private void generateCollectionAccessor(final DefinedPropertyOutline fieldOutline) { final JFieldVar fieldVar = fieldOutline.getFieldVar(); if (fieldVar != null) { final JMethod modifier = this.modifierClass.method( JMod.PUBLIC, fieldVar.type(), ModifierGenerator.GETTER_PREFIX + fieldOutline.getBaseName()); if (this.implement) { final JFieldRef fieldRef = new NestedThisRef(this.classOutline.getImplClass()).ref(fieldVar); final JConditional ifNull = modifier.body()._if(fieldRef.eq(JExpr._null())); ifNull ._then() .assign( fieldRef, JExpr._new( this.classOutline .getImplClass() .owner() .ref(ArrayList.class) .narrow(fieldOutline.getElementType()))); modifier.body()._return(fieldRef); } } }
/** * Sets up projection that will transfer all of the columns in batch, and also populate the * partition column based on which partition a record falls into in the partition table * * @param batch * @throws SchemaChangeException */ protected void setupNewSchema(VectorAccessible batch) throws SchemaChangeException { container.clear(); final ErrorCollector collector = new ErrorCollectorImpl(); final List<TransferPair> transfers = Lists.newArrayList(); final ClassGenerator<OrderedPartitionProjector> cg = CodeGenerator.getRoot( OrderedPartitionProjector.TEMPLATE_DEFINITION, context.getFunctionRegistry()); for (VectorWrapper<?> vw : batch) { TransferPair tp = vw.getValueVector().getTransferPair(); transfers.add(tp); container.add(tp.getTo()); } cg.setMappingSet(mainMapping); int count = 0; for (Ordering od : popConfig.getOrderings()) { final LogicalExpression expr = ExpressionTreeMaterializer.materialize( od.getExpr(), batch, collector, context.getFunctionRegistry()); if (collector.hasErrors()) throw new SchemaChangeException( "Failure while materializing expression. " + collector.toErrorString()); cg.setMappingSet(incomingMapping); ClassGenerator.HoldingContainer left = cg.addExpr(expr, false); cg.setMappingSet(partitionMapping); ClassGenerator.HoldingContainer right = cg.addExpr( new ValueVectorReadExpression(new TypedFieldId(expr.getMajorType(), count++)), false); cg.setMappingSet(mainMapping); LogicalExpression fh = FunctionGenerationHelper.getComparator(left, right, context.getFunctionRegistry()); ClassGenerator.HoldingContainer out = cg.addExpr(fh, false); JConditional jc = cg.getEvalBlock()._if(out.getValue().ne(JExpr.lit(0))); if (od.getDirection() == Direction.ASCENDING) { jc._then()._return(out.getValue()); } else { jc._then()._return(out.getValue().minus()); } } cg.getEvalBlock()._return(JExpr.lit(0)); container.add(this.partitionKeyVector); container.buildSchema(batch.getSchema().getSelectionVectorMode()); try { this.projector = context.getImplementationClass(cg); projector.setup( context, batch, this, transfers, partitionVectors, partitions, popConfig.getRef()); } catch (ClassTransformationException | IOException e) { throw new SchemaChangeException("Failure while attempting to load generated class", e); } }
private ModifierGenerator( final PluginContext pluginContext, final DefinedTypeOutline classOutline, final String modifierClassName, final String modifierInterfaceName, final Collection<TypeOutline> interfaces, final String modifierMethodName, final boolean implement) throws JClassAlreadyExistsException { this.classOutline = classOutline; final JDefinedClass definedClass = classOutline.getImplClass(); this.implement = implement; this.modifierClass = definedClass._class( JMod.PUBLIC, modifierClassName, classOutline.getImplClass().getClassType()); if (interfaces != null) { for (final TypeOutline interfaceOutline : interfaces) { this.modifierClass._implements( pluginContext.ref(interfaceOutline.getImplClass(), modifierInterfaceName, true)); } } final JFieldRef cachedModifierField; if (!"java.lang.Object".equals(definedClass._extends().fullName())) { this.modifierClass._extends( pluginContext.ref(definedClass._extends(), modifierClassName, false)); cachedModifierField = JExpr.refthis(ModifierGenerator.MODIFIER_CACHE_FIELD_NAME); } else { if (implement) { cachedModifierField = JExpr._this() .ref( definedClass.field( JMod.PROTECTED | JMod.TRANSIENT, this.modifierClass, ModifierGenerator.MODIFIER_CACHE_FIELD_NAME)); } else { cachedModifierField = null; } } final JDefinedClass typeDefinition = classOutline.isInterface() && ((DefinedInterfaceOutline) classOutline).getSupportInterface() != null ? ((DefinedInterfaceOutline) classOutline).getSupportInterface() : definedClass; final JMethod modifierMethod = typeDefinition.method(JMod.PUBLIC, this.modifierClass, modifierMethodName); if (this.implement) { final JConditional ifCacheNull = modifierMethod.body()._if(JExpr._null().eq(cachedModifierField)); ifCacheNull._then().assign(cachedModifierField, JExpr._new(this.modifierClass)); modifierMethod.body()._return(JExpr.cast(this.modifierClass, cachedModifierField)); } }
protected HoldingContainer generateEvalBody( ClassGenerator<?> g, HoldingContainer[] inputVariables, String body, JVar[] workspaceJVars) { // g.getBlock().directStatement(String.format("//---- start of eval portion of %s function. // ----//", functionName)); JBlock sub = new JBlock(true, true); JBlock topSub = sub; HoldingContainer out = null; MajorType returnValueType = returnValue.type; // add outside null handling if it is defined. if (nullHandling == NullHandling.NULL_IF_NULL) { JExpression e = null; for (HoldingContainer v : inputVariables) { if (v.isOptional()) { if (e == null) { e = v.getIsSet(); } else { e = e.mul(v.getIsSet()); } } } if (e != null) { // if at least one expression must be checked, set up the conditional. returnValueType = returnValue.type.toBuilder().setMode(DataMode.OPTIONAL).build(); out = g.declare(returnValueType); e = e.eq(JExpr.lit(0)); JConditional jc = sub._if(e); jc._then().assign(out.getIsSet(), JExpr.lit(0)); sub = jc._else(); } } if (out == null) out = g.declare(returnValueType); // add the subblock after the out declaration. g.getEvalBlock().add(topSub); JVar internalOutput = sub.decl( JMod.FINAL, g.getHolderType(returnValueType), returnValue.name, JExpr._new(g.getHolderType(returnValueType))); addProtectedBlock(g, sub, body, inputVariables, workspaceJVars, false); if (sub != topSub) sub.assign(internalOutput.ref("isSet"), JExpr.lit(1)); // Assign null if NULL_IF_NULL mode sub.assign(out.getHolder(), internalOutput); if (sub != topSub) sub.assign(internalOutput.ref("isSet"), JExpr.lit(1)); // Assign null if NULL_IF_NULL mode return out; }
private MSorter createNewMSorter( FragmentContext context, List<Ordering> orderings, VectorAccessible batch, MappingSet mainMapping, MappingSet leftMapping, MappingSet rightMapping) throws ClassTransformationException, IOException, SchemaChangeException { CodeGenerator<MSorter> cg = CodeGenerator.get( MSorter.TEMPLATE_DEFINITION, context.getFunctionRegistry(), context.getOptions()); ClassGenerator<MSorter> g = cg.getRoot(); g.setMappingSet(mainMapping); for (Ordering od : orderings) { // first, we rewrite the evaluation stack for each side of the comparison. ErrorCollector collector = new ErrorCollectorImpl(); final LogicalExpression expr = ExpressionTreeMaterializer.materialize( od.getExpr(), batch, collector, context.getFunctionRegistry()); if (collector.hasErrors()) { throw new SchemaChangeException( "Failure while materializing expression. " + collector.toErrorString()); } g.setMappingSet(leftMapping); HoldingContainer left = g.addExpr(expr, ClassGenerator.BlkCreateMode.FALSE); g.setMappingSet(rightMapping); HoldingContainer right = g.addExpr(expr, ClassGenerator.BlkCreateMode.FALSE); g.setMappingSet(mainMapping); // next we wrap the two comparison sides and add the expression block for the comparison. LogicalExpression fh = FunctionGenerationHelper.getOrderingComparator( od.nullsSortHigh(), left, right, context.getFunctionRegistry()); HoldingContainer out = g.addExpr(fh, ClassGenerator.BlkCreateMode.FALSE); JConditional jc = g.getEvalBlock()._if(out.getValue().ne(JExpr.lit(0))); if (od.getDirection() == Direction.ASCENDING) { jc._then()._return(out.getValue()); } else { jc._then()._return(out.getValue().minus()); } g.rotateBlock(); } g.rotateBlock(); g.getEvalBlock()._return(JExpr.lit(0)); return context.getImplementationClass(cg); }
/** * Add the pre-check to see if we are already in the UI thread. * * @param delegatingMethod * @param holder * @throws JClassAlreadyExistsException */ private void addUIThreadCheck( JMethod delegatingMethod, JBlock previousBody, EComponentHolder holder) throws JClassAlreadyExistsException { // Get the Thread and Looper class. JClass tClass = holder.classes().THREAD; JClass lClass = holder.classes().LOOPER; // invoke the methods. JExpression lhs = tClass.staticInvoke(METHOD_CUR_THREAD); JExpression rhs = lClass.staticInvoke(METHOD_MAIN_LOOPER).invoke(METHOD_GET_THREAD); // create the conditional and the block. JConditional con = delegatingMethod.body()._if(JOp.eq(lhs, rhs)); JBlock thenBlock = con._then().add(previousBody); thenBlock._return(); }
private void generateComparisons(ClassGenerator<?> g, VectorAccessible batch) throws SchemaChangeException { g.setMappingSet(MAIN_MAPPING); for (Ordering od : popConfig.getOrderings()) { // first, we rewrite the evaluation stack for each side of the comparison. ErrorCollector collector = new ErrorCollectorImpl(); final LogicalExpression expr = ExpressionTreeMaterializer.materialize( od.getExpr(), batch, collector, context.getFunctionRegistry()); if (collector.hasErrors()) { throw new SchemaChangeException( "Failure while materializing expression. " + collector.toErrorString()); } g.setMappingSet(LEFT_MAPPING); HoldingContainer left = g.addExpr(expr, ClassGenerator.BlkCreateMode.FALSE); g.setMappingSet(RIGHT_MAPPING); HoldingContainer right = g.addExpr(expr, ClassGenerator.BlkCreateMode.FALSE); g.setMappingSet(MAIN_MAPPING); // next we wrap the two comparison sides and add the expression block for the comparison. LogicalExpression fh = FunctionGenerationHelper.getOrderingComparator( od.nullsSortHigh(), left, right, context.getFunctionRegistry()); HoldingContainer out = g.addExpr(fh, ClassGenerator.BlkCreateMode.FALSE); JConditional jc = g.getEvalBlock()._if(out.getValue().ne(JExpr.lit(0))); if (od.getDirection() == Direction.ASCENDING) { jc._then()._return(out.getValue()); } else { jc._then()._return(out.getValue().minus()); } g.rotateBlock(); } g.rotateBlock(); g.getEvalBlock()._return(JExpr.lit(0)); }