private Bound(Expression min, Expression max) { this.flags = NORMAL; setMin(min); setMax(max); if (bounds == null) bounds = new Vector<Bound>(10); bounds.addElement(this); }
public void add(RefGroup r) { int l = r.refs.size(); for (int i = 0; i < l; i++) { Object ref = r.refs.elementAt(i); if (!refs.contains(ref)) refs.addElement(ref); } }
/** Add the flags necessary for the C preprocessor. */ public void addCPPFlags(Vector<String> v) { v.addElement("__i386__=1"); }
/** * Compute the reference groups for this loop. Two array references are in the same group with * respect to this loop if - there is a loop-independent dependence between them, or - the * dependence distance(dependence vector entry dl) for this loop is less than some constant * *dist*, and all other dependence vector entries are 0. - the two array refer to the same array * and differ by at most *dist2* in the first subscript dimension, where d is less than or equal * to the cache line size in terms of array elements. All other subscripts must be identical. * Notes: Here we assume dist1 = dist2 = 2 */ private void computeRefGroups( int level, int dist1, int dist2, Table<Declaration, SubscriptExpr> arrayRefs, Vector<RefGroup> refGroups) { if (arrayRefs == null) return; Enumeration<Declaration> ek = arrayRefs.keys(); while (ek.hasMoreElements()) { VariableDecl vd = (VariableDecl) ek.nextElement(); String s = vd.getName(); // array name Object[] v = arrayRefs.getRowArray(vd); // vector of SubscriptExpr's int vi = v.length; for (int j = vi - 1; j >= 0; j--) { SubscriptExpr sr = (SubscriptExpr) v[j]; Vector<LoopHeaderChord> allRelatedLoops = sr.allRelatedLoops(); // ** Incorrect when something like a[(j+i][j] int arls = allRelatedLoops.size(); int firstsub = arls - 1; // ** Making an invalid assumption here // Process the list of references r' with which r has a data // dependence, and r is the source(data flows from r to r'). RefGroup rg = new RefGroup(s, sr); Object[] edges = graph.getEdges(sr); int len = edges.length; for (int i = 0; i < len; i++) { DDEdge edge = (DDEdge) edges[i]; if (edge.isSpatial()) continue; // Condition(1)-(a) in McKinley's paper if (edge.isLoopIndependentDependency()) { // add rP to the RefGroup of r: rg.add(edge); continue; } // Condition(1)-(b) in McKinley's paper computeEdgeRefs(edge, rg, level, dist1); if (arls <= 0) continue; // Condition(2) in McKinley's paper // rlevel is the level of the loop related to the first subscript. int rlevel = allRelatedLoops.elementAt(firstsub).getNestedLevel(); computeEdgeRefs(edge, rg, rlevel, dist2); } boolean isInExistingRefGroups = false; int rgl = refGroups.size(); for (int i = 0; i < rgl; i++) { RefGroup rg2 = refGroups.elementAt(i); if (!rg2.getName().equals(s)) continue; isInExistingRefGroups = rg2.contains(rg); if (isInExistingRefGroups) { rg2.add(rg); break; } } if (!isInExistingRefGroups) refGroups.addElement(rg); } } }
public void add(DDEdge edge) { if (refs.contains(edge)) return; refs.addElement(edge); }
public RefGroup(String name, SubscriptExpr r) { this.refs = new Vector<Object>(); this.aname = name; refs.addElement(r); }