/************************************************************************************** * * Perform copy propagation on a given tree as we walk the graph and if it is a local * variable, then look up all currently live definitions and check if any of those * definitions share the same value number. If so, then we can make the replacement. * */ void Compiler::optCopyProp(BasicBlock* block, GenTreePtr stmt, GenTreePtr tree, LclNumToGenTreePtrStack* curSsaName) { // TODO-Review: EH successor/predecessor iteration seems broken. if (block->bbCatchTyp == BBCT_FINALLY || block->bbCatchTyp == BBCT_FAULT) { return; } // If not local nothing to do. if (!tree->IsLocal()) { return; } if (tree->OperGet() == GT_PHI_ARG || tree->OperGet() == GT_LCL_FLD) { return; } // Propagate only on uses. if (tree->gtFlags & GTF_VAR_DEF) { return; } unsigned lclNum = tree->AsLclVarCommon()->GetLclNum(); // Skip address exposed variables. if (fgExcludeFromSsa(lclNum)) { return; } assert(tree->gtVNPair.GetConservative() != ValueNumStore::NoVN); for (LclNumToGenTreePtrStack::KeyIterator iter = curSsaName->Begin(); !iter.Equal(curSsaName->End()); ++iter) { unsigned newLclNum = iter.Get(); GenTreePtr op = iter.GetValue()->Index(0); // Nothing to do if same. if (lclNum == newLclNum) { continue; } // Skip variables with assignments embedded in the statement (i.e., with a comma). Because we // are not currently updating their SSA names as live in the copy-prop pass of the stmt. if (VarSetOps::IsMember(this, optCopyPropKillSet, lvaTable[newLclNum].lvVarIndex)) { continue; } if (op->gtFlags & GTF_VAR_CAST) { continue; } if (gsShadowVarInfo != nullptr && lvaTable[newLclNum].lvIsParam && gsShadowVarInfo[newLclNum].shadowCopy == lclNum) { continue; } ValueNum opVN = GetUseAsgDefVNOrTreeVN(op); if (opVN == ValueNumStore::NoVN) { continue; } if (op->TypeGet() != tree->TypeGet()) { continue; } if (opVN != tree->gtVNPair.GetConservative()) { continue; } if (optCopyProp_LclVarScore(&lvaTable[lclNum], &lvaTable[newLclNum], true) <= 0) { continue; } // Check whether the newLclNum is live before being substituted. Otherwise, we could end // up in a situation where there must've been a phi node that got pruned because the variable // is not live anymore. For example, // if // x0 = 1 // else // x1 = 2 // print(c) <-- x is not live here. Let's say 'c' shares the value number with "x0." // // If we simply substituted 'c' with "x0", we would be wrong. Ideally, there would be a phi // node x2 = phi(x0, x1) which can then be used to substitute 'c' with. But because of pruning // there would be no such phi node. To solve this we'll check if 'x' is live, before replacing // 'c' with 'x.' if (!lvaTable[newLclNum].lvVerTypeInfo.IsThisPtr()) { if (lvaTable[newLclNum].lvAddrExposed) { continue; } // We compute liveness only on tracked variables. So skip untracked locals. if (!lvaTable[newLclNum].lvTracked) { continue; } // Because of this dependence on live variable analysis, CopyProp phase is immediately // after Liveness, SSA and VN. if (!VarSetOps::IsMember(this, compCurLife, lvaTable[newLclNum].lvVarIndex)) { continue; } } unsigned newSsaNum = SsaConfig::RESERVED_SSA_NUM; if (op->gtFlags & GTF_VAR_DEF) { newSsaNum = GetSsaNumForLocalVarDef(op); } else // parameters, this pointer etc. { newSsaNum = op->AsLclVarCommon()->GetSsaNum(); } if (newSsaNum == SsaConfig::RESERVED_SSA_NUM) { continue; } #ifdef DEBUG if (verbose) { JITDUMP("VN based copy assertion for "); printTreeID(tree); printf(" V%02d @%08X by ", lclNum, tree->GetVN(VNK_Conservative)); printTreeID(op); printf(" V%02d @%08X.\n", newLclNum, op->GetVN(VNK_Conservative)); gtDispTree(tree, nullptr, nullptr, true); } #endif lvaTable[lclNum].decRefCnts(block->getBBWeight(this), this); lvaTable[newLclNum].incRefCnts(block->getBBWeight(this), this); tree->gtLclVarCommon.SetLclNum(newLclNum); tree->AsLclVarCommon()->SetSsaNum(newSsaNum); #ifdef DEBUG if (verbose) { printf("copy propagated to:\n"); gtDispTree(tree, nullptr, nullptr, true); } #endif break; } return; }
GCInfo::WriteBarrierForm GCInfo::gcIsWriteBarrierCandidate(GenTreePtr tgt, GenTreePtr assignVal) { #if FEATURE_WRITE_BARRIER /* Are we storing a GC ptr? */ if (!varTypeIsGC(tgt->TypeGet())) { return WBF_NoBarrier; } /* Ignore any assignments of NULL */ // 'assignVal' can be the constant Null or something else (LclVar, etc..) // that is known to be null via Value Numbering. if (assignVal->GetVN(VNK_Liberal) == ValueNumStore::VNForNull()) { return WBF_NoBarrier; } if (assignVal->gtOper == GT_CNS_INT && assignVal->gtIntCon.gtIconVal == 0) { return WBF_NoBarrier; } /* Where are we storing into? */ tgt = tgt->gtEffectiveVal(); switch (tgt->gtOper) { #ifndef LEGACY_BACKEND case GT_STOREIND: #endif // !LEGACY_BACKEND case GT_IND: /* Could be the managed heap */ if (tgt->TypeGet() == TYP_BYREF) { // Byref values cannot be in managed heap. // This case occurs for Span<T>. return WBF_NoBarrier; } return gcWriteBarrierFormFromTargetAddress(tgt->gtOp.gtOp1); case GT_LEA: return gcWriteBarrierFormFromTargetAddress(tgt->AsAddrMode()->Base()); case GT_ARR_ELEM: /* Definitely in the managed heap */ case GT_CLS_VAR: return WBF_BarrierUnchecked; case GT_REG_VAR: /* Definitely not in the managed heap */ case GT_LCL_VAR: case GT_LCL_FLD: case GT_STORE_LCL_VAR: case GT_STORE_LCL_FLD: return WBF_NoBarrier; default: break; } assert(!"Missing case in gcIsWriteBarrierCandidate"); #endif return WBF_NoBarrier; }