    {
      emit_df_insn (gen_truncdfsf2_i4 (operands[0], operands[1],
                                       get_fpscr_rtx ()));
      DONE;
    }
}")

(define_insn "*truncdfsf2_media"
  [(set (match_operand:SF 0 "fp_arith_reg_operand" "=f")
        (float_truncate:SF (match_operand:DF 1 "fp_arith_reg_operand" "f")))]
  "TARGET_SHMEDIA_FPU"
  "fcnv.ds      %1, %0"
  [(set_attr "type" "dfpconv_media")])

(define_insn "truncdfsf2_i4"
  [(set (match_operand:SF 0 "fpul_operand" "=y")
        (float_truncate:SF (match_operand:DF 1 "fp_arith_reg_operand" "f")))
   (use (match_operand:PSI 2 "fpscr_operand" "c"))]
  "(TARGET_SH4 || TARGET_SH2A_DOUBLE)"
  "fcnvds  %1,%0"
  [(set_attr "type" "fp")
   (set_attr "fp_mode" "double")])

;; Bit field extract patterns.  These give better code for packed bitfields,
;; because they allow auto-increment addresses to be generated.

(define_expand "insv"
  [(set (zero_extract:SI (match_operand:QI 0 "memory_operand" "")
                         (match_operand:SI 1 "immediate_operand" "")
                         (match_operand:SI 2 "immediate_operand" ""))
        (match_operand:SI 3 "general_operand" ""))]
  "TARGET_SH1 && ! TARGET_LITTLE_ENDIAN"
  "
{
  rtx addr_target, orig_address, shift_reg, qi_val;
  HOST_WIDE_INT bitsize, size, v = 0;
  rtx x = operands[3];

  /* ??? expmed doesn't care for non-register predicates.  */
  if (! memory_operand (operands[0], VOIDmode)
      || ! immediate_operand (operands[1], VOIDmode)
      || ! immediate_operand (operands[2], VOIDmode)
      || ! general_operand (x, VOIDmode))
    FAIL;
  /* If this isn't a 16 / 24 / 32 bit field, or if
     it doesn't start on a byte boundary, then fail.  */
  bitsize = INTVAL (operands[1]);
  if (bitsize < 16 || bitsize > 32 || bitsize % 8 != 0
      || (INTVAL (operands[2]) % 8) != 0)
    FAIL;

  size = bitsize / 8;
  orig_address = XEXP (operands[0], 0);
  shift_reg = gen_reg_rtx (SImode);
  if (GET_CODE (x) == CONST_INT)
    {
      v = INTVAL (x);
      qi_val = force_reg (QImode, GEN_INT (trunc_int_for_mode (v, QImode)));
    }
  else
    {
      emit_insn (gen_movsi (shift_reg, operands[3]));
      qi_val = gen_rtx_SUBREG (QImode, shift_reg, 3);
    }
  addr_target = copy_addr_to_reg (plus_constant (orig_address, size - 1));

  operands[0] = replace_equiv_address (operands[0], addr_target);
  emit_insn (gen_movqi (operands[0], qi_val));

  while (size -= 1)
    {
      if (GET_CODE (x) == CONST_INT)
        qi_val
          = force_reg (QImode, GEN_INT (trunc_int_for_mode (v >>= 8, QImode)));
      else
        {
          emit_insn (gen_lshrsi3_k (shift_reg, shift_reg, GEN_INT (8)));
          qi_val = gen_rtx_SUBREG (QImode, shift_reg, 3);
        }
      emit_insn (gen_addsi3 (addr_target, addr_target, constm1_rtx));
      emit_insn (gen_movqi (operands[0], qi_val));
    }

  DONE;
}")

(define_insn "movua"
  [(set (match_operand:SI 0 "register_operand" "=z")
        (sign_extract:SI (match_operand:SI 1 "unaligned_load_operand" "Sua>")
                         (const_int 32) (const_int 0)))]
  "TARGET_SH4A_ARCH"
  "movua.l      %1,%0"
  [(set_attr "type" "movua")])

;; We shouldn't need this, but cse replaces increments with references
;; to other regs before flow has a chance to create post_inc
;; addressing modes, and only postreload's cse_move2add brings the
;; increments back to a usable form.
(define_peephole2
  [(set (match_operand:SI 0 "register_operand" "")
        (sign_extract:SI (mem:SI (match_operand:SI 1 "register_operand" ""))
                         (const_int 32) (const_int 0)))
   (set (match_dup 1) (plus:SI (match_dup 1) (const_int 4)))]
  "TARGET_SH4A_ARCH && REGNO (operands[0]) != REGNO (operands[1])"
  [(set (match_operand:SI 0 "register_operand" "")
        (sign_extract:SI (mem:SI (post_inc:SI
                                  (match_operand:SI 1 "register_operand" "")))
                         (const_int 32) (const_int 0)))]
  "")

(define_expand "extv"
  [(set (match_operand:SI 0 "register_operand" "")
        (sign_extract:SI (match_operand:QI 1 "unaligned_load_operand" "")
                         (match_operand 2 "const_int_operand" "")
                         (match_operand 3 "const_int_operand" "")))]
  "TARGET_SH4A_ARCH"
{
  if (TARGET_SH4A_ARCH
      && INTVAL (operands[2]) == 32
      && INTVAL (operands[3]) == -24 * (BITS_BIG_ENDIAN != BYTES_BIG_ENDIAN)
      && GET_CODE (operands[1]) == MEM && MEM_ALIGN (operands[1]) < 32)
    {
      emit_insn (gen_movua (operands[0],
                            adjust_address (operands[1], SImode, 0)));
      DONE;
    }

  FAIL;
})

(define_expand "extzv"
  [(set (match_operand:SI 0 "register_operand" "")
        (zero_extract:SI (match_operand:QI 1 "unaligned_load_operand" "")
                         (match_operand 2 "const_int_operand" "")
                         (match_operand 3 "const_int_operand" "")))]
  "TARGET_SH4A_ARCH"
{
  if (TARGET_SH4A_ARCH
      && INTVAL (operands[2]) == 32
      && INTVAL (operands[3]) == -24 * (BITS_BIG_ENDIAN != BYTES_BIG_ENDIAN)
      && GET_CODE (operands[1]) == MEM && MEM_ALIGN (operands[1]) < 32)
    {
      emit_insn (gen_movua (operands[0],
                            adjust_address (operands[1], SImode, 0)));
      DONE;
    }

  FAIL;
})


;; -------------------------------------------------------------------------
;; Peepholes
;; -------------------------------------------------------------------------

;; This matches cases where a stack pointer increment at the start of the
;; epilogue combines with a stack slot read loading the return value.

(define_peephole
  [(set (match_operand:SI 0 "arith_reg_operand" "")
        (mem:SI (match_operand:SI 1 "arith_reg_operand" "")))
   (set (match_dup 1) (plus:SI (match_dup 1) (const_int 4)))]
  "TARGET_SH1 && REGNO (operands[1]) != REGNO (operands[0])"
  "mov.l        @%1+,%0")

;; See the comment on the dt combiner pattern above.

(define_peephole
  [(set (match_operand:SI 0 "arith_reg_operand" "=r")
        (plus:SI (match_dup 0)
                 (const_int -1)))
   (set (reg:SI T_REG)
        (eq:SI (match_dup 0)
               (const_int 0)))]
  "TARGET_SH2"
  "dt   %0")

;; These convert sequences such as `mov #k,r0; add r15,r0; mov.l @r0,rn'
;; to `mov #k,r0; mov.l @(r0,r15),rn'.  These sequences are generated by
;; reload when the constant is too large for a reg+offset address.

;; ??? We would get much better code if this was done in reload.  This would
;; require modifying find_reloads_address to recognize that if the constant
;; is out-of-range for an immediate add, then we get better code by reloading
;; the constant into a register than by reloading the sum into a register,
;; since the former is one instruction shorter if the address does not need
;; to be offsettable.  Unfortunately this does not work, because there is
;; only one register, r0, that can be used as an index register.  This register
;; is also the function return value register.  So, if we try to force reload
;; to use double-reg addresses, then we end up with some instructions that
;; need to use r0 twice.  The only way to fix this is to change the calling
;; convention so that r0 is not used to return values.

(define_peephole
  [(set (match_operand:SI 0 "register_operand" "=r")
        (plus:SI (match_dup 0) (match_operand:SI 1 "register_operand" "r")))
   (set (mem:SI (match_dup 0))
        (match_operand:SI 2 "general_movsrc_operand" ""))]
  "TARGET_SH1 && REGNO (operands[0]) == 0 && reg_unused_after (operands[0], insn)"
  "mov.l        %2,@(%0,%1)")

(define_peephole
  [(set (match_operand:SI 0 "register_operand" "=r")
        (plus:SI (match_dup 0) (match_operand:SI 1 "register_operand" "r")))
   (set (match_operand:SI 2 "general_movdst_operand" "")
        (mem:SI (match_dup 0)))]
  "TARGET_SH1 && REGNO (operands[0]) == 0 && reg_unused_after (operands[0], insn)"
  "mov.l        @(%0,%1),%2")

(define_peephole
  [(set (match_operand:SI 0 "register_operand" "=r")
        (plus:SI (match_dup 0) (match_operand:SI 1 "register_operand" "r")))
   (set (mem:HI (match_dup 0))
        (match_operand:HI 2 "general_movsrc_operand" ""))]
  "TARGET_SH1 && REGNO (operands[0]) == 0 && reg_unused_after (operands[0], insn)"
  "mov.w        %2,@(%0,%1)")

(define_peephole
  [(set (match_operand:SI 0 "register_operand" "=r")
        (plus:SI (match_dup 0) (match_operand:SI 1 "register_operand" "r")))
   (set (match_operand:HI 2 "general_movdst_operand" "")
        (mem:HI (match_dup 0)))]
  "TARGET_SH1 && REGNO (operands[0]) == 0 && reg_unused_after (operands[0], insn)"
  "mov.w        @(%0,%1),%2")

(define_peephole
  [(set (match_operand:SI 0 "register_operand" "=r")
        (plus:SI (match_dup 0) (match_operand:SI 1 "register_operand" "r")))
   (set (mem:QI (match_dup 0))
        (match_operand:QI 2 "general_movsrc_operand" ""))]
  "TARGET_SH1 && REGNO (operands[0]) == 0 && reg_unused_after (operands[0], insn)"
  "mov.b        %2,@(%0,%1)")

(define_peephole
  [(set (match_operand:SI 0 "register_operand" "=r")
        (plus:SI (match_dup 0) (match_operand:SI 1 "register_operand" "r")))
   (set (match_operand:QI 2 "general_movdst_operand" "")
        (mem:QI (match_dup 0)))]
  "TARGET_SH1 && REGNO (operands[0]) == 0 && reg_unused_after (operands[0], insn)"
  "mov.b        @(%0,%1),%2")

(define_peephole
  [(set (match_operand:SI 0 "register_operand" "=r")
        (plus:SI (match_dup 0) (match_operand:SI 1 "register_operand" "r")))
   (set (mem:SF (match_dup 0))
        (match_operand:SF 2 "general_movsrc_operand" ""))]
  "TARGET_SH1 && REGNO (operands[0]) == 0
   && ((GET_CODE (operands[2]) == REG && REGNO (operands[2]) < 16)
       || (GET_CODE (operands[2]) == SUBREG
           && REGNO (SUBREG_REG (operands[2])) < 16))
   && reg_unused_after (operands[0], insn)"
  "mov.l        %2,@(%0,%1)")

(define_peephole
  [(set (match_operand:SI 0 "register_operand" "=r")
        (plus:SI (match_dup 0) (match_operand:SI 1 "register_operand" "r")))
   (set (match_operand:SF 2 "general_movdst_operand" "")

        (mem:SF (match_dup 0)))]
  "TARGET_SH1 && REGNO (operands[0]) == 0
   && ((GET_CODE (operands[2]) == REG && REGNO (operands[2]) < 16)
       || (GET_CODE (operands[2]) == SUBREG
           && REGNO (SUBREG_REG (operands[2])) < 16))
   && reg_unused_after (operands[0], insn)"
  "mov.l        @(%0,%1),%2")

(define_peephole
  [(set (match_operand:SI 0 "register_operand" "=r")
        (plus:SI (match_dup 0) (match_operand:SI 1 "register_operand" "r")))
   (set (mem:SF (match_dup 0))
        (match_operand:SF 2 "general_movsrc_operand" ""))]
  "TARGET_SH2E && REGNO (operands[0]) == 0
   && ((GET_CODE (operands[2]) == REG
        && FP_OR_XD_REGISTER_P (REGNO (operands[2])))
       || (GET_CODE (operands[2]) == SUBREG
           && FP_OR_XD_REGISTER_P (REGNO (SUBREG_REG (operands[2])))))
   && reg_unused_after (operands[0], insn)"
  "fmov{.s|}    %2,@(%0,%1)")

(define_peephole
  [(set (match_operand:SI 0 "register_operand" "=r")
        (plus:SI (match_dup 0) (match_operand:SI 1 "register_operand" "r")))
   (set (match_operand:SF 2 "general_movdst_operand" "")

        (mem:SF (match_dup 0)))]
  "TARGET_SH2E && REGNO (operands[0]) == 0
   && ((GET_CODE (operands[2]) == REG
        && FP_OR_XD_REGISTER_P (REGNO (operands[2])))
       || (GET_CODE (operands[2]) == SUBREG
           && FP_OR_XD_REGISTER_P (REGNO (SUBREG_REG (operands[2])))))
   && reg_unused_after (operands[0], insn)"
  "fmov{.s|}    @(%0,%1),%2")

;; Switch to a new stack with its address in sp_switch (a SYMBOL_REF).  */
(define_insn "sp_switch_1"
  [(const_int 1) (match_operand:SI 0 "symbol_ref_operand" "s")]
  "TARGET_SH1"
  "*
{
  output_asm_insn (\"mov.l r0,@-r15\;mov.l %0,r0\", operands);
  output_asm_insn (\"mov.l @r0,r0\;mov.l r15,@-r0\", operands);
  return \"mov r0,r15\";
}"
  [(set_attr "length" "10")])

;; Switch back to the original stack for interrupt functions with the
;; sp_switch attribute.  */
(define_insn "sp_switch_2"
  [(const_int 2)]
  "TARGET_SH1"
  "mov.l @r15+,r15\;mov.l @r15+,r0"
  [(set_attr "length" "4")])

;; Integer vector moves

(define_expand "movv8qi"
  [(set (match_operand:V8QI 0 "general_movdst_operand" "")
        (match_operand:V8QI 1 "general_movsrc_operand" ""))]
  "TARGET_SHMEDIA"
  "{ if (prepare_move_operands (operands, V8QImode)) DONE; }")

(define_insn "movv8qi_i"
  [(set (match_operand:V8QI 0 "general_movdst_operand" "=r,r,r,rl,m")
        (match_operand:V8QI 1 "general_movsrc_operand" "r,I16CssZ,nW,m,rlZ"))]
  "TARGET_SHMEDIA
   && (register_operand (operands[0], V8QImode)
       || sh_register_operand (operands[1], V8QImode))"
  "@
        add     %1, r63, %0
        movi    %1, %0
        #
        ld%M1.q %m1, %0
        st%M0.q %m0, %N1"
  [(set_attr "type"   "arith_media,arith_media,*,load_media,store_media")
   (set_attr "length" "4,4,16,4,4")])

(define_split
  [(set (match_operand:V8QI 0 "arith_reg_dest" "")
        (subreg:V8QI (const_int 0) 0))]
  "TARGET_SHMEDIA"
  [(set (match_dup 0)
        (const_vector:V8QI [(const_int 0) (const_int 0) (const_int 0)
                            (const_int 0) (const_int 0) (const_int 0)
                            (const_int 0) (const_int 0)]))])

(define_split
  [(set (match_operand 0 "arith_reg_dest" "")
        (match_operand 1 "sh_rep_vec" ""))]
  "TARGET_SHMEDIA && reload_completed
   && GET_MODE (operands[0]) == GET_MODE (operands[1])
   && sh_vector_mode_supported_p (GET_MODE (operands[0]))
   && GET_MODE_SIZE (GET_MODE (operands[0])) == 8
   && (XVECEXP (operands[1], 0, 0) != const0_rtx
       || XVECEXP (operands[1], 0, 1) != const0_rtx)
   && (XVECEXP (operands[1], 0, 0) != constm1_rtx
       || XVECEXP (operands[1], 0, 1) != constm1_rtx)"
  [(set (match_dup 0) (match_dup 1))
   (match_dup 2)]
  "
{
  int unit_size = GET_MODE_UNIT_SIZE (GET_MODE (operands[1]));
  rtx elt1 = XVECEXP (operands[1], 0, 1);

  if (unit_size > 2)
    operands[2] = gen_mshflo_l (operands[0], operands[0], operands[0]);
  else
    {
      if (unit_size < 2)
        operands[0] = gen_rtx_REG (V4HImode, true_regnum (operands[0]));
      operands[2] = gen_mperm_w0 (operands[0], operands[0]);
    }
  operands[0] = gen_rtx_REG (DImode, true_regnum (operands[0]));
  operands[1] = XVECEXP (operands[1], 0, 0);
  if (unit_size < 2)
    {
      if (GET_CODE (operands[1]) == CONST_INT && GET_CODE (elt1) == CONST_INT)
        operands[1]
          = GEN_INT (TARGET_LITTLE_ENDIAN
                     ? (INTVAL (operands[1]) & 0xff) + (INTVAL (elt1) << 8)
                     : (INTVAL (operands[1]) << 8) + (INTVAL (elt1) & 0xff));
      else
        {
          operands[0] = gen_rtx_REG (V2QImode, true_regnum (operands[0]));
          operands[1]
            = gen_rtx_PARALLEL (VOIDmode, gen_rtvec (2, operands[1], elt1));
        }
    }
}")

(define_split
  [(set (match_operand 0 "arith_reg_dest" "")
        (match_operand 1 "sh_const_vec" ""))]
  "TARGET_SHMEDIA && reload_completed
   && GET_MODE (operands[0]) == GET_MODE (operands[1])
   && sh_vector_mode_supported_p (GET_MODE (operands[0]))"
  [(set (match_dup 0) (match_dup 1))]
  "
{
  rtx v = operands[1];
  enum machine_mode new_mode
    = mode_for_size (GET_MODE_BITSIZE (GET_MODE (v)), MODE_INT, 0);

  operands[0] = gen_rtx_REG (new_mode, true_regnum (operands[0]));
  operands[1]
    = simplify_subreg (new_mode, operands[1], GET_MODE (operands[1]), 0);
}")

(define_expand "movv2hi"
  [(set (match_operand:V2HI 0 "general_movdst_operand" "")
        (match_operand:V2HI 1 "general_movsrc_operand" ""))]
  "TARGET_SHMEDIA"
  "{ if (prepare_move_operands (operands, V2HImode)) DONE; }")

(define_insn "movv2hi_i"
  [(set (match_operand:V2HI 0 "general_movdst_operand" "=r,r,r,rl,m")
        (match_operand:V2HI 1 "general_movsrc_operand" "r,I16CssZ,nW,m,rlZ"))]
  "TARGET_SHMEDIA
   && (register_operand (operands[0], V2HImode)
       || sh_register_operand (operands[1], V2HImode))"
  "@
        add.l   %1, r63, %0
        movi    %1, %0
        #
        ld%M1.l %m1, %0
        st%M0.l %m0, %N1"
  [(set_attr "type"   "arith_media,arith_media,*,load_media,store_media")
   (set_attr "length" "4,4,16,4,4")
   (set (attr "highpart")
        (cond [(ne (symbol_ref "sh_contains_memref_p (insn)") (const_int 0))
               (const_string "user")]
              (const_string "ignore")))])

(define_expand "movv4hi"
  [(set (match_operand:V4HI 0 "general_movdst_operand" "")
        (match_operand:V4HI 1 "general_movsrc_operand" ""))]
  "TARGET_SHMEDIA"
  "{ if (prepare_move_operands (operands, V4HImode)) DONE; }")

(define_insn "movv4hi_i"
  [(set (match_operand:V4HI 0 "general_movdst_operand" "=r,r,r,rl,m")
        (match_operand:V4HI 1 "general_movsrc_operand" "r,I16CssZ,nW,m,rlZ"))]
  "TARGET_SHMEDIA
   && (register_operand (operands[0], V4HImode)
       || sh_register_operand (operands[1], V4HImode))"
  "@
        add     %1, r63, %0
        movi    %1, %0
        #
        ld%M1.q %m1, %0
        st%M0.q %m0, %N1"
  [(set_attr "type"   "arith_media,arith_media,*,load_media,store_media")
   (set_attr "length" "4,4,16,4,4")
   (set_attr "highpart" "depend")])

(define_expand "movv2si"
  [(set (match_operand:V2SI 0 "general_movdst_operand" "")
        (match_operand:V2SI 1 "general_movsrc_operand" ""))]
  "TARGET_SHMEDIA"
  "{ if (prepare_move_operands (operands, V2SImode)) DONE; }")

(define_insn "movv2si_i"
  [(set (match_operand:V2SI 0 "general_movdst_operand" "=r,r,r,rl,m")
        (match_operand:V2SI 1 "general_movsrc_operand" "r,I16CssZ,nW,m,rlZ"))]
  "TARGET_SHMEDIA
   && (register_operand (operands[0], V2SImode)
       || sh_register_operand (operands[1], V2SImode))"
  "@
        add     %1, r63, %0
        #
        #
        ld%M1.q %m1, %0
        st%M0.q %m0, %N1"
  [(set_attr "type"   "arith_media,arith_media,*,load_media,store_media")
   (set_attr "length" "4,4,16,4,4")
   (set_attr "highpart" "depend")])

;; Multimedia Intrinsics

(define_insn "absv2si2"
  [(set (match_operand:V2SI 0 "arith_reg_dest" "=r")
        (abs:V2SI (match_operand:V2SI 1 "arith_reg_operand" "r")))]
  "TARGET_SHMEDIA"
  "mabs.l       %1, %0"
  [(set_attr "type" "mcmp_media")
   (set_attr "highpart" "depend")])

(define_insn "absv4hi2"
  [(set (match_operand:V4HI 0 "arith_reg_dest" "=r")
        (abs:V4HI (match_operand:V4HI 1 "arith_reg_operand" "r")))]
  "TARGET_SHMEDIA"
  "mabs.w       %1, %0"
  [(set_attr "type" "mcmp_media")
   (set_attr "highpart" "depend")])

(define_insn "addv2si3"
  [(set (match_operand:V2SI 0 "arith_reg_dest" "=r")
        (plus:V2SI (match_operand:V2SI 1 "arith_reg_operand" "%r")
                   (match_operand:V2SI 2 "arith_reg_operand" "r")))]
  "TARGET_SHMEDIA"
  "madd.l       %1, %2, %0"
  [(set_attr "type" "arith_media")
   (set_attr "highpart" "depend")])

(define_insn "addv4hi3"
  [(set (match_operand:V4HI 0 "arith_reg_dest" "=r")
        (plus:V4HI (match_operand:V4HI 1 "arith_reg_operand" "%r")
                   (match_operand:V4HI 2 "arith_reg_operand" "r")))]
  "TARGET_SHMEDIA"
  "madd.w       %1, %2, %0"
  [(set_attr "type" "arith_media")
   (set_attr "highpart" "depend")])

(define_insn_and_split "addv2hi3"
  [(set (match_operand:V2HI 0 "arith_reg_dest" "=r")
        (plus:V2HI (match_operand:V2HI 1 "extend_reg_operand" "%r")
                   (match_operand:V2HI 2 "extend_reg_operand" "r")))]
  "TARGET_SHMEDIA"
  "#"
  "TARGET_SHMEDIA"
  [(const_int 0)]
  "
{
  rtx src0 = simplify_gen_subreg (V4HImode, operands[1], V2HImode, 0);
  rtx src1 = simplify_gen_subreg (V4HImode, operands[2], V2HImode, 0);
  rtx v4hi_dst = simplify_gen_subreg (V4HImode, operands[0], V2HImode, 0);
  rtx di_dst = simplify_gen_subreg (DImode, operands[0], V2HImode, 0);
  rtx si_dst = simplify_gen_subreg (SImode, operands[0], V2HImode, 0);

  emit_insn (gen_addv4hi3 (v4hi_dst, src0, src1));
  emit_insn (gen_truncdisi2 (si_dst, di_dst));
  DONE;
}"
  [(set_attr "highpart" "must_split")])

(define_insn "ssaddv2si3"
  [(set (match_operand:V2SI 0 "arith_reg_dest" "=r")
        (ss_plus:V2SI (match_operand:V2SI 1 "arith_reg_operand" "%r")
                      (match_operand:V2SI 2 "arith_reg_operand" "r")))]
  "TARGET_SHMEDIA"
  "madds.l      %1, %2, %0"
  [(set_attr "type" "mcmp_media")
   (set_attr "highpart" "depend")])

(define_insn "usaddv8qi3"
  [(set (match_operand:V8QI 0 "arith_reg_dest" "=r")
        (us_plus:V8QI (match_operand:V8QI 1 "arith_reg_operand" "%r")
                      (match_operand:V8QI 2 "arith_reg_operand" "r")))]
  "TARGET_SHMEDIA"
  "madds.ub     %1, %2, %0"
  [(set_attr "type" "mcmp_media")
   (set_attr "highpart" "depend")])

(define_insn "ssaddv4hi3"
  [(set (match_operand:V4HI 0 "arith_reg_dest" "=r")
        (ss_plus:V4HI (match_operand:V4HI 1 "arith_reg_operand" "%r")
                      (match_operand:V4HI 2 "arith_reg_operand" "r")))]
  "TARGET_SHMEDIA"
  "madds.w      %1, %2, %0"
  [(set_attr "type" "mcmp_media")
   (set_attr "highpart" "depend")])

(define_insn "negcmpeqv8qi"
  [(set (match_operand:V8QI 0 "arith_reg_dest" "=r")
        (neg:V8QI (eq:V8QI (match_operand:V8QI 1 "arith_reg_or_0_operand" "%rZ")
                           (match_operand:V8QI 2 "arith_reg_or_0_operand" "rZ"))))]
  "TARGET_SHMEDIA"
  "mcmpeq.b     %N1, %N2, %0"
  [(set_attr "type" "mcmp_media")
   (set_attr "highpart" "depend")])

(define_insn "negcmpeqv2si"
  [(set (match_operand:V2SI 0 "arith_reg_dest" "=r")
        (neg:V2SI (eq:V2SI (match_operand:V2SI 1 "arith_reg_or_0_operand" "%rZ")
                           (match_operand:V2SI 2 "arith_reg_or_0_operand" "rZ"))))]
  "TARGET_SHMEDIA"
  "mcmpeq.l     %N1, %N2, %0"
  [(set_attr "type" "mcmp_media")
   (set_attr "highpart" "depend")])

(define_insn "negcmpeqv4hi"
  [(set (match_operand:V4HI 0 "arith_reg_dest" "=r")
        (neg:V4HI (eq:V4HI (match_operand:V4HI 1 "arith_reg_or_0_operand" "%rZ")
                           (match_operand:V4HI 2 "arith_reg_or_0_operand" "rZ"))))]
  "TARGET_SHMEDIA"
  "mcmpeq.w     %N1, %N2, %0"
  [(set_attr "type" "mcmp_media")
   (set_attr "highpart" "depend")])

(define_insn "negcmpgtuv8qi"
  [(set (match_operand:V8QI 0 "arith_reg_dest" "=r")
        (neg:V8QI (gtu:V8QI (match_operand:V8QI 1 "arith_reg_or_0_operand" "%rZ")
                            (match_operand:V8QI 2 "arith_reg_or_0_operand" "rZ"))))]
  "TARGET_SHMEDIA"
  "mcmpgt.ub    %N1, %N2, %0"
  [(set_attr "type" "mcmp_media")
   (set_attr "highpart" "depend")])

(define_insn "negcmpgtv2si"
  [(set (match_operand:V2SI 0 "arith_reg_dest" "=r")
        (neg:V2SI (gt:V2SI (match_operand:V2SI 1 "arith_reg_or_0_operand" "%rZ")
                           (match_operand:V2SI 2 "arith_reg_or_0_operand" "rZ"))))]
  "TARGET_SHMEDIA"
  "mcmpgt.l     %N1, %N2, %0"
  [(set_attr "type" "mcmp_media")
   (set_attr "highpart" "depend")])

(define_insn "negcmpgtv4hi"
  [(set (match_operand:V4HI 0 "arith_reg_dest" "=r")
        (neg:V4HI (gt:V4HI (match_operand:V4HI 1 "arith_reg_or_0_operand" "%rZ")
                           (match_operand:V4HI 2 "arith_reg_or_0_operand" "rZ"))))]
  "TARGET_SHMEDIA"
  "mcmpgt.w     %N1, %N2, %0"
  [(set_attr "type" "mcmp_media")
   (set_attr "highpart" "depend")])

(define_insn "mcmv"
  [(set (match_operand:DI 0 "arith_reg_dest" "=r")
        (ior:DI (and:DI (match_operand:DI 1 "arith_reg_or_0_operand" "rZ")
                        (match_operand:DI 2 "arith_reg_operand" "r"))
                (and:DI (match_operand:DI 3 "arith_reg_operand" "0")
                        (not:DI (match_dup 2)))))]
  "TARGET_SHMEDIA"
  "mcmv %N1, %2, %0"
  [(set_attr "type" "arith_media")
   (set_attr "highpart" "depend")])

(define_insn "mcnvs_lw"
  [(set (match_operand:V4HI 0 "arith_reg_dest" "=r")
        (vec_concat:V4HI
         (ss_truncate:V2HI (match_operand:V2SI 1 "arith_reg_or_0_operand" "rZ"))
         (ss_truncate:V2HI (match_operand:V2SI 2 "arith_reg_or_0_operand" "rZ"))))]
  "TARGET_SHMEDIA"
  "mcnvs.lw     %N1, %N2, %0"
  [(set_attr "type" "mcmp_media")])

(define_insn "mcnvs_wb"
  [(set (match_operand:V8QI 0 "arith_reg_dest" "=r")
        (vec_concat:V8QI
         (ss_truncate:V4QI (match_operand:V4HI 1 "arith_reg_or_0_operand" "rZ"))
         (ss_truncate:V4QI (match_operand:V4HI 2 "arith_reg_or_0_operand" "rZ"))))]
  "TARGET_SHMEDIA"
  "mcnvs.wb     %N1, %N2, %0"
  [(set_attr "type" "mcmp_media")])

(define_insn "mcnvs_wub"
  [(set (match_operand:V8QI 0 "arith_reg_dest" "=r")
        (vec_concat:V8QI
         (us_truncate:V4QI (match_operand:V4HI 1 "arith_reg_or_0_operand" "rZ"))
         (us_truncate:V4QI (match_operand:V4HI 2 "arith_reg_or_0_operand" "rZ"))))]
  "TARGET_SHMEDIA"
  "mcnvs.wub    %N1, %N2, %0"
  [(set_attr "type" "mcmp_media")])

(define_insn "mextr_rl"
  [(set (match_operand:DI 0 "arith_reg_dest" "=r")
        (ior:DI (lshiftrt:DI (match_operand:DI 1 "arith_reg_or_0_operand" "rZ")
                             (match_operand:HI 3 "mextr_bit_offset" "i"))
               (ashift:DI (match_operand:DI 2 "arith_reg_or_0_operand" "rZ")
                          (match_operand:HI 4 "mextr_bit_offset" "i"))))]
  "TARGET_SHMEDIA && INTVAL (operands[3]) + INTVAL (operands[4]) == 64"
  "*
{
  static char templ[21];

  sprintf (templ, \"mextr%d\\t%%N1, %%N2, %%0\",
           (int) INTVAL (operands[3]) >> 3);
  return templ;
}"
  [(set_attr "type" "arith_media")])

(define_insn "*mextr_lr"
  [(set (match_operand:DI 0 "arith_reg_dest" "=r")
        (ior:DI (ashift:DI (match_operand:DI 1 "arith_reg_or_0_operand" "rZ")
                           (match_operand:HI 3 "mextr_bit_offset" "i"))
               (lshiftrt:DI (match_operand:DI 2 "arith_reg_or_0_operand" "rZ")
                            (match_operand:HI 4 "mextr_bit_offset" "i"))))]
  "TARGET_SHMEDIA && INTVAL (operands[3]) + INTVAL (operands[4]) == 64"
  "*
{
  static char templ[21];

  sprintf (templ, \"mextr%d\\t%%N2, %%N1, %%0\",
           (int) INTVAL (operands[4]) >> 3);
  return templ;
}"
  [(set_attr "type" "arith_media")])

; mextrN can be modelled with vec_select / vec_concat, but the selection
; vector then varies depending on endianness.
(define_expand "mextr1"
  [(match_operand:DI 0 "arith_reg_dest" "")
   (match_operand:DI 1 "arith_reg_or_0_operand" "rZ")
   (match_operand:DI 2 "arith_reg_or_0_operand" "rZ")]
  "TARGET_SHMEDIA"
  "
{
  emit_insn (gen_mextr_rl (operands[0], operands[1], operands[2],
                           GEN_INT (1 * 8), GEN_INT (7 * 8)));
  DONE;
}")

(define_expand "mextr2"
  [(match_operand:DI 0 "arith_reg_dest" "")
   (match_operand:DI 1 "arith_reg_or_0_operand" "rZ")
   (match_operand:DI 2 "arith_reg_or_0_operand" "rZ")]
  "TARGET_SHMEDIA"
  "
{
  emit_insn (gen_mextr_rl (operands[0], operands[1], operands[2],
                           GEN_INT (2 * 8), GEN_INT (6 * 8)));
  DONE;
}")

(define_expand "mextr3"
  [(match_operand:DI 0 "arith_reg_dest" "")
   (match_operand:DI 1 "arith_reg_or_0_operand" "rZ")
   (match_operand:DI 2 "arith_reg_or_0_operand" "rZ")]
  "TARGET_SHMEDIA"
  "
{
  emit_insn (gen_mextr_rl (operands[0], operands[1], operands[2],
                           GEN_INT (3 * 8), GEN_INT (5 * 8)));
  DONE;
}")

(define_expand "mextr4"
  [(match_operand:DI 0 "arith_reg_dest" "")
   (match_operand:DI 1 "arith_reg_or_0_operand" "rZ")
   (match_operand:DI 2 "arith_reg_or_0_operand" "rZ")]
  "TARGET_SHMEDIA"
  "
{
  emit_insn (gen_mextr_rl (operands[0], operands[1], operands[2],
                           GEN_INT (4 * 8), GEN_INT (4 * 8)));
  DONE;
}")

(define_expand "mextr5"
  [(match_operand:DI 0 "arith_reg_dest" "")
   (match_operand:DI 1 "arith_reg_or_0_operand" "rZ")
   (match_operand:DI 2 "arith_reg_or_0_operand" "rZ")]
  "TARGET_SHMEDIA"
  "
{
  emit_insn (gen_mextr_rl (operands[0], operands[1], operands[2],
                           GEN_INT (5 * 8), GEN_INT (3 * 8)));
  DONE;
}")

(define_expand "mextr6"
  [(match_operand:DI 0 "arith_reg_dest" "")
   (match_operand:DI 1 "arith_reg_or_0_operand" "rZ")
   (match_operand:DI 2 "arith_reg_or_0_operand" "rZ")]
  "TARGET_SHMEDIA"
  "
{
  emit_insn (gen_mextr_rl (operands[0], operands[1], operands[2],
                           GEN_INT (6 * 8), GEN_INT (2 * 8)));
  DONE;
}")

(define_expand "mextr7"
  [(match_operand:DI 0 "arith_reg_dest" "")
   (match_operand:DI 1 "arith_reg_or_0_operand" "rZ")
   (match_operand:DI 2 "arith_reg_or_0_operand" "rZ")]
  "TARGET_SHMEDIA"
  "
{
  emit_insn (gen_mextr_rl (operands[0], operands[1], operands[2],
                           GEN_INT (7 * 8), GEN_INT (1 * 8)));
  DONE;
}")

(define_expand "mmacfx_wl"
  [(match_operand:V2SI 0 "arith_reg_dest" "")
   (match_operand:V2HI 1 "extend_reg_operand" "")
   (match_operand:V2HI 2 "extend_reg_operand" "")
   (match_operand:V2SI 3 "arith_reg_operand" "")]
  "TARGET_SHMEDIA"
  "
{
  emit_insn (gen_mmacfx_wl_i (operands[0], operands[3],
                              operands[1], operands[2]));
  DONE;
}")

;; This could be highpart ignore if it only had inputs 2 or 3, but input 1
;; is depend
(define_insn "mmacfx_wl_i"
  [(set (match_operand:V2SI 0 "arith_reg_dest" "=r")
        (ss_plus:V2SI
         (match_operand:V2SI 1 "arith_reg_operand" "0")
         (ss_truncate:V2SI
          (ashift:V2DI
           (sign_extend:V2DI
            (mult:V2SI
             (sign_extend:V2SI (match_operand:V2HI 2 "extend_reg_operand" "r"))
             (sign_extend:V2SI (match_operand:V2HI 3 "extend_reg_operand" "r"))))
           (const_int 1)))))]
  "TARGET_SHMEDIA"
  "mmacfx.wl    %2, %3, %0"
  [(set_attr "type" "mac_media")
   (set_attr "highpart" "depend")])

(define_expand "mmacnfx_wl"
  [(match_operand:V2SI 0 "arith_reg_dest" "")
   (match_operand:V2HI 1 "extend_reg_operand" "")
   (match_operand:V2HI 2 "extend_reg_operand" "")
   (match_operand:V2SI 3 "arith_reg_operand" "")]
  "TARGET_SHMEDIA"
  "
{
  emit_insn (gen_mmacnfx_wl_i (operands[0], operands[3],
                               operands[1], operands[2]));
  DONE;
}")

(define_insn "mmacnfx_wl_i"
  [(set (match_operand:V2SI 0 "arith_reg_dest" "=r")
        (ss_minus:V2SI
         (match_operand:V2SI 1 "arith_reg_operand" "0")
         (ss_truncate:V2SI
          (ashift:V2DI
           (sign_extend:V2DI
            (mult:V2SI
             (sign_extend:V2SI (match_operand:V2HI 2 "extend_reg_operand" "r"))
             (sign_extend:V2SI (match_operand:V2HI 3 "extend_reg_operand" "r"))))
           (const_int 1)))))]
  "TARGET_SHMEDIA"
  "mmacnfx.wl   %2, %3, %0"
  [(set_attr "type" "mac_media")
   (set_attr "highpart" "depend")])

(define_insn "mulv2si3"
  [(set (match_operand:V2SI 0 "arith_reg_dest" "=r")
        (mult:V2SI (match_operand:V2SI 1 "arith_reg_operand" "r")
                   (match_operand:V2SI 2 "arith_reg_operand" "r")))]
  "TARGET_SHMEDIA"
  "mmul.l       %1, %2, %0"
  [(set_attr "type" "d2mpy_media")
   (set_attr "highpart" "depend")])

(define_insn "mulv4hi3"
  [(set (match_operand:V4HI 0 "arith_reg_dest" "=r")
        (mult:V4HI (match_operand:V4HI 1 "arith_reg_operand" "r")
                   (match_operand:V4HI 2 "arith_reg_operand" "r")))]
  "TARGET_SHMEDIA"
  "mmul.w       %1, %2, %0"
  [(set_attr "type" "dmpy_media")
   (set_attr "highpart" "depend")])

(define_insn "mmulfx_l"
  [(set (match_operand:V2SI 0 "arith_reg_dest" "=r")
        (ss_truncate:V2SI
         (ashiftrt:V2DI
          (mult:V2DI
           (sign_extend:V2DI (match_operand:V2SI 1 "arith_reg_operand" "r"))
           (sign_extend:V2DI (match_operand:V2SI 2 "arith_reg_operand" "r")))
          (const_int 31))))]
  "TARGET_SHMEDIA"
  "mmulfx.l     %1, %2, %0"
  [(set_attr "type" "d2mpy_media")
   (set_attr "highpart" "depend")])

(define_insn "mmulfx_w"
  [(set (match_operand:V4HI 0 "arith_reg_dest" "=r")
        (ss_truncate:V4HI
         (ashiftrt:V4SI
          (mult:V4SI
           (sign_extend:V4SI (match_operand:V4HI 1 "arith_reg_operand" "r"))
           (sign_extend:V4SI (match_operand:V4HI 2 "arith_reg_operand" "r")))
          (const_int 15))))]
  "TARGET_SHMEDIA"
  "mmulfx.w     %1, %2, %0"
  [(set_attr "type" "dmpy_media")
   (set_attr "highpart" "depend")])

(define_insn "mmulfxrp_w"
  [(set (match_operand:V4HI 0 "arith_reg_dest" "=r")
        (ss_truncate:V4HI
         (ashiftrt:V4SI
          (plus:V4SI
           (mult:V4SI
            (sign_extend:V4SI (match_operand:V4HI 1 "arith_reg_operand" "r"))
            (sign_extend:V4SI (match_operand:V4HI 2 "arith_reg_operand" "r")))
           (const_int 16384))
          (const_int 15))))]
  "TARGET_SHMEDIA"
  "mmulfxrp.w   %1, %2, %0"
  [(set_attr "type" "dmpy_media")
   (set_attr "highpart" "depend")])


(define_expand "mmulhi_wl"
  [(match_operand:V2SI 0 "arith_reg_dest" "")
   (match_operand:V4HI 1 "arith_reg_operand" "")
   (match_operand:V4HI 2 "arith_reg_operand" "")]
  "TARGET_SHMEDIA"
  "
{
  emit_insn ((TARGET_LITTLE_ENDIAN ? gen_mmul23_wl : gen_mmul01_wl)
             (operands[0], operands[1], operands[2]));
  DONE;
}")

(define_expand "mmullo_wl"
  [(match_operand:V2SI 0 "arith_reg_dest" "")
   (match_operand:V4HI 1 "arith_reg_operand" "")
   (match_operand:V4HI 2 "arith_reg_operand" "")]
  "TARGET_SHMEDIA"
  "
{
  emit_insn ((TARGET_LITTLE_ENDIAN ? gen_mmul01_wl : gen_mmul23_wl)
             (operands[0], operands[1], operands[2]));
  DONE;
}")

(define_insn "mmul23_wl"
  [(set (match_operand:V2SI 0 "arith_reg_dest" "=r")
        (vec_select:V2SI
         (mult:V4SI
          (sign_extend:V4SI (match_operand:V4HI 1 "arith_reg_operand" "r"))
          (sign_extend:V4SI (match_operand:V4HI 2 "arith_reg_operand" "r")))
         (parallel [(const_int 2) (const_int 3)])))]
  "TARGET_SHMEDIA"
  "* return (TARGET_LITTLE_ENDIAN
             ? \"mmulhi.wl      %1, %2, %0\"
             : \"mmullo.wl      %1, %2, %0\");"
  [(set_attr "type" "dmpy_media")
   (set (attr "highpart")
        (cond [(eq_attr "endian" "big") (const_string "ignore")]
         (const_string "user")))])

(define_insn "mmul01_wl"
  [(set (match_operand:V2SI 0 "arith_reg_dest" "=r")
        (vec_select:V2SI
         (mult:V4SI
          (sign_extend:V4SI (match_operand:V4HI 1 "arith_reg_operand" "r"))
          (sign_extend:V4SI (match_operand:V4HI 2 "arith_reg_operand" "r")))
         (parallel [(const_int 0) (const_int 1)])))]
  "TARGET_SHMEDIA"
  "* return (TARGET_LITTLE_ENDIAN
             ? \"mmullo.wl      %1, %2, %0\"
             : \"mmulhi.wl      %1, %2, %0\");"
  [(set_attr "type" "dmpy_media")
   (set (attr "highpart")
        (cond [(eq_attr "endian" "little") (const_string "ignore")]
         (const_string "user")))])


(define_expand "mmulsum_wq"
  [(match_operand:DI 0 "arith_reg_dest" "")
   (match_operand:V4HI 1 "arith_reg_operand" "")
   (match_operand:V4HI 2 "arith_reg_operand" "")
   (match_operand:DI 3 "arith_reg_operand" "")]
  "TARGET_SHMEDIA"
  "
{
  emit_insn (gen_mmulsum_wq_i (operands[0], operands[3],
                               operands[1], operands[2]));
  DONE;
}")

(define_insn "mmulsum_wq_i"
  [(set (match_operand:DI 0 "arith_reg_dest" "=r")
        (plus:DI (match_operand:DI 1 "arith_reg_operand" "0")
         (plus:DI
          (plus:DI
           (vec_select:DI
            (mult:V4DI
             (sign_extend:V4DI (match_operand:V4HI 2 "arith_reg_operand" "r"))
             (sign_extend:V4DI (match_operand:V4HI 3 "arith_reg_operand" "r")))
            (parallel [(const_int 0)]))
           (vec_select:DI (mult:V4DI (sign_extend:V4DI (match_dup 2))
                                     (sign_extend:V4DI (match_dup 3)))
                          (parallel [(const_int 1)])))
          (plus:DI
           (vec_select:DI (mult:V4DI (sign_extend:V4DI (match_dup 2))
                                     (sign_extend:V4DI (match_dup 3)))
                          (parallel [(const_int 2)]))
           (vec_select:DI (mult:V4DI (sign_extend:V4DI (match_dup 2))
                                     (sign_extend:V4DI (match_dup 3)))
                          (parallel [(const_int 3)]))))))]
  "TARGET_SHMEDIA"
  "mmulsum.wq   %2, %3, %0"
  [(set_attr "type" "mac_media")])

(define_expand "mperm_w"
  [(match_operand:V4HI 0 "arith_reg_dest" "=r")
   (match_operand:V4HI 1 "arith_reg_operand" "r")
   (match_operand:QI 2 "extend_reg_or_0_operand" "rZ")]
  "TARGET_SHMEDIA"
  "
{
  emit_insn ((TARGET_LITTLE_ENDIAN ? gen_mperm_w_little : gen_mperm_w_big)
             (operands[0], operands[1], operands[2]));
  DONE;
}")

; This use of vec_select isn't exactly correct according to rtl.texi
; (because not constant), but it seems a straightforward extension.
(define_insn "mperm_w_little"
  [(set (match_operand:V4HI 0 "arith_reg_dest" "=r")
        (vec_select:V4HI
         (match_operand:V4HI 1 "arith_reg_operand" "r")
         (parallel
          [(zero_extract:QI (match_operand:QI 2 "extend_reg_or_0_operand" "rZ")
                            (const_int 2) (const_int 0))
           (zero_extract:QI (match_dup 2) (const_int 2) (const_int 2))
           (zero_extract:QI (match_dup 2) (const_int 2) (const_int 4))
           (zero_extract:QI (match_dup 2) (const_int 2) (const_int 6))])))]
  "TARGET_SHMEDIA && TARGET_LITTLE_ENDIAN"
  "mperm.w      %1, %N2, %0"
  [(set_attr "type" "arith_media")])

(define_insn "mperm_w_big"
  [(set (match_operand:V4HI 0 "arith_reg_dest" "=r")
        (vec_select:V4HI
         (match_operand:V4HI 1 "arith_reg_operand" "r")
         (parallel
          [(zero_extract:QI (not:QI (match_operand:QI 2
                                     "extend_reg_or_0_operand" "rZ"))
                            (const_int 2) (const_int 0))
           (zero_extract:QI (not:QI (match_dup 2)) (const_int 2) (const_int 2))
           (zero_extract:QI (not:QI (match_dup 2)) (const_int 2) (const_int 4))
           (zero_extract:QI (not:QI (match_dup 2))
                            (const_int 2) (const_int 6))])))]
  "TARGET_SHMEDIA && ! TARGET_LITTLE_ENDIAN"
  "mperm.w      %1, %N2, %0"
  [(set_attr "type" "arith_media")])

(define_insn "mperm_w0"
  [(set (match_operand:V4HI 0 "arith_reg_dest" "=r")
        (vec_duplicate:V4HI (truncate:HI (match_operand 1
                                          "trunc_hi_operand" "r"))))]
  "TARGET_SHMEDIA"
  "mperm.w      %1, r63, %0"
  [(set_attr "type" "arith_media")
   (set_attr "highpart" "ignore")])

(define_expand "msad_ubq"
  [(match_operand:DI 0 "arith_reg_dest" "")
   (match_operand:V8QI 1 "arith_reg_or_0_operand" "")
   (match_operand:V8QI 2 "arith_reg_or_0_operand" "")
   (match_operand:DI 3 "arith_reg_operand" "")]
  "TARGET_SHMEDIA"
  "
{
  emit_insn (gen_msad_ubq_i (operands[0], operands[3],
                             operands[1], operands[2]));
  DONE;
}")

(define_insn "msad_ubq_i"
  [(set (match_operand:DI 0 "arith_reg_dest" "=r")
        (plus:DI
         (plus:DI
          (plus:DI
           (plus:DI
            (match_operand:DI 1 "arith_reg_operand" "0")
            (abs:DI (vec_select:DI
                     (minus:V8DI
                      (zero_extend:V8DI
                       (match_operand:V8QI 2 "arith_reg_or_0_operand" "rZ"))
                      (zero_extend:V8DI
                       (match_operand:V8QI 3 "arith_reg_or_0_operand" "rZ")))
                     (parallel [(const_int 0)]))))
           (abs:DI (vec_select:DI (minus:V8DI (zero_extend:V8DI (match_dup 2))
                                              (zero_extend:V8DI (match_dup 3)))
                                  (parallel [(const_int 1)]))))
          (plus:DI
           (abs:DI (vec_select:DI (minus:V8DI (zero_extend:V8DI (match_dup 2))
                                              (zero_extend:V8DI (match_dup 3)))
                                  (parallel [(const_int 2)])))
           (abs:DI (vec_select:DI (minus:V8DI (zero_extend:V8DI (match_dup 2))
                                              (zero_extend:V8DI (match_dup 3)))
                                  (parallel [(const_int 3)])))))
         (plus:DI
          (plus:DI
           (abs:DI (vec_select:DI (minus:V8DI (zero_extend:V8DI (match_dup 2))
                                              (zero_extend:V8DI (match_dup 3)))
                                  (parallel [(const_int 4)])))
           (abs:DI (vec_select:DI (minus:V8DI (zero_extend:V8DI (match_dup 2))
                                              (zero_extend:V8DI (match_dup 3)))
                                  (parallel [(const_int 5)]))))
          (plus:DI
           (abs:DI (vec_select:DI (minus:V8DI (zero_extend:V8DI (match_dup 2))
                                              (zero_extend:V8DI (match_dup 3)))
                                  (parallel [(const_int 6)])))
           (abs:DI (vec_select:DI (minus:V8DI (zero_extend:V8DI (match_dup 2))
                                              (zero_extend:V8DI (match_dup 3)))
                                  (parallel [(const_int 7)])))))))]
  "TARGET_SHMEDIA"
  "msad.ubq     %N2, %N3, %0"
  [(set_attr "type" "mac_media")])

(define_insn "mshalds_l"
  [(set (match_operand:V2SI 0 "arith_reg_dest" "=r")
        (ss_truncate:V2SI
         (ashift:V2DI
          (sign_extend:V2DI (match_operand:V2SI 1 "arith_reg_operand" "r"))
          (and:DI (match_operand:DI 2 "arith_reg_operand" "r")
                  (const_int 31)))))]
  "TARGET_SHMEDIA"
  "mshalds.l    %1, %2, %0"
  [(set_attr "type" "mcmp_media")
   (set_attr "highpart" "depend")])

(define_insn "mshalds_w"
  [(set (match_operand:V4HI 0 "arith_reg_dest" "=r")
        (ss_truncate:V4HI
         (ashift:V4SI
          (sign_extend:V4SI (match_operand:V4HI 1 "arith_reg_operand" "r"))
          (and:DI (match_operand:DI 2 "arith_reg_operand" "r")
                  (const_int 15)))))]
  "TARGET_SHMEDIA"
  "mshalds.w    %1, %2, %0"
  [(set_attr "type" "mcmp_media")
   (set_attr "highpart" "depend")])

(define_insn "ashrv2si3"
  [(set (match_operand:V2SI 0 "arith_reg_dest" "=r")
        (ashiftrt:V2SI (match_operand:V2SI 1 "arith_reg_operand" "r")
                       (match_operand:DI 2 "arith_reg_operand" "r")))]
  "TARGET_SHMEDIA"
  "mshard.l     %1, %2, %0"
  [(set_attr "type" "arith_media")
   (set_attr "highpart" "depend")])

(define_insn "ashrv4hi3"
  [(set (match_operand:V4HI 0 "arith_reg_dest" "=r")
        (ashiftrt:V4HI (match_operand:V4HI 1 "arith_reg_operand" "r")
                       (match_operand:DI 2 "arith_reg_operand" "r")))]
  "TARGET_SHMEDIA"
  "mshard.w     %1, %2, %0"
  [(set_attr "type" "arith_media")
   (set_attr "highpart" "depend")])

(define_insn "mshards_q"
  [(set (match_operand:HI 0 "arith_reg_dest" "=r")
        (ss_truncate:HI
         (ashiftrt:DI (match_operand:DI 1 "arith_reg_operand" "r")
                      (match_operand:DI 2 "arith_reg_or_0_operand" "rZ"))))]
  "TARGET_SHMEDIA"
  "mshards.q    %1, %N2, %0"
  [(set_attr "type" "mcmp_media")])

(define_expand "mshfhi_b"
  [(match_operand:V8QI 0 "arith_reg_dest" "")
   (match_operand:V8QI 1 "arith_reg_or_0_operand" "rZ")
   (match_operand:V8QI 2 "arith_reg_or_0_operand" "rZ")]
  "TARGET_SHMEDIA"
  "
{
  emit_insn ((TARGET_LITTLE_ENDIAN ? gen_mshf4_b : gen_mshf0_b)
             (operands[0], operands[1], operands[2]));
  DONE;
}")

(define_expand "mshflo_b"
  [(match_operand:V8QI 0 "arith_reg_dest" "")
   (match_operand:V8QI 1 "arith_reg_or_0_operand" "rZ")
   (match_operand:V8QI 2 "arith_reg_or_0_operand" "rZ")]
  "TARGET_SHMEDIA"
  "
{
  emit_insn ((TARGET_LITTLE_ENDIAN ? gen_mshf0_b : gen_mshf4_b)
             (operands[0], operands[1], operands[2]));
  DONE;
}")

(define_insn "mshf4_b"
  [(set
    (match_operand:V8QI 0 "arith_reg_dest" "=r")
    (vec_select:V8QI
     (vec_concat:V16QI (match_operand:V8QI 1 "arith_reg_or_0_operand" "rZ")
                       (match_operand:V8QI 2 "arith_reg_or_0_operand" "rZ"))
     (parallel [(const_int 4) (const_int 12) (const_int 5) (const_int 13)
                (const_int 6) (const_int 14) (const_int 7) (const_int 15)])))]
  "TARGET_SHMEDIA"
  "* return (TARGET_LITTLE_ENDIAN
             ? \"mshfhi.b       %N1, %N2, %0\"
             : \"mshflo.b       %N1, %N2, %0\");"
  [(set_attr "type" "arith_media")
   (set (attr "highpart")
        (cond [(eq_attr "endian" "big") (const_string "ignore")]
         (const_string "user")))])

(define_insn "mshf0_b"
  [(set
    (match_operand:V8QI 0 "arith_reg_dest" "=r")
    (vec_select:V8QI
     (vec_concat:V16QI (match_operand:V8QI 1 "arith_reg_or_0_operand" "rZ")
                       (match_operand:V8QI 2 "arith_reg_or_0_operand" "rZ"))
     (parallel [(const_int 0) (const_int 8) (const_int 1) (const_int 9)
                (const_int 2) (const_int 10) (const_int 3) (const_int 11)])))]
  "TARGET_SHMEDIA"
  "* return (TARGET_LITTLE_ENDIAN
             ? \"mshflo.b       %N1, %N2, %0\"
             : \"mshfhi.b       %N1, %N2, %0\");"
  [(set_attr "type" "arith_media")
   (set (attr "highpart")
        (cond [(eq_attr "endian" "little") (const_string "ignore")]
         (const_string "user")))])

(define_expand "mshfhi_l"
  [(match_operand:V2SI 0 "arith_reg_dest" "")
   (match_operand:V2SI 1 "arith_reg_or_0_operand" "rZ")
   (match_operand:V2SI 2 "arith_reg_or_0_operand" "rZ")]
  "TARGET_SHMEDIA"
  "
{
  emit_insn ((TARGET_LITTLE_ENDIAN ? gen_mshf4_l : gen_mshf0_l)
             (operands[0], operands[1], operands[2]));
  DONE;
}")

(define_expand "mshflo_l"
  [(match_operand:V2SI 0 "arith_reg_dest" "")
   (match_operand:V2SI 1 "arith_reg_or_0_operand" "rZ")
   (match_operand:V2SI 2 "arith_reg_or_0_operand" "rZ")]
  "TARGET_SHMEDIA"
  "
{
  emit_insn ((TARGET_LITTLE_ENDIAN ? gen_mshf0_l : gen_mshf4_l)
             (operands[0], operands[1], operands[2]));
  DONE;
}")

(define_insn "mshf4_l"
  [(set (match_operand:V2SI 0 "arith_reg_dest" "=r")
        (vec_select:V2SI
         (vec_concat:V4SI (match_operand:V2SI 1 "arith_reg_or_0_operand" "rZ")
                          (match_operand:V2SI 2 "arith_reg_or_0_operand" "rZ"))
         (parallel [(const_int 1) (const_int 3)])))]
  "TARGET_SHMEDIA"
  "* return (TARGET_LITTLE_ENDIAN
             ? \"mshfhi.l       %N1, %N2, %0\"
             : \"mshflo.l       %N1, %N2, %0\");"
  [(set_attr "type" "arith_media")
   (set (attr "highpart")
        (cond [(eq_attr "endian" "big") (const_string "ignore")]
         (const_string "user")))])

(define_insn "mshf0_l"
  [(set (match_operand:V2SI 0 "arith_reg_dest" "=r")
        (vec_select:V2SI
         (vec_concat:V4SI (match_operand:V2SI 1 "arith_reg_or_0_operand" "rZ")
                          (match_operand:V2SI 2 "arith_reg_or_0_operand" "rZ"))
         (parallel [(const_int 0) (const_int 2)])))]
  "TARGET_SHMEDIA"
  "* return (TARGET_LITTLE_ENDIAN
             ? \"mshflo.l       %N1, %N2, %0\"
             : \"mshfhi.l       %N1, %N2, %0\");"
  [(set_attr "type" "arith_media")
   (set (attr "highpart")
        (cond [(eq_attr "endian" "little") (const_string "ignore")]
         (const_string "user")))])

(define_expand "mshfhi_w"
  [(match_operand:V4HI 0 "arith_reg_dest" "")
   (match_operand:V4HI 1 "arith_reg_or_0_operand" "rZ")
   (match_operand:V4HI 2 "arith_reg_or_0_operand" "rZ")]
  "TARGET_SHMEDIA"
  "
{
  emit_insn ((TARGET_LITTLE_ENDIAN ? gen_mshf4_w : gen_mshf0_w)
             (operands[0], operands[1], operands[2]));
  DONE;
}")

(define_expand "mshflo_w"
  [(match_operand:V4HI 0 "arith_reg_dest" "")
   (match_operand:V4HI 1 "arith_reg_or_0_operand" "rZ")
   (match_operand:V4HI 2 "arith_reg_or_0_operand" "rZ")]
  "TARGET_SHMEDIA"
  "
{
  emit_insn ((TARGET_LITTLE_ENDIAN ? gen_mshf0_w : gen_mshf4_w)
             (operands[0], operands[1], operands[2]));
  DONE;
}")

(define_insn "mshf4_w"
  [(set (match_operand:V4HI 0 "arith_reg_dest" "=r")
        (vec_select:V4HI
         (vec_concat:V8HI (match_operand:V4HI 1 "arith_reg_or_0_operand" "rZ")
                          (match_operand:V4HI 2 "arith_reg_or_0_operand" "rZ"))
         (parallel [(const_int 2) (const_int 6) (const_int 3) (const_int 7)])))]
  "TARGET_SHMEDIA"
  "* return (TARGET_LITTLE_ENDIAN
             ? \"mshfhi.w       %N1, %N2, %0\"
             : \"mshflo.w       %N1, %N2, %0\");"
  [(set_attr "type" "arith_media")
   (set (attr "highpart")
        (cond [(eq_attr "endian" "big") (const_string "ignore")]
         (const_string "user")))])

(define_insn "mshf0_w"
  [(set (match_operand:V4HI 0 "arith_reg_dest" "=r")
        (vec_select:V4HI
         (vec_concat:V8HI (match_operand:V4HI 1 "arith_reg_or_0_operand" "rZ")
                          (match_operand:V4HI 2 "arith_reg_or_0_operand" "rZ"))
         (parallel [(const_int 0) (const_int 4) (const_int 1) (const_int 5)])))]
  "TARGET_SHMEDIA"
  "* return (TARGET_LITTLE_ENDIAN
             ? \"mshflo.w       %N1, %N2, %0\"
             : \"mshfhi.w       %N1, %N2, %0\");"
  [(set_attr "type" "arith_media")
   (set (attr "highpart")
        (cond [(eq_attr "endian" "little") (const_string "ignore")]
         (const_string "user")))])

(define_insn "mshflo_w_x"
  [(set (match_operand:V4HI 0 "arith_reg_dest" "=r")
        (vec_select:V4HI
         (vec_concat:V4HI (match_operand:V2HI 1 "extend_reg_or_0_operand" "rZ")
                          (match_operand:V2HI 2 "extend_reg_or_0_operand" "rZ"))
         (parallel [(const_int 2) (const_int 0) (const_int 3) (const_int 1)])))]
  "TARGET_SHMEDIA"
  "mshflo.w     %N1, %N2, %0"
  [(set_attr "type" "arith_media")
   (set_attr "highpart" "ignore")])

/* These are useful to expand ANDs and as combiner patterns.  */
(define_insn_and_split "mshfhi_l_di"
  [(set (match_operand:DI 0 "arith_reg_dest" "=r,f")
        (ior:DI (lshiftrt:DI (match_operand:DI 1 "arith_reg_or_0_operand" "rZ,f")
                             (const_int 32))
                (and:DI (match_operand:DI 2 "arith_reg_or_0_operand" "rZ,?f")
                        (const_int -4294967296))))]
  "TARGET_SHMEDIA"
  "@
        mshfhi.l        %N1, %N2, %0
        #"
  "TARGET_SHMEDIA && reload_completed
   && ! GENERAL_REGISTER_P (true_regnum (operands[0]))"
  [(set (match_dup 3) (match_dup 4))
   (set (match_dup 5) (match_dup 6))]
  "
{
  operands[3] = gen_lowpart (SImode, operands[0]);
  operands[4] = gen_highpart (SImode, operands[1]);
  operands[5] = gen_highpart (SImode, operands[0]);
  operands[6] = gen_highpart (SImode, operands[2]);
}"
  [(set_attr "type" "arith_media")])

(define_insn "*mshfhi_l_di_rev"
  [(set (match_operand:DI 0 "arith_reg_dest" "=r")
        (ior:DI (and:DI (match_operand:DI 1 "arith_reg_or_0_operand" "rZ")
                        (const_int -4294967296))
                (lshiftrt:DI (match_operand:DI 2 "arith_reg_or_0_operand" "rZ")
                             (const_int 32))))]
  "TARGET_SHMEDIA"
  "mshfhi.l     %N2, %N1, %0"
  [(set_attr "type" "arith_media")])

(define_split
  [(set (match_operand:DI 0 "arith_reg_dest" "")
        (ior:DI (zero_extend:DI (match_operand:SI 1
                                              "extend_reg_or_0_operand" ""))
                (and:DI (match_operand:DI 2 "arith_reg_or_0_operand" "")
                        (const_int -4294967296))))
   (clobber (match_operand:DI 3 "arith_reg_dest" ""))]
  "TARGET_SHMEDIA"
  [(const_int 0)]
  "
{
  emit_insn (gen_ashldi3_media (operands[3],
                                simplify_gen_subreg (DImode, operands[1],
                                                     SImode, 0),
                                GEN_INT (32)));
  emit_insn (gen_mshfhi_l_di (operands[0], operands[3], operands[2]));
  DONE;
}")

(define_insn "mshflo_l_di"
  [(set (match_operand:DI 0 "arith_reg_dest" "=r")
        (ior:DI (and:DI (match_operand:DI 1 "arith_reg_or_0_operand" "rZ")
                        (const_int 4294967295))
                (ashift:DI (match_operand:DI 2 "arith_reg_or_0_operand" "rZ")
                           (const_int 32))))]

  "TARGET_SHMEDIA"
  "mshflo.l     %N1, %N2, %0"
  [(set_attr "type" "arith_media")
   (set_attr "highpart" "ignore")])

(define_insn "*mshflo_l_di_rev"
  [(set (match_operand:DI 0 "arith_reg_dest" "=r")
        (ior:DI (ashift:DI (match_operand:DI 1 "arith_reg_or_0_operand" "rZ")
                           (const_int 32))
                (and:DI (match_operand:DI 2 "arith_reg_or_0_operand" "rZ")
                        (const_int 4294967295))))]

  "TARGET_SHMEDIA"
  "mshflo.l     %N2, %N1, %0"
  [(set_attr "type" "arith_media")
   (set_attr "highpart" "ignore")])

;; Combiner pattern for trampoline initialization.
(define_insn_and_split "*double_shori"
  [(set (match_operand:DI 0 "arith_reg_dest" "=r")
        (ior:DI (ashift:DI (match_operand:DI 1 "arith_reg_operand" "0")
                           (const_int 32))
                (match_operand:DI 2 "const_int_operand" "n")))]
  "TARGET_SHMEDIA
   && ! (INTVAL (operands[2]) & ~(unsigned HOST_WIDE_INT) 0xffffffffUL)"
  "#"
  "rtx_equal_p (operands[0], operands[1])"
  [(const_int 0)]
  "
{
  HOST_WIDE_INT v = INTVAL (operands[2]);

  emit_insn (gen_shori_media (operands[0], operands[0], GEN_INT (v >> 16)));
  emit_insn (gen_shori_media (operands[0], operands[0], GEN_INT (v & 65535)));
  DONE;
}"
  [(set_attr "highpart" "ignore")])


(define_insn "*mshflo_l_di_x"
  [(set (match_operand:DI 0 "arith_reg_dest" "=r")
        (ior:DI (zero_extend:DI (match_operand:SI 1 "extend_reg_or_0_operand"
                                 "rZ"))
                (ashift:DI (match_operand:DI 2 "arith_reg_or_0_operand" "rZ")
                           (const_int 32))))]

  "TARGET_SHMEDIA"
  "mshflo.l     %N1, %N2, %0"
  [(set_attr "type" "arith_media")
   (set_attr "highpart" "ignore")])

(define_insn_and_split "concat_v2sf"
  [(set (match_operand:V2SF 0 "register_operand" "=r,f,f?")
;;      (vec_concat:V2SF (match_operand:SF 1 "register_operand" "rZ,0,f")
        (vec_concat:V2SF (match_operand:SF 1 "register_operand" "rZ,f,f")
                         (match_operand:SF 2 "register_operand" "rZ,f,f")))]

  "TARGET_SHMEDIA"
  "@
        mshflo.l        %N1, %N2, %0
        #
        #"
  "TARGET_SHMEDIA && reload_completed
   && ! GENERAL_REGISTER_P (true_regnum (operands[0]))"
  [(set (match_dup 3) (match_dup 1))
   (set (match_dup 4) (match_dup 2))]
  "
{
  operands[3] = simplify_gen_subreg (SFmode, operands[0], V2SFmode, 0);
  operands[4] = simplify_gen_subreg (SFmode, operands[0], V2SFmode, 4);
}"
  [(set_attr "type" "arith_media")
   (set_attr "highpart" "ignore")])

(define_insn "*mshflo_l_di_x_rev"
  [(set (match_operand:DI 0 "arith_reg_dest" "=r")
        (ior:DI (ashift:DI (match_operand:DI 1 "arith_reg_or_0_operand" "rZ")
                           (const_int 32))
                (zero_extend:DI (match_operand:SI 2 "extend_reg_or_0_operand" "rZ"))))]

  "TARGET_SHMEDIA"
  "mshflo.l     %N2, %N1, %0"
  [(set_attr "type" "arith_media")
   (set_attr "highpart" "ignore")])

(define_insn "ashlv2si3"
  [(set (match_operand:V2SI 0 "arith_reg_dest" "=r")
        (ashift:V2SI (match_operand:V2SI 1 "arith_reg_operand" "r")
                     (match_operand:DI 2 "shift_count_reg_operand" "r")))]
  "TARGET_SHMEDIA"
  "mshlld.l     %1, %2, %0"
  [(set_attr "type" "arith_media")
   (set_attr "highpart" "depend")])

(define_split
  [(set (match_operand 0 "any_register_operand" "")
        (match_operator 3 "shift_operator"
          [(match_operand 1 "any_register_operand" "")
           (match_operand 2 "shift_count_reg_operand" "")]))]
  "TARGET_SHMEDIA && ! register_operand (operands[2], VOIDmode)"
  [(set (match_dup 0) (match_dup 3))]
  "
{
  rtx count = operands[2];
  enum machine_mode outer_mode = GET_MODE (operands[2]), inner_mode;

  while (GET_CODE (count) == ZERO_EXTEND || GET_CODE (count) == SIGN_EXTEND
         || (GET_CODE (count) == SUBREG && SUBREG_BYTE (count) == 0)
         || GET_CODE (count) == TRUNCATE)
    count = XEXP (count, 0);
  inner_mode = GET_MODE (count);
  count = simplify_gen_subreg (outer_mode, count, inner_mode,
                               subreg_lowpart_offset (outer_mode, inner_mode));
  operands[3] = gen_rtx_fmt_ee (GET_CODE (operands[3]), GET_MODE (operands[3]),
                                operands[1], count);
}")

(define_insn "ashlv4hi3"
  [(set (match_operand:V4HI 0 "arith_reg_dest" "=r")
        (ashift:V4HI (match_operand:V4HI 1 "arith_reg_operand" "r")
                     (match_operand:DI 2 "shift_count_reg_operand" "r")))]
  "TARGET_SHMEDIA"
  "mshlld.w     %1, %2, %0"
  [(set_attr "type" "arith_media")
   (set_attr "highpart" "depend")])

(define_insn "lshrv2si3"
  [(set (match_operand:V2SI 0 "arith_reg_dest" "=r")
        (lshiftrt:V2SI (match_operand:V2SI 1 "arith_reg_operand" "r")
                     (match_operand:DI 2 "shift_count_reg_operand" "r")))]
  "TARGET_SHMEDIA"
  "mshlrd.l     %1, %2, %0"
  [(set_attr "type" "arith_media")
   (set_attr "highpart" "depend")])

(define_insn "lshrv4hi3"
  [(set (match_operand:V4HI 0 "arith_reg_dest" "=r")
        (lshiftrt:V4HI (match_operand:V4HI 1 "arith_reg_operand" "r")
                       (match_operand:DI 2 "shift_count_reg_operand" "r")))]
  "TARGET_SHMEDIA"
  "mshlrd.w     %1, %2, %0"
  [(set_attr "type" "arith_media")
   (set_attr "highpart" "depend")])

(define_insn "subv2si3"
  [(set (match_operand:V2SI 0 "arith_reg_dest" "=r")
        (minus:V2SI (match_operand:V2SI 1 "arith_reg_or_0_operand" "rZ")
                    (match_operand:V2SI 2 "arith_reg_operand" "r")))]
  "TARGET_SHMEDIA"
  "msub.l       %N1, %2, %0"
  [(set_attr "type" "arith_media")
   (set_attr "highpart" "depend")])

(define_insn "subv4hi3"
  [(set (match_operand:V4HI 0 "arith_reg_dest" "=r")
        (minus:V4HI (match_operand:V4HI 1 "arith_reg_or_0_operand" "rZ")
                    (match_operand:V4HI 2 "arith_reg_operand" "r")))]
  "TARGET_SHMEDIA"
  "msub.w       %N1, %2, %0"
  [(set_attr "type" "arith_media")
   (set_attr "highpart" "depend")])

(define_insn_and_split "subv2hi3"
  [(set (match_operand:V2HI 0 "arith_reg_dest" "=r")
        (minus:V2HI (match_operand:V2HI 1 "arith_reg_or_0_operand" "rZ")
                   (match_operand:V2HI 2 "arith_reg_operand" "r")))]
  "TARGET_SHMEDIA"
  "#"
  "TARGET_SHMEDIA"
  [(const_int 0)]
  "
{
  rtx src0 = simplify_gen_subreg (V4HImode, operands[1], V2HImode, 0);
  rtx src1 = simplify_gen_subreg (V4HImode, operands[2], V2HImode, 0);
  rtx v4hi_dst = simplify_gen_subreg (V4HImode, operands[0], V2HImode, 0);
  rtx di_dst = simplify_gen_subreg (DImode, operands[0], V2HImode, 0);
  rtx si_dst = simplify_gen_subreg (SImode, operands[0], V2HImode, 0);

  emit_insn (gen_subv4hi3 (v4hi_dst, src0, src1));
  emit_insn (gen_truncdisi2 (si_dst, di_dst));
  DONE;
}"
  [(set_attr "highpart" "must_split")])

(define_insn "sssubv2si3"
  [(set (match_operand:V2SI 0 "arith_reg_dest" "=r")
        (ss_minus:V2SI (match_operand:V2SI 1 "arith_reg_or_0_operand" "rZ")
                       (match_operand:V2SI 2 "arith_reg_operand" "r")))]
  "TARGET_SHMEDIA"
  "msubs.l      %N1, %2, %0"
  [(set_attr "type" "mcmp_media")
   (set_attr "highpart" "depend")])

(define_insn "ussubv8qi3"
  [(set (match_operand:V8QI 0 "arith_reg_dest" "=r")
        (us_minus:V8QI (match_operand:V8QI 1 "arith_reg_or_0_operand" "rZ")
                       (match_operand:V8QI 2 "arith_reg_operand" "r")))]
  "TARGET_SHMEDIA"
  "msubs.ub     %N1, %2, %0"
  [(set_attr "type" "mcmp_media")
   (set_attr "highpart" "depend")])

(define_insn "sssubv4hi3"
  [(set (match_operand:V4HI 0 "arith_reg_dest" "=r")
        (ss_minus:V4HI (match_operand:V4HI 1 "arith_reg_or_0_operand" "rZ")
                       (match_operand:V4HI 2 "arith_reg_operand" "r")))]
  "TARGET_SHMEDIA"
  "msubs.w      %N1, %2, %0"
  [(set_attr "type" "mcmp_media")
   (set_attr "highpart" "depend")])

;; Floating Point Intrinsics

(define_insn "fcosa_s"
  [(set (match_operand:SF 0 "fp_arith_reg_operand" "=f")
        (unspec:SF [(match_operand:SI 1 "fp_arith_reg_operand" "f")]
                   UNSPEC_FCOSA))]
  "TARGET_SHMEDIA"
  "fcosa.s      %1, %0"
  [(set_attr "type" "atrans_media")])

(define_insn "fsina_s"
  [(set (match_operand:SF 0 "fp_arith_reg_operand" "=f")
        (unspec:SF [(match_operand:SI 1 "fp_arith_reg_operand" "f")]
                   UNSPEC_FSINA))]
  "TARGET_SHMEDIA"
  "fsina.s      %1, %0"
  [(set_attr "type" "atrans_media")])

(define_insn "fipr"
  [(set (match_operand:SF 0 "fp_arith_reg_operand" "=f")
        (plus:SF (plus:SF (vec_select:SF (mult:V4SF (match_operand:V4SF 1
                                                    "fp_arith_reg_operand" "f")
                                                   (match_operand:V4SF 2
                                                    "fp_arith_reg_operand" "f"))
                                         (parallel [(const_int 0)]))
                          (vec_select:SF (mult:V4SF (match_dup 1) (match_dup 2))
                                         (parallel [(const_int 1)])))
                 (plus:SF (vec_select:SF (mult:V4SF (match_dup 1) (match_dup 2))
                                         (parallel [(const_int 2)]))
                          (vec_select:SF (mult:V4SF (match_dup 1) (match_dup 2))
                                         (parallel [(const_int 3)])))))]
  "TARGET_SHMEDIA"
  "fipr.s       %1, %2, %0"
  [(set_attr "type" "fparith_media")])

(define_insn "fsrra_s"
  [(set (match_operand:SF 0 "fp_arith_reg_operand" "=f")
        (unspec:SF [(match_operand:SF 1 "fp_arith_reg_operand" "f")]
                   UNSPEC_FSRRA))]
  "TARGET_SHMEDIA"
  "fsrra.s      %1, %0"
  [(set_attr "type" "atrans_media")])

(define_insn "ftrv"
  [(set (match_operand:V4SF 0 "fp_arith_reg_operand" "=f")
        (plus:V4SF
         (plus:V4SF
          (mult:V4SF
           (vec_select:V4SF (match_operand:V16SF 1 "fp_arith_reg_operand" "f")
                            (parallel [(const_int 0) (const_int 5)
                                       (const_int 10) (const_int 15)]))
           (match_operand:V4SF 2 "fp_arith_reg_operand" "f"))
          (mult:V4SF
           (vec_select:V4SF (match_dup 1)
                            (parallel [(const_int 4) (const_int 9)
                                       (const_int 14) (const_int 3)]))
           (vec_select:V4SF (match_dup 2)
                            (parallel [(const_int 1) (const_int 2)
                                       (const_int 3) (const_int 0)]))))
         (plus:V4SF
          (mult:V4SF
           (vec_select:V4SF (match_dup 1)
                            (parallel [(const_int 8) (const_int 13)
                                       (const_int 2) (const_int 7)]))
           (vec_select:V4SF (match_dup 2)
                            (parallel [(const_int 2) (const_int 3)
                                       (const_int 0) (const_int 1)])))
          (mult:V4SF
           (vec_select:V4SF (match_dup 1)
                            (parallel [(const_int 12) (const_int 1)
                                       (const_int 6) (const_int 11)]))
           (vec_select:V4SF (match_dup 2)
                            (parallel [(const_int 3) (const_int 0)
                                       (const_int 1) (const_int 2)]))))))]
  "TARGET_SHMEDIA"
  "ftrv.s %1, %2, %0"
  [(set_attr "type" "fparith_media")])

(define_insn "ldhi_l"
  [(set (match_operand:SI 0 "arith_reg_dest" "=r")
        (zero_extract:SI
         (mem:SI (plus:SI (ior:SI (match_operand:QI 1 "ua_address_operand" "p")
                                  (const_int 3))
                          (const_int -3)))
         (plus:SI (and:SI (match_dup 1) (const_int 3)) (const_int 1))
         (const_int 0)))]
  "TARGET_SHMEDIA32"
  "ldhi.l       %U1, %0"
  [(set_attr "type" "load_media")])

(define_insn "ldhi_q"
  [(set (match_operand:DI 0 "arith_reg_dest" "=r")
        (zero_extract:DI
         (mem:DI (plus:SI (ior:SI (match_operand:QI 1 "ua_address_operand" "p")
                                  (const_int 7))
                          (const_int -7)))
         (plus:SI (and:SI (match_dup 1) (const_int 7)) (const_int 1))
         (const_int 0)))]
  "TARGET_SHMEDIA32"
  "ldhi.q       %U1, %0"
  [(set_attr "type" "load_media")])

(define_insn_and_split "*ldhi_q_comb0"
  [(set (match_operand:DI 0 "arith_reg_dest" "=r")
        (zero_extract:DI
         (mem:DI (plus:SI (ior:SI (plus:SI (match_operand:SI 1
                                            "register_operand" "r")
                                           (match_operand:SI 2
                                            "ua_offset" "I06"))
                                  (const_int 7))
                          (const_int -7)))
         (plus:SI (and:SI (match_dup 1) (const_int 7))
                  (const_int 1))
         (const_int 0)))]
  "TARGET_SHMEDIA32 && (INTVAL (operands[2]) & 7) == 0"
  "#"
  ""
  [(pc)]
  "emit_insn (gen_ldhi_q (operands[0],
                          gen_rtx_PLUS (SImode, operands[1], operands[2])));
   DONE;")


(define_insn_and_split "*ldhi_q_comb1"
  [(set (match_operand:DI 0 "arith_reg_dest" "=r")
        (zero_extract:DI
         (mem:DI (plus:SI (ior:SI (plus:SI (match_operand:SI 1
                                            "register_operand" "r")
                                           (match_operand:SI 2
                                            "ua_offset" "I06"))
                                  (const_int 7))
                          (const_int -7)))
         (plus:SI (and:SI (plus:SI (match_dup 1)  (match_operand:SI 3
                                                   "ua_offset" "I06"))
                          (const_int 7))
                  (const_int 1))
         (const_int 0)))]
  "TARGET_SHMEDIA32 && (INTVAL (operands[2]) & -8)
   && (INTVAL (operands[2]) & 7) == INTVAL (operands[3])"
  "#"
  ""
  [(pc)]
  "emit_insn (gen_ldhi_q (operands[0],
                          gen_rtx_PLUS (SImode, operands[1], operands[2])));
   DONE;")


(define_insn "ldlo_l"
  [(set (match_operand:SI 0 "arith_reg_dest" "=r")
        (zero_extract:SI
         (mem:SI (and:SI (match_operand:QI 1 "ua_address_operand" "p")
                         (const_int -4)))
         (minus:SI (const_int 4) (and:SI (match_dup 1) (const_int 3)))
         (and:SI (match_dup 1) (const_int 3))))]
  "TARGET_SHMEDIA32"
  "ldlo.l       %U1, %0"
  [(set_attr "type" "load_media")])

(define_insn "ldlo_q"
  [(set (match_operand:DI 0 "arith_reg_dest" "=r")
        (zero_extract:DI
         (mem:DI (and:SI (match_operand:QI 1 "ua_address_operand" "p")
                         (const_int -8)))
         (minus:SI (const_int 8) (and:SI (match_dup 1) (const_int 7)))
         (and:SI (match_dup 1) (const_int 7))))]
  "TARGET_SHMEDIA32"
  "ldlo.q       %U1, %0"
  [(set_attr "type" "load_media")])

(define_insn_and_split "*ldlo_q_comb0"
  [(set (match_operand:DI 0 "arith_reg_dest" "=r")
        (zero_extract:DI
         (mem:DI (and:SI (plus:SI (match_operand:SI 1 "register_operand" "r")
                                  (match_operand:SI 2 "ua_offset" "I06"))
                         (const_int -8)))
         (minus:SI (const_int 8) (and:SI (match_dup 1) (const_int 7)))
         (and:SI (match_dup 1) (const_int 7))))]
  "TARGET_SHMEDIA32 && (INTVAL (operands[2]) & 7) == 0"
  "#"
  ""
  [(pc)]
  "emit_insn (gen_ldlo_q (operands[0],
                          gen_rtx_PLUS (SImode, operands[1], operands[2])));
   DONE;")

(define_insn_and_split "*ldlo_q_comb1"
  [(set (match_operand:DI 0 "arith_reg_dest" "=r")
        (zero_extract:DI
         (mem:DI (and:SI (plus:SI (match_operand:SI 1 "register_operand" "r")
                                  (match_operand:SI 2 "ua_offset" "I06"))
                         (const_int -8)))
         (minus:SI (const_int 8)
                   (and:SI (plus:SI (match_dup 1)
                                    (match_operand:SI 3 "ua_offset" "I06"))
                           (const_int 7)))
         (and:SI (plus:SI (match_dup 1) (match_dup 3)) (const_int 7))))]
  "TARGET_SHMEDIA32 && (INTVAL (operands[2]) & -8)
   && (INTVAL (operands[2]) & 7) == INTVAL (operands[3])"
  "#"
  ""
  [(pc)]
  "emit_insn (gen_ldlo_q (operands[0],
                          gen_rtx_PLUS (SImode, operands[1], operands[2])));
   DONE;")

(define_insn "sthi_l"
  [(set (zero_extract:SI
         (mem:SI (plus:SI (ior:SI (match_operand:QI 0 "ua_address_operand" "p")
                                  (const_int 3))
                          (const_int -3)))
         (plus:SI (and:SI (match_dup 0) (const_int 3)) (const_int 1))
         (const_int 0))
        (match_operand:SI 1 "arith_reg_operand" "r"))]
  "TARGET_SHMEDIA32"
  "sthi.l       %U0, %1"
  [(set_attr "type" "ustore_media")])

;; All unaligned stores are considered to be 'narrow' because they typically
;; operate on less that a quadword, and when they operate on a full quadword,
;; the vanilla store high / store low sequence will cause a stall if not
;; scheduled apart.
(define_insn "sthi_q"
  [(set (zero_extract:DI
         (mem:DI (plus:SI (ior:SI (match_operand:QI 0 "ua_address_operand" "p")
                                  (const_int 7))
                          (const_int -7)))
         (plus:SI (and:SI (match_dup 0) (const_int 7)) (const_int 1))
         (const_int 0))
        (match_operand:DI 1 "arith_reg_operand" "r"))]
  "TARGET_SHMEDIA32"
  "sthi.q       %U0, %1"
  [(set_attr "type" "ustore_media")])

(define_insn_and_split "*sthi_q_comb0"
  [(set (zero_extract:DI
         (mem:DI (plus:SI (ior:SI (plus:SI (match_operand:SI 0
                                            "register_operand" "r")
                                           (match_operand:SI 1 "ua_offset"
                                            "I06"))
                                  (const_int 7))
                          (const_int -7)))
         (plus:SI (and:SI (match_dup 0) (const_int 7)) (const_int 1))
         (const_int 0))
        (match_operand:DI 2 "arith_reg_operand" "r"))]
  "TARGET_SHMEDIA32 && (INTVAL (operands[1]) & 7) == 0"
  "#"
  ""
  [(pc)]
  "emit_insn (gen_sthi_q (gen_rtx_PLUS (SImode, operands[0], operands[1]),
                          operands[2]));
   DONE;")

(define_insn_and_split "*sthi_q_comb1"
  [(set (zero_extract:DI
         (mem:DI (plus:SI (ior:SI (plus:SI (match_operand:SI 0
                                            "register_operand" "r")
                                           (match_operand:SI 1 "ua_offset"
                                            "I06"))
                                  (const_int 7))
                          (const_int -7)))
         (plus:SI (and:SI (plus:SI (match_dup 0)
                                   (match_operand:SI 2 "ua_offset" "I06"))
                          (const_int 7))
                  (const_int 1))
         (const_int 0))
        (match_operand:DI 3 "arith_reg_operand" "r"))]
  "TARGET_SHMEDIA32 && (INTVAL (operands[1]) & -8)
   && (INTVAL (operands[1]) & 7) == INTVAL (operands[2])"
  "#"
  ""
  [(pc)]
  "emit_insn (gen_sthi_q (gen_rtx_PLUS (SImode, operands[0], operands[1]),
                          operands[3]));
   DONE;")

;; This is highpart user because the address is used as full 64 bit.
(define_insn "stlo_l"
  [(set (zero_extract:SI
         (mem:SI (and:SI (match_operand:QI 0 "ua_address_operand" "p")
                         (const_int -4)))
         (minus:SI (const_int 4) (and:SI (match_dup 0) (const_int 3)))
         (and:SI (match_dup 0) (const_int 3)))
        (match_operand:SI 1 "arith_reg_operand" "r"))]
  "TARGET_SHMEDIA32"
  "stlo.l       %U0, %1"
  [(set_attr "type" "ustore_media")])

(define_insn "stlo_q"
  [(set (zero_extract:DI
         (mem:DI (and:SI (match_operand:QI 0 "ua_address_operand" "p")
                         (const_int -8)))
         (minus:SI (const_int 8) (and:SI (match_dup 0) (const_int 7)))
         (and:SI (match_dup 0) (const_int 7)))
        (match_operand:DI 1 "arith_reg_operand" "r"))]
  "TARGET_SHMEDIA32"
  "stlo.q       %U0, %1"
  [(set_attr "type" "ustore_media")])

(define_insn_and_split "*stlo_q_comb0"
  [(set (zero_extract:DI
         (mem:DI (and:SI (plus:SI (match_operand:SI 0 "register_operand" "r")
                                  (match_operand:SI 1 "ua_offset" "I06"))
                         (const_int -8)))
         (minus:SI (const_int 8) (and:SI (match_dup 0) (const_int 7)))
         (and:SI (match_dup 0) (const_int 7)))
        (match_operand:DI 2 "arith_reg_operand" "r"))]
  "TARGET_SHMEDIA32 && (INTVAL (operands[1]) & 7) == 0"
  "#"
  ""
  [(pc)]
  "emit_insn (gen_stlo_q (gen_rtx_PLUS (SImode, operands[0], operands[1]),
                          operands[2]));
   DONE;")

(define_insn_and_split "*stlo_q_comb1"
  [(set (zero_extract:DI
         (mem:DI (and:SI (plus:SI (match_operand:SI 0 "register_operand" "r")
                                  (match_operand:SI 1 "ua_offset" "I06"))
                         (const_int -8)))
         (minus:SI (const_int 8) (and:SI (plus:SI (match_dup 0)
                                                  (match_operand:SI 2
                                                   "ua_offset" "I06"))
                                         (const_int 7)))
         (and:SI (plus:SI (match_dup 0) (match_dup 2)) (const_int 7)))
        (match_operand:DI 3 "arith_reg_operand" "r"))]
  "TARGET_SHMEDIA32 && (INTVAL (operands[1]) & 7) == INTVAL (operands[2])"
  "#"
  ""
  [(pc)]
  "emit_insn (gen_stlo_q (gen_rtx_PLUS (SImode, operands[0], operands[1]),
                          operands[3]));
   DONE;")

(define_insn "ldhi_l64"
  [(set (match_operand:SI 0 "arith_reg_dest" "=r")
        (zero_extract:SI
         (mem:SI (plus:DI (ior:DI (match_operand:QI 1 "ua_address_operand" "p")
                                  (const_int 3))
                          (const_int -3)))
         (plus:DI (and:DI (match_dup 1) (const_int 3)) (const_int 1))
         (const_int 0)))]
  "TARGET_SHMEDIA64"
  "ldhi.l       %U1, %0"
  [(set_attr "type" "load_media")])

(define_insn "ldhi_q64"
  [(set (match_operand:DI 0 "arith_reg_dest" "=r")
        (zero_extract:DI
         (mem:DI (plus:DI (ior:DI (match_operand:QI 1 "ua_address_operand" "p")
                                  (const_int 7))
                          (const_int -7)))
         (plus:DI (and:DI (match_dup 1) (const_int 7)) (const_int 1))
         (const_int 0)))]
  "TARGET_SHMEDIA64"
  "ldhi.q       %U1, %0"
  [(set_attr "type" "load_media")])

(define_insn "ldlo_l64"
  [(set (match_operand:SI 0 "arith_reg_dest" "=r")
        (zero_extract:SI
         (mem:SI (and:DI (match_operand:QI 1 "ua_address_operand" "p")
                         (const_int -4)))
         (minus:DI (const_int 4) (and:DI (match_dup 1) (const_int 3)))
         (and:DI (match_dup 1) (const_int 3))))]
  "TARGET_SHMEDIA64"
  "ldlo.l       %U1, %0"
  [(set_attr "type" "load_media")])

(define_insn "ldlo_q64"
  [(set (match_operand:DI 0 "arith_reg_dest" "=r")
        (zero_extract:DI
         (mem:DI (and:DI (match_operand:QI 1 "ua_address_operand" "p")
                         (const_int -8)))
         (minus:DI (const_int 8) (and:DI (match_dup 1) (const_int 7)))
         (and:DI (match_dup 1) (const_int 7))))]
  "TARGET_SHMEDIA64"
  "ldlo.q       %U1, %0"
  [(set_attr "type" "load_media")])

(define_insn "sthi_l64"
  [(set (zero_extract:SI
         (mem:SI (plus:DI (ior:DI (match_operand:QI 0 "ua_address_operand" "p")
                                  (const_int 3))
                          (const_int -3)))
         (plus:DI (and:DI (match_dup 0) (const_int 3)) (const_int 1))
         (const_int 0))
        (match_operand:SI 1 "arith_reg_operand" "r"))]
  "TARGET_SHMEDIA64"
  "sthi.l       %U0, %1"
  [(set_attr "type" "ustore_media")])

(define_insn "sthi_q64"
  [(set (zero_extract:DI
         (mem:DI (plus:DI (ior:DI (match_operand:QI 0 "ua_address_operand" "p")
                                  (const_int 7))
                          (const_int -7)))
         (plus:DI (and:DI (match_dup 0) (const_int 7)) (const_int 1))
         (const_int 0))
        (match_operand:DI 1 "arith_reg_operand" "r"))]
  "TARGET_SHMEDIA64"
  "sthi.q       %U0, %1"
  [(set_attr "type" "ustore_media")])

(define_insn "stlo_l64"
  [(set (zero_extract:SI
         (mem:SI (and:DI (match_operand:QI 0 "ua_address_operand" "p")
                         (const_int -4)))
         (minus:DI (const_int 4) (and:DI (match_dup 0) (const_int 3)))
         (and:DI (match_dup 0) (const_int 3)))
        (match_operand:SI 1 "arith_reg_operand" "r"))]
  "TARGET_SHMEDIA64"
  "stlo.l       %U0, %1"
  [(set_attr "type" "ustore_media")])

(define_insn "stlo_q64"
  [(set (zero_extract:DI
         (mem:DI (and:DI (match_operand:QI 0 "ua_address_operand" "p")
                         (const_int -8)))
         (minus:DI (const_int 8) (and:DI (match_dup 0) (const_int 7)))
         (and:DI (match_dup 0) (const_int 7)))
        (match_operand:DI 1 "arith_reg_operand" "r"))]
  "TARGET_SHMEDIA64"
  "stlo.q       %U0, %1"
  [(set_attr "type" "ustore_media")])

(define_insn "nsb"
  [(set (match_operand:QI 0 "arith_reg_dest" "=r")
        (unspec:QI [(match_operand:DI 1 "arith_reg_operand" "r")]
                   UNSPEC_NSB))]
  "TARGET_SHMEDIA"
  "nsb  %1, %0"
  [(set_attr "type" "arith_media")])

(define_insn "nsbsi"
  [(set (match_operand:SI 0 "arith_reg_dest" "=r")
        (zero_extend:SI
         (unspec:QI [(match_operand:DI 1 "arith_reg_operand" "r")]
                    UNSPEC_NSB)))]
  "TARGET_SHMEDIA"
  "nsb  %1, %0"
  [(set_attr "type" "arith_media")])

(define_insn "nsbdi"
  [(set (match_operand:DI 0 "arith_reg_dest" "=r")
        (zero_extend:DI
         (unspec:QI [(match_operand:DI 1 "arith_reg_operand" "r")]
                    UNSPEC_NSB)))]
  "TARGET_SHMEDIA"
  "nsb  %1, %0"
  [(set_attr "type" "arith_media")])

(define_expand "ffsdi2"
  [(set (match_operand:DI 0 "arith_reg_dest" "")
        (ffs:DI (match_operand:DI 1 "arith_reg_operand" "")))]
  "TARGET_SHMEDIA"
  "
{
  rtx scratch = gen_reg_rtx (DImode);
  rtx last;

  emit_insn (gen_adddi3 (scratch, operands[1], constm1_rtx));
  emit_insn (gen_xordi3 (scratch, operands[1], scratch));
  emit_insn (gen_lshrdi3_media (scratch, scratch, const1_rtx));
  emit_insn (gen_nsbdi (scratch, scratch));
  emit_insn (gen_adddi3 (scratch, scratch, GEN_INT (-64)));
  emit_insn (gen_movdicc_false (scratch, operands[1], const0_rtx, scratch));
  last = emit_insn (gen_subdi3 (operands[0], const0_rtx, scratch));
  REG_NOTES (last)
    = gen_rtx_EXPR_LIST (REG_EQUAL,
                         gen_rtx_FFS (DImode, operands[0]), REG_NOTES (last));
  DONE;
}")

(define_expand "ffssi2"
  [(set (match_operand:SI 0 "arith_reg_dest" "")
        (ffs:SI (match_operand:SI 1 "arith_reg_operand" "")))]
  "TARGET_SHMEDIA"
  "
{
  rtx scratch = gen_reg_rtx (SImode);
  rtx discratch = gen_reg_rtx (DImode);
  rtx last;

  emit_insn (gen_adddi3 (discratch,
                         simplify_gen_subreg (DImode, operands[1], SImode, 0),
                         constm1_rtx));
  emit_insn (gen_andcdi3 (discratch,
                          simplify_gen_subreg (DImode, operands[1], SImode, 0),
                          discratch));
  emit_insn (gen_nsbsi (scratch, discratch));
  last = emit_insn (gen_subsi3 (operands[0],
                                force_reg (SImode, GEN_INT (63)), scratch));
  REG_NOTES (last)
    = gen_rtx_EXPR_LIST (REG_EQUAL,
                         gen_rtx_FFS (SImode, operands[0]), REG_NOTES (last));
  DONE;
}")

(define_insn "byterev"
  [(set (match_operand:V8QI 0 "arith_reg_dest" "=r")
        (vec_select:V8QI (match_operand:V8QI 1 "arith_reg_operand" "r")
                         (parallel [(const_int 7) (const_int 6) (const_int 5)
                                    (const_int 4) (const_int 3) (const_int 2)
                                    (const_int 1) (const_int 0)])))]
  "TARGET_SHMEDIA"
  "byterev      %1, %0"
  [(set_attr "type" "arith_media")])

(define_insn "*prefetch_media"
  [(prefetch (match_operand:QI 0 "address_operand" "p")
             (match_operand:SI 1 "const_int_operand" "n")
             (match_operand:SI 2 "const_int_operand" "n"))]
  "TARGET_SHMEDIA"
  "*
{
  operands[0] = gen_rtx_MEM (QImode, operands[0]);
  output_asm_insn (\"ld%M0.b    %m0,r63\", operands);
  return \"\";
}"
  [(set_attr "type" "other")])

(define_insn "*prefetch_i4"
  [(prefetch (match_operand:SI 0 "register_operand" "r")
             (match_operand:SI 1 "const_int_operand" "n")
             (match_operand:SI 2 "const_int_operand" "n"))]
  "TARGET_HARD_SH4 || TARGET_SHCOMPACT"
  "*
{
  return \"pref @%0\";
}"
  [(set_attr "type" "other")])

(define_expand "prefetch"
  [(prefetch (match_operand 0 "address_operand" "p")
             (match_operand:SI 1 "const_int_operand" "n")
             (match_operand:SI 2 "const_int_operand" "n"))]
  "TARGET_HARD_SH4 || TARGET_SH5"
  "
{
  if (GET_MODE (operands[0]) != Pmode
      || GET_CODE (operands[1]) != CONST_INT
      || GET_CODE (operands[2]) != CONST_INT)
    FAIL;
  if (! TARGET_SHMEDIA)
    operands[0] = force_reg (Pmode, operands[0]);
}")

(define_insn "alloco_i"
  [(set (mem:BLK (match_operand:QI 0 "cache_address_operand" "p"))
        (unspec:BLK [(const_int 0)] UNSPEC_ALLOCO))]
  "TARGET_SHMEDIA32"
  "*
{
  rtx xops[2];

  if (GET_CODE (operands[0]) == PLUS)
    {
      xops[0] = XEXP (operands[0], 0);
      xops[1] = XEXP (operands[0], 1);
    }
  else
    {
      xops[0] = operands[0];
      xops[1] = const0_rtx;
    }
  output_asm_insn (\"alloco   %0, %1\", xops);
  return \"\";
}"
  [(set_attr "type" "other")])

(define_split
  [(set (match_operand 0 "any_register_operand" "")
        (match_operand 1 "" ""))]
  "TARGET_SHMEDIA && reload_completed"
  [(set (match_dup 0) (match_dup 1))]
  "
{
  int n_changes = 0;

  for_each_rtx (&operands[1], shmedia_cleanup_truncate, &n_changes);
  if (!n_changes)
    FAIL;
}")

; Stack Protector Patterns

(define_expand "stack_protect_set"
  [(set (match_operand 0 "memory_operand" "")
        (match_operand 1 "memory_operand" ""))]
  ""
{
  if (TARGET_SHMEDIA)
    {
      if (TARGET_SHMEDIA64)
        emit_insn (gen_stack_protect_set_di_media (operands[0], operands[1]));
      else
        emit_insn (gen_stack_protect_set_si_media (operands[0], operands[1]));
    }
  else
    emit_insn (gen_stack_protect_set_si (operands[0], operands[1]));

  DONE;
})

(define_insn "stack_protect_set_si"
  [(set (match_operand:SI 0 "memory_operand" "=m")
        (unspec:SI [(match_operand:SI 1 "memory_operand" "m")] UNSPEC_SP_SET))
   (set (match_scratch:SI 2 "=&r") (const_int 0))]
  "!TARGET_SHMEDIA"
  "mov.l\t%1, %2\;mov.l\t%2, %0\;mov\t#0, %2"
  [(set_attr "type" "other")
   (set_attr "length" "6")])

(define_insn "stack_protect_set_si_media"
  [(set (match_operand:SI 0 "memory_operand" "=m")
        (unspec:SI [(match_operand:SI 1 "memory_operand" "m")] UNSPEC_SP_SET))
   (set (match_scratch:SI 2 "=&r") (const_int 0))]
  "TARGET_SHMEDIA"
  "ld%M1.l\t%m1, %2\;st%M0.l\t%m0, %2\;movi\t0, %2"
  [(set_attr "type" "other")
   (set_attr "length" "12")])

(define_insn "stack_protect_set_di_media"
  [(set (match_operand:DI 0 "memory_operand" "=m")
        (unspec:DI [(match_operand:DI 1 "memory_operand" "m")] UNSPEC_SP_SET))
   (set (match_scratch:DI 2 "=&r") (const_int 0))]
  "TARGET_SHMEDIA64"
  "ld%M1.q\t%m1, %2\;st%M0.q\t%m0, %2\;movi\t0, %2"
  [(set_attr "type" "other")
   (set_attr "length" "12")])

(define_expand "stack_protect_test"
  [(match_operand 0 "memory_operand" "")
   (match_operand 1 "memory_operand" "")
   (match_operand 2 "" "")]
  ""
{
  if (TARGET_SHMEDIA)
    {
      rtx tmp = gen_reg_rtx (GET_MODE (operands[0]));

      if (TARGET_SHMEDIA64)
        emit_insn (gen_stack_protect_test_di_media (tmp, operands[0],
                                                    operands[1]));
      else
        emit_insn (gen_stack_protect_test_si_media (tmp, operands[0],
                                                    operands[1]));

      emit_jump_insn (gen_bne_media (operands[2], tmp, const0_rtx));
    }
  else
    {
      emit_insn (gen_stack_protect_test_si (operands[0], operands[1]));
      emit_jump_insn (gen_branch_true (operands[2]));
    }

  DONE;
})

(define_insn "stack_protect_test_si"
  [(set (reg:SI T_REG)
        (unspec:SI [(match_operand:SI 0 "memory_operand" "m")
                    (match_operand:SI 1 "memory_operand" "m")]
                   UNSPEC_SP_TEST))
  (set (match_scratch:SI 2 "=&r") (const_int 0))
  (set (match_scratch:SI 3 "=&r") (const_int 0))]
  "!TARGET_SHMEDIA"
  "mov.l\t%0, %2\;mov.l\t%1, %3\;cmp/eq\t%2, %3\;mov\t#0, %2\;mov\t#0, %3"
  [(set_attr "type" "other")
   (set_attr "length" "10")])

(define_insn "stack_protect_test_si_media"
  [(set (match_operand:SI 0 "register_operand" "=&r")
        (unspec:SI [(match_operand:SI 1 "memory_operand" "m")
                    (match_operand:SI 2 "memory_operand" "m")]
                   UNSPEC_SP_TEST))
  (set (match_scratch:SI 3 "=&r") (const_int 0))]
  "TARGET_SHMEDIA"
  "ld%M1.l\t%m1, %0\;ld%M2.l\t%m2, %3\;cmpeq\t%0, %3, %0\;movi\t0, %3"
  [(set_attr "type" "other")
   (set_attr "length" "16")])

(define_insn "stack_protect_test_di_media"
  [(set (match_operand:DI 0 "register_operand" "=&r")
        (unspec:DI [(match_operand:DI 1 "memory_operand" "m")
                    (match_operand:DI 2 "memory_operand" "m")]
                   UNSPEC_SP_TEST))
  (set (match_scratch:DI 3 "=&r") (const_int 0))]
  "TARGET_SHMEDIA64"
  "ld%M1.q\t%m1, %0\;ld%M2.q\t%m2, %3\;cmpeq\t%0, %3, %0\;movi\t0, %3"
  [(set_attr "type" "other")
   (set_attr "length" "16")])

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