[V4,1/3] rs6000: accurate num_insns_constant_gpr
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Commit Message
Hi,
Trunk gcc supports more constants to be built via two instructions:
e.g. "li/lis; xori/xoris/rldicl/rldicr/rldic".
And then num_insns_constant should also be updated.
Function "rs6000_emit_set_long_const" is used to build complicated
constants; and "num_insns_constant_gpr" is used to compute 'how
many instructions are needed" to build the constant. So, these
two functions should be aligned.
The idea of this patch is: to reuse "rs6000_emit_set_long_const" to
compute/record the instruction number(when computing the insn_num,
then do not emit instructions).
Compare with the previous version,
https://gcc.gnu.org/pipermail/gcc-patches/2023-December/639491.html
this version updates a lambda usage and comments.
Bootstrap & regtest pass ppc64{,le}.
Is this ok for trunk?
BR,
Jeff (Jiufu Guo)
gcc/ChangeLog:
* config/rs6000/rs6000.cc (rs6000_emit_set_long_const): Add new
parameter to record number of instructions to build the constant.
(num_insns_constant_gpr): Call rs6000_emit_set_long_const to compute
num_insn.
---
gcc/config/rs6000/rs6000.cc | 284 ++++++++++++++++++------------------
1 file changed, 146 insertions(+), 138 deletions(-)
Comments
Hi Jeff,
on 2023/12/11 11:26, Jiufu Guo wrote:
> Hi,
>
> Trunk gcc supports more constants to be built via two instructions:
> e.g. "li/lis; xori/xoris/rldicl/rldicr/rldic".
> And then num_insns_constant should also be updated.
>
> Function "rs6000_emit_set_long_const" is used to build complicated
> constants; and "num_insns_constant_gpr" is used to compute 'how
> many instructions are needed" to build the constant. So, these
> two functions should be aligned.
>
> The idea of this patch is: to reuse "rs6000_emit_set_long_const" to
> compute/record the instruction number(when computing the insn_num,
> then do not emit instructions).
>
> Compare with the previous version,
> https://gcc.gnu.org/pipermail/gcc-patches/2023-December/639491.html
> this version updates a lambda usage and comments.
>
> Bootstrap & regtest pass ppc64{,le}.
> Is this ok for trunk?
OK for trunk, thanks for the patience.
BR,
Kewen
>
> BR,
> Jeff (Jiufu Guo)
>
> gcc/ChangeLog:
>
> * config/rs6000/rs6000.cc (rs6000_emit_set_long_const): Add new
> parameter to record number of instructions to build the constant.
> (num_insns_constant_gpr): Call rs6000_emit_set_long_const to compute
> num_insn.
>
> ---
> gcc/config/rs6000/rs6000.cc | 284 ++++++++++++++++++------------------
> 1 file changed, 146 insertions(+), 138 deletions(-)
>
> diff --git a/gcc/config/rs6000/rs6000.cc b/gcc/config/rs6000/rs6000.cc
> index cee22c359f3..1e3d1f7fc08 100644
> --- a/gcc/config/rs6000/rs6000.cc
> +++ b/gcc/config/rs6000/rs6000.cc
> @@ -1115,7 +1115,7 @@ static tree rs6000_handle_longcall_attribute (tree *, tree, tree, int, bool *);
> static tree rs6000_handle_altivec_attribute (tree *, tree, tree, int, bool *);
> static tree rs6000_handle_struct_attribute (tree *, tree, tree, int, bool *);
> static tree rs6000_builtin_vectorized_libmass (combined_fn, tree, tree);
> -static void rs6000_emit_set_long_const (rtx, HOST_WIDE_INT);
> +static void rs6000_emit_set_long_const (rtx, HOST_WIDE_INT, int * = nullptr);
> static int rs6000_memory_move_cost (machine_mode, reg_class_t, bool);
> static bool rs6000_debug_rtx_costs (rtx, machine_mode, int, int, int *, bool);
> static int rs6000_debug_address_cost (rtx, machine_mode, addr_space_t,
> @@ -6054,21 +6054,9 @@ num_insns_constant_gpr (HOST_WIDE_INT value)
>
> else if (TARGET_POWERPC64)
> {
> - HOST_WIDE_INT low = sext_hwi (value, 32);
> - HOST_WIDE_INT high = value >> 31;
> -
> - if (high == 0 || high == -1)
> - return 2;
> -
> - high >>= 1;
> -
> - if (low == 0 || low == high)
> - return num_insns_constant_gpr (high) + 1;
> - else if (high == 0)
> - return num_insns_constant_gpr (low) + 1;
> - else
> - return (num_insns_constant_gpr (high)
> - + num_insns_constant_gpr (low) + 1);
> + int num_insns = 0;
> + rs6000_emit_set_long_const (nullptr, value, &num_insns);
> + return num_insns;
> }
>
> else
> @@ -10494,14 +10482,13 @@ can_be_built_by_li_and_rldic (HOST_WIDE_INT c, int *shift, HOST_WIDE_INT *mask)
>
> /* Subroutine of rs6000_emit_set_const, handling PowerPC64 DImode.
> Output insns to set DEST equal to the constant C as a series of
> - lis, ori and shl instructions. */
> + lis, ori and shl instructions. If NUM_INSNS is not NULL, then
> + only increase *NUM_INSNS as the number of insns, and do not emit
> + any insns. */
>
> static void
> -rs6000_emit_set_long_const (rtx dest, HOST_WIDE_INT c)
> +rs6000_emit_set_long_const (rtx dest, HOST_WIDE_INT c, int *num_insns)
> {
> - rtx temp;
> - int shift;
> - HOST_WIDE_INT mask;
> HOST_WIDE_INT ud1, ud2, ud3, ud4;
>
> ud1 = c & 0xffff;
> @@ -10509,168 +10496,189 @@ rs6000_emit_set_long_const (rtx dest, HOST_WIDE_INT c)
> ud3 = (c >> 32) & 0xffff;
> ud4 = (c >> 48) & 0xffff;
>
> - if ((ud4 == 0xffff && ud3 == 0xffff && ud2 == 0xffff && (ud1 & 0x8000))
> - || (ud4 == 0 && ud3 == 0 && ud2 == 0 && ! (ud1 & 0x8000)))
> - emit_move_insn (dest, GEN_INT (sext_hwi (ud1, 16)));
> + /* This lambda is used to emit one insn or just increase the insn count.
> + When counting the insn number, no need to emit the insn. */
> + auto count_or_emit_insn = [&num_insns] (rtx dest_or_insn, rtx src = nullptr) {
> + if (num_insns)
> + {
> + (*num_insns)++;
> + return;
> + }
> +
> + if (src)
> + emit_move_insn (dest_or_insn, src);
> + else
> + emit_insn (dest_or_insn);
> + };
>
> - else if ((ud4 == 0xffff && ud3 == 0xffff && (ud2 & 0x8000))
> - || (ud4 == 0 && ud3 == 0 && ! (ud2 & 0x8000)))
> + if ((ud4 == 0xffff && ud3 == 0xffff && ud2 == 0xffff && (ud1 & 0x8000))
> + || (ud4 == 0 && ud3 == 0 && ud2 == 0 && !(ud1 & 0x8000)))
> {
> - temp = !can_create_pseudo_p () ? dest : gen_reg_rtx (DImode);
> + /* li */
> + count_or_emit_insn (dest, GEN_INT (sext_hwi (ud1, 16)));
> + return;
> + }
> +
> + rtx temp
> + = (num_insns || !can_create_pseudo_p ()) ? dest : gen_reg_rtx (DImode);
>
> - emit_move_insn (ud1 != 0 ? temp : dest,
> - GEN_INT (sext_hwi (ud2 << 16, 32)));
> + if ((ud4 == 0xffff && ud3 == 0xffff && (ud2 & 0x8000))
> + || (ud4 == 0 && ud3 == 0 && !(ud2 & 0x8000)))
> + {
> + /* lis[; ori] */
> + count_or_emit_insn (ud1 != 0 ? temp : dest,
> + GEN_INT (sext_hwi (ud2 << 16, 32)));
> if (ud1 != 0)
> - emit_move_insn (dest, gen_rtx_IOR (DImode, temp, GEN_INT (ud1)));
> + count_or_emit_insn (dest, gen_rtx_IOR (DImode, temp, GEN_INT (ud1)));
> + return;
> }
> - else if (ud4 == 0xffff && ud3 == 0xffff && !(ud2 & 0x8000) && ud1 == 0)
> +
> + if (ud4 == 0xffff && ud3 == 0xffff && !(ud2 & 0x8000) && ud1 == 0)
> {
> /* lis; xoris */
> - temp = !can_create_pseudo_p () ? dest : gen_reg_rtx (DImode);
> - emit_move_insn (temp, GEN_INT (sext_hwi ((ud2 | 0x8000) << 16, 32)));
> - emit_move_insn (dest, gen_rtx_XOR (DImode, temp, GEN_INT (0x80000000)));
> + count_or_emit_insn (temp, GEN_INT (sext_hwi ((ud2 | 0x8000) << 16, 32)));
> + count_or_emit_insn (dest,
> + gen_rtx_XOR (DImode, temp, GEN_INT (0x80000000)));
> + return;
> }
> - else if (ud4 == 0xffff && ud3 == 0xffff && (ud1 & 0x8000))
> +
> + if (ud4 == 0xffff && ud3 == 0xffff && (ud1 & 0x8000))
> {
> /* li; xoris */
> - temp = !can_create_pseudo_p () ? dest : gen_reg_rtx (DImode);
> - emit_move_insn (temp, GEN_INT (sext_hwi (ud1, 16)));
> - emit_move_insn (dest, gen_rtx_XOR (DImode, temp,
> - GEN_INT ((ud2 ^ 0xffff) << 16)));
> + count_or_emit_insn (temp, GEN_INT (sext_hwi (ud1, 16)));
> + count_or_emit_insn (dest, gen_rtx_XOR (DImode, temp,
> + GEN_INT ((ud2 ^ 0xffff) << 16)));
> + return;
> }
> - else if (can_be_built_by_li_lis_and_rotldi (c, &shift, &mask)
> - || can_be_built_by_li_lis_and_rldicl (c, &shift, &mask)
> - || can_be_built_by_li_lis_and_rldicr (c, &shift, &mask)
> - || can_be_built_by_li_and_rldic (c, &shift, &mask))
> +
> + int shift;
> + HOST_WIDE_INT mask;
> + if (can_be_built_by_li_lis_and_rotldi (c, &shift, &mask)
> + || can_be_built_by_li_lis_and_rldicl (c, &shift, &mask)
> + || can_be_built_by_li_lis_and_rldicr (c, &shift, &mask)
> + || can_be_built_by_li_and_rldic (c, &shift, &mask))
> {
> - temp = !can_create_pseudo_p () ? dest : gen_reg_rtx (DImode);
> + /* li/lis; rldicX */
> unsigned HOST_WIDE_INT imm = (c | ~mask);
> imm = (imm >> shift) | (imm << (HOST_BITS_PER_WIDE_INT - shift));
>
> - emit_move_insn (temp, GEN_INT (imm));
> + count_or_emit_insn (temp, GEN_INT (imm));
> if (shift != 0)
> temp = gen_rtx_ROTATE (DImode, temp, GEN_INT (shift));
> if (mask != HOST_WIDE_INT_M1)
> temp = gen_rtx_AND (DImode, temp, GEN_INT (mask));
> - emit_move_insn (dest, temp);
> - }
> - else if (ud3 == 0 && ud4 == 0)
> - {
> - temp = !can_create_pseudo_p () ? dest : gen_reg_rtx (DImode);
> + count_or_emit_insn (dest, temp);
>
> - gcc_assert (ud2 & 0x8000);
> + return;
> + }
>
> - if (ud1 == 0)
> - {
> - /* lis; rldicl */
> - emit_move_insn (temp, GEN_INT (sext_hwi (ud2 << 16, 32)));
> - emit_move_insn (dest,
> - gen_rtx_AND (DImode, temp, GEN_INT (0xffffffff)));
> - }
> - else if (!(ud1 & 0x8000))
> + if (ud3 == 0 && ud4 == 0)
> + {
> + gcc_assert ((ud2 & 0x8000) && ud1 != 0);
> + if (!(ud1 & 0x8000))
> {
> /* li; oris */
> - emit_move_insn (temp, GEN_INT (ud1));
> - emit_move_insn (dest,
> - gen_rtx_IOR (DImode, temp, GEN_INT (ud2 << 16)));
> + count_or_emit_insn (temp, GEN_INT (ud1));
> + count_or_emit_insn (dest,
> + gen_rtx_IOR (DImode, temp, GEN_INT (ud2 << 16)));
> + return;
> }
> - else
> - {
> - /* lis; ori; rldicl */
> - emit_move_insn (temp, GEN_INT (sext_hwi (ud2 << 16, 32)));
> - emit_move_insn (temp, gen_rtx_IOR (DImode, temp, GEN_INT (ud1)));
> - emit_move_insn (dest,
> +
> + /* lis; ori; rldicl */
> + count_or_emit_insn (temp, GEN_INT (sext_hwi (ud2 << 16, 32)));
> + count_or_emit_insn (temp, gen_rtx_IOR (DImode, temp, GEN_INT (ud1)));
> + count_or_emit_insn (dest,
> gen_rtx_AND (DImode, temp, GEN_INT (0xffffffff)));
> - }
> + return;
> }
> - else if (ud1 == ud3 && ud2 == ud4)
> +
> + if (ud1 == ud3 && ud2 == ud4)
> {
> - temp = !can_create_pseudo_p () ? dest : gen_reg_rtx (DImode);
> + /* load low 32bits first, e.g. "lis; ori", then "rldimi". */
> HOST_WIDE_INT num = (ud2 << 16) | ud1;
> - rs6000_emit_set_long_const (temp, sext_hwi (num, 32));
> - rtx one = gen_rtx_AND (DImode, temp, GEN_INT (0xffffffff));
> - rtx two = gen_rtx_ASHIFT (DImode, temp, GEN_INT (32));
> - emit_move_insn (dest, gen_rtx_IOR (DImode, one, two));
> + rs6000_emit_set_long_const (temp, sext_hwi (num, 32), num_insns);
> +
> + rtx rldimi = gen_rotldi3_insert_3 (dest, temp, GEN_INT (32), temp,
> + GEN_INT (0xffffffff));
> + count_or_emit_insn (rldimi);
> + return;
> }
> - else if ((ud4 == 0xffff && (ud3 & 0x8000))
> - || (ud4 == 0 && ! (ud3 & 0x8000)))
> - {
> - temp = !can_create_pseudo_p () ? dest : gen_reg_rtx (DImode);
>
> - emit_move_insn (temp, GEN_INT (sext_hwi (ud3 << 16, 32)));
> + if ((ud4 == 0xffff && (ud3 & 0x8000)) || (ud4 == 0 && !(ud3 & 0x8000)))
> + {
> + /* li; [ori;] rldicl [;oir]. */
> + count_or_emit_insn (temp, GEN_INT (sext_hwi (ud3 << 16, 32)));
> if (ud2 != 0)
> - emit_move_insn (temp, gen_rtx_IOR (DImode, temp, GEN_INT (ud2)));
> - emit_move_insn (ud1 != 0 ? temp : dest,
> - gen_rtx_ASHIFT (DImode, temp, GEN_INT (16)));
> + count_or_emit_insn (temp, gen_rtx_IOR (DImode, temp, GEN_INT (ud2)));
> + count_or_emit_insn (ud1 != 0 ? temp : dest,
> + gen_rtx_ASHIFT (DImode, temp, GEN_INT (16)));
> if (ud1 != 0)
> - emit_move_insn (dest, gen_rtx_IOR (DImode, temp, GEN_INT (ud1)));
> + count_or_emit_insn (dest, gen_rtx_IOR (DImode, temp, GEN_INT (ud1)));
> + return;
> }
> - else if (TARGET_PREFIXED)
> +
> + if (TARGET_PREFIXED)
> {
> if (can_create_pseudo_p ())
> {
> - /* pli A,L + pli B,H + rldimi A,B,32,0. */
> - temp = gen_reg_rtx (DImode);
> - rtx temp1 = gen_reg_rtx (DImode);
> - emit_move_insn (temp, GEN_INT ((ud4 << 16) | ud3));
> - emit_move_insn (temp1, GEN_INT ((ud2 << 16) | ud1));
> -
> - emit_insn (gen_rotldi3_insert_3 (dest, temp, GEN_INT (32), temp1,
> - GEN_INT (0xffffffff)));
> + /* pli A,L; pli B,H; rldimi A,B,32,0. */
> + rtx temp1 = num_insns ? nullptr : gen_reg_rtx (DImode);
> + count_or_emit_insn (temp, GEN_INT ((ud4 << 16) | ud3));
> + count_or_emit_insn (temp1, GEN_INT ((ud2 << 16) | ud1));
> + rtx rldimi = gen_rotldi3_insert_3 (dest, temp, GEN_INT (32), temp1,
> + GEN_INT (0xffffffff));
> + count_or_emit_insn (rldimi);
> + return;
> }
> - else
> - {
> - /* pli A,H + sldi A,32 + paddi A,A,L. */
> - emit_move_insn (dest, GEN_INT ((ud4 << 16) | ud3));
> -
> - emit_move_insn (dest, gen_rtx_ASHIFT (DImode, dest, GEN_INT (32)));
>
> - bool can_use_paddi = REGNO (dest) != FIRST_GPR_REGNO;
> + /* pli A,H; sldi A,32; paddi A,A,L. */
> + count_or_emit_insn (dest, GEN_INT ((ud4 << 16) | ud3));
> + count_or_emit_insn (dest, gen_rtx_ASHIFT (DImode, dest, GEN_INT (32)));
>
> - /* Use paddi for the low 32 bits. */
> - if (ud2 != 0 && ud1 != 0 && can_use_paddi)
> - emit_move_insn (dest, gen_rtx_PLUS (DImode, dest,
> + bool can_use_paddi = dest ? REGNO (dest) != FIRST_GPR_REGNO : false;
> + /* Use paddi for the low 32 bits. */
> + if (ud2 != 0 && ud1 != 0 && can_use_paddi)
> + count_or_emit_insn (dest, gen_rtx_PLUS (DImode, dest,
> GEN_INT ((ud2 << 16) | ud1)));
> -
> - /* Use oris, ori for low 32 bits. */
> - if (ud2 != 0 && (ud1 == 0 || !can_use_paddi))
> - emit_move_insn (dest,
> + /* Use oris, ori for low 32 bits. */
> + if (ud2 != 0 && (ud1 == 0 || !can_use_paddi))
> + count_or_emit_insn (dest,
> gen_rtx_IOR (DImode, dest, GEN_INT (ud2 << 16)));
> - if (ud1 != 0 && (ud2 == 0 || !can_use_paddi))
> - emit_move_insn (dest, gen_rtx_IOR (DImode, dest, GEN_INT (ud1)));
> - }
> + if (ud1 != 0 && (ud2 == 0 || !can_use_paddi))
> + count_or_emit_insn (dest, gen_rtx_IOR (DImode, dest, GEN_INT (ud1)));
> + return;
> }
> - else
> +
> + if (can_create_pseudo_p ())
> {
> - if (can_create_pseudo_p ())
> - {
> - /* lis HIGH,UD4 ; ori HIGH,UD3 ;
> - lis LOW,UD2 ; ori LOW,UD1 ; rldimi LOW,HIGH,32,0. */
> - rtx high = gen_reg_rtx (DImode);
> - rtx low = gen_reg_rtx (DImode);
> - HOST_WIDE_INT num = (ud2 << 16) | ud1;
> - rs6000_emit_set_long_const (low, sext_hwi (num, 32));
> - num = (ud4 << 16) | ud3;
> - rs6000_emit_set_long_const (high, sext_hwi (num, 32));
> - emit_insn (gen_rotldi3_insert_3 (dest, high, GEN_INT (32), low,
> - GEN_INT (0xffffffff)));
> - }
> - else
> - {
> - /* lis DEST,UD4 ; ori DEST,UD3 ; rotl DEST,32 ;
> - oris DEST,UD2 ; ori DEST,UD1. */
> - emit_move_insn (dest, GEN_INT (sext_hwi (ud4 << 16, 32)));
> - if (ud3 != 0)
> - emit_move_insn (dest, gen_rtx_IOR (DImode, dest, GEN_INT (ud3)));
> + /* lis HIGH,UD4 ; ori HIGH,UD3 ;
> + lis LOW,UD2 ; ori LOW,UD1 ; rldimi LOW,HIGH,32,0. */
> + rtx high = num_insns ? nullptr : gen_reg_rtx (DImode);
> + rtx low = num_insns ? nullptr : gen_reg_rtx (DImode);
> + HOST_WIDE_INT num = (ud2 << 16) | ud1;
> + rs6000_emit_set_long_const (low, sext_hwi (num, 32), num_insns);
> + num = (ud4 << 16) | ud3;
> + rs6000_emit_set_long_const (high, sext_hwi (num, 32), num_insns);
>
> - emit_move_insn (dest, gen_rtx_ASHIFT (DImode, dest, GEN_INT (32)));
> - if (ud2 != 0)
> - emit_move_insn (dest,
> - gen_rtx_IOR (DImode, dest, GEN_INT (ud2 << 16)));
> - if (ud1 != 0)
> - emit_move_insn (dest, gen_rtx_IOR (DImode, dest, GEN_INT (ud1)));
> - }
> + rtx rldimi = gen_rotldi3_insert_3 (dest, high, GEN_INT (32), low,
> + GEN_INT (0xffffffff));
> + count_or_emit_insn (rldimi);
> + return;
> }
> +
> + /* lis DEST,UD4 ; ori DEST,UD3 ; rotl DEST,32 ;
> + oris DEST,UD2 ; ori DEST,UD1. */
> + count_or_emit_insn (dest, GEN_INT (sext_hwi (ud4 << 16, 32)));
> + if (ud3 != 0)
> + count_or_emit_insn (dest, gen_rtx_IOR (DImode, dest, GEN_INT (ud3)));
> +
> + count_or_emit_insn (dest, gen_rtx_ASHIFT (DImode, dest, GEN_INT (32)));
> + if (ud2 != 0)
> + count_or_emit_insn (dest, gen_rtx_IOR (DImode, dest, GEN_INT (ud2 << 16)));
> + if (ud1 != 0)
> + count_or_emit_insn (dest, gen_rtx_IOR (DImode, dest, GEN_INT (ud1)));
> +
> + return;
> }
>
> /* Helper for the following. Get rid of [r+r] memory refs
Hi,
"Kewen.Lin" <linkw@linux.ibm.com> writes:
> Hi Jeff,
>
> on 2023/12/11 11:26, Jiufu Guo wrote:
>> Hi,
>>
>> Trunk gcc supports more constants to be built via two instructions:
>> e.g. "li/lis; xori/xoris/rldicl/rldicr/rldic".
>> And then num_insns_constant should also be updated.
>>
>> Function "rs6000_emit_set_long_const" is used to build complicated
>> constants; and "num_insns_constant_gpr" is used to compute 'how
>> many instructions are needed" to build the constant. So, these
>> two functions should be aligned.
>>
>> The idea of this patch is: to reuse "rs6000_emit_set_long_const" to
>> compute/record the instruction number(when computing the insn_num,
>> then do not emit instructions).
>>
>> Compare with the previous version,
>> https://gcc.gnu.org/pipermail/gcc-patches/2023-December/639491.html
>> this version updates a lambda usage and comments.
>>
>> Bootstrap & regtest pass ppc64{,le}.
>> Is this ok for trunk?
>
> OK for trunk, thanks for the patience.
Committed via r14-6476.
Thanks for your kind review and great comments!
BR,
Jeff (Jiufu Guo)
>
> BR,
> Kewen
>
>>
>> BR,
>> Jeff (Jiufu Guo)
>>
>> gcc/ChangeLog:
>>
>> * config/rs6000/rs6000.cc (rs6000_emit_set_long_const): Add new
>> parameter to record number of instructions to build the constant.
>> (num_insns_constant_gpr): Call rs6000_emit_set_long_const to compute
>> num_insn.
>>
>> ---
>> gcc/config/rs6000/rs6000.cc | 284 ++++++++++++++++++------------------
>> 1 file changed, 146 insertions(+), 138 deletions(-)
>>
>> diff --git a/gcc/config/rs6000/rs6000.cc b/gcc/config/rs6000/rs6000.cc
>> index cee22c359f3..1e3d1f7fc08 100644
>> --- a/gcc/config/rs6000/rs6000.cc
>> +++ b/gcc/config/rs6000/rs6000.cc
>> @@ -1115,7 +1115,7 @@ static tree rs6000_handle_longcall_attribute (tree *, tree, tree, int, bool *);
>> static tree rs6000_handle_altivec_attribute (tree *, tree, tree, int, bool *);
>> static tree rs6000_handle_struct_attribute (tree *, tree, tree, int, bool *);
>> static tree rs6000_builtin_vectorized_libmass (combined_fn, tree, tree);
>> -static void rs6000_emit_set_long_const (rtx, HOST_WIDE_INT);
>> +static void rs6000_emit_set_long_const (rtx, HOST_WIDE_INT, int * = nullptr);
>> static int rs6000_memory_move_cost (machine_mode, reg_class_t, bool);
>> static bool rs6000_debug_rtx_costs (rtx, machine_mode, int, int, int *, bool);
>> static int rs6000_debug_address_cost (rtx, machine_mode, addr_space_t,
>> @@ -6054,21 +6054,9 @@ num_insns_constant_gpr (HOST_WIDE_INT value)
>>
>> else if (TARGET_POWERPC64)
>> {
>> - HOST_WIDE_INT low = sext_hwi (value, 32);
>> - HOST_WIDE_INT high = value >> 31;
>> -
>> - if (high == 0 || high == -1)
>> - return 2;
>> -
>> - high >>= 1;
>> -
>> - if (low == 0 || low == high)
>> - return num_insns_constant_gpr (high) + 1;
>> - else if (high == 0)
>> - return num_insns_constant_gpr (low) + 1;
>> - else
>> - return (num_insns_constant_gpr (high)
>> - + num_insns_constant_gpr (low) + 1);
>> + int num_insns = 0;
>> + rs6000_emit_set_long_const (nullptr, value, &num_insns);
>> + return num_insns;
>> }
>>
>> else
>> @@ -10494,14 +10482,13 @@ can_be_built_by_li_and_rldic (HOST_WIDE_INT c, int *shift, HOST_WIDE_INT *mask)
>>
>> /* Subroutine of rs6000_emit_set_const, handling PowerPC64 DImode.
>> Output insns to set DEST equal to the constant C as a series of
>> - lis, ori and shl instructions. */
>> + lis, ori and shl instructions. If NUM_INSNS is not NULL, then
>> + only increase *NUM_INSNS as the number of insns, and do not emit
>> + any insns. */
>>
>> static void
>> -rs6000_emit_set_long_const (rtx dest, HOST_WIDE_INT c)
>> +rs6000_emit_set_long_const (rtx dest, HOST_WIDE_INT c, int *num_insns)
>> {
>> - rtx temp;
>> - int shift;
>> - HOST_WIDE_INT mask;
>> HOST_WIDE_INT ud1, ud2, ud3, ud4;
>>
>> ud1 = c & 0xffff;
>> @@ -10509,168 +10496,189 @@ rs6000_emit_set_long_const (rtx dest, HOST_WIDE_INT c)
>> ud3 = (c >> 32) & 0xffff;
>> ud4 = (c >> 48) & 0xffff;
>>
>> - if ((ud4 == 0xffff && ud3 == 0xffff && ud2 == 0xffff && (ud1 & 0x8000))
>> - || (ud4 == 0 && ud3 == 0 && ud2 == 0 && ! (ud1 & 0x8000)))
>> - emit_move_insn (dest, GEN_INT (sext_hwi (ud1, 16)));
>> + /* This lambda is used to emit one insn or just increase the insn count.
>> + When counting the insn number, no need to emit the insn. */
>> + auto count_or_emit_insn = [&num_insns] (rtx dest_or_insn, rtx src = nullptr) {
>> + if (num_insns)
>> + {
>> + (*num_insns)++;
>> + return;
>> + }
>> +
>> + if (src)
>> + emit_move_insn (dest_or_insn, src);
>> + else
>> + emit_insn (dest_or_insn);
>> + };
>>
>> - else if ((ud4 == 0xffff && ud3 == 0xffff && (ud2 & 0x8000))
>> - || (ud4 == 0 && ud3 == 0 && ! (ud2 & 0x8000)))
>> + if ((ud4 == 0xffff && ud3 == 0xffff && ud2 == 0xffff && (ud1 & 0x8000))
>> + || (ud4 == 0 && ud3 == 0 && ud2 == 0 && !(ud1 & 0x8000)))
>> {
>> - temp = !can_create_pseudo_p () ? dest : gen_reg_rtx (DImode);
>> + /* li */
>> + count_or_emit_insn (dest, GEN_INT (sext_hwi (ud1, 16)));
>> + return;
>> + }
>> +
>> + rtx temp
>> + = (num_insns || !can_create_pseudo_p ()) ? dest : gen_reg_rtx (DImode);
>>
>> - emit_move_insn (ud1 != 0 ? temp : dest,
>> - GEN_INT (sext_hwi (ud2 << 16, 32)));
>> + if ((ud4 == 0xffff && ud3 == 0xffff && (ud2 & 0x8000))
>> + || (ud4 == 0 && ud3 == 0 && !(ud2 & 0x8000)))
>> + {
>> + /* lis[; ori] */
>> + count_or_emit_insn (ud1 != 0 ? temp : dest,
>> + GEN_INT (sext_hwi (ud2 << 16, 32)));
>> if (ud1 != 0)
>> - emit_move_insn (dest, gen_rtx_IOR (DImode, temp, GEN_INT (ud1)));
>> + count_or_emit_insn (dest, gen_rtx_IOR (DImode, temp, GEN_INT (ud1)));
>> + return;
>> }
>> - else if (ud4 == 0xffff && ud3 == 0xffff && !(ud2 & 0x8000) && ud1 == 0)
>> +
>> + if (ud4 == 0xffff && ud3 == 0xffff && !(ud2 & 0x8000) && ud1 == 0)
>> {
>> /* lis; xoris */
>> - temp = !can_create_pseudo_p () ? dest : gen_reg_rtx (DImode);
>> - emit_move_insn (temp, GEN_INT (sext_hwi ((ud2 | 0x8000) << 16, 32)));
>> - emit_move_insn (dest, gen_rtx_XOR (DImode, temp, GEN_INT (0x80000000)));
>> + count_or_emit_insn (temp, GEN_INT (sext_hwi ((ud2 | 0x8000) << 16, 32)));
>> + count_or_emit_insn (dest,
>> + gen_rtx_XOR (DImode, temp, GEN_INT (0x80000000)));
>> + return;
>> }
>> - else if (ud4 == 0xffff && ud3 == 0xffff && (ud1 & 0x8000))
>> +
>> + if (ud4 == 0xffff && ud3 == 0xffff && (ud1 & 0x8000))
>> {
>> /* li; xoris */
>> - temp = !can_create_pseudo_p () ? dest : gen_reg_rtx (DImode);
>> - emit_move_insn (temp, GEN_INT (sext_hwi (ud1, 16)));
>> - emit_move_insn (dest, gen_rtx_XOR (DImode, temp,
>> - GEN_INT ((ud2 ^ 0xffff) << 16)));
>> + count_or_emit_insn (temp, GEN_INT (sext_hwi (ud1, 16)));
>> + count_or_emit_insn (dest, gen_rtx_XOR (DImode, temp,
>> + GEN_INT ((ud2 ^ 0xffff) << 16)));
>> + return;
>> }
>> - else if (can_be_built_by_li_lis_and_rotldi (c, &shift, &mask)
>> - || can_be_built_by_li_lis_and_rldicl (c, &shift, &mask)
>> - || can_be_built_by_li_lis_and_rldicr (c, &shift, &mask)
>> - || can_be_built_by_li_and_rldic (c, &shift, &mask))
>> +
>> + int shift;
>> + HOST_WIDE_INT mask;
>> + if (can_be_built_by_li_lis_and_rotldi (c, &shift, &mask)
>> + || can_be_built_by_li_lis_and_rldicl (c, &shift, &mask)
>> + || can_be_built_by_li_lis_and_rldicr (c, &shift, &mask)
>> + || can_be_built_by_li_and_rldic (c, &shift, &mask))
>> {
>> - temp = !can_create_pseudo_p () ? dest : gen_reg_rtx (DImode);
>> + /* li/lis; rldicX */
>> unsigned HOST_WIDE_INT imm = (c | ~mask);
>> imm = (imm >> shift) | (imm << (HOST_BITS_PER_WIDE_INT - shift));
>>
>> - emit_move_insn (temp, GEN_INT (imm));
>> + count_or_emit_insn (temp, GEN_INT (imm));
>> if (shift != 0)
>> temp = gen_rtx_ROTATE (DImode, temp, GEN_INT (shift));
>> if (mask != HOST_WIDE_INT_M1)
>> temp = gen_rtx_AND (DImode, temp, GEN_INT (mask));
>> - emit_move_insn (dest, temp);
>> - }
>> - else if (ud3 == 0 && ud4 == 0)
>> - {
>> - temp = !can_create_pseudo_p () ? dest : gen_reg_rtx (DImode);
>> + count_or_emit_insn (dest, temp);
>>
>> - gcc_assert (ud2 & 0x8000);
>> + return;
>> + }
>>
>> - if (ud1 == 0)
>> - {
>> - /* lis; rldicl */
>> - emit_move_insn (temp, GEN_INT (sext_hwi (ud2 << 16, 32)));
>> - emit_move_insn (dest,
>> - gen_rtx_AND (DImode, temp, GEN_INT (0xffffffff)));
>> - }
>> - else if (!(ud1 & 0x8000))
>> + if (ud3 == 0 && ud4 == 0)
>> + {
>> + gcc_assert ((ud2 & 0x8000) && ud1 != 0);
>> + if (!(ud1 & 0x8000))
>> {
>> /* li; oris */
>> - emit_move_insn (temp, GEN_INT (ud1));
>> - emit_move_insn (dest,
>> - gen_rtx_IOR (DImode, temp, GEN_INT (ud2 << 16)));
>> + count_or_emit_insn (temp, GEN_INT (ud1));
>> + count_or_emit_insn (dest,
>> + gen_rtx_IOR (DImode, temp, GEN_INT (ud2 << 16)));
>> + return;
>> }
>> - else
>> - {
>> - /* lis; ori; rldicl */
>> - emit_move_insn (temp, GEN_INT (sext_hwi (ud2 << 16, 32)));
>> - emit_move_insn (temp, gen_rtx_IOR (DImode, temp, GEN_INT (ud1)));
>> - emit_move_insn (dest,
>> +
>> + /* lis; ori; rldicl */
>> + count_or_emit_insn (temp, GEN_INT (sext_hwi (ud2 << 16, 32)));
>> + count_or_emit_insn (temp, gen_rtx_IOR (DImode, temp, GEN_INT (ud1)));
>> + count_or_emit_insn (dest,
>> gen_rtx_AND (DImode, temp, GEN_INT (0xffffffff)));
>> - }
>> + return;
>> }
>> - else if (ud1 == ud3 && ud2 == ud4)
>> +
>> + if (ud1 == ud3 && ud2 == ud4)
>> {
>> - temp = !can_create_pseudo_p () ? dest : gen_reg_rtx (DImode);
>> + /* load low 32bits first, e.g. "lis; ori", then "rldimi". */
>> HOST_WIDE_INT num = (ud2 << 16) | ud1;
>> - rs6000_emit_set_long_const (temp, sext_hwi (num, 32));
>> - rtx one = gen_rtx_AND (DImode, temp, GEN_INT (0xffffffff));
>> - rtx two = gen_rtx_ASHIFT (DImode, temp, GEN_INT (32));
>> - emit_move_insn (dest, gen_rtx_IOR (DImode, one, two));
>> + rs6000_emit_set_long_const (temp, sext_hwi (num, 32), num_insns);
>> +
>> + rtx rldimi = gen_rotldi3_insert_3 (dest, temp, GEN_INT (32), temp,
>> + GEN_INT (0xffffffff));
>> + count_or_emit_insn (rldimi);
>> + return;
>> }
>> - else if ((ud4 == 0xffff && (ud3 & 0x8000))
>> - || (ud4 == 0 && ! (ud3 & 0x8000)))
>> - {
>> - temp = !can_create_pseudo_p () ? dest : gen_reg_rtx (DImode);
>>
>> - emit_move_insn (temp, GEN_INT (sext_hwi (ud3 << 16, 32)));
>> + if ((ud4 == 0xffff && (ud3 & 0x8000)) || (ud4 == 0 && !(ud3 & 0x8000)))
>> + {
>> + /* li; [ori;] rldicl [;oir]. */
>> + count_or_emit_insn (temp, GEN_INT (sext_hwi (ud3 << 16, 32)));
>> if (ud2 != 0)
>> - emit_move_insn (temp, gen_rtx_IOR (DImode, temp, GEN_INT (ud2)));
>> - emit_move_insn (ud1 != 0 ? temp : dest,
>> - gen_rtx_ASHIFT (DImode, temp, GEN_INT (16)));
>> + count_or_emit_insn (temp, gen_rtx_IOR (DImode, temp, GEN_INT (ud2)));
>> + count_or_emit_insn (ud1 != 0 ? temp : dest,
>> + gen_rtx_ASHIFT (DImode, temp, GEN_INT (16)));
>> if (ud1 != 0)
>> - emit_move_insn (dest, gen_rtx_IOR (DImode, temp, GEN_INT (ud1)));
>> + count_or_emit_insn (dest, gen_rtx_IOR (DImode, temp, GEN_INT (ud1)));
>> + return;
>> }
>> - else if (TARGET_PREFIXED)
>> +
>> + if (TARGET_PREFIXED)
>> {
>> if (can_create_pseudo_p ())
>> {
>> - /* pli A,L + pli B,H + rldimi A,B,32,0. */
>> - temp = gen_reg_rtx (DImode);
>> - rtx temp1 = gen_reg_rtx (DImode);
>> - emit_move_insn (temp, GEN_INT ((ud4 << 16) | ud3));
>> - emit_move_insn (temp1, GEN_INT ((ud2 << 16) | ud1));
>> -
>> - emit_insn (gen_rotldi3_insert_3 (dest, temp, GEN_INT (32), temp1,
>> - GEN_INT (0xffffffff)));
>> + /* pli A,L; pli B,H; rldimi A,B,32,0. */
>> + rtx temp1 = num_insns ? nullptr : gen_reg_rtx (DImode);
>> + count_or_emit_insn (temp, GEN_INT ((ud4 << 16) | ud3));
>> + count_or_emit_insn (temp1, GEN_INT ((ud2 << 16) | ud1));
>> + rtx rldimi = gen_rotldi3_insert_3 (dest, temp, GEN_INT (32), temp1,
>> + GEN_INT (0xffffffff));
>> + count_or_emit_insn (rldimi);
>> + return;
>> }
>> - else
>> - {
>> - /* pli A,H + sldi A,32 + paddi A,A,L. */
>> - emit_move_insn (dest, GEN_INT ((ud4 << 16) | ud3));
>> -
>> - emit_move_insn (dest, gen_rtx_ASHIFT (DImode, dest, GEN_INT (32)));
>>
>> - bool can_use_paddi = REGNO (dest) != FIRST_GPR_REGNO;
>> + /* pli A,H; sldi A,32; paddi A,A,L. */
>> + count_or_emit_insn (dest, GEN_INT ((ud4 << 16) | ud3));
>> + count_or_emit_insn (dest, gen_rtx_ASHIFT (DImode, dest, GEN_INT (32)));
>>
>> - /* Use paddi for the low 32 bits. */
>> - if (ud2 != 0 && ud1 != 0 && can_use_paddi)
>> - emit_move_insn (dest, gen_rtx_PLUS (DImode, dest,
>> + bool can_use_paddi = dest ? REGNO (dest) != FIRST_GPR_REGNO : false;
>> + /* Use paddi for the low 32 bits. */
>> + if (ud2 != 0 && ud1 != 0 && can_use_paddi)
>> + count_or_emit_insn (dest, gen_rtx_PLUS (DImode, dest,
>> GEN_INT ((ud2 << 16) | ud1)));
>> -
>> - /* Use oris, ori for low 32 bits. */
>> - if (ud2 != 0 && (ud1 == 0 || !can_use_paddi))
>> - emit_move_insn (dest,
>> + /* Use oris, ori for low 32 bits. */
>> + if (ud2 != 0 && (ud1 == 0 || !can_use_paddi))
>> + count_or_emit_insn (dest,
>> gen_rtx_IOR (DImode, dest, GEN_INT (ud2 << 16)));
>> - if (ud1 != 0 && (ud2 == 0 || !can_use_paddi))
>> - emit_move_insn (dest, gen_rtx_IOR (DImode, dest, GEN_INT (ud1)));
>> - }
>> + if (ud1 != 0 && (ud2 == 0 || !can_use_paddi))
>> + count_or_emit_insn (dest, gen_rtx_IOR (DImode, dest, GEN_INT (ud1)));
>> + return;
>> }
>> - else
>> +
>> + if (can_create_pseudo_p ())
>> {
>> - if (can_create_pseudo_p ())
>> - {
>> - /* lis HIGH,UD4 ; ori HIGH,UD3 ;
>> - lis LOW,UD2 ; ori LOW,UD1 ; rldimi LOW,HIGH,32,0. */
>> - rtx high = gen_reg_rtx (DImode);
>> - rtx low = gen_reg_rtx (DImode);
>> - HOST_WIDE_INT num = (ud2 << 16) | ud1;
>> - rs6000_emit_set_long_const (low, sext_hwi (num, 32));
>> - num = (ud4 << 16) | ud3;
>> - rs6000_emit_set_long_const (high, sext_hwi (num, 32));
>> - emit_insn (gen_rotldi3_insert_3 (dest, high, GEN_INT (32), low,
>> - GEN_INT (0xffffffff)));
>> - }
>> - else
>> - {
>> - /* lis DEST,UD4 ; ori DEST,UD3 ; rotl DEST,32 ;
>> - oris DEST,UD2 ; ori DEST,UD1. */
>> - emit_move_insn (dest, GEN_INT (sext_hwi (ud4 << 16, 32)));
>> - if (ud3 != 0)
>> - emit_move_insn (dest, gen_rtx_IOR (DImode, dest, GEN_INT (ud3)));
>> + /* lis HIGH,UD4 ; ori HIGH,UD3 ;
>> + lis LOW,UD2 ; ori LOW,UD1 ; rldimi LOW,HIGH,32,0. */
>> + rtx high = num_insns ? nullptr : gen_reg_rtx (DImode);
>> + rtx low = num_insns ? nullptr : gen_reg_rtx (DImode);
>> + HOST_WIDE_INT num = (ud2 << 16) | ud1;
>> + rs6000_emit_set_long_const (low, sext_hwi (num, 32), num_insns);
>> + num = (ud4 << 16) | ud3;
>> + rs6000_emit_set_long_const (high, sext_hwi (num, 32), num_insns);
>>
>> - emit_move_insn (dest, gen_rtx_ASHIFT (DImode, dest, GEN_INT (32)));
>> - if (ud2 != 0)
>> - emit_move_insn (dest,
>> - gen_rtx_IOR (DImode, dest, GEN_INT (ud2 << 16)));
>> - if (ud1 != 0)
>> - emit_move_insn (dest, gen_rtx_IOR (DImode, dest, GEN_INT (ud1)));
>> - }
>> + rtx rldimi = gen_rotldi3_insert_3 (dest, high, GEN_INT (32), low,
>> + GEN_INT (0xffffffff));
>> + count_or_emit_insn (rldimi);
>> + return;
>> }
>> +
>> + /* lis DEST,UD4 ; ori DEST,UD3 ; rotl DEST,32 ;
>> + oris DEST,UD2 ; ori DEST,UD1. */
>> + count_or_emit_insn (dest, GEN_INT (sext_hwi (ud4 << 16, 32)));
>> + if (ud3 != 0)
>> + count_or_emit_insn (dest, gen_rtx_IOR (DImode, dest, GEN_INT (ud3)));
>> +
>> + count_or_emit_insn (dest, gen_rtx_ASHIFT (DImode, dest, GEN_INT (32)));
>> + if (ud2 != 0)
>> + count_or_emit_insn (dest, gen_rtx_IOR (DImode, dest, GEN_INT (ud2 << 16)));
>> + if (ud1 != 0)
>> + count_or_emit_insn (dest, gen_rtx_IOR (DImode, dest, GEN_INT (ud1)));
>> +
>> + return;
>> }
>>
>> /* Helper for the following. Get rid of [r+r] memory refs
@@ -1115,7 +1115,7 @@ static tree rs6000_handle_longcall_attribute (tree *, tree, tree, int, bool *);
static tree rs6000_handle_altivec_attribute (tree *, tree, tree, int, bool *);
static tree rs6000_handle_struct_attribute (tree *, tree, tree, int, bool *);
static tree rs6000_builtin_vectorized_libmass (combined_fn, tree, tree);
-static void rs6000_emit_set_long_const (rtx, HOST_WIDE_INT);
+static void rs6000_emit_set_long_const (rtx, HOST_WIDE_INT, int * = nullptr);
static int rs6000_memory_move_cost (machine_mode, reg_class_t, bool);
static bool rs6000_debug_rtx_costs (rtx, machine_mode, int, int, int *, bool);
static int rs6000_debug_address_cost (rtx, machine_mode, addr_space_t,
@@ -6054,21 +6054,9 @@ num_insns_constant_gpr (HOST_WIDE_INT value)
else if (TARGET_POWERPC64)
{
- HOST_WIDE_INT low = sext_hwi (value, 32);
- HOST_WIDE_INT high = value >> 31;
-
- if (high == 0 || high == -1)
- return 2;
-
- high >>= 1;
-
- if (low == 0 || low == high)
- return num_insns_constant_gpr (high) + 1;
- else if (high == 0)
- return num_insns_constant_gpr (low) + 1;
- else
- return (num_insns_constant_gpr (high)
- + num_insns_constant_gpr (low) + 1);
+ int num_insns = 0;
+ rs6000_emit_set_long_const (nullptr, value, &num_insns);
+ return num_insns;
}
else
@@ -10494,14 +10482,13 @@ can_be_built_by_li_and_rldic (HOST_WIDE_INT c, int *shift, HOST_WIDE_INT *mask)
/* Subroutine of rs6000_emit_set_const, handling PowerPC64 DImode.
Output insns to set DEST equal to the constant C as a series of
- lis, ori and shl instructions. */
+ lis, ori and shl instructions. If NUM_INSNS is not NULL, then
+ only increase *NUM_INSNS as the number of insns, and do not emit
+ any insns. */
static void
-rs6000_emit_set_long_const (rtx dest, HOST_WIDE_INT c)
+rs6000_emit_set_long_const (rtx dest, HOST_WIDE_INT c, int *num_insns)
{
- rtx temp;
- int shift;
- HOST_WIDE_INT mask;
HOST_WIDE_INT ud1, ud2, ud3, ud4;
ud1 = c & 0xffff;
@@ -10509,168 +10496,189 @@ rs6000_emit_set_long_const (rtx dest, HOST_WIDE_INT c)
ud3 = (c >> 32) & 0xffff;
ud4 = (c >> 48) & 0xffff;
- if ((ud4 == 0xffff && ud3 == 0xffff && ud2 == 0xffff && (ud1 & 0x8000))
- || (ud4 == 0 && ud3 == 0 && ud2 == 0 && ! (ud1 & 0x8000)))
- emit_move_insn (dest, GEN_INT (sext_hwi (ud1, 16)));
+ /* This lambda is used to emit one insn or just increase the insn count.
+ When counting the insn number, no need to emit the insn. */
+ auto count_or_emit_insn = [&num_insns] (rtx dest_or_insn, rtx src = nullptr) {
+ if (num_insns)
+ {
+ (*num_insns)++;
+ return;
+ }
+
+ if (src)
+ emit_move_insn (dest_or_insn, src);
+ else
+ emit_insn (dest_or_insn);
+ };
- else if ((ud4 == 0xffff && ud3 == 0xffff && (ud2 & 0x8000))
- || (ud4 == 0 && ud3 == 0 && ! (ud2 & 0x8000)))
+ if ((ud4 == 0xffff && ud3 == 0xffff && ud2 == 0xffff && (ud1 & 0x8000))
+ || (ud4 == 0 && ud3 == 0 && ud2 == 0 && !(ud1 & 0x8000)))
{
- temp = !can_create_pseudo_p () ? dest : gen_reg_rtx (DImode);
+ /* li */
+ count_or_emit_insn (dest, GEN_INT (sext_hwi (ud1, 16)));
+ return;
+ }
+
+ rtx temp
+ = (num_insns || !can_create_pseudo_p ()) ? dest : gen_reg_rtx (DImode);
- emit_move_insn (ud1 != 0 ? temp : dest,
- GEN_INT (sext_hwi (ud2 << 16, 32)));
+ if ((ud4 == 0xffff && ud3 == 0xffff && (ud2 & 0x8000))
+ || (ud4 == 0 && ud3 == 0 && !(ud2 & 0x8000)))
+ {
+ /* lis[; ori] */
+ count_or_emit_insn (ud1 != 0 ? temp : dest,
+ GEN_INT (sext_hwi (ud2 << 16, 32)));
if (ud1 != 0)
- emit_move_insn (dest, gen_rtx_IOR (DImode, temp, GEN_INT (ud1)));
+ count_or_emit_insn (dest, gen_rtx_IOR (DImode, temp, GEN_INT (ud1)));
+ return;
}
- else if (ud4 == 0xffff && ud3 == 0xffff && !(ud2 & 0x8000) && ud1 == 0)
+
+ if (ud4 == 0xffff && ud3 == 0xffff && !(ud2 & 0x8000) && ud1 == 0)
{
/* lis; xoris */
- temp = !can_create_pseudo_p () ? dest : gen_reg_rtx (DImode);
- emit_move_insn (temp, GEN_INT (sext_hwi ((ud2 | 0x8000) << 16, 32)));
- emit_move_insn (dest, gen_rtx_XOR (DImode, temp, GEN_INT (0x80000000)));
+ count_or_emit_insn (temp, GEN_INT (sext_hwi ((ud2 | 0x8000) << 16, 32)));
+ count_or_emit_insn (dest,
+ gen_rtx_XOR (DImode, temp, GEN_INT (0x80000000)));
+ return;
}
- else if (ud4 == 0xffff && ud3 == 0xffff && (ud1 & 0x8000))
+
+ if (ud4 == 0xffff && ud3 == 0xffff && (ud1 & 0x8000))
{
/* li; xoris */
- temp = !can_create_pseudo_p () ? dest : gen_reg_rtx (DImode);
- emit_move_insn (temp, GEN_INT (sext_hwi (ud1, 16)));
- emit_move_insn (dest, gen_rtx_XOR (DImode, temp,
- GEN_INT ((ud2 ^ 0xffff) << 16)));
+ count_or_emit_insn (temp, GEN_INT (sext_hwi (ud1, 16)));
+ count_or_emit_insn (dest, gen_rtx_XOR (DImode, temp,
+ GEN_INT ((ud2 ^ 0xffff) << 16)));
+ return;
}
- else if (can_be_built_by_li_lis_and_rotldi (c, &shift, &mask)
- || can_be_built_by_li_lis_and_rldicl (c, &shift, &mask)
- || can_be_built_by_li_lis_and_rldicr (c, &shift, &mask)
- || can_be_built_by_li_and_rldic (c, &shift, &mask))
+
+ int shift;
+ HOST_WIDE_INT mask;
+ if (can_be_built_by_li_lis_and_rotldi (c, &shift, &mask)
+ || can_be_built_by_li_lis_and_rldicl (c, &shift, &mask)
+ || can_be_built_by_li_lis_and_rldicr (c, &shift, &mask)
+ || can_be_built_by_li_and_rldic (c, &shift, &mask))
{
- temp = !can_create_pseudo_p () ? dest : gen_reg_rtx (DImode);
+ /* li/lis; rldicX */
unsigned HOST_WIDE_INT imm = (c | ~mask);
imm = (imm >> shift) | (imm << (HOST_BITS_PER_WIDE_INT - shift));
- emit_move_insn (temp, GEN_INT (imm));
+ count_or_emit_insn (temp, GEN_INT (imm));
if (shift != 0)
temp = gen_rtx_ROTATE (DImode, temp, GEN_INT (shift));
if (mask != HOST_WIDE_INT_M1)
temp = gen_rtx_AND (DImode, temp, GEN_INT (mask));
- emit_move_insn (dest, temp);
- }
- else if (ud3 == 0 && ud4 == 0)
- {
- temp = !can_create_pseudo_p () ? dest : gen_reg_rtx (DImode);
+ count_or_emit_insn (dest, temp);
- gcc_assert (ud2 & 0x8000);
+ return;
+ }
- if (ud1 == 0)
- {
- /* lis; rldicl */
- emit_move_insn (temp, GEN_INT (sext_hwi (ud2 << 16, 32)));
- emit_move_insn (dest,
- gen_rtx_AND (DImode, temp, GEN_INT (0xffffffff)));
- }
- else if (!(ud1 & 0x8000))
+ if (ud3 == 0 && ud4 == 0)
+ {
+ gcc_assert ((ud2 & 0x8000) && ud1 != 0);
+ if (!(ud1 & 0x8000))
{
/* li; oris */
- emit_move_insn (temp, GEN_INT (ud1));
- emit_move_insn (dest,
- gen_rtx_IOR (DImode, temp, GEN_INT (ud2 << 16)));
+ count_or_emit_insn (temp, GEN_INT (ud1));
+ count_or_emit_insn (dest,
+ gen_rtx_IOR (DImode, temp, GEN_INT (ud2 << 16)));
+ return;
}
- else
- {
- /* lis; ori; rldicl */
- emit_move_insn (temp, GEN_INT (sext_hwi (ud2 << 16, 32)));
- emit_move_insn (temp, gen_rtx_IOR (DImode, temp, GEN_INT (ud1)));
- emit_move_insn (dest,
+
+ /* lis; ori; rldicl */
+ count_or_emit_insn (temp, GEN_INT (sext_hwi (ud2 << 16, 32)));
+ count_or_emit_insn (temp, gen_rtx_IOR (DImode, temp, GEN_INT (ud1)));
+ count_or_emit_insn (dest,
gen_rtx_AND (DImode, temp, GEN_INT (0xffffffff)));
- }
+ return;
}
- else if (ud1 == ud3 && ud2 == ud4)
+
+ if (ud1 == ud3 && ud2 == ud4)
{
- temp = !can_create_pseudo_p () ? dest : gen_reg_rtx (DImode);
+ /* load low 32bits first, e.g. "lis; ori", then "rldimi". */
HOST_WIDE_INT num = (ud2 << 16) | ud1;
- rs6000_emit_set_long_const (temp, sext_hwi (num, 32));
- rtx one = gen_rtx_AND (DImode, temp, GEN_INT (0xffffffff));
- rtx two = gen_rtx_ASHIFT (DImode, temp, GEN_INT (32));
- emit_move_insn (dest, gen_rtx_IOR (DImode, one, two));
+ rs6000_emit_set_long_const (temp, sext_hwi (num, 32), num_insns);
+
+ rtx rldimi = gen_rotldi3_insert_3 (dest, temp, GEN_INT (32), temp,
+ GEN_INT (0xffffffff));
+ count_or_emit_insn (rldimi);
+ return;
}
- else if ((ud4 == 0xffff && (ud3 & 0x8000))
- || (ud4 == 0 && ! (ud3 & 0x8000)))
- {
- temp = !can_create_pseudo_p () ? dest : gen_reg_rtx (DImode);
- emit_move_insn (temp, GEN_INT (sext_hwi (ud3 << 16, 32)));
+ if ((ud4 == 0xffff && (ud3 & 0x8000)) || (ud4 == 0 && !(ud3 & 0x8000)))
+ {
+ /* li; [ori;] rldicl [;oir]. */
+ count_or_emit_insn (temp, GEN_INT (sext_hwi (ud3 << 16, 32)));
if (ud2 != 0)
- emit_move_insn (temp, gen_rtx_IOR (DImode, temp, GEN_INT (ud2)));
- emit_move_insn (ud1 != 0 ? temp : dest,
- gen_rtx_ASHIFT (DImode, temp, GEN_INT (16)));
+ count_or_emit_insn (temp, gen_rtx_IOR (DImode, temp, GEN_INT (ud2)));
+ count_or_emit_insn (ud1 != 0 ? temp : dest,
+ gen_rtx_ASHIFT (DImode, temp, GEN_INT (16)));
if (ud1 != 0)
- emit_move_insn (dest, gen_rtx_IOR (DImode, temp, GEN_INT (ud1)));
+ count_or_emit_insn (dest, gen_rtx_IOR (DImode, temp, GEN_INT (ud1)));
+ return;
}
- else if (TARGET_PREFIXED)
+
+ if (TARGET_PREFIXED)
{
if (can_create_pseudo_p ())
{
- /* pli A,L + pli B,H + rldimi A,B,32,0. */
- temp = gen_reg_rtx (DImode);
- rtx temp1 = gen_reg_rtx (DImode);
- emit_move_insn (temp, GEN_INT ((ud4 << 16) | ud3));
- emit_move_insn (temp1, GEN_INT ((ud2 << 16) | ud1));
-
- emit_insn (gen_rotldi3_insert_3 (dest, temp, GEN_INT (32), temp1,
- GEN_INT (0xffffffff)));
+ /* pli A,L; pli B,H; rldimi A,B,32,0. */
+ rtx temp1 = num_insns ? nullptr : gen_reg_rtx (DImode);
+ count_or_emit_insn (temp, GEN_INT ((ud4 << 16) | ud3));
+ count_or_emit_insn (temp1, GEN_INT ((ud2 << 16) | ud1));
+ rtx rldimi = gen_rotldi3_insert_3 (dest, temp, GEN_INT (32), temp1,
+ GEN_INT (0xffffffff));
+ count_or_emit_insn (rldimi);
+ return;
}
- else
- {
- /* pli A,H + sldi A,32 + paddi A,A,L. */
- emit_move_insn (dest, GEN_INT ((ud4 << 16) | ud3));
-
- emit_move_insn (dest, gen_rtx_ASHIFT (DImode, dest, GEN_INT (32)));
- bool can_use_paddi = REGNO (dest) != FIRST_GPR_REGNO;
+ /* pli A,H; sldi A,32; paddi A,A,L. */
+ count_or_emit_insn (dest, GEN_INT ((ud4 << 16) | ud3));
+ count_or_emit_insn (dest, gen_rtx_ASHIFT (DImode, dest, GEN_INT (32)));
- /* Use paddi for the low 32 bits. */
- if (ud2 != 0 && ud1 != 0 && can_use_paddi)
- emit_move_insn (dest, gen_rtx_PLUS (DImode, dest,
+ bool can_use_paddi = dest ? REGNO (dest) != FIRST_GPR_REGNO : false;
+ /* Use paddi for the low 32 bits. */
+ if (ud2 != 0 && ud1 != 0 && can_use_paddi)
+ count_or_emit_insn (dest, gen_rtx_PLUS (DImode, dest,
GEN_INT ((ud2 << 16) | ud1)));
-
- /* Use oris, ori for low 32 bits. */
- if (ud2 != 0 && (ud1 == 0 || !can_use_paddi))
- emit_move_insn (dest,
+ /* Use oris, ori for low 32 bits. */
+ if (ud2 != 0 && (ud1 == 0 || !can_use_paddi))
+ count_or_emit_insn (dest,
gen_rtx_IOR (DImode, dest, GEN_INT (ud2 << 16)));
- if (ud1 != 0 && (ud2 == 0 || !can_use_paddi))
- emit_move_insn (dest, gen_rtx_IOR (DImode, dest, GEN_INT (ud1)));
- }
+ if (ud1 != 0 && (ud2 == 0 || !can_use_paddi))
+ count_or_emit_insn (dest, gen_rtx_IOR (DImode, dest, GEN_INT (ud1)));
+ return;
}
- else
+
+ if (can_create_pseudo_p ())
{
- if (can_create_pseudo_p ())
- {
- /* lis HIGH,UD4 ; ori HIGH,UD3 ;
- lis LOW,UD2 ; ori LOW,UD1 ; rldimi LOW,HIGH,32,0. */
- rtx high = gen_reg_rtx (DImode);
- rtx low = gen_reg_rtx (DImode);
- HOST_WIDE_INT num = (ud2 << 16) | ud1;
- rs6000_emit_set_long_const (low, sext_hwi (num, 32));
- num = (ud4 << 16) | ud3;
- rs6000_emit_set_long_const (high, sext_hwi (num, 32));
- emit_insn (gen_rotldi3_insert_3 (dest, high, GEN_INT (32), low,
- GEN_INT (0xffffffff)));
- }
- else
- {
- /* lis DEST,UD4 ; ori DEST,UD3 ; rotl DEST,32 ;
- oris DEST,UD2 ; ori DEST,UD1. */
- emit_move_insn (dest, GEN_INT (sext_hwi (ud4 << 16, 32)));
- if (ud3 != 0)
- emit_move_insn (dest, gen_rtx_IOR (DImode, dest, GEN_INT (ud3)));
+ /* lis HIGH,UD4 ; ori HIGH,UD3 ;
+ lis LOW,UD2 ; ori LOW,UD1 ; rldimi LOW,HIGH,32,0. */
+ rtx high = num_insns ? nullptr : gen_reg_rtx (DImode);
+ rtx low = num_insns ? nullptr : gen_reg_rtx (DImode);
+ HOST_WIDE_INT num = (ud2 << 16) | ud1;
+ rs6000_emit_set_long_const (low, sext_hwi (num, 32), num_insns);
+ num = (ud4 << 16) | ud3;
+ rs6000_emit_set_long_const (high, sext_hwi (num, 32), num_insns);
- emit_move_insn (dest, gen_rtx_ASHIFT (DImode, dest, GEN_INT (32)));
- if (ud2 != 0)
- emit_move_insn (dest,
- gen_rtx_IOR (DImode, dest, GEN_INT (ud2 << 16)));
- if (ud1 != 0)
- emit_move_insn (dest, gen_rtx_IOR (DImode, dest, GEN_INT (ud1)));
- }
+ rtx rldimi = gen_rotldi3_insert_3 (dest, high, GEN_INT (32), low,
+ GEN_INT (0xffffffff));
+ count_or_emit_insn (rldimi);
+ return;
}
+
+ /* lis DEST,UD4 ; ori DEST,UD3 ; rotl DEST,32 ;
+ oris DEST,UD2 ; ori DEST,UD1. */
+ count_or_emit_insn (dest, GEN_INT (sext_hwi (ud4 << 16, 32)));
+ if (ud3 != 0)
+ count_or_emit_insn (dest, gen_rtx_IOR (DImode, dest, GEN_INT (ud3)));
+
+ count_or_emit_insn (dest, gen_rtx_ASHIFT (DImode, dest, GEN_INT (32)));
+ if (ud2 != 0)
+ count_or_emit_insn (dest, gen_rtx_IOR (DImode, dest, GEN_INT (ud2 << 16)));
+ if (ud1 != 0)
+ count_or_emit_insn (dest, gen_rtx_IOR (DImode, dest, GEN_INT (ud1)));
+
+ return;
}
/* Helper for the following. Get rid of [r+r] memory refs