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;; Machine description of the Argonaut ARC cpu for GNU C compiler
;; Copyright (C) 1994, 1997, 1998, 1999, 2000, 2004, 2005, 2007
;; Free Software Foundation, Inc.
;; This file is part of GCC.
;; GCC is free software; you can redistribute it and/or modify
;; it under the terms of the GNU General Public License as published by
;; the Free Software Foundation; either version 3, or (at your option)
;; any later version.
;; GCC is distributed in the hope that it will be useful,
;; but WITHOUT ANY WARRANTY; without even the implied warranty of
;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
;; GNU General Public License for more details.
;; You should have received a copy of the GNU General Public License
;; along with GCC; see the file COPYING3. If not see
;; <http://www.gnu.org/licenses/>.
;; See file "rtl.def" for documentation on define_insn, match_*, et. al.
;; ??? This is an old port, and is undoubtedly suffering from bit rot.
;; Insn type. Used to default other attribute values.
(define_attr "type"
"move,load,store,cmove,unary,binary,compare,shift,mul,uncond_branch,branch,call,call_no_delay_slot,multi,misc"
(const_string "binary"))
;; Length (in # of insns, long immediate constants counted too).
;; ??? There's a nasty interaction between the conditional execution fsm
;; and insn lengths: insns with shimm values cannot be conditionally executed.
(define_attr "length" ""
(cond [(eq_attr "type" "load")
(if_then_else (match_operand 1 "long_immediate_loadstore_operand" "")
(const_int 2) (const_int 1))
(eq_attr "type" "store")
(if_then_else (match_operand 0 "long_immediate_loadstore_operand" "")
(const_int 2) (const_int 1))
(eq_attr "type" "move,unary,compare")
(if_then_else (match_operand 1 "long_immediate_operand" "")
(const_int 2) (const_int 1))
(eq_attr "type" "binary,mul")
(if_then_else (match_operand 2 "long_immediate_operand" "")
(const_int 2) (const_int 1))
(eq_attr "type" "cmove")
(if_then_else (match_operand 2 "register_operand" "")
(const_int 1) (const_int 2))
(eq_attr "type" "multi") (const_int 2)
]
(const_int 1)))
;; The length here is the length of a single asm. Unfortunately it might be
;; 1 or 2 so we must allow for 2. That's ok though. How often will users
;; lament asm's not being put in delay slots?
(define_asm_attributes
[(set_attr "length" "2")
(set_attr "type" "multi")])
;; Condition codes: this one is used by final_prescan_insn to speed up
;; conditionalizing instructions. It saves having to scan the rtl to see if
;; it uses or alters the condition codes.
;; USE: This insn uses the condition codes (e.g.: a conditional branch).
;; CANUSE: This insn can use the condition codes (for conditional execution).
;; SET: All condition codes are set by this insn.
;; SET_ZN: the Z and N flags are set by this insn.
;; SET_ZNC: the Z, N, and C flags are set by this insn.
;; CLOB: The condition codes are set to unknown values by this insn.
;; NOCOND: This insn can't use and doesn't affect the condition codes.
(define_attr "cond" "use,canuse,set,set_zn,set_znc,clob,nocond"
(cond [(and (eq_attr "type" "unary,binary,move")
(eq_attr "length" "1"))
(const_string "canuse")
(eq_attr "type" "compare")
(const_string "set")
(eq_attr "type" "cmove,branch")
(const_string "use")
(eq_attr "type" "multi,misc")
(const_string "clob")
]
(const_string "nocond")))
;; Delay slots.
(define_attr "in_delay_slot" "false,true"
(cond [(eq_attr "type" "uncond_branch,branch,call,call_no_delay_slot,multi")
(const_string "false")
]
(if_then_else (eq_attr "length" "1")
(const_string "true")
(const_string "false"))))
(define_delay (eq_attr "type" "call")
[(eq_attr "in_delay_slot" "true")
(eq_attr "in_delay_slot" "true")
(eq_attr "in_delay_slot" "true")])
(define_delay (eq_attr "type" "branch,uncond_branch")
[(eq_attr "in_delay_slot" "true")
(eq_attr "in_delay_slot" "true")
(eq_attr "in_delay_slot" "true")])
;; Scheduling description for the ARC
(define_cpu_unit "branch")
(define_insn_reservation "any_insn" 1 (eq_attr "type" "!load,compare,branch")
"nothing")
;; 1) A conditional jump cannot immediately follow the insn setting the flags.
;; This isn't a complete solution as it doesn't come with guarantees. That
;; is done in the branch patterns and in arc_print_operand. This exists to
;; avoid inserting a nop when we can.
(define_insn_reservation "compare" 1 (eq_attr "type" "compare")
"nothing,branch")
(define_insn_reservation "branch" 1 (eq_attr "type" "branch")
"branch")
;; 2) References to loaded registers should wait a cycle.
;; Memory with load-delay of 1 (i.e., 2 cycle load).
(define_insn_reservation "memory" 2 (eq_attr "type" "load")
"nothing")
;; Move instructions.
(define_expand "movqi"
[(set (match_operand:QI 0 "general_operand" "")
(match_operand:QI 1 "general_operand" ""))]
""
"
{
/* Everything except mem = const or mem = mem can be done easily. */
if (GET_CODE (operands[0]) == MEM)
operands[1] = force_reg (QImode, operands[1]);
}")
(define_insn "*movqi_insn"
[(set (match_operand:QI 0 "move_dest_operand" "=r,r,r,m")
(match_operand:QI 1 "move_src_operand" "rI,Ji,m,r"))]
;; ??? Needed?
"register_operand (operands[0], QImode)
|| register_operand (operands[1], QImode)"
"@
mov%? %0,%1
mov%? %0,%1
ldb%U1%V1 %0,%1
stb%U0%V0 %1,%0"
[(set_attr "type" "move,move,load,store")])
;; ??? This may never match since there's no cmpqi insn.
(define_insn "*movqi_set_cc_insn"
[(set (reg:CCZN 61) (compare:CCZN
(sign_extend:SI (match_operand:QI 1 "move_src_operand" "rIJi"))
(const_int 0)))
(set (match_operand:QI 0 "move_dest_operand" "=r")
(match_dup 1))]
""
"mov%?.f %0,%1"
[(set_attr "type" "move")
(set_attr "cond" "set_zn")])
(define_expand "movhi"
[(set (match_operand:HI 0 "general_operand" "")
(match_operand:HI 1 "general_operand" ""))]
""
"
{
/* Everything except mem = const or mem = mem can be done easily. */
if (GET_CODE (operands[0]) == MEM)
operands[1] = force_reg (HImode, operands[1]);
}")
(define_insn "*movhi_insn"
[(set (match_operand:HI 0 "move_dest_operand" "=r,r,r,m")
(match_operand:HI 1 "move_src_operand" "rI,Ji,m,r"))]
"register_operand (operands[0], HImode)
|| register_operand (operands[1], HImode)"
"@
mov%? %0,%1
mov%? %0,%1
ldw%U1%V1 %0,%1
stw%U0%V0 %1,%0"
[(set_attr "type" "move,move,load,store")])
;; ??? Will this ever match?
(define_insn "*movhi_set_cc_insn"
[(set (reg:CCZN 61) (compare:CCZN
(sign_extend:SI (match_operand:HI 1 "move_src_operand" "rIJi"))
(const_int 0)))
(set (match_operand:HI 0 "move_dest_operand" "=r")
(match_dup 1))]
;; ??? Needed?
"register_operand (operands[0], HImode)
|| register_operand (operands[1], HImode)"
"mov%?.f %0,%1"
[(set_attr "type" "move")
(set_attr "cond" "set_zn")])
(define_expand "movsi"
[(set (match_operand:SI 0 "general_operand" "")
(match_operand:SI 1 "general_operand" ""))]
""
"
{
/* Everything except mem = const or mem = mem can be done easily. */
if (GET_CODE (operands[0]) == MEM)
operands[1] = force_reg (SImode, operands[1]);
}")
(define_insn "*movsi_insn"
[(set (match_operand:SI 0 "move_dest_operand" "=r,r,r,m")
(match_operand:SI 1 "move_src_operand" "rI,GJi,m,r"))]
"register_operand (operands[0], SImode)
|| register_operand (operands[1], SImode)"
"@
mov%? %0,%1
mov%? %0,%S1
ld%U1%V1 %0,%1
st%U0%V0 %1,%0"
[(set_attr "type" "move,move,load,store")])
(define_insn "*movsi_set_cc_insn"
[(set (reg:CCZN 61) (compare:CCZN
(match_operand:SI 1 "move_src_operand" "rIJi")
(const_int 0)))
(set (match_operand:SI 0 "move_dest_operand" "=r")
(match_dup 1))]
"register_operand (operands[0], SImode)
|| register_operand (operands[1], SImode)"
"mov%?.f %0,%S1"
[(set_attr "type" "move")
(set_attr "cond" "set_zn")])
(define_expand "movdi"
[(set (match_operand:DI 0 "general_operand" "")
(match_operand:DI 1 "general_operand" ""))]
""
"
{
/* Everything except mem = const or mem = mem can be done easily. */
if (GET_CODE (operands[0]) == MEM)
operands[1] = force_reg (DImode, operands[1]);
}")
(define_insn "*movdi_insn"
[(set (match_operand:DI 0 "move_dest_operand" "=r,r,r,m")
(match_operand:DI 1 "move_double_src_operand" "r,HK,m,r"))]
"register_operand (operands[0], DImode)
|| register_operand (operands[1], DImode)"
"*
{
switch (which_alternative)
{
case 0 :
/* We normally copy the low-numbered register first. However, if
the first register operand 0 is the same as the second register of
operand 1, we must copy in the opposite order. */
if (REGNO (operands[0]) == REGNO (operands[1]) + 1)
return \"mov %R0,%R1\;mov %0,%1\";
else
return \"mov %0,%1\;mov %R0,%R1\";
case 1 :
return \"mov %0,%L1\;mov %R0,%H1\";
case 2 :
/* If the low-address word is used in the address, we must load it
last. Otherwise, load it first. Note that we cannot have
auto-increment in that case since the address register is known to be
dead. */
if (refers_to_regno_p (REGNO (operands[0]), REGNO (operands[0]) + 1,
operands [1], 0))
return \"ld%V1 %R0,%R1\;ld%V1 %0,%1\";
else
return \"ld%V1 %0,%1\;ld%V1 %R0,%R1\";
case 3 :
return \"st%V0 %1,%0\;st%V0 %R1,%R0\";
default:
gcc_unreachable ();
}
}"
[(set_attr "type" "move,move,load,store")
;; ??? The ld/st values could be 4 if it's [reg,bignum].
(set_attr "length" "2,4,2,2")])
;(define_expand "movdi"
; [(set (match_operand:DI 0 "general_operand" "")
; (match_operand:DI 1 "general_operand" ""))]
; ""
; "
;{
; /* Flow doesn't understand that this is effectively a DFmode move.
; It doesn't know that all of `operands[0]' is set. */
; emit_insn (gen_rtx_CLOBBER (VOIDmode, operands[0]));
;
; /* Emit insns that movsi_insn can handle. */
; emit_insn (gen_movsi (operand_subword (operands[0], 0, 0, DImode),
; operand_subword (operands[1], 0, 0, DImode)));
; emit_insn (gen_movsi (operand_subword (operands[0], 1, 0, DImode),
; operand_subword (operands[1], 1, 0, DImode)));
; DONE;
;}")
;; Floating point move insns.
(define_expand "movsf"
[(set (match_operand:SF 0 "general_operand" "")
(match_operand:SF 1 "general_operand" ""))]
""
"
{
/* Everything except mem = const or mem = mem can be done easily. */
if (GET_CODE (operands[0]) == MEM)
operands[1] = force_reg (SFmode, operands[1]);
}")
(define_insn "*movsf_insn"
[(set (match_operand:SF 0 "move_dest_operand" "=r,r,r,m")
(match_operand:SF 1 "move_src_operand" "r,E,m,r"))]
"register_operand (operands[0], SFmode)
|| register_operand (operands[1], SFmode)"
"@
mov%? %0,%1
mov%? %0,%1 ; %A1
ld%U1%V1 %0,%1
st%U0%V0 %1,%0"
[(set_attr "type" "move,move,load,store")])
(define_expand "movdf"
[(set (match_operand:DF 0 "general_operand" "")
(match_operand:DF 1 "general_operand" ""))]
""
"
{
/* Everything except mem = const or mem = mem can be done easily. */
if (GET_CODE (operands[0]) == MEM)
operands[1] = force_reg (DFmode, operands[1]);
}")
(define_insn "*movdf_insn"
[(set (match_operand:DF 0 "move_dest_operand" "=r,r,r,m")
(match_operand:DF 1 "move_double_src_operand" "r,E,m,r"))]
"register_operand (operands[0], DFmode)
|| register_operand (operands[1], DFmode)"
"*
{
switch (which_alternative)
{
case 0 :
/* We normally copy the low-numbered register first. However, if
the first register operand 0 is the same as the second register of
operand 1, we must copy in the opposite order. */
if (REGNO (operands[0]) == REGNO (operands[1]) + 1)
return \"mov %R0,%R1\;mov %0,%1\";
else
return \"mov %0,%1\;mov %R0,%R1\";
case 1 :
return \"mov %0,%L1\;mov %R0,%H1 ; %A1\";
case 2 :
/* If the low-address word is used in the address, we must load it
last. Otherwise, load it first. Note that we cannot have
auto-increment in that case since the address register is known to be
dead. */
if (refers_to_regno_p (REGNO (operands[0]), REGNO (operands[0]) + 1,
operands [1], 0))
return \"ld%V1 %R0,%R1\;ld%V1 %0,%1\";
else
return \"ld%V1 %0,%1\;ld%V1 %R0,%R1\";
case 3 :
return \"st%V0 %1,%0\;st%V0 %R1,%R0\";
default:
gcc_unreachable ();
}
}"
[(set_attr "type" "move,move,load,store")
;; ??? The ld/st values could be 4 if it's [reg,bignum].
(set_attr "length" "2,4,2,2")])
;(define_expand "movdf"
; [(set (match_operand:DF 0 "general_operand" "")
; (match_operand:DF 1 "general_operand" ""))]
; ""
; "
;{
; /* Flow doesn't understand that this is effectively a DFmode move.
; It doesn't know that all of `operands[0]' is set. */
; emit_insn (gen_rtx_CLOBBER (VOIDmode, operands[0]));
;
; /* Emit insns that movsi_insn can handle. */
; emit_insn (gen_movsi (operand_subword (operands[0], 0, 0, DFmode),
; operand_subword (operands[1], 0, 0, DFmode)));
; emit_insn (gen_movsi (operand_subword (operands[0], 1, 0, DFmode),
; operand_subword (operands[1], 1, 0, DFmode)));
; DONE;
;}")
;; Load/Store with update instructions.
;;
;; Some of these we can get by using pre-decrement or pre-increment, but the
;; hardware can also do cases where the increment is not the size of the
;; object.
;;
;; In all these cases, we use operands 0 and 1 for the register being
;; incremented because those are the operands that local-alloc will
;; tie and these are the pair most likely to be tieable (and the ones
;; that will benefit the most).
;;
;; We use match_operator here because we need to know whether the memory
;; object is volatile or not.
(define_insn "*loadqi_update"
[(set (match_operand:QI 3 "register_operand" "=r,r")
(match_operator:QI 4 "load_update_operand"
[(match_operand:SI 1 "register_operand" "0,0")
(match_operand:SI 2 "nonmemory_operand" "rI,J")]))
(set (match_operand:SI 0 "register_operand" "=r,r")
(plus:SI (match_dup 1) (match_dup 2)))]
""
"ldb.a%V4 %3,[%0,%2]"
[(set_attr "type" "load,load")
(set_attr "length" "1,2")])
(define_insn "*load_zeroextendqisi_update"
[(set (match_operand:SI 3 "register_operand" "=r,r")
(zero_extend:SI (match_operator:QI 4 "load_update_operand"
[(match_operand:SI 1 "register_operand" "0,0")
(match_operand:SI 2 "nonmemory_operand" "rI,J")])))
(set (match_operand:SI 0 "register_operand" "=r,r")
(plus:SI (match_dup 1) (match_dup 2)))]
""
"ldb.a%V4 %3,[%0,%2]"
[(set_attr "type" "load,load")
(set_attr "length" "1,2")])
(define_insn "*load_signextendqisi_update"
[(set (match_operand:SI 3 "register_operand" "=r,r")
(sign_extend:SI (match_operator:QI 4 "load_update_operand"
[(match_operand:SI 1 "register_operand" "0,0")
(match_operand:SI 2 "nonmemory_operand" "rI,J")])))
(set (match_operand:SI 0 "register_operand" "=r,r")
(plus:SI (match_dup 1) (match_dup 2)))]
""
"ldb.x.a%V4 %3,[%0,%2]"
[(set_attr "type" "load,load")
(set_attr "length" "1,2")])
(define_insn "*storeqi_update"
[(set (match_operator:QI 4 "store_update_operand"
[(match_operand:SI 1 "register_operand" "0")
(match_operand:SI 2 "short_immediate_operand" "I")])
(match_operand:QI 3 "register_operand" "r"))
(set (match_operand:SI 0 "register_operand" "=r")
(plus:SI (match_dup 1) (match_dup 2)))]
""
"stb.a%V4 %3,[%0,%2]"
[(set_attr "type" "store")
(set_attr "length" "1")])
(define_insn "*loadhi_update"
[(set (match_operand:HI 3 "register_operand" "=r,r")
(match_operator:HI 4 "load_update_operand"
[(match_operand:SI 1 "register_operand" "0,0")
(match_operand:SI 2 "nonmemory_operand" "rI,J")]))
(set (match_operand:SI 0 "register_operand" "=r,r")
(plus:SI (match_dup 1) (match_dup 2)))]
""
"ldw.a%V4 %3,[%0,%2]"
[(set_attr "type" "load,load")
(set_attr "length" "1,2")])
(define_insn "*load_zeroextendhisi_update"
[(set (match_operand:SI 3 "register_operand" "=r,r")
(zero_extend:SI (match_operator:HI 4 "load_update_operand"
[(match_operand:SI 1 "register_operand" "0,0")
(match_operand:SI 2 "nonmemory_operand" "rI,J")])))
(set (match_operand:SI 0 "register_operand" "=r,r")
(plus:SI (match_dup 1) (match_dup 2)))]
""
"ldw.a%V4 %3,[%0,%2]"
[(set_attr "type" "load,load")
(set_attr "length" "1,2")])
(define_insn "*load_signextendhisi_update"
[(set (match_operand:SI 3 "register_operand" "=r,r")
(sign_extend:SI (match_operator:HI 4 "load_update_operand"
[(match_operand:SI 1 "register_operand" "0,0")
(match_operand:SI 2 "nonmemory_operand" "rI,J")])))
(set (match_operand:SI 0 "register_operand" "=r,r")
(plus:SI (match_dup 1) (match_dup 2)))]
""
"ldw.x.a%V4 %3,[%0,%2]"
[(set_attr "type" "load,load")
(set_attr "length" "1,2")])
(define_insn "*storehi_update"
[(set (match_operator:HI 4 "store_update_operand"
[(match_operand:SI 1 "register_operand" "0")
(match_operand:SI 2 "short_immediate_operand" "I")])
(match_operand:HI 3 "register_operand" "r"))
(set (match_operand:SI 0 "register_operand" "=r")
(plus:SI (match_dup 1) (match_dup 2)))]
""
"stw.a%V4 %3,[%0,%2]"
[(set_attr "type" "store")
(set_attr "length" "1")])
(define_insn "*loadsi_update"
[(set (match_operand:SI 3 "register_operand" "=r,r")
(match_operator:SI 4 "load_update_operand"
[(match_operand:SI 1 "register_operand" "0,0")
(match_operand:SI 2 "nonmemory_operand" "rI,J")]))
(set (match_operand:SI 0 "register_operand" "=r,r")
(plus:SI (match_dup 1) (match_dup 2)))]
""
"ld.a%V4 %3,[%0,%2]"
[(set_attr "type" "load,load")
(set_attr "length" "1,2")])
(define_insn "*storesi_update"
[(set (match_operator:SI 4 "store_update_operand"
[(match_operand:SI 1 "register_operand" "0")
(match_operand:SI 2 "short_immediate_operand" "I")])
(match_operand:SI 3 "register_operand" "r"))
(set (match_operand:SI 0 "register_operand" "=r")
(plus:SI (match_dup 1) (match_dup 2)))]
""
"st.a%V4 %3,[%0,%2]"
[(set_attr "type" "store")
(set_attr "length" "1")])
(define_insn "*loadsf_update"
[(set (match_operand:SF 3 "register_operand" "=r,r")
(match_operator:SF 4 "load_update_operand"
[(match_operand:SI 1 "register_operand" "0,0")
(match_operand:SI 2 "nonmemory_operand" "rI,J")]))
(set (match_operand:SI 0 "register_operand" "=r,r")
(plus:SI (match_dup 1) (match_dup 2)))]
""
"ld.a%V4 %3,[%0,%2]"
[(set_attr "type" "load,load")
(set_attr "length" "1,2")])
(define_insn "*storesf_update"
[(set (match_operator:SF 4 "store_update_operand"
[(match_operand:SI 1 "register_operand" "0")
(match_operand:SI 2 "short_immediate_operand" "I")])
(match_operand:SF 3 "register_operand" "r"))
(set (match_operand:SI 0 "register_operand" "=r")
(plus:SI (match_dup 1) (match_dup 2)))]
""
"st.a%V4 %3,[%0,%2]"
[(set_attr "type" "store")
(set_attr "length" "1")])
;; Conditional move instructions.
(define_expand "movsicc"
[(set (match_operand:SI 0 "register_operand" "")
(if_then_else:SI (match_operand 1 "comparison_operator" "")
(match_operand:SI 2 "nonmemory_operand" "")
(match_operand:SI 3 "register_operand" "")))]
""
"
{
enum rtx_code code = GET_CODE (operands[1]);
rtx ccreg
= gen_rtx_REG (SELECT_CC_MODE (code, arc_compare_op0, arc_compare_op1),
61);
operands[1] = gen_rtx_fmt_ee (code, VOIDmode, ccreg, const0_rtx);
}")
;(define_expand "movdicc"
; [(set (match_operand:DI 0 "register_operand" "")
; (if_then_else:DI (match_operand 1 "comparison_operator" "")
; (match_operand:DI 2 "nonmemory_operand" "")
; (match_operand:DI 3 "register_operand" "")))]
; "0 /* ??? this would work better if we had cmpdi */"
; "
;{
; enum rtx_code code = GET_CODE (operands[1]);
; rtx ccreg
; = gen_rtx_REG (SELECT_CC_MODE (code, arc_compare_op0, arc_compare_op1),
; 61);
;
; operands[1] = gen_rtx_fmt_ee (code, VOIDmode, ccreg, const0_rtx);
;}")
(define_expand "movsfcc"
[(set (match_operand:SF 0 "register_operand" "")
(if_then_else:SF (match_operand 1 "comparison_operator" "")
(match_operand:SF 2 "nonmemory_operand" "")
(match_operand:SF 3 "register_operand" "")))]
""
"
{
enum rtx_code code = GET_CODE (operands[1]);
rtx ccreg
= gen_rtx_REG (SELECT_CC_MODE (code, arc_compare_op0, arc_compare_op1),
61);
operands[1] = gen_rtx_fmt_ee (code, VOIDmode, ccreg, const0_rtx);
}")
;(define_expand "movdfcc"
; [(set (match_operand:DF 0 "register_operand" "")
; (if_then_else:DF (match_operand 1 "comparison_operator" "")
; (match_operand:DF 2 "nonmemory_operand" "")
; (match_operand:DF 3 "register_operand" "")))]
; "0 /* ??? can generate less efficient code if constants involved */"
; "
;{
; enum rtx_code code = GET_CODE (operands[1]);
; rtx ccreg
; = gen_rtx_REG (SELECT_CC_MODE (code, arc_compare_op0, arc_compare_op1),
; 61);
;
; operands[1] = gen_rtx_fmt_ee (code, VOIDmode, ccreg, const0_rtx);
;}")
(define_insn "*movsicc_insn"
[(set (match_operand:SI 0 "register_operand" "=r")
(if_then_else:SI (match_operand 1 "comparison_operator" "")
(match_operand:SI 2 "nonmemory_operand" "rJi")
(match_operand:SI 3 "register_operand" "0")))]
""
"mov.%d1 %0,%S2"
[(set_attr "type" "cmove")])
; ??? This doesn't properly handle constants.
;(define_insn "*movdicc_insn"
; [(set (match_operand:DI 0 "register_operand" "=r,r")
; (if_then_else:DI (match_operand 1 "comparison_operator" "")
; (match_operand:DI 2 "nonmemory_operand" "r,Ji")
; (match_operand:DI 3 "register_operand" "0,0")))]
; "0"
; "*
;{
; switch (which_alternative)
; {
; case 0 :
; /* We normally copy the low-numbered register first. However, if
; the first register operand 0 is the same as the second register of
; operand 1, we must copy in the opposite order. */
; if (REGNO (operands[0]) == REGNO (operands[2]) + 1)
; return \"mov.%d1 %R0,%R2\;mov.%d1 %0,%2\";
; else
; return \"mov.%d1 %0,%2\;mov.%d1 %R0,%R2\";
; case 1 :
; return \"mov.%d1 %0,%2\;mov.%d1 %R0,%R2\";
; }
;}"
; [(set_attr "type" "cmove,cmove")
; (set_attr "length" "2,4")])
(define_insn "*movsfcc_insn"
[(set (match_operand:SF 0 "register_operand" "=r,r")
(if_then_else:SF (match_operand 1 "comparison_operator" "")
(match_operand:SF 2 "nonmemory_operand" "r,E")
(match_operand:SF 3 "register_operand" "0,0")))]
""
"@
mov.%d1 %0,%2
mov.%d1 %0,%2 ; %A2"
[(set_attr "type" "cmove,cmove")])
;(define_insn "*movdfcc_insn"
; [(set (match_operand:DF 0 "register_operand" "=r,r")
; (if_then_else:DF (match_operand 1 "comparison_operator" "")
; (match_operand:DF 2 "nonmemory_operand" "r,E")
; (match_operand:DF 3 "register_operand" "0,0")))]
; "0"
; "*
;{
; switch (which_alternative)
; {
; case 0 :
; /* We normally copy the low-numbered register first. However, if
; the first register operand 0 is the same as the second register of
; operand 1, we must copy in the opposite order. */
; if (REGNO (operands[0]) == REGNO (operands[2]) + 1)
; return \"mov.%d1 %R0,%R2\;mov.%d1 %0,%2\";
; else
; return \"mov.%d1 %0,%2\;mov.%d1 %R0,%R2\";
; case 1 :
; return \"mov.%d1 %0,%L2\;mov.%d1 %R0,%H2 ; %A2\";
; }
;}"
; [(set_attr "type" "cmove,cmove")
; (set_attr "length" "2,4")])
;; Zero extension instructions.
;; ??? We don't support volatile memrefs here, but I'm not sure why.
(define_insn "zero_extendqihi2"
[(set (match_operand:HI 0 "register_operand" "=r,r")
(zero_extend:HI (match_operand:QI 1 "nonvol_nonimm_operand" "r,m")))]
""
"@
extb%? %0,%1
ldb%U1 %0,%1"
[(set_attr "type" "unary,load")])
(define_insn "*zero_extendqihi2_set_cc_insn"
[(set (reg:CCZN 61) (compare:CCZN
(zero_extend:SI (match_operand:QI 1 "register_operand" "r"))
(const_int 0)))
(set (match_operand:HI 0 "register_operand" "=r")
(zero_extend:HI (match_dup 1)))]
""
"extb%?.f %0,%1"
[(set_attr "type" "unary")
(set_attr "cond" "set_zn")])
(define_insn "zero_extendqisi2"
[(set (match_operand:SI 0 "register_operand" "=r,r")
(zero_extend:SI (match_operand:QI 1 "nonvol_nonimm_operand" "r,m")))]
""
"@
extb%? %0,%1
ldb%U1 %0,%1"
[(set_attr "type" "unary,load")])
(define_insn "*zero_extendqisi2_set_cc_insn"
[(set (reg:CCZN 61) (compare:CCZN
(zero_extend:SI (match_operand:QI 1 "register_operand" "r"))
(const_int 0)))
(set (match_operand:SI 0 "register_operand" "=r")
(zero_extend:SI (match_dup 1)))]
""
"extb%?.f %0,%1"
[(set_attr "type" "unary")
(set_attr "cond" "set_zn")])
(define_insn "zero_extendhisi2"
[(set (match_operand:SI 0 "register_operand" "=r,r")
(zero_extend:SI (match_operand:HI 1 "nonvol_nonimm_operand" "r,m")))]
""
"@
extw%? %0,%1
ldw%U1 %0,%1"
[(set_attr "type" "unary,load")])
(define_insn "*zero_extendhisi2_set_cc_insn"
[(set (reg:CCZN 61) (compare:CCZN
(zero_extend:SI (match_operand:HI 1 "register_operand" "r"))
(const_int 0)))
(set (match_operand:SI 0 "register_operand" "=r")
(zero_extend:SI (match_dup 1)))]
""
"extw%?.f %0,%1"
[(set_attr "type" "unary")
(set_attr "cond" "set_zn")])
;; Sign extension instructions.
(define_insn "extendqihi2"
[(set (match_operand:HI 0 "register_operand" "=r,r")
(sign_extend:HI (match_operand:QI 1 "nonvol_nonimm_operand" "r,m")))]
""
"@
sexb%? %0,%1
ldb.x%U1 %0,%1"
[(set_attr "type" "unary,load")])
(define_insn "*extendqihi2_set_cc_insn"
[(set (reg:CCZN 61) (compare:CCZN
(sign_extend:SI (match_operand:QI 1 "register_operand" "r"))
(const_int 0)))
(set (match_operand:HI 0 "register_operand" "=r")
(sign_extend:HI (match_dup 1)))]
""
"sexb%?.f %0,%1"
[(set_attr "type" "unary")
(set_attr "cond" "set_zn")])
(define_insn "extendqisi2"
[(set (match_operand:SI 0 "register_operand" "=r,r")
(sign_extend:SI (match_operand:QI 1 "nonvol_nonimm_operand" "r,m")))]
""
"@
sexb%? %0,%1
ldb.x%U1 %0,%1"
[(set_attr "type" "unary,load")])
(define_insn "*extendqisi2_set_cc_insn"
[(set (reg:CCZN 61) (compare:CCZN
(sign_extend:SI (match_operand:QI 1 "register_operand" "r"))
(const_int 0)))
(set (match_operand:SI 0 "register_operand" "=r")
(sign_extend:SI (match_dup 1)))]
""
"sexb%?.f %0,%1"
[(set_attr "type" "unary")
(set_attr "cond" "set_zn")])
(define_insn "extendhisi2"
[(set (match_operand:SI 0 "register_operand" "=r,r")
(sign_extend:SI (match_operand:HI 1 "nonvol_nonimm_operand" "r,m")))]
""
"@
sexw%? %0,%1
ldw.x%U1 %0,%1"
[(set_attr "type" "unary,load")])
(define_insn "*extendhisi2_set_cc_insn"
[(set (reg:CCZN 61) (compare:CCZN
(sign_extend:SI (match_operand:HI 1 "register_operand" "r"))
(const_int 0)))
(set (match_operand:SI 0 "register_operand" "=r")
(sign_extend:SI (match_dup 1)))]
""
"sexw%?.f %0,%1"
[(set_attr "type" "unary")
(set_attr "cond" "set_zn")])
;; Arithmetic instructions.
(define_insn "addsi3"
[(set (match_operand:SI 0 "register_operand" "=r")
(plus:SI (match_operand:SI 1 "register_operand" "%r")
(match_operand:SI 2 "nonmemory_operand" "rIJ")))]
""
"add%? %0,%1,%2")
(define_insn "*addsi3_set_cc_insn"
[(set (reg:CC 61) (compare:CC
(plus:SI (match_operand:SI 1 "register_operand" "%r")
(match_operand:SI 2 "nonmemory_operand" "rIJ"))
(const_int 0)))
(set (match_operand:SI 0 "register_operand" "=r")
(plus:SI (match_dup 1)
(match_dup 2)))]
""
"add%?.f %0,%1,%2"
[(set_attr "cond" "set")])
(define_insn "adddi3"
[(set (match_operand:DI 0 "register_operand" "=r")
(plus:DI (match_operand:DI 1 "nonmemory_operand" "%r")
(match_operand:DI 2 "nonmemory_operand" "ri")))
(clobber (reg:CC 61))]
""
"*
{
rtx op2 = operands[2];
if (GET_CODE (op2) == CONST_INT)
{
int sign = INTVAL (op2);
if (sign < 0)
return \"add.f %L0,%L1,%2\;adc %H0,%H1,-1\";
else
return \"add.f %L0,%L1,%2\;adc %H0,%H1,0\";
}
else
return \"add.f %L0,%L1,%L2\;adc %H0,%H1,%H2\";
}"
[(set_attr "length" "2")])
(define_insn "subsi3"
[(set (match_operand:SI 0 "register_operand" "=r")
(minus:SI (match_operand:SI 1 "register_operand" "r")
(match_operand:SI 2 "nonmemory_operand" "rIJ")))]
""
"sub%? %0,%1,%2")
(define_insn "*subsi3_set_cc_insn"
[(set (reg:CC 61) (compare:CC
(minus:SI (match_operand:SI 1 "register_operand" "%r")
(match_operand:SI 2 "nonmemory_operand" "rIJ"))
(const_int 0)))
(set (match_operand:SI 0 "register_operand" "=r")
(minus:SI (match_dup 1)
(match_dup 2)))]
""
"sub%?.f %0,%1,%2"
[(set_attr "cond" "set")])
(define_insn "subdi3"
[(set (match_operand:DI 0 "register_operand" "=r")
(minus:DI (match_operand:DI 1 "nonmemory_operand" "r")
(match_operand:DI 2 "nonmemory_operand" "ri")))
(clobber (reg:CC 61))]
""
"*
{
rtx op2 = operands[2];
if (GET_CODE (op2) == CONST_INT)
{
int sign = INTVAL (op2);
if (sign < 0)
return \"sub.f %L0,%L1,%2\;sbc %H0,%H1,-1\";
else
return \"sub.f %L0,%L1,%2\;sbc %H0,%H1,0\";
}
else
return \"sub.f %L0,%L1,%L2\;sbc %H0,%H1,%H2\";
}"
[(set_attr "length" "2")])
;; Boolean instructions.
;;
;; We don't define the DImode versions as expand_binop does a good enough job.
(define_insn "andsi3"
[(set (match_operand:SI 0 "register_operand" "=r")
(and:SI (match_operand:SI 1 "register_operand" "%r")
(match_operand:SI 2 "nonmemory_operand" "rIJ")))]
""
"and%? %0,%1,%2")
(define_insn "*andsi3_set_cc_insn"
[(set (reg:CCZN 61) (compare:CCZN
(and:SI (match_operand:SI 1 "register_operand" "%r")
(match_operand:SI 2 "nonmemory_operand" "rIJ"))
(const_int 0)))
(set (match_operand:SI 0 "register_operand" "=r")
(and:SI (match_dup 1)
(match_dup 2)))]
""
"and%?.f %0,%1,%2"
[(set_attr "cond" "set_zn")])
(define_insn "*bicsi3_insn"
[(set (match_operand:SI 0 "register_operand" "=r,r,r,r")
(and:SI (match_operand:SI 1 "nonmemory_operand" "r,r,I,J")
(not:SI (match_operand:SI 2 "nonmemory_operand" "rI,J,r,r"))))]
""
"bic%? %0,%1,%2"
[(set_attr "length" "1,2,1,2")])
(define_insn "*bicsi3_set_cc_insn"
[(set (reg:CCZN 61) (compare:CCZN
(and:SI (match_operand:SI 1 "register_operand" "%r")
(not:SI (match_operand:SI 2 "nonmemory_operand" "rIJ")))
(const_int 0)))
(set (match_operand:SI 0 "register_operand" "=r")
(and:SI (match_dup 1)
(not:SI (match_dup 2))))]
""
"bic%?.f %0,%1,%2"
[(set_attr "cond" "set_zn")])
(define_insn "iorsi3"
[(set (match_operand:SI 0 "register_operand" "=r")
(ior:SI (match_operand:SI 1 "register_operand" "%r")
(match_operand:SI 2 "nonmemory_operand" "rIJ")))]
""
"or%? %0,%1,%2")
(define_insn "*iorsi3_set_cc_insn"
[(set (reg:CCZN 61) (compare:CCZN
(ior:SI (match_operand:SI 1 "register_operand" "%r")
(match_operand:SI 2 "nonmemory_operand" "rIJ"))
(const_int 0)))
(set (match_operand:SI 0 "register_operand" "=r")
(ior:SI (match_dup 1)
(match_dup 2)))]
""
"or%?.f %0,%1,%2"
[(set_attr "cond" "set_zn")])
(define_insn "xorsi3"
[(set (match_operand:SI 0 "register_operand" "=r")
(xor:SI (match_operand:SI 1 "register_operand" "%r")
(match_operand:SI 2 "nonmemory_operand" "rIJ")))]
""
"xor%? %0,%1,%2")
(define_insn "*xorsi3_set_cc_insn"
[(set (reg:CCZN 61) (compare:CCZN
(xor:SI (match_operand:SI 1 "register_operand" "%r")
(match_operand:SI 2 "nonmemory_operand" "rIJ"))
(const_int 0)))
(set (match_operand:SI 0 "register_operand" "=r")
(xor:SI (match_dup 1)
(match_dup 2)))]
""
"xor%?.f %0,%1,%2"
[(set_attr "cond" "set_zn")])
(define_insn "negsi2"
[(set (match_operand:SI 0 "register_operand" "=r")
(neg:SI (match_operand:SI 1 "register_operand" "r")))]
""
"sub%? %0,0,%1"
[(set_attr "type" "unary")])
(define_insn "*negsi2_set_cc_insn"
[(set (reg:CC 61) (compare:CC
(neg:SI (match_operand:SI 1 "register_operand" "r"))
(const_int 0)))
(set (match_operand:SI 0 "register_operand" "=r")
(neg:SI (match_dup 1)))]
""
"sub%?.f %0,0,%1"
[(set_attr "type" "unary")
(set_attr "cond" "set")])
(define_insn "negdi2"
[(set (match_operand:DI 0 "register_operand" "=r")
(neg:DI (match_operand:DI 1 "register_operand" "r")))
(clobber (reg:SI 61))]
""
"sub.f %L0,0,%L1\;sbc %H0,0,%H1"
[(set_attr "type" "unary")
(set_attr "length" "2")])
(define_insn "one_cmplsi2"
[(set (match_operand:SI 0 "register_operand" "=r")
(not:SI (match_operand:SI 1 "register_operand" "r")))]
""
"xor%? %0,%1,-1"
[(set_attr "type" "unary")])
(define_insn "*one_cmplsi2_set_cc_insn"
[(set (reg:CCZN 61) (compare:CCZN
(not:SI (match_operand:SI 1 "register_operand" "r"))
(const_int 0)))
(set (match_operand:SI 0 "register_operand" "=r")
(not:SI (match_dup 1)))]
""
"xor%?.f %0,%1,-1"
[(set_attr "type" "unary")
(set_attr "cond" "set_zn")])
;; Shift instructions.
(define_expand "ashlsi3"
[(set (match_operand:SI 0 "register_operand" "")
(ashift:SI (match_operand:SI 1 "register_operand" "")
(match_operand:SI 2 "nonmemory_operand" "")))]
""
"
{
if (! TARGET_SHIFTER)
{
emit_insn (gen_rtx_PARALLEL
(VOIDmode,
gen_rtvec (2,
gen_rtx_SET (VOIDmode, operands[0],
gen_rtx_ASHIFT (SImode, operands[1],
operands[2])),
gen_rtx_CLOBBER (VOIDmode,
gen_rtx_SCRATCH (SImode)))));
DONE;
}
}")
(define_expand "ashrsi3"
[(set (match_operand:SI 0 "register_operand" "")
(ashiftrt:SI (match_operand:SI 1 "register_operand" "")
(match_operand:SI 2 "nonmemory_operand" "")))]
""
"
{
if (! TARGET_SHIFTER)
{
emit_insn (gen_rtx_PARALLEL
(VOIDmode,
gen_rtvec (2,
gen_rtx_SET (VOIDmode, operands[0],
gen_rtx_ASHIFTRT (SImode,
operands[1],
operands[2])),
gen_rtx_CLOBBER (VOIDmode,
gen_rtx_SCRATCH (SImode)))));
DONE;
}
}")
(define_expand "lshrsi3"
[(set (match_operand:SI 0 "register_operand" "")
(lshiftrt:SI (match_operand:SI 1 "register_operand" "")
(match_operand:SI 2 "nonmemory_operand" "")))]
""
"
{
if (! TARGET_SHIFTER)
{
emit_insn (gen_rtx_PARALLEL
(VOIDmode,
gen_rtvec (2,
gen_rtx_SET (VOIDmode, operands[0],
gen_rtx_LSHIFTRT (SImode,
operands[1],
operands[2])),
gen_rtx_CLOBBER (VOIDmode,
gen_rtx_SCRATCH (SImode)))));
DONE;
}
}")
(define_insn "*ashlsi3_insn"
[(set (match_operand:SI 0 "register_operand" "=r,r,r,r")
(ashift:SI (match_operand:SI 1 "nonmemory_operand" "r,r,I,J")
(match_operand:SI 2 "nonmemory_operand" "rI,J,r,r")))]
"TARGET_SHIFTER"
"asl%? %0,%1,%2"
[(set_attr "type" "shift")
(set_attr "length" "1,2,1,2")])
(define_insn "*ashrsi3_insn"
[(set (match_operand:SI 0 "register_operand" "=r,r,r,r")
(ashiftrt:SI (match_operand:SI 1 "nonmemory_operand" "r,r,I,J")
(match_operand:SI 2 "nonmemory_operand" "rI,J,r,r")))]
"TARGET_SHIFTER"
"asr%? %0,%1,%2"
[(set_attr "type" "shift")
(set_attr "length" "1,2,1,2")])
(define_insn "*lshrsi3_insn"
[(set (match_operand:SI 0 "register_operand" "=r,r,r,r")
(lshiftrt:SI (match_operand:SI 1 "nonmemory_operand" "r,r,I,J")
(match_operand:SI 2 "nonmemory_operand" "rI,J,r,r")))]
"TARGET_SHIFTER"
"lsr%? %0,%1,%2"
[(set_attr "type" "shift")
(set_attr "length" "1,2,1,2")])
(define_insn "*shift_si3"
[(set (match_operand:SI 0 "register_operand" "=r")
(match_operator:SI 3 "shift_operator"
[(match_operand:SI 1 "register_operand" "0")
(match_operand:SI 2 "nonmemory_operand" "rIJ")]))
(clobber (match_scratch:SI 4 "=&r"))]
"! TARGET_SHIFTER"
"* return output_shift (operands);"
[(set_attr "type" "shift")
(set_attr "length" "8")])
;; Compare instructions.
;; This controls RTL generation and register allocation.
;; We generate RTL for comparisons and branches by having the cmpxx
;; patterns store away the operands. Then, the scc and bcc patterns
;; emit RTL for both the compare and the branch.
(define_expand "cmpsi"
[(set (reg:CC 61)
(compare:CC (match_operand:SI 0 "register_operand" "")
(match_operand:SI 1 "nonmemory_operand" "")))]
""
"
{
arc_compare_op0 = operands[0];
arc_compare_op1 = operands[1];
DONE;
}")
;; ??? We may be able to relax this a bit by adding a new constant 'K' for 0.
;; This assumes sub.f 0,symbol,0 is a valid insn.
;; Note that "sub.f 0,r0,1" is an 8 byte insn. To avoid unnecessarily
;; creating 8 byte insns we duplicate %1 in the destination reg of the insn
;; if it's a small constant.
(define_insn "*cmpsi_cc_insn"
[(set (reg:CC 61)
(compare:CC (match_operand:SI 0 "register_operand" "r,r,r")
(match_operand:SI 1 "nonmemory_operand" "r,I,J")))]
""
"@
sub.f 0,%0,%1
sub.f %1,%0,%1
sub.f 0,%0,%1"
[(set_attr "type" "compare,compare,compare")])
(define_insn "*cmpsi_cczn_insn"
[(set (reg:CCZN 61)
(compare:CCZN (match_operand:SI 0 "register_operand" "r,r,r")
(match_operand:SI 1 "nonmemory_operand" "r,I,J")))]
""
"@
sub.f 0,%0,%1
sub.f %1,%0,%1
sub.f 0,%0,%1"
[(set_attr "type" "compare,compare,compare")])
(define_insn "*cmpsi_ccznc_insn"
[(set (reg:CCZNC 61)
(compare:CCZNC (match_operand:SI 0 "register_operand" "r,r,r")
(match_operand:SI 1 "nonmemory_operand" "r,I,J")))]
""
"@
sub.f 0,%0,%1
sub.f %1,%0,%1
sub.f 0,%0,%1"
[(set_attr "type" "compare,compare,compare")])
;; Next come the scc insns.
(define_expand "seq"
[(set (match_operand:SI 0 "register_operand" "=r")
(eq:SI (match_dup 1) (const_int 0)))]
""
"
{
operands[1] = gen_compare_reg (EQ, arc_compare_op0, arc_compare_op1);
}")
(define_expand "sne"
[(set (match_operand:SI 0 "register_operand" "=r")
(ne:SI (match_dup 1) (const_int 0)))]
""
"
{
operands[1] = gen_compare_reg (NE, arc_compare_op0, arc_compare_op1);
}")
(define_expand "sgt"
[(set (match_operand:SI 0 "register_operand" "=r")
(gt:SI (match_dup 1) (const_int 0)))]
""
"
{
operands[1] = gen_compare_reg (GT, arc_compare_op0, arc_compare_op1);
}")
(define_expand "sle"
[(set (match_operand:SI 0 "register_operand" "=r")
(le:SI (match_dup 1) (const_int 0)))]
""
"
{
operands[1] = gen_compare_reg (LE, arc_compare_op0, arc_compare_op1);
}")
(define_expand "sge"
[(set (match_operand:SI 0 "register_operand" "=r")
(ge:SI (match_dup 1) (const_int 0)))]
""
"
{
operands[1] = gen_compare_reg (GE, arc_compare_op0, arc_compare_op1);
}")
(define_expand "slt"
[(set (match_operand:SI 0 "register_operand" "=r")
(lt:SI (match_dup 1) (const_int 0)))]
""
"
{
operands[1] = gen_compare_reg (LT, arc_compare_op0, arc_compare_op1);
}")
(define_expand "sgtu"
[(set (match_operand:SI 0 "register_operand" "=r")
(gtu:SI (match_dup 1) (const_int 0)))]
""
"
{
operands[1] = gen_compare_reg (GTU, arc_compare_op0, arc_compare_op1);
}")
(define_expand "sleu"
[(set (match_operand:SI 0 "register_operand" "=r")
(leu:SI (match_dup 1) (const_int 0)))]
""
"
{
operands[1] = gen_compare_reg (LEU, arc_compare_op0, arc_compare_op1);
}")
(define_expand "sgeu"
[(set (match_operand:SI 0 "register_operand" "=r")
(geu:SI (match_dup 1) (const_int 0)))]
""
"
{
operands[1] = gen_compare_reg (GEU, arc_compare_op0, arc_compare_op1);
}")
(define_expand "sltu"
[(set (match_operand:SI 0 "register_operand" "=r")
(ltu:SI (match_dup 1) (const_int 0)))]
""
"
{
operands[1] = gen_compare_reg (LTU, arc_compare_op0, arc_compare_op1);
}")
(define_insn "*scc_insn"
[(set (match_operand:SI 0 "register_operand" "=r")
(match_operator:SI 1 "comparison_operator" [(reg 61) (const_int 0)]))]
""
"mov %0,1\;sub.%D1 %0,%0,%0"
[(set_attr "type" "unary")
(set_attr "length" "2")])
;; ??? Look up negscc insn. See pa.md for example.
(define_insn "*neg_scc_insn"
[(set (match_operand:SI 0 "register_operand" "=r")
(neg:SI (match_operator:SI 1 "comparison_operator"
[(reg 61) (const_int 0)])))]
""
"mov %0,-1\;sub.%D1 %0,%0,%0"
[(set_attr "type" "unary")
(set_attr "length" "2")])
(define_insn "*not_scc_insn"
[(set (match_operand:SI 0 "register_operand" "=r")
(not:SI (match_operator:SI 1 "comparison_operator"
[(reg 61) (const_int 0)])))]
""
"mov %0,1\;sub.%d1 %0,%0,%0"
[(set_attr "type" "unary")
(set_attr "length" "2")])
;; These control RTL generation for conditional jump insns
(define_expand "beq"
[(set (pc)
(if_then_else (eq (match_dup 1) (const_int 0))
(label_ref (match_operand 0 "" ""))
(pc)))]
""
"
{
operands[1] = gen_compare_reg (EQ, arc_compare_op0, arc_compare_op1);
}")
(define_expand "bne"
[(set (pc)
(if_then_else (ne (match_dup 1) (const_int 0))
(label_ref (match_operand 0 "" ""))
(pc)))]
""
"
{
operands[1] = gen_compare_reg (NE, arc_compare_op0, arc_compare_op1);
}")
(define_expand "bgt"
[(set (pc)
(if_then_else (gt (match_dup 1) (const_int 0))
(label_ref (match_operand 0 "" ""))
(pc)))]
""
"
{
operands[1] = gen_compare_reg (GT, arc_compare_op0, arc_compare_op1);
}")
(define_expand "ble"
[(set (pc)
(if_then_else (le (match_dup 1) (const_int 0))
(label_ref (match_operand 0 "" ""))
(pc)))]
""
"
{
operands[1] = gen_compare_reg (LE, arc_compare_op0, arc_compare_op1);
}")
(define_expand "bge"
[(set (pc)
(if_then_else (ge (match_dup 1) (const_int 0))
(label_ref (match_operand 0 "" ""))
(pc)))]
""
"
{
operands[1] = gen_compare_reg (GE, arc_compare_op0, arc_compare_op1);
}")
(define_expand "blt"
[(set (pc)
(if_then_else (lt (match_dup 1) (const_int 0))
(label_ref (match_operand 0 "" ""))
(pc)))]
""
"
{
operands[1] = gen_compare_reg (LT, arc_compare_op0, arc_compare_op1);
}")
(define_expand "bgtu"
[(set (pc)
(if_then_else (gtu (match_dup 1) (const_int 0))
(label_ref (match_operand 0 "" ""))
(pc)))]
""
"
{
operands[1] = gen_compare_reg (GTU, arc_compare_op0, arc_compare_op1);
}")
(define_expand "bleu"
[(set (pc)
(if_then_else (leu (match_dup 1) (const_int 0))
(label_ref (match_operand 0 "" ""))
(pc)))]
""
"
{
operands[1] = gen_compare_reg (LEU, arc_compare_op0, arc_compare_op1);
}")
(define_expand "bgeu"
[(set (pc)
(if_then_else (geu (match_dup 1) (const_int 0))
(label_ref (match_operand 0 "" ""))
(pc)))]
""
"
{
operands[1] = gen_compare_reg (GEU, arc_compare_op0, arc_compare_op1);
}")
(define_expand "bltu"
[(set (pc)
(if_then_else (ltu (match_dup 1) (const_int 0))
(label_ref (match_operand 0 "" ""))
(pc)))]
""
"
{
operands[1] = gen_compare_reg (LTU, arc_compare_op0, arc_compare_op1);
}")
;; Now match both normal and inverted jump.
(define_insn "*branch_insn"
[(set (pc)
(if_then_else (match_operator 1 "proper_comparison_operator"
[(reg 61) (const_int 0)])
(label_ref (match_operand 0 "" ""))
(pc)))]
""
"*
{
if (arc_ccfsm_branch_deleted_p ())
{
arc_ccfsm_record_branch_deleted ();
return \"; branch deleted, next insns conditionalized\";
}
else
return \"%~b%d1%# %l0\";
}"
[(set_attr "type" "branch")])
(define_insn "*rev_branch_insn"
[(set (pc)
(if_then_else (match_operator 1 "proper_comparison_operator"
[(reg 61) (const_int 0)])
(pc)
(label_ref (match_operand 0 "" ""))))]
"REVERSIBLE_CC_MODE (GET_MODE (XEXP (operands[1], 0)))"
"*
{
if (arc_ccfsm_branch_deleted_p ())
{
arc_ccfsm_record_branch_deleted ();
return \"; branch deleted, next insns conditionalized\";
}
else
return \"%~b%D1%# %l0\";
}"
[(set_attr "type" "branch")])
;; Unconditional and other jump instructions.
(define_insn "jump"
[(set (pc) (label_ref (match_operand 0 "" "")))]
""
"b%* %l0"
[(set_attr "type" "uncond_branch")])
(define_insn "indirect_jump"
[(set (pc) (match_operand:SI 0 "address_operand" "p"))]
""
"j%* %a0"
[(set_attr "type" "uncond_branch")])
;; Implement a switch statement.
;; This wouldn't be necessary in the non-pic case if we could distinguish
;; label refs of the jump table from other label refs. The problem is that
;; label refs are output as "%st(.LL42)" but we don't want the %st - we want
;; the real address since it's the address of the table.
(define_expand "casesi"
[(set (match_dup 5)
(minus:SI (match_operand:SI 0 "register_operand" "")
(match_operand:SI 1 "nonmemory_operand" "")))
(set (reg:CC 61)
(compare:CC (match_dup 5)
(match_operand:SI 2 "nonmemory_operand" "")))
(set (pc)
(if_then_else (gtu (reg:CC 61)
(const_int 0))
(label_ref (match_operand 4 "" ""))
(pc)))
(parallel
[(set (pc)
(mem:SI (plus:SI (mult:SI (match_dup 5)
(const_int 4))
(label_ref (match_operand 3 "" "")))))
(clobber (match_scratch:SI 6 ""))
(clobber (match_scratch:SI 7 ""))])]
""
"
{
operands[5] = gen_reg_rtx (SImode);
}")
(define_insn "*casesi_insn"
[(set (pc)
(mem:SI (plus:SI (mult:SI (match_operand:SI 0 "register_operand" "r")
(const_int 4))
(label_ref (match_operand 1 "" "")))))
(clobber (match_scratch:SI 2 "=r"))
(clobber (match_scratch:SI 3 "=r"))]
""
"*
{
output_asm_insn (\"mov %2,%1\", operands);
if (TARGET_SHIFTER)
output_asm_insn (\"asl %3,%0,2\", operands);
else
output_asm_insn (\"asl %3,%0\;asl %3,%3\", operands);
output_asm_insn (\"ld %2,[%2,%3]\", operands);
output_asm_insn (\"j.nd %a2\", operands);
return \"\";
}"
[(set_attr "type" "uncond_branch")
(set_attr "length" "6")])
(define_insn "tablejump"
[(set (pc) (match_operand:SI 0 "address_operand" "p"))
(use (label_ref (match_operand 1 "" "")))]
"0 /* disabled -> using casesi now */"
"j%* %a0"
[(set_attr "type" "uncond_branch")])
(define_expand "call"
;; operands[1] is stack_size_rtx
;; operands[2] is next_arg_register
[(parallel [(call (match_operand:SI 0 "call_operand" "")
(match_operand 1 "" ""))
(clobber (reg:SI 31))])]
""
"")
(define_insn "*call_via_reg"
[(call (mem:SI (match_operand:SI 0 "register_operand" "r"))
(match_operand 1 "" ""))
(clobber (reg:SI 31))]
""
"lr blink,[status]\;j.d %0\;add blink,blink,2"
[(set_attr "type" "call_no_delay_slot")
(set_attr "length" "3")])
(define_insn "*call_via_label"
[(call (mem:SI (match_operand:SI 0 "call_address_operand" ""))
(match_operand 1 "" ""))
(clobber (reg:SI 31))]
""
; The %~ is necessary in case this insn gets conditionalized and the previous
; insn is the cc setter.
"%~bl%!%* %0"
[(set_attr "type" "call")
(set_attr "cond" "canuse")])
(define_expand "call_value"
;; operand 2 is stack_size_rtx
;; operand 3 is next_arg_register
[(parallel [(set (match_operand 0 "register_operand" "=r")
(call (match_operand:SI 1 "call_operand" "")
(match_operand 2 "" "")))
(clobber (reg:SI 31))])]
""
"")
(define_insn "*call_value_via_reg"
[(set (match_operand 0 "register_operand" "=r")
(call (mem:SI (match_operand:SI 1 "register_operand" "r"))
(match_operand 2 "" "")))
(clobber (reg:SI 31))]
""
"lr blink,[status]\;j.d %1\;add blink,blink,2"
[(set_attr "type" "call_no_delay_slot")
(set_attr "length" "3")])
(define_insn "*call_value_via_label"
[(set (match_operand 0 "register_operand" "=r")
(call (mem:SI (match_operand:SI 1 "call_address_operand" ""))
(match_operand 2 "" "")))
(clobber (reg:SI 31))]
""
; The %~ is necessary in case this insn gets conditionalized and the previous
; insn is the cc setter.
"%~bl%!%* %1"
[(set_attr "type" "call")
(set_attr "cond" "canuse")])
(define_insn "nop"
[(const_int 0)]
""
"nop"
[(set_attr "type" "misc")])
;; Special pattern to flush the icache.
;; ??? Not sure what to do here. Some ARC's are known to support this.
(define_insn "flush_icache"
[(unspec_volatile [(match_operand 0 "memory_operand" "m")] 0)]
""
"* return \"\";"
[(set_attr "type" "misc")])
;; Split up troublesome insns for better scheduling.
;; Peepholes go at the end.