void addEvaluable(CubeQueryContext cubeql, CandidateTable cTable, ExprSpecContext esc)
throws SemanticException {
Set<ExprSpecContext> evalSet = evaluableExpressions.get(cTable);
if (evalSet == null) {
evalSet = new LinkedHashSet<ExprSpecContext>();
evaluableExpressions.put(cTable, evalSet);
}
// add optional dimensions involved in expressions
for (String table : esc.getTblAliasToColumns().keySet()) {
try {
if (!CubeQueryContext.DEFAULT_TABLE.equalsIgnoreCase(table) && !srcAlias.equals(table)) {
cubeql.addOptionalExprDimTable(
table,
exprCol.getName(),
srcAlias,
cTable,
esc.getTblAliasToColumns().get(table).toArray(new String[0]));
esc.exprDims.add((Dimension) cubeql.getCubeTableForAlias(table));
}
} catch (HiveException e) {
throw new SemanticException(e);
}
}
evalSet.add(esc);
}
private void resolveColumnsAndReplaceAlias(CubeQueryContext cubeql, Set<ExprSpecContext> exprs)
throws SemanticException {
Set<ExprSpecContext> nestedExpressions = new LinkedHashSet<ExprSpecContext>();
for (ExprSpecContext esc : exprs) {
for (Map.Entry<String, Set<String>> entry : esc.getTblAliasToColumns().entrySet()) {
if (entry.getKey().equals(CubeQueryContext.DEFAULT_TABLE)) {
continue;
}
AbstractBaseTable baseTable =
(AbstractBaseTable) cubeql.getCubeTableForAlias(entry.getKey());
Set<String> exprCols = new HashSet<String>();
for (String col : entry.getValue()) {
// col is an expression
if (baseTable.getExpressionNames().contains(col)) {
exprCols.add(col);
}
}
// get all combinations of expression replaced with inner exprs AST.
addAllNestedExpressions(cubeql, esc, baseTable, nestedExpressions, exprCols);
}
}
for (ExprSpecContext esc : nestedExpressions) {
esc.resolveColumns(cubeql);
esc.replaceAliasInAST(cubeql);
for (String table : esc.getTblAliasToColumns().keySet()) {
try {
if (!CubeQueryContext.DEFAULT_TABLE.equalsIgnoreCase(table)
&& !srcAlias.equals(table)) {
cubeql.addOptionalDimTable(
table,
null,
false,
null,
false,
esc.getTblAliasToColumns().get(table).toArray(new String[0]));
esc.exprDims.add((Dimension) cubeql.getCubeTableForAlias(table));
}
} catch (HiveException e) {
throw new SemanticException(e);
}
}
}
exprs.addAll(nestedExpressions);
}
private void resolveColumnsAndAlias(CubeQueryContext cubeql) throws SemanticException {
for (ExprSpecContext esc : allExprs) {
esc.resolveColumns(cubeql);
esc.replaceAliasInAST(cubeql);
for (String table : esc.getTblAliasToColumns().keySet()) {
try {
if (!CubeQueryContext.DEFAULT_TABLE.equalsIgnoreCase(table)
&& !srcAlias.equals(table)) {
cubeql.addOptionalDimTable(
table,
null,
false,
null,
false,
esc.getTblAliasToColumns().get(table).toArray(new String[0]));
esc.exprDims.add((Dimension) cubeql.getCubeTableForAlias(table));
}
} catch (HiveException e) {
throw new SemanticException(e);
}
}
}
resolveColumnsAndReplaceAlias(cubeql, allExprs);
}
void pruneExpressions() {
for (Set<ExpressionContext> ecSet : allExprsQueried.values()) {
for (ExpressionContext ec : ecSet) {
Set<ExprSpecContext> removedEsc = new HashSet<ExprSpecContext>();
for (Iterator<ExprSpecContext> iterator = ec.getAllExprs().iterator();
iterator.hasNext(); ) {
ExprSpecContext esc = iterator.next();
boolean removed = false;
// Go over expression dims and remove expression involving dimensions for which
// candidate tables are
// not there
for (Dimension exprDim : esc.exprDims) {
if (cubeql.getCandidateDims().get(exprDim) == null
|| cubeql.getCandidateDims().get(exprDim).isEmpty()) {
log.info(
"Removing expression {} as {} it does not have any candidate tables",
esc,
exprDim);
iterator.remove();
removedEsc.add(esc);
removed = true;
break;
}
}
if (removed) {
continue;
}
// remove expressions which are not valid in the timerange queried
// If an expression is defined as
// ex = a + b // from t1 to t2;
// ex = c + d // from t2 to t3
// With range queried, invalid expressions will be removed
// If range is including more than one expression, queries can be unioned as an
// improvement at later time.
// But for now, they are not eligible expressions
for (TimeRange range : cubeql.getTimeRanges()) {
if (!esc.isValidInTimeRange(range)) {
log.info("Removing expression {} as it is not valid in timerange queried", esc);
iterator.remove();
removedEsc.add(esc);
removed = true;
break;
}
}
if (removed) {
continue;
}
// Go over expressions and remove expression containing unavailable columns in timerange
// In the example above,
// if ex = a +b ; and a is not available in timerange queried, it will be removed.
for (TimeRange range : cubeql.getTimeRanges()) {
boolean toRemove = false;
for (Map.Entry<String, Set<String>> entry : esc.getTblAliasToColumns().entrySet()) {
if (CubeQueryContext.DEFAULT_TABLE.equalsIgnoreCase(entry.getKey())) {
continue;
}
AbstractBaseTable baseTable =
(AbstractBaseTable) cubeql.getCubeTableForAlias(entry.getKey());
for (String col : entry.getValue()) {
if (!baseTable.getColumnByName(col).isColumnAvailableInTimeRange(range)) {
toRemove = true;
break;
}
}
if (toRemove) {
break;
}
}
if (toRemove) {
log.info(
"Removing expression {} as its columns are unavailable in timerange queried",
esc);
iterator.remove();
removedEsc.add(esc);
removed = true;
break;
}
}
}
for (Set<ExprSpecContext> evalSet : ec.evaluableExpressions.values()) {
evalSet.removeAll(removedEsc);
}
}
}
}
