/**
* Licensed to the Apache Software Foundation (ASF) under one
* or more contributor license agreements. See the NOTICE file
* distributed with this work for additional information
* regarding copyright ownership. The ASF licenses this file
* to you under the Apache License, Version 2.0 (the
* "License"); you may not use this file except in compliance
* with the License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package org.apache.drill.exec.expr.fn;
import java.util.Arrays;
import java.util.List;
import java.util.Map;
import org.apache.drill.common.expression.ExpressionPosition;
import org.apache.drill.common.expression.FunctionHolderExpression;
import org.apache.drill.common.expression.LogicalExpression;
import org.apache.drill.common.types.TypeProtos;
import org.apache.drill.common.types.TypeProtos.MajorType;
import org.apache.drill.common.types.TypeProtos.MinorType;
import org.apache.drill.common.types.Types;
import org.apache.drill.exec.compile.bytecode.ScalarReplacementTypes;
import org.apache.drill.exec.compile.sig.SignatureHolder;
import org.apache.drill.exec.expr.ClassGenerator;
import org.apache.drill.exec.expr.ClassGenerator.BlockType;
import org.apache.drill.exec.expr.ClassGenerator.HoldingContainer;
import org.apache.drill.exec.expr.DrillFuncHolderExpr;
import org.apache.drill.exec.expr.TypeHelper;
import org.apache.drill.exec.expr.annotations.FunctionTemplate;
import org.apache.drill.exec.expr.annotations.FunctionTemplate.FunctionCostCategory;
import org.apache.drill.exec.expr.annotations.FunctionTemplate.FunctionScope;
import org.apache.drill.exec.expr.annotations.FunctionTemplate.NullHandling;
import org.apache.drill.exec.vector.complex.reader.FieldReader;
import com.google.common.base.Preconditions;
import com.google.common.base.Strings;
import com.google.common.collect.ImmutableList;
import com.google.common.collect.ImmutableMap;
import com.sun.codemodel.JBlock;
import com.sun.codemodel.JExpr;
import com.sun.codemodel.JType;
import com.sun.codemodel.JVar;
public abstract class DrillFuncHolder extends AbstractFuncHolder {
static final org.slf4j.Logger logger = org.slf4j.LoggerFactory.getLogger(FunctionImplementationRegistry.class);
protected final FunctionTemplate.FunctionScope scope;
protected final FunctionTemplate.NullHandling nullHandling;
protected final FunctionTemplate.FunctionCostCategory costCategory;
protected final boolean isBinaryCommutative;
protected final boolean isRandom;
protected final String[] registeredNames;
protected final ImmutableList<String> imports;
protected final WorkspaceReference[] workspaceVars;
protected final ValueReference[] parameters;
protected final ValueReference returnValue;
protected final ImmutableMap<String, String> methodMap;
public DrillFuncHolder(FunctionScope scope, NullHandling nullHandling, boolean isBinaryCommutative, boolean isRandom,
String[] registeredNames, ValueReference[] parameters, ValueReference returnValue,
WorkspaceReference[] workspaceVars, Map<String, String> methods, List<String> imports, FunctionCostCategory costCategory) {
super();
this.scope = scope;
this.nullHandling = nullHandling;
this.workspaceVars = workspaceVars;
this.isBinaryCommutative = isBinaryCommutative;
this.isRandom = isRandom;
this.registeredNames = registeredNames;
this.methodMap = ImmutableMap.copyOf(methods);
this.parameters = parameters;
this.returnValue = returnValue;
this.imports = ImmutableList.copyOf(imports);
this.costCategory = costCategory;
}
public List<String> getImports() {
return imports;
}
@Override
public JVar[] renderStart(ClassGenerator<?> g, HoldingContainer[] inputVariables) {
return declareWorkspaceVariables(g);
};
@Override
public void renderMiddle(ClassGenerator<?> g, HoldingContainer[] inputVariables, JVar[] workspaceJVars) {
};
@Override
public abstract HoldingContainer renderEnd(ClassGenerator<?> g, HoldingContainer[] inputVariables,
JVar[] workspaceJVars);
@Override
public abstract boolean isNested();
@Override
public FunctionHolderExpression getExpr(String name, List<LogicalExpression> args, ExpressionPosition pos) {
return new DrillFuncHolderExpr(name, this, args, pos);
}
public boolean isAggregating() {
return false;
}
public boolean isRandom() {
return isRandom;
}
protected JVar[] declareWorkspaceVariables(ClassGenerator<?> g) {
JVar[] workspaceJVars = new JVar[workspaceVars.length];
for (int i = 0; i < workspaceVars.length; i++) {
WorkspaceReference ref = workspaceVars[i];
JType jtype = g.getModel()._ref(ref.type);
if(ScalarReplacementTypes.CLASSES.contains(ref.type)){
workspaceJVars[i] = g.declareClassField("work", jtype);
JBlock b = g.getBlock(SignatureHolder.DRILL_INIT_METHOD);
b.assign(workspaceJVars[i], JExpr._new(jtype));
}else{
workspaceJVars[i] = g.declareClassField("work", jtype);
}
if(ref.isInject()){
g.getBlock(BlockType.SETUP).assign(workspaceJVars[i], g.getMappingSet().getIncoming().invoke("getContext").invoke("getManagedBuffer"));
}else{
//g.getBlock(BlockType.SETUP).assign(workspaceJVars[i], JExpr._new(jtype));
}
}
return workspaceJVars;
}
protected void generateBody(ClassGenerator<?> g, BlockType bt, String body, HoldingContainer[] inputVariables,
JVar[] workspaceJVars, boolean decConstantInputOnly) {
if (!Strings.isNullOrEmpty(body) && !body.trim().isEmpty()) {
JBlock sub = new JBlock(true, true);
if (decConstantInputOnly) {
addProtectedBlock(g, sub, body, inputVariables, workspaceJVars, true);
} else {
addProtectedBlock(g, sub, body, null, workspaceJVars, false);
}
g.getBlock(bt).directStatement(String.format("/** start %s for function %s **/ ", bt.name(), registeredNames[0]));
g.getBlock(bt).add(sub);
g.getBlock(bt).directStatement(String.format("/** end %s for function %s **/ ", bt.name(), registeredNames[0]));
}
}
protected void addProtectedBlock(ClassGenerator<?> g, JBlock sub, String body, HoldingContainer[] inputVariables,
JVar[] workspaceJVars, boolean decConstInputOnly) {
if (inputVariables != null) {
for (int i = 0; i < inputVariables.length; i++) {
if (decConstInputOnly && !inputVariables[i].isConstant())
continue;
ValueReference parameter = parameters[i];
HoldingContainer inputVariable = inputVariables[i];
if (parameter.isFieldReader && ! inputVariable.isReader() && ! Types.isComplex(inputVariable.getMajorType())) {
JType singularReaderClass = g.getModel()._ref(TypeHelper.getHolderReaderImpl(inputVariable.getMajorType().getMinorType(),
inputVariable.getMajorType().getMode()));
JType fieldReadClass = g.getModel()._ref(FieldReader.class);
sub.decl(fieldReadClass, parameter.name, JExpr._new(singularReaderClass).arg(inputVariable.getHolder()));
} else {
sub.decl(inputVariable.getHolder().type(), parameter.name, inputVariable.getHolder());
}
}
}
JVar[] internalVars = new JVar[workspaceJVars.length];
for (int i = 0; i < workspaceJVars.length; i++) {
if(decConstInputOnly){
internalVars[i] = sub.decl(g.getModel()._ref(workspaceVars[i].type), workspaceVars[i].name, workspaceJVars[i]);
}else{
internalVars[i] = sub.decl(g.getModel()._ref(workspaceVars[i].type), workspaceVars[i].name, workspaceJVars[i]);
}
}
Preconditions.checkNotNull(body);
sub.directStatement(body);
// reassign workspace variables back to global space.
for (int i = 0; i < workspaceJVars.length; i++) {
sub.assign(workspaceJVars[i], internalVars[i]);
}
}
public boolean matches(MajorType returnType, List<MajorType> argTypes) {
if (!softCompare(returnType, returnValue.type)) {
// logger.debug(String.format("Call [%s] didn't match as return type [%s] was different than expected [%s]. ",
// call.getDefinition().getName(), returnValue.type, call.getMajorType()));
return false;
}
if (argTypes.size() != parameters.length) {
// logger.debug(String.format("Call [%s] didn't match as the number of arguments provided [%d] were different than expected [%d]. ",
// call.getDefinition().getName(), parameters.length, call.args.size()));
return false;
}
for (int i = 0; i < parameters.length; i++) {
if (!softCompare(parameters[i].type, argTypes.get(i))) {
// logger.debug(String.format("Call [%s] didn't match as the argument [%s] didn't match the expected type [%s]. ",
// call.getDefinition().getName(), arg.getMajorType(), param.type));
return false;
}
}
return true;
}
@Override
public MajorType getParmMajorType(int i) {
return this.parameters[i].type;
}
@Override
public int getParamCount() {
return this.parameters.length;
}
public boolean isConstant(int i) {
return this.parameters[i].isConstant;
}
public boolean isFieldReader(int i) {
return this.parameters[i].isFieldReader;
}
public MajorType getReturnType(List<LogicalExpression> args) {
if (nullHandling == NullHandling.NULL_IF_NULL) {
// if any one of the input types is nullable, then return nullable return type
for (LogicalExpression e : args) {
if (e.getMajorType().getMode() == TypeProtos.DataMode.OPTIONAL) {
return Types.optional(returnValue.type.getMinorType());
}
}
}
return returnValue.type;
}
public NullHandling getNullHandling() {
return this.nullHandling;
}
private boolean softCompare(MajorType a, MajorType b) {
return Types.softEquals(a, b, nullHandling == NullHandling.NULL_IF_NULL);
}
public String[] getRegisteredNames() {
return registeredNames;
}
public int getCostCategory() {
return this.costCategory.getValue();
}
@Override
public String toString() {
final int maxLen = 10;
return this.getClass().getSimpleName()
+ " [functionNames=" + Arrays.toString(registeredNames)
+ ", returnType=" + Types.toString(returnValue.type)
+ ", nullHandling=" + nullHandling
+ ", parameters=" + (parameters != null ? Arrays.asList(parameters).subList(0, Math.min(parameters.length, maxLen)) : null) + "]";
}
public static class ValueReference {
MajorType type;
String name;
boolean isConstant = false;
boolean isFieldReader = false;
boolean isComplexWriter = false;
public ValueReference(MajorType type, String name) {
super();
Preconditions.checkNotNull(type);
Preconditions.checkNotNull(name);
this.type = type;
this.name = name;
}
public void setConstant(boolean isConstant) {
this.isConstant = isConstant;
}
@Override
public String toString() {
return "ValueReference [type=" + Types.toString(type) + ", name=" + name + "]";
}
public static ValueReference createFieldReaderRef(String name) {
MajorType type = Types.required(MinorType.LATE);
ValueReference ref = new ValueReference(type, name);
ref.isFieldReader = true;
return ref;
}
public static ValueReference createComplexWriterRef(String name) {
MajorType type = Types.required(MinorType.LATE);
ValueReference ref = new ValueReference(type, name);
ref.isComplexWriter = true;
return ref;
}
public boolean isComplexWriter() {
return isComplexWriter;
}
}
public static class WorkspaceReference {
Class<?> type;
String name;
MajorType majorType;
boolean inject;
public WorkspaceReference(Class<?> type, String name, boolean inject) {
super();
Preconditions.checkNotNull(type);
Preconditions.checkNotNull(name);
this.type = type;
this.name = name;
this.inject = inject;
}
void setMajorType(MajorType majorType) {
this.majorType = majorType;
}
public boolean isInject(){
return inject;
}
}
public boolean checkPrecisionRange() {
return false;
}
public MajorType getReturnType() {
return returnValue.type;
}
public ValueReference getReturnValue() {
return returnValue;
}
}