private void step(ISet<DMIElem> mSet, ISet<DMIElem> outLinks) { int cnt = mSet.size(); for (int i = 0; i < cnt; i++) { DMIElem m = mSet.get(i); step(m, null, outLinks); } }
private void classifyConcept(DMIElem m, ISet<DMIElem> outNodes, ISet<DMIElem> outLinks) { if ((Tracing.gTraceSet & Tracing.TraceFrame) != 0) Tracing.gTraceFile.println("adding: " + m.itsIndex); setVisited(m); if (m.isStatement()) outLinks.add(m); else outNodes.add(m); }
public ISet<DMIElem> traverse( ISet<DMIElem> inNodes, BoundFork inPatterns, boolean infer, boolean loop, ISet<DMIElem> suggested) { if (infer) { ISet<DMIElem> ans = new XSetList<DMIElem>(XSetList.AsSet); ISet<DMIElem> xV = new XSetList<DMIElem>(XSetList.AsSet); for (; ; ) { IList<InferredRelationship> inferSet = new XSetList<InferredRelationship>(); ISet<DMIElem> res = traverse(inNodes, inPatterns, inferSet, suggested); ans.merge(res); for (int i = 0; i < inferSet.size(); i++) { InferredRelationship ifr = inferSet.get(i); int cnt = itsConceptMgr.itsGraph.getMaxIndex(); DMIElem m = itsConceptMgr.enterStatement(ifr.sb, ifr.vb, ifr.ob, false); ans.add(m); ans.add(ifr.sb); ans.add(ifr.ob); if (itsConceptMgr.itsGraph.getMaxIndex() > cnt) xV.add(m); } if (loop && xV.size() > 0) continue; break; } return ans; // xV; only the inferred nodes } return traverse(inNodes, inPatterns, null, suggested); }
private ISet<DMIElem> traverse( ISet<DMIElem> inNodes, BoundFork inPatterns, IList<InferredRelationship> inferSet, ISet<DMIElem> suggested) { BoundFork currPatterns = inPatterns; ISet<DMIElem> currNodes = new XSetList<DMIElem>(XSetList.AsSet); ISet<DMIElem> currLinks = new XSetList<DMIElem>(XSetList.AsSet); for (DMIElem src : inNodes) if (src != null) setVisited(src); for (DMIElem src : inNodes) if (src != null) stepFromConcept(src, currNodes, currLinks); if (suggested != null) { for (DMIElem src : suggested) classifyConcept(src, currNodes, currLinks); } ISet<DMIElem> ansSet = new XSetList<DMIElem>(XSetList.AsSet); ISet<BoundFrame> nonRejectedCandidates = new XSetList<BoundFrame>(XSetList.AsSet); int iterCnt = 0; for (; ; ) { ++iterCnt; if ((Tracing.gTraceSet & Tracing.TraceFrame) != 0) Tracing.gTraceFile.println("---- Iteration " + iterCnt + " ----"); // pattern match exhausted? if so, there's nothing left to match. if (currPatterns.isEmpty()) break; IList<BoundFrame> lbf = currPatterns.getFrames(); int cnt = lbf.size(); if ((Tracing.gTraceSet & Tracing.TraceFrame) != 0) { Tracing.gTraceFile.println("frames for iteration:"); for (int i = 0; i < cnt; i++) { BoundFrame fr = lbf.get(i); fr.traceOut(); } Tracing.gTraceFile.println("=========="); } // Pass 1 search new frames for successes or success roots for (int i = 0; i < cnt; i++) { BoundFrame fr = lbf.get(i); if (fr.succcessPathComplete()) { if (fr.couldBeRejected()) { if (fr.markAsSuccessRoot()) { if ((Tracing.gTraceSet & Tracing.TraceWave) != 0) { Tracing.gTraceFile.println("$$$ Adding frame root: "); fr.traceOut(); } boolean b = nonRejectedCandidates.add(fr); if (!b && (Tracing.gTraceSet & Tracing.TraceWave) != 0) Tracing.gTraceFile.println(" ****** was already on root list"); } } else if (fr.completed(ansSet, inferSet, null)) { if ((Tracing.gTraceSet & Tracing.TraceFrame) != 0) { Tracing.gTraceFile.print("$$$Taking result frame: "); int st = Tracing.gTraceSet; Tracing.gTraceSet |= Tracing.TraceFrameX; fr.traceOut(); Tracing.gTraceFile.println(); Tracing.gTraceSet = st; } if (fr.whenCompletedisFinished()) lbf.clear(i); } } } // Pass 2 search for rejections for (int i = 0; i < cnt; i++) { BoundFrame fr = lbf.get(i); if (fr != null) { if (fr.rejected()) { lbf.clear(i); BoundFrame successRoot = fr.getSuccessRoot(); if (successRoot != null) nonRejectedCandidates.remove(successRoot); if ((Tracing.gTraceSet & Tracing.TraceWave) != 0) { Tracing.gTraceFile.println("$$$ Rejecting frame: "); fr.traceOut(); if (successRoot != null) { Tracing.gTraceFile.println(" Which takes out root frame: "); successRoot.traceOut(); } } } } } lbf.trim(); if ((Tracing.gTraceSet & Tracing.TraceFrame) != 0) { Tracing.gTraceFile.println("frames after checking success:"); for (int i = 0; i < lbf.size(); i++) { BoundFrame fr = lbf.get(i); fr.traceOut(); } Tracing.gTraceFile.println("=========="); } cnt = currNodes.size(); for (int i = 0; i < cnt; i++) { DMIElem m = currNodes.get(i); stepFromNode(m, currLinks); } // input set exhausted? if so, there's nothing left to traverse. if (currLinks.isEmpty()) break; BoundFork nextPatterns = new BoundFork(); ISet<DMIElem> nextNodes = new XSetList<DMIElem>(XSetList.AsSet); ISet<DMIElem> nextLinks = new XSetList<DMIElem>(XSetList.AsSet); ISet<BoundFork[]> updatedSubpatterns = new XSetList<BoundFork[]>(XSetList.AsSet); cnt = currLinks.size(); for (int i = 0; i < cnt; i++) { DMIElem m = currLinks.get(i); if ((Tracing.gTraceSet & Tracing.TraceFrame) != 0) Tracing.gTraceFile.println("visiting: " + m.itsIndex); // all patterns have to see all statements, // even newly generated patterns from current generation BoundFork morePatterns = new BoundFork(); accept(m, nextPatterns, morePatterns, nextNodes, nextLinks, updatedSubpatterns); nextPatterns.mergeIntoFork(morePatterns); // existing patterns have to see all statements, // and if they cannot advance, they'll be retired this generation accept(m, currPatterns, nextPatterns, nextNodes, nextLinks, updatedSubpatterns); } // $21$: carry frames over whose subforks are modified lbf = currPatterns.getFrames(); cnt = lbf.size(); for (int i = 0; i < cnt; i++) { BoundFrame fr = lbf.get(i); if (fr.usesSubForkIn(updatedSubpatterns)) { if ((Tracing.gTraceSet & Tracing.TraceFrame) != 0) Tracing.gTraceFile.println("carrying over frame #" + fr.itsIndex); nextPatterns.addFrame(fr); } } currNodes = nextNodes; // switch over to new set of nodes currLinks = nextLinks; // switch over to new set of links currPatterns = nextPatterns; // retire all patterns, having seen a full step } // process nonRejectedCandidates list for (int i = 0; i < nonRejectedCandidates.size(); i++) { BoundFrame fr = nonRejectedCandidates.get(i); boolean y = fr.completed(ansSet, inferSet, null); if (y && (Tracing.gTraceSet & Tracing.TraceFrame) != 0) Tracing.gTraceFile.println("took: " + fr.itsIndex); } return ansSet; }