public static void checkRedundantProxy(ProxyNode vpn) { AbstractBeginNode proxyPoint = vpn.proxyPoint(); if (proxyPoint instanceof LoopExitNode) { LoopExitNode exit = (LoopExitNode) proxyPoint; LoopBeginNode loopBegin = exit.loopBegin(); ValueNode vpnValue = vpn.value(); for (ValueNode v : loopBegin.stateAfter().values()) { ValueNode v2 = v; if (loopBegin.isPhiAtMerge(v2)) { v2 = ((PhiNode) v2).valueAt(loopBegin.forwardEnd()); } if (vpnValue == v2) { Collection<PhiNode> phiUsages = vpn.usages().filter(PhiNode.class).snapshot(); Collection<ProxyNode> proxyUsages = vpn.usages().filter(ProxyNode.class).snapshot(); vpn.graph().replaceFloating(vpn, vpnValue); for (PhiNode phi : phiUsages) { checkRedundantPhi(phi); } for (ProxyNode proxy : proxyUsages) { checkRedundantProxy(proxy); } return; } } } }
public static void normalizeLoopBegin(LoopBeginNode begin) { // Delete unnecessary loop phi functions, i.e., phi functions where all inputs are either // the same or the phi itself. for (PhiNode phi : begin.phis().snapshot()) { GraphUtil.checkRedundantPhi(phi); } for (LoopExitNode exit : begin.loopExits()) { for (ProxyNode vpn : exit.proxies().snapshot()) { GraphUtil.checkRedundantProxy(vpn); } } }
public static void checkRedundantPhi(PhiNode phiNode) { if (phiNode.isDeleted() || phiNode.valueCount() == 1) { return; } ValueNode singleValue = phiNode.singleValue(); if (singleValue != null) { Collection<PhiNode> phiUsages = phiNode.usages().filter(PhiNode.class).snapshot(); Collection<ProxyNode> proxyUsages = phiNode.usages().filter(ProxyNode.class).snapshot(); phiNode.graph().replaceFloating(phiNode, singleValue); for (PhiNode phi : phiUsages) { checkRedundantPhi(phi); } for (ProxyNode proxy : proxyUsages) { checkRedundantProxy(proxy); } } }