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;; Machine description for GNU compiler,
;; for ATMEL AVR micro controllers.
;; Copyright (C) 1998, 1999, 2000, 2001, 2002, 2004, 2005, 2006, 2007, 2008,
;; 2009, 2010, 2011 Free Software Foundation, Inc.
;; Contributed by Denis Chertykov (chertykov@gmail.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/>.
;; Special characters after '%':
;; A No effect (add 0).
;; B Add 1 to REG number, MEM address or CONST_INT.
;; C Add 2.
;; D Add 3.
;; j Branch condition.
;; k Reverse branch condition.
;;..m..Constant Direct Data memory address.
;; i Print the SFR address quivalent of a CONST_INT or a CONST_INT
;; RAM address. The resulting addres is suitable to be used in IN/OUT.
;; o Displacement for (mem (plus (reg) (const_int))) operands.
;; p POST_INC or PRE_DEC address as a pointer (X, Y, Z)
;; r POST_INC or PRE_DEC address as a register (r26, r28, r30)
;; T/T Print operand suitable for BLD/BST instruction, i.e. register and
;; bit number. This gets 2 operands: The first %T gets a REG_P and
;; just cashes the operand for the next %T. The second %T gets
;; a CONST_INT that represents a bit position.
;; Example: With %0 = (reg:HI 18) and %1 = (const_int 13)
;; "%T0%T1" it will print "r19,5".
;; Notice that you must not write a comma between %T0 and %T1.
;; T/t Similar to above, but don't print the comma and the bit number.
;; Example: With %0 = (reg:HI 18) and %1 = (const_int 13)
;; "%T0%t1" it will print "r19".
;;..x..Constant Direct Program memory address.
;; ~ Output 'r' if not AVR_HAVE_JMP_CALL.
;; ! Output 'e' if AVR_HAVE_EIJMP_EICALL.
(define_constants
[(REG_X 26)
(REG_Y 28)
(REG_Z 30)
(REG_W 24)
(REG_SP 32)
(LPM_REGNO 0) ; implicit target register of LPM
(TMP_REGNO 0) ; temporary register r0
(ZERO_REGNO 1) ; zero register r1
])
(define_c_enum "unspec"
[UNSPEC_STRLEN
UNSPEC_MOVMEM
UNSPEC_INDEX_JMP
UNSPEC_FMUL
UNSPEC_FMULS
UNSPEC_FMULSU
UNSPEC_COPYSIGN
UNSPEC_IDENTITY
UNSPEC_INSERT_BITS
])
(define_c_enum "unspecv"
[UNSPECV_PROLOGUE_SAVES
UNSPECV_EPILOGUE_RESTORES
UNSPECV_WRITE_SP
UNSPECV_GOTO_RECEIVER
UNSPECV_ENABLE_IRQS
UNSPECV_NOP
UNSPECV_SLEEP
UNSPECV_WDR
UNSPECV_DELAY_CYCLES
])
(include "predicates.md")
(include "constraints.md")
;; Condition code settings.
(define_attr "cc" "none,set_czn,set_zn,set_n,compare,clobber,
out_plus, out_plus_noclobber,ldi"
(const_string "none"))
(define_attr "type" "branch,branch1,arith,xcall"
(const_string "arith"))
;; The size of instructions in bytes.
;; XXX may depend from "cc"
(define_attr "length" ""
(cond [(eq_attr "type" "branch")
(if_then_else (and (ge (minus (pc) (match_dup 0))
(const_int -63))
(le (minus (pc) (match_dup 0))
(const_int 62)))
(const_int 1)
(if_then_else (and (ge (minus (pc) (match_dup 0))
(const_int -2045))
(le (minus (pc) (match_dup 0))
(const_int 2045)))
(const_int 2)
(const_int 3)))
(eq_attr "type" "branch1")
(if_then_else (and (ge (minus (pc) (match_dup 0))
(const_int -62))
(le (minus (pc) (match_dup 0))
(const_int 61)))
(const_int 2)
(if_then_else (and (ge (minus (pc) (match_dup 0))
(const_int -2044))
(le (minus (pc) (match_dup 0))
(const_int 2043)))
(const_int 3)
(const_int 4)))
(eq_attr "type" "xcall")
(if_then_else (match_test "!AVR_HAVE_JMP_CALL")
(const_int 1)
(const_int 2))]
(const_int 2)))
;; Lengths of several insns are adjusted in avr.c:adjust_insn_length().
;; Following insn attribute tells if and how the adjustment has to be
;; done:
;; no No adjustment needed; attribute "length" is fine.
;; Otherwise do special processing depending on the attribute.
(define_attr "adjust_len"
"out_bitop, out_plus, out_plus_noclobber, plus64, addto_sp,
tsthi, tstpsi, tstsi, compare, compare64, call,
mov8, mov16, mov24, mov32, reload_in16, reload_in24, reload_in32,
xload, movmem,
ashlqi, ashrqi, lshrqi,
ashlhi, ashrhi, lshrhi,
ashlsi, ashrsi, lshrsi,
ashlpsi, ashrpsi, lshrpsi,
insert_bits,
no"
(const_string "no"))
;; Flavours of instruction set architecture (ISA), used in enabled attribute
;; mov : ISA has no MOVW movw : ISA has MOVW
;; rjmp : ISA has no CALL/JMP jmp : ISA has CALL/JMP
;; ijmp : ISA has no EICALL/EIJMP eijmp : ISA has EICALL/EIJMP
;; lpm : ISA has no LPMX lpmx : ISA has LPMX
;; elpm : ISA has ELPM but no ELPMX elpmx : ISA has ELPMX
;; no_xmega: non-XMEGA core xmega : XMEGA core
(define_attr "isa"
"mov,movw, rjmp,jmp, ijmp,eijmp, lpm,lpmx, elpm,elpmx, no_xmega,xmega,
standard"
(const_string "standard"))
(define_attr "enabled" ""
(cond [(eq_attr "isa" "standard")
(const_int 1)
(and (eq_attr "isa" "mov")
(match_test "!AVR_HAVE_MOVW"))
(const_int 1)
(and (eq_attr "isa" "movw")
(match_test "AVR_HAVE_MOVW"))
(const_int 1)
(and (eq_attr "isa" "rjmp")
(match_test "!AVR_HAVE_JMP_CALL"))
(const_int 1)
(and (eq_attr "isa" "jmp")
(match_test "AVR_HAVE_JMP_CALL"))
(const_int 1)
(and (eq_attr "isa" "ijmp")
(match_test "!AVR_HAVE_EIJMP_EICALL"))
(const_int 1)
(and (eq_attr "isa" "eijmp")
(match_test "AVR_HAVE_EIJMP_EICALL"))
(const_int 1)
(and (eq_attr "isa" "lpm")
(match_test "!AVR_HAVE_LPMX"))
(const_int 1)
(and (eq_attr "isa" "lpmx")
(match_test "AVR_HAVE_LPMX"))
(const_int 1)
(and (eq_attr "isa" "elpm")
(match_test "AVR_HAVE_ELPM && !AVR_HAVE_ELPMX"))
(const_int 1)
(and (eq_attr "isa" "elpmx")
(match_test "AVR_HAVE_ELPMX"))
(const_int 1)
(and (eq_attr "isa" "xmega")
(match_test "AVR_XMEGA"))
(const_int 1)
(and (eq_attr "isa" "no_xmega")
(match_test "!AVR_XMEGA"))
(const_int 1)
] (const_int 0)))
;; Define mode iterators
(define_mode_iterator QIHI [(QI "") (HI "")])
(define_mode_iterator QIHI2 [(QI "") (HI "")])
(define_mode_iterator QISI [(QI "") (HI "") (PSI "") (SI "")])
(define_mode_iterator QIDI [(QI "") (HI "") (PSI "") (SI "") (DI "")])
(define_mode_iterator HISI [(HI "") (PSI "") (SI "")])
;; All supported move-modes
(define_mode_iterator MOVMODE [(QI "") (HI "") (SI "") (SF "") (PSI "")])
;; Define code iterators
;; Define two incarnations so that we can build the cross product.
(define_code_iterator any_extend [sign_extend zero_extend])
(define_code_iterator any_extend2 [sign_extend zero_extend])
(define_code_iterator xior [xor ior])
(define_code_iterator eqne [eq ne])
;; Define code attributes
(define_code_attr extend_su
[(sign_extend "s")
(zero_extend "u")])
(define_code_attr extend_u
[(sign_extend "")
(zero_extend "u")])
(define_code_attr extend_s
[(sign_extend "s")
(zero_extend "")])
;; Constrain input operand of widening multiply, i.e. MUL resp. MULS.
(define_code_attr mul_r_d
[(zero_extend "r")
(sign_extend "d")])
;; Map RTX code to its standard insn name
(define_code_attr code_stdname
[(ashift "ashl")
(ashiftrt "ashr")
(lshiftrt "lshr")
(ior "ior")
(xor "xor")
(rotate "rotl")])
;;========================================================================
;; The following is used by nonlocal_goto and setjmp.
;; The receiver pattern will create no instructions since internally
;; virtual_stack_vars = hard_frame_pointer + 1 so the RTL become R28=R28
;; This avoids creating add/sub offsets in frame_pointer save/resore.
;; The 'null' receiver also avoids problems with optimisation
;; not recognising incoming jmp and removing code that resets frame_pointer.
;; The code derived from builtins.c.
(define_expand "nonlocal_goto_receiver"
[(set (reg:HI REG_Y)
(unspec_volatile:HI [(const_int 0)] UNSPECV_GOTO_RECEIVER))]
""
{
emit_move_insn (virtual_stack_vars_rtx,
gen_rtx_PLUS (Pmode, hard_frame_pointer_rtx,
gen_int_mode (STARTING_FRAME_OFFSET,
Pmode)));
/* This might change the hard frame pointer in ways that aren't
apparent to early optimization passes, so force a clobber. */
emit_clobber (hard_frame_pointer_rtx);
DONE;
})
;; Defining nonlocal_goto_receiver means we must also define this.
;; even though its function is identical to that in builtins.c
(define_expand "nonlocal_goto"
[(use (match_operand 0 "general_operand"))
(use (match_operand 1 "general_operand"))
(use (match_operand 2 "general_operand"))
(use (match_operand 3 "general_operand"))]
""
{
rtx r_label = copy_to_reg (operands[1]);
rtx r_fp = operands[3];
rtx r_sp = operands[2];
emit_clobber (gen_rtx_MEM (BLKmode, gen_rtx_SCRATCH (VOIDmode)));
emit_clobber (gen_rtx_MEM (BLKmode, hard_frame_pointer_rtx));
emit_move_insn (hard_frame_pointer_rtx, r_fp);
emit_stack_restore (SAVE_NONLOCAL, r_sp);
emit_use (hard_frame_pointer_rtx);
emit_use (stack_pointer_rtx);
emit_indirect_jump (r_label);
DONE;
})
(define_insn "pushqi1"
[(set (mem:QI (post_dec:HI (reg:HI REG_SP)))
(match_operand:QI 0 "reg_or_0_operand" "r,L"))]
""
"@
push %0
push __zero_reg__"
[(set_attr "length" "1,1")])
;; All modes for a multi-byte push. We must include complex modes here too,
;; lest emit_single_push_insn "helpfully " create the auto-inc itself.
(define_mode_iterator MPUSH
[(CQI "")
(HI "") (CHI "")
(PSI "")
(SI "") (CSI "")
(DI "") (CDI "")
(SF "") (SC "")])
(define_expand "push<mode>1"
[(match_operand:MPUSH 0 "" "")]
""
{
int i;
for (i = GET_MODE_SIZE (<MODE>mode) - 1; i >= 0; --i)
{
rtx part = simplify_gen_subreg (QImode, operands[0], <MODE>mode, i);
if (part != const0_rtx)
part = force_reg (QImode, part);
emit_insn (gen_pushqi1 (part));
}
DONE;
})
;; Notice a special-case when adding N to SP where N results in a
;; zero REG_ARGS_SIZE. This is equivalent to a move from FP.
(define_split
[(set (reg:HI REG_SP) (match_operand:HI 0 "register_operand" ""))]
"reload_completed
&& frame_pointer_needed
&& !cfun->calls_alloca
&& find_reg_note (insn, REG_ARGS_SIZE, const0_rtx)"
[(set (reg:HI REG_SP) (reg:HI REG_Y))]
"")
;;========================================================================
;; Move stuff around
(define_expand "load<mode>_libgcc"
[(set (match_dup 3)
(match_dup 2))
(set (reg:MOVMODE 22)
(match_operand:MOVMODE 1 "memory_operand" ""))
(set (match_operand:MOVMODE 0 "register_operand" "")
(reg:MOVMODE 22))]
"avr_load_libgcc_p (operands[1])"
{
operands[3] = gen_rtx_REG (HImode, REG_Z);
operands[2] = force_operand (XEXP (operands[1], 0), NULL_RTX);
operands[1] = replace_equiv_address (operands[1], operands[3]);
set_mem_addr_space (operands[1], ADDR_SPACE_FLASH);
})
(define_insn "load_<mode>_libgcc"
[(set (reg:MOVMODE 22)
(match_operand:MOVMODE 0 "memory_operand" "m,m"))]
"avr_load_libgcc_p (operands[0])
&& REG_P (XEXP (operands[0], 0))
&& REG_Z == REGNO (XEXP (operands[0], 0))"
{
operands[0] = GEN_INT (GET_MODE_SIZE (<MODE>mode));
return "%~call __load_%0";
}
[(set_attr "length" "1,2")
(set_attr "isa" "rjmp,jmp")
(set_attr "cc" "clobber")])
(define_insn_and_split "xload8_A"
[(set (match_operand:QI 0 "register_operand" "=r")
(match_operand:QI 1 "memory_operand" "m"))
(clobber (reg:HI REG_Z))]
"can_create_pseudo_p()
&& !avr_xload_libgcc_p (QImode)
&& avr_mem_memx_p (operands[1])
&& REG_P (XEXP (operands[1], 0))"
{ gcc_unreachable(); }
"&& 1"
[(clobber (const_int 0))]
{
rtx insn, addr = XEXP (operands[1], 0);
rtx hi8 = gen_reg_rtx (QImode);
rtx reg_z = gen_rtx_REG (HImode, REG_Z);
emit_move_insn (reg_z, simplify_gen_subreg (HImode, addr, PSImode, 0));
emit_move_insn (hi8, simplify_gen_subreg (QImode, addr, PSImode, 2));
insn = emit_insn (gen_xload_8 (operands[0], hi8));
set_mem_addr_space (SET_SRC (single_set (insn)),
MEM_ADDR_SPACE (operands[1]));
DONE;
})
(define_insn_and_split "xload<mode>_A"
[(set (match_operand:MOVMODE 0 "register_operand" "=r")
(match_operand:MOVMODE 1 "memory_operand" "m"))
(clobber (reg:QI 21))
(clobber (reg:HI REG_Z))]
"can_create_pseudo_p()
&& avr_mem_memx_p (operands[1])
&& REG_P (XEXP (operands[1], 0))"
{ gcc_unreachable(); }
"&& 1"
[(clobber (const_int 0))]
{
rtx addr = XEXP (operands[1], 0);
rtx reg_z = gen_rtx_REG (HImode, REG_Z);
rtx addr_hi8 = simplify_gen_subreg (QImode, addr, PSImode, 2);
addr_space_t as = MEM_ADDR_SPACE (operands[1]);
rtx insn;
/* Split the address to R21:Z */
emit_move_insn (reg_z, simplify_gen_subreg (HImode, addr, PSImode, 0));
emit_move_insn (gen_rtx_REG (QImode, 21), addr_hi8);
/* Load with code from libgcc */
insn = emit_insn (gen_xload_<mode>_libgcc ());
set_mem_addr_space (SET_SRC (single_set (insn)), as);
/* Move to destination */
emit_move_insn (operands[0], gen_rtx_REG (<MODE>mode, 22));
DONE;
})
;; Move value from address space memx to a register
;; These insns must be prior to respective generic move insn.
(define_insn "xload_8"
[(set (match_operand:QI 0 "register_operand" "=&r,r")
(mem:QI (lo_sum:PSI (match_operand:QI 1 "register_operand" "r,r")
(reg:HI REG_Z))))]
"!avr_xload_libgcc_p (QImode)"
{
return avr_out_xload (insn, operands, NULL);
}
[(set_attr "length" "3,4")
(set_attr "adjust_len" "*,xload")
(set_attr "isa" "lpmx,lpm")
(set_attr "cc" "none")])
;; R21:Z : 24-bit source address
;; R22 : 1-4 byte output
;; "xload_qi_libgcc"
;; "xload_hi_libgcc"
;; "xload_psi_libgcc"
;; "xload_si_libgcc"
;; "xload_sf_libgcc"
(define_insn "xload_<mode>_libgcc"
[(set (reg:MOVMODE 22)
(mem:MOVMODE (lo_sum:PSI (reg:QI 21)
(reg:HI REG_Z))))
(clobber (reg:QI 21))
(clobber (reg:HI REG_Z))]
"avr_xload_libgcc_p (<MODE>mode)"
{
rtx x_bytes = GEN_INT (GET_MODE_SIZE (<MODE>mode));
output_asm_insn ("%~call __xload_%0", &x_bytes);
return "";
}
[(set_attr "type" "xcall")
(set_attr "cc" "clobber")])
;; General move expanders
;; "movqi"
;; "movhi"
;; "movsi"
;; "movsf"
;; "movpsi"
(define_expand "mov<mode>"
[(set (match_operand:MOVMODE 0 "nonimmediate_operand" "")
(match_operand:MOVMODE 1 "general_operand" ""))]
""
{
rtx dest = operands[0];
rtx src = operands[1];
if (avr_mem_flash_p (dest))
DONE;
/* One of the operands has to be in a register. */
if (!register_operand (dest, <MODE>mode)
&& !(register_operand (src, <MODE>mode)
|| src == CONST0_RTX (<MODE>mode)))
{
operands[1] = src = copy_to_mode_reg (<MODE>mode, src);
}
if (avr_mem_memx_p (src))
{
rtx addr = XEXP (src, 0);
if (!REG_P (addr))
src = replace_equiv_address (src, copy_to_mode_reg (PSImode, addr));
if (!avr_xload_libgcc_p (<MODE>mode))
emit_insn (gen_xload8_A (dest, src));
else
emit_insn (gen_xload<mode>_A (dest, src));
DONE;
}
if (avr_load_libgcc_p (src))
{
/* For the small devices, do loads per libgcc call. */
emit_insn (gen_load<mode>_libgcc (dest, src));
DONE;
}
})
;;========================================================================
;; move byte
;; The last alternative (any immediate constant to any register) is
;; very expensive. It should be optimized by peephole2 if a scratch
;; register is available, but then that register could just as well be
;; allocated for the variable we are loading. But, most of NO_LD_REGS
;; are call-saved registers, and most of LD_REGS are call-used registers,
;; so this may still be a win for registers live across function calls.
(define_insn "movqi_insn"
[(set (match_operand:QI 0 "nonimmediate_operand" "=r ,d,Qm,r ,q,r,*r")
(match_operand:QI 1 "nox_general_operand" "rL,i,rL,Qm,r,q,i"))]
"register_operand (operands[0], QImode)
|| register_operand (operands[1], QImode)
|| const0_rtx == operands[1]"
{
return output_movqi (insn, operands, NULL);
}
[(set_attr "length" "1,1,5,5,1,1,4")
(set_attr "adjust_len" "mov8")
(set_attr "cc" "ldi,none,clobber,clobber,none,none,clobber")])
;; This is used in peephole2 to optimize loading immediate constants
;; if a scratch register from LD_REGS happens to be available.
(define_insn "*reload_inqi"
[(set (match_operand:QI 0 "register_operand" "=l")
(match_operand:QI 1 "immediate_operand" "i"))
(clobber (match_operand:QI 2 "register_operand" "=&d"))]
"reload_completed"
"ldi %2,lo8(%1)
mov %0,%2"
[(set_attr "length" "2")
(set_attr "cc" "none")])
(define_peephole2
[(match_scratch:QI 2 "d")
(set (match_operand:QI 0 "l_register_operand" "")
(match_operand:QI 1 "immediate_operand" ""))]
"(operands[1] != const0_rtx
&& operands[1] != const1_rtx
&& operands[1] != constm1_rtx)"
[(parallel [(set (match_dup 0) (match_dup 1))
(clobber (match_dup 2))])]
"")
;;============================================================================
;; move word (16 bit)
;; Move register $1 to the Stack Pointer register SP.
;; This insn is emit during function prologue/epilogue generation.
;; $2 = 0: We know that IRQs are off
;; $2 = 1: We know that IRQs are on
;; $2 = 2: SP has 8 bits only, IRQ state does not matter
;; $2 = -1: We don't know anything about IRQ on/off
;; Always write SP via unspec, see PR50063
(define_insn "movhi_sp_r"
[(set (match_operand:HI 0 "stack_register_operand" "=q,q,q,q,q")
(unspec_volatile:HI [(match_operand:HI 1 "register_operand" "r,r,r,r,r")
(match_operand:HI 2 "const_int_operand" "L,P,N,K,LPN")]
UNSPECV_WRITE_SP))]
""
"@
out %B0,%B1\;out %A0,%A1
cli\;out %B0,%B1\;sei\;out %A0,%A1
in __tmp_reg__,__SREG__\;cli\;out %B0,%B1\;out __SREG__,__tmp_reg__\;out %A0,%A1
out %A0,%A1
out %A0,%A1\;out %B0,%B1"
[(set_attr "length" "2,4,5,1,2")
(set_attr "isa" "no_xmega,no_xmega,no_xmega,*,xmega")
(set_attr "cc" "none")])
(define_peephole2
[(match_scratch:QI 2 "d")
(set (match_operand:HI 0 "l_register_operand" "")
(match_operand:HI 1 "immediate_operand" ""))]
"(operands[1] != const0_rtx
&& operands[1] != constm1_rtx)"
[(parallel [(set (match_dup 0) (match_dup 1))
(clobber (match_dup 2))])]
"")
;; '*' because it is not used in rtl generation, only in above peephole
(define_insn "*reload_inhi"
[(set (match_operand:HI 0 "register_operand" "=r")
(match_operand:HI 1 "immediate_operand" "i"))
(clobber (match_operand:QI 2 "register_operand" "=&d"))]
"reload_completed"
{
return output_reload_inhi (operands, operands[2], NULL);
}
[(set_attr "length" "4")
(set_attr "adjust_len" "reload_in16")
(set_attr "cc" "none")])
(define_insn "*movhi"
[(set (match_operand:HI 0 "nonimmediate_operand" "=r,r,r,m ,d,*r,q,r")
(match_operand:HI 1 "nox_general_operand" "r,L,m,rL,i,i ,r,q"))]
"register_operand (operands[0], HImode)
|| register_operand (operands[1], HImode)
|| const0_rtx == operands[1]"
{
return output_movhi (insn, operands, NULL);
}
[(set_attr "length" "2,2,6,7,2,6,5,2")
(set_attr "adjust_len" "mov16")
(set_attr "cc" "none,none,clobber,clobber,none,clobber,none,none")])
(define_peephole2 ; movw
[(set (match_operand:QI 0 "even_register_operand" "")
(match_operand:QI 1 "even_register_operand" ""))
(set (match_operand:QI 2 "odd_register_operand" "")
(match_operand:QI 3 "odd_register_operand" ""))]
"(AVR_HAVE_MOVW
&& REGNO (operands[0]) == REGNO (operands[2]) - 1
&& REGNO (operands[1]) == REGNO (operands[3]) - 1)"
[(set (match_dup 4) (match_dup 5))]
{
operands[4] = gen_rtx_REG (HImode, REGNO (operands[0]));
operands[5] = gen_rtx_REG (HImode, REGNO (operands[1]));
})
(define_peephole2 ; movw_r
[(set (match_operand:QI 0 "odd_register_operand" "")
(match_operand:QI 1 "odd_register_operand" ""))
(set (match_operand:QI 2 "even_register_operand" "")
(match_operand:QI 3 "even_register_operand" ""))]
"(AVR_HAVE_MOVW
&& REGNO (operands[2]) == REGNO (operands[0]) - 1
&& REGNO (operands[3]) == REGNO (operands[1]) - 1)"
[(set (match_dup 4) (match_dup 5))]
{
operands[4] = gen_rtx_REG (HImode, REGNO (operands[2]));
operands[5] = gen_rtx_REG (HImode, REGNO (operands[3]));
})
;; For LPM loads from AS1 we split
;; R = *Z
;; to
;; R = *Z++
;; Z = Z - sizeof (R)
;;
;; so that the second instruction can be optimized out.
(define_split ; "split-lpmx"
[(set (match_operand:HISI 0 "register_operand" "")
(match_operand:HISI 1 "memory_operand" ""))]
"reload_completed
&& AVR_HAVE_LPMX"
[(set (match_dup 0)
(match_dup 2))
(set (match_dup 3)
(plus:HI (match_dup 3)
(match_dup 4)))]
{
rtx addr = XEXP (operands[1], 0);
if (!avr_mem_flash_p (operands[1])
|| !REG_P (addr)
|| reg_overlap_mentioned_p (addr, operands[0]))
{
FAIL;
}
operands[2] = replace_equiv_address (operands[1],
gen_rtx_POST_INC (Pmode, addr));
operands[3] = addr;
operands[4] = gen_int_mode (-GET_MODE_SIZE (<MODE>mode), HImode);
})
;;==========================================================================
;; xpointer move (24 bit)
(define_peephole2 ; *reload_inpsi
[(match_scratch:QI 2 "d")
(set (match_operand:PSI 0 "l_register_operand" "")
(match_operand:PSI 1 "immediate_operand" ""))
(match_dup 2)]
"operands[1] != const0_rtx
&& operands[1] != constm1_rtx"
[(parallel [(set (match_dup 0)
(match_dup 1))
(clobber (match_dup 2))])]
"")
;; '*' because it is not used in rtl generation.
(define_insn "*reload_inpsi"
[(set (match_operand:PSI 0 "register_operand" "=r")
(match_operand:PSI 1 "immediate_operand" "i"))
(clobber (match_operand:QI 2 "register_operand" "=&d"))]
"reload_completed"
{
return avr_out_reload_inpsi (operands, operands[2], NULL);
}
[(set_attr "length" "6")
(set_attr "adjust_len" "reload_in24")
(set_attr "cc" "clobber")])
(define_insn "*movpsi"
[(set (match_operand:PSI 0 "nonimmediate_operand" "=r,r,r ,Qm,!d,r")
(match_operand:PSI 1 "nox_general_operand" "r,L,Qm,rL,i ,i"))]
"register_operand (operands[0], PSImode)
|| register_operand (operands[1], PSImode)
|| const0_rtx == operands[1]"
{
return avr_out_movpsi (insn, operands, NULL);
}
[(set_attr "length" "3,3,8,9,4,10")
(set_attr "adjust_len" "mov24")
(set_attr "cc" "none,none,clobber,clobber,none,clobber")])
;;==========================================================================
;; move double word (32 bit)
(define_peephole2 ; *reload_insi
[(match_scratch:QI 2 "d")
(set (match_operand:SI 0 "l_register_operand" "")
(match_operand:SI 1 "const_int_operand" ""))
(match_dup 2)]
"(operands[1] != const0_rtx
&& operands[1] != constm1_rtx)"
[(parallel [(set (match_dup 0) (match_dup 1))
(clobber (match_dup 2))])]
"")
;; '*' because it is not used in rtl generation.
(define_insn "*reload_insi"
[(set (match_operand:SI 0 "register_operand" "=r")
(match_operand:SI 1 "const_int_operand" "n"))
(clobber (match_operand:QI 2 "register_operand" "=&d"))]
"reload_completed"
{
return output_reload_insisf (operands, operands[2], NULL);
}
[(set_attr "length" "8")
(set_attr "adjust_len" "reload_in32")
(set_attr "cc" "clobber")])
(define_insn "*movsi"
[(set (match_operand:SI 0 "nonimmediate_operand" "=r,r,r ,Qm,!d,r")
(match_operand:SI 1 "nox_general_operand" "r,L,Qm,rL,i ,i"))]
"register_operand (operands[0], SImode)
|| register_operand (operands[1], SImode)
|| const0_rtx == operands[1]"
{
return output_movsisf (insn, operands, NULL);
}
[(set_attr "length" "4,4,8,9,4,10")
(set_attr "adjust_len" "mov32")
(set_attr "cc" "none,none,clobber,clobber,none,clobber")])
;; fffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffff
;; move floating point numbers (32 bit)
(define_insn "*movsf"
[(set (match_operand:SF 0 "nonimmediate_operand" "=r,r,r ,Qm,!d,r")
(match_operand:SF 1 "nox_general_operand" "r,G,Qm,rG,F ,F"))]
"register_operand (operands[0], SFmode)
|| register_operand (operands[1], SFmode)
|| operands[1] == CONST0_RTX (SFmode)"
{
return output_movsisf (insn, operands, NULL);
}
[(set_attr "length" "4,4,8,9,4,10")
(set_attr "adjust_len" "mov32")
(set_attr "cc" "none,none,clobber,clobber,none,clobber")])
(define_peephole2 ; *reload_insf
[(match_scratch:QI 2 "d")
(set (match_operand:SF 0 "l_register_operand" "")
(match_operand:SF 1 "const_double_operand" ""))
(match_dup 2)]
"operands[1] != CONST0_RTX (SFmode)"
[(parallel [(set (match_dup 0)
(match_dup 1))
(clobber (match_dup 2))])]
"")
;; '*' because it is not used in rtl generation.
(define_insn "*reload_insf"
[(set (match_operand:SF 0 "register_operand" "=r")
(match_operand:SF 1 "const_double_operand" "F"))
(clobber (match_operand:QI 2 "register_operand" "=&d"))]
"reload_completed"
{
return output_reload_insisf (operands, operands[2], NULL);
}
[(set_attr "length" "8")
(set_attr "adjust_len" "reload_in32")
(set_attr "cc" "clobber")])
;;=========================================================================
;; move string (like memcpy)
(define_expand "movmemhi"
[(parallel [(set (match_operand:BLK 0 "memory_operand" "")
(match_operand:BLK 1 "memory_operand" ""))
(use (match_operand:HI 2 "const_int_operand" ""))
(use (match_operand:HI 3 "const_int_operand" ""))])]
""
{
if (avr_emit_movmemhi (operands))
DONE;
FAIL;
})
(define_mode_attr MOVMEM_r_d [(QI "r")
(HI "wd")])
;; $0 : Address Space
;; $1, $2 : Loop register
;; R30 : source address
;; R26 : destination address
;; "movmem_qi"
;; "movmem_hi"
(define_insn "movmem_<mode>"
[(set (mem:BLK (reg:HI REG_X))
(mem:BLK (reg:HI REG_Z)))
(unspec [(match_operand:QI 0 "const_int_operand" "n")]
UNSPEC_MOVMEM)
(use (match_operand:QIHI 1 "register_operand" "<MOVMEM_r_d>"))
(clobber (reg:HI REG_X))
(clobber (reg:HI REG_Z))
(clobber (reg:QI LPM_REGNO))
(clobber (match_operand:QIHI 2 "register_operand" "=1"))]
""
{
return avr_out_movmem (insn, operands, NULL);
}
[(set_attr "adjust_len" "movmem")
(set_attr "cc" "clobber")])
;; $0 : Address Space
;; $1 : RAMPZ RAM address
;; R24 : #bytes and loop register
;; R23:Z : 24-bit source address
;; R26 : 16-bit destination address
;; "movmemx_qi"
;; "movmemx_hi"
(define_insn "movmemx_<mode>"
[(set (mem:BLK (reg:HI REG_X))
(mem:BLK (lo_sum:PSI (reg:QI 23)
(reg:HI REG_Z))))
(unspec [(match_operand:QI 0 "const_int_operand" "n")]
UNSPEC_MOVMEM)
(use (reg:QIHI 24))
(clobber (reg:HI REG_X))
(clobber (reg:HI REG_Z))
(clobber (reg:QI LPM_REGNO))
(clobber (reg:HI 24))
(clobber (reg:QI 23))
(clobber (mem:QI (match_operand:QI 1 "io_address_operand" "n")))]
""
"%~call __movmemx_<mode>"
[(set_attr "type" "xcall")
(set_attr "cc" "clobber")])
;; =%2 =%2 =%2 =%2 =%2 =%2 =%2 =%2 =%2 =%2 =%2 =%2 =%2 =%2 =%2 =%2 =%2 =%2
;; memset (%0, %2, %1)
(define_expand "setmemhi"
[(parallel [(set (match_operand:BLK 0 "memory_operand" "")
(match_operand 2 "const_int_operand" ""))
(use (match_operand:HI 1 "const_int_operand" ""))
(use (match_operand:HI 3 "const_int_operand" ""))
(clobber (match_scratch:HI 4 ""))
(clobber (match_dup 5))])]
""
{
rtx addr0;
enum machine_mode mode;
/* If value to set is not zero, use the library routine. */
if (operands[2] != const0_rtx)
FAIL;
if (!CONST_INT_P (operands[1]))
FAIL;
mode = u8_operand (operands[1], VOIDmode) ? QImode : HImode;
operands[5] = gen_rtx_SCRATCH (mode);
operands[1] = copy_to_mode_reg (mode,
gen_int_mode (INTVAL (operands[1]), mode));
addr0 = copy_to_mode_reg (Pmode, XEXP (operands[0], 0));
operands[0] = gen_rtx_MEM (BLKmode, addr0);
})
(define_insn "*clrmemqi"
[(set (mem:BLK (match_operand:HI 0 "register_operand" "e"))
(const_int 0))
(use (match_operand:QI 1 "register_operand" "r"))
(use (match_operand:QI 2 "const_int_operand" "n"))
(clobber (match_scratch:HI 3 "=0"))
(clobber (match_scratch:QI 4 "=&1"))]
""
"0:\;st %a0+,__zero_reg__\;dec %1\;brne 0b"
[(set_attr "length" "3")
(set_attr "cc" "clobber")])
(define_insn "*clrmemhi"
[(set (mem:BLK (match_operand:HI 0 "register_operand" "e,e"))
(const_int 0))
(use (match_operand:HI 1 "register_operand" "!w,d"))
(use (match_operand:HI 2 "const_int_operand" "n,n"))
(clobber (match_scratch:HI 3 "=0,0"))
(clobber (match_scratch:HI 4 "=&1,&1"))]
""
"@
0:\;st %a0+,__zero_reg__\;sbiw %A1,1\;brne 0b
0:\;st %a0+,__zero_reg__\;subi %A1,1\;sbci %B1,0\;brne 0b"
[(set_attr "length" "3,4")
(set_attr "cc" "clobber,clobber")])
(define_expand "strlenhi"
[(set (match_dup 4)
(unspec:HI [(match_operand:BLK 1 "memory_operand" "")
(match_operand:QI 2 "const_int_operand" "")
(match_operand:HI 3 "immediate_operand" "")]
UNSPEC_STRLEN))
(set (match_dup 4)
(plus:HI (match_dup 4)
(const_int -1)))
(set (match_operand:HI 0 "register_operand" "")
(minus:HI (match_dup 4)
(match_dup 5)))]
""
{
rtx addr;
if (operands[2] != const0_rtx)
FAIL;
addr = copy_to_mode_reg (Pmode, XEXP (operands[1], 0));
operands[1] = gen_rtx_MEM (BLKmode, addr);
operands[5] = addr;
operands[4] = gen_reg_rtx (HImode);
})
(define_insn "*strlenhi"
[(set (match_operand:HI 0 "register_operand" "=e")
(unspec:HI [(mem:BLK (match_operand:HI 1 "register_operand" "0"))
(const_int 0)
(match_operand:HI 2 "immediate_operand" "i")]
UNSPEC_STRLEN))]
""
"0:\;ld __tmp_reg__,%a0+\;tst __tmp_reg__\;brne 0b"
[(set_attr "length" "3")
(set_attr "cc" "clobber")])
;+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
; add bytes
(define_insn "addqi3"
[(set (match_operand:QI 0 "register_operand" "=r,d,r,r,r,r")
(plus:QI (match_operand:QI 1 "register_operand" "%0,0,0,0,0,0")
(match_operand:QI 2 "nonmemory_operand" "r,i,P,N,K,Cm2")))]
""
"@
add %0,%2
subi %0,lo8(-(%2))
inc %0
dec %0
inc %0\;inc %0
dec %0\;dec %0"
[(set_attr "length" "1,1,1,1,2,2")
(set_attr "cc" "set_czn,set_czn,set_zn,set_zn,set_zn,set_zn")])
(define_expand "addhi3"
[(set (match_operand:HI 0 "register_operand" "")
(plus:HI (match_operand:HI 1 "register_operand" "")
(match_operand:HI 2 "nonmemory_operand" "")))]
""
{
if (CONST_INT_P (operands[2]))
{
operands[2] = gen_int_mode (INTVAL (operands[2]), HImode);
if (can_create_pseudo_p()
&& !stack_register_operand (operands[0], HImode)
&& !stack_register_operand (operands[1], HImode)
&& !d_register_operand (operands[0], HImode)
&& !d_register_operand (operands[1], HImode))
{
emit_insn (gen_addhi3_clobber (operands[0], operands[1], operands[2]));
DONE;
}
}
})
(define_insn "*addhi3_zero_extend"
[(set (match_operand:HI 0 "register_operand" "=r")
(plus:HI (zero_extend:HI (match_operand:QI 1 "register_operand" "r"))
(match_operand:HI 2 "register_operand" "0")))]
""
"add %A0,%1\;adc %B0,__zero_reg__"
[(set_attr "length" "2")
(set_attr "cc" "set_n")])
(define_insn "*addhi3_zero_extend1"
[(set (match_operand:HI 0 "register_operand" "=r")
(plus:HI (match_operand:HI 1 "register_operand" "0")
(zero_extend:HI (match_operand:QI 2 "register_operand" "r"))))]
""
"add %A0,%2\;adc %B0,__zero_reg__"
[(set_attr "length" "2")
(set_attr "cc" "set_n")])
(define_insn "*addhi3.sign_extend1"
[(set (match_operand:HI 0 "register_operand" "=r")
(plus:HI (sign_extend:HI (match_operand:QI 1 "register_operand" "r"))
(match_operand:HI 2 "register_operand" "0")))]
""
{
return reg_overlap_mentioned_p (operands[0], operands[1])
? "mov __tmp_reg__,%1\;add %A0,%1\;adc %B0,__zero_reg__\;sbrc __tmp_reg__,7\;dec %B0"
: "add %A0,%1\;adc %B0,__zero_reg__\;sbrc %1,7\;dec %B0";
}
[(set_attr "length" "5")
(set_attr "cc" "clobber")])
(define_insn "*addhi3_sp"
[(set (match_operand:HI 1 "stack_register_operand" "=q")
(plus:HI (match_operand:HI 2 "stack_register_operand" "q")
(match_operand:HI 0 "avr_sp_immediate_operand" "Csp")))]
""
{
return avr_out_addto_sp (operands, NULL);
}
[(set_attr "length" "6")
(set_attr "adjust_len" "addto_sp")])
(define_insn "*addhi3"
[(set (match_operand:HI 0 "register_operand" "=r,d,d")
(plus:HI (match_operand:HI 1 "register_operand" "%0,0,0")
(match_operand:HI 2 "nonmemory_operand" "r,s,n")))]
""
{
static const char * const asm_code[] =
{
"add %A0,%A2\;adc %B0,%B2",
"subi %A0,lo8(-(%2))\;sbci %B0,hi8(-(%2))",
""
};
if (*asm_code[which_alternative])
return asm_code[which_alternative];
return avr_out_plus_noclobber (operands, NULL, NULL);
}
[(set_attr "length" "2,2,2")
(set_attr "adjust_len" "*,*,out_plus_noclobber")
(set_attr "cc" "set_n,set_czn,out_plus_noclobber")])
;; Adding a constant to NO_LD_REGS might have lead to a reload of
;; that constant to LD_REGS. We don't add a scratch to *addhi3
;; itself because that insn is special to reload.
(define_peephole2 ; addhi3_clobber
[(set (match_operand:HI 0 "d_register_operand" "")
(match_operand:HI 1 "const_int_operand" ""))
(set (match_operand:HI 2 "l_register_operand" "")
(plus:HI (match_dup 2)
(match_dup 0)))]
"peep2_reg_dead_p (2, operands[0])"
[(parallel [(set (match_dup 2)
(plus:HI (match_dup 2)
(match_dup 1)))
(clobber (match_dup 3))])]
{
operands[3] = simplify_gen_subreg (QImode, operands[0], HImode, 0);
})
;; Same, but with reload to NO_LD_REGS
;; Combine *reload_inhi with *addhi3
(define_peephole2 ; addhi3_clobber
[(parallel [(set (match_operand:HI 0 "l_register_operand" "")
(match_operand:HI 1 "const_int_operand" ""))
(clobber (match_operand:QI 2 "d_register_operand" ""))])
(set (match_operand:HI 3 "l_register_operand" "")
(plus:HI (match_dup 3)
(match_dup 0)))]
"peep2_reg_dead_p (2, operands[0])"
[(parallel [(set (match_dup 3)
(plus:HI (match_dup 3)
(match_dup 1)))
(clobber (match_dup 2))])])
(define_insn "addhi3_clobber"
[(set (match_operand:HI 0 "register_operand" "=d,l")
(plus:HI (match_operand:HI 1 "register_operand" "%0,0")
(match_operand:HI 2 "const_int_operand" "n,n")))
(clobber (match_scratch:QI 3 "=X,&d"))]
""
{
gcc_assert (REGNO (operands[0]) == REGNO (operands[1]));
return avr_out_plus (operands, NULL, NULL);
}
[(set_attr "length" "4")
(set_attr "adjust_len" "out_plus")
(set_attr "cc" "out_plus")])
(define_insn "addsi3"
[(set (match_operand:SI 0 "register_operand" "=r,d ,d,r")
(plus:SI (match_operand:SI 1 "register_operand" "%0,0 ,0,0")
(match_operand:SI 2 "nonmemory_operand" "r,s ,n,n")))
(clobber (match_scratch:QI 3 "=X,X ,X,&d"))]
""
{
static const char * const asm_code[] =
{
"add %A0,%A2\;adc %B0,%B2\;adc %C0,%C2\;adc %D0,%D2",
"subi %0,lo8(-(%2))\;sbci %B0,hi8(-(%2))\;sbci %C0,hlo8(-(%2))\;sbci %D0,hhi8(-(%2))",
"",
""
};
if (*asm_code[which_alternative])
return asm_code[which_alternative];
return avr_out_plus (operands, NULL, NULL);
}
[(set_attr "length" "4,4,4,8")
(set_attr "adjust_len" "*,*,out_plus,out_plus")
(set_attr "cc" "set_n,set_czn,out_plus,out_plus")])
(define_insn "*addpsi3_zero_extend.qi"
[(set (match_operand:PSI 0 "register_operand" "=r")
(plus:PSI (zero_extend:PSI (match_operand:QI 1 "register_operand" "r"))
(match_operand:PSI 2 "register_operand" "0")))]
""
"add %A0,%A1\;adc %B0,__zero_reg__\;adc %C0,__zero_reg__"
[(set_attr "length" "3")
(set_attr "cc" "set_n")])
(define_insn "*addpsi3_zero_extend.hi"
[(set (match_operand:PSI 0 "register_operand" "=r")
(plus:PSI (zero_extend:PSI (match_operand:HI 1 "register_operand" "r"))
(match_operand:PSI 2 "register_operand" "0")))]
""
"add %A0,%A1\;adc %B0,%B1\;adc %C0,__zero_reg__"
[(set_attr "length" "3")
(set_attr "cc" "set_n")])
(define_insn "*addpsi3_sign_extend.hi"
[(set (match_operand:PSI 0 "register_operand" "=r")
(plus:PSI (sign_extend:PSI (match_operand:HI 1 "register_operand" "r"))
(match_operand:PSI 2 "register_operand" "0")))]
""
"add %A0,%1\;adc %B0,%B1\;adc %C0,__zero_reg__\;sbrc %B1,7\;dec %C0"
[(set_attr "length" "5")
(set_attr "cc" "set_n")])
(define_insn "*addsi3_zero_extend"
[(set (match_operand:SI 0 "register_operand" "=r")
(plus:SI (zero_extend:SI (match_operand:QI 1 "register_operand" "r"))
(match_operand:SI 2 "register_operand" "0")))]
""
"add %A0,%1\;adc %B0,__zero_reg__\;adc %C0,__zero_reg__\;adc %D0,__zero_reg__"
[(set_attr "length" "4")
(set_attr "cc" "set_n")])
(define_insn "*addsi3_zero_extend.hi"
[(set (match_operand:SI 0 "register_operand" "=r")
(plus:SI (zero_extend:SI (match_operand:HI 1 "register_operand" "r"))
(match_operand:SI 2 "register_operand" "0")))]
""
"add %A0,%1\;adc %B0,%B1\;adc %C0,__zero_reg__\;adc %D0,__zero_reg__"
[(set_attr "length" "4")
(set_attr "cc" "set_n")])
(define_insn "addpsi3"
[(set (match_operand:PSI 0 "register_operand" "=r,d ,d,r")
(plus:PSI (match_operand:PSI 1 "register_operand" "%0,0 ,0,0")
(match_operand:PSI 2 "nonmemory_operand" "r,s ,n,n")))
(clobber (match_scratch:QI 3 "=X,X ,X,&d"))]
""
{
static const char * const asm_code[] =
{
"add %A0,%A2\;adc %B0,%B2\;adc %C0,%C2",
"subi %0,lo8(-(%2))\;sbci %B0,hi8(-(%2))\;sbci %C0,hlo8(-(%2))",
"",
""
};
if (*asm_code[which_alternative])
return asm_code[which_alternative];
return avr_out_plus (operands, NULL, NULL);
}
[(set_attr "length" "3,3,3,6")
(set_attr "adjust_len" "*,*,out_plus,out_plus")
(set_attr "cc" "set_n,set_czn,out_plus,out_plus")])
(define_insn "subpsi3"
[(set (match_operand:PSI 0 "register_operand" "=r")
(minus:PSI (match_operand:PSI 1 "register_operand" "0")
(match_operand:PSI 2 "register_operand" "r")))]
""
"sub %0,%2\;sbc %B0,%B2\;sbc %C0,%C2"
[(set_attr "length" "3")
(set_attr "cc" "set_czn")])
(define_insn "*subpsi3_zero_extend.qi"
[(set (match_operand:PSI 0 "register_operand" "=r")
(minus:PSI (match_operand:SI 1 "register_operand" "0")
(zero_extend:PSI (match_operand:QI 2 "register_operand" "r"))))]
""
"sub %A0,%2\;sbc %B0,__zero_reg__\;sbc %C0,__zero_reg__"
[(set_attr "length" "3")
(set_attr "cc" "set_czn")])
(define_insn "*subpsi3_zero_extend.hi"
[(set (match_operand:PSI 0 "register_operand" "=r")
(minus:PSI (match_operand:PSI 1 "register_operand" "0")
(zero_extend:PSI (match_operand:HI 2 "register_operand" "r"))))]
""
"sub %A0,%2\;sbc %B0,%B2\;sbc %C0,__zero_reg__"
[(set_attr "length" "3")
(set_attr "cc" "set_czn")])
(define_insn "*subpsi3_sign_extend.hi"
[(set (match_operand:PSI 0 "register_operand" "=r")
(minus:PSI (match_operand:PSI 1 "register_operand" "0")
(sign_extend:PSI (match_operand:HI 2 "register_operand" "r"))))]
""
"sub %A0,%A2\;sbc %B0,%B2\;sbc %C0,__zero_reg__\;sbrc %B2,7\;inc %C0"
[(set_attr "length" "5")
(set_attr "cc" "set_czn")])
;-----------------------------------------------------------------------------
; sub bytes
(define_insn "subqi3"
[(set (match_operand:QI 0 "register_operand" "=r,d")
(minus:QI (match_operand:QI 1 "register_operand" "0,0")
(match_operand:QI 2 "nonmemory_operand" "r,i")))]
""
"@
sub %0,%2
subi %0,lo8(%2)"
[(set_attr "length" "1,1")
(set_attr "cc" "set_czn,set_czn")])
(define_insn "subhi3"
[(set (match_operand:HI 0 "register_operand" "=r,d")
(minus:HI (match_operand:HI 1 "register_operand" "0,0")
(match_operand:HI 2 "nonmemory_operand" "r,i")))]
""
"@
sub %A0,%A2\;sbc %B0,%B2
subi %A0,lo8(%2)\;sbci %B0,hi8(%2)"
[(set_attr "length" "2,2")
(set_attr "cc" "set_czn,set_czn")])
(define_insn "*subhi3_zero_extend1"
[(set (match_operand:HI 0 "register_operand" "=r")
(minus:HI (match_operand:HI 1 "register_operand" "0")
(zero_extend:HI (match_operand:QI 2 "register_operand" "r"))))]
""
"sub %A0,%2\;sbc %B0,__zero_reg__"
[(set_attr "length" "2")
(set_attr "cc" "set_czn")])
(define_insn "*subhi3.sign_extend2"
[(set (match_operand:HI 0 "register_operand" "=r")
(minus:HI (match_operand:HI 1 "register_operand" "0")
(sign_extend:HI (match_operand:QI 2 "register_operand" "r"))))]
""
{
return reg_overlap_mentioned_p (operands[0], operands[2])
? "mov __tmp_reg__,%2\;sub %A0,%2\;sbc %B0,__zero_reg__\;sbrc __tmp_reg__,7\;inc %B0"
: "sub %A0,%2\;sbc %B0,__zero_reg__\;sbrc %2,7\;inc %B0";
}
[(set_attr "length" "5")
(set_attr "cc" "clobber")])
(define_insn "subsi3"
[(set (match_operand:SI 0 "register_operand" "=r")
(minus:SI (match_operand:SI 1 "register_operand" "0")
(match_operand:SI 2 "register_operand" "r")))]
""
"sub %0,%2\;sbc %B0,%B2\;sbc %C0,%C2\;sbc %D0,%D2"
[(set_attr "length" "4")
(set_attr "cc" "set_czn")])
(define_insn "*subsi3_zero_extend"
[(set (match_operand:SI 0 "register_operand" "=r")
(minus:SI (match_operand:SI 1 "register_operand" "0")
(zero_extend:SI (match_operand:QI 2 "register_operand" "r"))))]
""
"sub %A0,%2\;sbc %B0,__zero_reg__\;sbc %C0,__zero_reg__\;sbc %D0,__zero_reg__"
[(set_attr "length" "4")
(set_attr "cc" "set_czn")])
(define_insn "*subsi3_zero_extend.hi"
[(set (match_operand:SI 0 "register_operand" "=r")
(minus:SI (match_operand:SI 1 "register_operand" "0")
(zero_extend:SI (match_operand:HI 2 "register_operand" "r"))))]
""
"sub %A0,%2\;sbc %B0,%B2\;sbc %C0,__zero_reg__\;sbc %D0,__zero_reg__"
[(set_attr "length" "4")
(set_attr "cc" "set_czn")])
;******************************************************************************
; mul
(define_expand "mulqi3"
[(set (match_operand:QI 0 "register_operand" "")
(mult:QI (match_operand:QI 1 "register_operand" "")
(match_operand:QI 2 "register_operand" "")))]
""
{
if (!AVR_HAVE_MUL)
{
emit_insn (gen_mulqi3_call (operands[0], operands[1], operands[2]));
DONE;
}
})
(define_insn "*mulqi3_enh"
[(set (match_operand:QI 0 "register_operand" "=r")
(mult:QI (match_operand:QI 1 "register_operand" "r")
(match_operand:QI 2 "register_operand" "r")))]
"AVR_HAVE_MUL"
"mul %1,%2
mov %0,r0
clr r1"
[(set_attr "length" "3")
(set_attr "cc" "clobber")])
(define_expand "mulqi3_call"
[(set (reg:QI 24) (match_operand:QI 1 "register_operand" ""))
(set (reg:QI 22) (match_operand:QI 2 "register_operand" ""))
(parallel [(set (reg:QI 24) (mult:QI (reg:QI 24) (reg:QI 22)))
(clobber (reg:QI 22))])
(set (match_operand:QI 0 "register_operand" "") (reg:QI 24))]
""
"")
(define_insn "*mulqi3_call"
[(set (reg:QI 24) (mult:QI (reg:QI 24) (reg:QI 22)))
(clobber (reg:QI 22))]
"!AVR_HAVE_MUL"
"%~call __mulqi3"
[(set_attr "type" "xcall")
(set_attr "cc" "clobber")])
;; "umulqi3_highpart"
;; "smulqi3_highpart"
(define_insn "<extend_su>mulqi3_highpart"
[(set (match_operand:QI 0 "register_operand" "=r")
(truncate:QI
(lshiftrt:HI (mult:HI (any_extend:HI (match_operand:QI 1 "register_operand" "<mul_r_d>"))
(any_extend:HI (match_operand:QI 2 "register_operand" "<mul_r_d>")))
(const_int 8))))]
"AVR_HAVE_MUL"
"mul<extend_s> %1,%2
mov %0,r1
clr __zero_reg__"
[(set_attr "length" "3")
(set_attr "cc" "clobber")])
;; Used when expanding div or mod inline for some special values
(define_insn "*subqi3.ashiftrt7"
[(set (match_operand:QI 0 "register_operand" "=r")
(minus:QI (match_operand:QI 1 "register_operand" "0")
(ashiftrt:QI (match_operand:QI 2 "register_operand" "r")
(const_int 7))))]
""
"sbrc %2,7\;inc %0"
[(set_attr "length" "2")
(set_attr "cc" "clobber")])
(define_insn "*addqi3.lt0"
[(set (match_operand:QI 0 "register_operand" "=r")
(plus:QI (lt:QI (match_operand:QI 1 "register_operand" "r")
(const_int 0))
(match_operand:QI 2 "register_operand" "0")))]
""
"sbrc %1,7\;inc %0"
[(set_attr "length" "2")
(set_attr "cc" "clobber")])
(define_insn "*addhi3.lt0"
[(set (match_operand:HI 0 "register_operand" "=w,r")
(plus:HI (lt:HI (match_operand:QI 1 "register_operand" "r,r")
(const_int 0))
(match_operand:HI 2 "register_operand" "0,0")))
(clobber (match_scratch:QI 3 "=X,&1"))]
""
"@
sbrc %1,7\;adiw %0,1
lsl %1\;adc %A0,__zero_reg__\;adc %B0,__zero_reg__"
[(set_attr "length" "2,3")
(set_attr "cc" "clobber")])
(define_insn "*addpsi3.lt0"
[(set (match_operand:PSI 0 "register_operand" "=r")
(plus:PSI (lshiftrt:PSI (match_operand:PSI 1 "register_operand" "r")
(const_int 23))
(match_operand:PSI 2 "register_operand" "0")))]
""
"mov __tmp_reg__,%C1\;lsl __tmp_reg__
adc %A0,__zero_reg__\;adc %B0,__zero_reg__\;adc %C0,__zero_reg__"
[(set_attr "length" "5")
(set_attr "cc" "clobber")])
(define_insn "*addsi3.lt0"
[(set (match_operand:SI 0 "register_operand" "=r")
(plus:SI (lshiftrt:SI (match_operand:SI 1 "register_operand" "r")
(const_int 31))
(match_operand:SI 2 "register_operand" "0")))]
""
"mov __tmp_reg__,%D1\;lsl __tmp_reg__
adc %A0,__zero_reg__\;adc %B0,__zero_reg__\;adc %C0,__zero_reg__\;adc %D0,__zero_reg__"
[(set_attr "length" "6")
(set_attr "cc" "clobber")])
;; "umulqihi3"
;; "mulqihi3"
(define_insn "<extend_u>mulqihi3"
[(set (match_operand:HI 0 "register_operand" "=r")
(mult:HI (any_extend:HI (match_operand:QI 1 "register_operand" "<mul_r_d>"))
(any_extend:HI (match_operand:QI 2 "register_operand" "<mul_r_d>"))))]
"AVR_HAVE_MUL"
"mul<extend_s> %1,%2
movw %0,r0
clr __zero_reg__"
[(set_attr "length" "3")
(set_attr "cc" "clobber")])
(define_insn "usmulqihi3"
[(set (match_operand:HI 0 "register_operand" "=r")
(mult:HI (zero_extend:HI (match_operand:QI 1 "register_operand" "a"))
(sign_extend:HI (match_operand:QI 2 "register_operand" "a"))))]
"AVR_HAVE_MUL"
"mulsu %2,%1
movw %0,r0
clr __zero_reg__"
[(set_attr "length" "3")
(set_attr "cc" "clobber")])
;; Above insn is not canonicalized by insn combine, so here is a version with
;; operands swapped.
(define_insn "*sumulqihi3"
[(set (match_operand:HI 0 "register_operand" "=r")
(mult:HI (sign_extend:HI (match_operand:QI 1 "register_operand" "a"))
(zero_extend:HI (match_operand:QI 2 "register_operand" "a"))))]
"AVR_HAVE_MUL"
"mulsu %1,%2
movw %0,r0
clr __zero_reg__"
[(set_attr "length" "3")
(set_attr "cc" "clobber")])
;; One-extend operand 1
(define_insn "*osmulqihi3"
[(set (match_operand:HI 0 "register_operand" "=&r")
(mult:HI (not:HI (zero_extend:HI (not:QI (match_operand:QI 1 "register_operand" "a"))))
(sign_extend:HI (match_operand:QI 2 "register_operand" "a"))))]
"AVR_HAVE_MUL"
"mulsu %2,%1
movw %0,r0
sub %B0,%2
clr __zero_reg__"
[(set_attr "length" "4")
(set_attr "cc" "clobber")])
(define_insn "*oumulqihi3"
[(set (match_operand:HI 0 "register_operand" "=&r")
(mult:HI (not:HI (zero_extend:HI (not:QI (match_operand:QI 1 "register_operand" "r"))))
(zero_extend:HI (match_operand:QI 2 "register_operand" "r"))))]
"AVR_HAVE_MUL"
"mul %2,%1
movw %0,r0
sub %B0,%2
clr __zero_reg__"
[(set_attr "length" "4")
(set_attr "cc" "clobber")])
;******************************************************************************
; multiply-add/sub QI: $0 = $3 +/- $1*$2
;******************************************************************************
(define_insn "*maddqi4"
[(set (match_operand:QI 0 "register_operand" "=r")
(plus:QI (mult:QI (match_operand:QI 1 "register_operand" "r")
(match_operand:QI 2 "register_operand" "r"))
(match_operand:QI 3 "register_operand" "0")))]
"AVR_HAVE_MUL"
"mul %1,%2
add %A0,r0
clr __zero_reg__"
[(set_attr "length" "4")
(set_attr "cc" "clobber")])
(define_insn "*msubqi4"
[(set (match_operand:QI 0 "register_operand" "=r")
(minus:QI (match_operand:QI 3 "register_operand" "0")
(mult:QI (match_operand:QI 1 "register_operand" "r")
(match_operand:QI 2 "register_operand" "r"))))]
"AVR_HAVE_MUL"
"mul %1,%2
sub %A0,r0
clr __zero_reg__"
[(set_attr "length" "4")
(set_attr "cc" "clobber")])
(define_insn_and_split "*maddqi4.const"
[(set (match_operand:QI 0 "register_operand" "=r")
(plus:QI (mult:QI (match_operand:QI 1 "register_operand" "r")
(match_operand:QI 2 "const_int_operand" "n"))
(match_operand:QI 3 "register_operand" "0")))
(clobber (match_scratch:QI 4 "=&d"))]
"AVR_HAVE_MUL"
"#"
"&& reload_completed"
[(set (match_dup 4)
(match_dup 2))
; *maddqi4
(set (match_dup 0)
(plus:QI (mult:QI (match_dup 1)
(match_dup 4))
(match_dup 3)))]
"")
(define_insn_and_split "*msubqi4.const"
[(set (match_operand:QI 0 "register_operand" "=r")
(minus:QI (match_operand:QI 3 "register_operand" "0")
(mult:QI (match_operand:QI 1 "register_operand" "r")
(match_operand:QI 2 "const_int_operand" "n"))))
(clobber (match_scratch:QI 4 "=&d"))]
"AVR_HAVE_MUL"
"#"
"&& reload_completed"
[(set (match_dup 4)
(match_dup 2))
; *msubqi4
(set (match_dup 0)
(minus:QI (match_dup 3)
(mult:QI (match_dup 1)
(match_dup 4))))]
"")
;******************************************************************************
; multiply-add/sub HI: $0 = $3 +/- $1*$2 with 8-bit values $1, $2
;******************************************************************************
;; We don't use standard insns/expanders as they lead to cumbersome code for,
;; e.g,
;;
;; int foo (unsigned char z)
;; {
;; extern int aInt[];
;; return aInt[3*z+2];
;; }
;;
;; because the constant +4 then is added explicitely instead of consuming it
;; with the aInt symbol. Therefore, we rely on insn combine which takes costs
;; into account more accurately and doesn't do burte-force multiply-add/sub.
;; The implementational effort is the same so we are fine with that approach.
;; "*maddqihi4"
;; "*umaddqihi4"
(define_insn "*<extend_u>maddqihi4"
[(set (match_operand:HI 0 "register_operand" "=r")
(plus:HI (mult:HI (any_extend:HI (match_operand:QI 1 "register_operand" "<mul_r_d>"))
(any_extend:HI (match_operand:QI 2 "register_operand" "<mul_r_d>")))
(match_operand:HI 3 "register_operand" "0")))]
"AVR_HAVE_MUL"
"mul<extend_s> %1,%2
add %A0,r0
adc %B0,r1
clr __zero_reg__"
[(set_attr "length" "4")
(set_attr "cc" "clobber")])
;; "*msubqihi4"
;; "*umsubqihi4"
(define_insn "*<extend_u>msubqihi4"
[(set (match_operand:HI 0 "register_operand" "=r")
(minus:HI (match_operand:HI 3 "register_operand" "0")
(mult:HI (any_extend:HI (match_operand:QI 1 "register_operand" "<mul_r_d>"))
(any_extend:HI (match_operand:QI 2 "register_operand" "<mul_r_d>")))))]
"AVR_HAVE_MUL"
"mul<extend_s> %1,%2
sub %A0,r0
sbc %B0,r1
clr __zero_reg__"
[(set_attr "length" "4")
(set_attr "cc" "clobber")])
;; "*usmaddqihi4"
;; "*sumaddqihi4"
(define_insn "*<any_extend:extend_su><any_extend2:extend_su>msubqihi4"
[(set (match_operand:HI 0 "register_operand" "=r")
(plus:HI (mult:HI (any_extend:HI (match_operand:QI 1 "register_operand" "a"))
(any_extend2:HI (match_operand:QI 2 "register_operand" "a")))
(match_operand:HI 3 "register_operand" "0")))]
"AVR_HAVE_MUL
&& reload_completed
&& <any_extend:CODE> != <any_extend2:CODE>"
{
output_asm_insn (<any_extend:CODE> == SIGN_EXTEND
? "mulsu %1,%2" : "mulsu %2,%1", operands);
return "add %A0,r0\;adc %B0,r1\;clr __zero_reg__";
}
[(set_attr "length" "4")
(set_attr "cc" "clobber")])
;; "*usmsubqihi4"
;; "*sumsubqihi4"
(define_insn "*<any_extend:extend_su><any_extend2:extend_su>msubqihi4"
[(set (match_operand:HI 0 "register_operand" "=r")
(minus:HI (match_operand:HI 3 "register_operand" "0")
(mult:HI (any_extend:HI (match_operand:QI 1 "register_operand" "a"))
(any_extend2:HI (match_operand:QI 2 "register_operand" "a")))))]
"AVR_HAVE_MUL
&& reload_completed
&& <any_extend:CODE> != <any_extend2:CODE>"
{
output_asm_insn (<any_extend:CODE> == SIGN_EXTEND
? "mulsu %1,%2" : "mulsu %2,%1", operands);
return "sub %A0,r0\;sbc %B0,r1\;clr __zero_reg__";
}
[(set_attr "length" "4")
(set_attr "cc" "clobber")])
;; Handle small constants
;; "umaddqihi4.uconst"
;; "maddqihi4.sconst"
(define_insn_and_split "*<extend_u>maddqihi4.<extend_su>const"
[(set (match_operand:HI 0 "register_operand" "=r")
(plus:HI (mult:HI (any_extend:HI (match_operand:QI 1 "register_operand" "<mul_r_d>"))
(match_operand:HI 2 "<extend_su>8_operand" "n"))
(match_operand:HI 3 "register_operand" "0")))
(clobber (match_scratch:QI 4 "=&d"))]
"AVR_HAVE_MUL"
"#"
"&& reload_completed"
[(set (match_dup 4)
(match_dup 2))
; *umaddqihi4 resp. *maddqihi4
(set (match_dup 0)
(plus:HI (mult:HI (any_extend:HI (match_dup 1))
(any_extend:HI (match_dup 4)))
(match_dup 3)))]
{
operands[2] = gen_int_mode (INTVAL (operands[2]), QImode);
})
;; "*umsubqihi4.uconst"
;; "*msubqihi4.sconst"
(define_insn_and_split "*<extend_u>msubqihi4.<extend_su>const"
[(set (match_operand:HI 0 "register_operand" "=r")
(minus:HI (match_operand:HI 3 "register_operand" "0")
(mult:HI (any_extend:HI (match_operand:QI 1 "register_operand" "<mul_r_d>"))
(match_operand:HI 2 "<extend_su>8_operand" "n"))))
(clobber (match_scratch:QI 4 "=&d"))]
"AVR_HAVE_MUL"
"#"
"&& reload_completed"
[(set (match_dup 4)
(match_dup 2))
; *umsubqihi4 resp. *msubqihi4
(set (match_dup 0)
(minus:HI (match_dup 3)
(mult:HI (any_extend:HI (match_dup 1))
(any_extend:HI (match_dup 4)))))]
{
operands[2] = gen_int_mode (INTVAL (operands[2]), QImode);
})
;; Same as the insn above, but combiner tries versions canonicalized to ASHIFT
;; for MULT with power of 2 and skips trying MULT insn above.
(define_insn_and_split "*umsubqihi4.uconst.ashift"
[(set (match_operand:HI 0 "register_operand" "=r")
(minus:HI (match_operand:HI 3 "register_operand" "0")
(ashift:HI (zero_extend:HI (match_operand:QI 1 "register_operand" "r"))
(match_operand:HI 2 "const_2_to_7_operand" "n"))))
(clobber (match_scratch:QI 4 "=&d"))]
"AVR_HAVE_MUL"
"#"
"&& reload_completed"
[(set (match_dup 4)
(match_dup 2))
; *umsubqihi4
(set (match_dup 0)
(minus:HI (match_dup 3)
(mult:HI (zero_extend:HI (match_dup 1))
(zero_extend:HI (match_dup 4)))))]
{
operands[2] = gen_int_mode (1 << INTVAL (operands[2]), QImode);
})
;; Same as the insn above, but combiner tries versions canonicalized to ASHIFT
;; for MULT with power of 2 and skips trying MULT insn above. We omit 128
;; because this would require an extra pattern for just one value.
(define_insn_and_split "*msubqihi4.sconst.ashift"
[(set (match_operand:HI 0 "register_operand" "=r")
(minus:HI (match_operand:HI 3 "register_operand" "0")
(ashift:HI (sign_extend:HI (match_operand:QI 1 "register_operand" "d"))
(match_operand:HI 2 "const_1_to_6_operand" "M"))))
(clobber (match_scratch:QI 4 "=&d"))]
"AVR_HAVE_MUL"
"#"
"&& reload_completed"
[(set (match_dup 4)
(match_dup 2))
; *smsubqihi4
(set (match_dup 0)
(minus:HI (match_dup 3)
(mult:HI (sign_extend:HI (match_dup 1))
(sign_extend:HI (match_dup 4)))))]
{
operands[2] = gen_int_mode (1 << INTVAL (operands[2]), QImode);
})
;; For signed/unsigned combinations that require narrow constraint "a"
;; just provide a pattern if signed/unsigned combination is actually needed.
(define_insn_and_split "*sumaddqihi4.uconst"
[(set (match_operand:HI 0 "register_operand" "=r")
(plus:HI (mult:HI (sign_extend:HI (match_operand:QI 1 "register_operand" "a"))
(match_operand:HI 2 "u8_operand" "M"))
(match_operand:HI 3 "register_operand" "0")))
(clobber (match_scratch:QI 4 "=&a"))]
"AVR_HAVE_MUL
&& !s8_operand (operands[2], VOIDmode)"
"#"
"&& reload_completed"
[(set (match_dup 4)
(match_dup 2))
; *sumaddqihi4
(set (match_dup 0)
(plus:HI (mult:HI (sign_extend:HI (match_dup 1))
(zero_extend:HI (match_dup 4)))
(match_dup 3)))]
{
operands[2] = gen_int_mode (INTVAL (operands[2]), QImode);
})
(define_insn_and_split "*sumsubqihi4.uconst"
[(set (match_operand:HI 0 "register_operand" "=r")
(minus:HI (match_operand:HI 3 "register_operand" "0")
(mult:HI (sign_extend:HI (match_operand:QI 1 "register_operand" "a"))
(match_operand:HI 2 "u8_operand" "M"))))
(clobber (match_scratch:QI 4 "=&a"))]
"AVR_HAVE_MUL
&& !s8_operand (operands[2], VOIDmode)"
"#"
"&& reload_completed"
[(set (match_dup 4)
(match_dup 2))
; *sumsubqihi4
(set (match_dup 0)
(minus:HI (match_dup 3)
(mult:HI (sign_extend:HI (match_dup 1))
(zero_extend:HI (match_dup 4)))))]
{
operands[2] = gen_int_mode (INTVAL (operands[2]), QImode);
})
;******************************************************************************
; mul HI: $1 = sign/zero-extend, $2 = small constant
;******************************************************************************
;; "*muluqihi3.uconst"
;; "*mulsqihi3.sconst"
(define_insn_and_split "*mul<extend_su>qihi3.<extend_su>const"
[(set (match_operand:HI 0 "register_operand" "=r")
(mult:HI (any_extend:HI (match_operand:QI 1 "register_operand" "<mul_r_d>"))
(match_operand:HI 2 "<extend_su>8_operand" "n")))
(clobber (match_scratch:QI 3 "=&d"))]
"AVR_HAVE_MUL"
"#"
"&& reload_completed"
[(set (match_dup 3)
(match_dup 2))
; umulqihi3 resp. mulqihi3
(set (match_dup 0)
(mult:HI (any_extend:HI (match_dup 1))
(any_extend:HI (match_dup 3))))]
{
operands[2] = gen_int_mode (INTVAL (operands[2]), QImode);
})
(define_insn_and_split "*muluqihi3.sconst"
[(set (match_operand:HI 0 "register_operand" "=r")
(mult:HI (zero_extend:HI (match_operand:QI 1 "register_operand" "a"))
(match_operand:HI 2 "s8_operand" "n")))
(clobber (match_scratch:QI 3 "=&a"))]
"AVR_HAVE_MUL"
"#"
"&& reload_completed"
[(set (match_dup 3)
(match_dup 2))
; usmulqihi3
(set (match_dup 0)
(mult:HI (zero_extend:HI (match_dup 1))
(sign_extend:HI (match_dup 3))))]
{
operands[2] = gen_int_mode (INTVAL (operands[2]), QImode);
})
(define_insn_and_split "*mulsqihi3.uconst"
[(set (match_operand:HI 0 "register_operand" "=r")
(mult:HI (sign_extend:HI (match_operand:QI 1 "register_operand" "a"))
(match_operand:HI 2 "u8_operand" "M")))
(clobber (match_scratch:QI 3 "=&a"))]
"AVR_HAVE_MUL"
"#"
"&& reload_completed"
[(set (match_dup 3)
(match_dup 2))
; usmulqihi3
(set (match_dup 0)
(mult:HI (zero_extend:HI (match_dup 3))
(sign_extend:HI (match_dup 1))))]
{
operands[2] = gen_int_mode (INTVAL (operands[2]), QImode);
})
(define_insn_and_split "*mulsqihi3.oconst"
[(set (match_operand:HI 0 "register_operand" "=&r")
(mult:HI (sign_extend:HI (match_operand:QI 1 "register_operand" "a"))
(match_operand:HI 2 "o8_operand" "n")))
(clobber (match_scratch:QI 3 "=&a"))]
"AVR_HAVE_MUL"
"#"
"&& reload_completed"
[(set (match_dup 3)
(match_dup 2))
; *osmulqihi3
(set (match_dup 0)
(mult:HI (not:HI (zero_extend:HI (not:QI (match_dup 3))))
(sign_extend:HI (match_dup 1))))]
{
operands[2] = gen_int_mode (INTVAL (operands[2]), QImode);
})
;; The EXTEND of $1 only appears in combine, we don't see it in expand so that
;; expand decides to use ASHIFT instead of MUL because ASHIFT costs are cheaper
;; at that time. Fix that.
(define_insn "*ashiftqihi2.signx.1"
[(set (match_operand:HI 0 "register_operand" "=r,*r")
(ashift:HI (sign_extend:HI (match_operand:QI 1 "register_operand" "0,r"))
(const_int 1)))]
""
"@
lsl %A0\;sbc %B0,%B0
mov %A0,%1\;lsl %A0\;sbc %B0,%B0"
[(set_attr "length" "2,3")
(set_attr "cc" "clobber")])
(define_insn_and_split "*ashifthi3.signx.const"
[(set (match_operand:HI 0 "register_operand" "=r")
(ashift:HI (sign_extend:HI (match_operand:QI 1 "register_operand" "d"))
(match_operand:HI 2 "const_2_to_6_operand" "I")))
(clobber (match_scratch:QI 3 "=&d"))]
"AVR_HAVE_MUL"
"#"
"&& reload_completed"
[(set (match_dup 3)
(match_dup 2))
; mulqihi3
(set (match_dup 0)
(mult:HI (sign_extend:HI (match_dup 1))
(sign_extend:HI (match_dup 3))))]
{
operands[2] = GEN_INT (1 << INTVAL (operands[2]));
})
(define_insn_and_split "*ashifthi3.signx.const7"
[(set (match_operand:HI 0 "register_operand" "=r")
(ashift:HI (sign_extend:HI (match_operand:QI 1 "register_operand" "a"))
(const_int 7)))
(clobber (match_scratch:QI 2 "=&a"))]
"AVR_HAVE_MUL"
"#"
"&& reload_completed"
[(set (match_dup 2)
(match_dup 3))
; usmulqihi3
(set (match_dup 0)
(mult:HI (zero_extend:HI (match_dup 2))
(sign_extend:HI (match_dup 1))))]
{
operands[3] = gen_int_mode (1 << 7, QImode);
})
(define_insn_and_split "*ashifthi3.zerox.const"
[(set (match_operand:HI 0 "register_operand" "=r")
(ashift:HI (zero_extend:HI (match_operand:QI 1 "register_operand" "r"))
(match_operand:HI 2 "const_2_to_7_operand" "I")))
(clobber (match_scratch:QI 3 "=&d"))]
"AVR_HAVE_MUL"
"#"
"&& reload_completed"
[(set (match_dup 3)
(match_dup 2))
; umulqihi3
(set (match_dup 0)
(mult:HI (zero_extend:HI (match_dup 1))
(zero_extend:HI (match_dup 3))))]
{
operands[2] = gen_int_mode (1 << INTVAL (operands[2]), QImode);
})
;******************************************************************************
; mul HI: $1 = sign-/zero-/one-extend, $2 = reg
;******************************************************************************
(define_insn "mulsqihi3"
[(set (match_operand:HI 0 "register_operand" "=&r")
(mult:HI (sign_extend:HI (match_operand:QI 1 "register_operand" "a"))
(match_operand:HI 2 "register_operand" "a")))]
"AVR_HAVE_MUL"
"mulsu %1,%A2
movw %0,r0
mul %1,%B2
add %B0,r0
clr __zero_reg__"
[(set_attr "length" "5")
(set_attr "cc" "clobber")])
(define_insn "muluqihi3"
[(set (match_operand:HI 0 "register_operand" "=&r")
(mult:HI (zero_extend:HI (match_operand:QI 1 "register_operand" "r"))
(match_operand:HI 2 "register_operand" "r")))]
"AVR_HAVE_MUL"
"mul %1,%A2
movw %0,r0
mul %1,%B2
add %B0,r0
clr __zero_reg__"
[(set_attr "length" "5")
(set_attr "cc" "clobber")])
;; one-extend operand 1
(define_insn "muloqihi3"
[(set (match_operand:HI 0 "register_operand" "=&r")
(mult:HI (not:HI (zero_extend:HI (not:QI (match_operand:QI 1 "register_operand" "r"))))
(match_operand:HI 2 "register_operand" "r")))]
"AVR_HAVE_MUL"
"mul %1,%A2
movw %0,r0
mul %1,%B2
add %B0,r0
sub %B0,%A2
clr __zero_reg__"
[(set_attr "length" "6")
(set_attr "cc" "clobber")])
;******************************************************************************
(define_expand "mulhi3"
[(set (match_operand:HI 0 "register_operand" "")
(mult:HI (match_operand:HI 1 "register_operand" "")
(match_operand:HI 2 "register_or_s9_operand" "")))]
""
{
if (!AVR_HAVE_MUL)
{
if (!register_operand (operands[2], HImode))
operands[2] = force_reg (HImode, operands[2]);
emit_insn (gen_mulhi3_call (operands[0], operands[1], operands[2]));
DONE;
}
/* For small constants we can do better by extending them on the fly.
The constant can be loaded in one instruction and the widening
multiplication is shorter. First try the unsigned variant because it
allows constraint "d" instead of "a" for the signed version. */
if (s9_operand (operands[2], HImode))
{
rtx reg = force_reg (QImode, gen_int_mode (INTVAL (operands[2]), QImode));
if (u8_operand (operands[2], HImode))
{
emit_insn (gen_muluqihi3 (operands[0], reg, operands[1]));
}
else if (s8_operand (operands[2], HImode))
{
emit_insn (gen_mulsqihi3 (operands[0], reg, operands[1]));
}
else
{
emit_insn (gen_muloqihi3 (operands[0], reg, operands[1]));
}
DONE;
}
if (!register_operand (operands[2], HImode))
operands[2] = force_reg (HImode, operands[2]);
})
(define_insn "*mulhi3_enh"
[(set (match_operand:HI 0 "register_operand" "=&r")
(mult:HI (match_operand:HI 1 "register_operand" "r")
(match_operand:HI 2 "register_operand" "r")))]
"AVR_HAVE_MUL"
{
return REGNO (operands[1]) == REGNO (operands[2])
? "mul %A1,%A1\;movw %0,r0\;mul %A1,%B1\;add %B0,r0\;add %B0,r0\;clr r1"
: "mul %A1,%A2\;movw %0,r0\;mul %A1,%B2\;add %B0,r0\;mul %B1,%A2\;add %B0,r0\;clr r1";
}
[(set_attr "length" "7")
(set_attr "cc" "clobber")])
(define_expand "mulhi3_call"
[(set (reg:HI 24) (match_operand:HI 1 "register_operand" ""))
(set (reg:HI 22) (match_operand:HI 2 "register_operand" ""))
(parallel [(set (reg:HI 24) (mult:HI (reg:HI 24) (reg:HI 22)))
(clobber (reg:HI 22))
(clobber (reg:QI 21))])
(set (match_operand:HI 0 "register_operand" "") (reg:HI 24))]
""
"")
(define_insn "*mulhi3_call"
[(set (reg:HI 24) (mult:HI (reg:HI 24) (reg:HI 22)))
(clobber (reg:HI 22))
(clobber (reg:QI 21))]
"!AVR_HAVE_MUL"
"%~call __mulhi3"
[(set_attr "type" "xcall")
(set_attr "cc" "clobber")])
;; To support widening multiplication with constant we postpone
;; expanding to the implicit library call until post combine and
;; prior to register allocation. Clobber all hard registers that
;; might be used by the (widening) multiply until it is split and
;; it's final register footprint is worked out.
(define_expand "mulsi3"
[(parallel [(set (match_operand:SI 0 "register_operand" "")
(mult:SI (match_operand:SI 1 "register_operand" "")
(match_operand:SI 2 "nonmemory_operand" "")))
(clobber (reg:HI 26))
(clobber (reg:DI 18))])]
"AVR_HAVE_MUL"
{
if (u16_operand (operands[2], SImode))
{
operands[2] = force_reg (HImode, gen_int_mode (INTVAL (operands[2]), HImode));
emit_insn (gen_muluhisi3 (operands[0], operands[2], operands[1]));
DONE;
}
if (o16_operand (operands[2], SImode))
{
operands[2] = force_reg (HImode, gen_int_mode (INTVAL (operands[2]), HImode));
emit_insn (gen_mulohisi3 (operands[0], operands[2], operands[1]));
DONE;
}
})
(define_insn_and_split "*mulsi3"
[(set (match_operand:SI 0 "pseudo_register_operand" "=r")
(mult:SI (match_operand:SI 1 "pseudo_register_operand" "r")
(match_operand:SI 2 "pseudo_register_or_const_int_operand" "rn")))
(clobber (reg:HI 26))
(clobber (reg:DI 18))]
"AVR_HAVE_MUL && !reload_completed"
{ gcc_unreachable(); }
"&& 1"
[(set (reg:SI 18)
(match_dup 1))
(set (reg:SI 22)
(match_dup 2))
(parallel [(set (reg:SI 22)
(mult:SI (reg:SI 22)
(reg:SI 18)))
(clobber (reg:HI 26))])
(set (match_dup 0)
(reg:SI 22))]
{
if (u16_operand (operands[2], SImode))
{
operands[2] = force_reg (HImode, gen_int_mode (INTVAL (operands[2]), HImode));
emit_insn (gen_muluhisi3 (operands[0], operands[2], operands[1]));
DONE;
}
if (o16_operand (operands[2], SImode))
{
operands[2] = force_reg (HImode, gen_int_mode (INTVAL (operands[2]), HImode));
emit_insn (gen_mulohisi3 (operands[0], operands[2], operands[1]));
DONE;
}
})
;; "muluqisi3"
;; "muluhisi3"
(define_insn_and_split "mulu<mode>si3"
[(set (match_operand:SI 0 "pseudo_register_operand" "=r")
(mult:SI (zero_extend:SI (match_operand:QIHI 1 "pseudo_register_operand" "r"))
(match_operand:SI 2 "pseudo_register_or_const_int_operand" "rn")))
(clobber (reg:HI 26))
(clobber (reg:DI 18))]
"AVR_HAVE_MUL && !reload_completed"
{ gcc_unreachable(); }
"&& 1"
[(set (reg:HI 26)
(match_dup 1))
(set (reg:SI 18)
(match_dup 2))
(set (reg:SI 22)
(mult:SI (zero_extend:SI (reg:HI 26))
(reg:SI 18)))
(set (match_dup 0)
(reg:SI 22))]
{
/* Do the QI -> HI extension explicitely before the multiplication. */
/* Do the HI -> SI extension implicitely and after the multiplication. */
if (QImode == <MODE>mode)
operands[1] = gen_rtx_ZERO_EXTEND (HImode, operands[1]);
if (u16_operand (operands[2], SImode))
{
operands[1] = force_reg (HImode, operands[1]);
operands[2] = force_reg (HImode, gen_int_mode (INTVAL (operands[2]), HImode));
emit_insn (gen_umulhisi3 (operands[0], operands[1], operands[2]));
DONE;
}
})
;; "mulsqisi3"
;; "mulshisi3"
(define_insn_and_split "muls<mode>si3"
[(set (match_operand:SI 0 "pseudo_register_operand" "=r")
(mult:SI (sign_extend:SI (match_operand:QIHI 1 "pseudo_register_operand" "r"))
(match_operand:SI 2 "pseudo_register_or_const_int_operand" "rn")))
(clobber (reg:HI 26))
(clobber (reg:DI 18))]
"AVR_HAVE_MUL && !reload_completed"
{ gcc_unreachable(); }
"&& 1"
[(set (reg:HI 26)
(match_dup 1))
(set (reg:SI 18)
(match_dup 2))
(set (reg:SI 22)
(mult:SI (sign_extend:SI (reg:HI 26))
(reg:SI 18)))
(set (match_dup 0)
(reg:SI 22))]
{
/* Do the QI -> HI extension explicitely before the multiplication. */
/* Do the HI -> SI extension implicitely and after the multiplication. */
if (QImode == <MODE>mode)
operands[1] = gen_rtx_SIGN_EXTEND (HImode, operands[1]);
if (u16_operand (operands[2], SImode)
|| s16_operand (operands[2], SImode))
{
rtx xop2 = force_reg (HImode, gen_int_mode (INTVAL (operands[2]), HImode));
operands[1] = force_reg (HImode, operands[1]);
if (u16_operand (operands[2], SImode))
emit_insn (gen_usmulhisi3 (operands[0], xop2, operands[1]));
else
emit_insn (gen_mulhisi3 (operands[0], operands[1], xop2));
DONE;
}
})
;; One-extend operand 1
(define_insn_and_split "mulohisi3"
[(set (match_operand:SI 0 "pseudo_register_operand" "=r")
(mult:SI (not:SI (zero_extend:SI
(not:HI (match_operand:HI 1 "pseudo_register_operand" "r"))))
(match_operand:SI 2 "pseudo_register_or_const_int_operand" "rn")))
(clobber (reg:HI 26))
(clobber (reg:DI 18))]
"AVR_HAVE_MUL && !reload_completed"
{ gcc_unreachable(); }
"&& 1"
[(set (reg:HI 26)
(match_dup 1))
(set (reg:SI 18)
(match_dup 2))
(set (reg:SI 22)
(mult:SI (not:SI (zero_extend:SI (not:HI (reg:HI 26))))
(reg:SI 18)))
(set (match_dup 0)
(reg:SI 22))]
"")
;; "mulhisi3"
;; "umulhisi3"
(define_expand "<extend_u>mulhisi3"
[(parallel [(set (match_operand:SI 0 "register_operand" "")
(mult:SI (any_extend:SI (match_operand:HI 1 "register_operand" ""))
(any_extend:SI (match_operand:HI 2 "register_operand" ""))))
(clobber (reg:HI 26))
(clobber (reg:DI 18))])]
"AVR_HAVE_MUL"
"")
(define_expand "usmulhisi3"
[(parallel [(set (match_operand:SI 0 "register_operand" "")
(mult:SI (zero_extend:SI (match_operand:HI 1 "register_operand" ""))
(sign_extend:SI (match_operand:HI 2 "register_operand" ""))))
(clobber (reg:HI 26))
(clobber (reg:DI 18))])]
"AVR_HAVE_MUL"
"")
;; "*uumulqihisi3" "*uumulhiqisi3" "*uumulhihisi3" "*uumulqiqisi3"
;; "*usmulqihisi3" "*usmulhiqisi3" "*usmulhihisi3" "*usmulqiqisi3"
;; "*sumulqihisi3" "*sumulhiqisi3" "*sumulhihisi3" "*sumulqiqisi3"
;; "*ssmulqihisi3" "*ssmulhiqisi3" "*ssmulhihisi3" "*ssmulqiqisi3"
(define_insn_and_split
"*<any_extend:extend_su><any_extend2:extend_su>mul<QIHI:mode><QIHI2:mode>si3"
[(set (match_operand:SI 0 "pseudo_register_operand" "=r")
(mult:SI (any_extend:SI (match_operand:QIHI 1 "pseudo_register_operand" "r"))
(any_extend2:SI (match_operand:QIHI2 2 "pseudo_register_operand" "r"))))
(clobber (reg:HI 26))
(clobber (reg:DI 18))]
"AVR_HAVE_MUL && !reload_completed"
{ gcc_unreachable(); }
"&& 1"
[(set (reg:HI 18)
(match_dup 1))
(set (reg:HI 26)
(match_dup 2))
(set (reg:SI 22)
(mult:SI (match_dup 3)
(match_dup 4)))
(set (match_dup 0)
(reg:SI 22))]
{
rtx xop1 = operands[1];
rtx xop2 = operands[2];
/* Do the QI -> HI extension explicitely before the multiplication. */
/* Do the HI -> SI extension implicitely and after the multiplication. */
if (QImode == <QIHI:MODE>mode)
xop1 = gen_rtx_fmt_e (<any_extend:CODE>, HImode, xop1);
if (QImode == <QIHI2:MODE>mode)
xop2 = gen_rtx_fmt_e (<any_extend2:CODE>, HImode, xop2);
if (<any_extend:CODE> == <any_extend2:CODE>
|| <any_extend:CODE> == ZERO_EXTEND)
{
operands[1] = xop1;
operands[2] = xop2;
operands[3] = gen_rtx_fmt_e (<any_extend:CODE>, SImode, gen_rtx_REG (HImode, 18));
operands[4] = gen_rtx_fmt_e (<any_extend2:CODE>, SImode, gen_rtx_REG (HImode, 26));
}
else
{
/* <any_extend:CODE> = SIGN_EXTEND */
/* <any_extend2:CODE> = ZERO_EXTEND */
operands[1] = xop2;
operands[2] = xop1;
operands[3] = gen_rtx_ZERO_EXTEND (SImode, gen_rtx_REG (HImode, 18));
operands[4] = gen_rtx_SIGN_EXTEND (SImode, gen_rtx_REG (HImode, 26));
}
})
;; "smulhi3_highpart"
;; "umulhi3_highpart"
(define_expand "<extend_su>mulhi3_highpart"
[(set (reg:HI 18)
(match_operand:HI 1 "nonmemory_operand" ""))
(set (reg:HI 26)
(match_operand:HI 2 "nonmemory_operand" ""))
(parallel [(set (reg:HI 24)
(truncate:HI (lshiftrt:SI (mult:SI (any_extend:SI (reg:HI 18))
(any_extend:SI (reg:HI 26)))
(const_int 16))))
(clobber (reg:HI 22))])
(set (match_operand:HI 0 "register_operand" "")
(reg:HI 24))]
"AVR_HAVE_MUL"
"")
(define_insn "*mulsi3_call"
[(set (reg:SI 22)
(mult:SI (reg:SI 22)
(reg:SI 18)))
(clobber (reg:HI 26))]
"AVR_HAVE_MUL"
"%~call __mulsi3"
[(set_attr "type" "xcall")
(set_attr "cc" "clobber")])
;; "*mulhisi3_call"
;; "*umulhisi3_call"
(define_insn "*<extend_u>mulhisi3_call"
[(set (reg:SI 22)
(mult:SI (any_extend:SI (reg:HI 18))
(any_extend:SI (reg:HI 26))))]
"AVR_HAVE_MUL"
"%~call __<extend_u>mulhisi3"
[(set_attr "type" "xcall")
(set_attr "cc" "clobber")])
;; "*umulhi3_highpart_call"
;; "*smulhi3_highpart_call"
(define_insn "*<extend_su>mulhi3_highpart_call"
[(set (reg:HI 24)
(truncate:HI (lshiftrt:SI (mult:SI (any_extend:SI (reg:HI 18))
(any_extend:SI (reg:HI 26)))
(const_int 16))))
(clobber (reg:HI 22))]
"AVR_HAVE_MUL"
"%~call __<extend_u>mulhisi3"
[(set_attr "type" "xcall")
(set_attr "cc" "clobber")])
(define_insn "*usmulhisi3_call"
[(set (reg:SI 22)
(mult:SI (zero_extend:SI (reg:HI 18))
(sign_extend:SI (reg:HI 26))))]
"AVR_HAVE_MUL"
"%~call __usmulhisi3"
[(set_attr "type" "xcall")
(set_attr "cc" "clobber")])
(define_insn "*mul<extend_su>hisi3_call"
[(set (reg:SI 22)
(mult:SI (any_extend:SI (reg:HI 26))
(reg:SI 18)))]
"AVR_HAVE_MUL"
"%~call __mul<extend_su>hisi3"
[(set_attr "type" "xcall")
(set_attr "cc" "clobber")])
(define_insn "*mulohisi3_call"
[(set (reg:SI 22)
(mult:SI (not:SI (zero_extend:SI (not:HI (reg:HI 26))))
(reg:SI 18)))]
"AVR_HAVE_MUL"
"%~call __mulohisi3"
[(set_attr "type" "xcall")
(set_attr "cc" "clobber")])
; / % / % / % / % / % / % / % / % / % / % / % / % / % / % / % / % / % / % / %
; divmod
;; Generate lib1funcs.S calls ourselves, because:
;; - we know exactly which registers are clobbered (for QI and HI
;; modes, some of the call-used registers are preserved)
;; - we get both the quotient and the remainder at no extra cost
;; - we split the patterns only after the first CSE passes because
;; CSE has problems to operate on hard regs.
;;
(define_insn_and_split "divmodqi4"
[(parallel [(set (match_operand:QI 0 "pseudo_register_operand" "")
(div:QI (match_operand:QI 1 "pseudo_register_operand" "")
(match_operand:QI 2 "pseudo_register_operand" "")))
(set (match_operand:QI 3 "pseudo_register_operand" "")
(mod:QI (match_dup 1) (match_dup 2)))
(clobber (reg:QI 22))
(clobber (reg:QI 23))
(clobber (reg:QI 24))
(clobber (reg:QI 25))])]
""
"this divmodqi4 pattern should have been splitted;"
""
[(set (reg:QI 24) (match_dup 1))
(set (reg:QI 22) (match_dup 2))
(parallel [(set (reg:QI 24) (div:QI (reg:QI 24) (reg:QI 22)))
(set (reg:QI 25) (mod:QI (reg:QI 24) (reg:QI 22)))
(clobber (reg:QI 22))
(clobber (reg:QI 23))])
(set (match_dup 0) (reg:QI 24))
(set (match_dup 3) (reg:QI 25))]
"")
(define_insn "*divmodqi4_call"
[(set (reg:QI 24) (div:QI (reg:QI 24) (reg:QI 22)))
(set (reg:QI 25) (mod:QI (reg:QI 24) (reg:QI 22)))
(clobber (reg:QI 22))
(clobber (reg:QI 23))]
""
"%~call __divmodqi4"
[(set_attr "type" "xcall")
(set_attr "cc" "clobber")])
(define_insn_and_split "udivmodqi4"
[(parallel [(set (match_operand:QI 0 "pseudo_register_operand" "")
(udiv:QI (match_operand:QI 1 "pseudo_register_operand" "")
(match_operand:QI 2 "pseudo_register_operand" "")))
(set (match_operand:QI 3 "pseudo_register_operand" "")
(umod:QI (match_dup 1) (match_dup 2)))
(clobber (reg:QI 22))
(clobber (reg:QI 23))
(clobber (reg:QI 24))
(clobber (reg:QI 25))])]
""
"this udivmodqi4 pattern should have been splitted;"
""
[(set (reg:QI 24) (match_dup 1))
(set (reg:QI 22) (match_dup 2))
(parallel [(set (reg:QI 24) (udiv:QI (reg:QI 24) (reg:QI 22)))
(set (reg:QI 25) (umod:QI (reg:QI 24) (reg:QI 22)))
(clobber (reg:QI 23))])
(set (match_dup 0) (reg:QI 24))
(set (match_dup 3) (reg:QI 25))]
"")
(define_insn "*udivmodqi4_call"
[(set (reg:QI 24) (udiv:QI (reg:QI 24) (reg:QI 22)))
(set (reg:QI 25) (umod:QI (reg:QI 24) (reg:QI 22)))
(clobber (reg:QI 23))]
""
"%~call __udivmodqi4"
[(set_attr "type" "xcall")
(set_attr "cc" "clobber")])
(define_insn_and_split "divmodhi4"
[(parallel [(set (match_operand:HI 0 "pseudo_register_operand" "")
(div:HI (match_operand:HI 1 "pseudo_register_operand" "")
(match_operand:HI 2 "pseudo_register_operand" "")))
(set (match_operand:HI 3 "pseudo_register_operand" "")
(mod:HI (match_dup 1) (match_dup 2)))
(clobber (reg:QI 21))
(clobber (reg:HI 22))
(clobber (reg:HI 24))
(clobber (reg:HI 26))])]
""
"this should have been splitted;"
""
[(set (reg:HI 24) (match_dup 1))
(set (reg:HI 22) (match_dup 2))
(parallel [(set (reg:HI 22) (div:HI (reg:HI 24) (reg:HI 22)))
(set (reg:HI 24) (mod:HI (reg:HI 24) (reg:HI 22)))
(clobber (reg:HI 26))
(clobber (reg:QI 21))])
(set (match_dup 0) (reg:HI 22))
(set (match_dup 3) (reg:HI 24))]
"")
(define_insn "*divmodhi4_call"
[(set (reg:HI 22) (div:HI (reg:HI 24) (reg:HI 22)))
(set (reg:HI 24) (mod:HI (reg:HI 24) (reg:HI 22)))
(clobber (reg:HI 26))
(clobber (reg:QI 21))]
""
"%~call __divmodhi4"
[(set_attr "type" "xcall")
(set_attr "cc" "clobber")])
(define_insn_and_split "udivmodhi4"
[(parallel [(set (match_operand:HI 0 "pseudo_register_operand" "")
(udiv:HI (match_operand:HI 1 "pseudo_register_operand" "")
(match_operand:HI 2 "pseudo_register_operand" "")))
(set (match_operand:HI 3 "pseudo_register_operand" "")
(umod:HI (match_dup 1) (match_dup 2)))
(clobber (reg:QI 21))
(clobber (reg:HI 22))
(clobber (reg:HI 24))
(clobber (reg:HI 26))])]
""
"this udivmodhi4 pattern should have been splitted.;"
""
[(set (reg:HI 24) (match_dup 1))
(set (reg:HI 22) (match_dup 2))
(parallel [(set (reg:HI 22) (udiv:HI (reg:HI 24) (reg:HI 22)))
(set (reg:HI 24) (umod:HI (reg:HI 24) (reg:HI 22)))
(clobber (reg:HI 26))
(clobber (reg:QI 21))])
(set (match_dup 0) (reg:HI 22))
(set (match_dup 3) (reg:HI 24))]
"")
(define_insn "*udivmodhi4_call"
[(set (reg:HI 22) (udiv:HI (reg:HI 24) (reg:HI 22)))
(set (reg:HI 24) (umod:HI (reg:HI 24) (reg:HI 22)))
(clobber (reg:HI 26))
(clobber (reg:QI 21))]
""
"%~call __udivmodhi4"
[(set_attr "type" "xcall")
(set_attr "cc" "clobber")])
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;; 24-bit multiply
;; To support widening multiplication with constant we postpone
;; expanding to the implicit library call until post combine and
;; prior to register allocation. Clobber all hard registers that
;; might be used by the (widening) multiply until it is split and
;; it's final register footprint is worked out.
(define_expand "mulpsi3"
[(parallel [(set (match_operand:PSI 0 "register_operand" "")
(mult:PSI (match_operand:PSI 1 "register_operand" "")
(match_operand:PSI 2 "nonmemory_operand" "")))
(clobber (reg:HI 26))
(clobber (reg:DI 18))])]
"AVR_HAVE_MUL"
{
if (s8_operand (operands[2], PSImode))
{
rtx reg = force_reg (QImode, gen_int_mode (INTVAL (operands[2]), QImode));
emit_insn (gen_mulsqipsi3 (operands[0], reg, operands[1]));
DONE;
}
})
(define_insn "*umulqihipsi3"
[(set (match_operand:PSI 0 "register_operand" "=&r")
(mult:PSI (zero_extend:PSI (match_operand:QI 1 "register_operand" "r"))
(zero_extend:PSI (match_operand:HI 2 "register_operand" "r"))))]
"AVR_HAVE_MUL"
"mul %1,%A2
movw %A0,r0
mul %1,%B2
clr %C0
add %B0,r0
adc %C0,r1
clr __zero_reg__"
[(set_attr "length" "7")
(set_attr "cc" "clobber")])
(define_insn "*umulhiqipsi3"
[(set (match_operand:PSI 0 "register_operand" "=&r")
(mult:PSI (zero_extend:PSI (match_operand:HI 2 "register_operand" "r"))
(zero_extend:PSI (match_operand:QI 1 "register_operand" "r"))))]
"AVR_HAVE_MUL"
"mul %1,%A2
movw %A0,r0
mul %1,%B2
add %B0,r0
mov %C0,r1
clr __zero_reg__
adc %C0,__zero_reg__"
[(set_attr "length" "7")
(set_attr "cc" "clobber")])
(define_insn_and_split "mulsqipsi3"
[(set (match_operand:PSI 0 "pseudo_register_operand" "=r")
(mult:PSI (sign_extend:PSI (match_operand:QI 1 "pseudo_register_operand" "r"))
(match_operand:PSI 2 "pseudo_register_or_const_int_operand" "rn")))
(clobber (reg:HI 26))
(clobber (reg:DI 18))]
"AVR_HAVE_MUL && !reload_completed"
{ gcc_unreachable(); }
"&& 1"
[(set (reg:QI 25)
(match_dup 1))
(set (reg:PSI 22)
(match_dup 2))
(set (reg:PSI 18)
(mult:PSI (sign_extend:PSI (reg:QI 25))
(reg:PSI 22)))
(set (match_dup 0)
(reg:PSI 18))])
(define_insn_and_split "*mulpsi3"
[(set (match_operand:PSI 0 "pseudo_register_operand" "=r")
(mult:PSI (match_operand:PSI 1 "pseudo_register_operand" "r")
(match_operand:PSI 2 "pseudo_register_or_const_int_operand" "rn")))
(clobber (reg:HI 26))
(clobber (reg:DI 18))]
"AVR_HAVE_MUL && !reload_completed"
{ gcc_unreachable(); }
"&& 1"
[(set (reg:PSI 18)
(match_dup 1))
(set (reg:PSI 22)
(match_dup 2))
(parallel [(set (reg:PSI 22)
(mult:PSI (reg:PSI 22)
(reg:PSI 18)))
(clobber (reg:QI 21))
(clobber (reg:QI 25))
(clobber (reg:HI 26))])
(set (match_dup 0)
(reg:PSI 22))]
{
if (s8_operand (operands[2], PSImode))
{
rtx reg = force_reg (QImode, gen_int_mode (INTVAL (operands[2]), QImode));
emit_insn (gen_mulsqipsi3 (operands[0], reg, operands[1]));
DONE;
}
})
(define_insn "*mulsqipsi3.libgcc"
[(set (reg:PSI 18)
(mult:PSI (sign_extend:PSI (reg:QI 25))
(reg:PSI 22)))]
"AVR_HAVE_MUL"
"%~call __mulsqipsi3"
[(set_attr "type" "xcall")
(set_attr "cc" "clobber")])
(define_insn "*mulpsi3.libgcc"
[(set (reg:PSI 22)
(mult:PSI (reg:PSI 22)
(reg:PSI 18)))
(clobber (reg:QI 21))
(clobber (reg:QI 25))
(clobber (reg:HI 26))]
"AVR_HAVE_MUL"
"%~call __mulpsi3"
[(set_attr "type" "xcall")
(set_attr "cc" "clobber")])
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;; 24-bit signed/unsigned division and modulo.
;; Notice that the libgcc implementation return the quotient in R22
;; and the remainder in R18 whereas the 32-bit [u]divmodsi4
;; implementation works the other way round.
(define_insn_and_split "divmodpsi4"
[(parallel [(set (match_operand:PSI 0 "pseudo_register_operand" "")
(div:PSI (match_operand:PSI 1 "pseudo_register_operand" "")
(match_operand:PSI 2 "pseudo_register_operand" "")))
(set (match_operand:PSI 3 "pseudo_register_operand" "")
(mod:PSI (match_dup 1)
(match_dup 2)))
(clobber (reg:DI 18))
(clobber (reg:QI 26))])]
""
{ gcc_unreachable(); }
""
[(set (reg:PSI 22) (match_dup 1))
(set (reg:PSI 18) (match_dup 2))
(parallel [(set (reg:PSI 22) (div:PSI (reg:PSI 22) (reg:PSI 18)))
(set (reg:PSI 18) (mod:PSI (reg:PSI 22) (reg:PSI 18)))
(clobber (reg:QI 21))
(clobber (reg:QI 25))
(clobber (reg:QI 26))])
(set (match_dup 0) (reg:PSI 22))
(set (match_dup 3) (reg:PSI 18))])
(define_insn "*divmodpsi4_call"
[(set (reg:PSI 22) (div:PSI (reg:PSI 22) (reg:PSI 18)))
(set (reg:PSI 18) (mod:PSI (reg:PSI 22) (reg:PSI 18)))
(clobber (reg:QI 21))
(clobber (reg:QI 25))
(clobber (reg:QI 26))]
""
"%~call __divmodpsi4"
[(set_attr "type" "xcall")
(set_attr "cc" "clobber")])
(define_insn_and_split "udivmodpsi4"
[(parallel [(set (match_operand:PSI 0 "pseudo_register_operand" "")
(udiv:PSI (match_operand:PSI 1 "pseudo_register_operand" "")
(match_operand:PSI 2 "pseudo_register_operand" "")))
(set (match_operand:PSI 3 "pseudo_register_operand" "")
(umod:PSI (match_dup 1)
(match_dup 2)))
(clobber (reg:DI 18))
(clobber (reg:QI 26))])]
""
{ gcc_unreachable(); }
""
[(set (reg:PSI 22) (match_dup 1))
(set (reg:PSI 18) (match_dup 2))
(parallel [(set (reg:PSI 22) (udiv:PSI (reg:PSI 22) (reg:PSI 18)))
(set (reg:PSI 18) (umod:PSI (reg:PSI 22) (reg:PSI 18)))
(clobber (reg:QI 21))
(clobber (reg:QI 25))
(clobber (reg:QI 26))])
(set (match_dup 0) (reg:PSI 22))
(set (match_dup 3) (reg:PSI 18))])
(define_insn "*udivmodpsi4_call"
[(set (reg:PSI 22) (udiv:PSI (reg:PSI 22) (reg:PSI 18)))
(set (reg:PSI 18) (umod:PSI (reg:PSI 22) (reg:PSI 18)))
(clobber (reg:QI 21))
(clobber (reg:QI 25))
(clobber (reg:QI 26))]
""
"%~call __udivmodpsi4"
[(set_attr "type" "xcall")
(set_attr "cc" "clobber")])
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
(define_insn_and_split "divmodsi4"
[(parallel [(set (match_operand:SI 0 "pseudo_register_operand" "")
(div:SI (match_operand:SI 1 "pseudo_register_operand" "")
(match_operand:SI 2 "pseudo_register_operand" "")))
(set (match_operand:SI 3 "pseudo_register_operand" "")
(mod:SI (match_dup 1) (match_dup 2)))
(clobber (reg:SI 18))
(clobber (reg:SI 22))
(clobber (reg:HI 26))
(clobber (reg:HI 30))])]
""
"this divmodsi4 pattern should have been splitted;"
""
[(set (reg:SI 22) (match_dup 1))
(set (reg:SI 18) (match_dup 2))
(parallel [(set (reg:SI 18) (div:SI (reg:SI 22) (reg:SI 18)))
(set (reg:SI 22) (mod:SI (reg:SI 22) (reg:SI 18)))
(clobber (reg:HI 26))
(clobber (reg:HI 30))])
(set (match_dup 0) (reg:SI 18))
(set (match_dup 3) (reg:SI 22))]
"")
(define_insn "*divmodsi4_call"
[(set (reg:SI 18) (div:SI (reg:SI 22) (reg:SI 18)))
(set (reg:SI 22) (mod:SI (reg:SI 22) (reg:SI 18)))
(clobber (reg:HI 26))
(clobber (reg:HI 30))]
""
"%~call __divmodsi4"
[(set_attr "type" "xcall")
(set_attr "cc" "clobber")])
(define_insn_and_split "udivmodsi4"
[(parallel [(set (match_operand:SI 0 "pseudo_register_operand" "")
(udiv:SI (match_operand:SI 1 "pseudo_register_operand" "")
(match_operand:SI 2 "pseudo_register_operand" "")))
(set (match_operand:SI 3 "pseudo_register_operand" "")
(umod:SI (match_dup 1) (match_dup 2)))
(clobber (reg:SI 18))
(clobber (reg:SI 22))
(clobber (reg:HI 26))
(clobber (reg:HI 30))])]
""
"this udivmodsi4 pattern should have been splitted;"
""
[(set (reg:SI 22) (match_dup 1))
(set (reg:SI 18) (match_dup 2))
(parallel [(set (reg:SI 18) (udiv:SI (reg:SI 22) (reg:SI 18)))
(set (reg:SI 22) (umod:SI (reg:SI 22) (reg:SI 18)))
(clobber (reg:HI 26))
(clobber (reg:HI 30))])
(set (match_dup 0) (reg:SI 18))
(set (match_dup 3) (reg:SI 22))]
"")
(define_insn "*udivmodsi4_call"
[(set (reg:SI 18) (udiv:SI (reg:SI 22) (reg:SI 18)))
(set (reg:SI 22) (umod:SI (reg:SI 22) (reg:SI 18)))
(clobber (reg:HI 26))
(clobber (reg:HI 30))]
""
"%~call __udivmodsi4"
[(set_attr "type" "xcall")
(set_attr "cc" "clobber")])
;&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&
; and
(define_insn "andqi3"
[(set (match_operand:QI 0 "register_operand" "=r,d")
(and:QI (match_operand:QI 1 "register_operand" "%0,0")
(match_operand:QI 2 "nonmemory_operand" "r,i")))]
""
"@
and %0,%2
andi %0,lo8(%2)"
[(set_attr "length" "1,1")
(set_attr "cc" "set_zn,set_zn")])
(define_insn "andhi3"
[(set (match_operand:HI 0 "register_operand" "=r,d,d,r ,r")
(and:HI (match_operand:HI 1 "register_operand" "%0,0,0,0 ,0")
(match_operand:HI 2 "nonmemory_operand" "r,s,n,Ca2,n")))
(clobber (match_scratch:QI 3 "=X,X,X,X ,&d"))]
""
{
if (which_alternative == 0)
return "and %A0,%A2\;and %B0,%B2";
else if (which_alternative == 1)
return "andi %A0,lo8(%2)\;andi %B0,hi8(%2)";
return avr_out_bitop (insn, operands, NULL);
}
[(set_attr "length" "2,2,2,4,4")
(set_attr "adjust_len" "*,*,out_bitop,out_bitop,out_bitop")
(set_attr "cc" "set_n,set_n,clobber,clobber,clobber")])
(define_insn "andpsi3"
[(set (match_operand:PSI 0 "register_operand" "=r,d,r ,r")
(and:PSI (match_operand:PSI 1 "register_operand" "%0,0,0 ,0")
(match_operand:PSI 2 "nonmemory_operand" "r,n,Ca3,n")))
(clobber (match_scratch:QI 3 "=X,X,X ,&d"))]
""
{
if (which_alternative == 0)
return "and %A0,%A2" CR_TAB
"and %B0,%B2" CR_TAB
"and %C0,%C2";
return avr_out_bitop (insn, operands, NULL);
}
[(set_attr "length" "3,3,6,6")
(set_attr "adjust_len" "*,out_bitop,out_bitop,out_bitop")
(set_attr "cc" "set_n,clobber,clobber,clobber")])
(define_insn "andsi3"
[(set (match_operand:SI 0 "register_operand" "=r,d,r ,r")
(and:SI (match_operand:SI 1 "register_operand" "%0,0,0 ,0")
(match_operand:SI 2 "nonmemory_operand" "r,n,Ca4,n")))
(clobber (match_scratch:QI 3 "=X,X,X ,&d"))]
""
{
if (which_alternative == 0)
return "and %0,%2" CR_TAB
"and %B0,%B2" CR_TAB
"and %C0,%C2" CR_TAB
"and %D0,%D2";
return avr_out_bitop (insn, operands, NULL);
}
[(set_attr "length" "4,4,8,8")
(set_attr "adjust_len" "*,out_bitop,out_bitop,out_bitop")
(set_attr "cc" "set_n,clobber,clobber,clobber")])
(define_peephole2 ; andi
[(set (match_operand:QI 0 "d_register_operand" "")
(and:QI (match_dup 0)
(match_operand:QI 1 "const_int_operand" "")))
(set (match_dup 0)
(and:QI (match_dup 0)
(match_operand:QI 2 "const_int_operand" "")))]
""
[(set (match_dup 0) (and:QI (match_dup 0) (match_dup 1)))]
{
operands[1] = GEN_INT (INTVAL (operands[1]) & INTVAL (operands[2]));
})
;;|||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
;; ior
(define_insn "iorqi3"
[(set (match_operand:QI 0 "register_operand" "=r,d")
(ior:QI (match_operand:QI 1 "register_operand" "%0,0")
(match_operand:QI 2 "nonmemory_operand" "r,i")))]
""
"@
or %0,%2
ori %0,lo8(%2)"
[(set_attr "length" "1,1")
(set_attr "cc" "set_zn,set_zn")])
(define_insn "iorhi3"
[(set (match_operand:HI 0 "register_operand" "=r,d,d,r ,r")
(ior:HI (match_operand:HI 1 "register_operand" "%0,0,0,0 ,0")
(match_operand:HI 2 "nonmemory_operand" "r,s,n,Co2,n")))
(clobber (match_scratch:QI 3 "=X,X,X,X ,&d"))]
""
{
if (which_alternative == 0)
return "or %A0,%A2\;or %B0,%B2";
else if (which_alternative == 1)
return "ori %A0,lo8(%2)\;ori %B0,hi8(%2)";
return avr_out_bitop (insn, operands, NULL);
}
[(set_attr "length" "2,2,2,4,4")
(set_attr "adjust_len" "*,*,out_bitop,out_bitop,out_bitop")
(set_attr "cc" "set_n,set_n,clobber,clobber,clobber")])
(define_insn "iorpsi3"
[(set (match_operand:PSI 0 "register_operand" "=r,d,r ,r")
(ior:PSI (match_operand:PSI 1 "register_operand" "%0,0,0 ,0")
(match_operand:PSI 2 "nonmemory_operand" "r,n,Co3,n")))
(clobber (match_scratch:QI 3 "=X,X,X ,&d"))]
""
{
if (which_alternative == 0)
return "or %A0,%A2" CR_TAB
"or %B0,%B2" CR_TAB
"or %C0,%C2";
return avr_out_bitop (insn, operands, NULL);
}
[(set_attr "length" "3,3,6,6")
(set_attr "adjust_len" "*,out_bitop,out_bitop,out_bitop")
(set_attr "cc" "set_n,clobber,clobber,clobber")])
(define_insn "iorsi3"
[(set (match_operand:SI 0 "register_operand" "=r,d,r ,r")
(ior:SI (match_operand:SI 1 "register_operand" "%0,0,0 ,0")
(match_operand:SI 2 "nonmemory_operand" "r,n,Co4,n")))
(clobber (match_scratch:QI 3 "=X,X,X ,&d"))]
""
{
if (which_alternative == 0)
return "or %0,%2" CR_TAB
"or %B0,%B2" CR_TAB
"or %C0,%C2" CR_TAB
"or %D0,%D2";
return avr_out_bitop (insn, operands, NULL);
}
[(set_attr "length" "4,4,8,8")
(set_attr "adjust_len" "*,out_bitop,out_bitop,out_bitop")
(set_attr "cc" "set_n,clobber,clobber,clobber")])
;;^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
;; xor
(define_insn "xorqi3"
[(set (match_operand:QI 0 "register_operand" "=r")
(xor:QI (match_operand:QI 1 "register_operand" "%0")
(match_operand:QI 2 "register_operand" "r")))]
""
"eor %0,%2"
[(set_attr "length" "1")
(set_attr "cc" "set_zn")])
(define_insn "xorhi3"
[(set (match_operand:HI 0 "register_operand" "=r,r ,r")
(xor:HI (match_operand:HI 1 "register_operand" "%0,0 ,0")
(match_operand:HI 2 "nonmemory_operand" "r,Cx2,n")))
(clobber (match_scratch:QI 3 "=X,X ,&d"))]
""
{
if (which_alternative == 0)
return "eor %A0,%A2\;eor %B0,%B2";
return avr_out_bitop (insn, operands, NULL);
}
[(set_attr "length" "2,2,4")
(set_attr "adjust_len" "*,out_bitop,out_bitop")
(set_attr "cc" "set_n,clobber,clobber")])
(define_insn "xorpsi3"
[(set (match_operand:PSI 0 "register_operand" "=r,r ,r")
(xor:PSI (match_operand:PSI 1 "register_operand" "%0,0 ,0")
(match_operand:PSI 2 "nonmemory_operand" "r,Cx3,n")))
(clobber (match_scratch:QI 3 "=X,X ,&d"))]
""
{
if (which_alternative == 0)
return "eor %A0,%A2" CR_TAB
"eor %B0,%B2" CR_TAB
"eor %C0,%C2";
return avr_out_bitop (insn, operands, NULL);
}
[(set_attr "length" "3,6,6")
(set_attr "adjust_len" "*,out_bitop,out_bitop")
(set_attr "cc" "set_n,clobber,clobber")])
(define_insn "xorsi3"
[(set (match_operand:SI 0 "register_operand" "=r,r ,r")
(xor:SI (match_operand:SI 1 "register_operand" "%0,0 ,0")
(match_operand:SI 2 "nonmemory_operand" "r,Cx4,n")))
(clobber (match_scratch:QI 3 "=X,X ,&d"))]
""
{
if (which_alternative == 0)
return "eor %0,%2" CR_TAB
"eor %B0,%B2" CR_TAB
"eor %C0,%C2" CR_TAB
"eor %D0,%D2";
return avr_out_bitop (insn, operands, NULL);
}
[(set_attr "length" "4,8,8")
(set_attr "adjust_len" "*,out_bitop,out_bitop")
(set_attr "cc" "set_n,clobber,clobber")])
;; swap swap swap swap swap swap swap swap swap swap swap swap swap swap swap
;; swap
(define_expand "rotlqi3"
[(set (match_operand:QI 0 "register_operand" "")
(rotate:QI (match_operand:QI 1 "register_operand" "")
(match_operand:QI 2 "const_0_to_7_operand" "")))]
""
{
if (!CONST_INT_P (operands[2]))
FAIL;
operands[2] = gen_int_mode (INTVAL (operands[2]) & 7, QImode);
})
;; Expander used by __builtin_avr_swap
(define_expand "rotlqi3_4"
[(set (match_operand:QI 0 "register_operand" "")
(rotate:QI (match_operand:QI 1 "register_operand" "")
(const_int 4)))])
(define_insn "*rotlqi3"
[(set (match_operand:QI 0 "register_operand" "=r,r,r ,r ,r ,r ,r ,r")
(rotate:QI (match_operand:QI 1 "register_operand" "0,0,0 ,0 ,0 ,0 ,0 ,0")
(match_operand:QI 2 "const_0_to_7_operand" "P,K,C03,C04,C05,C06,C07,L")))]
""
"@
lsl %0\;adc %0,__zero_reg__
lsl %0\;adc %0,__zero_reg__\;lsl %0\;adc %0,__zero_reg__
swap %0\;bst %0,0\;ror %0\;bld %0,7
swap %0
swap %0\;lsl %0\;adc %0,__zero_reg__
swap %0\;lsl %0\;adc %0,__zero_reg__\;lsl %0\;adc %0,__zero_reg__
bst %0,0\;ror %0\;bld %0,7
"
[(set_attr "length" "2,4,4,1,3,5,3,0")
(set_attr "cc" "set_n,set_n,clobber,none,set_n,set_n,clobber,none")])
;; Split all rotates of HI,SI and PSImode registers where rotation is by
;; a whole number of bytes. The split creates the appropriate moves and
;; considers all overlap situations.
;; HImode does not need scratch. Use attribute for this constraint.
(define_mode_attr rotx [(SI "&r,&r,X") (PSI "&r,&r,X") (HI "X,X,X")])
(define_mode_attr rotsmode [(SI "HI") (PSI "QI") (HI "QI")])
;; "rotlhi3"
;; "rotlpsi3"
;; "rotlsi3"
(define_expand "rotl<mode>3"
[(parallel [(set (match_operand:HISI 0 "register_operand" "")
(rotate:HISI (match_operand:HISI 1 "register_operand" "")
(match_operand:VOID 2 "const_int_operand" "")))
(clobber (match_dup 3))])]
""
{
int offset;
if (!CONST_INT_P (operands[2]))
FAIL;
offset = INTVAL (operands[2]);
if (0 == offset % 8)
{
if (AVR_HAVE_MOVW && 0 == offset % 16)
operands[3] = gen_rtx_SCRATCH (<rotsmode>mode);
else
operands[3] = gen_rtx_SCRATCH (QImode);
}
else if (offset == 1
|| offset == GET_MODE_BITSIZE (<MODE>mode) -1)
{
/*; Support rotate left/right by 1 */
emit_move_insn (operands[0],
gen_rtx_ROTATE (<MODE>mode, operands[1], operands[2]));
DONE;
}
else
FAIL;
})
(define_insn "*rotlhi2.1"
[(set (match_operand:HI 0 "register_operand" "=r")
(rotate:HI (match_operand:HI 1 "register_operand" "0")
(const_int 1)))]
""
"lsl %A0\;rol %B0\;adc %A0,__zero_reg__"
[(set_attr "length" "3")
(set_attr "cc" "clobber")])
(define_insn "*rotlhi2.15"
[(set (match_operand:HI 0 "register_operand" "=r")
(rotate:HI (match_operand:HI 1 "register_operand" "0")
(const_int 15)))]
""
"bst %A0,0\;ror %B0\;ror %A0\;bld %B0,7"
[(set_attr "length" "4")
(set_attr "cc" "clobber")])
(define_insn "*rotlpsi2.1"
[(set (match_operand:PSI 0 "register_operand" "=r")
(rotate:PSI (match_operand:PSI 1 "register_operand" "0")
(const_int 1)))]
""
"lsl %A0\;rol %B0\;rol %C0\;adc %A0,__zero_reg__"
[(set_attr "length" "4")
(set_attr "cc" "clobber")])
(define_insn "*rotlpsi2.23"
[(set (match_operand:PSI 0 "register_operand" "=r")
(rotate:PSI (match_operand:PSI 1 "register_operand" "0")
(const_int 23)))]
""
"bst %A0,0\;ror %C0\;ror %B0\;ror %A0\;bld %C0,7"
[(set_attr "length" "5")
(set_attr "cc" "clobber")])
(define_insn "*rotlsi2.1"
[(set (match_operand:SI 0 "register_operand" "=r")
(rotate:SI (match_operand:SI 1 "register_operand" "0")
(const_int 1)))]
""
"lsl %A0\;rol %B0\;rol %C0\;rol %D0\;adc %A0,__zero_reg__"
[(set_attr "length" "5")
(set_attr "cc" "clobber")])
(define_insn "*rotlsi2.31"
[(set (match_operand:SI 0 "register_operand" "=r")
(rotate:SI (match_operand:SI 1 "register_operand" "0")
(const_int 31)))]
""
"bst %A0,0\;ror %D0\;ror %C0\;ror %B0\;ror %A0\;bld %D0,7"
[(set_attr "length" "6")
(set_attr "cc" "clobber")])
;; Overlapping non-HImode registers often (but not always) need a scratch.
;; The best we can do is use early clobber alternative "#&r" so that
;; completely non-overlapping operands dont get a scratch but # so register
;; allocation does not prefer non-overlapping.
;; Split word aligned rotates using scratch that is mode dependent.
;; "*rotwhi"
;; "*rotwsi"
(define_insn_and_split "*rotw<mode>"
[(set (match_operand:HISI 0 "register_operand" "=r,r,#&r")
(rotate:HISI (match_operand:HISI 1 "register_operand" "0,r,r")
(match_operand 2 "const_int_operand" "n,n,n")))
(clobber (match_scratch:<rotsmode> 3 "=<rotx>"))]
"AVR_HAVE_MOVW
&& CONST_INT_P (operands[2])
&& GET_MODE_SIZE (<MODE>mode) % 2 == 0
&& 0 == INTVAL (operands[2]) % 16"
"#"
"&& reload_completed"
[(const_int 0)]
{
avr_rotate_bytes (operands);
DONE;
})
;; Split byte aligned rotates using scratch that is always QI mode.
;; "*rotbhi"
;; "*rotbpsi"
;; "*rotbsi"
(define_insn_and_split "*rotb<mode>"
[(set (match_operand:HISI 0 "register_operand" "=r,r,#&r")
(rotate:HISI (match_operand:HISI 1 "register_operand" "0,r,r")
(match_operand 2 "const_int_operand" "n,n,n")))
(clobber (match_scratch:QI 3 "=<rotx>"))]
"CONST_INT_P (operands[2])
&& (8 == INTVAL (operands[2]) % 16
|| ((!AVR_HAVE_MOVW
|| GET_MODE_SIZE (<MODE>mode) % 2 != 0)
&& 0 == INTVAL (operands[2]) % 16))"
"#"
"&& reload_completed"
[(const_int 0)]
{
avr_rotate_bytes (operands);
DONE;
})
;;<< << << << << << << << << << << << << << << << << << << << << << << << << <<
;; arithmetic shift left
(define_expand "ashlqi3"
[(set (match_operand:QI 0 "register_operand" "")
(ashift:QI (match_operand:QI 1 "register_operand" "")
(match_operand:QI 2 "nop_general_operand" "")))])
(define_split ; ashlqi3_const4
[(set (match_operand:QI 0 "d_register_operand" "")
(ashift:QI (match_dup 0)
(const_int 4)))]
""
[(set (match_dup 0) (rotate:QI (match_dup 0) (const_int 4)))
(set (match_dup 0) (and:QI (match_dup 0) (const_int -16)))]
"")
(define_split ; ashlqi3_const5
[(set (match_operand:QI 0 "d_register_operand" "")
(ashift:QI (match_dup 0)
(const_int 5)))]
""
[(set (match_dup 0) (rotate:QI (match_dup 0) (const_int 4)))
(set (match_dup 0) (ashift:QI (match_dup 0) (const_int 1)))
(set (match_dup 0) (and:QI (match_dup 0) (const_int -32)))]
"")
(define_split ; ashlqi3_const6
[(set (match_operand:QI 0 "d_register_operand" "")
(ashift:QI (match_dup 0)
(const_int 6)))]
""
[(set (match_dup 0) (rotate:QI (match_dup 0) (const_int 4)))
(set (match_dup 0) (ashift:QI (match_dup 0) (const_int 2)))
(set (match_dup 0) (and:QI (match_dup 0) (const_int -64)))]
"")
(define_insn "*ashlqi3"
[(set (match_operand:QI 0 "register_operand" "=r,r,r,r,!d,r,r")
(ashift:QI (match_operand:QI 1 "register_operand" "0,0,0,0,0 ,0,0")
(match_operand:QI 2 "nop_general_operand" "r,L,P,K,n ,n,Qm")))]
""
{
return ashlqi3_out (insn, operands, NULL);
}
[(set_attr "length" "5,0,1,2,4,6,9")
(set_attr "adjust_len" "ashlqi")
(set_attr "cc" "clobber,none,set_czn,set_czn,set_czn,set_czn,clobber")])
(define_insn "ashlhi3"
[(set (match_operand:HI 0 "register_operand" "=r,r,r,r,r,r,r")
(ashift:HI (match_operand:HI 1 "register_operand" "0,0,0,r,0,0,0")
(match_operand:QI 2 "nop_general_operand" "r,L,P,O,K,n,Qm")))]
""
{
return ashlhi3_out (insn, operands, NULL);
}
[(set_attr "length" "6,0,2,2,4,10,10")
(set_attr "adjust_len" "ashlhi")
(set_attr "cc" "clobber,none,set_n,clobber,set_n,clobber,clobber")])
;; Insns like the following are generated when (implicitly) extending 8-bit shifts
;; like char1 = char2 << char3. Only the low-byte is needed in that situation.
;; "*ashluqihiqi3"
;; "*ashlsqihiqi3"
(define_insn_and_split "*ashl<extend_su>qihiqi3"
[(set (match_operand:QI 0 "register_operand" "=r")
(subreg:QI (ashift:HI (any_extend:HI (match_operand:QI 1 "register_operand" "0"))
(match_operand:QI 2 "register_operand" "r"))
0))]
""
"#"
""
[(set (match_dup 0)
(ashift:QI (match_dup 1)
(match_dup 2)))]
"")
;; ??? Combiner does not recognize that it could split the following insn;
;; presumably because he has no register handy?
;; "*ashluqihiqi3.mem"
;; "*ashlsqihiqi3.mem"
(define_insn_and_split "*ashl<extend_su>qihiqi3.mem"
[(set (match_operand:QI 0 "memory_operand" "=m")
(subreg:QI (ashift:HI (any_extend:HI (match_operand:QI 1 "register_operand" "r"))
(match_operand:QI 2 "register_operand" "r"))
0))]
"!reload_completed"
{ gcc_unreachable(); }
"&& 1"
[(set (match_dup 3)
(ashift:QI (match_dup 1)
(match_dup 2)))
(set (match_dup 0)
(match_dup 3))]
{
operands[3] = gen_reg_rtx (QImode);
})
;; Similar.
(define_insn_and_split "*ashlhiqi3"
[(set (match_operand:QI 0 "nonimmediate_operand" "=r")
(subreg:QI (ashift:HI (match_operand:HI 1 "register_operand" "0")
(match_operand:QI 2 "register_operand" "r")) 0))]
"!reload_completed"
{ gcc_unreachable(); }
"&& 1"
[(set (match_dup 4)
(ashift:QI (match_dup 3)
(match_dup 2)))
(set (match_dup 0)
(match_dup 4))]
{
operands[3] = simplify_gen_subreg (QImode, operands[1], HImode, 0);
operands[4] = gen_reg_rtx (QImode);
})
;; High part of 16-bit shift is unused after the instruction:
;; No need to compute it, map to 8-bit shift.
(define_peephole2
[(set (match_operand:HI 0 "register_operand" "")
(ashift:HI (match_dup 0)
(match_operand:QI 1 "register_operand" "")))]
""
[(set (match_dup 2)
(ashift:QI (match_dup 2)
(match_dup 1)))
(clobber (match_dup 3))]
{
operands[3] = simplify_gen_subreg (QImode, operands[0], HImode, 1);
if (!peep2_reg_dead_p (1, operands[3]))
FAIL;
operands[2] = simplify_gen_subreg (QImode, operands[0], HImode, 0);
})
(define_insn "ashlsi3"
[(set (match_operand:SI 0 "register_operand" "=r,r,r,r,r,r,r")
(ashift:SI (match_operand:SI 1 "register_operand" "0,0,0,r,0,0,0")
(match_operand:QI 2 "nop_general_operand" "r,L,P,O,K,n,Qm")))]
""
{
return ashlsi3_out (insn, operands, NULL);
}
[(set_attr "length" "8,0,4,4,8,10,12")
(set_attr "adjust_len" "ashlsi")
(set_attr "cc" "clobber,none,set_n,clobber,set_n,clobber,clobber")])
;; Optimize if a scratch register from LD_REGS happens to be available.
(define_peephole2 ; ashlqi3_l_const4
[(set (match_operand:QI 0 "l_register_operand" "")
(ashift:QI (match_dup 0)
(const_int 4)))
(match_scratch:QI 1 "d")]
""
[(set (match_dup 0) (rotate:QI (match_dup 0) (const_int 4)))
(set (match_dup 1) (const_int -16))
(set (match_dup 0) (and:QI (match_dup 0) (match_dup 1)))]
"")
(define_peephole2 ; ashlqi3_l_const5
[(set (match_operand:QI 0 "l_register_operand" "")
(ashift:QI (match_dup 0)
(const_int 5)))
(match_scratch:QI 1 "d")]
""
[(set (match_dup 0) (rotate:QI (match_dup 0) (const_int 4)))
(set (match_dup 0) (ashift:QI (match_dup 0) (const_int 1)))
(set (match_dup 1) (const_int -32))
(set (match_dup 0) (and:QI (match_dup 0) (match_dup 1)))]
"")
(define_peephole2 ; ashlqi3_l_const6
[(set (match_operand:QI 0 "l_register_operand" "")
(ashift:QI (match_dup 0)
(const_int 6)))
(match_scratch:QI 1 "d")]
""
[(set (match_dup 0) (rotate:QI (match_dup 0) (const_int 4)))
(set (match_dup 0) (ashift:QI (match_dup 0) (const_int 2)))
(set (match_dup 1) (const_int -64))
(set (match_dup 0) (and:QI (match_dup 0) (match_dup 1)))]
"")
(define_peephole2
[(match_scratch:QI 3 "d")
(set (match_operand:HI 0 "register_operand" "")
(ashift:HI (match_operand:HI 1 "register_operand" "")
(match_operand:QI 2 "const_int_operand" "")))]
""
[(parallel [(set (match_dup 0) (ashift:HI (match_dup 1) (match_dup 2)))
(clobber (match_dup 3))])]
"")
(define_insn "*ashlhi3_const"
[(set (match_operand:HI 0 "register_operand" "=r,r,r,r,r")
(ashift:HI (match_operand:HI 1 "register_operand" "0,0,r,0,0")
(match_operand:QI 2 "const_int_operand" "L,P,O,K,n")))
(clobber (match_scratch:QI 3 "=X,X,X,X,&d"))]
"reload_completed"
{
return ashlhi3_out (insn, operands, NULL);
}
[(set_attr "length" "0,2,2,4,10")
(set_attr "adjust_len" "ashlhi")
(set_attr "cc" "none,set_n,clobber,set_n,clobber")])
(define_peephole2
[(match_scratch:QI 3 "d")
(set (match_operand:SI 0 "register_operand" "")
(ashift:SI (match_operand:SI 1 "register_operand" "")
(match_operand:QI 2 "const_int_operand" "")))]
""
[(parallel [(set (match_dup 0) (ashift:SI (match_dup 1) (match_dup 2)))
(clobber (match_dup 3))])]
"")
(define_insn "*ashlsi3_const"
[(set (match_operand:SI 0 "register_operand" "=r,r,r,r")
(ashift:SI (match_operand:SI 1 "register_operand" "0,0,r,0")
(match_operand:QI 2 "const_int_operand" "L,P,O,n")))
(clobber (match_scratch:QI 3 "=X,X,X,&d"))]
"reload_completed"
{
return ashlsi3_out (insn, operands, NULL);
}
[(set_attr "length" "0,4,4,10")
(set_attr "adjust_len" "ashlsi")
(set_attr "cc" "none,set_n,clobber,clobber")])
(define_expand "ashlpsi3"
[(parallel [(set (match_operand:PSI 0 "register_operand" "")
(ashift:PSI (match_operand:PSI 1 "register_operand" "")
(match_operand:QI 2 "nonmemory_operand" "")))
(clobber (scratch:QI))])]
""
{
if (AVR_HAVE_MUL
&& CONST_INT_P (operands[2]))
{
if (IN_RANGE (INTVAL (operands[2]), 3, 6))
{
rtx xoffset = force_reg (QImode, gen_int_mode (1 << INTVAL (operands[2]), QImode));
emit_insn (gen_mulsqipsi3 (operands[0], xoffset, operands[1]));
DONE;
}
else if (optimize_insn_for_speed_p ()
&& INTVAL (operands[2]) != 16
&& IN_RANGE (INTVAL (operands[2]), 9, 22))
{
rtx xoffset = force_reg (PSImode, gen_int_mode (1 << INTVAL (operands[2]), PSImode));
emit_insn (gen_mulpsi3 (operands[0], operands[1], xoffset));
DONE;
}
}
})
(define_insn "*ashlpsi3"
[(set (match_operand:PSI 0 "register_operand" "=r,r,r,r")
(ashift:PSI (match_operand:PSI 1 "register_operand" "0,0,r,0")
(match_operand:QI 2 "nonmemory_operand" "r,P,O,n")))
(clobber (match_scratch:QI 3 "=X,X,X,&d"))]
""
{
return avr_out_ashlpsi3 (insn, operands, NULL);
}
[(set_attr "adjust_len" "ashlpsi")
(set_attr "cc" "clobber")])
;; >> >> >> >> >> >> >> >> >> >> >> >> >> >> >> >> >> >> >> >> >> >> >> >> >>
;; arithmetic shift right
(define_insn "ashrqi3"
[(set (match_operand:QI 0 "register_operand" "=r,r,r,r,r ,r ,r")
(ashiftrt:QI (match_operand:QI 1 "register_operand" "0,0,0,0,0 ,0 ,0")
(match_operand:QI 2 "nop_general_operand" "r,L,P,K,C03 C04 C05,C06 C07,Qm")))]
""
{
return ashrqi3_out (insn, operands, NULL);
}
[(set_attr "length" "5,0,1,2,5,4,9")
(set_attr "adjust_len" "ashrqi")
(set_attr "cc" "clobber,none,set_czn,set_czn,set_czn,clobber,clobber")])
(define_insn "ashrhi3"
[(set (match_operand:HI 0 "register_operand" "=r,r,r,r,r,r,r")
(ashiftrt:HI (match_operand:HI 1 "register_operand" "0,0,0,r,0,0,0")
(match_operand:QI 2 "nop_general_operand" "r,L,P,O,K,n,Qm")))]
""
{
return ashrhi3_out (insn, operands, NULL);
}
[(set_attr "length" "6,0,2,4,4,10,10")
(set_attr "adjust_len" "ashrhi")
(set_attr "cc" "clobber,none,clobber,set_n,clobber,clobber,clobber")])
(define_insn "ashrpsi3"
[(set (match_operand:PSI 0 "register_operand" "=r,r,r,r,r")
(ashiftrt:PSI (match_operand:PSI 1 "register_operand" "0,0,0,r,0")
(match_operand:QI 2 "nonmemory_operand" "r,P,K,O,n")))
(clobber (match_scratch:QI 3 "=X,X,X,X,&d"))]
""
{
return avr_out_ashrpsi3 (insn, operands, NULL);
}
[(set_attr "adjust_len" "ashrpsi")
(set_attr "cc" "clobber")])
(define_insn "ashrsi3"
[(set (match_operand:SI 0 "register_operand" "=r,r,r,r,r,r,r")
(ashiftrt:SI (match_operand:SI 1 "register_operand" "0,0,0,r,0,0,0")
(match_operand:QI 2 "nop_general_operand" "r,L,P,O,K,n,Qm")))]
""
{
return ashrsi3_out (insn, operands, NULL);
}
[(set_attr "length" "8,0,4,6,8,10,12")
(set_attr "adjust_len" "ashrsi")
(set_attr "cc" "clobber,none,clobber,set_n,clobber,clobber,clobber")])
;; Optimize if a scratch register from LD_REGS happens to be available.
(define_peephole2
[(match_scratch:QI 3 "d")
(set (match_operand:HI 0 "register_operand" "")
(ashiftrt:HI (match_operand:HI 1 "register_operand" "")
(match_operand:QI 2 "const_int_operand" "")))]
""
[(parallel [(set (match_dup 0) (ashiftrt:HI (match_dup 1) (match_dup 2)))
(clobber (match_dup 3))])]
"")
(define_insn "*ashrhi3_const"
[(set (match_operand:HI 0 "register_operand" "=r,r,r,r,r")
(ashiftrt:HI (match_operand:HI 1 "register_operand" "0,0,r,0,0")
(match_operand:QI 2 "const_int_operand" "L,P,O,K,n")))
(clobber (match_scratch:QI 3 "=X,X,X,X,&d"))]
"reload_completed"
{
return ashrhi3_out (insn, operands, NULL);
}
[(set_attr "length" "0,2,4,4,10")
(set_attr "adjust_len" "ashrhi")
(set_attr "cc" "none,clobber,set_n,clobber,clobber")])
(define_peephole2
[(match_scratch:QI 3 "d")
(set (match_operand:SI 0 "register_operand" "")
(ashiftrt:SI (match_operand:SI 1 "register_operand" "")
(match_operand:QI 2 "const_int_operand" "")))]
""
[(parallel [(set (match_dup 0) (ashiftrt:SI (match_dup 1) (match_dup 2)))
(clobber (match_dup 3))])]
"")
(define_insn "*ashrsi3_const"
[(set (match_operand:SI 0 "register_operand" "=r,r,r,r")
(ashiftrt:SI (match_operand:SI 1 "register_operand" "0,0,r,0")
(match_operand:QI 2 "const_int_operand" "L,P,O,n")))
(clobber (match_scratch:QI 3 "=X,X,X,&d"))]
"reload_completed"
{
return ashrsi3_out (insn, operands, NULL);
}
[(set_attr "length" "0,4,4,10")
(set_attr "adjust_len" "ashrsi")
(set_attr "cc" "none,clobber,set_n,clobber")])
;; >> >> >> >> >> >> >> >> >> >> >> >> >> >> >> >> >> >> >> >> >> >> >> >> >>
;; logical shift right
(define_expand "lshrqi3"
[(set (match_operand:QI 0 "register_operand" "")
(lshiftrt:QI (match_operand:QI 1 "register_operand" "")
(match_operand:QI 2 "nop_general_operand" "")))])
(define_split ; lshrqi3_const4
[(set (match_operand:QI 0 "d_register_operand" "")
(lshiftrt:QI (match_dup 0)
(const_int 4)))]
""
[(set (match_dup 0) (rotate:QI (match_dup 0) (const_int 4)))
(set (match_dup 0) (and:QI (match_dup 0) (const_int 15)))]
"")
(define_split ; lshrqi3_const5
[(set (match_operand:QI 0 "d_register_operand" "")
(lshiftrt:QI (match_dup 0)
(const_int 5)))]
""
[(set (match_dup 0) (rotate:QI (match_dup 0) (const_int 4)))
(set (match_dup 0) (lshiftrt:QI (match_dup 0) (const_int 1)))
(set (match_dup 0) (and:QI (match_dup 0) (const_int 7)))]
"")
(define_split ; lshrqi3_const6
[(set (match_operand:QI 0 "d_register_operand" "")
(lshiftrt:QI (match_dup 0)
(const_int 6)))]
""
[(set (match_dup 0) (rotate:QI (match_dup 0) (const_int 4)))
(set (match_dup 0) (lshiftrt:QI (match_dup 0) (const_int 2)))
(set (match_dup 0) (and:QI (match_dup 0) (const_int 3)))]
"")
(define_insn "*lshrqi3"
[(set (match_operand:QI 0 "register_operand" "=r,r,r,r,!d,r,r")
(lshiftrt:QI (match_operand:QI 1 "register_operand" "0,0,0,0,0 ,0,0")
(match_operand:QI 2 "nop_general_operand" "r,L,P,K,n ,n,Qm")))]
""
{
return lshrqi3_out (insn, operands, NULL);
}
[(set_attr "length" "5,0,1,2,4,6,9")
(set_attr "adjust_len" "lshrqi")
(set_attr "cc" "clobber,none,set_czn,set_czn,set_czn,set_czn,clobber")])
(define_insn "lshrhi3"
[(set (match_operand:HI 0 "register_operand" "=r,r,r,r,r,r,r")
(lshiftrt:HI (match_operand:HI 1 "register_operand" "0,0,0,r,0,0,0")
(match_operand:QI 2 "nop_general_operand" "r,L,P,O,K,n,Qm")))]
""
{
return lshrhi3_out (insn, operands, NULL);
}
[(set_attr "length" "6,0,2,2,4,10,10")
(set_attr "adjust_len" "lshrhi")
(set_attr "cc" "clobber,none,clobber,clobber,clobber,clobber,clobber")])
(define_insn "lshrpsi3"
[(set (match_operand:PSI 0 "register_operand" "=r,r,r,r,r")
(lshiftrt:PSI (match_operand:PSI 1 "register_operand" "0,0,r,0,0")
(match_operand:QI 2 "nonmemory_operand" "r,P,O,K,n")))
(clobber (match_scratch:QI 3 "=X,X,X,X,&d"))]
""
{
return avr_out_lshrpsi3 (insn, operands, NULL);
}
[(set_attr "adjust_len" "lshrpsi")
(set_attr "cc" "clobber")])
(define_insn "lshrsi3"
[(set (match_operand:SI 0 "register_operand" "=r,r,r,r,r,r,r")
(lshiftrt:SI (match_operand:SI 1 "register_operand" "0,0,0,r,0,0,0")
(match_operand:QI 2 "nop_general_operand" "r,L,P,O,K,n,Qm")))]
""
{
return lshrsi3_out (insn, operands, NULL);
}
[(set_attr "length" "8,0,4,4,8,10,12")
(set_attr "adjust_len" "lshrsi")
(set_attr "cc" "clobber,none,clobber,clobber,clobber,clobber,clobber")])
;; Optimize if a scratch register from LD_REGS happens to be available.
(define_peephole2 ; lshrqi3_l_const4
[(set (match_operand:QI 0 "l_register_operand" "")
(lshiftrt:QI (match_dup 0)
(const_int 4)))
(match_scratch:QI 1 "d")]
""
[(set (match_dup 0) (rotate:QI (match_dup 0) (const_int 4)))
(set (match_dup 1) (const_int 15))
(set (match_dup 0) (and:QI (match_dup 0) (match_dup 1)))]
"")
(define_peephole2 ; lshrqi3_l_const5
[(set (match_operand:QI 0 "l_register_operand" "")
(lshiftrt:QI (match_dup 0)
(const_int 5)))
(match_scratch:QI 1 "d")]
""
[(set (match_dup 0) (rotate:QI (match_dup 0) (const_int 4)))
(set (match_dup 0) (lshiftrt:QI (match_dup 0) (const_int 1)))
(set (match_dup 1) (const_int 7))
(set (match_dup 0) (and:QI (match_dup 0) (match_dup 1)))]
"")
(define_peephole2 ; lshrqi3_l_const6
[(set (match_operand:QI 0 "l_register_operand" "")
(lshiftrt:QI (match_dup 0)
(const_int 6)))
(match_scratch:QI 1 "d")]
""
[(set (match_dup 0) (rotate:QI (match_dup 0) (const_int 4)))
(set (match_dup 0) (lshiftrt:QI (match_dup 0) (const_int 2)))
(set (match_dup 1) (const_int 3))
(set (match_dup 0) (and:QI (match_dup 0) (match_dup 1)))]
"")
(define_peephole2
[(match_scratch:QI 3 "d")
(set (match_operand:HI 0 "register_operand" "")
(lshiftrt:HI (match_operand:HI 1 "register_operand" "")
(match_operand:QI 2 "const_int_operand" "")))]
""
[(parallel [(set (match_dup 0) (lshiftrt:HI (match_dup 1) (match_dup 2)))
(clobber (match_dup 3))])]
"")
(define_insn "*lshrhi3_const"
[(set (match_operand:HI 0 "register_operand" "=r,r,r,r,r")
(lshiftrt:HI (match_operand:HI 1 "register_operand" "0,0,r,0,0")
(match_operand:QI 2 "const_int_operand" "L,P,O,K,n")))
(clobber (match_scratch:QI 3 "=X,X,X,X,&d"))]
"reload_completed"
{
return lshrhi3_out (insn, operands, NULL);
}
[(set_attr "length" "0,2,2,4,10")
(set_attr "adjust_len" "lshrhi")
(set_attr "cc" "none,clobber,clobber,clobber,clobber")])
(define_peephole2
[(match_scratch:QI 3 "d")
(set (match_operand:SI 0 "register_operand" "")
(lshiftrt:SI (match_operand:SI 1 "register_operand" "")
(match_operand:QI 2 "const_int_operand" "")))]
""
[(parallel [(set (match_dup 0) (lshiftrt:SI (match_dup 1) (match_dup 2)))
(clobber (match_dup 3))])]
"")
(define_insn "*lshrsi3_const"
[(set (match_operand:SI 0 "register_operand" "=r,r,r,r")
(lshiftrt:SI (match_operand:SI 1 "register_operand" "0,0,r,0")
(match_operand:QI 2 "const_int_operand" "L,P,O,n")))
(clobber (match_scratch:QI 3 "=X,X,X,&d"))]
"reload_completed"
{
return lshrsi3_out (insn, operands, NULL);
}
[(set_attr "length" "0,4,4,10")
(set_attr "adjust_len" "lshrsi")
(set_attr "cc" "none,clobber,clobber,clobber")])
;; abs(x) abs(x) abs(x) abs(x) abs(x) abs(x) abs(x) abs(x) abs(x) abs(x) abs(x)
;; abs
(define_insn "absqi2"
[(set (match_operand:QI 0 "register_operand" "=r")
(abs:QI (match_operand:QI 1 "register_operand" "0")))]
""
"sbrc %0,7
neg %0"
[(set_attr "length" "2")
(set_attr "cc" "clobber")])
(define_insn "abssf2"
[(set (match_operand:SF 0 "register_operand" "=d,r")
(abs:SF (match_operand:SF 1 "register_operand" "0,0")))]
""
"@
andi %D0,0x7f
clt\;bld %D0,7"
[(set_attr "length" "1,2")
(set_attr "cc" "set_n,clobber")])
;; 0 - x 0 - x 0 - x 0 - x 0 - x 0 - x 0 - x 0 - x 0 - x 0 - x 0 - x
;; neg
(define_insn "negqi2"
[(set (match_operand:QI 0 "register_operand" "=r")
(neg:QI (match_operand:QI 1 "register_operand" "0")))]
""
"neg %0"
[(set_attr "length" "1")
(set_attr "cc" "set_zn")])
(define_insn "*negqihi2"
[(set (match_operand:HI 0 "register_operand" "=r")
(neg:HI (sign_extend:HI (match_operand:QI 1 "register_operand" "0"))))]
""
"clr %B0\;neg %A0\;brge .+2\;com %B0"
[(set_attr "length" "4")
(set_attr "cc" "set_n")])
(define_insn "neghi2"
[(set (match_operand:HI 0 "register_operand" "=r,&r")
(neg:HI (match_operand:HI 1 "register_operand" "0,r")))]
""
"@
neg %B0\;neg %A0\;sbc %B0,__zero_reg__
clr %A0\;clr %B0\;sub %A0,%A1\;sbc %B0,%B1"
[(set_attr "length" "3,4")
(set_attr "cc" "set_czn")])
(define_insn "negpsi2"
[(set (match_operand:PSI 0 "register_operand" "=!d,r,&r")
(neg:PSI (match_operand:PSI 1 "register_operand" "0,0,r")))]
""
"@
com %C0\;com %B0\;neg %A0\;sbci %B0,-1\;sbci %C0,-1
com %C0\;com %B0\;com %A0\;adc %A0,__zero_reg__\;adc %B0,__zero_reg__\;adc %C0,__zero_reg__
clr %A0\;clr %B0\;clr %C0\;sub %A0,%A1\;sbc %B0,%B1\;sbc %C0,%C1"
[(set_attr "length" "5,6,6")
(set_attr "cc" "set_czn,set_n,set_czn")])
(define_insn "negsi2"
[(set (match_operand:SI 0 "register_operand" "=!d,r,&r,&r")
(neg:SI (match_operand:SI 1 "register_operand" "0,0,r ,r")))]
""
"@
com %D0\;com %C0\;com %B0\;neg %A0\;sbci %B0,lo8(-1)\;sbci %C0,lo8(-1)\;sbci %D0,lo8(-1)
com %D0\;com %C0\;com %B0\;com %A0\;adc %A0,__zero_reg__\;adc %B0,__zero_reg__\;adc %C0,__zero_reg__\;adc %D0,__zero_reg__
clr %A0\;clr %B0\;clr %C0\;clr %D0\;sub %A0,%A1\;sbc %B0,%B1\;sbc %C0,%C1\;sbc %D0,%D1
clr %A0\;clr %B0\;movw %C0,%A0\;sub %A0,%A1\;sbc %B0,%B1\;sbc %C0,%C1\;sbc %D0,%D1"
[(set_attr "length" "7,8,8,7")
(set_attr "isa" "*,*,mov,movw")
(set_attr "cc" "set_czn,set_n,set_czn,set_czn")])
(define_insn "negsf2"
[(set (match_operand:SF 0 "register_operand" "=d,r")
(neg:SF (match_operand:SF 1 "register_operand" "0,0")))]
""
"@
subi %D0,0x80
bst %D0,7\;com %D0\;bld %D0,7\;com %D0"
[(set_attr "length" "1,4")
(set_attr "cc" "set_n,set_n")])
;; !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
;; not
(define_insn "one_cmplqi2"
[(set (match_operand:QI 0 "register_operand" "=r")
(not:QI (match_operand:QI 1 "register_operand" "0")))]
""
"com %0"
[(set_attr "length" "1")
(set_attr "cc" "set_czn")])
(define_insn "one_cmplhi2"
[(set (match_operand:HI 0 "register_operand" "=r")
(not:HI (match_operand:HI 1 "register_operand" "0")))]
""
"com %0
com %B0"
[(set_attr "length" "2")
(set_attr "cc" "set_n")])
(define_insn "one_cmplpsi2"
[(set (match_operand:PSI 0 "register_operand" "=r")
(not:PSI (match_operand:PSI 1 "register_operand" "0")))]
""
"com %0\;com %B0\;com %C0"
[(set_attr "length" "3")
(set_attr "cc" "set_n")])
(define_insn "one_cmplsi2"
[(set (match_operand:SI 0 "register_operand" "=r")
(not:SI (match_operand:SI 1 "register_operand" "0")))]
""
"com %0
com %B0
com %C0
com %D0"
[(set_attr "length" "4")
(set_attr "cc" "set_n")])
;; xx<---x xx<---x xx<---x xx<---x xx<---x xx<---x xx<---x xx<---x xx<---x
;; sign extend
;; We keep combiner from inserting hard registers into the input of sign- and
;; zero-extends. A hard register in the input operand is not wanted because
;; 32-bit multiply patterns clobber some hard registers and extends with a
;; hard register that overlaps these clobbers won't be combined to a widening
;; multiplication. There is no need for combine to propagate hard registers,
;; register allocation can do it just as well.
(define_insn "extendqihi2"
[(set (match_operand:HI 0 "register_operand" "=r,r")
(sign_extend:HI (match_operand:QI 1 "combine_pseudo_register_operand" "0,*r")))]
""
"@
clr %B0\;sbrc %0,7\;com %B0
mov %A0,%A1\;clr %B0\;sbrc %A0,7\;com %B0"
[(set_attr "length" "3,4")
(set_attr "cc" "set_n,set_n")])
(define_insn "extendqipsi2"
[(set (match_operand:PSI 0 "register_operand" "=r,r")
(sign_extend:PSI (match_operand:QI 1 "combine_pseudo_register_operand" "0,*r")))]
""
"@
clr %B0\;sbrc %A0,7\;com %B0\;mov %C0,%B0
mov %A0,%A1\;clr %B0\;sbrc %A0,7\;com %B0\;mov %C0,%B0"
[(set_attr "length" "4,5")
(set_attr "cc" "set_n,set_n")])
(define_insn "extendqisi2"
[(set (match_operand:SI 0 "register_operand" "=r,r")
(sign_extend:SI (match_operand:QI 1 "combine_pseudo_register_operand" "0,*r")))]
""
"@
clr %B0\;sbrc %A0,7\;com %B0\;mov %C0,%B0\;mov %D0,%B0
mov %A0,%A1\;clr %B0\;sbrc %A0,7\;com %B0\;mov %C0,%B0\;mov %D0,%B0"
[(set_attr "length" "5,6")
(set_attr "cc" "set_n,set_n")])
(define_insn "extendhipsi2"
[(set (match_operand:PSI 0 "register_operand" "=r,r ,r")
(sign_extend:PSI (match_operand:HI 1 "combine_pseudo_register_operand" "0,*r,*r")))]
""
"@
clr %C0\;sbrc %B0,7\;com %C0
mov %A0,%A1\;mov %B0,%B1\;clr %C0\;sbrc %B0,7\;com %C0
movw %A0,%A1\;clr %C0\;sbrc %B0,7\;com %C0"
[(set_attr "length" "3,5,4")
(set_attr "isa" "*,mov,movw")
(set_attr "cc" "set_n")])
(define_insn "extendhisi2"
[(set (match_operand:SI 0 "register_operand" "=r,r ,r")
(sign_extend:SI (match_operand:HI 1 "combine_pseudo_register_operand" "0,*r,*r")))]
""
"@
clr %C0\;sbrc %B0,7\;com %C0\;mov %D0,%C0
mov %A0,%A1\;mov %B0,%B1\;clr %C0\;sbrc %B0,7\;com %C0\;mov %D0,%C0
movw %A0,%A1\;clr %C0\;sbrc %B0,7\;com %C0\;mov %D0,%C0"
[(set_attr "length" "4,6,5")
(set_attr "isa" "*,mov,movw")
(set_attr "cc" "set_n")])
(define_insn "extendpsisi2"
[(set (match_operand:SI 0 "register_operand" "=r")
(sign_extend:SI (match_operand:PSI 1 "combine_pseudo_register_operand" "0")))]
""
"clr %D0\;sbrc %C0,7\;com %D0"
[(set_attr "length" "3")
(set_attr "cc" "set_n")])
;; xx<---x xx<---x xx<---x xx<---x xx<---x xx<---x xx<---x xx<---x xx<---x
;; zero extend
(define_insn_and_split "zero_extendqihi2"
[(set (match_operand:HI 0 "register_operand" "=r")
(zero_extend:HI (match_operand:QI 1 "combine_pseudo_register_operand" "r")))]
""
"#"
"reload_completed"
[(set (match_dup 2) (match_dup 1))
(set (match_dup 3) (const_int 0))]
{
unsigned int low_off = subreg_lowpart_offset (QImode, HImode);
unsigned int high_off = subreg_highpart_offset (QImode, HImode);
operands[2] = simplify_gen_subreg (QImode, operands[0], HImode, low_off);
operands[3] = simplify_gen_subreg (QImode, operands[0], HImode, high_off);
})
(define_insn_and_split "zero_extendqipsi2"
[(set (match_operand:PSI 0 "register_operand" "=r")
(zero_extend:PSI (match_operand:QI 1 "combine_pseudo_register_operand" "r")))]
""
"#"
"reload_completed"
[(set (match_dup 2) (match_dup 1))
(set (match_dup 3) (const_int 0))
(set (match_dup 4) (const_int 0))]
{
operands[2] = simplify_gen_subreg (QImode, operands[0], PSImode, 0);
operands[3] = simplify_gen_subreg (QImode, operands[0], PSImode, 1);
operands[4] = simplify_gen_subreg (QImode, operands[0], PSImode, 2);
})
(define_insn_and_split "zero_extendqisi2"
[(set (match_operand:SI 0 "register_operand" "=r")
(zero_extend:SI (match_operand:QI 1 "combine_pseudo_register_operand" "r")))]
""
"#"
"reload_completed"
[(set (match_dup 2) (zero_extend:HI (match_dup 1)))
(set (match_dup 3) (const_int 0))]
{
unsigned int low_off = subreg_lowpart_offset (HImode, SImode);
unsigned int high_off = subreg_highpart_offset (HImode, SImode);
operands[2] = simplify_gen_subreg (HImode, operands[0], SImode, low_off);
operands[3] = simplify_gen_subreg (HImode, operands[0], SImode, high_off);
})
(define_insn_and_split "zero_extendhipsi2"
[(set (match_operand:PSI 0 "register_operand" "=r")
(zero_extend:PSI (match_operand:HI 1 "combine_pseudo_register_operand" "r")))]
""
"#"
"reload_completed"
[(set (match_dup 2) (match_dup 1))
(set (match_dup 3) (const_int 0))]
{
operands[2] = simplify_gen_subreg (HImode, operands[0], PSImode, 0);
operands[3] = simplify_gen_subreg (QImode, operands[0], PSImode, 2);
})
(define_insn_and_split "n_extendhipsi2"
[(set (match_operand:PSI 0 "register_operand" "=r,r,d,r")
(lo_sum:PSI (match_operand:QI 1 "const_int_operand" "L,P,n,n")
(match_operand:HI 2 "register_operand" "r,r,r,r")))
(clobber (match_scratch:QI 3 "=X,X,X,&d"))]
""
"#"
"reload_completed"
[(set (match_dup 4) (match_dup 2))
(set (match_dup 3) (match_dup 6))
; no-op move in the case where no scratch is needed
(set (match_dup 5) (match_dup 3))]
{
operands[4] = simplify_gen_subreg (HImode, operands[0], PSImode, 0);
operands[5] = simplify_gen_subreg (QImode, operands[0], PSImode, 2);
operands[6] = operands[1];
if (GET_CODE (operands[3]) == SCRATCH)
operands[3] = operands[5];
})
(define_insn_and_split "zero_extendhisi2"
[(set (match_operand:SI 0 "register_operand" "=r")
(zero_extend:SI (match_operand:HI 1 "combine_pseudo_register_operand" "r")))]
""
"#"
"reload_completed"
[(set (match_dup 2) (match_dup 1))
(set (match_dup 3) (const_int 0))]
{
unsigned int low_off = subreg_lowpart_offset (HImode, SImode);
unsigned int high_off = subreg_highpart_offset (HImode, SImode);
operands[2] = simplify_gen_subreg (HImode, operands[0], SImode, low_off);
operands[3] = simplify_gen_subreg (HImode, operands[0], SImode, high_off);
})
(define_insn_and_split "zero_extendpsisi2"
[(set (match_operand:SI 0 "register_operand" "=r")
(zero_extend:SI (match_operand:PSI 1 "combine_pseudo_register_operand" "r")))]
""
"#"
"reload_completed"
[(set (match_dup 2) (match_dup 1))
(set (match_dup 3) (const_int 0))]
{
operands[2] = simplify_gen_subreg (PSImode, operands[0], SImode, 0);
operands[3] = simplify_gen_subreg (QImode, operands[0], SImode, 3);
})
(define_insn_and_split "zero_extendqidi2"
[(set (match_operand:DI 0 "register_operand" "=r")
(zero_extend:DI (match_operand:QI 1 "register_operand" "r")))]
""
"#"
"reload_completed"
[(set (match_dup 2) (zero_extend:SI (match_dup 1)))
(set (match_dup 3) (const_int 0))]
{
unsigned int low_off = subreg_lowpart_offset (SImode, DImode);
unsigned int high_off = subreg_highpart_offset (SImode, DImode);
operands[2] = simplify_gen_subreg (SImode, operands[0], DImode, low_off);
operands[3] = simplify_gen_subreg (SImode, operands[0], DImode, high_off);
})
(define_insn_and_split "zero_extendhidi2"
[(set (match_operand:DI 0 "register_operand" "=r")
(zero_extend:DI (match_operand:HI 1 "register_operand" "r")))]
""
"#"
"reload_completed"
[(set (match_dup 2) (zero_extend:SI (match_dup 1)))
(set (match_dup 3) (const_int 0))]
{
unsigned int low_off = subreg_lowpart_offset (SImode, DImode);
unsigned int high_off = subreg_highpart_offset (SImode, DImode);
operands[2] = simplify_gen_subreg (SImode, operands[0], DImode, low_off);
operands[3] = simplify_gen_subreg (SImode, operands[0], DImode, high_off);
})
(define_insn_and_split "zero_extendsidi2"
[(set (match_operand:DI 0 "register_operand" "=r")
(zero_extend:DI (match_operand:SI 1 "register_operand" "r")))]
""
"#"
"reload_completed"
[(set (match_dup 2) (match_dup 1))
(set (match_dup 3) (const_int 0))]
{
unsigned int low_off = subreg_lowpart_offset (SImode, DImode);
unsigned int high_off = subreg_highpart_offset (SImode, DImode);
operands[2] = simplify_gen_subreg (SImode, operands[0], DImode, low_off);
operands[3] = simplify_gen_subreg (SImode, operands[0], DImode, high_off);
})
;;<=><=><=><=><=><=><=><=><=><=><=><=><=><=><=><=><=><=><=><=><=><=><=><=><=>
;; compare
; Optimize negated tests into reverse compare if overflow is undefined.
(define_insn "*negated_tstqi"
[(set (cc0)
(compare (neg:QI (match_operand:QI 0 "register_operand" "r"))
(const_int 0)))]
"(!flag_wrapv && !flag_trapv && flag_strict_overflow)"
"cp __zero_reg__,%0"
[(set_attr "cc" "compare")
(set_attr "length" "1")])
(define_insn "*reversed_tstqi"
[(set (cc0)
(compare (const_int 0)
(match_operand:QI 0 "register_operand" "r")))]
""
"cp __zero_reg__,%0"
[(set_attr "cc" "compare")
(set_attr "length" "2")])
(define_insn "*negated_tsthi"
[(set (cc0)
(compare (neg:HI (match_operand:HI 0 "register_operand" "r"))
(const_int 0)))]
"(!flag_wrapv && !flag_trapv && flag_strict_overflow)"
"cp __zero_reg__,%A0
cpc __zero_reg__,%B0"
[(set_attr "cc" "compare")
(set_attr "length" "2")])
;; Leave here the clobber used by the cmphi pattern for simplicity, even
;; though it is unused, because this pattern is synthesized by avr_reorg.
(define_insn "*reversed_tsthi"
[(set (cc0)
(compare (const_int 0)
(match_operand:HI 0 "register_operand" "r")))
(clobber (match_scratch:QI 1 "=X"))]
""
"cp __zero_reg__,%A0
cpc __zero_reg__,%B0"
[(set_attr "cc" "compare")
(set_attr "length" "2")])
(define_insn "*negated_tstpsi"
[(set (cc0)
(compare (neg:PSI (match_operand:PSI 0 "register_operand" "r"))
(const_int 0)))]
"!flag_wrapv && !flag_trapv && flag_strict_overflow"
"cp __zero_reg__,%A0\;cpc __zero_reg__,%B0\;cpc __zero_reg__,%C0"
[(set_attr "cc" "compare")
(set_attr "length" "3")])
(define_insn "*reversed_tstpsi"
[(set (cc0)
(compare (const_int 0)
(match_operand:PSI 0 "register_operand" "r")))
(clobber (match_scratch:QI 1 "=X"))]
""
"cp __zero_reg__,%A0\;cpc __zero_reg__,%B0\;cpc __zero_reg__,%C0"
[(set_attr "cc" "compare")
(set_attr "length" "3")])
(define_insn "*negated_tstsi"
[(set (cc0)
(compare (neg:SI (match_operand:SI 0 "register_operand" "r"))
(const_int 0)))]
"(!flag_wrapv && !flag_trapv && flag_strict_overflow)"
"cp __zero_reg__,%A0
cpc __zero_reg__,%B0
cpc __zero_reg__,%C0
cpc __zero_reg__,%D0"
[(set_attr "cc" "compare")
(set_attr "length" "4")])
(define_insn "*reversed_tstsi"
[(set (cc0)
(compare (const_int 0)
(match_operand:SI 0 "register_operand" "r")))
(clobber (match_scratch:QI 1 "=X"))]
""
"cp __zero_reg__,%A0
cpc __zero_reg__,%B0
cpc __zero_reg__,%C0
cpc __zero_reg__,%D0"
[(set_attr "cc" "compare")
(set_attr "length" "4")])
(define_insn "*cmpqi"
[(set (cc0)
(compare (match_operand:QI 0 "register_operand" "r,r,d")
(match_operand:QI 1 "nonmemory_operand" "L,r,i")))]
""
"@
tst %0
cp %0,%1
cpi %0,lo8(%1)"
[(set_attr "cc" "compare,compare,compare")
(set_attr "length" "1,1,1")])
(define_insn "*cmpqi_sign_extend"
[(set (cc0)
(compare (sign_extend:HI (match_operand:QI 0 "register_operand" "d"))
(match_operand:HI 1 "s8_operand" "n")))]
""
"cpi %0,lo8(%1)"
[(set_attr "cc" "compare")
(set_attr "length" "1")])
(define_insn "*cmphi"
[(set (cc0)
(compare (match_operand:HI 0 "register_operand" "!w,r,r,d ,r ,d,r")
(match_operand:HI 1 "nonmemory_operand" "L ,L,r,s ,s ,M,n")))
(clobber (match_scratch:QI 2 "=X ,X,X,&d,&d ,X,&d"))]
""
{
switch (which_alternative)
{
case 0:
case 1:
return avr_out_tsthi (insn, operands, NULL);
case 2:
return "cp %A0,%A1\;cpc %B0,%B1";
case 3:
return reg_unused_after (insn, operands[0])
? "subi %A0,lo8(%1)\;sbci %B0,hi8(%1)"
: "ldi %2,hi8(%1)\;cpi %A0,lo8(%1)\;cpc %B0,%2";
case 4:
return "ldi %2,lo8(%1)\;cp %A0,%2\;ldi %2,hi8(%1)\;cpc %B0,%2";
}
return avr_out_compare (insn, operands, NULL);
}
[(set_attr "cc" "compare")
(set_attr "length" "1,2,2,3,4,2,4")
(set_attr "adjust_len" "tsthi,tsthi,*,*,*,compare,compare")])
(define_insn "*cmppsi"
[(set (cc0)
(compare (match_operand:PSI 0 "register_operand" "r,r,d ,r ,d,r")
(match_operand:PSI 1 "nonmemory_operand" "L,r,s ,s ,M,n")))
(clobber (match_scratch:QI 2 "=X,X,&d,&d ,X,&d"))]
""
{
switch (which_alternative)
{
case 0:
return avr_out_tstpsi (insn, operands, NULL);
case 1:
return "cp %A0,%A1\;cpc %B0,%B1\;cpc %C0,%C1";
case 2:
return reg_unused_after (insn, operands[0])
? "subi %A0,lo8(%1)\;sbci %B0,hi8(%1)\;sbci %C0,hh8(%1)"
: "cpi %A0,lo8(%1)\;ldi %2,hi8(%1)\;cpc %B0,%2\;ldi %2,hh8(%1)\;cpc %C0,%2";
case 3:
return "ldi %2,lo8(%1)\;cp %A0,%2\;ldi %2,hi8(%1)\;cpc %B0,%2\;ldi %2,hh8(%1)\;cpc %C0,%2";
}
return avr_out_compare (insn, operands, NULL);
}
[(set_attr "cc" "compare")
(set_attr "length" "3,3,5,6,3,7")
(set_attr "adjust_len" "tstpsi,*,*,*,compare,compare")])
(define_insn "*cmpsi"
[(set (cc0)
(compare (match_operand:SI 0 "register_operand" "r,r ,d,r ,r")
(match_operand:SI 1 "nonmemory_operand" "L,r ,M,M ,n")))
(clobber (match_scratch:QI 2 "=X,X ,X,&d,&d"))]
""
{
if (0 == which_alternative)
return avr_out_tstsi (insn, operands, NULL);
else if (1 == which_alternative)
return "cp %A0,%A1\;cpc %B0,%B1\;cpc %C0,%C1\;cpc %D0,%D1";
return avr_out_compare (insn, operands, NULL);
}
[(set_attr "cc" "compare")
(set_attr "length" "4,4,4,5,8")
(set_attr "adjust_len" "tstsi,*,compare,compare,compare")])
;; ----------------------------------------------------------------------
;; JUMP INSTRUCTIONS
;; ----------------------------------------------------------------------
;; Conditional jump instructions
(define_expand "cbranchsi4"
[(parallel [(set (cc0)
(compare (match_operand:SI 1 "register_operand" "")
(match_operand:SI 2 "nonmemory_operand" "")))
(clobber (match_scratch:QI 4 ""))])
(set (pc)
(if_then_else
(match_operator 0 "ordered_comparison_operator" [(cc0)
(const_int 0)])
(label_ref (match_operand 3 "" ""))
(pc)))]
"")
(define_expand "cbranchpsi4"
[(parallel [(set (cc0)
(compare (match_operand:PSI 1 "register_operand" "")
(match_operand:PSI 2 "nonmemory_operand" "")))
(clobber (match_scratch:QI 4 ""))])
(set (pc)
(if_then_else (match_operator 0 "ordered_comparison_operator" [(cc0)
(const_int 0)])
(label_ref (match_operand 3 "" ""))
(pc)))]
"")
(define_expand "cbranchhi4"
[(parallel [(set (cc0)
(compare (match_operand:HI 1 "register_operand" "")
(match_operand:HI 2 "nonmemory_operand" "")))
(clobber (match_scratch:QI 4 ""))])
(set (pc)
(if_then_else
(match_operator 0 "ordered_comparison_operator" [(cc0)
(const_int 0)])
(label_ref (match_operand 3 "" ""))
(pc)))]
"")
(define_expand "cbranchqi4"
[(set (cc0)
(compare (match_operand:QI 1 "register_operand" "")
(match_operand:QI 2 "nonmemory_operand" "")))
(set (pc)
(if_then_else
(match_operator 0 "ordered_comparison_operator" [(cc0)
(const_int 0)])
(label_ref (match_operand 3 "" ""))
(pc)))]
"")
;; Test a single bit in a QI/HI/SImode register.
;; Combine will create zero extract patterns for single bit tests.
;; permit any mode in source pattern by using VOIDmode.
(define_insn "*sbrx_branch<mode>"
[(set (pc)
(if_then_else
(match_operator 0 "eqne_operator"
[(zero_extract:QIDI
(match_operand:VOID 1 "register_operand" "r")
(const_int 1)
(match_operand 2 "const_int_operand" "n"))
(const_int 0)])
(label_ref (match_operand 3 "" ""))
(pc)))]
""
{
return avr_out_sbxx_branch (insn, operands);
}
[(set (attr "length")
(if_then_else (and (ge (minus (pc) (match_dup 3)) (const_int -2046))
(le (minus (pc) (match_dup 3)) (const_int 2046)))
(const_int 2)
(if_then_else (match_test "!AVR_HAVE_JMP_CALL")
(const_int 2)
(const_int 4))))
(set_attr "cc" "clobber")])
;; Same test based on Bitwise AND RTL. Keep this incase gcc changes patterns.
;; or for old peepholes.
;; Fixme - bitwise Mask will not work for DImode
(define_insn "*sbrx_and_branch<mode>"
[(set (pc)
(if_then_else
(match_operator 0 "eqne_operator"
[(and:QISI
(match_operand:QISI 1 "register_operand" "r")
(match_operand:QISI 2 "single_one_operand" "n"))
(const_int 0)])
(label_ref (match_operand 3 "" ""))
(pc)))]
""
{
HOST_WIDE_INT bitnumber;
bitnumber = exact_log2 (GET_MODE_MASK (<MODE>mode) & INTVAL (operands[2]));
operands[2] = GEN_INT (bitnumber);
return avr_out_sbxx_branch (insn, operands);
}
[(set (attr "length")
(if_then_else (and (ge (minus (pc) (match_dup 3)) (const_int -2046))
(le (minus (pc) (match_dup 3)) (const_int 2046)))
(const_int 2)
(if_then_else (match_test "!AVR_HAVE_JMP_CALL")
(const_int 2)
(const_int 4))))
(set_attr "cc" "clobber")])
;; Convert sign tests to bit 7/15/31 tests that match the above insns.
(define_peephole2
[(set (cc0) (compare (match_operand:QI 0 "register_operand" "")
(const_int 0)))
(set (pc) (if_then_else (ge (cc0) (const_int 0))
(label_ref (match_operand 1 "" ""))
(pc)))]
""
[(set (pc) (if_then_else (eq (zero_extract:HI (match_dup 0)
(const_int 1)
(const_int 7))
(const_int 0))
(label_ref (match_dup 1))
(pc)))]
"")
(define_peephole2
[(set (cc0) (compare (match_operand:QI 0 "register_operand" "")
(const_int 0)))
(set (pc) (if_then_else (lt (cc0) (const_int 0))
(label_ref (match_operand 1 "" ""))
(pc)))]
""
[(set (pc) (if_then_else (ne (zero_extract:HI (match_dup 0)
(const_int 1)
(const_int 7))
(const_int 0))
(label_ref (match_dup 1))
(pc)))]
"")
(define_peephole2
[(parallel [(set (cc0) (compare (match_operand:HI 0 "register_operand" "")
(const_int 0)))
(clobber (match_operand:HI 2 ""))])
(set (pc) (if_then_else (ge (cc0) (const_int 0))
(label_ref (match_operand 1 "" ""))
(pc)))]
""
[(set (pc) (if_then_else (eq (and:HI (match_dup 0) (const_int -32768))
(const_int 0))
(label_ref (match_dup 1))
(pc)))]
"")
(define_peephole2
[(parallel [(set (cc0) (compare (match_operand:HI 0 "register_operand" "")
(const_int 0)))
(clobber (match_operand:HI 2 ""))])
(set (pc) (if_then_else (lt (cc0) (const_int 0))
(label_ref (match_operand 1 "" ""))
(pc)))]
""
[(set (pc) (if_then_else (ne (and:HI (match_dup 0) (const_int -32768))
(const_int 0))
(label_ref (match_dup 1))
(pc)))]
"")
(define_peephole2
[(parallel [(set (cc0) (compare (match_operand:SI 0 "register_operand" "")
(const_int 0)))
(clobber (match_operand:SI 2 ""))])
(set (pc) (if_then_else (ge (cc0) (const_int 0))
(label_ref (match_operand 1 "" ""))
(pc)))]
""
[(set (pc) (if_then_else (eq (and:SI (match_dup 0) (match_dup 2))
(const_int 0))
(label_ref (match_dup 1))
(pc)))]
"operands[2] = GEN_INT (-2147483647 - 1);")
(define_peephole2
[(parallel [(set (cc0) (compare (match_operand:SI 0 "register_operand" "")
(const_int 0)))
(clobber (match_operand:SI 2 ""))])
(set (pc) (if_then_else (lt (cc0) (const_int 0))
(label_ref (match_operand 1 "" ""))
(pc)))]
""
[(set (pc) (if_then_else (ne (and:SI (match_dup 0) (match_dup 2))
(const_int 0))
(label_ref (match_dup 1))
(pc)))]
"operands[2] = GEN_INT (-2147483647 - 1);")
;; ************************************************************************
;; Implementation of conditional jumps here.
;; Compare with 0 (test) jumps
;; ************************************************************************
(define_insn "branch"
[(set (pc)
(if_then_else (match_operator 1 "simple_comparison_operator"
[(cc0)
(const_int 0)])
(label_ref (match_operand 0 "" ""))
(pc)))]
""
{
return ret_cond_branch (operands[1], avr_jump_mode (operands[0], insn), 0);
}
[(set_attr "type" "branch")
(set_attr "cc" "clobber")])
;; Same as above but wrap SET_SRC so that this branch won't be transformed
;; or optimized in the remainder.
(define_insn "branch_unspec"
[(set (pc)
(unspec [(if_then_else (match_operator 1 "simple_comparison_operator"
[(cc0)
(const_int 0)])
(label_ref (match_operand 0 "" ""))
(pc))
] UNSPEC_IDENTITY))]
""
{
return ret_cond_branch (operands[1], avr_jump_mode (operands[0], insn), 0);
}
[(set_attr "type" "branch")
(set_attr "cc" "none")])
;; ****************************************************************
;; AVR does not have following conditional jumps: LE,LEU,GT,GTU.
;; Convert them all to proper jumps.
;; ****************************************************************/
(define_insn "difficult_branch"
[(set (pc)
(if_then_else (match_operator 1 "difficult_comparison_operator"
[(cc0)
(const_int 0)])
(label_ref (match_operand 0 "" ""))
(pc)))]
""
{
return ret_cond_branch (operands[1], avr_jump_mode (operands[0], insn), 0);
}
[(set_attr "type" "branch1")
(set_attr "cc" "clobber")])
;; revers branch
(define_insn "rvbranch"
[(set (pc)
(if_then_else (match_operator 1 "simple_comparison_operator"
[(cc0)
(const_int 0)])
(pc)
(label_ref (match_operand 0 "" ""))))]
""
{
return ret_cond_branch (operands[1], avr_jump_mode (operands[0], insn), 1);
}
[(set_attr "type" "branch1")
(set_attr "cc" "clobber")])
(define_insn "difficult_rvbranch"
[(set (pc)
(if_then_else (match_operator 1 "difficult_comparison_operator"
[(cc0)
(const_int 0)])
(pc)
(label_ref (match_operand 0 "" ""))))]
""
{
return ret_cond_branch (operands[1], avr_jump_mode (operands[0], insn), 1);
}
[(set_attr "type" "branch")
(set_attr "cc" "clobber")])
;; **************************************************************************
;; Unconditional and other jump instructions.
(define_insn "jump"
[(set (pc)
(label_ref (match_operand 0 "" "")))]
""
{
return AVR_HAVE_JMP_CALL && get_attr_length (insn) != 1
? "jmp %x0"
: "rjmp %x0";
}
[(set (attr "length")
(if_then_else (match_operand 0 "symbol_ref_operand" "")
(if_then_else (match_test "!AVR_HAVE_JMP_CALL")
(const_int 1)
(const_int 2))
(if_then_else (and (ge (minus (pc) (match_dup 0)) (const_int -2047))
(le (minus (pc) (match_dup 0)) (const_int 2047)))
(const_int 1)
(const_int 2))))
(set_attr "cc" "none")])
;; call
(define_expand "call"
[(parallel[(call (match_operand:HI 0 "call_insn_operand" "")
(match_operand:HI 1 "general_operand" ""))
(use (const_int 0))])]
;; Operand 1 not used on the AVR.
;; Operand 2 is 1 for tail-call, 0 otherwise.
""
"")
(define_expand "sibcall"
[(parallel[(call (match_operand:HI 0 "call_insn_operand" "")
(match_operand:HI 1 "general_operand" ""))
(use (const_int 1))])]
;; Operand 1 not used on the AVR.
;; Operand 2 is 1 for tail-call, 0 otherwise.
""
"")
;; call value
(define_expand "call_value"
[(parallel[(set (match_operand 0 "register_operand" "")
(call (match_operand:HI 1 "call_insn_operand" "")
(match_operand:HI 2 "general_operand" "")))
(use (const_int 0))])]
;; Operand 2 not used on the AVR.
;; Operand 3 is 1 for tail-call, 0 otherwise.
""
"")
(define_expand "sibcall_value"
[(parallel[(set (match_operand 0 "register_operand" "")
(call (match_operand:HI 1 "call_insn_operand" "")
(match_operand:HI 2 "general_operand" "")))
(use (const_int 1))])]
;; Operand 2 not used on the AVR.
;; Operand 3 is 1 for tail-call, 0 otherwise.
""
"")
(define_insn "call_insn"
[(parallel[(call (mem:HI (match_operand:HI 0 "nonmemory_operand" "z,s,z,s"))
(match_operand:HI 1 "general_operand" "X,X,X,X"))
(use (match_operand:HI 2 "const_int_operand" "L,L,P,P"))])]
;; Operand 1 not used on the AVR.
;; Operand 2 is 1 for tail-call, 0 otherwise.
""
"@
%!icall
%~call %x0
%!ijmp
%~jmp %x0"
[(set_attr "cc" "clobber")
(set_attr "length" "1,*,1,*")
(set_attr "adjust_len" "*,call,*,call")])
(define_insn "call_value_insn"
[(parallel[(set (match_operand 0 "register_operand" "=r,r,r,r")
(call (mem:HI (match_operand:HI 1 "nonmemory_operand" "z,s,z,s"))
(match_operand:HI 2 "general_operand" "X,X,X,X")))
(use (match_operand:HI 3 "const_int_operand" "L,L,P,P"))])]
;; Operand 2 not used on the AVR.
;; Operand 3 is 1 for tail-call, 0 otherwise.
""
"@
%!icall
%~call %x1
%!ijmp
%~jmp %x1"
[(set_attr "cc" "clobber")
(set_attr "length" "1,*,1,*")
(set_attr "adjust_len" "*,call,*,call")])
(define_insn "nop"
[(const_int 0)]
""
"nop"
[(set_attr "cc" "none")
(set_attr "length" "1")])
; indirect jump
(define_expand "indirect_jump"
[(set (pc)
(match_operand:HI 0 "nonmemory_operand" ""))]
""
{
if (!AVR_HAVE_JMP_CALL && !register_operand (operands[0], HImode))
{
operands[0] = copy_to_mode_reg (HImode, operands[0]);
}
})
; indirect jump
(define_insn "*indirect_jump"
[(set (pc)
(match_operand:HI 0 "nonmemory_operand" "i,i,!z,*r,z"))]
""
"@
rjmp %x0
jmp %x0
ijmp
push %A0\;push %B0\;ret
eijmp"
[(set_attr "length" "1,2,1,3,1")
(set_attr "isa" "rjmp,jmp,ijmp,ijmp,eijmp")
(set_attr "cc" "none")])
;; table jump
;; For entries in jump table see avr_output_addr_vec_elt.
;; Table made from
;; "rjmp .L<n>" instructions for <= 8K devices
;; ".word gs(.L<n>)" addresses for > 8K devices
(define_insn "*tablejump"
[(set (pc)
(unspec:HI [(match_operand:HI 0 "register_operand" "!z,*r,z")]
UNSPEC_INDEX_JMP))
(use (label_ref (match_operand 1 "" "")))
(clobber (match_dup 0))]
""
"@
ijmp
push %A0\;push %B0\;ret
jmp __tablejump2__"
[(set_attr "length" "1,3,2")
(set_attr "isa" "rjmp,rjmp,jmp")
(set_attr "cc" "none,none,clobber")])
(define_expand "casesi"
[(set (match_dup 6)
(minus:HI (subreg:HI (match_operand:SI 0 "register_operand" "") 0)
(match_operand:HI 1 "register_operand" "")))
(parallel [(set (cc0)
(compare (match_dup 6)
(match_operand:HI 2 "register_operand" "")))
(clobber (match_scratch:QI 9 ""))])
(set (pc)
(if_then_else (gtu (cc0)
(const_int 0))
(label_ref (match_operand 4 "" ""))
(pc)))
(set (match_dup 6)
(plus:HI (match_dup 6) (label_ref (match_operand:HI 3 "" ""))))
(parallel [(set (pc) (unspec:HI [(match_dup 6)] UNSPEC_INDEX_JMP))
(use (label_ref (match_dup 3)))
(clobber (match_dup 6))])]
""
{
operands[6] = gen_reg_rtx (HImode);
})
;; ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
;; This instruction sets Z flag
(define_insn "sez"
[(set (cc0) (const_int 0))]
""
"sez"
[(set_attr "length" "1")
(set_attr "cc" "compare")])
;; Clear/set/test a single bit in I/O address space.
(define_insn "*cbi"
[(set (mem:QI (match_operand 0 "low_io_address_operand" "n"))
(and:QI (mem:QI (match_dup 0))
(match_operand:QI 1 "single_zero_operand" "n")))]
""
{
operands[2] = GEN_INT (exact_log2 (~INTVAL (operands[1]) & 0xff));
return "cbi %i0,%2";
}
[(set_attr "length" "1")
(set_attr "cc" "none")])
(define_insn "*sbi"
[(set (mem:QI (match_operand 0 "low_io_address_operand" "n"))
(ior:QI (mem:QI (match_dup 0))
(match_operand:QI 1 "single_one_operand" "n")))]
""
{
operands[2] = GEN_INT (exact_log2 (INTVAL (operands[1]) & 0xff));
return "sbi %i0,%2";
}
[(set_attr "length" "1")
(set_attr "cc" "none")])
;; Lower half of the I/O space - use sbic/sbis directly.
(define_insn "*sbix_branch"
[(set (pc)
(if_then_else
(match_operator 0 "eqne_operator"
[(zero_extract:QIHI
(mem:QI (match_operand 1 "low_io_address_operand" "n"))
(const_int 1)
(match_operand 2 "const_int_operand" "n"))
(const_int 0)])
(label_ref (match_operand 3 "" ""))
(pc)))]
""
{
return avr_out_sbxx_branch (insn, operands);
}
[(set (attr "length")
(if_then_else (and (ge (minus (pc) (match_dup 3)) (const_int -2046))
(le (minus (pc) (match_dup 3)) (const_int 2046)))
(const_int 2)
(if_then_else (match_test "!AVR_HAVE_JMP_CALL")
(const_int 2)
(const_int 4))))
(set_attr "cc" "clobber")])
;; Tests of bit 7 are pessimized to sign tests, so we need this too...
(define_insn "*sbix_branch_bit7"
[(set (pc)
(if_then_else
(match_operator 0 "gelt_operator"
[(mem:QI (match_operand 1 "low_io_address_operand" "n"))
(const_int 0)])
(label_ref (match_operand 2 "" ""))
(pc)))]
""
{
operands[3] = operands[2];
operands[2] = GEN_INT (7);
return avr_out_sbxx_branch (insn, operands);
}
[(set (attr "length")
(if_then_else (and (ge (minus (pc) (match_dup 2)) (const_int -2046))
(le (minus (pc) (match_dup 2)) (const_int 2046)))
(const_int 2)
(if_then_else (match_test "!AVR_HAVE_JMP_CALL")
(const_int 2)
(const_int 4))))
(set_attr "cc" "clobber")])
;; Upper half of the I/O space - read port to __tmp_reg__ and use sbrc/sbrs.
(define_insn "*sbix_branch_tmp"
[(set (pc)
(if_then_else
(match_operator 0 "eqne_operator"
[(zero_extract:QIHI
(mem:QI (match_operand 1 "high_io_address_operand" "n"))
(const_int 1)
(match_operand 2 "const_int_operand" "n"))
(const_int 0)])
(label_ref (match_operand 3 "" ""))
(pc)))]
""
{
return avr_out_sbxx_branch (insn, operands);
}
[(set (attr "length")
(if_then_else (and (ge (minus (pc) (match_dup 3)) (const_int -2046))
(le (minus (pc) (match_dup 3)) (const_int 2045)))
(const_int 3)
(if_then_else (match_test "!AVR_HAVE_JMP_CALL")
(const_int 3)
(const_int 5))))
(set_attr "cc" "clobber")])
(define_insn "*sbix_branch_tmp_bit7"
[(set (pc)
(if_then_else
(match_operator 0 "gelt_operator"
[(mem:QI (match_operand 1 "high_io_address_operand" "n"))
(const_int 0)])
(label_ref (match_operand 2 "" ""))
(pc)))]
""
{
operands[3] = operands[2];
operands[2] = GEN_INT (7);
return avr_out_sbxx_branch (insn, operands);
}
[(set (attr "length")
(if_then_else (and (ge (minus (pc) (match_dup 2)) (const_int -2046))
(le (minus (pc) (match_dup 2)) (const_int 2045)))
(const_int 3)
(if_then_else (match_test "!AVR_HAVE_JMP_CALL")
(const_int 3)
(const_int 5))))
(set_attr "cc" "clobber")])
;; ************************* Peepholes ********************************
(define_peephole ; "*dec-and-branchsi!=-1.d.clobber"
[(parallel [(set (match_operand:SI 0 "d_register_operand" "")
(plus:SI (match_dup 0)
(const_int -1)))
(clobber (scratch:QI))])
(parallel [(set (cc0)
(compare (match_dup 0)
(const_int -1)))
(clobber (match_operand:QI 1 "d_register_operand" ""))])
(set (pc)
(if_then_else (eqne (cc0)
(const_int 0))
(label_ref (match_operand 2 "" ""))
(pc)))]
""
{
const char *op;
int jump_mode;
CC_STATUS_INIT;
if (test_hard_reg_class (ADDW_REGS, operands[0]))
output_asm_insn ("sbiw %0,1" CR_TAB
"sbc %C0,__zero_reg__" CR_TAB
"sbc %D0,__zero_reg__", operands);
else
output_asm_insn ("subi %A0,1" CR_TAB
"sbc %B0,__zero_reg__" CR_TAB
"sbc %C0,__zero_reg__" CR_TAB
"sbc %D0,__zero_reg__", operands);
jump_mode = avr_jump_mode (operands[2], insn);
op = ((EQ == <CODE>) ^ (jump_mode == 1)) ? "brcc" : "brcs";
operands[1] = gen_rtx_CONST_STRING (VOIDmode, op);
switch (jump_mode)
{
case 1: return "%1 %2";
case 2: return "%1 .+2\;rjmp %2";
case 3: return "%1 .+4\;jmp %2";
}
gcc_unreachable();
return "";
})
(define_peephole ; "*dec-and-branchhi!=-1"
[(set (match_operand:HI 0 "d_register_operand" "")
(plus:HI (match_dup 0)
(const_int -1)))
(parallel [(set (cc0)
(compare (match_dup 0)
(const_int -1)))
(clobber (match_operand:QI 1 "d_register_operand" ""))])
(set (pc)
(if_then_else (eqne (cc0)
(const_int 0))
(label_ref (match_operand 2 "" ""))
(pc)))]
""
{
const char *op;
int jump_mode;
CC_STATUS_INIT;
if (test_hard_reg_class (ADDW_REGS, operands[0]))
output_asm_insn ("sbiw %0,1", operands);
else
output_asm_insn ("subi %A0,1" CR_TAB
"sbc %B0,__zero_reg__", operands);
jump_mode = avr_jump_mode (operands[2], insn);
op = ((EQ == <CODE>) ^ (jump_mode == 1)) ? "brcc" : "brcs";
operands[1] = gen_rtx_CONST_STRING (VOIDmode, op);
switch (jump_mode)
{
case 1: return "%1 %2";
case 2: return "%1 .+2\;rjmp %2";
case 3: return "%1 .+4\;jmp %2";
}
gcc_unreachable();
return "";
})
;; Same as above but with clobber flavour of addhi3
(define_peephole ; "*dec-and-branchhi!=-1.d.clobber"
[(parallel [(set (match_operand:HI 0 "d_register_operand" "")
(plus:HI (match_dup 0)
(const_int -1)))
(clobber (scratch:QI))])
(parallel [(set (cc0)
(compare (match_dup 0)
(const_int -1)))
(clobber (match_operand:QI 1 "d_register_operand" ""))])
(set (pc)
(if_then_else (eqne (cc0)
(const_int 0))
(label_ref (match_operand 2 "" ""))
(pc)))]
""
{
const char *op;
int jump_mode;
CC_STATUS_INIT;
if (test_hard_reg_class (ADDW_REGS, operands[0]))
output_asm_insn ("sbiw %0,1", operands);
else
output_asm_insn ("subi %A0,1" CR_TAB
"sbc %B0,__zero_reg__", operands);
jump_mode = avr_jump_mode (operands[2], insn);
op = ((EQ == <CODE>) ^ (jump_mode == 1)) ? "brcc" : "brcs";
operands[1] = gen_rtx_CONST_STRING (VOIDmode, op);
switch (jump_mode)
{
case 1: return "%1 %2";
case 2: return "%1 .+2\;rjmp %2";
case 3: return "%1 .+4\;jmp %2";
}
gcc_unreachable();
return "";
})
;; Same as above but with clobber flavour of addhi3
(define_peephole ; "*dec-and-branchhi!=-1.l.clobber"
[(parallel [(set (match_operand:HI 0 "l_register_operand" "")
(plus:HI (match_dup 0)
(const_int -1)))
(clobber (match_operand:QI 3 "d_register_operand" ""))])
(parallel [(set (cc0)
(compare (match_dup 0)
(const_int -1)))
(clobber (match_operand:QI 1 "d_register_operand" ""))])
(set (pc)
(if_then_else (eqne (cc0)
(const_int 0))
(label_ref (match_operand 2 "" ""))
(pc)))]
""
{
const char *op;
int jump_mode;
CC_STATUS_INIT;
output_asm_insn ("ldi %3,1" CR_TAB
"sub %A0,%3" CR_TAB
"sbc %B0,__zero_reg__", operands);
jump_mode = avr_jump_mode (operands[2], insn);
op = ((EQ == <CODE>) ^ (jump_mode == 1)) ? "brcc" : "brcs";
operands[1] = gen_rtx_CONST_STRING (VOIDmode, op);
switch (jump_mode)
{
case 1: return "%1 %2";
case 2: return "%1 .+2\;rjmp %2";
case 3: return "%1 .+4\;jmp %2";
}
gcc_unreachable();
return "";
})
(define_peephole ; "*dec-and-branchqi!=-1"
[(set (match_operand:QI 0 "d_register_operand" "")
(plus:QI (match_dup 0)
(const_int -1)))
(set (cc0)
(compare (match_dup 0)
(const_int -1)))
(set (pc)
(if_then_else (eqne (cc0)
(const_int 0))
(label_ref (match_operand 1 "" ""))
(pc)))]
""
{
const char *op;
int jump_mode;
CC_STATUS_INIT;
cc_status.value1 = operands[0];
cc_status.flags |= CC_OVERFLOW_UNUSABLE;
output_asm_insn ("subi %A0,1", operands);
jump_mode = avr_jump_mode (operands[1], insn);
op = ((EQ == <CODE>) ^ (jump_mode == 1)) ? "brcc" : "brcs";
operands[0] = gen_rtx_CONST_STRING (VOIDmode, op);
switch (jump_mode)
{
case 1: return "%0 %1";
case 2: return "%0 .+2\;rjmp %1";
case 3: return "%0 .+4\;jmp %1";
}
gcc_unreachable();
return "";
})
(define_peephole ; "*cpse.eq"
[(set (cc0)
(compare (match_operand:QI 1 "register_operand" "r,r")
(match_operand:QI 2 "reg_or_0_operand" "r,L")))
(set (pc)
(if_then_else (eq (cc0)
(const_int 0))
(label_ref (match_operand 0 "" ""))
(pc)))]
"jump_over_one_insn_p (insn, operands[0])"
"@
cpse %1,%2
cpse %1,__zero_reg__")
;; This peephole avoids code like
;;
;; TST Rn ; *cmpqi
;; BREQ .+2 ; branch
;; RJMP .Lm
;;
;; Notice that the peephole is always shorter than cmpqi + branch.
;; The reason to write it as peephole is that sequences like
;;
;; AND Rm, Rn
;; BRNE .La
;;
;; shall not be superseeded. With a respective combine pattern
;; the latter sequence would be
;;
;; AND Rm, Rn
;; CPSE Rm, __zero_reg__
;; RJMP .La
;;
;; and thus longer and slower and not easy to be rolled back.
(define_peephole ; "*cpse.ne"
[(set (cc0)
(compare (match_operand:QI 1 "register_operand" "")
(match_operand:QI 2 "reg_or_0_operand" "")))
(set (pc)
(if_then_else (ne (cc0)
(const_int 0))
(label_ref (match_operand 0 "" ""))
(pc)))]
"!AVR_HAVE_JMP_CALL
|| !avr_current_device->errata_skip"
{
if (operands[2] == const0_rtx)
operands[2] = zero_reg_rtx;
return 3 == avr_jump_mode (operands[0], insn)
? "cpse %1,%2\;jmp %0"
: "cpse %1,%2\;rjmp %0";
})
;;pppppppppppppppppppppppppppppppppppppppppppppppppppp
;;prologue/epilogue support instructions
(define_insn "popqi"
[(set (match_operand:QI 0 "register_operand" "=r")
(mem:QI (pre_inc:HI (reg:HI REG_SP))))]
""
"pop %0"
[(set_attr "cc" "none")
(set_attr "length" "1")])
;; Enable Interrupts
(define_insn "enable_interrupt"
[(unspec_volatile [(const_int 1)] UNSPECV_ENABLE_IRQS)]
""
"sei"
[(set_attr "length" "1")
(set_attr "cc" "none")])
;; Disable Interrupts
(define_insn "disable_interrupt"
[(unspec_volatile [(const_int 0)] UNSPECV_ENABLE_IRQS)]
""
"cli"
[(set_attr "length" "1")
(set_attr "cc" "none")])
;; Library prologue saves
(define_insn "call_prologue_saves"
[(unspec_volatile:HI [(const_int 0)] UNSPECV_PROLOGUE_SAVES)
(match_operand:HI 0 "immediate_operand" "i,i")
(set (reg:HI REG_SP)
(minus:HI (reg:HI REG_SP)
(match_operand:HI 1 "immediate_operand" "i,i")))
(use (reg:HI REG_X))
(clobber (reg:HI REG_Z))]
""
"ldi r30,lo8(gs(1f))
ldi r31,hi8(gs(1f))
%~jmp __prologue_saves__+((18 - %0) * 2)
1:"
[(set_attr "length" "5,6")
(set_attr "cc" "clobber")
(set_attr "isa" "rjmp,jmp")])
; epilogue restores using library
(define_insn "epilogue_restores"
[(unspec_volatile:QI [(const_int 0)] UNSPECV_EPILOGUE_RESTORES)
(set (reg:HI REG_Y)
(plus:HI (reg:HI REG_Y)
(match_operand:HI 0 "immediate_operand" "i,i")))
(set (reg:HI REG_SP)
(plus:HI (reg:HI REG_Y)
(match_dup 0)))
(clobber (reg:QI REG_Z))]
""
"ldi r30, lo8(%0)
%~jmp __epilogue_restores__ + ((18 - %0) * 2)"
[(set_attr "length" "2,3")
(set_attr "cc" "clobber")
(set_attr "isa" "rjmp,jmp")])
; return
(define_insn "return"
[(return)]
"reload_completed && avr_simple_epilogue ()"
"ret"
[(set_attr "cc" "none")
(set_attr "length" "1")])
(define_insn "return_from_epilogue"
[(return)]
"(reload_completed
&& cfun->machine
&& !(cfun->machine->is_interrupt || cfun->machine->is_signal)
&& !cfun->machine->is_naked)"
"ret"
[(set_attr "cc" "none")
(set_attr "length" "1")])
(define_insn "return_from_interrupt_epilogue"
[(return)]
"(reload_completed
&& cfun->machine
&& (cfun->machine->is_interrupt || cfun->machine->is_signal)
&& !cfun->machine->is_naked)"
"reti"
[(set_attr "cc" "none")
(set_attr "length" "1")])
(define_insn "return_from_naked_epilogue"
[(return)]
"(reload_completed
&& cfun->machine
&& cfun->machine->is_naked)"
""
[(set_attr "cc" "none")
(set_attr "length" "0")])
(define_expand "prologue"
[(const_int 0)]
""
{
expand_prologue ();
DONE;
})
(define_expand "epilogue"
[(const_int 0)]
""
{
expand_epilogue (false /* sibcall_p */);
DONE;
})
(define_expand "sibcall_epilogue"
[(const_int 0)]
""
{
expand_epilogue (true /* sibcall_p */);
DONE;
})
;; Some instructions resp. instruction sequences available
;; via builtins.
(define_insn "delay_cycles_1"
[(unspec_volatile [(match_operand:QI 0 "const_int_operand" "n")
(const_int 1)]
UNSPECV_DELAY_CYCLES)
(clobber (match_scratch:QI 1 "=&d"))]
""
"ldi %1,lo8(%0)
1: dec %1
brne 1b"
[(set_attr "length" "3")
(set_attr "cc" "clobber")])
(define_insn "delay_cycles_2"
[(unspec_volatile [(match_operand:HI 0 "const_int_operand" "n")
(const_int 2)]
UNSPECV_DELAY_CYCLES)
(clobber (match_scratch:HI 1 "=&w"))]
""
"ldi %A1,lo8(%0)
ldi %B1,hi8(%0)
1: sbiw %A1,1
brne 1b"
[(set_attr "length" "4")
(set_attr "cc" "clobber")])
(define_insn "delay_cycles_3"
[(unspec_volatile [(match_operand:SI 0 "const_int_operand" "n")
(const_int 3)]
UNSPECV_DELAY_CYCLES)
(clobber (match_scratch:QI 1 "=&d"))
(clobber (match_scratch:QI 2 "=&d"))
(clobber (match_scratch:QI 3 "=&d"))]
""
"ldi %1,lo8(%0)
ldi %2,hi8(%0)
ldi %3,hlo8(%0)
1: subi %1,1
sbci %2,0
sbci %3,0
brne 1b"
[(set_attr "length" "7")
(set_attr "cc" "clobber")])
(define_insn "delay_cycles_4"
[(unspec_volatile [(match_operand:SI 0 "const_int_operand" "n")
(const_int 4)]
UNSPECV_DELAY_CYCLES)
(clobber (match_scratch:QI 1 "=&d"))
(clobber (match_scratch:QI 2 "=&d"))
(clobber (match_scratch:QI 3 "=&d"))
(clobber (match_scratch:QI 4 "=&d"))]
""
"ldi %1,lo8(%0)
ldi %2,hi8(%0)
ldi %3,hlo8(%0)
ldi %4,hhi8(%0)
1: subi %1,1
sbci %2,0
sbci %3,0
sbci %4,0
brne 1b"
[(set_attr "length" "9")
(set_attr "cc" "clobber")])
;; __builtin_avr_insert_bits
(define_insn "insert_bits"
[(set (match_operand:QI 0 "register_operand" "=r ,d ,r")
(unspec:QI [(match_operand:SI 1 "const_int_operand" "C0f,Cxf,C0f")
(match_operand:QI 2 "register_operand" "r ,r ,r")
(match_operand:QI 3 "nonmemory_operand" "n ,0 ,0")]
UNSPEC_INSERT_BITS))]
""
{
return avr_out_insert_bits (operands, NULL);
}
[(set_attr "adjust_len" "insert_bits")
(set_attr "cc" "clobber")])
;; Parity
;; Postpone expansion of 16-bit parity to libgcc call until after combine for
;; better 8-bit parity recognition.
(define_expand "parityhi2"
[(parallel [(set (match_operand:HI 0 "register_operand" "")
(parity:HI (match_operand:HI 1 "register_operand" "")))
(clobber (reg:HI 24))])])
(define_insn_and_split "*parityhi2"
[(set (match_operand:HI 0 "register_operand" "=r")
(parity:HI (match_operand:HI 1 "register_operand" "r")))
(clobber (reg:HI 24))]
"!reload_completed"
{ gcc_unreachable(); }
"&& 1"
[(set (reg:HI 24)
(match_dup 1))
(set (reg:HI 24)
(parity:HI (reg:HI 24)))
(set (match_dup 0)
(reg:HI 24))])
(define_insn_and_split "*parityqihi2"
[(set (match_operand:HI 0 "register_operand" "=r")
(parity:HI (match_operand:QI 1 "register_operand" "r")))
(clobber (reg:HI 24))]
"!reload_completed"
{ gcc_unreachable(); }
"&& 1"
[(set (reg:QI 24)
(match_dup 1))
(set (reg:HI 24)
(zero_extend:HI (parity:QI (reg:QI 24))))
(set (match_dup 0)
(reg:HI 24))])
(define_expand "paritysi2"
[(set (reg:SI 22)
(match_operand:SI 1 "register_operand" ""))
(set (reg:HI 24)
(truncate:HI (parity:SI (reg:SI 22))))
(set (match_dup 2)
(reg:HI 24))
(set (match_operand:SI 0 "register_operand" "")
(zero_extend:SI (match_dup 2)))]
""
{
operands[2] = gen_reg_rtx (HImode);
})
(define_insn "*parityhi2.libgcc"
[(set (reg:HI 24)
(parity:HI (reg:HI 24)))]
""
"%~call __parityhi2"
[(set_attr "type" "xcall")
(set_attr "cc" "clobber")])
(define_insn "*parityqihi2.libgcc"
[(set (reg:HI 24)
(zero_extend:HI (parity:QI (reg:QI 24))))]
""
"%~call __parityqi2"
[(set_attr "type" "xcall")
(set_attr "cc" "clobber")])
(define_insn "*paritysihi2.libgcc"
[(set (reg:HI 24)
(truncate:HI (parity:SI (reg:SI 22))))]
""
"%~call __paritysi2"
[(set_attr "type" "xcall")
(set_attr "cc" "clobber")])
;; Popcount
(define_expand "popcounthi2"
[(set (reg:HI 24)
(match_operand:HI 1 "register_operand" ""))
(set (reg:HI 24)
(popcount:HI (reg:HI 24)))
(set (match_operand:HI 0 "register_operand" "")
(reg:HI 24))]
""
"")
(define_expand "popcountsi2"
[(set (reg:SI 22)
(match_operand:SI 1 "register_operand" ""))
(set (reg:HI 24)
(truncate:HI (popcount:SI (reg:SI 22))))
(set (match_dup 2)
(reg:HI 24))
(set (match_operand:SI 0 "register_operand" "")
(zero_extend:SI (match_dup 2)))]
""
{
operands[2] = gen_reg_rtx (HImode);
})
(define_insn "*popcounthi2.libgcc"
[(set (reg:HI 24)
(popcount:HI (reg:HI 24)))]
""
"%~call __popcounthi2"
[(set_attr "type" "xcall")
(set_attr "cc" "clobber")])
(define_insn "*popcountsi2.libgcc"
[(set (reg:HI 24)
(truncate:HI (popcount:SI (reg:SI 22))))]
""
"%~call __popcountsi2"
[(set_attr "type" "xcall")
(set_attr "cc" "clobber")])
(define_insn "*popcountqi2.libgcc"
[(set (reg:QI 24)
(popcount:QI (reg:QI 24)))]
""
"%~call __popcountqi2"
[(set_attr "type" "xcall")
(set_attr "cc" "clobber")])
(define_insn_and_split "*popcountqihi2.libgcc"
[(set (reg:HI 24)
(zero_extend:HI (popcount:QI (reg:QI 24))))]
""
"#"
""
[(set (reg:QI 24)
(popcount:QI (reg:QI 24)))
(set (reg:QI 25)
(const_int 0))]
"")
;; Count Leading Zeros
(define_expand "clzhi2"
[(set (reg:HI 24)
(match_operand:HI 1 "register_operand" ""))
(parallel [(set (reg:HI 24)
(clz:HI (reg:HI 24)))
(clobber (reg:QI 26))])
(set (match_operand:HI 0 "register_operand" "")
(reg:HI 24))]
""
"")
(define_expand "clzsi2"
[(set (reg:SI 22)
(match_operand:SI 1 "register_operand" ""))
(parallel [(set (reg:HI 24)
(truncate:HI (clz:SI (reg:SI 22))))
(clobber (reg:QI 26))])
(set (match_dup 2)
(reg:HI 24))
(set (match_operand:SI 0 "register_operand" "")
(zero_extend:SI (match_dup 2)))]
""
{
operands[2] = gen_reg_rtx (HImode);
})
(define_insn "*clzhi2.libgcc"
[(set (reg:HI 24)
(clz:HI (reg:HI 24)))
(clobber (reg:QI 26))]
""
"%~call __clzhi2"
[(set_attr "type" "xcall")
(set_attr "cc" "clobber")])
(define_insn "*clzsihi2.libgcc"
[(set (reg:HI 24)
(truncate:HI (clz:SI (reg:SI 22))))
(clobber (reg:QI 26))]
""
"%~call __clzsi2"
[(set_attr "type" "xcall")
(set_attr "cc" "clobber")])
;; Count Trailing Zeros
(define_expand "ctzhi2"
[(set (reg:HI 24)
(match_operand:HI 1 "register_operand" ""))
(parallel [(set (reg:HI 24)
(ctz:HI (reg:HI 24)))
(clobber (reg:QI 26))])
(set (match_operand:HI 0 "register_operand" "")
(reg:HI 24))]
""
"")
(define_expand "ctzsi2"
[(set (reg:SI 22)
(match_operand:SI 1 "register_operand" ""))
(parallel [(set (reg:HI 24)
(truncate:HI (ctz:SI (reg:SI 22))))
(clobber (reg:QI 22))
(clobber (reg:QI 26))])
(set (match_dup 2)
(reg:HI 24))
(set (match_operand:SI 0 "register_operand" "")
(zero_extend:SI (match_dup 2)))]
""
{
operands[2] = gen_reg_rtx (HImode);
})
(define_insn "*ctzhi2.libgcc"
[(set (reg:HI 24)
(ctz:HI (reg:HI 24)))
(clobber (reg:QI 26))]
""
"%~call __ctzhi2"
[(set_attr "type" "xcall")
(set_attr "cc" "clobber")])
(define_insn "*ctzsihi2.libgcc"
[(set (reg:HI 24)
(truncate:HI (ctz:SI (reg:SI 22))))
(clobber (reg:QI 22))
(clobber (reg:QI 26))]
""
"%~call __ctzsi2"
[(set_attr "type" "xcall")
(set_attr "cc" "clobber")])
;; Find First Set
(define_expand "ffshi2"
[(set (reg:HI 24)
(match_operand:HI 1 "register_operand" ""))
(parallel [(set (reg:HI 24)
(ffs:HI (reg:HI 24)))
(clobber (reg:QI 26))])
(set (match_operand:HI 0 "register_operand" "")
(reg:HI 24))]
""
"")
(define_expand "ffssi2"
[(set (reg:SI 22)
(match_operand:SI 1 "register_operand" ""))
(parallel [(set (reg:HI 24)
(truncate:HI (ffs:SI (reg:SI 22))))
(clobber (reg:QI 22))
(clobber (reg:QI 26))])
(set (match_dup 2)
(reg:HI 24))
(set (match_operand:SI 0 "register_operand" "")
(zero_extend:SI (match_dup 2)))]
""
{
operands[2] = gen_reg_rtx (HImode);
})
(define_insn "*ffshi2.libgcc"
[(set (reg:HI 24)
(ffs:HI (reg:HI 24)))
(clobber (reg:QI 26))]
""
"%~call __ffshi2"
[(set_attr "type" "xcall")
(set_attr "cc" "clobber")])
(define_insn "*ffssihi2.libgcc"
[(set (reg:HI 24)
(truncate:HI (ffs:SI (reg:SI 22))))
(clobber (reg:QI 22))
(clobber (reg:QI 26))]
""
"%~call __ffssi2"
[(set_attr "type" "xcall")
(set_attr "cc" "clobber")])
;; Copysign
(define_insn "copysignsf3"
[(set (match_operand:SF 0 "register_operand" "=r")
(unspec:SF [(match_operand:SF 1 "register_operand" "0")
(match_operand:SF 2 "register_operand" "r")]
UNSPEC_COPYSIGN))]
""
"bst %D2,7\;bld %D0,7"
[(set_attr "length" "2")
(set_attr "cc" "none")])
;; Swap Bytes (change byte-endianess)
(define_expand "bswapsi2"
[(set (reg:SI 22)
(match_operand:SI 1 "register_operand" ""))
(set (reg:SI 22)
(bswap:SI (reg:SI 22)))
(set (match_operand:SI 0 "register_operand" "")
(reg:SI 22))]
""
"")
(define_insn "*bswapsi2.libgcc"
[(set (reg:SI 22)
(bswap:SI (reg:SI 22)))]
""
"%~call __bswapsi2"
[(set_attr "type" "xcall")
(set_attr "cc" "clobber")])
;; CPU instructions
;; NOP taking 1 or 2 Ticks
(define_insn "nopv"
[(unspec_volatile [(match_operand:SI 0 "const_int_operand" "P,K")]
UNSPECV_NOP)]
""
"@
nop
rjmp ."
[(set_attr "length" "1")
(set_attr "cc" "none")])
;; SLEEP
(define_insn "sleep"
[(unspec_volatile [(const_int 0)] UNSPECV_SLEEP)]
""
"sleep"
[(set_attr "length" "1")
(set_attr "cc" "none")])
;; WDR
(define_insn "wdr"
[(unspec_volatile [(const_int 0)] UNSPECV_WDR)]
""
"wdr"
[(set_attr "length" "1")
(set_attr "cc" "none")])
;; FMUL
(define_expand "fmul"
[(set (reg:QI 24)
(match_operand:QI 1 "register_operand" ""))
(set (reg:QI 25)
(match_operand:QI 2 "register_operand" ""))
(parallel [(set (reg:HI 22)
(unspec:HI [(reg:QI 24)
(reg:QI 25)] UNSPEC_FMUL))
(clobber (reg:HI 24))])
(set (match_operand:HI 0 "register_operand" "")
(reg:HI 22))]
""
{
if (AVR_HAVE_MUL)
{
emit_insn (gen_fmul_insn (operand0, operand1, operand2));
DONE;
}
})
(define_insn "fmul_insn"
[(set (match_operand:HI 0 "register_operand" "=r")
(unspec:HI [(match_operand:QI 1 "register_operand" "a")
(match_operand:QI 2 "register_operand" "a")]
UNSPEC_FMUL))]
"AVR_HAVE_MUL"
"fmul %1,%2
movw %0,r0
clr __zero_reg__"
[(set_attr "length" "3")
(set_attr "cc" "clobber")])
(define_insn "*fmul.call"
[(set (reg:HI 22)
(unspec:HI [(reg:QI 24)
(reg:QI 25)] UNSPEC_FMUL))
(clobber (reg:HI 24))]
"!AVR_HAVE_MUL"
"%~call __fmul"
[(set_attr "type" "xcall")
(set_attr "cc" "clobber")])
;; FMULS
(define_expand "fmuls"
[(set (reg:QI 24)
(match_operand:QI 1 "register_operand" ""))
(set (reg:QI 25)
(match_operand:QI 2 "register_operand" ""))
(parallel [(set (reg:HI 22)
(unspec:HI [(reg:QI 24)
(reg:QI 25)] UNSPEC_FMULS))
(clobber (reg:HI 24))])
(set (match_operand:HI 0 "register_operand" "")
(reg:HI 22))]
""
{
if (AVR_HAVE_MUL)
{
emit_insn (gen_fmuls_insn (operand0, operand1, operand2));
DONE;
}
})
(define_insn "fmuls_insn"
[(set (match_operand:HI 0 "register_operand" "=r")
(unspec:HI [(match_operand:QI 1 "register_operand" "a")
(match_operand:QI 2 "register_operand" "a")]
UNSPEC_FMULS))]
"AVR_HAVE_MUL"
"fmuls %1,%2
movw %0,r0
clr __zero_reg__"
[(set_attr "length" "3")
(set_attr "cc" "clobber")])
(define_insn "*fmuls.call"
[(set (reg:HI 22)
(unspec:HI [(reg:QI 24)
(reg:QI 25)] UNSPEC_FMULS))
(clobber (reg:HI 24))]
"!AVR_HAVE_MUL"
"%~call __fmuls"
[(set_attr "type" "xcall")
(set_attr "cc" "clobber")])
;; FMULSU
(define_expand "fmulsu"
[(set (reg:QI 24)
(match_operand:QI 1 "register_operand" ""))
(set (reg:QI 25)
(match_operand:QI 2 "register_operand" ""))
(parallel [(set (reg:HI 22)
(unspec:HI [(reg:QI 24)
(reg:QI 25)] UNSPEC_FMULSU))
(clobber (reg:HI 24))])
(set (match_operand:HI 0 "register_operand" "")
(reg:HI 22))]
""
{
if (AVR_HAVE_MUL)
{
emit_insn (gen_fmulsu_insn (operand0, operand1, operand2));
DONE;
}
})
(define_insn "fmulsu_insn"
[(set (match_operand:HI 0 "register_operand" "=r")
(unspec:HI [(match_operand:QI 1 "register_operand" "a")
(match_operand:QI 2 "register_operand" "a")]
UNSPEC_FMULSU))]
"AVR_HAVE_MUL"
"fmulsu %1,%2
movw %0,r0
clr __zero_reg__"
[(set_attr "length" "3")
(set_attr "cc" "clobber")])
(define_insn "*fmulsu.call"
[(set (reg:HI 22)
(unspec:HI [(reg:QI 24)
(reg:QI 25)] UNSPEC_FMULSU))
(clobber (reg:HI 24))]
"!AVR_HAVE_MUL"
"%~call __fmulsu"
[(set_attr "type" "xcall")
(set_attr "cc" "clobber")])
;; Some combiner patterns dealing with bits.
;; See PR42210
;; Move bit $3.0 into bit $0.$4
(define_insn "*movbitqi.1-6.a"
[(set (match_operand:QI 0 "register_operand" "=r")
(ior:QI (and:QI (match_operand:QI 1 "register_operand" "0")
(match_operand:QI 2 "single_zero_operand" "n"))
(and:QI (ashift:QI (match_operand:QI 3 "register_operand" "r")
(match_operand:QI 4 "const_0_to_7_operand" "n"))
(match_operand:QI 5 "single_one_operand" "n"))))]
"INTVAL(operands[4]) == exact_log2 (~INTVAL(operands[2]) & GET_MODE_MASK (QImode))
&& INTVAL(operands[4]) == exact_log2 (INTVAL(operands[5]) & GET_MODE_MASK (QImode))"
"bst %3,0\;bld %0,%4"
[(set_attr "length" "2")
(set_attr "cc" "none")])
;; Move bit $3.0 into bit $0.$4
;; Variation of above. Unfortunately, there is no canonicalized representation
;; of moving around bits. So what we see here depends on how user writes down
;; bit manipulations.
(define_insn "*movbitqi.1-6.b"
[(set (match_operand:QI 0 "register_operand" "=r")
(ior:QI (and:QI (match_operand:QI 1 "register_operand" "0")
(match_operand:QI 2 "single_zero_operand" "n"))
(ashift:QI (and:QI (match_operand:QI 3 "register_operand" "r")
(const_int 1))
(match_operand:QI 4 "const_0_to_7_operand" "n"))))]
"INTVAL(operands[4]) == exact_log2 (~INTVAL(operands[2]) & GET_MODE_MASK (QImode))"
"bst %3,0\;bld %0,%4"
[(set_attr "length" "2")
(set_attr "cc" "none")])
;; Move bit $3.0 into bit $0.0.
;; For bit 0, combiner generates slightly different pattern.
(define_insn "*movbitqi.0"
[(set (match_operand:QI 0 "register_operand" "=r")
(ior:QI (and:QI (match_operand:QI 1 "register_operand" "0")
(match_operand:QI 2 "single_zero_operand" "n"))
(and:QI (match_operand:QI 3 "register_operand" "r")
(const_int 1))))]
"0 == exact_log2 (~INTVAL(operands[2]) & GET_MODE_MASK (QImode))"
"bst %3,0\;bld %0,0"
[(set_attr "length" "2")
(set_attr "cc" "none")])
;; Move bit $2.0 into bit $0.7.
;; For bit 7, combiner generates slightly different pattern
(define_insn "*movbitqi.7"
[(set (match_operand:QI 0 "register_operand" "=r")
(ior:QI (and:QI (match_operand:QI 1 "register_operand" "0")
(const_int 127))
(ashift:QI (match_operand:QI 2 "register_operand" "r")
(const_int 7))))]
""
"bst %2,0\;bld %0,7"
[(set_attr "length" "2")
(set_attr "cc" "none")])
;; Combiner transforms above four pattern into ZERO_EXTRACT if it sees MEM
;; and input/output match. We provide a special pattern for this, because
;; in contrast to a IN/BST/BLD/OUT sequence we need less registers and the
;; operation on I/O is atomic.
(define_insn "*insv.io"
[(set (zero_extract:QI (mem:QI (match_operand 0 "low_io_address_operand" "n,n,n"))
(const_int 1)
(match_operand:QI 1 "const_0_to_7_operand" "n,n,n"))
(match_operand:QI 2 "nonmemory_operand" "L,P,r"))]
""
"@
cbi %i0,%1
sbi %i0,%1
sbrc %2,0\;sbi %i0,%1\;sbrs %2,0\;cbi %i0,%1"
[(set_attr "length" "1,1,4")
(set_attr "cc" "none")])
(define_insn "*insv.not.io"
[(set (zero_extract:QI (mem:QI (match_operand 0 "low_io_address_operand" "n"))
(const_int 1)
(match_operand:QI 1 "const_0_to_7_operand" "n"))
(not:QI (match_operand:QI 2 "register_operand" "r")))]
""
"sbrs %2,0\;sbi %i0,%1\;sbrc %2,0\;cbi %i0,%1"
[(set_attr "length" "4")
(set_attr "cc" "none")])
;; The insv expander.
;; We only support 1-bit inserts
(define_expand "insv"
[(set (zero_extract:QI (match_operand:QI 0 "register_operand" "")
(match_operand:QI 1 "const1_operand" "") ; width
(match_operand:QI 2 "const_0_to_7_operand" "")) ; pos
(match_operand:QI 3 "nonmemory_operand" ""))]
"optimize"
"")
;; Insert bit $2.0 into $0.$1
(define_insn "*insv.reg"
[(set (zero_extract:QI (match_operand:QI 0 "register_operand" "+r,d,d,l,l")
(const_int 1)
(match_operand:QI 1 "const_0_to_7_operand" "n,n,n,n,n"))
(match_operand:QI 2 "nonmemory_operand" "r,L,P,L,P"))]
""
"@
bst %2,0\;bld %0,%1
andi %0,lo8(~(1<<%1))
ori %0,lo8(1<<%1)
clt\;bld %0,%1
set\;bld %0,%1"
[(set_attr "length" "2,1,1,2,2")
(set_attr "cc" "none,set_zn,set_zn,none,none")])
;; Some combine patterns that try to fix bad code when a value is composed
;; from byte parts like in PR27663.
;; The patterns give some release but the code still is not optimal,
;; in particular when subreg lowering (-fsplit-wide-types) is turned on.
;; That switch obfuscates things here and in many other places.
;; "*iorhiqi.byte0" "*iorpsiqi.byte0" "*iorsiqi.byte0"
;; "*xorhiqi.byte0" "*xorpsiqi.byte0" "*xorsiqi.byte0"
(define_insn_and_split "*<code_stdname><mode>qi.byte0"
[(set (match_operand:HISI 0 "register_operand" "=r")
(xior:HISI
(zero_extend:HISI (match_operand:QI 1 "register_operand" "r"))
(match_operand:HISI 2 "register_operand" "0")))]
""
"#"
"reload_completed"
[(set (match_dup 3)
(xior:QI (match_dup 3)
(match_dup 1)))]
{
operands[3] = simplify_gen_subreg (QImode, operands[0], <MODE>mode, 0);
})
;; "*iorhiqi.byte1-3" "*iorpsiqi.byte1-3" "*iorsiqi.byte1-3"
;; "*xorhiqi.byte1-3" "*xorpsiqi.byte1-3" "*xorsiqi.byte1-3"
(define_insn_and_split "*<code_stdname><mode>qi.byte1-3"
[(set (match_operand:HISI 0 "register_operand" "=r")
(xior:HISI
(ashift:HISI (zero_extend:HISI (match_operand:QI 1 "register_operand" "r"))
(match_operand:QI 2 "const_8_16_24_operand" "n"))
(match_operand:HISI 3 "register_operand" "0")))]
"INTVAL(operands[2]) < GET_MODE_BITSIZE (<MODE>mode)"
"#"
"&& reload_completed"
[(set (match_dup 4)
(xior:QI (match_dup 4)
(match_dup 1)))]
{
int byteno = INTVAL(operands[2]) / BITS_PER_UNIT;
operands[4] = simplify_gen_subreg (QImode, operands[0], <MODE>mode, byteno);
})
(define_expand "extzv"
[(set (match_operand:QI 0 "register_operand" "")
(zero_extract:QI (match_operand:QI 1 "register_operand" "")
(match_operand:QI 2 "const1_operand" "")
(match_operand:QI 3 "const_0_to_7_operand" "")))]
""
"")
(define_insn "*extzv"
[(set (match_operand:QI 0 "register_operand" "=*d,*d,*d,*d,r")
(zero_extract:QI (match_operand:QI 1 "register_operand" "0,r,0,0,r")
(const_int 1)
(match_operand:QI 2 "const_0_to_7_operand" "L,L,P,C04,n")))]
""
"@
andi %0,1
mov %0,%1\;andi %0,1
lsr %0\;andi %0,1
swap %0\;andi %0,1
bst %1,%2\;clr %0\;bld %0,0"
[(set_attr "length" "1,2,2,2,3")
(set_attr "cc" "set_zn,set_zn,set_zn,set_zn,clobber")])
(define_insn_and_split "*extzv.qihi1"
[(set (match_operand:HI 0 "register_operand" "=r")
(zero_extract:HI (match_operand:QI 1 "register_operand" "r")
(const_int 1)
(match_operand:QI 2 "const_0_to_7_operand" "n")))]
""
"#"
""
[(set (match_dup 3)
(zero_extract:QI (match_dup 1)
(const_int 1)
(match_dup 2)))
(set (match_dup 4)
(const_int 0))]
{
operands[3] = simplify_gen_subreg (QImode, operands[0], HImode, 0);
operands[4] = simplify_gen_subreg (QImode, operands[0], HImode, 1);
})
(define_insn_and_split "*extzv.qihi2"
[(set (match_operand:HI 0 "register_operand" "=r")
(zero_extend:HI
(zero_extract:QI (match_operand:QI 1 "register_operand" "r")
(const_int 1)
(match_operand:QI 2 "const_0_to_7_operand" "n"))))]
""
"#"
""
[(set (match_dup 3)
(zero_extract:QI (match_dup 1)
(const_int 1)
(match_dup 2)))
(set (match_dup 4)
(const_int 0))]
{
operands[3] = simplify_gen_subreg (QImode, operands[0], HImode, 0);
operands[4] = simplify_gen_subreg (QImode, operands[0], HImode, 1);
})
(include "avr-dimode.md")
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