/**
* Compute a logical, reasonably efficient join on the specified tables. See project description
* for hints on how this should be implemented.
*
* @param stats Statistics for each table involved in the join, referenced by base table names,
* not alias
* @param filterSelectivities Selectivities of the filter predicates on each table in the join,
* referenced by table alias (if no alias, the base table name)
* @param explain Indicates whether your code should explain its query plan or simply execute it
* @return A Vector<LogicalJoinNode> that stores joins in the left-deep order in which they should
* be executed.
* @throws ParsingException when stats or filter selectivities is missing a table in the join, or
* or when another internal error occurs
*/
public Vector<LogicalJoinNode> orderJoins(
HashMap<String, TableStats> stats,
HashMap<String, Double> filterSelectivities,
boolean explain)
throws ParsingException {
// See the project writeup for some hints as to how this function
// should work.
// some code goes here
PlanCache pc = new PlanCache();
for (int i = 1; i <= joins.size(); i++) {
Set<Set<LogicalJoinNode>> subsets = enumerateSubsets(joins, i);
for (Set<LogicalJoinNode> subset : subsets) {
CostCard best = new CostCard();
best.cost = Double.MAX_VALUE;
for (LogicalJoinNode node : subset) {
CostCard subCard =
computeCostAndCardOfSubplan(stats, filterSelectivities, node, subset, best.cost, pc);
if (subCard != null) {
if (subCard.cost < best.cost) best = subCard;
pc.addPlan(subset, best.cost, best.card, best.plan);
}
}
}
}
if (explain) printJoins(joins, pc, stats, filterSelectivities);
HashSet<LogicalJoinNode> joinSet = new HashSet<LogicalJoinNode>();
for (int i = 0; i < joins.size(); i++) {
joinSet.add(joins.get(i));
}
Vector<LogicalJoinNode> order = pc.getOrder(joinSet);
if (order != null) return order;
return joins;
}
/**
* Helper function to display a Swing window with a tree representation of the specified list of
* joins. See {@link #orderJoins}, which may want to call this when the analyze flag is true.
*
* @param js the join plan to visualize
* @param pc the PlanCache accumulated whild building the optimal plan
* @param stats table statistics for base tables
* @param selectivities the selectivities of the filters over each of the tables (where tables are
* indentified by their alias or name if no alias is given)
*/
private void printJoins(
Vector<LogicalJoinNode> js,
PlanCache pc,
HashMap<String, TableStats> stats,
HashMap<String, Double> selectivities) {
JFrame f = new JFrame("Join Plan for " + p.getQuery());
// Set the default close operation for the window,
// or else the program won't exit when clicking close button
f.setDefaultCloseOperation(WindowConstants.DISPOSE_ON_CLOSE);
f.setVisible(true);
f.setSize(300, 500);
HashMap<String, DefaultMutableTreeNode> m = new HashMap<String, DefaultMutableTreeNode>();
// int numTabs = 0;
// int k;
DefaultMutableTreeNode root = null, treetop = null;
HashSet<LogicalJoinNode> pathSoFar = new HashSet<LogicalJoinNode>();
boolean neither;
System.out.println(js);
for (LogicalJoinNode j : js) {
pathSoFar.add(j);
System.out.println("PATH SO FAR = " + pathSoFar);
String table1Name = Database.getCatalog().getTableName(this.p.getTableId(j.t1Alias));
String table2Name = Database.getCatalog().getTableName(this.p.getTableId(j.t2Alias));
// Double c = pc.getCost(pathSoFar);
neither = true;
root =
new DefaultMutableTreeNode(
"Join "
+ j
+ " (Cost ="
+ pc.getCost(pathSoFar)
+ ", card = "
+ pc.getCard(pathSoFar)
+ ")");
DefaultMutableTreeNode n = m.get(j.t1Alias);
if (n == null) { // never seen this table before
n =
new DefaultMutableTreeNode(
j.t1Alias
+ " (Cost = "
+ stats.get(table1Name).estimateScanCost()
+ ", card = "
+ stats.get(table1Name).estimateTableCardinality(selectivities.get(j.t1Alias))
+ ")");
root.add(n);
} else {
// make left child root n
root.add(n);
neither = false;
}
m.put(j.t1Alias, root);
n = m.get(j.t2Alias);
if (n == null) { // never seen this table before
n =
new DefaultMutableTreeNode(
j.t2Alias == null
? "Subplan"
: (j.t2Alias
+ " (Cost = "
+ stats.get(table2Name).estimateScanCost()
+ ", card = "
+ stats
.get(table2Name)
.estimateTableCardinality(selectivities.get(j.t2Alias))
+ ")"));
root.add(n);
} else {
// make right child root n
root.add(n);
neither = false;
}
m.put(j.t2Alias, root);
// unless this table doesn't join with other tables,
// all tables are accessed from root
if (!neither) {
for (String key : m.keySet()) {
m.put(key, root);
}
}
treetop = root;
}
JTree tree = new JTree(treetop);
JScrollPane treeView = new JScrollPane(tree);
tree.setShowsRootHandles(true);
// Set the icon for leaf nodes.
ImageIcon leafIcon = new ImageIcon("join.jpg");
DefaultTreeCellRenderer renderer = new DefaultTreeCellRenderer();
renderer.setOpenIcon(leafIcon);
renderer.setClosedIcon(leafIcon);
tree.setCellRenderer(renderer);
f.setSize(300, 500);
f.add(treeView);
for (int i = 0; i < tree.getRowCount(); i++) {
tree.expandRow(i);
}
if (js.size() == 0) {
f.add(new JLabel("No joins in plan."));
}
f.pack();
}
/**
* This is a helper method that computes the cost and cardinality of joining joinToRemove to
* joinSet (joinSet should contain joinToRemove), given that all of the subsets of size
* joinSet.size() - 1 have already been computed and stored in PlanCache pc.
*
* @param stats table stats for all of the tables, referenced by table names rather than alias
* (see {@link #orderJoins})
* @param filterSelectivities the selectivities of the filters over each of the tables (where
* tables are indentified by their alias or name if no alias is given)
* @param joinToRemove the join to remove from joinSet
* @param joinSet the set of joins being considered
* @param bestCostSoFar the best way to join joinSet so far (minimum of previous invocations of
* computeCostAndCardOfSubplan for this joinSet, from returned CostCard)
* @param pc the PlanCache for this join; should have subplans for all plans of size
* joinSet.size()-1
* @return A {@link CostCard} objects desribing the cost, cardinality, optimal subplan
* @throws ParsingException when stats, filterSelectivities, or pc object is missing tables
* involved in join
*/
@SuppressWarnings("unchecked")
private CostCard computeCostAndCardOfSubplan(
HashMap<String, TableStats> stats,
HashMap<String, Double> filterSelectivities,
LogicalJoinNode joinToRemove,
Set<LogicalJoinNode> joinSet,
double bestCostSoFar,
PlanCache pc)
throws ParsingException {
LogicalJoinNode j = joinToRemove;
Vector<LogicalJoinNode> prevBest;
if (this.p.getTableId(j.t1Alias) == null)
throw new ParsingException("Unknown table " + j.t1Alias);
if (this.p.getTableId(j.t2Alias) == null)
throw new ParsingException("Unknown table " + j.t2Alias);
String table1Name = Database.getCatalog().getTableName(this.p.getTableId(j.t1Alias));
String table2Name = Database.getCatalog().getTableName(this.p.getTableId(j.t2Alias));
String table1Alias = j.t1Alias;
String table2Alias = j.t2Alias;
Set<LogicalJoinNode> news = (Set<LogicalJoinNode>) ((HashSet<LogicalJoinNode>) joinSet).clone();
news.remove(j);
double t1cost, t2cost;
int t1card, t2card;
boolean leftPkey, rightPkey;
if (news.isEmpty()) { // base case -- both are base relations
prevBest = new Vector<LogicalJoinNode>();
t1cost = stats.get(table1Name).estimateScanCost();
t1card = stats.get(table1Name).estimateTableCardinality(filterSelectivities.get(j.t1Alias));
leftPkey = isPkey(j.t1Alias, j.f1PureName);
t2cost = table2Alias == null ? 0 : stats.get(table2Name).estimateScanCost();
t2card =
table2Alias == null
? 0
: stats.get(table2Name).estimateTableCardinality(filterSelectivities.get(j.t2Alias));
rightPkey = table2Alias == null ? false : isPkey(table2Alias, j.f2PureName);
} else {
// news is not empty -- figure best way to join j to news
prevBest = pc.getOrder(news);
// possible that we have not cached an answer, if subset
// includes a cross product
if (prevBest == null) {
return null;
}
double prevBestCost = pc.getCost(news);
int bestCard = pc.getCard(news);
// estimate cost of right subtree
if (doesJoin(prevBest, table1Alias)) { // j.t1 is in prevBest
t1cost = prevBestCost; // left side just has cost of whatever
// left
// subtree is
t1card = bestCard;
leftPkey = hasPkey(prevBest);
t2cost = j.t2Alias == null ? 0 : stats.get(table2Name).estimateScanCost();
t2card =
j.t2Alias == null
? 0
: stats
.get(table2Name)
.estimateTableCardinality(filterSelectivities.get(j.t2Alias));
rightPkey = j.t2Alias == null ? false : isPkey(j.t2Alias, j.f2PureName);
} else if (doesJoin(prevBest, j.t2Alias)) { // j.t2 is in prevbest
// (both
// shouldn't be)
t2cost = prevBestCost; // left side just has cost of whatever
// left
// subtree is
t2card = bestCard;
rightPkey = hasPkey(prevBest);
t1cost = stats.get(table1Name).estimateScanCost();
t1card = stats.get(table1Name).estimateTableCardinality(filterSelectivities.get(j.t1Alias));
leftPkey = isPkey(j.t1Alias, j.f1PureName);
} else {
// don't consider this plan if one of j.t1 or j.t2
// isn't a table joined in prevBest (cross product)
return null;
}
}
// case where prevbest is left
double cost1 = estimateJoinCost(j, t1card, t2card, t1cost, t2cost);
LogicalJoinNode j2 = j.swapInnerOuter();
double cost2 = estimateJoinCost(j2, t2card, t1card, t2cost, t1cost);
if (cost2 < cost1) {
boolean tmp;
j = j2;
cost1 = cost2;
tmp = rightPkey;
rightPkey = leftPkey;
leftPkey = tmp;
}
if (cost1 >= bestCostSoFar) return null;
CostCard cc = new CostCard();
cc.card = estimateJoinCardinality(j, t1card, t2card, leftPkey, rightPkey, stats);
cc.cost = cost1;
cc.plan = (Vector<LogicalJoinNode>) prevBest.clone();
cc.plan.addElement(j); // prevbest is left -- add new join to end
return cc;
}
