| Message ID | 20240513184932.662109-2-vineetg@rivosinc.com |
|---|---|
| State | New |
| Headers | show |
| Series | RISC-V improve stack/array access by constant mat tweak | expand |
On 5/13/24 12:49 PM, Vineet Gupta wrote: > Apologies for the delay in getting this out. Needed to fix one ICE > with glibc build and fresh round of testing: both testsuite and SPEC > runs (which are similar to v1 in terms of Cactu gains, but some more minor > regressions elsewhere gcc). Again those seem so small that IMHO this > should still go in. > > I'll investigate those next as well as an existing weirdnes in glibc tempnam > which I spotted during the debugging. > > Changes since v1 [1] > - Tighten the main conditition to avoid stack regs as destination > (to avoid making them potentially unaligned with -2047 addend: > this might be OK execution/ABI wise, but undesirable/ugly still > specially when coming from compiler codegen). > - Ensure that first alternative is always split > - Remove "&& 1" from split condition. That was tripping up glibc build > with illegal operands `add s0, s0, 2048`. > > [1] https://gcc.gnu.org/pipermail/gcc-patches/2024-March/647877.html > > > +;; Special case of adding a reg and constant if latter is sum of two S12 > +;; values (in range -2048 to 2047). Avoid materialized the const and fuse > +;; into the add (with an additional add for 2nd value). Makes a 3 insn > +;; sequence into 2 insn. > + > +(define_insn_and_split "*add<mode>3_const_sum_of_two_s12" > + [(set (match_operand:P 0 "register_operand" "=r,r") > + (plus:P (match_operand:P 1 "register_operand" " r,r") > + (match_operand:P 2 "const_two_s12" " MiG,r")))] > + "!riscv_reg_frame_related (operands[0])" So that !riscv_reg_frame_related is my only concern with this patch. It's a destination, so it *may* be OK. If it were a source operand, then we'd have to worry about cases where it was a pseudo with the same value as sp/fp/argp and subsequent copy propagation replacing the pseudo with sp/fp/argp causing the insn to no longer match. Similarly if it were a source operand we'd have to worry about cases where the pseudo had a registered (or discoverable) equivalence to sp/fp/argp plus an offset. IRA/LRA can replace the use with its equivalence in some of those cases which would have potentially caused headaches. But as a destination we really just have to worry about generation in the prologue/epilogue and for alloca calls. Those should be the only places that set one of those special registers. They're constrained enough that I think we'll be OK. I'm very slightly worried about hard register cprop, but I think it should be safe these days WRT those special registers in the unlikely event it found an opportunity to propagate them. So a tentative OK. If we find this tidibit is problematical in the future, then what I would suggest is we allow those special registers and dial-back the aggressiveness on the range of allowed constants. That would allow the first instruction in the sequence to never create a mis-aligned sp. But again, that's only if we need to revisit. Please wait for CI to report back sane results :-) Jeff
On 5/13/24 11:49, Vineet Gupta wrote: > 500.perlbench_r-0 | 1,214,534,029,025 | 1,212,887,959,387 | > 500.perlbench_r-1 | 740,383,419,739 | 739,280,308,163 | > 500.perlbench_r-2 | 692,074,638,817 | 691,118,734,547 | > 502.gcc_r-0 | 190,820,141,435 | 190,857,065,988 | > 502.gcc_r-1 | 225,747,660,839 | 225,809,444,357 | <- -0.02% > 502.gcc_r-2 | 220,370,089,641 | 220,406,367,876 | <- -0.03% > 502.gcc_r-3 | 179,111,460,458 | 179,135,609,723 | <- -0.02% > 502.gcc_r-4 | 219,301,546,340 | 219,320,416,956 | <- -0.01% > 503.bwaves_r-0 | 278,733,324,691 | 278,733,323,575 | <- -0.01% > 503.bwaves_r-1 | 442,397,521,282 | 442,397,519,616 | > 503.bwaves_r-2 | 344,112,218,206 | 344,112,216,760 | > 503.bwaves_r-3 | 417,561,469,153 | 417,561,467,597 | > 505.mcf_r | 669,319,257,525 | 669,318,763,084 | > 507.cactuBSSN_r | 2,852,767,394,456 | 2,564,736,063,742 | <+ 10.10% The small gcc regression seems like a tooling issue of some sort. Looking at the topblocks, the insn sequences are exactly the same, only the counts differ and its not obvious why. Here's for gcc_r-1. > Block 0 @ 0x170ca, 12 insns, 87854493 times, 0.47%: 00000000000170ca <find_base_term>: 170ca: 7179 add sp,sp,-48 170cc: ec26 sd s1,24(sp) 170ce: e84a sd s2,16(sp) 170d0: e44e sd s3,8(sp) 170d2: f406 sd ra,40(sp) 170d4: f022 sd s0,32(sp) 170d6: 84aa mv s1,a0 170d8: 03200913 li s2,50 170dc: 03d00993 li s3,61 170e0: 8526 mv a0,s1 170e2: 001cd097 auipc ra,0x1cd 170e6: bac080e7 jalr -1108(ra) # 1e3c8e <ix86_delegitimize_address.lto_priv.0> > Block 1 @ 0x706d0a, 3 insns, 274713936 times, 0.37%: > Block 2 @ 0x1e3c8e, 9 insns, 88507109 times, 0.35%: ... < Block 0 @ 0x170ca, 12 insns, 87869602 times, 0.47%: < Block 1 @ 0x706d42, 3 insns, 274608893 times, 0.36%: < Block 2 @ 0x1e3c94, 9 insns, 88526354 times, 0.35%: FWIW, Greg internally has been looking at some of this and found some issues in the bbv tooling, but I wish all of this was shared/upstream (QEMU bbv plugin) for people to compare notes and not discover/fix the same issues over and again. Thx, -Vineet
On 5/13/24 3:13 PM, Vineet Gupta wrote: > On 5/13/24 11:49, Vineet Gupta wrote: >> 500.perlbench_r-0 | 1,214,534,029,025 | 1,212,887,959,387 | >> 500.perlbench_r-1 | 740,383,419,739 | 739,280,308,163 | >> 500.perlbench_r-2 | 692,074,638,817 | 691,118,734,547 | >> 502.gcc_r-0 | 190,820,141,435 | 190,857,065,988 | >> 502.gcc_r-1 | 225,747,660,839 | 225,809,444,357 | <- -0.02% >> 502.gcc_r-2 | 220,370,089,641 | 220,406,367,876 | <- -0.03% >> 502.gcc_r-3 | 179,111,460,458 | 179,135,609,723 | <- -0.02% >> 502.gcc_r-4 | 219,301,546,340 | 219,320,416,956 | <- -0.01% >> 503.bwaves_r-0 | 278,733,324,691 | 278,733,323,575 | <- -0.01% >> 503.bwaves_r-1 | 442,397,521,282 | 442,397,519,616 | >> 503.bwaves_r-2 | 344,112,218,206 | 344,112,216,760 | >> 503.bwaves_r-3 | 417,561,469,153 | 417,561,467,597 | >> 505.mcf_r | 669,319,257,525 | 669,318,763,084 | >> 507.cactuBSSN_r | 2,852,767,394,456 | 2,564,736,063,742 | <+ 10.10% > > The small gcc regression seems like a tooling issue of some sort. > Looking at the topblocks, the insn sequences are exactly the same, only > the counts differ and its not obvious why. > Here's for gcc_r-1. > > > > Block 0 @ 0x170ca, 12 insns, 87854493 times, 0.47%: > > 00000000000170ca <find_base_term>: > 170ca: 7179 add sp,sp,-48 > 170cc: ec26 sd s1,24(sp) > 170ce: e84a sd s2,16(sp) > 170d0: e44e sd s3,8(sp) > 170d2: f406 sd ra,40(sp) > 170d4: f022 sd s0,32(sp) > 170d6: 84aa mv s1,a0 > 170d8: 03200913 li s2,50 > 170dc: 03d00993 li s3,61 > 170e0: 8526 mv a0,s1 > 170e2: 001cd097 auipc ra,0x1cd > 170e6: bac080e7 jalr -1108(ra) # 1e3c8e > <ix86_delegitimize_address.lto_priv.0> > > > Block 1 @ 0x706d0a, 3 insns, 274713936 times, 0.37%: > > Block 2 @ 0x1e3c8e, 9 insns, 88507109 times, 0.35%: > ... > > < Block 0 @ 0x170ca, 12 insns, 87869602 times, 0.47%: > < Block 1 @ 0x706d42, 3 insns, 274608893 times, 0.36%: > < Block 2 @ 0x1e3c94, 9 insns, 88526354 times, 0.35%: > > > FWIW, Greg internally has been looking at some of this and found some > issues in the bbv tooling, but I wish all of this was shared/upstream > (QEMU bbv plugin) for people to compare notes and not discover/fix the > same issues over and again. Yea, we all meant to coordinate on those plugins. The one we've got had some problems with hash collisions and when there's a hash collision it just produces total junk data. I chased a few of these down and fixed them about a year ago. The other thing is qemu will split up blocks based on its internal notion of a translation page. So if you're looking at block level data you'll stumble over that as well. This aspect is the most troublesome problem I'm aware of right now. Jeff
On 5/13/24 15:47, Jeff Law wrote: >> On 5/13/24 11:49, Vineet Gupta wrote: >>> 500.perlbench_r-0 | 1,214,534,029,025 | 1,212,887,959,387 | >>> 500.perlbench_r-1 | 740,383,419,739 | 739,280,308,163 | >>> 500.perlbench_r-2 | 692,074,638,817 | 691,118,734,547 | >>> 502.gcc_r-0 | 190,820,141,435 | 190,857,065,988 | >>> 502.gcc_r-1 | 225,747,660,839 | 225,809,444,357 | <- -0.02% >>> 502.gcc_r-2 | 220,370,089,641 | 220,406,367,876 | <- -0.03% >>> 502.gcc_r-3 | 179,111,460,458 | 179,135,609,723 | <- -0.02% >>> 502.gcc_r-4 | 219,301,546,340 | 219,320,416,956 | <- -0.01% >>> 503.bwaves_r-0 | 278,733,324,691 | 278,733,323,575 | <- -0.01% >>> 503.bwaves_r-1 | 442,397,521,282 | 442,397,519,616 | >>> 503.bwaves_r-2 | 344,112,218,206 | 344,112,216,760 | >>> 503.bwaves_r-3 | 417,561,469,153 | 417,561,467,597 | >>> 505.mcf_r | 669,319,257,525 | 669,318,763,084 | >>> 507.cactuBSSN_r | 2,852,767,394,456 | 2,564,736,063,742 | <+ 10.10% >> The small gcc regression seems like a tooling issue of some sort. >> Looking at the topblocks, the insn sequences are exactly the same, only >> the counts differ and its not obvious why. >> Here's for gcc_r-1. >> >> >> > Block 0 @ 0x170ca, 12 insns, 87854493 times, 0.47%: >> >> 00000000000170ca <find_base_term>: >> 170ca: 7179 add sp,sp,-48 >> 170cc: ec26 sd s1,24(sp) >> 170ce: e84a sd s2,16(sp) >> 170d0: e44e sd s3,8(sp) >> 170d2: f406 sd ra,40(sp) >> 170d4: f022 sd s0,32(sp) >> 170d6: 84aa mv s1,a0 >> 170d8: 03200913 li s2,50 >> 170dc: 03d00993 li s3,61 >> 170e0: 8526 mv a0,s1 >> 170e2: 001cd097 auipc ra,0x1cd >> 170e6: bac080e7 jalr -1108(ra) # 1e3c8e >> <ix86_delegitimize_address.lto_priv.0> >> >> > Block 1 @ 0x706d0a, 3 insns, 274713936 times, 0.37%: >> > Block 2 @ 0x1e3c8e, 9 insns, 88507109 times, 0.35%: >> ... >> >> < Block 0 @ 0x170ca, 12 insns, 87869602 times, 0.47%: >> < Block 1 @ 0x706d42, 3 insns, 274608893 times, 0.36%: >> < Block 2 @ 0x1e3c94, 9 insns, 88526354 times, 0.35%: >> >> >> FWIW, Greg internally has been looking at some of this and found some >> issues in the bbv tooling, but I wish all of this was shared/upstream >> (QEMU bbv plugin) for people to compare notes and not discover/fix the >> same issues over and again. > Yea, we all meant to coordinate on those plugins. The one we've got had > some problems with hash collisions and when there's a hash collision it > just produces total junk data. I chased a few of these down and fixed > them about a year ago. > > The other thing is qemu will split up blocks based on its internal > notion of a translation page. So if you're looking at block level data > you'll stumble over that as well. This aspect is the most troublesome > problem I'm aware of right now. And these two are exactly what Greg fixed, among others :-) -Vineet
On Mon, 13 May 2024 16:08:21 PDT (-0700), Vineet Gupta wrote: > > > On 5/13/24 15:47, Jeff Law wrote: >>> On 5/13/24 11:49, Vineet Gupta wrote: >>>> 500.perlbench_r-0 | 1,214,534,029,025 | 1,212,887,959,387 | >>>> 500.perlbench_r-1 | 740,383,419,739 | 739,280,308,163 | >>>> 500.perlbench_r-2 | 692,074,638,817 | 691,118,734,547 | >>>> 502.gcc_r-0 | 190,820,141,435 | 190,857,065,988 | >>>> 502.gcc_r-1 | 225,747,660,839 | 225,809,444,357 | <- -0.02% >>>> 502.gcc_r-2 | 220,370,089,641 | 220,406,367,876 | <- -0.03% >>>> 502.gcc_r-3 | 179,111,460,458 | 179,135,609,723 | <- -0.02% >>>> 502.gcc_r-4 | 219,301,546,340 | 219,320,416,956 | <- -0.01% >>>> 503.bwaves_r-0 | 278,733,324,691 | 278,733,323,575 | <- -0.01% >>>> 503.bwaves_r-1 | 442,397,521,282 | 442,397,519,616 | >>>> 503.bwaves_r-2 | 344,112,218,206 | 344,112,216,760 | >>>> 503.bwaves_r-3 | 417,561,469,153 | 417,561,467,597 | >>>> 505.mcf_r | 669,319,257,525 | 669,318,763,084 | >>>> 507.cactuBSSN_r | 2,852,767,394,456 | 2,564,736,063,742 | <+ 10.10% >>> The small gcc regression seems like a tooling issue of some sort. >>> Looking at the topblocks, the insn sequences are exactly the same, only >>> the counts differ and its not obvious why. >>> Here's for gcc_r-1. >>> >>> >>> > Block 0 @ 0x170ca, 12 insns, 87854493 times, 0.47%: >>> >>> 00000000000170ca <find_base_term>: >>> 170ca: 7179 add sp,sp,-48 >>> 170cc: ec26 sd s1,24(sp) >>> 170ce: e84a sd s2,16(sp) >>> 170d0: e44e sd s3,8(sp) >>> 170d2: f406 sd ra,40(sp) >>> 170d4: f022 sd s0,32(sp) >>> 170d6: 84aa mv s1,a0 >>> 170d8: 03200913 li s2,50 >>> 170dc: 03d00993 li s3,61 >>> 170e0: 8526 mv a0,s1 >>> 170e2: 001cd097 auipc ra,0x1cd >>> 170e6: bac080e7 jalr -1108(ra) # 1e3c8e >>> <ix86_delegitimize_address.lto_priv.0> >>> >>> > Block 1 @ 0x706d0a, 3 insns, 274713936 times, 0.37%: >>> > Block 2 @ 0x1e3c8e, 9 insns, 88507109 times, 0.35%: >>> ... >>> >>> < Block 0 @ 0x170ca, 12 insns, 87869602 times, 0.47%: >>> < Block 1 @ 0x706d42, 3 insns, 274608893 times, 0.36%: >>> < Block 2 @ 0x1e3c94, 9 insns, 88526354 times, 0.35%: >>> >>> >>> FWIW, Greg internally has been looking at some of this and found some >>> issues in the bbv tooling, but I wish all of this was shared/upstream >>> (QEMU bbv plugin) for people to compare notes and not discover/fix the >>> same issues over and again. >> Yea, we all meant to coordinate on those plugins. The one we've got had >> some problems with hash collisions and when there's a hash collision it >> just produces total junk data. I chased a few of these down and fixed >> them about a year ago. >> >> The other thing is qemu will split up blocks based on its internal >> notion of a translation page. So if you're looking at block level data >> you'll stumble over that as well. This aspect is the most troublesome >> problem I'm aware of right now. > > And these two are exactly what Greg fixed, among others :-) IIRC the plan was for Jeff to send his version to the QEMU lists so we can talk about it over there. Do you want us to just send Greg's version instead? It's all based on the same original patch from the QEMU lists, just with possibly-different set of fixes. > > -Vineet
On 5/14/24 15:12, Palmer Dabbelt wrote: > On Mon, 13 May 2024 16:08:21 PDT (-0700), Vineet Gupta wrote: >> >> On 5/13/24 15:47, Jeff Law wrote: >>>> On 5/13/24 11:49, Vineet Gupta wrote: >>>>> 500.perlbench_r-0 | 1,214,534,029,025 | 1,212,887,959,387 | >>>>> 500.perlbench_r-1 | 740,383,419,739 | 739,280,308,163 | >>>>> 500.perlbench_r-2 | 692,074,638,817 | 691,118,734,547 | >>>>> 502.gcc_r-0 | 190,820,141,435 | 190,857,065,988 | >>>>> 502.gcc_r-1 | 225,747,660,839 | 225,809,444,357 | <- -0.02% >>>>> 502.gcc_r-2 | 220,370,089,641 | 220,406,367,876 | <- -0.03% >>>>> 502.gcc_r-3 | 179,111,460,458 | 179,135,609,723 | <- -0.02% >>>>> 502.gcc_r-4 | 219,301,546,340 | 219,320,416,956 | <- -0.01% >>>>> 503.bwaves_r-0 | 278,733,324,691 | 278,733,323,575 | <- -0.01% >>>>> 503.bwaves_r-1 | 442,397,521,282 | 442,397,519,616 | >>>>> 503.bwaves_r-2 | 344,112,218,206 | 344,112,216,760 | >>>>> 503.bwaves_r-3 | 417,561,469,153 | 417,561,467,597 | >>>>> 505.mcf_r | 669,319,257,525 | 669,318,763,084 | >>>>> 507.cactuBSSN_r | 2,852,767,394,456 | 2,564,736,063,742 | <+ 10.10% >>>> The small gcc regression seems like a tooling issue of some sort. >>>> Looking at the topblocks, the insn sequences are exactly the same, only >>>> the counts differ and its not obvious why. >>>> Here's for gcc_r-1. >>>> >>>> >>>> > Block 0 @ 0x170ca, 12 insns, 87854493 times, 0.47%: >>>> >>>> 00000000000170ca <find_base_term>: >>>> 170ca: 7179 add sp,sp,-48 >>>> 170cc: ec26 sd s1,24(sp) >>>> 170ce: e84a sd s2,16(sp) >>>> 170d0: e44e sd s3,8(sp) >>>> 170d2: f406 sd ra,40(sp) >>>> 170d4: f022 sd s0,32(sp) >>>> 170d6: 84aa mv s1,a0 >>>> 170d8: 03200913 li s2,50 >>>> 170dc: 03d00993 li s3,61 >>>> 170e0: 8526 mv a0,s1 >>>> 170e2: 001cd097 auipc ra,0x1cd >>>> 170e6: bac080e7 jalr -1108(ra) # 1e3c8e >>>> <ix86_delegitimize_address.lto_priv.0> >>>> >>>> > Block 1 @ 0x706d0a, 3 insns, 274713936 times, 0.37%: >>>> > Block 2 @ 0x1e3c8e, 9 insns, 88507109 times, 0.35%: >>>> ... >>>> >>>> < Block 0 @ 0x170ca, 12 insns, 87869602 times, 0.47%: >>>> < Block 1 @ 0x706d42, 3 insns, 274608893 times, 0.36%: >>>> < Block 2 @ 0x1e3c94, 9 insns, 88526354 times, 0.35%: >>>> >>>> >>>> FWIW, Greg internally has been looking at some of this and found some >>>> issues in the bbv tooling, but I wish all of this was shared/upstream >>>> (QEMU bbv plugin) for people to compare notes and not discover/fix the >>>> same issues over and again. >>> Yea, we all meant to coordinate on those plugins. The one we've got had >>> some problems with hash collisions and when there's a hash collision it >>> just produces total junk data. I chased a few of these down and fixed >>> them about a year ago. >>> >>> The other thing is qemu will split up blocks based on its internal >>> notion of a translation page. So if you're looking at block level data >>> you'll stumble over that as well. This aspect is the most troublesome >>> problem I'm aware of right now. >> And these two are exactly what Greg fixed, among others :-) > IIRC the plan was for Jeff to send his version to the QEMU lists so we > can talk about it over there. Do you want us to just send Greg's > version instead? It's all based on the same original patch from the > QEMU lists, just with possibly-different set of fixes. FWIW Last year ? I did send out a cleanedup version of plugins but it seems that got lost in other mayhem. -Vineet
diff --git a/gcc/config/riscv/constraints.md b/gcc/config/riscv/constraints.md index a590df545d7d..a9ee346af6f0 100644 --- a/gcc/config/riscv/constraints.md +++ b/gcc/config/riscv/constraints.md @@ -80,6 +80,12 @@ (and (match_code "const_int") (match_test "LUI_OPERAND (ival)"))) +(define_constraint "MiG" + "const can be represented as sum of any S12 values." + (and (match_code "const_int") + (ior (match_test "IN_RANGE (ival, 2048, 4094)") + (match_test "IN_RANGE (ival, -4096, -2049)")))) + (define_constraint "Ds3" "@internal 1, 2 or 3 immediate" diff --git a/gcc/config/riscv/predicates.md b/gcc/config/riscv/predicates.md index e7d797d4dbf0..8948fbfc3631 100644 --- a/gcc/config/riscv/predicates.md +++ b/gcc/config/riscv/predicates.md @@ -428,6 +428,12 @@ return true; }) +(define_predicate "const_two_s12" + (match_code "const_int") +{ + return SUM_OF_TWO_S12 (INTVAL (op)); +}) + ;; CORE-V Predicates: (define_predicate "immediate_register_operand" (ior (match_operand 0 "register_operand") diff --git a/gcc/config/riscv/riscv-protos.h b/gcc/config/riscv/riscv-protos.h index e5aebf3fc3d5..706dc204e643 100644 --- a/gcc/config/riscv/riscv-protos.h +++ b/gcc/config/riscv/riscv-protos.h @@ -165,6 +165,7 @@ extern bool riscv_shamt_matches_mask_p (int, HOST_WIDE_INT); extern void riscv_subword_address (rtx, rtx *, rtx *, rtx *, rtx *); extern void riscv_lshift_subword (machine_mode, rtx, rtx, rtx *); extern enum memmodel riscv_union_memmodels (enum memmodel, enum memmodel); +extern bool riscv_reg_frame_related (rtx); /* Routines implemented in riscv-c.cc. */ void riscv_cpu_cpp_builtins (cpp_reader *); diff --git a/gcc/config/riscv/riscv.cc b/gcc/config/riscv/riscv.cc index a1e5a014bedf..4067505270e1 100644 --- a/gcc/config/riscv/riscv.cc +++ b/gcc/config/riscv/riscv.cc @@ -7145,6 +7145,17 @@ riscv_can_eliminate (const int from ATTRIBUTE_UNUSED, const int to) return (to == HARD_FRAME_POINTER_REGNUM || to == STACK_POINTER_REGNUM); } +/* Helper to determine if reg X pertains to stack. */ +bool +riscv_reg_frame_related (rtx x) +{ + return REG_P (x) + && (REGNO (x) == FRAME_POINTER_REGNUM + || REGNO (x) == HARD_FRAME_POINTER_REGNUM + || REGNO (x) == ARG_POINTER_REGNUM + || REGNO (x) == VIRTUAL_STACK_VARS_REGNUM); +} + /* Implement INITIAL_ELIMINATION_OFFSET. FROM is either the frame pointer or argument pointer. TO is either the stack pointer or hard frame pointer. */ diff --git a/gcc/config/riscv/riscv.h b/gcc/config/riscv/riscv.h index 58d0b09bf7d9..0d27c0d378df 100644 --- a/gcc/config/riscv/riscv.h +++ b/gcc/config/riscv/riscv.h @@ -626,6 +626,21 @@ enum reg_class (((VALUE) | ((1UL<<31) - IMM_REACH)) == ((1UL<<31) - IMM_REACH) \ || ((VALUE) | ((1UL<<31) - IMM_REACH)) + IMM_REACH == 0) +/* True if a VALUE (constant) can be expressed as sum of two S12 constants + (in range -2048 to 2047). + Range check logic: + from: min S12 + 1 (or -1 depending on what side of zero) + to: two times the min S12 value (to max out S12 bits). */ + +#define SUM_OF_TWO_S12_N(VALUE) \ + (((VALUE) >= (-2048 * 2)) && ((VALUE) <= (-2048 - 1))) + +#define SUM_OF_TWO_S12_P(VALUE) \ + (((VALUE) >= (2047 + 1)) && ((VALUE) <= (2047 * 2))) + +#define SUM_OF_TWO_S12(VALUE) \ + (SUM_OF_TWO_S12_N (VALUE) || SUM_OF_TWO_S12_P (VALUE)) + /* If this is a single bit mask, then we can load it with bseti. Special handling of SImode 0x80000000 on RV64 is done in riscv_build_integer_1. */ #define SINGLE_BIT_MASK_OPERAND(VALUE) \ diff --git a/gcc/config/riscv/riscv.md b/gcc/config/riscv/riscv.md index 4d6de9925572..f5dac342033e 100644 --- a/gcc/config/riscv/riscv.md +++ b/gcc/config/riscv/riscv.md @@ -703,6 +703,46 @@ [(set_attr "type" "arith") (set_attr "mode" "DI")]) +;; Special case of adding a reg and constant if latter is sum of two S12 +;; values (in range -2048 to 2047). Avoid materialized the const and fuse +;; into the add (with an additional add for 2nd value). Makes a 3 insn +;; sequence into 2 insn. + +(define_insn_and_split "*add<mode>3_const_sum_of_two_s12" + [(set (match_operand:P 0 "register_operand" "=r,r") + (plus:P (match_operand:P 1 "register_operand" " r,r") + (match_operand:P 2 "const_two_s12" " MiG,r")))] + "!riscv_reg_frame_related (operands[0])" +{ + /* operand matching MiG constraint is always meant to be split. */ + if (which_alternative == 0) + return "#"; + else + return "add %0,%1,%2"; +} + "" + [(set (match_dup 0) + (plus:P (match_dup 1) (match_dup 3))) + (set (match_dup 0) + (plus:P (match_dup 0) (match_dup 4)))] +{ + int val = INTVAL (operands[2]); + if (SUM_OF_TWO_S12_P (val)) + { + operands[3] = GEN_INT (2047); + operands[4] = GEN_INT (val - 2047); + } + else if (SUM_OF_TWO_S12_N (val)) + { + operands[3] = GEN_INT (-2048); + operands[4] = GEN_INT (val + 2048); + } + else + gcc_unreachable (); +} + [(set_attr "type" "arith") + (set_attr "mode" "<P:MODE>")]) + (define_expand "addv<mode>4" [(set (match_operand:GPR 0 "register_operand" "=r,r") (plus:GPR (match_operand:GPR 1 "register_operand" " r,r") diff --git a/gcc/testsuite/gcc.target/riscv/sum-of-two-s12-const-1.c b/gcc/testsuite/gcc.target/riscv/sum-of-two-s12-const-1.c new file mode 100644 index 000000000000..4d6d135de5f5 --- /dev/null +++ b/gcc/testsuite/gcc.target/riscv/sum-of-two-s12-const-1.c @@ -0,0 +1,45 @@ +// TBD: This doesn't quite work for rv32 yet +/* { dg-do compile } */ +/* { dg-options { -march=rv64gcv -mabi=lp64d } } */ +/* { dg-skip-if "" { *-*-* } { "-O0" "-Og" "-Os" "-Oz" } } */ + +/* Ensure that gcc doesn't generate standlone li reg, 4096. */ +long +plus1(unsigned long i) +{ + return i + 2048; +} + +long +plus2(unsigned long i) +{ + return i + 4094; +} + +long +plus3(unsigned long i) +{ + return i + 2064; +} + +/* Ensure that gcc doesn't generate standlone li reg, -4096. */ +long +minus1(unsigned long i) +{ + return i - 4096; +} + +long +minus2(unsigned long i) +{ + return i - 2049; +} + +long +minus3(unsigned long i) +{ + return i - 2064; +} + +/* { dg-final { scan-assembler-not {li\t[a-x0-9]+,-4096} } } */ +/* { dg-final { scan-assembler-not {li\t[a-x0-9]+,4096} } } */ diff --git a/gcc/testsuite/gcc.target/riscv/sum-of-two-s12-const-2.c b/gcc/testsuite/gcc.target/riscv/sum-of-two-s12-const-2.c new file mode 100644 index 000000000000..9343b43c3106 --- /dev/null +++ b/gcc/testsuite/gcc.target/riscv/sum-of-two-s12-const-2.c @@ -0,0 +1,15 @@ +/* Reduced from glibc/stdio-common/tempnam.c. + Can't have invalid insn in final output: + add s0, sp, 2048 */ + +/* { dg-do compile } */ +/* { dg-options { -march=rv64gcv -mabi=lp64d -O2 } } */ +/* { dg-skip-if "" { *-*-* } { "-O0" "O1" "-Og" "-Os" "-Oz" } } */ + +int a() { + char b[4096]; + if (a(b)) + a(b); +} + +/* { dg-final { scan-assembler-not {add\t[a-x0-9]+,sp,2048} } } */ diff --git a/gcc/testsuite/gcc.target/riscv/sum-of-two-s12-const-3.c b/gcc/testsuite/gcc.target/riscv/sum-of-two-s12-const-3.c new file mode 100644 index 000000000000..5dcab52c2610 --- /dev/null +++ b/gcc/testsuite/gcc.target/riscv/sum-of-two-s12-const-3.c @@ -0,0 +1,22 @@ +/* Reduced version of c-c++-common/torture/builtin-convertvector-1.c. */ +/* This should NOT ICE */ + +/* { dg-do compile } */ + +typedef long b __attribute__((vector_size(256 * sizeof(long)))); +typedef double c __attribute__((vector_size(256 * sizeof(double)))); +int d; +void e(b *f, c *g) { *g = __builtin_convertvector(*f, c); } +void h() { + struct { + b i; + } j; + union { + c i; + double a[6]; + } k; + e(&j.i, &k.i); + if (k.a[d]) + for (;;) + ; +}
Apologies for the delay in getting this out. Needed to fix one ICE with glibc build and fresh round of testing: both testsuite and SPEC runs (which are similar to v1 in terms of Cactu gains, but some more minor regressions elsewhere gcc). Again those seem so small that IMHO this should still go in. I'll investigate those next as well as an existing weirdnes in glibc tempnam which I spotted during the debugging. Changes since v1 [1] - Tighten the main conditition to avoid stack regs as destination (to avoid making them potentially unaligned with -2047 addend: this might be OK execution/ABI wise, but undesirable/ugly still specially when coming from compiler codegen). - Ensure that first alternative is always split - Remove "&& 1" from split condition. That was tripping up glibc build with illegal operands `add s0, s0, 2048`. [1] https://gcc.gnu.org/pipermail/gcc-patches/2024-March/647877.html --- ... if the constant can be represented as sum of two S12 values. The two S12 values could instead be fused with subsequent ADD insn. The helps - avoid an additional LUI insn - side benefits of not clobbering a reg e.g. w/o patch w/ patch long | | plus(unsigned long i) | li a5,4096 | { | addi a5,a5,-2032 | addi a0, a0, 2047 return i + 2064; | add a0,a0,a5 | addi a0, a0, 17 } | ret | ret NOTE: In theory not having const in a standalone reg might seem less CSE friendly, but for workloads in consideration these mat are from very late LRA reloads and follow on GCSE is not doing much currently. The real benefit however is seen in base+offset computation for array accesses and especially for stack accesses which are finalized late in optim pipeline, during LRA register allocation. Often the finalized offsets trigger LRA reloads resulting in mind boggling repetition of exact same insn sequence including LUI based constant materialization. This shaves off 290 billion dynamic instrustions (QEMU icounts) in SPEC 2017 Cactu benchmark which is over 10% of workload. In the rest of suite, there additional 10 billion shaved, with both gains and losses in indiv workloads as is usual with compiler changes. 500.perlbench_r-0 | 1,214,534,029,025 | 1,212,887,959,387 | 500.perlbench_r-1 | 740,383,419,739 | 739,280,308,163 | 500.perlbench_r-2 | 692,074,638,817 | 691,118,734,547 | 502.gcc_r-0 | 190,820,141,435 | 190,857,065,988 | 502.gcc_r-1 | 225,747,660,839 | 225,809,444,357 | <- -0.02% 502.gcc_r-2 | 220,370,089,641 | 220,406,367,876 | <- -0.03% 502.gcc_r-3 | 179,111,460,458 | 179,135,609,723 | <- -0.02% 502.gcc_r-4 | 219,301,546,340 | 219,320,416,956 | <- -0.01% 503.bwaves_r-0 | 278,733,324,691 | 278,733,323,575 | <- -0.01% 503.bwaves_r-1 | 442,397,521,282 | 442,397,519,616 | 503.bwaves_r-2 | 344,112,218,206 | 344,112,216,760 | 503.bwaves_r-3 | 417,561,469,153 | 417,561,467,597 | 505.mcf_r | 669,319,257,525 | 669,318,763,084 | 507.cactuBSSN_r | 2,852,767,394,456 | 2,564,736,063,742 | <+ 10.10% 508.namd_r | 1,855,884,342,110 | 1,855,881,110,934 | 510.parest_r | 1,654,525,521,053 | 1,654,402,859,174 | 511.povray_r | 2,990,146,655,619 | 2,990,060,324,589 | 519.lbm_r | 1,158,337,294,525 | 1,158,337,294,529 | 520.omnetpp_r | 1,021,765,791,283 | 1,026,165,661,394 | 521.wrf_r | 1,715,955,652,503 | 1,714,352,737,385 | 523.xalancbmk_r | 849,846,008,075 | 849,836,851,752 | 525.x264_r-0 | 277,801,762,763 | 277,488,776,427 | 525.x264_r-1 | 927,281,789,540 | 926,751,516,742 | 525.x264_r-2 | 915,352,631,375 | 914,667,785,953 | 526.blender_r | 1,652,839,180,887 | 1,653,260,825,512 | 527.cam4_r | 1,487,053,494,925 | 1,484,526,670,770 | 531.deepsjeng_r | 1,641,969,526,837 | 1,642,126,598,866 | 538.imagick_r | 2,098,016,546,691 | 2,097,997,929,125 | 541.leela_r | 1,983,557,323,877 | 1,983,531,314,526 | 544.nab_r | 1,516,061,611,233 | 1,516,061,407,715 | 548.exchange2_r | 2,072,594,330,215 | 2,072,591,648,318 | 549.fotonik3d_r | 1,001,499,307,366 | 1,001,478,944,189 | 554.roms_r | 1,028,799,739,111 | 1,028,780,904,061 | 557.xz_r-0 | 363,827,039,684 | 363,057,014,260 | 557.xz_r-1 | 906,649,112,601 | 905,928,888,732 | 557.xz_r-2 | 509,023,898,187 | 508,140,356,932 | 997.specrand_fr | 402,535,577 | 403,052,561 | 999.specrand_ir | 402,535,577 | 403,052,561 | This should still be considered damage control as the real/deeper fix would be to reduce number of LRA reloads or CSE/anchor those during LRA constraint sub-pass (re)runs (thats a different PR/114729. Implementation Details (for posterity) -------------------------------------- - basic idea is to have a splitter selected via a new predicate for constant being possible sum of two S12 and provide the transform. This is however a 2 -> 2 transform which combine can't handle. So we specify it using a define_insn_and_split. - the initial loose "i" constraint caused LRA to accept invalid insns thus needing a tighter new constraint as well. - An additional fallback alternate with catch-all "r" register constraint also needed to allow any "reloads" that LRA might require for ADDI with const larger than S12. Testing -------- This is testsuite clean (rv64 only). I'll rely on post-commit CI multlib run for any possible fallout for other setups such as rv32. | | gcc | g++ | gfortran | | rv64imafdc_zba_zbb_zbs_zicond/ lp64d/ medlow | 41 / 17 | 8 / 3 | 7 / 2 | | rv64imafdc_zba_zbb_zbs_zicond/ lp64d/ medlow | 41 / 17 | 8 / 3 | 7 / 2 | I also threw this into a buildroot run, it obviously boots Linux to userspace. bloat-o-meter on glibc and kernel show overall decrease in staic instruction counts with some minor spot increases. These are generally in the category of - LUI + ADDI are 2 byte each vs. two ADD being 4 byte each. - Knock on effects due to inlining changes. - Sometimes the slightly shorter 2-insn seq in a mult-exit function can cause in-place epilogue duplication (vs. a jump back). This is slightly larger but more efficient in execution. In summary nothing to fret about. | linux/scripts/bloat-o-meter build-gcc-240131/target/lib/libc.so.6 \ build-gcc-240131-new-splitter-1-variant/target/lib/libc.so.6 | | add/remove: 0/0 grow/shrink: 21/49 up/down: 520/-3056 (-2536) | Function old new delta | getnameinfo 2756 2892 +136 ... | tempnam 136 144 +8 | padzero 276 284 +8 ... | __GI___register_printf_specifier 284 280 -4 | __EI_xdr_array 468 464 -4 | try_file_lock 268 260 -8 | pthread_create@GLIBC_2 3520 3508 -12 | __pthread_create_2_1 3520 3508 -12 ... | _nss_files_setnetgrent 932 904 -28 | _nss_dns_gethostbyaddr2_r 1524 1480 -44 | build_trtable 3312 3208 -104 | printf_positional 25000 22580 -2420 | Total: Before=2107999, After=2105463, chg -0.12% gcc/ChangeLog: * config/riscv/riscv.h: New macros to check for sum of two S12 range. * config/riscv/constraints.md: New constraint. * config/riscv/predicates.md: New Predicate. * config/riscv/riscv.md: New splitter. * config/riscv/riscv.cc (riscv_reg_frame_related): New helper. * config/riscv/riscv-protos.h: New helper prototype. gcc/testsuite/ChangeLog: * gcc.target/riscv/sum-of-two-s12-const-1.c: New test: checks for new patterns output. * gcc.target/riscv/sum-of-two-s12-const-2.c: Ditto. * gcc.target/riscv/sum-of-two-s12-const-3.c: New test: should not ICE. Signed-off-by: Vineet Gupta <vineetg@rivosinc.com> --- gcc/config/riscv/constraints.md | 6 +++ gcc/config/riscv/predicates.md | 6 +++ gcc/config/riscv/riscv-protos.h | 1 + gcc/config/riscv/riscv.cc | 11 +++++ gcc/config/riscv/riscv.h | 15 +++++++ gcc/config/riscv/riscv.md | 40 +++++++++++++++++ .../gcc.target/riscv/sum-of-two-s12-const-1.c | 45 +++++++++++++++++++ .../gcc.target/riscv/sum-of-two-s12-const-2.c | 15 +++++++ .../gcc.target/riscv/sum-of-two-s12-const-3.c | 22 +++++++++ 9 files changed, 161 insertions(+) create mode 100644 gcc/testsuite/gcc.target/riscv/sum-of-two-s12-const-1.c create mode 100644 gcc/testsuite/gcc.target/riscv/sum-of-two-s12-const-2.c create mode 100644 gcc/testsuite/gcc.target/riscv/sum-of-two-s12-const-3.c