diff options
author | Ilia Mirkin <[email protected]> | 2017-02-05 10:03:53 -0500 |
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committer | Ilia Mirkin <[email protected]> | 2017-02-09 12:57:48 -0500 |
commit | 61d7676df779829e713cdbc2569f7ab50492078d (patch) | |
tree | 6da0bac9aa7a8ac74c2a9444154a86aac00a5dce /src/gallium/drivers/nouveau/codegen | |
parent | 1aefd6159c07cd5b646ce99afd96d4500020418a (diff) |
nvc0/ir: add support for 64-bit shift lowering on SM20/SM30
Unfortunately there is no SHF.L/SHF.R instruction pre-SM35. So we have
to do a bit more work to get the job done.
Signed-off-by: Ilia Mirkin <[email protected]>
Diffstat (limited to 'src/gallium/drivers/nouveau/codegen')
-rw-r--r-- | src/gallium/drivers/nouveau/codegen/nv50_ir_lowering_nvc0.cpp | 68 |
1 files changed, 62 insertions, 6 deletions
diff --git a/src/gallium/drivers/nouveau/codegen/nv50_ir_lowering_nvc0.cpp b/src/gallium/drivers/nouveau/codegen/nv50_ir_lowering_nvc0.cpp index 772ea616f16..f2843c7f0d9 100644 --- a/src/gallium/drivers/nouveau/codegen/nv50_ir_lowering_nvc0.cpp +++ b/src/gallium/drivers/nouveau/codegen/nv50_ir_lowering_nvc0.cpp @@ -150,21 +150,77 @@ NVC0LegalizeSSA::handleTEXLOD(TexInstruction *i) void NVC0LegalizeSSA::handleShift(Instruction *lo) { - Instruction *hi = new_Instruction(func, lo->op, TYPE_U32); - lo->bb->insertAfter(lo, hi); + Value *shift = lo->getSrc(1); + Value *dst64 = lo->getDef(0); + Value *src[2], *dst[2]; + operation op = lo->op; + bld.setPosition(lo, false); - Value *src[2], *dst[2] = {bld.getSSA(), bld.getSSA()}; - Value *dst64 = lo->getDef(0), *shift = lo->getSrc(1); bld.mkSplit(src, 4, lo->getSrc(0)); + // SM30 and prior don't have the fancy new SHF.L/R ops. So the logic has to + // be completely emulated. For SM35+, we can use the more directed SHF + // operations. + if (prog->getTarget()->getChipset() < NVISA_GK20A_CHIPSET) { + // The strategy here is to handle shifts >= 32 and less than 32 as + // separate parts. + // + // For SHL: + // If the shift is <= 32, then + // (HI,LO) << x = (HI << x | (LO >> (32 - x)), LO << x) + // If the shift is > 32, then + // (HI,LO) << x = (LO << (x - 32), 0) + // + // For SHR: + // If the shift is <= 32, then + // (HI,LO) >> x = (HI >> x, (HI << (32 - x)) | LO >> x) + // If the shift is > 32, then + // (HI,LO) >> x = (0, HI >> (x - 32)) + // + // Note that on NVIDIA hardware, a shift > 32 yields a 0 value, which we + // can use to our advantage. Also note the structural similarities + // between the right/left cases. The main difference is swapping hi/lo + // on input and output. + + Value *x32_minus_shift, *pred, *hi1, *hi2; + DataType type = isSignedIntType(lo->dType) ? TYPE_S32 : TYPE_U32; + operation antiop = op == OP_SHR ? OP_SHL : OP_SHR; + if (op == OP_SHR) + std::swap(src[0], src[1]); + bld.mkOp2(OP_ADD, TYPE_U32, (x32_minus_shift = bld.getSSA()), shift, bld.mkImm(0x20)) + ->src(0).mod = Modifier(NV50_IR_MOD_NEG); + bld.mkCmp(OP_SET, CC_LE, TYPE_U8, (pred = bld.getSSA(1, FILE_PREDICATE)), + TYPE_U32, shift, bld.mkImm(32)); + // Compute HI (shift <= 32) + bld.mkOp2(OP_OR, TYPE_U32, (hi1 = bld.getSSA()), + bld.mkOp2v(op, TYPE_U32, bld.getSSA(), src[1], shift), + bld.mkOp2v(antiop, TYPE_U32, bld.getSSA(), src[0], x32_minus_shift)) + ->setPredicate(CC_P, pred); + // Compute LO (all shift values) + bld.mkOp2(op, type, (dst[0] = bld.getSSA()), src[0], shift); + // Compute HI (shift > 32) + bld.mkOp2(op, type, (hi2 = bld.getSSA()), src[1], + bld.mkOp1v(OP_NEG, TYPE_S32, bld.getSSA(), x32_minus_shift)) + ->setPredicate(CC_NOT_P, pred); + bld.mkOp2(OP_UNION, TYPE_U32, (dst[1] = bld.getSSA()), hi1, hi2); + if (op == OP_SHR) + std::swap(dst[0], dst[1]); + bld.mkOp2(OP_MERGE, TYPE_U64, dst64, dst[0], dst[1]); + delete_Instruction(prog, lo); + return; + } + + Instruction *hi = new_Instruction(func, op, TYPE_U32); + lo->bb->insertAfter(lo, hi); + hi->sType = lo->sType; lo->dType = TYPE_U32; - hi->setDef(0, dst[1]); + hi->setDef(0, (dst[1] = bld.getSSA())); if (lo->op == OP_SHR) hi->subOp |= NV50_IR_SUBOP_SHIFT_HIGH; - lo->setDef(0, dst[0]); + lo->setDef(0, (dst[0] = bld.getSSA())); bld.setPosition(hi, true); |