use of org.apache.calcite.linq4j.tree.BlockStatement in project calcite by apache.
the class EnumerableRelImplementor method implementRoot.
public ClassDeclaration implementRoot(EnumerableRel rootRel, EnumerableRel.Prefer prefer) {
EnumerableRel.Result result = rootRel.implement(this, prefer);
switch(prefer) {
case ARRAY:
if (result.physType.getFormat() == JavaRowFormat.ARRAY && rootRel.getRowType().getFieldCount() == 1) {
BlockBuilder bb = new BlockBuilder();
Expression e = null;
for (Statement statement : result.block.statements) {
if (statement instanceof GotoStatement) {
e = bb.append("v", ((GotoStatement) statement).expression);
} else {
bb.add(statement);
}
}
if (e != null) {
bb.add(Expressions.return_(null, Expressions.call(null, BuiltInMethod.SLICE0.method, e)));
}
result = new EnumerableRel.Result(bb.toBlock(), result.physType, JavaRowFormat.SCALAR);
}
}
final List<MemberDeclaration> memberDeclarations = new ArrayList<>();
new TypeRegistrar(memberDeclarations).go(result);
// The following is a workaround to
// http://jira.codehaus.org/browse/JANINO-169. Otherwise we'd remove the
// member variable, rename the "root0" parameter as "root", and reference it
// directly from inner classes.
final ParameterExpression root0_ = Expressions.parameter(Modifier.FINAL, DataContext.class, "root0");
// This creates the following code
// final Integer v1stashed = (Integer) root.get("v1stashed")
// It is convenient for passing non-literal "compile-time" constants
final Collection<Statement> stashed = Collections2.transform(stashedParameters.values(), new Function<ParameterExpression, Statement>() {
public Statement apply(ParameterExpression input) {
return Expressions.declare(Modifier.FINAL, input, Expressions.convert_(Expressions.call(DataContext.ROOT, BuiltInMethod.DATA_CONTEXT_GET.method, Expressions.constant(input.name)), input.type));
}
});
final BlockStatement block = Expressions.block(Iterables.concat(ImmutableList.of(Expressions.statement(Expressions.assign(DataContext.ROOT, root0_))), stashed, result.block.statements));
memberDeclarations.add(Expressions.fieldDecl(0, DataContext.ROOT, null));
memberDeclarations.add(Expressions.methodDecl(Modifier.PUBLIC, Enumerable.class, BuiltInMethod.BINDABLE_BIND.method.getName(), Expressions.list(root0_), block));
memberDeclarations.add(Expressions.methodDecl(Modifier.PUBLIC, Class.class, BuiltInMethod.TYPED_GET_ELEMENT_TYPE.method.getName(), Collections.<ParameterExpression>emptyList(), Blocks.toFunctionBlock(Expressions.return_(null, Expressions.constant(result.physType.getJavaRowType())))));
return Expressions.classDecl(Modifier.PUBLIC, "Baz", null, Collections.<Type>singletonList(Bindable.class), memberDeclarations);
}
use of org.apache.calcite.linq4j.tree.BlockStatement in project calcite by apache.
the class EnumerableWindow method implement.
public Result implement(EnumerableRelImplementor implementor, Prefer pref) {
final JavaTypeFactory typeFactory = implementor.getTypeFactory();
final EnumerableRel child = (EnumerableRel) getInput();
final BlockBuilder builder = new BlockBuilder();
final Result result = implementor.visitChild(this, 0, child, pref);
Expression source_ = builder.append("source", result.block);
final List<Expression> translatedConstants = new ArrayList<Expression>(constants.size());
for (RexLiteral constant : constants) {
translatedConstants.add(RexToLixTranslator.translateLiteral(constant, constant.getType(), typeFactory, RexImpTable.NullAs.NULL));
}
PhysType inputPhysType = result.physType;
final int w = implementor.windowCount++;
ParameterExpression prevStart = Expressions.parameter(int.class, builder.newName("prevStart" + w));
ParameterExpression prevEnd = Expressions.parameter(int.class, builder.newName("prevEnd" + w));
builder.add(Expressions.declare(0, prevStart, null));
builder.add(Expressions.declare(0, prevEnd, null));
for (int windowIdx = 0; windowIdx < groups.size(); windowIdx++) {
Group group = groups.get(windowIdx);
// Comparator:
// final Comparator<JdbcTest.Employee> comparator =
// new Comparator<JdbcTest.Employee>() {
// public int compare(JdbcTest.Employee o1,
// JdbcTest.Employee o2) {
// return Integer.compare(o1.empid, o2.empid);
// }
// };
final Expression comparator_ = builder.append("comparator", inputPhysType.generateComparator(group.collation()));
Pair<Expression, Expression> partitionIterator = getPartitionIterator(builder, source_, inputPhysType, group, comparator_);
final Expression collectionExpr = partitionIterator.left;
final Expression iterator_ = partitionIterator.right;
List<AggImpState> aggs = new ArrayList<AggImpState>();
List<AggregateCall> aggregateCalls = group.getAggregateCalls(this);
for (int aggIdx = 0; aggIdx < aggregateCalls.size(); aggIdx++) {
AggregateCall call = aggregateCalls.get(aggIdx);
aggs.add(new AggImpState(aggIdx, call, true));
}
// The output from this stage is the input plus the aggregate functions.
final RelDataTypeFactory.Builder typeBuilder = typeFactory.builder();
typeBuilder.addAll(inputPhysType.getRowType().getFieldList());
for (AggImpState agg : aggs) {
typeBuilder.add(agg.call.name, agg.call.type);
}
RelDataType outputRowType = typeBuilder.build();
final PhysType outputPhysType = PhysTypeImpl.of(typeFactory, outputRowType, pref.prefer(result.format));
final Expression list_ = builder.append("list", Expressions.new_(ArrayList.class, Expressions.call(collectionExpr, BuiltInMethod.COLLECTION_SIZE.method)), false);
Pair<Expression, Expression> collationKey = getRowCollationKey(builder, inputPhysType, group, windowIdx);
Expression keySelector = collationKey.left;
Expression keyComparator = collationKey.right;
final BlockBuilder builder3 = new BlockBuilder();
final Expression rows_ = builder3.append("rows", Expressions.convert_(Expressions.call(iterator_, BuiltInMethod.ITERATOR_NEXT.method), Object[].class), false);
builder3.add(Expressions.statement(Expressions.assign(prevStart, Expressions.constant(-1))));
builder3.add(Expressions.statement(Expressions.assign(prevEnd, Expressions.constant(Integer.MAX_VALUE))));
final BlockBuilder builder4 = new BlockBuilder();
final ParameterExpression i_ = Expressions.parameter(int.class, builder4.newName("i"));
final Expression row_ = builder4.append("row", RexToLixTranslator.convert(Expressions.arrayIndex(rows_, i_), inputPhysType.getJavaRowType()));
final RexToLixTranslator.InputGetter inputGetter = new WindowRelInputGetter(row_, inputPhysType, result.physType.getRowType().getFieldCount(), translatedConstants);
final RexToLixTranslator translator = RexToLixTranslator.forAggregation(typeFactory, builder4, inputGetter);
final List<Expression> outputRow = new ArrayList<Expression>();
int fieldCountWithAggResults = inputPhysType.getRowType().getFieldCount();
for (int i = 0; i < fieldCountWithAggResults; i++) {
outputRow.add(inputPhysType.fieldReference(row_, i, outputPhysType.getJavaFieldType(i)));
}
declareAndResetState(typeFactory, builder, result, windowIdx, aggs, outputPhysType, outputRow);
// There are assumptions that minX==0. If ever change this, look for
// frameRowCount, bounds checking, etc
final Expression minX = Expressions.constant(0);
final Expression partitionRowCount = builder3.append("partRows", Expressions.field(rows_, "length"));
final Expression maxX = builder3.append("maxX", Expressions.subtract(partitionRowCount, Expressions.constant(1)));
final Expression startUnchecked = builder4.append("start", translateBound(translator, i_, row_, minX, maxX, rows_, group, true, inputPhysType, comparator_, keySelector, keyComparator));
final Expression endUnchecked = builder4.append("end", translateBound(translator, i_, row_, minX, maxX, rows_, group, false, inputPhysType, comparator_, keySelector, keyComparator));
final Expression startX;
final Expression endX;
final Expression hasRows;
if (group.isAlwaysNonEmpty()) {
startX = startUnchecked;
endX = endUnchecked;
hasRows = Expressions.constant(true);
} else {
Expression startTmp = group.lowerBound.isUnbounded() || startUnchecked == i_ ? startUnchecked : builder4.append("startTmp", Expressions.call(null, BuiltInMethod.MATH_MAX.method, startUnchecked, minX));
Expression endTmp = group.upperBound.isUnbounded() || endUnchecked == i_ ? endUnchecked : builder4.append("endTmp", Expressions.call(null, BuiltInMethod.MATH_MIN.method, endUnchecked, maxX));
ParameterExpression startPe = Expressions.parameter(0, int.class, builder4.newName("startChecked"));
ParameterExpression endPe = Expressions.parameter(0, int.class, builder4.newName("endChecked"));
builder4.add(Expressions.declare(Modifier.FINAL, startPe, null));
builder4.add(Expressions.declare(Modifier.FINAL, endPe, null));
hasRows = builder4.append("hasRows", Expressions.lessThanOrEqual(startTmp, endTmp));
builder4.add(Expressions.ifThenElse(hasRows, Expressions.block(Expressions.statement(Expressions.assign(startPe, startTmp)), Expressions.statement(Expressions.assign(endPe, endTmp))), Expressions.block(Expressions.statement(Expressions.assign(startPe, Expressions.constant(-1))), Expressions.statement(Expressions.assign(endPe, Expressions.constant(-1))))));
startX = startPe;
endX = endPe;
}
final BlockBuilder builder5 = new BlockBuilder(true, builder4);
BinaryExpression rowCountWhenNonEmpty = Expressions.add(startX == minX ? endX : Expressions.subtract(endX, startX), Expressions.constant(1));
final Expression frameRowCount;
if (hasRows.equals(Expressions.constant(true))) {
frameRowCount = builder4.append("totalRows", rowCountWhenNonEmpty);
} else {
frameRowCount = builder4.append("totalRows", Expressions.condition(hasRows, rowCountWhenNonEmpty, Expressions.constant(0)));
}
ParameterExpression actualStart = Expressions.parameter(0, int.class, builder5.newName("actualStart"));
final BlockBuilder builder6 = new BlockBuilder(true, builder5);
builder6.add(Expressions.statement(Expressions.assign(actualStart, startX)));
for (final AggImpState agg : aggs) {
agg.implementor.implementReset(agg.context, new WinAggResetContextImpl(builder6, agg.state, i_, startX, endX, hasRows, partitionRowCount, frameRowCount));
}
Expression lowerBoundCanChange = group.lowerBound.isUnbounded() && group.lowerBound.isPreceding() ? Expressions.constant(false) : Expressions.notEqual(startX, prevStart);
Expression needRecomputeWindow = Expressions.orElse(lowerBoundCanChange, Expressions.lessThan(endX, prevEnd));
BlockStatement resetWindowState = builder6.toBlock();
if (resetWindowState.statements.size() == 1) {
builder5.add(Expressions.declare(0, actualStart, Expressions.condition(needRecomputeWindow, startX, Expressions.add(prevEnd, Expressions.constant(1)))));
} else {
builder5.add(Expressions.declare(0, actualStart, null));
builder5.add(Expressions.ifThenElse(needRecomputeWindow, resetWindowState, Expressions.statement(Expressions.assign(actualStart, Expressions.add(prevEnd, Expressions.constant(1))))));
}
if (lowerBoundCanChange instanceof BinaryExpression) {
builder5.add(Expressions.statement(Expressions.assign(prevStart, startX)));
}
builder5.add(Expressions.statement(Expressions.assign(prevEnd, endX)));
final BlockBuilder builder7 = new BlockBuilder(true, builder5);
final DeclarationStatement jDecl = Expressions.declare(0, "j", actualStart);
final PhysType inputPhysTypeFinal = inputPhysType;
final Function<BlockBuilder, WinAggFrameResultContext> resultContextBuilder = getBlockBuilderWinAggFrameResultContextFunction(typeFactory, result, translatedConstants, comparator_, rows_, i_, startX, endX, minX, maxX, hasRows, frameRowCount, partitionRowCount, jDecl, inputPhysTypeFinal);
final Function<AggImpState, List<RexNode>> rexArguments = new Function<AggImpState, List<RexNode>>() {
public List<RexNode> apply(AggImpState agg) {
List<Integer> argList = agg.call.getArgList();
List<RelDataType> inputTypes = EnumUtils.fieldRowTypes(result.physType.getRowType(), constants, argList);
List<RexNode> args = new ArrayList<RexNode>(inputTypes.size());
for (int i = 0; i < argList.size(); i++) {
Integer idx = argList.get(i);
args.add(new RexInputRef(idx, inputTypes.get(i)));
}
return args;
}
};
implementAdd(aggs, builder7, resultContextBuilder, rexArguments, jDecl);
BlockStatement forBlock = builder7.toBlock();
if (!forBlock.statements.isEmpty()) {
// For instance, row_number does not use for loop to compute the value
Statement forAggLoop = Expressions.for_(Arrays.asList(jDecl), Expressions.lessThanOrEqual(jDecl.parameter, endX), Expressions.preIncrementAssign(jDecl.parameter), forBlock);
if (!hasRows.equals(Expressions.constant(true))) {
forAggLoop = Expressions.ifThen(hasRows, forAggLoop);
}
builder5.add(forAggLoop);
}
if (implementResult(aggs, builder5, resultContextBuilder, rexArguments, true)) {
builder4.add(Expressions.ifThen(Expressions.orElse(lowerBoundCanChange, Expressions.notEqual(endX, prevEnd)), builder5.toBlock()));
}
implementResult(aggs, builder4, resultContextBuilder, rexArguments, false);
builder4.add(Expressions.statement(Expressions.call(list_, BuiltInMethod.COLLECTION_ADD.method, outputPhysType.record(outputRow))));
builder3.add(Expressions.for_(Expressions.declare(0, i_, Expressions.constant(0)), Expressions.lessThan(i_, Expressions.field(rows_, "length")), Expressions.preIncrementAssign(i_), builder4.toBlock()));
builder.add(Expressions.while_(Expressions.call(iterator_, BuiltInMethod.ITERATOR_HAS_NEXT.method), builder3.toBlock()));
builder.add(Expressions.statement(Expressions.call(collectionExpr, BuiltInMethod.MAP_CLEAR.method)));
// We're not assigning to "source". For each group, create a new
// final variable called "source" or "sourceN".
source_ = builder.append("source", Expressions.call(BuiltInMethod.AS_ENUMERABLE.method, list_));
inputPhysType = outputPhysType;
}
// return Linq4j.asEnumerable(list);
builder.add(Expressions.return_(null, source_));
return implementor.result(inputPhysType, builder.toBlock());
}
use of org.apache.calcite.linq4j.tree.BlockStatement in project calcite by apache.
the class ExpressionTest method checkBlockBuilder.
public void checkBlockBuilder(boolean optimizing, String expected) {
BlockBuilder statements = new BlockBuilder(optimizing);
Expression one = statements.append("one", Expressions.constant(1));
Expression two = statements.append("two", Expressions.constant(2));
Expression three = statements.append("three", Expressions.add(one, two));
Expression six = statements.append("six", Expressions.multiply(three, two));
Expression nine = statements.append("nine", Expressions.multiply(three, three));
Expression eighteen = statements.append("eighteen", Expressions.add(Expressions.add(three, six), nine));
statements.add(Expressions.return_(null, eighteen));
BlockStatement expression = statements.toBlock();
assertEquals(expected, Expressions.toString(expression));
expression.accept(new Shuttle());
}
use of org.apache.calcite.linq4j.tree.BlockStatement in project calcite by apache.
the class ExpressionTest method testBlockBuilder3.
@Test
public void testBlockBuilder3() {
/*
int a = 1;
int b = a + 2;
int c = a + 3;
int d = a + 4;
int e = {
int b = a + 3;
foo(b);
}
bar(a, b, c, d, e);
*/
BlockBuilder builder0 = new BlockBuilder();
final Expression a = builder0.append("_a", Expressions.constant(1));
final Expression b = builder0.append("_b", Expressions.add(a, Expressions.constant(2)));
final Expression c = builder0.append("_c", Expressions.add(a, Expressions.constant(3)));
final Expression d = builder0.append("_d", Expressions.add(a, Expressions.constant(4)));
BlockBuilder builder1 = new BlockBuilder();
final Expression b1 = builder1.append("_b", Expressions.add(a, Expressions.constant(3)));
builder1.add(Expressions.statement(Expressions.call(ExpressionTest.class, "foo", b1)));
final Expression e = builder0.append("e", builder1.toBlock());
builder0.add(Expressions.statement(Expressions.call(ExpressionTest.class, "bar", a, b, c, d, e)));
// With the bug in BlockBuilder.append(String, BlockExpression),
// bar(1, _b, _c, _d, foo(_d));
// Correct result is
// bar(1, _b, _c, _d, foo(_c));
// because _c has the same expression (a + 3) as inner b.
BlockStatement expression = builder0.toBlock();
assertEquals("{\n" + " final int _b = 1 + 2;\n" + " final int _c = 1 + 3;\n" + " final int _d = 1 + 4;\n" + " org.apache.calcite.linq4j.test.ExpressionTest.bar(1, _b, _c, _d, org.apache.calcite.linq4j.test.ExpressionTest.foo(_c));\n" + "}\n", Expressions.toString(expression));
expression.accept(new Shuttle());
}
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