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Formatting.

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This commit is contained in:
Greg Burd 2017-11-02 16:32:09 -04:00
parent ef4f9054ac
commit 690cd1e064
293 changed files with 15729 additions and 15041 deletions
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1
.idea/eclipseCodeFormatter.xml
View file

@ -3,7 +3,6 @@
<component name="EclipseCodeFormatterProjectSettings">
<option name="projectSpecificProfile">
<ProjectSpecificProfile>
<option name="formatter" value="ECLIPSE" />
<option name="pathToConfigFileJava" value="$PROJECT_DIR$/../newton/formatting/onshape-eclipse-general-preferences.epf" />
</ProjectSpecificProfile>
</option>

24
src/main/java/com/datastax/driver/core/DefaultMetadata.java
View file

@ -5,19 +5,19 @@ import java.util.List;
public class DefaultMetadata extends Metadata {
public DefaultMetadata() {
super(null);
}
public DefaultMetadata() {
super(null);
}
private DefaultMetadata(Cluster.Manager cluster) {
super(cluster);
}
private DefaultMetadata(Cluster.Manager cluster) {
super(cluster);
}
public TupleType newTupleType(DataType... types) {
return newTupleType(Arrays.asList(types));
}
public TupleType newTupleType(DataType... types) {
return newTupleType(Arrays.asList(types));
}
public TupleType newTupleType(List<DataType> types) {
return new TupleType(types, ProtocolVersion.NEWEST_SUPPORTED, CodecRegistry.DEFAULT_INSTANCE);
}
public TupleType newTupleType(List<DataType> types) {
return new TupleType(types, ProtocolVersion.NEWEST_SUPPORTED, CodecRegistry.DEFAULT_INSTANCE);
}
}

43
src/main/java/com/datastax/driver/core/querybuilder/IsNotNullClause.java
View file

@ -15,35 +15,34 @@
*/
package com.datastax.driver.core.querybuilder;
import java.util.List;
import com.datastax.driver.core.CodecRegistry;
import java.util.List;
public class IsNotNullClause extends Clause {
final String name;
final String name;
public IsNotNullClause(String name) {
this.name = name;
}
public IsNotNullClause(String name) {
this.name = name;
}
@Override
String name() {
return name;
}
@Override
String name() {
return name;
}
@Override
Object firstValue() {
return null;
}
@Override
Object firstValue() {
return null;
}
@Override
void appendTo(StringBuilder sb, List<Object> variables, CodecRegistry codecRegistry) {
Utils.appendName(name, sb).append(" IS NOT NULL");
}
@Override
void appendTo(StringBuilder sb, List<Object> variables, CodecRegistry codecRegistry) {
Utils.appendName(name, sb).append(" IS NOT NULL");
}
@Override
boolean containsBindMarker() {
return false;
}
@Override
boolean containsBindMarker() {
return false;
}
}

251
src/main/java/com/datastax/driver/core/schemabuilder/CreateCustomIndex.java
View file

@ -6,143 +6,150 @@ import com.google.common.base.Optional;
public class CreateCustomIndex extends CreateIndex {
private String indexName;
private boolean ifNotExists = false;
private Optional<String> keyspaceName = Optional.absent();
private String tableName;
private String columnName;
private boolean keys;
private String indexName;
private boolean ifNotExists = false;
private Optional<String> keyspaceName = Optional.absent();
private String tableName;
private String columnName;
private boolean keys;
CreateCustomIndex(String indexName) {
super(indexName);
validateNotEmpty(indexName, "Index name");
validateNotKeyWord(indexName,
String.format("The index name '%s' is not allowed because it is a reserved keyword", indexName));
this.indexName = indexName;
}
CreateCustomIndex(String indexName) {
super(indexName);
validateNotEmpty(indexName, "Index name");
validateNotKeyWord(
indexName,
String.format(
"The index name '%s' is not allowed because it is a reserved keyword", indexName));
this.indexName = indexName;
}
/**
* Add the 'IF NOT EXISTS' condition to this CREATE INDEX statement.
*
* @return this CREATE INDEX statement.
*/
public CreateIndex ifNotExists() {
this.ifNotExists = true;
return this;
}
/**
* Add the 'IF NOT EXISTS' condition to this CREATE INDEX statement.
*
* @return this CREATE INDEX statement.
*/
public CreateIndex ifNotExists() {
this.ifNotExists = true;
return this;
}
/**
* Specify the keyspace and table to create the index on.
*
* @param keyspaceName
* the keyspace name.
* @param tableName
* the table name.
* @return a {@link CreateIndex.CreateIndexOn} that will allow the specification
* of the column.
*/
public CreateIndex.CreateIndexOn onTable(String keyspaceName, String tableName) {
validateNotEmpty(keyspaceName, "Keyspace name");
validateNotEmpty(tableName, "Table name");
validateNotKeyWord(keyspaceName,
String.format("The keyspace name '%s' is not allowed because it is a reserved keyword", keyspaceName));
validateNotKeyWord(tableName,
String.format("The table name '%s' is not allowed because it is a reserved keyword", tableName));
this.keyspaceName = Optional.fromNullable(keyspaceName);
this.tableName = tableName;
return new CreateCustomIndex.CreateIndexOn();
}
/**
* Specify the keyspace and table to create the index on.
*
* @param keyspaceName the keyspace name.
* @param tableName the table name.
* @return a {@link CreateIndex.CreateIndexOn} that will allow the specification of the column.
*/
public CreateIndex.CreateIndexOn onTable(String keyspaceName, String tableName) {
validateNotEmpty(keyspaceName, "Keyspace name");
validateNotEmpty(tableName, "Table name");
validateNotKeyWord(
keyspaceName,
String.format(
"The keyspace name '%s' is not allowed because it is a reserved keyword",
keyspaceName));
validateNotKeyWord(
tableName,
String.format(
"The table name '%s' is not allowed because it is a reserved keyword", tableName));
this.keyspaceName = Optional.fromNullable(keyspaceName);
this.tableName = tableName;
return new CreateCustomIndex.CreateIndexOn();
}
/**
* Specify the table to create the index on.
*
* @param tableName
* the table name.
* @return a {@link CreateIndex.CreateIndexOn} that will allow the specification
* of the column.
*/
public CreateIndex.CreateIndexOn onTable(String tableName) {
validateNotEmpty(tableName, "Table name");
validateNotKeyWord(tableName,
String.format("The table name '%s' is not allowed because it is a reserved keyword", tableName));
this.tableName = tableName;
return new CreateCustomIndex.CreateIndexOn();
}
/**
* Specify the table to create the index on.
*
* @param tableName the table name.
* @return a {@link CreateIndex.CreateIndexOn} that will allow the specification of the column.
*/
public CreateIndex.CreateIndexOn onTable(String tableName) {
validateNotEmpty(tableName, "Table name");
validateNotKeyWord(
tableName,
String.format(
"The table name '%s' is not allowed because it is a reserved keyword", tableName));
this.tableName = tableName;
return new CreateCustomIndex.CreateIndexOn();
}
String getCustomClassName() {
return "";
}
String getCustomClassName() {
return "";
}
String getOptions() {
return "";
}
String getOptions() {
return "";
}
@Override
public String buildInternal() {
StringBuilder createStatement = new StringBuilder(STATEMENT_START).append("CREATE CUSTOM INDEX ");
@Override
public String buildInternal() {
StringBuilder createStatement =
new StringBuilder(STATEMENT_START).append("CREATE CUSTOM INDEX ");
if (ifNotExists) {
createStatement.append("IF NOT EXISTS ");
}
if (ifNotExists) {
createStatement.append("IF NOT EXISTS ");
}
createStatement.append(indexName).append(" ON ");
createStatement.append(indexName).append(" ON ");
if (keyspaceName.isPresent()) {
createStatement.append(keyspaceName.get()).append(".");
}
createStatement.append(tableName);
if (keyspaceName.isPresent()) {
createStatement.append(keyspaceName.get()).append(".");
}
createStatement.append(tableName);
createStatement.append("(");
if (keys) {
createStatement.append("KEYS(");
}
createStatement.append("(");
if (keys) {
createStatement.append("KEYS(");
}
createStatement.append(columnName);
createStatement.append(columnName);
if (keys) {
createStatement.append(")");
}
createStatement.append(")");
if (keys) {
createStatement.append(")");
}
createStatement.append(")");
createStatement.append(" USING '");
createStatement.append(getCustomClassName());
createStatement.append("' WITH OPTIONS = {");
createStatement.append(getOptions());
createStatement.append(" }");
createStatement.append(" USING '");
createStatement.append(getCustomClassName());
createStatement.append("' WITH OPTIONS = {");
createStatement.append(getOptions());
createStatement.append(" }");
return createStatement.toString();
}
return createStatement.toString();
}
public class CreateIndexOn extends CreateIndex.CreateIndexOn {
/**
* Specify the column to create the index on.
*
* @param columnName
* the column name.
* @return the final CREATE INDEX statement.
*/
public SchemaStatement andColumn(String columnName) {
validateNotEmpty(columnName, "Column name");
validateNotKeyWord(columnName,
String.format("The column name '%s' is not allowed because it is a reserved keyword", columnName));
CreateCustomIndex.this.columnName = columnName;
return SchemaStatement.fromQueryString(buildInternal());
}
public class CreateIndexOn extends CreateIndex.CreateIndexOn {
/**
* Specify the column to create the index on.
*
* @param columnName the column name.
* @return the final CREATE INDEX statement.
*/
public SchemaStatement andColumn(String columnName) {
validateNotEmpty(columnName, "Column name");
validateNotKeyWord(
columnName,
String.format(
"The column name '%s' is not allowed because it is a reserved keyword", columnName));
CreateCustomIndex.this.columnName = columnName;
return SchemaStatement.fromQueryString(buildInternal());
}
/**
* Create an index on the keys of the given map column.
*
* @param columnName
* the column name.
* @return the final CREATE INDEX statement.
*/
public SchemaStatement andKeysOfColumn(String columnName) {
validateNotEmpty(columnName, "Column name");
validateNotKeyWord(columnName,
String.format("The column name '%s' is not allowed because it is a reserved keyword", columnName));
CreateCustomIndex.this.columnName = columnName;
CreateCustomIndex.this.keys = true;
return SchemaStatement.fromQueryString(buildInternal());
}
}
/**
* Create an index on the keys of the given map column.
*
* @param columnName the column name.
* @return the final CREATE INDEX statement.
*/
public SchemaStatement andKeysOfColumn(String columnName) {
validateNotEmpty(columnName, "Column name");
validateNotKeyWord(
columnName,
String.format(
"The column name '%s' is not allowed because it is a reserved keyword", columnName));
CreateCustomIndex.this.columnName = columnName;
CreateCustomIndex.this.keys = true;
return SchemaStatement.fromQueryString(buildInternal());
}
}
}

83
src/main/java/com/datastax/driver/core/schemabuilder/CreateMaterializedView.java
View file

@ -5,48 +5,53 @@ import com.datastax.driver.core.querybuilder.Select;
public class CreateMaterializedView extends Create {
private String viewName;
private Select.Where selection;
private String primaryKey;
private String clustering;
private String viewName;
private Select.Where selection;
private String primaryKey;
private String clustering;
public CreateMaterializedView(String keyspaceName, String viewName, Select.Where selection, String primaryKey,
String clustering) {
super(keyspaceName, viewName);
this.viewName = viewName;
this.selection = selection;
this.primaryKey = primaryKey;
this.clustering = clustering;
}
public CreateMaterializedView(
String keyspaceName,
String viewName,
Select.Where selection,
String primaryKey,
String clustering) {
super(keyspaceName, viewName);
this.viewName = viewName;
this.selection = selection;
this.primaryKey = primaryKey;
this.clustering = clustering;
}
public String getQueryString(CodecRegistry codecRegistry) {
return buildInternal();
}
public String getQueryString(CodecRegistry codecRegistry) {
return buildInternal();
}
public String buildInternal() {
StringBuilder createStatement = new StringBuilder(STATEMENT_START).append("CREATE MATERIALIZED VIEW");
if (ifNotExists) {
createStatement.append(" IF NOT EXISTS");
}
createStatement.append(" ");
if (keyspaceName.isPresent()) {
createStatement.append(keyspaceName.get()).append(".");
}
createStatement.append(viewName);
createStatement.append(" AS ");
createStatement.append(selection.getQueryString());
createStatement.setLength(createStatement.length() - 1);
createStatement.append(" ");
createStatement.append(primaryKey);
if (clustering != null) {
createStatement.append(" ").append(clustering);
}
createStatement.append(";");
public String buildInternal() {
StringBuilder createStatement =
new StringBuilder(STATEMENT_START).append("CREATE MATERIALIZED VIEW");
if (ifNotExists) {
createStatement.append(" IF NOT EXISTS");
}
createStatement.append(" ");
if (keyspaceName.isPresent()) {
createStatement.append(keyspaceName.get()).append(".");
}
createStatement.append(viewName);
createStatement.append(" AS ");
createStatement.append(selection.getQueryString());
createStatement.setLength(createStatement.length() - 1);
createStatement.append(" ");
createStatement.append(primaryKey);
if (clustering != null) {
createStatement.append(" ").append(clustering);
}
createStatement.append(";");
return createStatement.toString();
}
return createStatement.toString();
}
public String toString() {
return buildInternal();
}
public String toString() {
return buildInternal();
}
}

21
src/main/java/com/datastax/driver/core/schemabuilder/CreateSasiIndex.java
View file

@ -2,16 +2,17 @@ package com.datastax.driver.core.schemabuilder;
public class CreateSasiIndex extends CreateCustomIndex {
public CreateSasiIndex(String indexName) {
super(indexName);
}
public CreateSasiIndex(String indexName) {
super(indexName);
}
String getCustomClassName() {
return "org.apache.cassandra.index.sasi.SASIIndex";
}
String getCustomClassName() {
return "org.apache.cassandra.index.sasi.SASIIndex";
}
String getOptions() {
return "'analyzer_class': " + "'org.apache.cassandra.index.sasi.analyzer.NonTokenizingAnalyzer', "
+ "'case_sensitive': 'false'";
}
String getOptions() {
return "'analyzer_class': "
+ "'org.apache.cassandra.index.sasi.analyzer.NonTokenizingAnalyzer', "
+ "'case_sensitive': 'false'";
}
}

24
src/main/java/com/datastax/driver/core/schemabuilder/CreateTable.java
View file

@ -20,19 +20,19 @@ import com.datastax.driver.core.CodecRegistry;
/** A built CREATE TABLE statement. */
public class CreateTable extends Create {
public CreateTable(String keyspaceName, String tableName) {
super(keyspaceName, tableName);
}
public CreateTable(String keyspaceName, String tableName) {
super(keyspaceName, tableName);
}
public CreateTable(String tableName) {
super(tableName);
}
public CreateTable(String tableName) {
super(tableName);
}
public String getQueryString(CodecRegistry codecRegistry) {
return buildInternal();
}
public String getQueryString(CodecRegistry codecRegistry) {
return buildInternal();
}
public String toString() {
return buildInternal();
}
public String toString() {
return buildInternal();
}
}

76
src/main/java/com/datastax/driver/core/schemabuilder/DropMaterializedView.java
View file

@ -4,45 +4,49 @@ import com.google.common.base.Optional;
public class DropMaterializedView extends Drop {
private Optional<String> keyspaceName = Optional.absent();
private String itemName;
private boolean ifExists = true;
public DropMaterializedView(String keyspaceName, String viewName) {
this(keyspaceName, viewName, DroppedItem.MATERIALIZED_VIEW);
}
private Optional<String> keyspaceName = Optional.absent();
private String itemName;
private boolean ifExists = true;
private DropMaterializedView(String keyspaceName, String viewName, DroppedItem itemType) {
super(keyspaceName, viewName, Drop.DroppedItem.TABLE);
validateNotEmpty(keyspaceName, "Keyspace name");
this.keyspaceName = Optional.fromNullable(keyspaceName);
this.itemName = viewName;
}
public DropMaterializedView(String keyspaceName, String viewName) {
this(keyspaceName, viewName, DroppedItem.MATERIALIZED_VIEW);
}
/**
* Add the 'IF EXISTS' condition to this DROP statement.
*
* @return this statement.
*/
public Drop ifExists() {
this.ifExists = true;
return this;
}
private DropMaterializedView(String keyspaceName, String viewName, DroppedItem itemType) {
super(keyspaceName, viewName, Drop.DroppedItem.TABLE);
validateNotEmpty(keyspaceName, "Keyspace name");
this.keyspaceName = Optional.fromNullable(keyspaceName);
this.itemName = viewName;
}
@Override
public String buildInternal() {
StringBuilder dropStatement = new StringBuilder("DROP MATERIALIZED VIEW ");
if (ifExists) {
dropStatement.append("IF EXISTS ");
}
if (keyspaceName.isPresent()) {
dropStatement.append(keyspaceName.get()).append(".");
}
/**
* Add the 'IF EXISTS' condition to this DROP statement.
*
* @return this statement.
*/
public Drop ifExists() {
this.ifExists = true;
return this;
}
dropStatement.append(itemName);
return dropStatement.toString();
}
@Override
public String buildInternal() {
StringBuilder dropStatement = new StringBuilder("DROP MATERIALIZED VIEW ");
if (ifExists) {
dropStatement.append("IF EXISTS ");
}
if (keyspaceName.isPresent()) {
dropStatement.append(keyspaceName.get()).append(".");
}
enum DroppedItem {
TABLE, TYPE, INDEX, MATERIALIZED_VIEW
}
dropStatement.append(itemName);
return dropStatement.toString();
}
enum DroppedItem {
TABLE,
TYPE,
INDEX,
MATERIALIZED_VIEW
}
}

33
src/main/java/net/helenus/config/DefaultHelenusSettings.java
View file

@ -17,7 +17,6 @@ package net.helenus.config;
import java.lang.reflect.Method;
import java.util.function.Function;
import net.helenus.core.DslInstantiator;
import net.helenus.core.MapperInstantiator;
import net.helenus.core.reflect.ReflectionDslInstantiator;
@ -26,23 +25,23 @@ import net.helenus.mapping.convert.CamelCaseToUnderscoreConverter;
public class DefaultHelenusSettings implements HelenusSettings {
@Override
public Function<String, String> getPropertyToColumnConverter() {
return CamelCaseToUnderscoreConverter.INSTANCE;
}
@Override
public Function<String, String> getPropertyToColumnConverter() {
return CamelCaseToUnderscoreConverter.INSTANCE;
}
@Override
public Function<Method, Boolean> getGetterMethodDetector() {
return GetterMethodDetector.INSTANCE;
}
@Override
public Function<Method, Boolean> getGetterMethodDetector() {
return GetterMethodDetector.INSTANCE;
}
@Override
public DslInstantiator getDslInstantiator() {
return ReflectionDslInstantiator.INSTANCE;
}
@Override
public DslInstantiator getDslInstantiator() {
return ReflectionDslInstantiator.INSTANCE;
}
@Override
public MapperInstantiator getMapperInstantiator() {
return ReflectionMapperInstantiator.INSTANCE;
}
@Override
public MapperInstantiator getMapperInstantiator() {
return ReflectionMapperInstantiator.INSTANCE;
}
}

37
src/main/java/net/helenus/config/GetterMethodDetector.java
View file

@ -18,32 +18,31 @@ package net.helenus.config;
import java.lang.reflect.Method;
import java.lang.reflect.Modifier;
import java.util.function.Function;
import net.helenus.mapping.annotation.Transient;
public enum GetterMethodDetector implements Function<Method, Boolean> {
INSTANCE;
INSTANCE;
@Override
public Boolean apply(Method method) {
@Override
public Boolean apply(Method method) {
if (method == null) {
throw new IllegalArgumentException("empty parameter");
}
if (method == null) {
throw new IllegalArgumentException("empty parameter");
}
if (method.getParameterCount() != 0 || method.getReturnType() == void.class) {
return false;
}
if (method.getParameterCount() != 0 || method.getReturnType() == void.class) {
return false;
}
if (Modifier.isStatic(method.getModifiers())) {
return false;
}
if (Modifier.isStatic(method.getModifiers())) {
return false;
}
// Methods marked "Transient" are not mapped, skip them.
if (method.getDeclaredAnnotation(Transient.class) != null) {
return false;
}
// Methods marked "Transient" are not mapped, skip them.
if (method.getDeclaredAnnotation(Transient.class) != null) {
return false;
}
return true;
}
return true;
}
}

9
src/main/java/net/helenus/config/HelenusSettings.java
View file

@ -17,17 +17,16 @@ package net.helenus.config;
import java.lang.reflect.Method;
import java.util.function.Function;
import net.helenus.core.DslInstantiator;
import net.helenus.core.MapperInstantiator;
public interface HelenusSettings {
Function<String, String> getPropertyToColumnConverter();
Function<String, String> getPropertyToColumnConverter();
Function<Method, Boolean> getGetterMethodDetector();
Function<Method, Boolean> getGetterMethodDetector();
DslInstantiator getDslInstantiator();
DslInstantiator getDslInstantiator();
MapperInstantiator getMapperInstantiator();
MapperInstantiator getMapperInstantiator();
}

47
src/main/java/net/helenus/core/AbstractAuditedEntityDraft.java
View file

@ -3,37 +3,36 @@ package net.helenus.core;
import java.time.LocalDateTime;
import java.time.ZoneId;
import java.util.Date;
import net.helenus.core.reflect.MapExportable;
public abstract class AbstractAuditedEntityDraft<E> extends AbstractEntityDraft<E> {
public AbstractAuditedEntityDraft(MapExportable entity) {
super(entity);
public AbstractAuditedEntityDraft(MapExportable entity) {
super(entity);
Date in = new Date();
LocalDateTime ldt = LocalDateTime.ofInstant(in.toInstant(), ZoneId.systemDefault());
Date now = Date.from(ldt.atZone(ZoneId.systemDefault()).toInstant());
Date in = new Date();
LocalDateTime ldt = LocalDateTime.ofInstant(in.toInstant(), ZoneId.systemDefault());
Date now = Date.from(ldt.atZone(ZoneId.systemDefault()).toInstant());
String who = getCurrentAuditor();
String who = getCurrentAuditor();
if (entity == null) {
if (who != null) {
set("createdBy", who);
}
set("createdAt", now);
}
if (who != null) {
set("modifiedBy", who);
}
set("modifiedAt", now);
}
if (entity == null) {
if (who != null) {
set("createdBy", who);
}
set("createdAt", now);
}
if (who != null) {
set("modifiedBy", who);
}
set("modifiedAt", now);
}
protected String getCurrentAuditor() {
return null;
}
protected String getCurrentAuditor() {
return null;
}
public Date createdAt() {
return (Date) get("createdAt", Date.class);
}
public Date createdAt() {
return (Date) get("createdAt", Date.class);
}
}

263
src/main/java/net/helenus/core/AbstractEntityDraft.java
View file

@ -1,174 +1,171 @@
package net.helenus.core;
import com.google.common.primitives.Primitives;
import java.io.Serializable;
import java.util.*;
import org.apache.commons.lang3.SerializationUtils;
import com.google.common.primitives.Primitives;
import net.helenus.core.reflect.DefaultPrimitiveTypes;
import net.helenus.core.reflect.Drafted;
import net.helenus.core.reflect.MapExportable;
import net.helenus.mapping.MappingUtil;
import org.apache.commons.lang3.SerializationUtils;
public abstract class AbstractEntityDraft<E> implements Drafted<E> {
private final Map<String, Object> backingMap = new HashMap<String, Object>();
private final MapExportable entity;
private final Map<String, Object> entityMap;
private final Map<String, Object> backingMap = new HashMap<String, Object>();
private final MapExportable entity;
private final Map<String, Object> entityMap;
public AbstractEntityDraft(MapExportable entity) {
this.entity = entity;
this.entityMap = entity != null ? entity.toMap() : new HashMap<String, Object>();
}
public AbstractEntityDraft(MapExportable entity) {
this.entity = entity;
this.entityMap = entity != null ? entity.toMap() : new HashMap<String, Object>();
}
public abstract Class<E> getEntityClass();
public abstract Class<E> getEntityClass();
public E build() {
return Helenus.map(getEntityClass(), toMap());
}
public E build() {
return Helenus.map(getEntityClass(), toMap());
}
@SuppressWarnings("unchecked")
public <T> T get(Getter<T> getter, Class<?> returnType) {
return (T) get(this.<T>methodNameFor(getter), returnType);
}
@SuppressWarnings("unchecked")
public <T> T get(Getter<T> getter, Class<?> returnType) {
return (T) get(this.<T>methodNameFor(getter), returnType);
}
@SuppressWarnings("unchecked")
public <T> T get(String key, Class<?> returnType) {
T value = (T) backingMap.get(key);
@SuppressWarnings("unchecked")
public <T> T get(String key, Class<?> returnType) {
T value = (T) backingMap.get(key);
if (value == null) {
value = (T) entityMap.get(key);
if (value == null) {
if (value == null) {
value = (T) entityMap.get(key);
if (value == null) {
if (Primitives.allPrimitiveTypes().contains(returnType)) {
if (Primitives.allPrimitiveTypes().contains(returnType)) {
DefaultPrimitiveTypes type = DefaultPrimitiveTypes.lookup(returnType);
if (type == null) {
throw new RuntimeException("unknown primitive type " + returnType);
}
DefaultPrimitiveTypes type = DefaultPrimitiveTypes.lookup(returnType);
if (type == null) {
throw new RuntimeException("unknown primitive type " + returnType);
}
return (T) type.getDefaultValue();
}
} else {
// Collections fetched from the entityMap
if (value instanceof Collection) {
try {
value = MappingUtil.<T>clone(value);
} catch (CloneNotSupportedException e) {
// TODO(gburd): deep?shallow? copy of List, Map, Set to a mutable collection.
value = (T) SerializationUtils.<Serializable>clone((Serializable) value);
}
}
}
}
return (T) type.getDefaultValue();
}
} else {
// Collections fetched from the entityMap
if (value instanceof Collection) {
try {
value = MappingUtil.<T>clone(value);
} catch (CloneNotSupportedException e) {
// TODO(gburd): deep?shallow? copy of List, Map, Set to a mutable collection.
value = (T) SerializationUtils.<Serializable>clone((Serializable) value);
}
}
}
}
return value;
}
return value;
}
public <T> Object set(Getter<T> getter, Object value) {
return set(this.<T>methodNameFor(getter), value);
}
public <T> Object set(Getter<T> getter, Object value) {
return set(this.<T>methodNameFor(getter), value);
}
public Object set(String key, Object value) {
if (key == null || value == null) {
return null;
}
public Object set(String key, Object value) {
if (key == null || value == null) {
return null;
}
backingMap.put(key, value);
return value;
}
backingMap.put(key, value);
return value;
}
@SuppressWarnings("unchecked")
public <T> T mutate(Getter<T> getter, T value) {
return (T) mutate(this.<T>methodNameFor(getter), value);
}
@SuppressWarnings("unchecked")
public <T> T mutate(Getter<T> getter, T value) {
return (T) mutate(this.<T>methodNameFor(getter), value);
}
public Object mutate(String key, Object value) {
Objects.requireNonNull(key);
public Object mutate(String key, Object value) {
Objects.requireNonNull(key);
if (value == null) {
return null;
}
if (value == null) {
return null;
}
if (entity != null) {
Map<String, Object> map = entity.toMap();
if (entity != null) {
Map<String, Object> map = entity.toMap();
if (map.containsKey(key) && !value.equals(map.get(key))) {
backingMap.put(key, value);
return value;
}
if (map.containsKey(key) && !value.equals(map.get(key))) {
backingMap.put(key, value);
return value;
}
return map.get(key);
} else {
backingMap.put(key, value);
return map.get(key);
} else {
backingMap.put(key, value);
return null;
}
}
return null;
}
}
private <T> String methodNameFor(Getter<T> getter) {
return MappingUtil.resolveMappingProperty(getter).getProperty().getPropertyName();
}
private <T> String methodNameFor(Getter<T> getter) {
return MappingUtil.resolveMappingProperty(getter).getProperty().getPropertyName();
}
public <T> Object unset(Getter<T> getter) {
return unset(methodNameFor(getter));
}
public <T> Object unset(Getter<T> getter) {
return unset(methodNameFor(getter));
}
public Object unset(String key) {
if (key != null) {
Object value = backingMap.get(key);
backingMap.put(key, null);
return value;
}
return null;
}
public Object unset(String key) {
if (key != null) {
Object value = backingMap.get(key);
backingMap.put(key, null);
return value;
}
return null;
}
public <T> boolean reset(Getter<T> getter, T desiredValue) {
return this.<T>reset(this.<T>methodNameFor(getter), desiredValue);
}
public <T> boolean reset(Getter<T> getter, T desiredValue) {
return this.<T>reset(this.<T>methodNameFor(getter), desiredValue);
}
public <T> boolean reset(String key, T desiredValue) {
if (key != null && desiredValue != null) {
@SuppressWarnings("unchecked")
T currentValue = (T) backingMap.get(key);
if (currentValue == null || !currentValue.equals(desiredValue)) {
set(key, desiredValue);
return true;
}
}
return false;
}
public <T> boolean reset(String key, T desiredValue) {
if (key != null && desiredValue != null) {
@SuppressWarnings("unchecked")
T currentValue = (T) backingMap.get(key);
if (currentValue == null || !currentValue.equals(desiredValue)) {
set(key, desiredValue);
return true;
}
}
return false;
}
@Override
public Map<String, Object> toMap() {
return toMap(entityMap);
}
@Override
public Map<String, Object> toMap() {
return toMap(entityMap);
}
public Map<String, Object> toMap(Map<String, Object> entityMap) {
Map<String, Object> combined;
if (entityMap != null && entityMap.size() > 0) {
combined = new HashMap<String, Object>(entityMap.size());
for (Map.Entry<String, Object> e : entityMap.entrySet()) {
combined.put(e.getKey(), e.getValue());
}
} else {
combined = new HashMap<String, Object>(backingMap.size());
}
for (String key : mutated()) {
combined.put(key, backingMap.get(key));
}
return combined;
}
public Map<String, Object> toMap(Map<String, Object> entityMap) {
Map<String, Object> combined;
if (entityMap != null && entityMap.size() > 0) {
combined = new HashMap<String, Object>(entityMap.size());
for (Map.Entry<String, Object> e : entityMap.entrySet()) {
combined.put(e.getKey(), e.getValue());
}
} else {
combined = new HashMap<String, Object>(backingMap.size());
}
for (String key : mutated()) {
combined.put(key, backingMap.get(key));
}
return combined;
}
@Override
public Set<String> mutated() {
return backingMap.keySet();
}
@Override
public Set<String> mutated() {
return backingMap.keySet();
}
@Override
public String toString() {
return backingMap.toString();
}
@Override
public String toString() {
return backingMap.toString();
}
}

188
src/main/java/net/helenus/core/AbstractSessionOperations.java
View file

@ -15,143 +15,139 @@
*/
package net.helenus.core;
import java.io.PrintStream;
import java.util.List;
import java.util.concurrent.Executor;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import brave.Tracer;
import com.codahale.metrics.MetricRegistry;
import com.datastax.driver.core.*;
import com.google.common.base.Stopwatch;
import com.google.common.collect.Table;
import com.google.common.util.concurrent.ListenableFuture;
import brave.Tracer;
import java.io.PrintStream;
import java.util.List;
import java.util.concurrent.Executor;
import net.helenus.core.cache.Facet;
import net.helenus.core.operation.Operation;
import net.helenus.mapping.value.ColumnValuePreparer;
import net.helenus.mapping.value.ColumnValueProvider;
import net.helenus.support.Either;
import net.helenus.support.HelenusException;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
public abstract class AbstractSessionOperations {
private static final Logger LOG = LoggerFactory.getLogger(AbstractSessionOperations.class);
private static final Logger LOG = LoggerFactory.getLogger(AbstractSessionOperations.class);
public abstract Session currentSession();
public abstract Session currentSession();
public abstract String usingKeyspace();
public abstract String usingKeyspace();
public abstract boolean isShowCql();
public abstract boolean isShowCql();
public abstract PrintStream getPrintStream();
public abstract PrintStream getPrintStream();
public abstract Executor getExecutor();
public abstract Executor getExecutor();
public abstract SessionRepository getSessionRepository();
public abstract SessionRepository getSessionRepository();
public abstract ColumnValueProvider getValueProvider();
public abstract ColumnValueProvider getValueProvider();
public abstract ColumnValuePreparer getValuePreparer();
public abstract ColumnValuePreparer getValuePreparer();
public abstract ConsistencyLevel getDefaultConsistencyLevel();
public abstract ConsistencyLevel getDefaultConsistencyLevel();
public abstract boolean getDefaultQueryIdempotency();
public abstract boolean getDefaultQueryIdempotency();
public PreparedStatement prepare(RegularStatement statement) {
try {
logStatement(statement, false);
return currentSession().prepare(statement);
} catch (RuntimeException e) {
throw translateException(e);
}
}
public PreparedStatement prepare(RegularStatement statement) {
try {
logStatement(statement, false);
return currentSession().prepare(statement);
} catch (RuntimeException e) {
throw translateException(e);
}
}
public ListenableFuture<PreparedStatement> prepareAsync(RegularStatement statement) {
try {
logStatement(statement, false);
return currentSession().prepareAsync(statement);
} catch (RuntimeException e) {
throw translateException(e);
}
}
public ListenableFuture<PreparedStatement> prepareAsync(RegularStatement statement) {
try {
logStatement(statement, false);
return currentSession().prepareAsync(statement);
} catch (RuntimeException e) {
throw translateException(e);
}
}
public ResultSet execute(Statement statement, boolean showValues) {
return execute(statement, null, null, showValues);
}
public ResultSet execute(Statement statement, boolean showValues) {
return execute(statement, null, null, showValues);
}
public ResultSet execute(Statement statement, Stopwatch timer, boolean showValues) {
return execute(statement, null, timer, showValues);
}
public ResultSet execute(Statement statement, Stopwatch timer, boolean showValues) {
return execute(statement, null, timer, showValues);
}
public ResultSet execute(Statement statement, UnitOfWork uow, boolean showValues) {
return execute(statement, uow, null, showValues);
}
public ResultSet execute(Statement statement, UnitOfWork uow, boolean showValues) {
return execute(statement, uow, null, showValues);
}
public ResultSet execute(Statement statement, UnitOfWork uow, Stopwatch timer, boolean showValues) {
return executeAsync(statement, uow, timer, showValues).getUninterruptibly();
}
public ResultSet execute(
Statement statement, UnitOfWork uow, Stopwatch timer, boolean showValues) {
return executeAsync(statement, uow, timer, showValues).getUninterruptibly();
}
public ResultSetFuture executeAsync(Statement statement, boolean showValues) {
return executeAsync(statement, null, null, showValues);
}
public ResultSetFuture executeAsync(Statement statement, boolean showValues) {
return executeAsync(statement, null, null, showValues);
}
public ResultSetFuture executeAsync(Statement statement, Stopwatch timer, boolean showValues) {
return executeAsync(statement, null, timer, showValues);
}
public ResultSetFuture executeAsync(Statement statement, Stopwatch timer, boolean showValues) {
return executeAsync(statement, null, timer, showValues);
}
public ResultSetFuture executeAsync(Statement statement, UnitOfWork uow, boolean showValues) {
return executeAsync(statement, uow, null, showValues);
}
public ResultSetFuture executeAsync(Statement statement, UnitOfWork uow, boolean showValues) {
return executeAsync(statement, uow, null, showValues);
}
public ResultSetFuture executeAsync(Statement statement, UnitOfWork uow, Stopwatch timer, boolean showValues) {
try {
logStatement(statement, showValues);
return currentSession().executeAsync(statement);
} catch (RuntimeException e) {
throw translateException(e);
}
}
public ResultSetFuture executeAsync(
Statement statement, UnitOfWork uow, Stopwatch timer, boolean showValues) {
try {
logStatement(statement, showValues);
return currentSession().executeAsync(statement);
} catch (RuntimeException e) {
throw translateException(e);
}
}
private void logStatement(Statement statement, boolean showValues) {
if (isShowCql()) {
printCql(Operation.queryString(statement, showValues));
} else if (LOG.isDebugEnabled()) {
LOG.info("CQL> " + Operation.queryString(statement, showValues));
}
}
private void logStatement(Statement statement, boolean showValues) {
if (isShowCql()) {
printCql(Operation.queryString(statement, showValues));
} else if (LOG.isDebugEnabled()) {
LOG.info("CQL> " + Operation.queryString(statement, showValues));
}
}
public Tracer getZipkinTracer() {
return null;
}
public Tracer getZipkinTracer() {
return null;
}
public MetricRegistry getMetricRegistry() {
return null;
}
public MetricRegistry getMetricRegistry() {
return null;
}
public void mergeCache(Table<String, String, Either<Object, List<Facet>>> uowCache) {
}
public void mergeCache(Table<String, String, Either<Object, List<Facet>>> uowCache) {}
RuntimeException translateException(RuntimeException e) {
if (e instanceof HelenusException) {
return e;
}
throw new HelenusException(e);
}
RuntimeException translateException(RuntimeException e) {
if (e instanceof HelenusException) {
return e;
}
throw new HelenusException(e);
}
public Object checkCache(String tableName, List<Facet> facets) {
return null;
}
public Object checkCache(String tableName, List<Facet> facets) {
return null;
}
public void updateCache(Object pojo, List<Facet> facets) {
}
public void updateCache(Object pojo, List<Facet> facets) {}
void printCql(String cql) {
getPrintStream().println(cql);
}
void printCql(String cql) {
getPrintStream().println(cql);
}
public void cacheEvict(List<Facet> facets) {
}
public void cacheEvict(List<Facet> facets) {}
}

654
src/main/java/net/helenus/core/AbstractUnitOfWork.java
View file

@ -17,357 +17,391 @@ package net.helenus.core;
import static net.helenus.core.HelenusSession.deleted;
import java.util.*;
import java.util.concurrent.TimeUnit;
import java.util.stream.Collectors;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import com.diffplug.common.base.Errors;
import com.google.common.base.Stopwatch;
import com.google.common.collect.HashBasedTable;
import com.google.common.collect.Table;
import com.google.common.collect.TreeTraverser;
import java.util.*;
import java.util.concurrent.TimeUnit;
import java.util.stream.Collectors;
import net.helenus.core.cache.CacheUtil;
import net.helenus.core.cache.Facet;
import net.helenus.support.Either;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
/** Encapsulates the concept of a "transaction" as a unit-of-work. */
public abstract class AbstractUnitOfWork<E extends Exception> implements UnitOfWork<E>, AutoCloseable {
public abstract class AbstractUnitOfWork<E extends Exception>
implements UnitOfWork<E>, AutoCloseable {
private static final Logger LOG = LoggerFactory.getLogger(AbstractUnitOfWork.class);
private static final Logger LOG = LoggerFactory.getLogger(AbstractUnitOfWork.class);
private final List<AbstractUnitOfWork<E>> nested = new ArrayList<>();
private final HelenusSession session;
private final AbstractUnitOfWork<E> parent;
private final Table<String, String, Either<Object, List<Facet>>> cache = HashBasedTable.create();
protected String purpose;
protected List<String> nestedPurposes = new ArrayList<String>();
protected String info;
protected int cacheHits = 0;
protected int cacheMisses = 0;
protected int databaseLookups = 0;
protected Stopwatch elapsedTime;
protected Map<String, Double> databaseTime = new HashMap<>();
protected double cacheLookupTime = 0.0;
private List<CommitThunk> postCommit = new ArrayList<CommitThunk>();
private boolean aborted = false;
private boolean committed = false;
private final List<AbstractUnitOfWork<E>> nested = new ArrayList<>();
private final HelenusSession session;
private final AbstractUnitOfWork<E> parent;
private final Table<String, String, Either<Object, List<Facet>>> cache = HashBasedTable.create();
protected String purpose;
protected List<String> nestedPurposes = new ArrayList<String>();
protected String info;
protected int cacheHits = 0;
protected int cacheMisses = 0;
protected int databaseLookups = 0;
protected Stopwatch elapsedTime;
protected Map<String, Double> databaseTime = new HashMap<>();
protected double cacheLookupTime = 0.0;
private List<CommitThunk> postCommit = new ArrayList<CommitThunk>();
private boolean aborted = false;
private boolean committed = false;
protected AbstractUnitOfWork(HelenusSession session, AbstractUnitOfWork<E> parent) {
Objects.requireNonNull(session, "containing session cannot be null");
protected AbstractUnitOfWork(HelenusSession session, AbstractUnitOfWork<E> parent) {
Objects.requireNonNull(session, "containing session cannot be null");
this.session = session;
this.parent = parent;
}
this.session = session;
this.parent = parent;
}
@Override
public void addDatabaseTime(String name, Stopwatch amount) {
Double time = databaseTime.get(name);
if (time == null) {
databaseTime.put(name, (double) amount.elapsed(TimeUnit.MICROSECONDS));
} else {
databaseTime.put(name, time + amount.elapsed(TimeUnit.MICROSECONDS));
}
}
@Override
public void addDatabaseTime(String name, Stopwatch amount) {
Double time = databaseTime.get(name);
if (time == null) {
databaseTime.put(name, (double) amount.elapsed(TimeUnit.MICROSECONDS));
} else {
databaseTime.put(name, time + amount.elapsed(TimeUnit.MICROSECONDS));
}
}
@Override
public void addCacheLookupTime(Stopwatch amount) {
cacheLookupTime += amount.elapsed(TimeUnit.MICROSECONDS);
}
@Override
public void addCacheLookupTime(Stopwatch amount) {
cacheLookupTime += amount.elapsed(TimeUnit.MICROSECONDS);
}
@Override
public void addNestedUnitOfWork(UnitOfWork<E> uow) {
synchronized (nested) {
nested.add((AbstractUnitOfWork<E>) uow);
}
}
@Override
public void addNestedUnitOfWork(UnitOfWork<E> uow) {
synchronized (nested) {
nested.add((AbstractUnitOfWork<E>) uow);
}
}
@Override
public synchronized UnitOfWork<E> begin() {
if (LOG.isInfoEnabled()) {
elapsedTime = Stopwatch.createStarted();
}
// log.record(txn::start)
return this;
}
@Override
public synchronized UnitOfWork<E> begin() {
if (LOG.isInfoEnabled()) {
elapsedTime = Stopwatch.createStarted();
}
// log.record(txn::start)
return this;
}
@Override
public String getPurpose() {
return purpose;
}
@Override
public String getPurpose() {
return purpose;
}
@Override
public UnitOfWork setPurpose(String purpose) {
this.purpose = purpose;
return this;
}
@Override
public UnitOfWork setPurpose(String purpose) {
this.purpose = purpose;
return this;
}
@Override
public void setInfo(String info) {
this.info = info;
}
@Override
public void setInfo(String info) {
this.info = info;
}
@Override
public void recordCacheAndDatabaseOperationCount(int cache, int ops) {
if (cache > 0) {
cacheHits += cache;
} else {
cacheMisses += Math.abs(cache);
}
if (ops > 0) {
databaseLookups += ops;
}
}
@Override
public void recordCacheAndDatabaseOperationCount(int cache, int ops) {
if (cache > 0) {
cacheHits += cache;
} else {
cacheMisses += Math.abs(cache);
}
if (ops > 0) {
databaseLookups += ops;
}
}
public String logTimers(String what) {
double e = (double) elapsedTime.elapsed(TimeUnit.MICROSECONDS) / 1000.0;
double d = 0.0;
double c = cacheLookupTime / 1000.0;
double fc = (c / e) * 100.0;
String database = "";
if (databaseTime.size() > 0) {
List<String> dbt = new ArrayList<>(databaseTime.size());
for (Map.Entry<String, Double> dt : databaseTime.entrySet()) {
double t = dt.getValue() / 1000.0;
d += t;
dbt.add(String.format("%s took %,.3fms %,2.2f%%", dt.getKey(), t, (t / e) * 100.0));
}
double fd = (d / e) * 100.0;
database = String.format(", %d quer%s (%,.3fms %,2.2f%% - %s)", databaseLookups,
(databaseLookups > 1) ? "ies" : "y", d, fd, String.join(", ", dbt));
}
String cache = "";
if (cacheLookupTime > 0) {
int cacheLookups = cacheHits + cacheMisses;
cache = String.format(" with %d cache lookup%s (%,.3fms %,2.2f%% - %,d hit, %,d miss)", cacheLookups,
cacheLookups > 1 ? "s" : "", c, fc, cacheHits, cacheMisses);
}
String da = "";
if (databaseTime.size() > 0 || cacheLookupTime > 0) {
double dat = d + c;
double daf = (dat / e) * 100;
da = String.format(" consuming %,.3fms for data access, or %,2.2f%% of total UOW time.", dat, daf);
}
String x = nestedPurposes.stream().distinct().collect(Collectors.joining(", "));
String n = nested.stream().map(uow -> String.valueOf(uow.hashCode())).collect(Collectors.joining(", "));
String s = String.format(Locale.US, "UOW(%s%s) %s in %,.3fms%s%s%s%s%s%s", hashCode(),
(nested.size() > 0 ? ", [" + n + "]" : ""), what, e, cache, database, da,
(purpose == null ? "" : " " + purpose), (nestedPurposes.isEmpty()) ? "" : ", " + x,
(info == null) ? "" : " " + info);
return s;
}
public String logTimers(String what) {
double e = (double) elapsedTime.elapsed(TimeUnit.MICROSECONDS) / 1000.0;
double d = 0.0;
double c = cacheLookupTime / 1000.0;
double fc = (c / e) * 100.0;
String database = "";
if (databaseTime.size() > 0) {
List<String> dbt = new ArrayList<>(databaseTime.size());
for (Map.Entry<String, Double> dt : databaseTime.entrySet()) {
double t = dt.getValue() / 1000.0;
d += t;
dbt.add(String.format("%s took %,.3fms %,2.2f%%", dt.getKey(), t, (t / e) * 100.0));
}
double fd = (d / e) * 100.0;
database =
String.format(
", %d quer%s (%,.3fms %,2.2f%% - %s)",
databaseLookups, (databaseLookups > 1) ? "ies" : "y", d, fd, String.join(", ", dbt));
}
String cache = "";
if (cacheLookupTime > 0) {
int cacheLookups = cacheHits + cacheMisses;
cache =
String.format(
" with %d cache lookup%s (%,.3fms %,2.2f%% - %,d hit, %,d miss)",
cacheLookups, cacheLookups > 1 ? "s" : "", c, fc, cacheHits, cacheMisses);
}
String da = "";
if (databaseTime.size() > 0 || cacheLookupTime > 0) {
double dat = d + c;
double daf = (dat / e) * 100;
da =
String.format(
" consuming %,.3fms for data access, or %,2.2f%% of total UOW time.", dat, daf);
}
String x = nestedPurposes.stream().distinct().collect(Collectors.joining(", "));
String n =
nested
.stream()
.map(uow -> String.valueOf(uow.hashCode()))
.collect(Collectors.joining(", "));
String s =
String.format(
Locale.US,
"UOW(%s%s) %s in %,.3fms%s%s%s%s%s%s",
hashCode(),
(nested.size() > 0 ? ", [" + n + "]" : ""),
what,
e,
cache,
database,
da,
(purpose == null ? "" : " " + purpose),
(nestedPurposes.isEmpty()) ? "" : ", " + x,
(info == null) ? "" : " " + info);
return s;
}
private void applyPostCommitFunctions() {
if (!postCommit.isEmpty()) {
for (CommitThunk f : postCommit) {
f.apply();
}
}
if (LOG.isInfoEnabled()) {
LOG.info(logTimers("committed"));
}
}
private void applyPostCommitFunctions() {
if (!postCommit.isEmpty()) {
for (CommitThunk f : postCommit) {
f.apply();
}
}
if (LOG.isInfoEnabled()) {
LOG.info(logTimers("committed"));
}
}
@Override
public Optional<Object> cacheLookup(List<Facet> facets) {
String tableName = CacheUtil.schemaName(facets);
Optional<Object> result = Optional.empty();
for (Facet facet : facets) {
if (!facet.fixed()) {
String columnName = facet.name() + "==" + facet.value();
Either<Object, List<Facet>> eitherValue = cache.get(tableName, columnName);
if (eitherValue != null) {
Object value = deleted;
if (eitherValue.isLeft()) {
value = eitherValue.getLeft();
}
result = Optional.of(value);
break;
}
}
}
if (!result.isPresent()) {
// Be sure to check all enclosing UnitOfWork caches as well, we may be nested.
if (parent != null) {
return parent.cacheLookup(facets);
}
}
return result;
}
@Override
public Optional<Object> cacheLookup(List<Facet> facets) {
String tableName = CacheUtil.schemaName(facets);
Optional<Object> result = Optional.empty();
for (Facet facet : facets) {
if (!facet.fixed()) {
String columnName = facet.name() + "==" + facet.value();
Either<Object, List<Facet>> eitherValue = cache.get(tableName, columnName);
if (eitherValue != null) {
Object value = deleted;
if (eitherValue.isLeft()) {
value = eitherValue.getLeft();
}
result = Optional.of(value);
break;
}
}
}
if (!result.isPresent()) {
// Be sure to check all enclosing UnitOfWork caches as well, we may be nested.
if (parent != null) {
return parent.cacheLookup(facets);
}
}
return result;
}
@Override
public List<Facet> cacheEvict(List<Facet> facets) {
Either<Object, List<Facet>> deletedObjectFacets = Either.right(facets);
String tableName = CacheUtil.schemaName(facets);
Optional<Object> optionalValue = cacheLookup(facets);
if (optionalValue.isPresent()) {
Object value = optionalValue.get();
@Override
public List<Facet> cacheEvict(List<Facet> facets) {
Either<Object, List<Facet>> deletedObjectFacets = Either.right(facets);
String tableName = CacheUtil.schemaName(facets);
Optional<Object> optionalValue = cacheLookup(facets);
if (optionalValue.isPresent()) {
Object value = optionalValue.get();
for (Facet facet : facets) {
if (!facet.fixed()) {
String columnKey = facet.name() + "==" + facet.value();
// mark the value identified by the facet to `deleted`
cache.put(tableName, columnKey, deletedObjectFacets);
}
}
// look for other row/col pairs that referenced the same object, mark them
// `deleted`
cache.columnKeySet().forEach(columnKey -> {
Either<Object, List<Facet>> eitherCachedValue = cache.get(tableName, columnKey);
if (eitherCachedValue.isLeft()) {
Object cachedValue = eitherCachedValue.getLeft();
if (cachedValue == value) {
cache.put(tableName, columnKey, deletedObjectFacets);
String[] parts = columnKey.split("==");
facets.add(new Facet<String>(parts[0], parts[1]));
}
}
});
}
return facets;
}
for (Facet facet : facets) {
if (!facet.fixed()) {
String columnKey = facet.name() + "==" + facet.value();
// mark the value identified by the facet to `deleted`
cache.put(tableName, columnKey, deletedObjectFacets);
}
}
// look for other row/col pairs that referenced the same object, mark them
// `deleted`
cache
.columnKeySet()
.forEach(
columnKey -> {
Either<Object, List<Facet>> eitherCachedValue = cache.get(tableName, columnKey);
if (eitherCachedValue.isLeft()) {
Object cachedValue = eitherCachedValue.getLeft();
if (cachedValue == value) {
cache.put(tableName, columnKey, deletedObjectFacets);
String[] parts = columnKey.split("==");
facets.add(new Facet<String>(parts[0], parts[1]));
}
}
});
}
return facets;
}
@Override
public void cacheUpdate(Object value, List<Facet> facets) {
String tableName = CacheUtil.schemaName(facets);
for (Facet facet : facets) {
if (!facet.fixed()) {
String columnName = facet.name() + "==" + facet.value();
cache.put(tableName, columnName, Either.left(value));
}
}
}
@Override
public void cacheUpdate(Object value, List<Facet> facets) {
String tableName = CacheUtil.schemaName(facets);
for (Facet facet : facets) {
if (!facet.fixed()) {
String columnName = facet.name() + "==" + facet.value();
cache.put(tableName, columnName, Either.left(value));
}
}
}
private Iterator<AbstractUnitOfWork<E>> getChildNodes() {
return nested.iterator();
}
private Iterator<AbstractUnitOfWork<E>> getChildNodes() {
return nested.iterator();
}
/**
* Checks to see if the work performed between calling begin and now can be
* committed or not.
*
* @return a function from which to chain work that only happens when commit is
* successful
* @throws E
* when the work overlaps with other concurrent writers.
*/
public PostCommitFunction<Void, Void> commit() throws E {
// All nested UnitOfWork should be committed (not aborted) before calls to
// commit, check.
boolean canCommit = true;
TreeTraverser<AbstractUnitOfWork<E>> traverser = TreeTraverser.using(node -> node::getChildNodes);
for (AbstractUnitOfWork<E> uow : traverser.postOrderTraversal(this)) {
if (this != uow) {
canCommit &= (!uow.aborted && uow.committed);
}
}
/**
* Checks to see if the work performed between calling begin and now can be committed or not.
*
* @return a function from which to chain work that only happens when commit is successful
* @throws E when the work overlaps with other concurrent writers.
*/
public PostCommitFunction<Void, Void> commit() throws E {
// All nested UnitOfWork should be committed (not aborted) before calls to
// commit, check.
boolean canCommit = true;
TreeTraverser<AbstractUnitOfWork<E>> traverser =
TreeTraverser.using(node -> node::getChildNodes);
for (AbstractUnitOfWork<E> uow : traverser.postOrderTraversal(this)) {
if (this != uow) {
canCommit &= (!uow.aborted && uow.committed);
}
}
// log.record(txn::provisionalCommit)
// examine log for conflicts in read-set and write-set between begin and
// provisional commit
// if (conflict) { throw new ConflictingUnitOfWorkException(this) }
// else return function so as to enable commit.andThen(() -> { do something iff
// commit was successful; })
// log.record(txn::provisionalCommit)
// examine log for conflicts in read-set and write-set between begin and
// provisional commit
// if (conflict) { throw new ConflictingUnitOfWorkException(this) }
// else return function so as to enable commit.andThen(() -> { do something iff
// commit was successful; })
if (canCommit) {
committed = true;
aborted = false;
if (canCommit) {
committed = true;
aborted = false;
nested.forEach((uow) -> Errors.rethrow().wrap(uow::commit));
elapsedTime.stop();
nested.forEach((uow) -> Errors.rethrow().wrap(uow::commit));
elapsedTime.stop();
if (parent == null) {
// Apply all post-commit functions, this is the outter-most UnitOfWork.
traverser.postOrderTraversal(this).forEach(uow -> {
uow.applyPostCommitFunctions();
});
if (parent == null) {
// Apply all post-commit functions, this is the outter-most UnitOfWork.
traverser
.postOrderTraversal(this)
.forEach(
uow -> {
uow.applyPostCommitFunctions();
});
// Merge our cache into the session cache.
session.mergeCache(cache);
// Merge our cache into the session cache.
session.mergeCache(cache);
return new PostCommitFunction(this, null);
} else {
return new PostCommitFunction(this, null);
} else {
// Merge cache and statistics into parent if there is one.
parent.mergeCache(cache);
if (purpose != null) {
parent.nestedPurposes.add(purpose);
}
parent.cacheHits += cacheHits;
parent.cacheMisses += cacheMisses;
parent.databaseLookups += databaseLookups;
parent.cacheLookupTime += cacheLookupTime;
for (Map.Entry<String, Double> dt : databaseTime.entrySet()) {
String name = dt.getKey();
if (parent.databaseTime.containsKey(name)) {
double t = parent.databaseTime.get(name);
parent.databaseTime.put(name, t + dt.getValue());
} else {
parent.databaseTime.put(name, dt.getValue());
}
}
}
}
// else {
// Constructor<T> ctor = clazz.getConstructor(conflictExceptionClass);
// T object = ctor.newInstance(new Object[] { String message });
// }
return new PostCommitFunction(this, postCommit);
}
// Merge cache and statistics into parent if there is one.
parent.mergeCache(cache);
if (purpose != null) {
parent.nestedPurposes.add(purpose);
}
parent.cacheHits += cacheHits;
parent.cacheMisses += cacheMisses;
parent.databaseLookups += databaseLookups;
parent.cacheLookupTime += cacheLookupTime;
for (Map.Entry<String, Double> dt : databaseTime.entrySet()) {
String name = dt.getKey();
if (parent.databaseTime.containsKey(name)) {
double t = parent.databaseTime.get(name);
parent.databaseTime.put(name, t + dt.getValue());
} else {
parent.databaseTime.put(name, dt.getValue());
}
}
}
}
// else {
// Constructor<T> ctor = clazz.getConstructor(conflictExceptionClass);
// T object = ctor.newInstance(new Object[] { String message });
// }
return new PostCommitFunction(this, postCommit);
}
/* Explicitly discard the work and mark it as as such in the log. */
public synchronized void abort() {
TreeTraverser<AbstractUnitOfWork<E>> traverser = TreeTraverser.using(node -> node::getChildNodes);
traverser.postOrderTraversal(this).forEach(uow -> {
uow.committed = false;
uow.aborted = true;
});
// log.record(txn::abort)
// cache.invalidateSince(txn::start time)
if (LOG.isInfoEnabled()) {
if (elapsedTime.isRunning()) {
elapsedTime.stop();
}
LOG.info(logTimers("aborted"));
}
}
/* Explicitly discard the work and mark it as as such in the log. */
public synchronized void abort() {
TreeTraverser<AbstractUnitOfWork<E>> traverser =
TreeTraverser.using(node -> node::getChildNodes);
traverser
.postOrderTraversal(this)
.forEach(
uow -> {
uow.committed = false;
uow.aborted = true;
});
// log.record(txn::abort)
// cache.invalidateSince(txn::start time)
if (LOG.isInfoEnabled()) {
if (elapsedTime.isRunning()) {
elapsedTime.stop();
}
LOG.info(logTimers("aborted"));
}
}
private void mergeCache(Table<String, String, Either<Object, List<Facet>>> from) {
Table<String, String, Either<Object, List<Facet>>> to = this.cache;
from.rowMap().forEach((rowKey, columnMap) -> {
columnMap.forEach((columnKey, value) -> {
if (to.contains(rowKey, columnKey)) {
// TODO(gburd):...
to.put(rowKey, columnKey, Either.left(CacheUtil.merge(to.get(rowKey, columnKey).getLeft(),
from.get(rowKey, columnKey).getLeft())));
} else {
to.put(rowKey, columnKey, from.get(rowKey, columnKey));
}
});
});
}
private void mergeCache(Table<String, String, Either<Object, List<Facet>>> from) {
Table<String, String, Either<Object, List<Facet>>> to = this.cache;
from.rowMap()
.forEach(
(rowKey, columnMap) -> {
columnMap.forEach(
(columnKey, value) -> {
if (to.contains(rowKey, columnKey)) {
// TODO(gburd):...
to.put(
rowKey,
columnKey,
Either.left(
CacheUtil.merge(
to.get(rowKey, columnKey).getLeft(),
from.get(rowKey, columnKey).getLeft())));
} else {
to.put(rowKey, columnKey, from.get(rowKey, columnKey));
}
});
});
}
public String describeConflicts() {
return "it's complex...";
}
public String describeConflicts() {
return "it's complex...";
}
@Override
public void close() throws E {
// Closing a AbstractUnitOfWork will abort iff we've not already aborted or
// committed this unit of work.
if (aborted == false && committed == false) {
abort();
}
}
@Override
public void close() throws E {
// Closing a AbstractUnitOfWork will abort iff we've not already aborted or
// committed this unit of work.
if (aborted == false && committed == false) {
abort();
}
}
public boolean hasAborted() {
return aborted;
}
public boolean hasAborted() {
return aborted;
}
public boolean hasCommitted() {
return committed;
}
public boolean hasCommitted() {
return committed;
}
}

5
src/main/java/net/helenus/core/AutoDdl.java
View file

@ -16,5 +16,8 @@
package net.helenus.core;
public enum AutoDdl {
VALIDATE, UPDATE, CREATE, CREATE_DROP;
VALIDATE,
UPDATE,
CREATE,
CREATE_DROP;
}

2
src/main/java/net/helenus/core/CommitThunk.java
View file

@ -2,5 +2,5 @@ package net.helenus.core;
@FunctionalInterface
public interface CommitThunk {
void apply();
void apply();
}

8
src/main/java/net/helenus/core/ConflictingUnitOfWorkException.java
View file

@ -18,9 +18,9 @@ package net.helenus.core;
public class ConflictingUnitOfWorkException extends Exception {
final UnitOfWork uow;
final UnitOfWork uow;
ConflictingUnitOfWorkException(UnitOfWork uow) {
this.uow = uow;
}
ConflictingUnitOfWorkException(UnitOfWork uow) {
this.uow = uow;
}
}

10
src/main/java/net/helenus/core/DslInstantiator.java
View file

@ -15,13 +15,15 @@
*/
package net.helenus.core;
import java.util.Optional;
import com.datastax.driver.core.Metadata;
import java.util.Optional;
import net.helenus.core.reflect.HelenusPropertyNode;
public interface DslInstantiator {
<E> E instantiate(Class<E> iface, ClassLoader classLoader, Optional<HelenusPropertyNode> parent, Metadata metadata);
<E> E instantiate(
Class<E> iface,
ClassLoader classLoader,
Optional<HelenusPropertyNode> parent,
Metadata metadata);
}

133
src/main/java/net/helenus/core/Filter.java
View file

@ -15,102 +15,101 @@
*/
package net.helenus.core;
import java.util.Objects;
import com.datastax.driver.core.querybuilder.Clause;
import java.util.Objects;
import net.helenus.core.reflect.HelenusPropertyNode;
import net.helenus.mapping.MappingUtil;
import net.helenus.mapping.value.ColumnValuePreparer;
public final class Filter<V> {
private final HelenusPropertyNode node;
private final Postulate<V> postulate;
private final HelenusPropertyNode node;
private final Postulate<V> postulate;
private Filter(HelenusPropertyNode node, Postulate<V> postulate) {
this.node = node;
this.postulate = postulate;
}
private Filter(HelenusPropertyNode node, Postulate<V> postulate) {
this.node = node;
this.postulate = postulate;
}
public static <V> Filter<V> equal(Getter<V> getter, V val) {
return create(getter, Operator.EQ, val);
}
public static <V> Filter<V> equal(Getter<V> getter, V val) {
return create(getter, Operator.EQ, val);
}
public static <V> Filter<V> in(Getter<V> getter, V... vals) {
Objects.requireNonNull(getter, "empty getter");
Objects.requireNonNull(vals, "empty values");
public static <V> Filter<V> in(Getter<V> getter, V... vals) {
Objects.requireNonNull(getter, "empty getter");
Objects.requireNonNull(vals, "empty values");
if (vals.length == 0) {
throw new IllegalArgumentException("values array is empty");
}
if (vals.length == 0) {
throw new IllegalArgumentException("values array is empty");
}
for (int i = 0; i != vals.length; ++i) {
Objects.requireNonNull(vals[i], "value[" + i + "] is empty");
}
for (int i = 0; i != vals.length; ++i) {
Objects.requireNonNull(vals[i], "value[" + i + "] is empty");
}
HelenusPropertyNode node = MappingUtil.resolveMappingProperty(getter);
HelenusPropertyNode node = MappingUtil.resolveMappingProperty(getter);
Postulate<V> postulate = Postulate.of(Operator.IN, vals);
Postulate<V> postulate = Postulate.of(Operator.IN, vals);
return new Filter<V>(node, postulate);
}
return new Filter<V>(node, postulate);
}
public static <V> Filter<V> greaterThan(Getter<V> getter, V val) {
return create(getter, Operator.GT, val);
}
public static <V> Filter<V> greaterThan(Getter<V> getter, V val) {
return create(getter, Operator.GT, val);
}
public static <V> Filter<V> lessThan(Getter<V> getter, V val) {
return create(getter, Operator.LT, val);
}
public static <V> Filter<V> lessThan(Getter<V> getter, V val) {
return create(getter, Operator.LT, val);
}
public static <V> Filter<V> greaterThanOrEqual(Getter<V> getter, V val) {
return create(getter, Operator.GTE, val);
}
public static <V> Filter<V> greaterThanOrEqual(Getter<V> getter, V val) {
return create(getter, Operator.GTE, val);
}
public static <V> Filter<V> lessThanOrEqual(Getter<V> getter, V val) {
return create(getter, Operator.LTE, val);
}
public static <V> Filter<V> lessThanOrEqual(Getter<V> getter, V val) {
return create(getter, Operator.LTE, val);
}
public static <V> Filter<V> create(Getter<V> getter, Postulate<V> postulate) {
Objects.requireNonNull(getter, "empty getter");
Objects.requireNonNull(postulate, "empty operator");
public static <V> Filter<V> create(Getter<V> getter, Postulate<V> postulate) {
Objects.requireNonNull(getter, "empty getter");
Objects.requireNonNull(postulate, "empty operator");
HelenusPropertyNode node = MappingUtil.resolveMappingProperty(getter);
HelenusPropertyNode node = MappingUtil.resolveMappingProperty(getter);
return new Filter<V>(node, postulate);
}
return new Filter<V>(node, postulate);
}
public static <V> Filter<V> create(Getter<V> getter, Operator op, V val) {
Objects.requireNonNull(getter, "empty getter");
Objects.requireNonNull(op, "empty op");
Objects.requireNonNull(val, "empty value");
public static <V> Filter<V> create(Getter<V> getter, Operator op, V val) {
Objects.requireNonNull(getter, "empty getter");
Objects.requireNonNull(op, "empty op");
Objects.requireNonNull(val, "empty value");
if (op == Operator.IN) {
throw new IllegalArgumentException("invalid usage of the 'in' operator, use Filter.in() static method");
}
if (op == Operator.IN) {
throw new IllegalArgumentException(
"invalid usage of the 'in' operator, use Filter.in() static method");
}
HelenusPropertyNode node = MappingUtil.resolveMappingProperty(getter);
HelenusPropertyNode node = MappingUtil.resolveMappingProperty(getter);
Postulate<V> postulate = Postulate.of(op, val);
Postulate<V> postulate = Postulate.of(op, val);
return new Filter<V>(node, postulate);
}
return new Filter<V>(node, postulate);
}
public HelenusPropertyNode getNode() {
return node;
}
public HelenusPropertyNode getNode() {
return node;
}
public Clause getClause(ColumnValuePreparer valuePreparer) {
return postulate.getClause(node, valuePreparer);
}
public Clause getClause(ColumnValuePreparer valuePreparer) {
return postulate.getClause(node, valuePreparer);
}
public V[] postulateValues() {
return postulate.values();
}
public V[] postulateValues() {
return postulate.values();
}
@Override
public String toString() {
return node.getColumnName() + postulate.toString();
}
@Override
public String toString() {
return node.getColumnName() + postulate.toString();
}
}

2
src/main/java/net/helenus/core/Getter.java
View file

@ -17,5 +17,5 @@ package net.helenus.core;
public interface Getter<V> {
V get();
V get();
}

245
src/main/java/net/helenus/core/Helenus.java
View file

@ -15,17 +15,15 @@
*/
package net.helenus.core;
import com.datastax.driver.core.Cluster;
import com.datastax.driver.core.Metadata;
import com.datastax.driver.core.Session;
import java.util.HashSet;
import java.util.Map;
import java.util.Optional;
import java.util.Set;
import java.util.concurrent.ConcurrentHashMap;
import java.util.concurrent.ConcurrentMap;
import com.datastax.driver.core.Cluster;
import com.datastax.driver.core.Metadata;
import com.datastax.driver.core.Session;
import net.helenus.config.DefaultHelenusSettings;
import net.helenus.config.HelenusSettings;
import net.helenus.core.reflect.DslExportable;
@ -35,161 +33,166 @@ import net.helenus.support.HelenusMappingException;
public final class Helenus {
private static final ConcurrentMap<Class<?>, Object> dslCache = new ConcurrentHashMap<Class<?>, Object>();
private static final ConcurrentMap<Class<?>, Metadata> metadataForEntity = new ConcurrentHashMap<Class<?>, Metadata>();
private static final Set<HelenusSession> sessions = new HashSet<HelenusSession>();
private static volatile HelenusSettings settings = new DefaultHelenusSettings();
private static volatile HelenusSession singleton;
private static final ConcurrentMap<Class<?>, Object> dslCache =
new ConcurrentHashMap<Class<?>, Object>();
private static final ConcurrentMap<Class<?>, Metadata> metadataForEntity =
new ConcurrentHashMap<Class<?>, Metadata>();
private static final Set<HelenusSession> sessions = new HashSet<HelenusSession>();
private static volatile HelenusSettings settings = new DefaultHelenusSettings();
private static volatile HelenusSession singleton;
private Helenus() {
}
private Helenus() {}
protected static void setSession(HelenusSession session) {
sessions.add(session);
singleton = session;
}
protected static void setSession(HelenusSession session) {
sessions.add(session);
singleton = session;
}
public static HelenusSession session() {
return singleton;
}
public static HelenusSession session() {
return singleton;
}
public static void shutdown() {
sessions.forEach((session) -> {
session.close();
sessions.remove(session);
});
dslCache.clear();
}
public static void shutdown() {
sessions.forEach(
(session) -> {
session.close();
sessions.remove(session);
});
dslCache.clear();
}
public static HelenusSettings settings() {
return settings;
}
public static HelenusSettings settings() {
return settings;
}
public static HelenusSettings settings(HelenusSettings overrideSettings) {
HelenusSettings old = settings;
settings = overrideSettings;
return old;
}
public static HelenusSettings settings(HelenusSettings overrideSettings) {
HelenusSettings old = settings;
settings = overrideSettings;
return old;
}
public static SessionInitializer connect(Cluster cluster) {
Session session = cluster.connect();
return new SessionInitializer(session);
}
public static SessionInitializer connect(Cluster cluster) {
Session session = cluster.connect();
return new SessionInitializer(session);
}
public static SessionInitializer connect(Cluster cluster, String keyspace) {
Session session = cluster.connect(keyspace);
return new SessionInitializer(session);
}
public static SessionInitializer connect(Cluster cluster, String keyspace) {
Session session = cluster.connect(keyspace);
return new SessionInitializer(session);
}
public static SessionInitializer init(Session session) {
public static SessionInitializer init(Session session) {
if (session == null) {
throw new IllegalArgumentException("empty session");
}
if (session == null) {
throw new IllegalArgumentException("empty session");
}
return new SessionInitializer(session);
}
return new SessionInitializer(session);
}
public static void clearDslCache() {
dslCache.clear();
}
public static void clearDslCache() {
dslCache.clear();
}
public static <E> E dsl(Class<E> iface) {
return dsl(iface, null);
}
public static <E> E dsl(Class<E> iface) {
return dsl(iface, null);
}
public static <E> E dsl(Class<E> iface, Metadata metadata) {
return dsl(iface, iface.getClassLoader(), Optional.empty(), metadata);
}
public static <E> E dsl(Class<E> iface, Metadata metadata) {
return dsl(iface, iface.getClassLoader(), Optional.empty(), metadata);
}
public static <E> E dsl(Class<E> iface, ClassLoader classLoader, Metadata metadata) {
return dsl(iface, classLoader, Optional.empty(), metadata);
}
public static <E> E dsl(Class<E> iface, ClassLoader classLoader, Metadata metadata) {
return dsl(iface, classLoader, Optional.empty(), metadata);
}
public static <E> E dsl(Class<E> iface, ClassLoader classLoader, Optional<HelenusPropertyNode> parent,
Metadata metadata) {
public static <E> E dsl(
Class<E> iface,
ClassLoader classLoader,
Optional<HelenusPropertyNode> parent,
Metadata metadata) {
Object instance = null;
Object instance = null;
if (!parent.isPresent()) {
instance = dslCache.get(iface);
}
if (!parent.isPresent()) {
instance = dslCache.get(iface);
}
if (instance == null) {
if (instance == null) {
instance = settings.getDslInstantiator().instantiate(iface, classLoader, parent, metadata);
instance = settings.getDslInstantiator().instantiate(iface, classLoader, parent, metadata);
if (!parent.isPresent()) {
if (!parent.isPresent()) {
Object c = dslCache.putIfAbsent(iface, instance);
if (c != null) {
instance = c;
}
}
}
Object c = dslCache.putIfAbsent(iface, instance);
if (c != null) {
instance = c;
}
}
}
return (E) instance;
}
return (E) instance;
}
public static <E> E map(Class<E> iface, Map<String, Object> src) {
return map(iface, src, iface.getClassLoader());
}
public static <E> E map(Class<E> iface, Map<String, Object> src) {
return map(iface, src, iface.getClassLoader());
}
public static <E> E map(Class<E> iface, Map<String, Object> src, ClassLoader classLoader) {
return settings.getMapperInstantiator().instantiate(iface, src, classLoader);
}
public static <E> E map(Class<E> iface, Map<String, Object> src, ClassLoader classLoader) {
return settings.getMapperInstantiator().instantiate(iface, src, classLoader);
}
public static HelenusEntity entity(Class<?> iface) {
Metadata metadata = metadataForEntity.get(iface);
if (metadata == null) {
HelenusSession session = session();
if (session != null) {
metadata = session.getMetadata();
}
}
return entity(iface, metadata);
}
public static HelenusEntity entity(Class<?> iface) {
Metadata metadata = metadataForEntity.get(iface);
if (metadata == null) {
HelenusSession session = session();
if (session != null) {
metadata = session.getMetadata();
}
}
return entity(iface, metadata);
}
public static HelenusEntity entity(Class<?> iface, Metadata metadata) {
public static HelenusEntity entity(Class<?> iface, Metadata metadata) {
Object dsl = dsl(iface, metadata);
Object dsl = dsl(iface, metadata);
DslExportable e = (DslExportable) dsl;
DslExportable e = (DslExportable) dsl;
return e.getHelenusMappingEntity();
}
return e.getHelenusMappingEntity();
}
public static HelenusEntity resolve(Object ifaceOrDsl) {
return resolve(ifaceOrDsl, metadataForEntity.get(ifaceOrDsl));
}
public static HelenusEntity resolve(Object ifaceOrDsl) {
return resolve(ifaceOrDsl, metadataForEntity.get(ifaceOrDsl));
}
public static HelenusEntity resolve(Object ifaceOrDsl, Metadata metadata) {
public static HelenusEntity resolve(Object ifaceOrDsl, Metadata metadata) {
if (ifaceOrDsl == null) {
throw new HelenusMappingException("ifaceOrDsl is null");
}
if (ifaceOrDsl == null) {
throw new HelenusMappingException("ifaceOrDsl is null");
}
if (ifaceOrDsl instanceof DslExportable) {
if (ifaceOrDsl instanceof DslExportable) {
DslExportable e = (DslExportable) ifaceOrDsl;
DslExportable e = (DslExportable) ifaceOrDsl;
return e.getHelenusMappingEntity();
}
return e.getHelenusMappingEntity();
}
if (ifaceOrDsl instanceof Class) {
if (ifaceOrDsl instanceof Class) {
Class<?> iface = (Class<?>) ifaceOrDsl;
Class<?> iface = (Class<?>) ifaceOrDsl;
if (!iface.isInterface()) {
throw new HelenusMappingException("class is not an interface " + iface);
}
if (!iface.isInterface()) {
throw new HelenusMappingException("class is not an interface " + iface);
}
if (metadata != null) {
metadataForEntity.putIfAbsent(iface, metadata);
}
return entity(iface, metadata);
}
if (metadata != null) {
metadataForEntity.putIfAbsent(iface, metadata);
}
return entity(iface, metadata);
}
throw new HelenusMappingException("unknown dsl object or mapping interface " + ifaceOrDsl);
}
throw new HelenusMappingException("unknown dsl object or mapping interface " + ifaceOrDsl);
}
}

1429
src/main/java/net/helenus/core/HelenusSession.java
View file

File diff suppressed because it is too large Load diff

33
src/main/java/net/helenus/core/HelenusValidator.java
View file

@ -16,33 +16,32 @@
package net.helenus.core;
import java.lang.annotation.Annotation;
import javax.validation.ConstraintValidator;
import net.helenus.mapping.HelenusProperty;
import net.helenus.support.HelenusException;
import net.helenus.support.HelenusMappingException;
public enum HelenusValidator implements PropertyValueValidator {
INSTANCE;
INSTANCE;
public void validate(HelenusProperty prop, Object value) {
public void validate(HelenusProperty prop, Object value) {
for (ConstraintValidator<? extends Annotation, ?> validator : prop.getValidators()) {
for (ConstraintValidator<? extends Annotation, ?> validator : prop.getValidators()) {
ConstraintValidator typeless = (ConstraintValidator) validator;
ConstraintValidator typeless = (ConstraintValidator) validator;
boolean valid = false;
boolean valid = false;
try {
valid = typeless.isValid(value, null);
} catch (ClassCastException e) {
throw new HelenusMappingException("validator was used for wrong type '" + value + "' in " + prop, e);
}
try {
valid = typeless.isValid(value, null);
} catch (ClassCastException e) {
throw new HelenusMappingException(
"validator was used for wrong type '" + value + "' in " + prop, e);
}
if (!valid) {
throw new HelenusException("wrong value '" + value + "' for " + prop);
}
}
}
if (!valid) {
throw new HelenusException("wrong value '" + value + "' for " + prop);
}
}
}
}

2
src/main/java/net/helenus/core/MapperInstantiator.java
View file

@ -19,5 +19,5 @@ import java.util.Map;
public interface MapperInstantiator {
<E> E instantiate(Class<E> iface, Map<String, Object> src, ClassLoader classLoader);
<E> E instantiate(Class<E> iface, Map<String, Object> src, ClassLoader classLoader);
}

304
src/main/java/net/helenus/core/Mappers.java
View file

@ -15,10 +15,8 @@
*/
package net.helenus.core;
import java.util.function.Function;
import com.datastax.driver.core.Row;
import java.util.function.Function;
import net.helenus.core.reflect.HelenusPropertyNode;
import net.helenus.mapping.HelenusProperty;
import net.helenus.mapping.value.ColumnValueProvider;
@ -26,161 +24,203 @@ import net.helenus.support.Fun;
public final class Mappers {
private Mappers() {
}
private Mappers() {}
public static final class Mapper1<A> implements Function<Row, Fun.Tuple1<A>> {
public static final class Mapper1<A> implements Function<Row, Fun.Tuple1<A>> {
private final ColumnValueProvider provider;
private final HelenusProperty p1;
private final ColumnValueProvider provider;
private final HelenusProperty p1;
public Mapper1(ColumnValueProvider provider, HelenusPropertyNode p1) {
this.provider = provider;
this.p1 = p1.getProperty();
}
public Mapper1(ColumnValueProvider provider, HelenusPropertyNode p1) {
this.provider = provider;
this.p1 = p1.getProperty();
}
@Override
public Fun.Tuple1<A> apply(Row row) {
return new Fun.Tuple1<A>(provider.getColumnValue(row, 0, p1));
}
}
@Override
public Fun.Tuple1<A> apply(Row row) {
return new Fun.Tuple1<A>(provider.getColumnValue(row, 0, p1));
}
}
public static final class Mapper2<A, B> implements Function<Row, Fun.Tuple2<A, B>> {
public static final class Mapper2<A, B> implements Function<Row, Fun.Tuple2<A, B>> {
private final ColumnValueProvider provider;
private final HelenusProperty p1;
private final HelenusProperty p2;
private final ColumnValueProvider provider;
private final HelenusProperty p1;
private final HelenusProperty p2;
public Mapper2(ColumnValueProvider provider, HelenusPropertyNode p1, HelenusPropertyNode p2) {
this.provider = provider;
this.p1 = p1.getProperty();
this.p2 = p2.getProperty();
}
public Mapper2(ColumnValueProvider provider, HelenusPropertyNode p1, HelenusPropertyNode p2) {
this.provider = provider;
this.p1 = p1.getProperty();
this.p2 = p2.getProperty();
}
@Override
public Fun.Tuple2<A, B> apply(Row row) {
return new Fun.Tuple2<A, B>(provider.getColumnValue(row, 0, p1), provider.getColumnValue(row, 1, p2));
}
}
@Override
public Fun.Tuple2<A, B> apply(Row row) {
return new Fun.Tuple2<A, B>(
provider.getColumnValue(row, 0, p1), provider.getColumnValue(row, 1, p2));
}
}
public static final class Mapper3<A, B, C> implements Function<Row, Fun.Tuple3<A, B, C>> {
public static final class Mapper3<A, B, C> implements Function<Row, Fun.Tuple3<A, B, C>> {
private final ColumnValueProvider provider;
private final HelenusProperty p1;
private final HelenusProperty p2;
private final HelenusProperty p3;
private final ColumnValueProvider provider;
private final HelenusProperty p1;
private final HelenusProperty p2;
private final HelenusProperty p3;
public Mapper3(ColumnValueProvider provider, HelenusPropertyNode p1, HelenusPropertyNode p2,
HelenusPropertyNode p3) {
this.provider = provider;
this.p1 = p1.getProperty();
this.p2 = p2.getProperty();
this.p3 = p3.getProperty();
}
public Mapper3(
ColumnValueProvider provider,
HelenusPropertyNode p1,
HelenusPropertyNode p2,
HelenusPropertyNode p3) {
this.provider = provider;
this.p1 = p1.getProperty();
this.p2 = p2.getProperty();
this.p3 = p3.getProperty();
}
@Override
public Fun.Tuple3<A, B, C> apply(Row row) {
return new Fun.Tuple3<A, B, C>(provider.getColumnValue(row, 0, p1), provider.getColumnValue(row, 1, p2),
provider.getColumnValue(row, 2, p3));
}
}
@Override
public Fun.Tuple3<A, B, C> apply(Row row) {
return new Fun.Tuple3<A, B, C>(
provider.getColumnValue(row, 0, p1),
provider.getColumnValue(row, 1, p2),
provider.getColumnValue(row, 2, p3));
}
}
public static final class Mapper4<A, B, C, D> implements Function<Row, Fun.Tuple4<A, B, C, D>> {
public static final class Mapper4<A, B, C, D> implements Function<Row, Fun.Tuple4<A, B, C, D>> {
private final ColumnValueProvider provider;
private final HelenusProperty p1;
private final HelenusProperty p2;
private final HelenusProperty p3;
private final HelenusProperty p4;
private final ColumnValueProvider provider;
private final HelenusProperty p1;
private final HelenusProperty p2;
private final HelenusProperty p3;
private final HelenusProperty p4;
public Mapper4(ColumnValueProvider provider, HelenusPropertyNode p1, HelenusPropertyNode p2,
HelenusPropertyNode p3, HelenusPropertyNode p4) {
this.provider = provider;
this.p1 = p1.getProperty();
this.p2 = p2.getProperty();
this.p3 = p3.getProperty();
this.p4 = p4.getProperty();
}
public Mapper4(
ColumnValueProvider provider,
HelenusPropertyNode p1,
HelenusPropertyNode p2,
HelenusPropertyNode p3,
HelenusPropertyNode p4) {
this.provider = provider;
this.p1 = p1.getProperty();
this.p2 = p2.getProperty();
this.p3 = p3.getProperty();
this.p4 = p4.getProperty();
}
@Override
public Fun.Tuple4<A, B, C, D> apply(Row row) {
return new Fun.Tuple4<A, B, C, D>(provider.getColumnValue(row, 0, p1), provider.getColumnValue(row, 1, p2),
provider.getColumnValue(row, 2, p3), provider.getColumnValue(row, 3, p4));
}
}
@Override
public Fun.Tuple4<A, B, C, D> apply(Row row) {
return new Fun.Tuple4<A, B, C, D>(
provider.getColumnValue(row, 0, p1),
provider.getColumnValue(row, 1, p2),
provider.getColumnValue(row, 2, p3),
provider.getColumnValue(row, 3, p4));
}
}
public static final class Mapper5<A, B, C, D, E> implements Function<Row, Fun.Tuple5<A, B, C, D, E>> {
public static final class Mapper5<A, B, C, D, E>
implements Function<Row, Fun.Tuple5<A, B, C, D, E>> {
private final ColumnValueProvider provider;
private final HelenusProperty p1, p2, p3, p4, p5;
private final ColumnValueProvider provider;
private final HelenusProperty p1, p2, p3, p4, p5;
public Mapper5(ColumnValueProvider provider, HelenusPropertyNode p1, HelenusPropertyNode p2,
HelenusPropertyNode p3, HelenusPropertyNode p4, HelenusPropertyNode p5) {
this.provider = provider;
this.p1 = p1.getProperty();
this.p2 = p2.getProperty();
this.p3 = p3.getProperty();
this.p4 = p4.getProperty();
this.p5 = p5.getProperty();
}
public Mapper5(
ColumnValueProvider provider,
HelenusPropertyNode p1,
HelenusPropertyNode p2,
HelenusPropertyNode p3,
HelenusPropertyNode p4,
HelenusPropertyNode p5) {
this.provider = provider;
this.p1 = p1.getProperty();
this.p2 = p2.getProperty();
this.p3 = p3.getProperty();
this.p4 = p4.getProperty();
this.p5 = p5.getProperty();
}
@Override
public Fun.Tuple5<A, B, C, D, E> apply(Row row) {
return new Fun.Tuple5<A, B, C, D, E>(provider.getColumnValue(row, 0, p1),
provider.getColumnValue(row, 1, p2), provider.getColumnValue(row, 2, p3),
provider.getColumnValue(row, 3, p4), provider.getColumnValue(row, 4, p5));
}
}
@Override
public Fun.Tuple5<A, B, C, D, E> apply(Row row) {
return new Fun.Tuple5<A, B, C, D, E>(
provider.getColumnValue(row, 0, p1),
provider.getColumnValue(row, 1, p2),
provider.getColumnValue(row, 2, p3),
provider.getColumnValue(row, 3, p4),
provider.getColumnValue(row, 4, p5));
}
}
public static final class Mapper6<A, B, C, D, E, F> implements Function<Row, Fun.Tuple6<A, B, C, D, E, F>> {
public static final class Mapper6<A, B, C, D, E, F>
implements Function<Row, Fun.Tuple6<A, B, C, D, E, F>> {
private final ColumnValueProvider provider;
private final HelenusProperty p1, p2, p3, p4, p5, p6;
private final ColumnValueProvider provider;
private final HelenusProperty p1, p2, p3, p4, p5, p6;
public Mapper6(ColumnValueProvider provider, HelenusPropertyNode p1, HelenusPropertyNode p2,
HelenusPropertyNode p3, HelenusPropertyNode p4, HelenusPropertyNode p5, HelenusPropertyNode p6) {
this.provider = provider;
this.p1 = p1.getProperty();
this.p2 = p2.getProperty();
this.p3 = p3.getProperty();
this.p4 = p4.getProperty();
this.p5 = p5.getProperty();
this.p6 = p6.getProperty();
}
public Mapper6(
ColumnValueProvider provider,
HelenusPropertyNode p1,
HelenusPropertyNode p2,
HelenusPropertyNode p3,
HelenusPropertyNode p4,
HelenusPropertyNode p5,
HelenusPropertyNode p6) {
this.provider = provider;
this.p1 = p1.getProperty();
this.p2 = p2.getProperty();
this.p3 = p3.getProperty();
this.p4 = p4.getProperty();
this.p5 = p5.getProperty();
this.p6 = p6.getProperty();
}
@Override
public Fun.Tuple6<A, B, C, D, E, F> apply(Row row) {
return new Fun.Tuple6<A, B, C, D, E, F>(provider.getColumnValue(row, 0, p1),
provider.getColumnValue(row, 1, p2), provider.getColumnValue(row, 2, p3),
provider.getColumnValue(row, 3, p4), provider.getColumnValue(row, 4, p5),
provider.getColumnValue(row, 5, p6));
}
}
@Override
public Fun.Tuple6<A, B, C, D, E, F> apply(Row row) {
return new Fun.Tuple6<A, B, C, D, E, F>(
provider.getColumnValue(row, 0, p1),
provider.getColumnValue(row, 1, p2),
provider.getColumnValue(row, 2, p3),
provider.getColumnValue(row, 3, p4),
provider.getColumnValue(row, 4, p5),
provider.getColumnValue(row, 5, p6));
}
}
public static final class Mapper7<A, B, C, D, E, F, G> implements Function<Row, Fun.Tuple7<A, B, C, D, E, F, G>> {
public static final class Mapper7<A, B, C, D, E, F, G>
implements Function<Row, Fun.Tuple7<A, B, C, D, E, F, G>> {
private final ColumnValueProvider provider;
private final HelenusProperty p1, p2, p3, p4, p5, p6, p7;
private final ColumnValueProvider provider;
private final HelenusProperty p1, p2, p3, p4, p5, p6, p7;
public Mapper7(ColumnValueProvider provider, HelenusPropertyNode p1, HelenusPropertyNode p2,
HelenusPropertyNode p3, HelenusPropertyNode p4, HelenusPropertyNode p5, HelenusPropertyNode p6,
HelenusPropertyNode p7) {
this.provider = provider;
this.p1 = p1.getProperty();
this.p2 = p2.getProperty();
this.p3 = p3.getProperty();
this.p4 = p4.getProperty();
this.p5 = p5.getProperty();
this.p6 = p6.getProperty();
this.p7 = p7.getProperty();
}
public Mapper7(
ColumnValueProvider provider,
HelenusPropertyNode p1,
HelenusPropertyNode p2,
HelenusPropertyNode p3,
HelenusPropertyNode p4,
HelenusPropertyNode p5,
HelenusPropertyNode p6,
HelenusPropertyNode p7) {
this.provider = provider;
this.p1 = p1.getProperty();
this.p2 = p2.getProperty();
this.p3 = p3.getProperty();
this.p4 = p4.getProperty();
this.p5 = p5.getProperty();
this.p6 = p6.getProperty();
this.p7 = p7.getProperty();
}
@Override
public Fun.Tuple7<A, B, C, D, E, F, G> apply(Row row) {
return new Fun.Tuple7<A, B, C, D, E, F, G>(provider.getColumnValue(row, 0, p1),
provider.getColumnValue(row, 1, p2), provider.getColumnValue(row, 2, p3),
provider.getColumnValue(row, 3, p4), provider.getColumnValue(row, 4, p5),
provider.getColumnValue(row, 5, p6), provider.getColumnValue(row, 6, p7));
}
}
@Override
public Fun.Tuple7<A, B, C, D, E, F, G> apply(Row row) {
return new Fun.Tuple7<A, B, C, D, E, F, G>(
provider.getColumnValue(row, 0, p1),
provider.getColumnValue(row, 1, p2),
provider.getColumnValue(row, 2, p3),
provider.getColumnValue(row, 3, p4),
provider.getColumnValue(row, 4, p5),
provider.getColumnValue(row, 5, p6),
provider.getColumnValue(row, 6, p7));
}
}
}

44
src/main/java/net/helenus/core/Operator.java
View file

@ -19,37 +19,37 @@ import java.util.HashMap;
import java.util.Map;
public enum Operator {
EQ("=="),
EQ("=="),
IN("in"),
IN("in"),
GT(">"),
GT(">"),
LT("<"),
LT("<"),
GTE(">="),
GTE(">="),
LTE("<=");
LTE("<=");
private static final Map<String, Operator> indexByName = new HashMap<String, Operator>();
private static final Map<String, Operator> indexByName = new HashMap<String, Operator>();
static {
for (Operator fo : Operator.values()) {
indexByName.put(fo.getName(), fo);
}
}
static {
for (Operator fo : Operator.values()) {
indexByName.put(fo.getName(), fo);
}
}
private final String name;
private final String name;
private Operator(String name) {
this.name = name;
}
private Operator(String name) {
this.name = name;
}
public static Operator findByOperator(String name) {
return indexByName.get(name);
}
public static Operator findByOperator(String name) {
return indexByName.get(name);
}
public String getName() {
return name;
}
public String getName() {
return name;
}
}

48
src/main/java/net/helenus/core/Ordered.java
View file

@ -1,10 +1,8 @@
package net.helenus.core;
import java.util.Objects;
import com.datastax.driver.core.querybuilder.Ordering;
import com.datastax.driver.core.querybuilder.QueryBuilder;
import java.util.Objects;
import net.helenus.core.reflect.HelenusPropertyNode;
import net.helenus.mapping.ColumnType;
import net.helenus.mapping.MappingUtil;
@ -13,34 +11,34 @@ import net.helenus.support.HelenusMappingException;
public final class Ordered {
private final Getter<?> getter;
private final OrderingDirection direction;
private final Getter<?> getter;
private final OrderingDirection direction;
public Ordered(Getter<?> getter, OrderingDirection direction) {
this.getter = getter;
this.direction = direction;
}
public Ordered(Getter<?> getter, OrderingDirection direction) {
this.getter = getter;
this.direction = direction;
}
public Ordering getOrdering() {
public Ordering getOrdering() {
Objects.requireNonNull(getter, "property is null");
Objects.requireNonNull(direction, "direction is null");
Objects.requireNonNull(getter, "property is null");
Objects.requireNonNull(direction, "direction is null");
HelenusPropertyNode propNode = MappingUtil.resolveMappingProperty(getter);
HelenusPropertyNode propNode = MappingUtil.resolveMappingProperty(getter);
if (propNode.getProperty().getColumnType() != ColumnType.CLUSTERING_COLUMN) {
throw new HelenusMappingException(
"property must be a clustering column " + propNode.getProperty().getPropertyName());
}
if (propNode.getProperty().getColumnType() != ColumnType.CLUSTERING_COLUMN) {
throw new HelenusMappingException(
"property must be a clustering column " + propNode.getProperty().getPropertyName());
}
switch (direction) {
case ASC :
return QueryBuilder.asc(propNode.getColumnName());
switch (direction) {
case ASC:
return QueryBuilder.asc(propNode.getColumnName());
case DESC :
return QueryBuilder.desc(propNode.getColumnName());
}
case DESC:
return QueryBuilder.desc(propNode.getColumnName());
}
throw new HelenusMappingException("invalid direction " + direction);
}
throw new HelenusMappingException("invalid direction " + direction);
}
}

36
src/main/java/net/helenus/core/PostCommitFunction.java
View file

@ -5,25 +5,25 @@ import java.util.Objects;
public class PostCommitFunction<T, R> implements java.util.function.Function<T, R> {
private final UnitOfWork uow;
private final List<CommitThunk> postCommit;
private final UnitOfWork uow;
private final List<CommitThunk> postCommit;
PostCommitFunction(UnitOfWork uow, List<CommitThunk> postCommit) {
this.uow = uow;
this.postCommit = postCommit;
}
PostCommitFunction(UnitOfWork uow, List<CommitThunk> postCommit) {
this.uow = uow;
this.postCommit = postCommit;
}
public void andThen(CommitThunk after) {
Objects.requireNonNull(after);
if (postCommit == null) {
after.apply();
} else {
postCommit.add(after);
}
}
public void andThen(CommitThunk after) {
Objects.requireNonNull(after);
if (postCommit == null) {
after.apply();
} else {
postCommit.add(after);
}
}
@Override
public R apply(T t) {
return null;
}
@Override
public R apply(T t) {
return null;
}
}

117
src/main/java/net/helenus/core/Postulate.java
View file

@ -17,85 +17,84 @@ package net.helenus.core;
import com.datastax.driver.core.querybuilder.Clause;
import com.datastax.driver.core.querybuilder.QueryBuilder;
import net.helenus.core.reflect.HelenusPropertyNode;
import net.helenus.mapping.value.ColumnValuePreparer;
import net.helenus.support.HelenusMappingException;
public final class Postulate<V> {
private final Operator operator;
private final V[] values;
private final Operator operator;
private final V[] values;
protected Postulate(Operator op, V[] values) {
this.operator = op;
this.values = values;
}
protected Postulate(Operator op, V[] values) {
this.operator = op;
this.values = values;
}
public static <V> Postulate<V> of(Operator op, V... values) {
return new Postulate<V>(op, values);
}
public static <V> Postulate<V> of(Operator op, V... values) {
return new Postulate<V>(op, values);
}
public Clause getClause(HelenusPropertyNode node, ColumnValuePreparer valuePreparer) {
public Clause getClause(HelenusPropertyNode node, ColumnValuePreparer valuePreparer) {
switch (operator) {
case EQ :
return QueryBuilder.eq(node.getColumnName(),
valuePreparer.prepareColumnValue(values[0], node.getProperty()));
switch (operator) {
case EQ:
return QueryBuilder.eq(
node.getColumnName(), valuePreparer.prepareColumnValue(values[0], node.getProperty()));
case IN :
Object[] preparedValues = new Object[values.length];
for (int i = 0; i != values.length; ++i) {
preparedValues[i] = valuePreparer.prepareColumnValue(values[i], node.getProperty());
}
return QueryBuilder.in(node.getColumnName(), preparedValues);
case IN:
Object[] preparedValues = new Object[values.length];
for (int i = 0; i != values.length; ++i) {
preparedValues[i] = valuePreparer.prepareColumnValue(values[i], node.getProperty());
}
return QueryBuilder.in(node.getColumnName(), preparedValues);
case LT :
return QueryBuilder.lt(node.getColumnName(),
valuePreparer.prepareColumnValue(values[0], node.getProperty()));
case LT:
return QueryBuilder.lt(
node.getColumnName(), valuePreparer.prepareColumnValue(values[0], node.getProperty()));
case LTE :
return QueryBuilder.lte(node.getColumnName(),
valuePreparer.prepareColumnValue(values[0], node.getProperty()));
case LTE:
return QueryBuilder.lte(
node.getColumnName(), valuePreparer.prepareColumnValue(values[0], node.getProperty()));
case GT :
return QueryBuilder.gt(node.getColumnName(),
valuePreparer.prepareColumnValue(values[0], node.getProperty()));
case GT:
return QueryBuilder.gt(
node.getColumnName(), valuePreparer.prepareColumnValue(values[0], node.getProperty()));
case GTE :
return QueryBuilder.gte(node.getColumnName(),
valuePreparer.prepareColumnValue(values[0], node.getProperty()));
case GTE:
return QueryBuilder.gte(
node.getColumnName(), valuePreparer.prepareColumnValue(values[0], node.getProperty()));
default :
throw new HelenusMappingException("unknown filter operation " + operator);
}
}
default:
throw new HelenusMappingException("unknown filter operation " + operator);
}
}
public V[] values() {
return values;
}
public V[] values() {
return values;
}
@Override
public String toString() {
@Override
public String toString() {
if (operator == Operator.IN) {
if (operator == Operator.IN) {
if (values == null) {
return "in()";
}
if (values == null) {
return "in()";
}
int len = values.length;
StringBuilder b = new StringBuilder();
b.append("in(");
for (int i = 0; i != len; i++) {
if (b.length() > 3) {
b.append(", ");
}
b.append(String.valueOf(values[i]));
}
return b.append(')').toString();
}
int len = values.length;
StringBuilder b = new StringBuilder();
b.append("in(");
for (int i = 0; i != len; i++) {
if (b.length() > 3) {
b.append(", ");
}
b.append(String.valueOf(values[i]));
}
return b.append(')').toString();
}
return operator.getName() + values[0];
}
return operator.getName() + values[0];
}
}

2
src/main/java/net/helenus/core/PropertyValueValidator.java
View file

@ -19,5 +19,5 @@ import net.helenus.mapping.HelenusProperty;
public interface PropertyValueValidator {
void validate(HelenusProperty prop, Object value);
void validate(HelenusProperty prop, Object value);
}

107
src/main/java/net/helenus/core/Query.java
View file

@ -15,83 +15,80 @@
*/
package net.helenus.core;
import com.datastax.driver.core.querybuilder.BindMarker;
import com.datastax.driver.core.querybuilder.QueryBuilder;
import java.util.List;
import java.util.Map;
import java.util.Objects;
import com.datastax.driver.core.querybuilder.BindMarker;
import com.datastax.driver.core.querybuilder.QueryBuilder;
import net.helenus.mapping.OrderingDirection;
/** Sugar methods for the queries */
public final class Query {
private Query() {
}
private Query() {}
public static BindMarker marker() {
return QueryBuilder.bindMarker();
}
public static BindMarker marker() {
return QueryBuilder.bindMarker();
}
public static BindMarker marker(String name) {
return QueryBuilder.bindMarker(name);
}
public static BindMarker marker(String name) {
return QueryBuilder.bindMarker(name);
}
public static Ordered asc(Getter<?> getter) {
return new Ordered(getter, OrderingDirection.ASC);
}
public static Ordered asc(Getter<?> getter) {
return new Ordered(getter, OrderingDirection.ASC);
}
public static Ordered desc(Getter<?> getter) {
return new Ordered(getter, OrderingDirection.DESC);
}
public static Ordered desc(Getter<?> getter) {
return new Ordered(getter, OrderingDirection.DESC);
}
public static <V> Postulate<V> eq(V val) {
return Postulate.of(Operator.EQ, val);
}
public static <V> Postulate<V> eq(V val) {
return Postulate.of(Operator.EQ, val);
}
public static <V> Postulate<V> lt(V val) {
return Postulate.of(Operator.LT, val);
}
public static <V> Postulate<V> lt(V val) {
return Postulate.of(Operator.LT, val);
}
public static <V> Postulate<V> lte(V val) {
return Postulate.of(Operator.LTE, val);
}
public static <V> Postulate<V> lte(V val) {
return Postulate.of(Operator.LTE, val);
}
public static <V> Postulate<V> gt(V val) {
return Postulate.of(Operator.GT, val);
}
public static <V> Postulate<V> gt(V val) {
return Postulate.of(Operator.GT, val);
}
public static <V> Postulate<V> gte(V val) {
return Postulate.of(Operator.GTE, val);
}
public static <V> Postulate<V> gte(V val) {
return Postulate.of(Operator.GTE, val);
}
public static <V> Postulate<V> in(V[] vals) {
return new Postulate<V>(Operator.IN, vals);
}
public static <V> Postulate<V> in(V[] vals) {
return new Postulate<V>(Operator.IN, vals);
}
public static <K, V> Getter<V> getIdx(Getter<List<V>> listGetter, int index) {
Objects.requireNonNull(listGetter, "listGetter is null");
public static <K, V> Getter<V> getIdx(Getter<List<V>> listGetter, int index) {
Objects.requireNonNull(listGetter, "listGetter is null");
return new Getter<V>() {
return new Getter<V>() {
@Override
public V get() {
return listGetter.get().get(index);
}
};
}
@Override
public V get() {
return listGetter.get().get(index);
}
};
}
public static <K, V> Getter<V> get(Getter<Map<K, V>> mapGetter, K k) {
Objects.requireNonNull(mapGetter, "mapGetter is null");
Objects.requireNonNull(k, "key is null");
public static <K, V> Getter<V> get(Getter<Map<K, V>> mapGetter, K k) {
Objects.requireNonNull(mapGetter, "mapGetter is null");
Objects.requireNonNull(k, "key is null");
return new Getter<V>() {
return new Getter<V>() {
@Override
public V get() {
return mapGetter.get().get(k);
}
};
}
@Override
public V get() {
return mapGetter.get().get(k);
}
};
}
}

798
src/main/java/net/helenus/core/SchemaUtil.java
View file

@ -15,16 +15,14 @@
*/
package net.helenus.core;
import java.util.*;
import java.util.stream.Collectors;
import com.datastax.driver.core.*;
import com.datastax.driver.core.querybuilder.IsNotNullClause;
import com.datastax.driver.core.querybuilder.QueryBuilder;
import com.datastax.driver.core.querybuilder.Select;
import com.datastax.driver.core.schemabuilder.*;
import com.datastax.driver.core.schemabuilder.Create.Options;
import java.util.*;
import java.util.stream.Collectors;
import net.helenus.core.reflect.HelenusPropertyNode;
import net.helenus.mapping.*;
import net.helenus.mapping.ColumnType;
@ -35,388 +33,428 @@ import net.helenus.support.HelenusMappingException;
public final class SchemaUtil {
private SchemaUtil() {
}
private SchemaUtil() {}
public static RegularStatement use(String keyspace, boolean forceQuote) {
if (forceQuote) {
return new SimpleStatement("USE" + CqlUtil.forceQuote(keyspace));
} else {
return new SimpleStatement("USE " + keyspace);
}
}
public static RegularStatement use(String keyspace, boolean forceQuote) {
if (forceQuote) {
return new SimpleStatement("USE" + CqlUtil.forceQuote(keyspace));
} else {
return new SimpleStatement("USE " + keyspace);
}
}
public static SchemaStatement createUserType(HelenusEntity entity) {
public static SchemaStatement createUserType(HelenusEntity entity) {
if (entity.getType() != HelenusEntityType.UDT) {
throw new HelenusMappingException("expected UDT entity " + entity);
}
if (entity.getType() != HelenusEntityType.UDT) {
throw new HelenusMappingException("expected UDT entity " + entity);
}
CreateType create = SchemaBuilder.createType(entity.getName().toCql());
CreateType create = SchemaBuilder.createType(entity.getName().toCql());
for (HelenusProperty prop : entity.getOrderedProperties()) {
for (HelenusProperty prop : entity.getOrderedProperties()) {
ColumnType columnType = prop.getColumnType();
ColumnType columnType = prop.getColumnType();
if (columnType == ColumnType.PARTITION_KEY || columnType == ColumnType.CLUSTERING_COLUMN) {
throw new HelenusMappingException("primary key columns are not supported in UserDefinedType for "
+ prop.getPropertyName() + " in entity " + entity);
}
if (columnType == ColumnType.PARTITION_KEY || columnType == ColumnType.CLUSTERING_COLUMN) {
throw new HelenusMappingException(
"primary key columns are not supported in UserDefinedType for "
+ prop.getPropertyName()
+ " in entity "
+ entity);
}
try {
prop.getDataType().addColumn(create, prop.getColumnName());
} catch (IllegalArgumentException e) {
throw new HelenusMappingException(
"invalid column name '"
+ prop.getColumnName()
+ "' in entity '"
+ entity.getName().getName()
+ "'",
e);
}
}
return create;
}
public static List<SchemaStatement> alterUserType(
UserType userType, HelenusEntity entity, boolean dropUnusedColumns) {
if (entity.getType() != HelenusEntityType.UDT) {
throw new HelenusMappingException("expected UDT entity " + entity);
}
List<SchemaStatement> result = new ArrayList<SchemaStatement>();
/**
* TODO: In future replace SchemaBuilder.alterTable by SchemaBuilder.alterType when it will
* exist
*/
Alter alter = SchemaBuilder.alterTable(entity.getName().toCql());
final Set<String> visitedColumns =
dropUnusedColumns ? new HashSet<String>() : Collections.<String>emptySet();
for (HelenusProperty prop : entity.getOrderedProperties()) {
String columnName = prop.getColumnName().getName();
if (dropUnusedColumns) {
visitedColumns.add(columnName);
}
ColumnType columnType = prop.getColumnType();
if (columnType == ColumnType.PARTITION_KEY || columnType == ColumnType.CLUSTERING_COLUMN) {
continue;
}
DataType dataType = userType.getFieldType(columnName);
SchemaStatement stmt =
prop.getDataType()
.alterColumn(alter, prop.getColumnName(), optional(columnName, dataType));
if (stmt != null) {
result.add(stmt);
}
}
if (dropUnusedColumns) {
for (String field : userType.getFieldNames()) {
if (!visitedColumns.contains(field)) {
result.add(alter.dropColumn(field));
}
}
}
return result;
}
public static SchemaStatement dropUserType(HelenusEntity entity) {
if (entity.getType() != HelenusEntityType.UDT) {
throw new HelenusMappingException("expected UDT entity " + entity);
}
return SchemaBuilder.dropType(entity.getName().toCql()).ifExists();
}
public static SchemaStatement dropUserType(UserType type) {
return SchemaBuilder.dropType(type.getTypeName()).ifExists();
}
public static String createPrimaryKeyPhrase(Collection<HelenusProperty> properties) {
List<String> p = new ArrayList<String>(properties.size());
List<String> c = new ArrayList<String>(properties.size());
for (HelenusProperty prop : properties) {
String columnName = prop.getColumnName().toCql();
switch (prop.getColumnType()) {
case PARTITION_KEY:
p.add(columnName);
break;
case CLUSTERING_COLUMN:
c.add(columnName);
break;
default:
break;
}
}
return "("
+ ((p.size() > 1) ? "(" + String.join(", ", p) + ")" : p.get(0))
+ ((c.size() > 0)
? ", " + ((c.size() > 1) ? "(" + String.join(", ", c) + ")" : c.get(0))
: "")
+ ")";
}
public static SchemaStatement createMaterializedView(
String keyspace, String viewName, HelenusEntity entity) {
if (entity.getType() != HelenusEntityType.VIEW) {
throw new HelenusMappingException("expected view entity " + entity);
}
List<HelenusPropertyNode> props = new ArrayList<HelenusPropertyNode>();
entity
.getOrderedProperties()
.stream()
.map(p -> new HelenusPropertyNode(p, Optional.empty()))
.forEach(p -> props.add(p));
Select.Selection selection = QueryBuilder.select();
for (HelenusPropertyNode prop : props) {
String columnName = prop.getColumnName();
selection = selection.column(columnName);
}
Class<?> iface = entity.getMappingInterface();
String tableName = Helenus.entity(iface.getInterfaces()[0]).getName().toCql();
Select.Where where = selection.from(tableName).where();
List<String> o = new ArrayList<String>(props.size());
try {
prop.getDataType().addColumn(create, prop.getColumnName());
} catch (IllegalArgumentException e) {
throw new HelenusMappingException("invalid column name '" + prop.getColumnName() + "' in entity '"
+ entity.getName().getName() + "'", e);
}
}
return create;
}
public static List<SchemaStatement> alterUserType(UserType userType, HelenusEntity entity,
boolean dropUnusedColumns) {
if (entity.getType() != HelenusEntityType.UDT) {
throw new HelenusMappingException("expected UDT entity " + entity);
}
List<SchemaStatement> result = new ArrayList<SchemaStatement>();
/**
* TODO: In future replace SchemaBuilder.alterTable by SchemaBuilder.alterType
* when it will exist
*/
Alter alter = SchemaBuilder.alterTable(entity.getName().toCql());
final Set<String> visitedColumns = dropUnusedColumns ? new HashSet<String>() : Collections.<String>emptySet();
for (HelenusProperty prop : entity.getOrderedProperties()) {
String columnName = prop.getColumnName().getName();
if (dropUnusedColumns) {
visitedColumns.add(columnName);
}
ColumnType columnType = prop.getColumnType();
if (columnType == ColumnType.PARTITION_KEY || columnType == ColumnType.CLUSTERING_COLUMN) {
continue;
}
DataType dataType = userType.getFieldType(columnName);
SchemaStatement stmt = prop.getDataType().alterColumn(alter, prop.getColumnName(),
optional(columnName, dataType));
if (stmt != null) {
result.add(stmt);
}
}
if (dropUnusedColumns) {
for (String field : userType.getFieldNames()) {
if (!visitedColumns.contains(field)) {
result.add(alter.dropColumn(field));
}
}
}
return result;
}
public static SchemaStatement dropUserType(HelenusEntity entity) {
if (entity.getType() != HelenusEntityType.UDT) {
throw new HelenusMappingException("expected UDT entity " + entity);
}
return SchemaBuilder.dropType(entity.getName().toCql()).ifExists();
}
public static SchemaStatement dropUserType(UserType type) {
return SchemaBuilder.dropType(type.getTypeName()).ifExists();
}
public static String createPrimaryKeyPhrase(Collection<HelenusProperty> properties) {
List<String> p = new ArrayList<String>(properties.size());
List<String> c = new ArrayList<String>(properties.size());
for (HelenusProperty prop : properties) {
String columnName = prop.getColumnName().toCql();
switch (prop.getColumnType()) {
case PARTITION_KEY :
p.add(columnName);
break;
case CLUSTERING_COLUMN :
c.add(columnName);
break;
default :
break;
}
}
return "(" + ((p.size() > 1) ? "(" + String.join(", ", p) + ")" : p.get(0))
+ ((c.size() > 0) ? ", " + ((c.size() > 1) ? "(" + String.join(", ", c) + ")" : c.get(0)) : "") + ")";
}
public static SchemaStatement createMaterializedView(String keyspace, String viewName, HelenusEntity entity) {
if (entity.getType() != HelenusEntityType.VIEW) {
throw new HelenusMappingException("expected view entity " + entity);
}
List<HelenusPropertyNode> props = new ArrayList<HelenusPropertyNode>();
entity.getOrderedProperties().stream().map(p -> new HelenusPropertyNode(p, Optional.empty()))
.forEach(p -> props.add(p));
Select.Selection selection = QueryBuilder.select();
for (HelenusPropertyNode prop : props) {
String columnName = prop.getColumnName();
selection = selection.column(columnName);
}
Class<?> iface = entity.getMappingInterface();
String tableName = Helenus.entity(iface.getInterfaces()[0]).getName().toCql();
Select.Where where = selection.from(tableName).where();
List<String> o = new ArrayList<String>(props.size());
for (HelenusPropertyNode prop : props) {
String columnName = prop.getColumnName();
switch (prop.getProperty().getColumnType()) {
case PARTITION_KEY :
where = where.and(new IsNotNullClause(columnName));
break;
case CLUSTERING_COLUMN :
where = where.and(new IsNotNullClause(columnName));
ClusteringColumn clusteringColumn = prop.getProperty().getGetterMethod()
.getAnnotation(ClusteringColumn.class);
if (clusteringColumn != null && clusteringColumn.ordering() != null) {
o.add(columnName + " " + clusteringColumn.ordering().cql());
}
break;
default :
break;
}
}
String primaryKey = "PRIMARY KEY " + createPrimaryKeyPhrase(entity.getOrderedProperties());
String clustering = "";
if (o.size() > 0) {
clustering = "WITH CLUSTERING ORDER BY (" + String.join(", ", o) + ")";
}
return new CreateMaterializedView(keyspace, viewName, where, primaryKey, clustering).ifNotExists();
}
public static SchemaStatement dropMaterializedView(String keyspace, String viewName, HelenusEntity entity) {
return new DropMaterializedView(keyspace, viewName);
}
public static SchemaStatement createTable(HelenusEntity entity) {
if (entity.getType() != HelenusEntityType.TABLE) {
throw new HelenusMappingException("expected table entity " + entity);
}
// NOTE: There is a bug in the normal path of createTable where the
// "cache" is set too early and never unset preventing more than
// one column on a table.
// SchemaBuilder.createTable(entity.getName().toCql());
CreateTable create = new CreateTable(entity.getName().toCql());
create.ifNotExists();
List<HelenusProperty> clusteringColumns = new ArrayList<HelenusProperty>();
for (HelenusProperty prop : entity.getOrderedProperties()) {
ColumnType columnType = prop.getColumnType();
if (columnType == ColumnType.CLUSTERING_COLUMN) {
clusteringColumns.add(prop);
}
prop.getDataType().addColumn(create, prop.getColumnName());
}
if (!clusteringColumns.isEmpty()) {
Options options = create.withOptions();
clusteringColumns
.forEach(p -> options.clusteringOrder(p.getColumnName().toCql(), mapDirection(p.getOrdering())));
}
return create;
}
public static List<SchemaStatement> alterTable(TableMetadata tmd, HelenusEntity entity, boolean dropUnusedColumns) {
if (entity.getType() != HelenusEntityType.TABLE) {
throw new HelenusMappingException("expected table entity " + entity);
}
List<SchemaStatement> result = new ArrayList<SchemaStatement>();
Alter alter = SchemaBuilder.alterTable(entity.getName().toCql());
final Set<String> visitedColumns = dropUnusedColumns ? new HashSet<String>() : Collections.<String>emptySet();
for (HelenusProperty prop : entity.getOrderedProperties()) {
String columnName = prop.getColumnName().getName();
if (dropUnusedColumns) {
visitedColumns.add(columnName);
}
ColumnType columnType = prop.getColumnType();
if (columnType == ColumnType.PARTITION_KEY || columnType == ColumnType.CLUSTERING_COLUMN) {
continue;
}
ColumnMetadata columnMetadata = tmd.getColumn(columnName);
SchemaStatement stmt = prop.getDataType().alterColumn(alter, prop.getColumnName(),
optional(columnMetadata));
if (stmt != null) {
result.add(stmt);
}
}
if (dropUnusedColumns) {
for (ColumnMetadata cm : tmd.getColumns()) {
if (!visitedColumns.contains(cm.getName())) {
result.add(alter.dropColumn(cm.getName()));
}
}
}
return result;
}
public static SchemaStatement dropTable(HelenusEntity entity) {
if (entity.getType() != HelenusEntityType.TABLE) {
throw new HelenusMappingException("expected table entity " + entity);
}
return SchemaBuilder.dropTable(entity.getName().toCql()).ifExists();
}
public static SchemaStatement createIndex(HelenusProperty prop) {
if (prop.caseSensitiveIndex()) {
return SchemaBuilder.createIndex(prop.getIndexName().get().toCql()).ifNotExists()
.onTable(prop.getEntity().getName().toCql()).andColumn(prop.getColumnName().toCql());
} else {
return new CreateSasiIndex(prop.getIndexName().get().toCql()).ifNotExists()
.onTable(prop.getEntity().getName().toCql()).andColumn(prop.getColumnName().toCql());
}
}
public static List<SchemaStatement> createIndexes(HelenusEntity entity) {
return entity.getOrderedProperties().stream().filter(p -> p.getIndexName().isPresent())
.map(p -> SchemaUtil.createIndex(p)).collect(Collectors.toList());
}
public static List<SchemaStatement> alterIndexes(TableMetadata tmd, HelenusEntity entity,
boolean dropUnusedIndexes) {
List<SchemaStatement> list = new ArrayList<SchemaStatement>();
final Set<String> visitedColumns = dropUnusedIndexes ? new HashSet<String>() : Collections.<String>emptySet();
entity.getOrderedProperties().stream().filter(p -> p.getIndexName().isPresent()).forEach(p -> {
String columnName = p.getColumnName().getName();
if (dropUnusedIndexes) {
visitedColumns.add(columnName);
}
ColumnMetadata cm = tmd.getColumn(columnName);
if (cm != null) {
IndexMetadata im = tmd.getIndex(columnName);
if (im == null) {
list.add(createIndex(p));
}
} else {
list.add(createIndex(p));
}
});
if (dropUnusedIndexes) {
tmd.getColumns().stream()
.filter(c -> tmd.getIndex(c.getName()) != null && !visitedColumns.contains(c.getName()))
.forEach(c -> {
list.add(SchemaBuilder.dropIndex(tmd.getIndex(c.getName()).getName()).ifExists());
});
}
return list;
}
public static SchemaStatement dropIndex(HelenusProperty prop) {
return SchemaBuilder.dropIndex(prop.getIndexName().get().toCql()).ifExists();
}
private static SchemaBuilder.Direction mapDirection(OrderingDirection o) {
switch (o) {
case ASC :
return SchemaBuilder.Direction.ASC;
case DESC :
return SchemaBuilder.Direction.DESC;
}
throw new HelenusMappingException("unknown ordering " + o);
}
public static void throwNoMapping(HelenusProperty prop) {
throw new HelenusMappingException(
"only primitive types and Set,List,Map collections and UserDefinedTypes are allowed, unknown type for property '"
+ prop.getPropertyName() + "' type is '" + prop.getJavaType() + "' in the entity "
+ prop.getEntity());
}
private static OptionalColumnMetadata optional(final ColumnMetadata columnMetadata) {
if (columnMetadata != null) {
return new OptionalColumnMetadata() {
@Override
public String getName() {
return columnMetadata.getName();
}
@Override
public DataType getType() {
return columnMetadata.getType();
}
};
}
return null;
}
private static OptionalColumnMetadata optional(final String name, final DataType dataType) {
if (dataType != null) {
return new OptionalColumnMetadata() {
@Override
public String getName() {
return name;
}
@Override
public DataType getType() {
return dataType;
}
};
}
return null;
}
for (HelenusPropertyNode prop : props) {
String columnName = prop.getColumnName();
switch (prop.getProperty().getColumnType()) {
case PARTITION_KEY:
where = where.and(new IsNotNullClause(columnName));
break;
case CLUSTERING_COLUMN:
where = where.and(new IsNotNullClause(columnName));
ClusteringColumn clusteringColumn =
prop.getProperty().getGetterMethod().getAnnotation(ClusteringColumn.class);
if (clusteringColumn != null && clusteringColumn.ordering() != null) {
o.add(columnName + " " + clusteringColumn.ordering().cql());
}
break;
default:
break;
}
}
String primaryKey = "PRIMARY KEY " + createPrimaryKeyPhrase(entity.getOrderedProperties());
String clustering = "";
if (o.size() > 0) {
clustering = "WITH CLUSTERING ORDER BY (" + String.join(", ", o) + ")";
}
return new CreateMaterializedView(keyspace, viewName, where, primaryKey, clustering)
.ifNotExists();
}
public static SchemaStatement dropMaterializedView(
String keyspace, String viewName, HelenusEntity entity) {
return new DropMaterializedView(keyspace, viewName);
}
public static SchemaStatement createTable(HelenusEntity entity) {
if (entity.getType() != HelenusEntityType.TABLE) {
throw new HelenusMappingException("expected table entity " + entity);
}
// NOTE: There is a bug in the normal path of createTable where the
// "cache" is set too early and never unset preventing more than
// one column on a table.
// SchemaBuilder.createTable(entity.getName().toCql());
CreateTable create = new CreateTable(entity.getName().toCql());
create.ifNotExists();
List<HelenusProperty> clusteringColumns = new ArrayList<HelenusProperty>();
for (HelenusProperty prop : entity.getOrderedProperties()) {
ColumnType columnType = prop.getColumnType();
if (columnType == ColumnType.CLUSTERING_COLUMN) {
clusteringColumns.add(prop);
}
prop.getDataType().addColumn(create, prop.getColumnName());
}
if (!clusteringColumns.isEmpty()) {
Options options = create.withOptions();
clusteringColumns.forEach(
p -> options.clusteringOrder(p.getColumnName().toCql(), mapDirection(p.getOrdering())));
}
return create;
}
public static List<SchemaStatement> alterTable(
TableMetadata tmd, HelenusEntity entity, boolean dropUnusedColumns) {
if (entity.getType() != HelenusEntityType.TABLE) {
throw new HelenusMappingException("expected table entity " + entity);
}
List<SchemaStatement> result = new ArrayList<SchemaStatement>();
Alter alter = SchemaBuilder.alterTable(entity.getName().toCql());
final Set<String> visitedColumns =
dropUnusedColumns ? new HashSet<String>() : Collections.<String>emptySet();
for (HelenusProperty prop : entity.getOrderedProperties()) {
String columnName = prop.getColumnName().getName();
if (dropUnusedColumns) {
visitedColumns.add(columnName);
}
ColumnType columnType = prop.getColumnType();
if (columnType == ColumnType.PARTITION_KEY || columnType == ColumnType.CLUSTERING_COLUMN) {
continue;
}
ColumnMetadata columnMetadata = tmd.getColumn(columnName);
SchemaStatement stmt =
prop.getDataType().alterColumn(alter, prop.getColumnName(), optional(columnMetadata));
if (stmt != null) {
result.add(stmt);
}
}
if (dropUnusedColumns) {
for (ColumnMetadata cm : tmd.getColumns()) {
if (!visitedColumns.contains(cm.getName())) {
result.add(alter.dropColumn(cm.getName()));
}
}
}
return result;
}
public static SchemaStatement dropTable(HelenusEntity entity) {
if (entity.getType() != HelenusEntityType.TABLE) {
throw new HelenusMappingException("expected table entity " + entity);
}
return SchemaBuilder.dropTable(entity.getName().toCql()).ifExists();
}
public static SchemaStatement createIndex(HelenusProperty prop) {
if (prop.caseSensitiveIndex()) {
return SchemaBuilder.createIndex(prop.getIndexName().get().toCql())
.ifNotExists()
.onTable(prop.getEntity().getName().toCql())
.andColumn(prop.getColumnName().toCql());
} else {
return new CreateSasiIndex(prop.getIndexName().get().toCql())
.ifNotExists()
.onTable(prop.getEntity().getName().toCql())
.andColumn(prop.getColumnName().toCql());
}
}
public static List<SchemaStatement> createIndexes(HelenusEntity entity) {
return entity
.getOrderedProperties()
.stream()
.filter(p -> p.getIndexName().isPresent())
.map(p -> SchemaUtil.createIndex(p))
.collect(Collectors.toList());
}
public static List<SchemaStatement> alterIndexes(
TableMetadata tmd, HelenusEntity entity, boolean dropUnusedIndexes) {
List<SchemaStatement> list = new ArrayList<SchemaStatement>();
final Set<String> visitedColumns =
dropUnusedIndexes ? new HashSet<String>() : Collections.<String>emptySet();
entity
.getOrderedProperties()
.stream()
.filter(p -> p.getIndexName().isPresent())
.forEach(
p -> {
String columnName = p.getColumnName().getName();
if (dropUnusedIndexes) {
visitedColumns.add(columnName);
}
ColumnMetadata cm = tmd.getColumn(columnName);
if (cm != null) {
IndexMetadata im = tmd.getIndex(columnName);
if (im == null) {
list.add(createIndex(p));
}
} else {
list.add(createIndex(p));
}
});
if (dropUnusedIndexes) {
tmd.getColumns()
.stream()
.filter(c -> tmd.getIndex(c.getName()) != null && !visitedColumns.contains(c.getName()))
.forEach(
c -> {
list.add(SchemaBuilder.dropIndex(tmd.getIndex(c.getName()).getName()).ifExists());
});
}
return list;
}
public static SchemaStatement dropIndex(HelenusProperty prop) {
return SchemaBuilder.dropIndex(prop.getIndexName().get().toCql()).ifExists();
}
private static SchemaBuilder.Direction mapDirection(OrderingDirection o) {
switch (o) {
case ASC:
return SchemaBuilder.Direction.ASC;
case DESC:
return SchemaBuilder.Direction.DESC;
}
throw new HelenusMappingException("unknown ordering " + o);
}
public static void throwNoMapping(HelenusProperty prop) {
throw new HelenusMappingException(
"only primitive types and Set,List,Map collections and UserDefinedTypes are allowed, unknown type for property '"
+ prop.getPropertyName()
+ "' type is '"
+ prop.getJavaType()
+ "' in the entity "
+ prop.getEntity());
}
private static OptionalColumnMetadata optional(final ColumnMetadata columnMetadata) {
if (columnMetadata != null) {
return new OptionalColumnMetadata() {
@Override
public String getName() {
return columnMetadata.getName();
}
@Override
public DataType getType() {
return columnMetadata.getType();
}
};
}
return null;
}
private static OptionalColumnMetadata optional(final String name, final DataType dataType) {
if (dataType != null) {
return new OptionalColumnMetadata() {
@Override
public String getName() {
return name;
}
@Override
public DataType getType() {
return dataType;
}
};
}
return null;
}
}

757
src/main/java/net/helenus/core/SessionInitializer.java
View file

@ -15,18 +15,16 @@
*/
package net.helenus.core;
import brave.Tracer;
import com.codahale.metrics.MetricRegistry;
import com.datastax.driver.core.*;
import com.google.common.util.concurrent.MoreExecutors;
import java.io.IOException;
import java.io.PrintStream;
import java.util.*;
import java.util.concurrent.Executor;
import java.util.concurrent.Executors;
import java.util.function.Consumer;
import com.codahale.metrics.MetricRegistry;
import com.datastax.driver.core.*;
import com.google.common.util.concurrent.MoreExecutors;
import brave.Tracer;
import net.helenus.core.cache.SessionCache;
import net.helenus.core.reflect.DslExportable;
import net.helenus.mapping.HelenusEntity;
@ -40,350 +38,405 @@ import net.helenus.support.PackageUtil;
public final class SessionInitializer extends AbstractSessionOperations {
private final Session session;
private final List<Either<Object, Class<?>>> initList = new ArrayList<Either<Object, Class<?>>>();
private CodecRegistry registry;
private String usingKeyspace;
private boolean showCql = false;
private ConsistencyLevel consistencyLevel;
private boolean idempotent = true;
private MetricRegistry metricRegistry = new MetricRegistry();
private Tracer zipkinTracer;
private PrintStream printStream = System.out;
private Executor executor = MoreExecutors.directExecutor();
private Class<? extends UnitOfWork> unitOfWorkClass = UnitOfWorkImpl.class;
private SessionRepositoryBuilder sessionRepository;
private boolean dropUnusedColumns = false;
private boolean dropUnusedIndexes = false;
private KeyspaceMetadata keyspaceMetadata;
private AutoDdl autoDdl = AutoDdl.UPDATE;
private SessionCache sessionCache = null;
SessionInitializer(Session session) {
this.session = Objects.requireNonNull(session, "empty session");
this.usingKeyspace = session.getLoggedKeyspace(); // can be null
this.sessionRepository = new SessionRepositoryBuilder(session);
}
@Override
public Session currentSession() {
return session;
}
@Override
public String usingKeyspace() {
return usingKeyspace;
}
@Override
public Executor getExecutor() {
return executor;
}
@Override
public SessionRepository getSessionRepository() {
throw new HelenusException("not expected to call");
}
@Override
public ColumnValueProvider getValueProvider() {
throw new HelenusException("not expected to call");
}
@Override
public ColumnValuePreparer getValuePreparer() {
throw new HelenusException("not expected to call");
}
public SessionInitializer showCql() {
this.showCql = true;
return this;
}
public SessionInitializer showCql(boolean enabled) {
this.showCql = enabled;
return this;
}
public SessionInitializer metricRegistry(MetricRegistry metricRegistry) {
this.metricRegistry = metricRegistry;
return this;
}
public SessionInitializer zipkinTracer(Tracer tracer) {
this.zipkinTracer = tracer;
return this;
}
public SessionInitializer setUnitOfWorkClass(Class<? extends UnitOfWork> e) {
this.unitOfWorkClass = e;
return this;
}
public SessionInitializer consistencyLevel(ConsistencyLevel consistencyLevel) {
this.consistencyLevel = consistencyLevel;
return this;
}
public SessionInitializer setSessionCache(SessionCache sessionCache) {
this.sessionCache = sessionCache;
return this;
}
public ConsistencyLevel getDefaultConsistencyLevel() {
return consistencyLevel;
}
public SessionInitializer idempotentQueryExecution(boolean idempotent) {
this.idempotent = idempotent;
return this;
}
public boolean getDefaultQueryIdempotency() {
return idempotent;
}
@Override
public PrintStream getPrintStream() {
return printStream;
}
public SessionInitializer printTo(PrintStream out) {
this.printStream = out;
return this;
}
public SessionInitializer withExecutor(Executor executor) {
Objects.requireNonNull(executor, "empty executor");
this.executor = executor;
return this;
}
public SessionInitializer withCachingExecutor() {
this.executor = Executors.newCachedThreadPool();
return this;
}
public SessionInitializer dropUnusedColumns(boolean enabled) {
this.dropUnusedColumns = enabled;
return this;
}
public SessionInitializer dropUnusedIndexes(boolean enabled) {
this.dropUnusedIndexes = enabled;
return this;
}
public SessionInitializer withCodecRegistry(CodecRegistry registry) {
this.registry = registry;
return this;
}
@Override
public boolean isShowCql() {
return showCql;
}
public SessionInitializer addPackage(String packageName) {
try {
PackageUtil.getClasses(packageName).stream().filter(c -> c.isInterface() && !c.isAnnotation())
.forEach(clazz -> {
initList.add(Either.right(clazz));
});
} catch (IOException | ClassNotFoundException e) {
throw new HelenusException("fail to add package " + packageName, e);
}
return this;
}
public SessionInitializer add(Object... dsls) {
Objects.requireNonNull(dsls, "dsls is empty");
int len = dsls.length;
for (int i = 0; i != len; ++i) {
Object obj = Objects.requireNonNull(dsls[i], "element " + i + " is empty");
initList.add(Either.left(obj));
}
return this;
}
public SessionInitializer autoValidate() {
this.autoDdl = AutoDdl.VALIDATE;
return this;
}
public SessionInitializer autoUpdate() {
this.autoDdl = AutoDdl.UPDATE;
return this;
}
public SessionInitializer autoCreate() {
this.autoDdl = AutoDdl.CREATE;
return this;
}
public SessionInitializer autoCreateDrop() {
this.autoDdl = AutoDdl.CREATE_DROP;
return this;
}
public SessionInitializer auto(AutoDdl autoDdl) {
this.autoDdl = autoDdl;
return this;
}
public SessionInitializer use(String keyspace) {
session.execute(SchemaUtil.use(keyspace, false));
this.usingKeyspace = keyspace;
return this;
}
public SessionInitializer use(String keyspace, boolean forceQuote) {
session.execute(SchemaUtil.use(keyspace, forceQuote));
this.usingKeyspace = keyspace;
return this;
}
public void singleton() {
Helenus.setSession(get());
}
public synchronized HelenusSession get() {
initialize();
return new HelenusSession(session, usingKeyspace, registry, showCql, printStream, sessionRepository, executor,
autoDdl == AutoDdl.CREATE_DROP, consistencyLevel, idempotent, unitOfWorkClass, sessionCache,
metricRegistry, zipkinTracer);
}
private void initialize() {
Objects.requireNonNull(usingKeyspace, "please define keyspace by 'use' operator");
initList.forEach((either) -> {
Class<?> iface = null;
if (either.isLeft()) {
iface = MappingUtil.getMappingInterface(either.getLeft());
} else {
iface = either.getRight();
}
DslExportable dsl = (DslExportable) Helenus.dsl(iface);
dsl.setCassandraMetadataForHelenusSession(session.getCluster().getMetadata());
sessionRepository.add(dsl);
});
TableOperations tableOps = new TableOperations(this, dropUnusedColumns, dropUnusedIndexes);
UserTypeOperations userTypeOps = new UserTypeOperations(this, dropUnusedColumns);
switch (autoDdl) {
case CREATE_DROP :
// Drop view first, otherwise a `DROP TABLE ...` will fail as the type is still
// referenced
// by a view.
sessionRepository.entities().stream().filter(e -> e.getType() == HelenusEntityType.VIEW)
.forEach(e -> tableOps.dropView(e));
// Drop tables second, before DROP TYPE otherwise a `DROP TYPE ...` will fail as
// the type is
// still referenced by a table.
sessionRepository.entities().stream().filter(e -> e.getType() == HelenusEntityType.TABLE)
.forEach(e -> tableOps.dropTable(e));
eachUserTypeInReverseOrder(userTypeOps, e -> userTypeOps.dropUserType(e));
// FALLTHRU to CREATE case (read: the absence of a `break;` statement here is
// intentional!)
case CREATE :
eachUserTypeInOrder(userTypeOps, e -> userTypeOps.createUserType(e));
sessionRepository.entities().stream().filter(e -> e.getType() == HelenusEntityType.TABLE)
.forEach(e -> tableOps.createTable(e));
sessionRepository.entities().stream().filter(e -> e.getType() == HelenusEntityType.VIEW)
.forEach(e -> tableOps.createView(e));
break;
case VALIDATE :
eachUserTypeInOrder(userTypeOps, e -> userTypeOps.validateUserType(getUserType(e), e));
sessionRepository.entities().stream().filter(e -> e.getType() == HelenusEntityType.TABLE)
.forEach(e -> tableOps.validateTable(getTableMetadata(e), e));
break;
case UPDATE :
eachUserTypeInOrder(userTypeOps, e -> userTypeOps.updateUserType(getUserType(e), e));
sessionRepository.entities().stream().filter(e -> e.getType() == HelenusEntityType.VIEW)
.forEach(e -> tableOps.dropView(e));
sessionRepository.entities().stream().filter(e -> e.getType() == HelenusEntityType.TABLE)
.forEach(e -> tableOps.updateTable(getTableMetadata(e), e));
sessionRepository.entities().stream().filter(e -> e.getType() == HelenusEntityType.VIEW)
.forEach(e -> tableOps.createView(e));
break;
}
KeyspaceMetadata km = getKeyspaceMetadata();
for (UserType userType : km.getUserTypes()) {
sessionRepository.addUserType(userType.getTypeName(), userType);
}
}
private void eachUserTypeInOrder(UserTypeOperations userTypeOps, Consumer<? super HelenusEntity> action) {
Set<HelenusEntity> processedSet = new HashSet<HelenusEntity>();
Set<HelenusEntity> stack = new HashSet<HelenusEntity>();
sessionRepository.entities().stream().filter(e -> e.getType() == HelenusEntityType.UDT).forEach(e -> {
stack.clear();
eachUserTypeInRecursion(e, processedSet, stack, userTypeOps, action);
});
}
private void eachUserTypeInReverseOrder(UserTypeOperations userTypeOps, Consumer<? super HelenusEntity> action) {
ArrayDeque<HelenusEntity> deque = new ArrayDeque<>();
eachUserTypeInOrder(userTypeOps, e -> deque.addFirst(e));
deque.stream().forEach(e -> {
action.accept(e);
});
}
private void eachUserTypeInRecursion(HelenusEntity e, Set<HelenusEntity> processedSet, Set<HelenusEntity> stack,
UserTypeOperations userTypeOps, Consumer<? super HelenusEntity> action) {
stack.add(e);
Collection<HelenusEntity> createBefore = sessionRepository.getUserTypeUses(e);
for (HelenusEntity be : createBefore) {
if (!processedSet.contains(be) && !stack.contains(be)) {
eachUserTypeInRecursion(be, processedSet, stack, userTypeOps, action);
processedSet.add(be);
}
}
if (!processedSet.contains(e)) {
action.accept(e);
processedSet.add(e);
}
}
private KeyspaceMetadata getKeyspaceMetadata() {
if (keyspaceMetadata == null) {
keyspaceMetadata = session.getCluster().getMetadata().getKeyspace(usingKeyspace.toLowerCase());
}
return keyspaceMetadata;
}
private TableMetadata getTableMetadata(HelenusEntity entity) {
return getKeyspaceMetadata().getTable(entity.getName().getName());
}
private UserType getUserType(HelenusEntity entity) {
return getKeyspaceMetadata().getUserType(entity.getName().getName());
}
private final Session session;
private final List<Either<Object, Class<?>>> initList = new ArrayList<Either<Object, Class<?>>>();
private CodecRegistry registry;
private String usingKeyspace;
private boolean showCql = false;
private ConsistencyLevel consistencyLevel;
private boolean idempotent = true;
private MetricRegistry metricRegistry = new MetricRegistry();
private Tracer zipkinTracer;
private PrintStream printStream = System.out;
private Executor executor = MoreExecutors.directExecutor();
private Class<? extends UnitOfWork> unitOfWorkClass = UnitOfWorkImpl.class;
private SessionRepositoryBuilder sessionRepository;
private boolean dropUnusedColumns = false;
private boolean dropUnusedIndexes = false;
private KeyspaceMetadata keyspaceMetadata;
private AutoDdl autoDdl = AutoDdl.UPDATE;
private SessionCache sessionCache = null;
SessionInitializer(Session session) {
this.session = Objects.requireNonNull(session, "empty session");
this.usingKeyspace = session.getLoggedKeyspace(); // can be null
this.sessionRepository = new SessionRepositoryBuilder(session);
}
@Override
public Session currentSession() {
return session;
}
@Override
public String usingKeyspace() {
return usingKeyspace;
}
@Override
public Executor getExecutor() {
return executor;
}
@Override
public SessionRepository getSessionRepository() {
throw new HelenusException("not expected to call");
}
@Override
public ColumnValueProvider getValueProvider() {
throw new HelenusException("not expected to call");
}
@Override
public ColumnValuePreparer getValuePreparer() {
throw new HelenusException("not expected to call");
}
public SessionInitializer showCql() {
this.showCql = true;
return this;
}
public SessionInitializer showCql(boolean enabled) {
this.showCql = enabled;
return this;
}
public SessionInitializer metricRegistry(MetricRegistry metricRegistry) {
this.metricRegistry = metricRegistry;
return this;
}
public SessionInitializer zipkinTracer(Tracer tracer) {
this.zipkinTracer = tracer;
return this;
}
public SessionInitializer setUnitOfWorkClass(Class<? extends UnitOfWork> e) {
this.unitOfWorkClass = e;
return this;
}
public SessionInitializer consistencyLevel(ConsistencyLevel consistencyLevel) {
this.consistencyLevel = consistencyLevel;
return this;
}
public SessionInitializer setSessionCache(SessionCache sessionCache) {
this.sessionCache = sessionCache;
return this;
}
public ConsistencyLevel getDefaultConsistencyLevel() {
return consistencyLevel;
}
public SessionInitializer idempotentQueryExecution(boolean idempotent) {
this.idempotent = idempotent;
return this;
}
public boolean getDefaultQueryIdempotency() {
return idempotent;
}
@Override
public PrintStream getPrintStream() {
return printStream;
}
public SessionInitializer printTo(PrintStream out) {
this.printStream = out;
return this;
}
public SessionInitializer withExecutor(Executor executor) {
Objects.requireNonNull(executor, "empty executor");
this.executor = executor;
return this;
}
public SessionInitializer withCachingExecutor() {
this.executor = Executors.newCachedThreadPool();
return this;
}
public SessionInitializer dropUnusedColumns(boolean enabled) {
this.dropUnusedColumns = enabled;
return this;
}
public SessionInitializer dropUnusedIndexes(boolean enabled) {
this.dropUnusedIndexes = enabled;
return this;
}
public SessionInitializer withCodecRegistry(CodecRegistry registry) {
this.registry = registry;
return this;
}
@Override
public boolean isShowCql() {
return showCql;
}
public SessionInitializer addPackage(String packageName) {
try {
PackageUtil.getClasses(packageName)
.stream()
.filter(c -> c.isInterface() && !c.isAnnotation())
.forEach(
clazz -> {
initList.add(Either.right(clazz));
});
} catch (IOException | ClassNotFoundException e) {
throw new HelenusException("fail to add package " + packageName, e);
}
return this;
}
public SessionInitializer add(Object... dsls) {
Objects.requireNonNull(dsls, "dsls is empty");
int len = dsls.length;
for (int i = 0; i != len; ++i) {
Object obj = Objects.requireNonNull(dsls[i], "element " + i + " is empty");
initList.add(Either.left(obj));
}
return this;
}
public SessionInitializer autoValidate() {
this.autoDdl = AutoDdl.VALIDATE;
return this;
}
public SessionInitializer autoUpdate() {
this.autoDdl = AutoDdl.UPDATE;
return this;
}
public SessionInitializer autoCreate() {
this.autoDdl = AutoDdl.CREATE;
return this;
}
public SessionInitializer autoCreateDrop() {
this.autoDdl = AutoDdl.CREATE_DROP;
return this;
}
public SessionInitializer auto(AutoDdl autoDdl) {
this.autoDdl = autoDdl;
return this;
}
public SessionInitializer use(String keyspace) {
session.execute(SchemaUtil.use(keyspace, false));
this.usingKeyspace = keyspace;
return this;
}
public SessionInitializer use(String keyspace, boolean forceQuote) {
session.execute(SchemaUtil.use(keyspace, forceQuote));
this.usingKeyspace = keyspace;
return this;
}
public void singleton() {
Helenus.setSession(get());
}
public synchronized HelenusSession get() {
initialize();
return new HelenusSession(
session,
usingKeyspace,
registry,
showCql,
printStream,
sessionRepository,
executor,
autoDdl == AutoDdl.CREATE_DROP,
consistencyLevel,
idempotent,
unitOfWorkClass,
sessionCache,
metricRegistry,
zipkinTracer);
}
private void initialize() {
Objects.requireNonNull(usingKeyspace, "please define keyspace by 'use' operator");
initList.forEach(
(either) -> {
Class<?> iface = null;
if (either.isLeft()) {
iface = MappingUtil.getMappingInterface(either.getLeft());
} else {
iface = either.getRight();
}
DslExportable dsl = (DslExportable) Helenus.dsl(iface);
dsl.setCassandraMetadataForHelenusSession(session.getCluster().getMetadata());
sessionRepository.add(dsl);
});
TableOperations tableOps = new TableOperations(this, dropUnusedColumns, dropUnusedIndexes);
UserTypeOperations userTypeOps = new UserTypeOperations(this, dropUnusedColumns);
switch (autoDdl) {
case CREATE_DROP:
// Drop view first, otherwise a `DROP TABLE ...` will fail as the type is still
// referenced
// by a view.
sessionRepository
.entities()
.stream()
.filter(e -> e.getType() == HelenusEntityType.VIEW)
.forEach(e -> tableOps.dropView(e));
// Drop tables second, before DROP TYPE otherwise a `DROP TYPE ...` will fail as
// the type is
// still referenced by a table.
sessionRepository
.entities()
.stream()
.filter(e -> e.getType() == HelenusEntityType.TABLE)
.forEach(e -> tableOps.dropTable(e));
eachUserTypeInReverseOrder(userTypeOps, e -> userTypeOps.dropUserType(e));
// FALLTHRU to CREATE case (read: the absence of a `break;` statement here is
// intentional!)
case CREATE:
eachUserTypeInOrder(userTypeOps, e -> userTypeOps.createUserType(e));
sessionRepository
.entities()
.stream()
.filter(e -> e.getType() == HelenusEntityType.TABLE)
.forEach(e -> tableOps.createTable(e));
sessionRepository
.entities()
.stream()
.filter(e -> e.getType() == HelenusEntityType.VIEW)
.forEach(e -> tableOps.createView(e));
break;
case VALIDATE:
eachUserTypeInOrder(userTypeOps, e -> userTypeOps.validateUserType(getUserType(e), e));
sessionRepository
.entities()
.stream()
.filter(e -> e.getType() == HelenusEntityType.TABLE)
.forEach(e -> tableOps.validateTable(getTableMetadata(e), e));
break;
case UPDATE:
eachUserTypeInOrder(userTypeOps, e -> userTypeOps.updateUserType(getUserType(e), e));
sessionRepository
.entities()
.stream()
.filter(e -> e.getType() == HelenusEntityType.VIEW)
.forEach(e -> tableOps.dropView(e));
sessionRepository
.entities()
.stream()
.filter(e -> e.getType() == HelenusEntityType.TABLE)
.forEach(e -> tableOps.updateTable(getTableMetadata(e), e));
sessionRepository
.entities()
.stream()
.filter(e -> e.getType() == HelenusEntityType.VIEW)
.forEach(e -> tableOps.createView(e));
break;
}
KeyspaceMetadata km = getKeyspaceMetadata();
for (UserType userType : km.getUserTypes()) {
sessionRepository.addUserType(userType.getTypeName(), userType);
}
}
private void eachUserTypeInOrder(
UserTypeOperations userTypeOps, Consumer<? super HelenusEntity> action) {
Set<HelenusEntity> processedSet = new HashSet<HelenusEntity>();
Set<HelenusEntity> stack = new HashSet<HelenusEntity>();
sessionRepository
.entities()
.stream()
.filter(e -> e.getType() == HelenusEntityType.UDT)
.forEach(
e -> {
stack.clear();
eachUserTypeInRecursion(e, processedSet, stack, userTypeOps, action);
});
}
private void eachUserTypeInReverseOrder(
UserTypeOperations userTypeOps, Consumer<? super HelenusEntity> action) {
ArrayDeque<HelenusEntity> deque = new ArrayDeque<>();
eachUserTypeInOrder(userTypeOps, e -> deque.addFirst(e));
deque
.stream()
.forEach(
e -> {
action.accept(e);
});
}
private void eachUserTypeInRecursion(
HelenusEntity e,
Set<HelenusEntity> processedSet,
Set<HelenusEntity> stack,
UserTypeOperations userTypeOps,
Consumer<? super HelenusEntity> action) {
stack.add(e);
Collection<HelenusEntity> createBefore = sessionRepository.getUserTypeUses(e);
for (HelenusEntity be : createBefore) {
if (!processedSet.contains(be) && !stack.contains(be)) {
eachUserTypeInRecursion(be, processedSet, stack, userTypeOps, action);
processedSet.add(be);
}
}
if (!processedSet.contains(e)) {
action.accept(e);
processedSet.add(e);
}
}
private KeyspaceMetadata getKeyspaceMetadata() {
if (keyspaceMetadata == null) {
keyspaceMetadata =
session.getCluster().getMetadata().getKeyspace(usingKeyspace.toLowerCase());
}
return keyspaceMetadata;
}
private TableMetadata getTableMetadata(HelenusEntity entity) {
return getKeyspaceMetadata().getTable(entity.getName().getName());
}
private UserType getUserType(HelenusEntity entity) {
return getKeyspaceMetadata().getUserType(entity.getName().getName());
}
}

29
src/main/java/net/helenus/core/SessionRepository.java
View file

@ -15,31 +15,30 @@
*/
package net.helenus.core;
import java.util.Collection;
import com.datastax.driver.core.UserType;
import com.google.common.collect.ImmutableMap;
import java.util.Collection;
import net.helenus.mapping.HelenusEntity;
public final class SessionRepository {
private final ImmutableMap<String, UserType> userTypeMap;
private final ImmutableMap<String, UserType> userTypeMap;
private final ImmutableMap<Class<?>, HelenusEntity> entityMap;
private final ImmutableMap<Class<?>, HelenusEntity> entityMap;
public SessionRepository(SessionRepositoryBuilder builder) {
public SessionRepository(SessionRepositoryBuilder builder) {
userTypeMap = ImmutableMap.<String, UserType>builder().putAll(builder.getUserTypeMap()).build();
userTypeMap = ImmutableMap.<String, UserType>builder().putAll(builder.getUserTypeMap()).build();
entityMap = ImmutableMap.<Class<?>, HelenusEntity>builder().putAll(builder.getEntityMap()).build();
}
entityMap =
ImmutableMap.<Class<?>, HelenusEntity>builder().putAll(builder.getEntityMap()).build();
}
public UserType findUserType(String name) {
return userTypeMap.get(name.toLowerCase());
}
public UserType findUserType(String name) {
return userTypeMap.get(name.toLowerCase());
}
public Collection<HelenusEntity> entities() {
return entityMap.values();
}
public Collection<HelenusEntity> entities() {
return entityMap.values();
}
}

156
src/main/java/net/helenus/core/SessionRepositoryBuilder.java
View file

@ -15,17 +15,15 @@
*/
package net.helenus.core;
import java.util.Collection;
import java.util.HashMap;
import java.util.Map;
import java.util.Optional;
import com.datastax.driver.core.Session;
import com.datastax.driver.core.UDTValue;
import com.datastax.driver.core.UserType;
import com.google.common.collect.HashMultimap;
import com.google.common.collect.Multimap;
import java.util.Collection;
import java.util.HashMap;
import java.util.Map;
import java.util.Optional;
import net.helenus.mapping.HelenusEntity;
import net.helenus.mapping.HelenusEntityType;
import net.helenus.mapping.HelenusProperty;
@ -35,110 +33,112 @@ import net.helenus.support.HelenusMappingException;
public final class SessionRepositoryBuilder {
private static final Optional<HelenusEntityType> OPTIONAL_UDT = Optional.of(HelenusEntityType.UDT);
private static final Optional<HelenusEntityType> OPTIONAL_UDT =
Optional.of(HelenusEntityType.UDT);
private final Map<Class<?>, HelenusEntity> entityMap = new HashMap<Class<?>, HelenusEntity>();
private final Map<Class<?>, HelenusEntity> entityMap = new HashMap<Class<?>, HelenusEntity>();
private final Map<String, UserType> userTypeMap = new HashMap<String, UserType>();
private final Map<String, UserType> userTypeMap = new HashMap<String, UserType>();
private final Multimap<HelenusEntity, HelenusEntity> userTypeUsesMap = HashMultimap.create();
private final Multimap<HelenusEntity, HelenusEntity> userTypeUsesMap = HashMultimap.create();
private final Session session;
private final Session session;
SessionRepositoryBuilder(Session session) {
this.session = session;
}
SessionRepositoryBuilder(Session session) {
this.session = session;
}
public SessionRepository build() {
return new SessionRepository(this);
}
public SessionRepository build() {
return new SessionRepository(this);
}
public Collection<HelenusEntity> getUserTypeUses(HelenusEntity udtName) {
return userTypeUsesMap.get(udtName);
}
public Collection<HelenusEntity> getUserTypeUses(HelenusEntity udtName) {
return userTypeUsesMap.get(udtName);
}
public Collection<HelenusEntity> entities() {
return entityMap.values();
}
public Collection<HelenusEntity> entities() {
return entityMap.values();
}
protected Map<Class<?>, HelenusEntity> getEntityMap() {
return entityMap;
}
protected Map<Class<?>, HelenusEntity> getEntityMap() {
return entityMap;
}
protected Map<String, UserType> getUserTypeMap() {
return userTypeMap;
}
protected Map<String, UserType> getUserTypeMap() {
return userTypeMap;
}
public void addUserType(String name, UserType userType) {
userTypeMap.putIfAbsent(name.toLowerCase(), userType);
}
public void addUserType(String name, UserType userType) {
userTypeMap.putIfAbsent(name.toLowerCase(), userType);
}
public HelenusEntity add(Object dsl) {
return add(dsl, Optional.empty());
}
public HelenusEntity add(Object dsl) {
return add(dsl, Optional.empty());
}
public void addEntity(HelenusEntity entity) {
public void addEntity(HelenusEntity entity) {
HelenusEntity concurrentEntity = entityMap.putIfAbsent(entity.getMappingInterface(), entity);
HelenusEntity concurrentEntity = entityMap.putIfAbsent(entity.getMappingInterface(), entity);
if (concurrentEntity == null) {
addUserDefinedTypes(entity.getOrderedProperties());
}
}
if (concurrentEntity == null) {
addUserDefinedTypes(entity.getOrderedProperties());
}
}
public HelenusEntity add(Object dsl, Optional<HelenusEntityType> type) {
public HelenusEntity add(Object dsl, Optional<HelenusEntityType> type) {
HelenusEntity helenusEntity = Helenus.resolve(dsl, session.getCluster().getMetadata());
HelenusEntity helenusEntity = Helenus.resolve(dsl, session.getCluster().getMetadata());
Class<?> iface = helenusEntity.getMappingInterface();
Class<?> iface = helenusEntity.getMappingInterface();
HelenusEntity entity = entityMap.get(iface);
HelenusEntity entity = entityMap.get(iface);
if (entity == null) {
if (entity == null) {
entity = helenusEntity;
entity = helenusEntity;
if (type.isPresent() && entity.getType() != type.get()) {
throw new HelenusMappingException("unexpected entity type " + entity.getType() + " for " + entity);
}
if (type.isPresent() && entity.getType() != type.get()) {
throw new HelenusMappingException(
"unexpected entity type " + entity.getType() + " for " + entity);
}
HelenusEntity concurrentEntity = entityMap.putIfAbsent(iface, entity);
HelenusEntity concurrentEntity = entityMap.putIfAbsent(iface, entity);
if (concurrentEntity == null) {
addUserDefinedTypes(entity.getOrderedProperties());
} else {
entity = concurrentEntity;
}
}
if (concurrentEntity == null) {
addUserDefinedTypes(entity.getOrderedProperties());
} else {
entity = concurrentEntity;
}
}
return entity;
}
return entity;
}
private void addUserDefinedTypes(Collection<HelenusProperty> props) {
private void addUserDefinedTypes(Collection<HelenusProperty> props) {
for (HelenusProperty prop : props) {
for (HelenusProperty prop : props) {
AbstractDataType type = prop.getDataType();
AbstractDataType type = prop.getDataType();
if (type instanceof DTDataType) {
continue;
}
if (type instanceof DTDataType) {
continue;
}
if (!UDTValue.class.isAssignableFrom(prop.getJavaType())) {
if (!UDTValue.class.isAssignableFrom(prop.getJavaType())) {
for (Class<?> udtClass : type.getTypeArguments()) {
for (Class<?> udtClass : type.getTypeArguments()) {
if (UDTValue.class.isAssignableFrom(udtClass)) {
continue;
}
if (UDTValue.class.isAssignableFrom(udtClass)) {
continue;
}
HelenusEntity addedUserType = add(udtClass, OPTIONAL_UDT);
HelenusEntity addedUserType = add(udtClass, OPTIONAL_UDT);
if (HelenusEntityType.UDT == prop.getEntity().getType()) {
userTypeUsesMap.put(prop.getEntity(), addedUserType);
}
}
}
}
}
if (HelenusEntityType.UDT == prop.getEntity().getType()) {
userTypeUsesMap.put(prop.getEntity(), addedUserType);
}
}
}
}
}
}

132
src/main/java/net/helenus/core/TableOperations.java
View file

@ -15,88 +15,98 @@
*/
package net.helenus.core;
import java.util.List;
import com.datastax.driver.core.TableMetadata;
import com.datastax.driver.core.schemabuilder.SchemaStatement;
import java.util.List;
import net.helenus.mapping.HelenusEntity;
import net.helenus.support.HelenusException;
public final class TableOperations {
private final AbstractSessionOperations sessionOps;
private final boolean dropUnusedColumns;
private final boolean dropUnusedIndexes;
private final AbstractSessionOperations sessionOps;
private final boolean dropUnusedColumns;
private final boolean dropUnusedIndexes;
public TableOperations(AbstractSessionOperations sessionOps, boolean dropUnusedColumns, boolean dropUnusedIndexes) {
this.sessionOps = sessionOps;
this.dropUnusedColumns = dropUnusedColumns;
this.dropUnusedIndexes = dropUnusedIndexes;
}
public TableOperations(
AbstractSessionOperations sessionOps, boolean dropUnusedColumns, boolean dropUnusedIndexes) {
this.sessionOps = sessionOps;
this.dropUnusedColumns = dropUnusedColumns;
this.dropUnusedIndexes = dropUnusedIndexes;
}
public void createTable(HelenusEntity entity) {
sessionOps.execute(SchemaUtil.createTable(entity), true);
executeBatch(SchemaUtil.createIndexes(entity));
}
public void createTable(HelenusEntity entity) {
sessionOps.execute(SchemaUtil.createTable(entity), true);
executeBatch(SchemaUtil.createIndexes(entity));
}
public void dropTable(HelenusEntity entity) {
sessionOps.execute(SchemaUtil.dropTable(entity), true);
}
public void dropTable(HelenusEntity entity) {
sessionOps.execute(SchemaUtil.dropTable(entity), true);
}
public void validateTable(TableMetadata tmd, HelenusEntity entity) {
public void validateTable(TableMetadata tmd, HelenusEntity entity) {
if (tmd == null) {
throw new HelenusException(
"table does not exists " + entity.getName() + "for entity " + entity.getMappingInterface());
}
if (tmd == null) {
throw new HelenusException(
"table does not exists "
+ entity.getName()
+ "for entity "
+ entity.getMappingInterface());
}
List<SchemaStatement> list = SchemaUtil.alterTable(tmd, entity, dropUnusedColumns);
List<SchemaStatement> list = SchemaUtil.alterTable(tmd, entity, dropUnusedColumns);
list.addAll(SchemaUtil.alterIndexes(tmd, entity, dropUnusedIndexes));
list.addAll(SchemaUtil.alterIndexes(tmd, entity, dropUnusedIndexes));
if (!list.isEmpty()) {
throw new HelenusException(
"schema changed for entity " + entity.getMappingInterface() + ", apply this command: " + list);
}
}
if (!list.isEmpty()) {
throw new HelenusException(
"schema changed for entity "
+ entity.getMappingInterface()
+ ", apply this command: "
+ list);
}
}
public void updateTable(TableMetadata tmd, HelenusEntity entity) {
if (tmd == null) {
createTable(entity);
return;
}
public void updateTable(TableMetadata tmd, HelenusEntity entity) {
if (tmd == null) {
createTable(entity);
return;
}
executeBatch(SchemaUtil.alterTable(tmd, entity, dropUnusedColumns));
executeBatch(SchemaUtil.alterIndexes(tmd, entity, dropUnusedIndexes));
}
executeBatch(SchemaUtil.alterTable(tmd, entity, dropUnusedColumns));
executeBatch(SchemaUtil.alterIndexes(tmd, entity, dropUnusedIndexes));
}
public void createView(HelenusEntity entity) {
sessionOps.execute(
SchemaUtil.createMaterializedView(sessionOps.usingKeyspace(), entity.getName().toCql(), entity), true);
// executeBatch(SchemaUtil.createIndexes(entity)); NOTE: Unfortunately C* 3.10
// does not yet support 2i on materialized views.
}
public void createView(HelenusEntity entity) {
sessionOps.execute(
SchemaUtil.createMaterializedView(
sessionOps.usingKeyspace(), entity.getName().toCql(), entity),
true);
// executeBatch(SchemaUtil.createIndexes(entity)); NOTE: Unfortunately C* 3.10
// does not yet support 2i on materialized views.
}
public void dropView(HelenusEntity entity) {
sessionOps.execute(
SchemaUtil.dropMaterializedView(sessionOps.usingKeyspace(), entity.getName().toCql(), entity), true);
}
public void dropView(HelenusEntity entity) {
sessionOps.execute(
SchemaUtil.dropMaterializedView(
sessionOps.usingKeyspace(), entity.getName().toCql(), entity),
true);
}
public void updateView(TableMetadata tmd, HelenusEntity entity) {
if (tmd == null) {
createTable(entity);
return;
}
public void updateView(TableMetadata tmd, HelenusEntity entity) {
if (tmd == null) {
createTable(entity);
return;
}
executeBatch(SchemaUtil.alterTable(tmd, entity, dropUnusedColumns));
executeBatch(SchemaUtil.alterIndexes(tmd, entity, dropUnusedIndexes));
}
executeBatch(SchemaUtil.alterTable(tmd, entity, dropUnusedColumns));
executeBatch(SchemaUtil.alterIndexes(tmd, entity, dropUnusedIndexes));
}
private void executeBatch(List<SchemaStatement> list) {
private void executeBatch(List<SchemaStatement> list) {
list.forEach(s -> {
sessionOps.execute(s, true);
});
}
list.forEach(
s -> {
sessionOps.execute(s, true);
});
}
}

73
src/main/java/net/helenus/core/UnitOfWork.java
View file

@ -15,60 +15,57 @@
*/
package net.helenus.core;
import com.google.common.base.Stopwatch;
import java.util.List;
import java.util.Optional;
import com.google.common.base.Stopwatch;
import net.helenus.core.cache.Facet;
public interface UnitOfWork<X extends Exception> extends AutoCloseable {
/**
* Marks the beginning of a transactional section of work. Will write a
* recordCacheAndDatabaseOperationCount to the shared write-ahead log.
*
* @return the handle used to commit or abort the work.
*/
UnitOfWork<X> begin();
/**
* Marks the beginning of a transactional section of work. Will write a
* recordCacheAndDatabaseOperationCount to the shared write-ahead log.
*
* @return the handle used to commit or abort the work.
*/
UnitOfWork<X> begin();
void addNestedUnitOfWork(UnitOfWork<X> uow);
void addNestedUnitOfWork(UnitOfWork<X> uow);
/**
* Checks to see if the work performed between calling begin and now can be
* committed or not.
*
* @return a function from which to chain work that only happens when commit is
* successful
* @throws X
* when the work overlaps with other concurrent writers.
*/
PostCommitFunction<Void, Void> commit() throws X;
/**
* Checks to see if the work performed between calling begin and now can be committed or not.
*
* @return a function from which to chain work that only happens when commit is successful
* @throws X when the work overlaps with other concurrent writers.
*/
PostCommitFunction<Void, Void> commit() throws X;
/**
* Explicitly abort the work within this unit of work. Any nested aborted unit
* of work will trigger the entire unit of work to commit.
*/
void abort();
/**
* Explicitly abort the work within this unit of work. Any nested aborted unit of work will
* trigger the entire unit of work to commit.
*/
void abort();
boolean hasAborted();
boolean hasAborted();
boolean hasCommitted();
boolean hasCommitted();
Optional<Object> cacheLookup(List<Facet> facets);
Optional<Object> cacheLookup(List<Facet> facets);
void cacheUpdate(Object pojo, List<Facet> facets);
void cacheUpdate(Object pojo, List<Facet> facets);
List<Facet> cacheEvict(List<Facet> facets);
List<Facet> cacheEvict(List<Facet> facets);
String getPurpose();
UnitOfWork setPurpose(String purpose);
void setInfo(String info);
String getPurpose();
void addDatabaseTime(String name, Stopwatch amount);
void addCacheLookupTime(Stopwatch amount);
UnitOfWork setPurpose(String purpose);
// Cache > 0 means "cache hit", < 0 means cache miss.
void recordCacheAndDatabaseOperationCount(int cache, int database);
void setInfo(String info);
void addDatabaseTime(String name, Stopwatch amount);
void addCacheLookupTime(Stopwatch amount);
// Cache > 0 means "cache hit", < 0 means cache miss.
void recordCacheAndDatabaseOperationCount(int cache, int database);
}

8
src/main/java/net/helenus/core/UnitOfWorkImpl.java
View file

@ -19,8 +19,8 @@ import net.helenus.support.HelenusException;
class UnitOfWorkImpl extends AbstractUnitOfWork<HelenusException> {
@SuppressWarnings("unchecked")
public UnitOfWorkImpl(HelenusSession session, UnitOfWork parent) {
super(session, (AbstractUnitOfWork<HelenusException>) parent);
}
@SuppressWarnings("unchecked")
public UnitOfWorkImpl(HelenusSession session, UnitOfWork parent) {
super(session, (AbstractUnitOfWork<HelenusException>) parent);
}
}

78
src/main/java/net/helenus/core/UserTypeOperations.java
View file

@ -15,63 +15,65 @@
*/
package net.helenus.core;
import java.util.List;
import com.datastax.driver.core.UserType;
import com.datastax.driver.core.schemabuilder.SchemaStatement;
import java.util.List;
import net.helenus.mapping.HelenusEntity;
import net.helenus.support.HelenusException;
public final class UserTypeOperations {
private final AbstractSessionOperations sessionOps;
private final boolean dropUnusedColumns;
private final AbstractSessionOperations sessionOps;
private final boolean dropUnusedColumns;
public UserTypeOperations(AbstractSessionOperations sessionOps, boolean dropUnusedColumns) {
this.sessionOps = sessionOps;
this.dropUnusedColumns = dropUnusedColumns;
}
public UserTypeOperations(AbstractSessionOperations sessionOps, boolean dropUnusedColumns) {
this.sessionOps = sessionOps;
this.dropUnusedColumns = dropUnusedColumns;
}
public void createUserType(HelenusEntity entity) {
public void createUserType(HelenusEntity entity) {
sessionOps.execute(SchemaUtil.createUserType(entity), true);
}
sessionOps.execute(SchemaUtil.createUserType(entity), true);
}
public void dropUserType(HelenusEntity entity) {
public void dropUserType(HelenusEntity entity) {
sessionOps.execute(SchemaUtil.dropUserType(entity), true);
}
sessionOps.execute(SchemaUtil.dropUserType(entity), true);
}
public void validateUserType(UserType userType, HelenusEntity entity) {
public void validateUserType(UserType userType, HelenusEntity entity) {
if (userType == null) {
throw new HelenusException(
"userType not exists " + entity.getName() + "for entity " + entity.getMappingInterface());
}
if (userType == null) {
throw new HelenusException(
"userType not exists " + entity.getName() + "for entity " + entity.getMappingInterface());
}
List<SchemaStatement> list = SchemaUtil.alterUserType(userType, entity, dropUnusedColumns);
List<SchemaStatement> list = SchemaUtil.alterUserType(userType, entity, dropUnusedColumns);
if (!list.isEmpty()) {
throw new HelenusException(
"schema changed for entity " + entity.getMappingInterface() + ", apply this command: " + list);
}
}
if (!list.isEmpty()) {
throw new HelenusException(
"schema changed for entity "
+ entity.getMappingInterface()
+ ", apply this command: "
+ list);
}
}
public void updateUserType(UserType userType, HelenusEntity entity) {
public void updateUserType(UserType userType, HelenusEntity entity) {
if (userType == null) {
createUserType(entity);
return;
}
if (userType == null) {
createUserType(entity);
return;
}
executeBatch(SchemaUtil.alterUserType(userType, entity, dropUnusedColumns));
}
executeBatch(SchemaUtil.alterUserType(userType, entity, dropUnusedColumns));
}
private void executeBatch(List<SchemaStatement> list) {
private void executeBatch(List<SchemaStatement> list) {
list.forEach(s -> {
sessionOps.execute(s, true);
});
}
list.forEach(
s -> {
sessionOps.execute(s, true);
});
}
}

3
src/main/java/net/helenus/core/annotation/Cacheable.java
View file

@ -22,5 +22,4 @@ import java.lang.annotation.Target;
@Retention(RetentionPolicy.RUNTIME)
@Target(ElementType.TYPE)
public @interface Cacheable {
}
public @interface Cacheable {}

7
src/main/java/net/helenus/core/annotation/Retry.java
View file

@ -21,14 +21,15 @@ import java.lang.annotation.Retention;
import java.lang.annotation.RetentionPolicy;
import java.lang.annotation.Target;
import java.util.concurrent.TimeoutException;
import net.helenus.core.ConflictingUnitOfWorkException;
@Retention(RetentionPolicy.RUNTIME)
@Target(ElementType.METHOD)
public @interface Retry {
Class<? extends Exception>[] on() default {ConflictingUnitOfWorkException.class, TimeoutException.class};
Class<? extends Exception>[] on() default {
ConflictingUnitOfWorkException.class, TimeoutException.class
};
int times() default 3;
int times() default 3;
}

112
src/main/java/net/helenus/core/aspect/RetryAspect.java
View file

@ -18,7 +18,7 @@ package net.helenus.core.aspect;
import java.lang.reflect.Method;
import java.util.Arrays;
import net.helenus.core.annotation.Retry;
import org.apache.commons.lang3.exception.ExceptionUtils;
import org.aspectj.lang.ProceedingJoinPoint;
import org.aspectj.lang.annotation.Around;
@ -29,71 +29,69 @@ import org.slf4j.LoggerFactory;
import org.springframework.core.annotation.AnnotationUtils;
import org.springframework.util.Assert;
import net.helenus.core.annotation.Retry;
@Aspect
public class RetryAspect {
private static final Logger log = LoggerFactory.getLogger(RetryAspect.class);
private static final Logger log = LoggerFactory.getLogger(RetryAspect.class);
@Around("@annotation(net.helenus.core.annotations.Retry)")
public Object retry(ProceedingJoinPoint pjp) throws Throwable {
Retry retryAnnotation = getRetryAnnotation(pjp);
return (retryAnnotation != null) ? proceed(pjp, retryAnnotation) : proceed(pjp);
}
@Around("@annotation(net.helenus.core.annotations.Retry)")
public Object retry(ProceedingJoinPoint pjp) throws Throwable {
Retry retryAnnotation = getRetryAnnotation(pjp);
return (retryAnnotation != null) ? proceed(pjp, retryAnnotation) : proceed(pjp);
}
private Object proceed(ProceedingJoinPoint pjp) throws Throwable {
return pjp.proceed();
}
private Object proceed(ProceedingJoinPoint pjp) throws Throwable {
return pjp.proceed();
}
private Object proceed(ProceedingJoinPoint pjp, Retry retryAnnotation) throws Throwable {
int times = retryAnnotation.times();
Class<? extends Throwable>[] retryOn = retryAnnotation.on();
Assert.isTrue(times > 0, "@Retry{times} should be greater than 0!");
Assert.isTrue(retryOn.length > 0, "@Retry{on} should have at least one Throwable!");
log.info("Proceed with {} retries on {}", times, Arrays.toString(retryOn));
return tryProceeding(pjp, times, retryOn);
}
private Object proceed(ProceedingJoinPoint pjp, Retry retryAnnotation) throws Throwable {
int times = retryAnnotation.times();
Class<? extends Throwable>[] retryOn = retryAnnotation.on();
Assert.isTrue(times > 0, "@Retry{times} should be greater than 0!");
Assert.isTrue(retryOn.length > 0, "@Retry{on} should have at least one Throwable!");
log.info("Proceed with {} retries on {}", times, Arrays.toString(retryOn));
return tryProceeding(pjp, times, retryOn);
}
private Object tryProceeding(ProceedingJoinPoint pjp, int times, Class<? extends Throwable>[] retryOn)
throws Throwable {
try {
return proceed(pjp);
} catch (Throwable throwable) {
if (isRetryThrowable(throwable, retryOn) && times-- > 0) {
log.info("Conflict detected, {} remaining retries on {}", times, Arrays.toString(retryOn));
return tryProceeding(pjp, times, retryOn);
}
throw throwable;
}
}
private Object tryProceeding(
ProceedingJoinPoint pjp, int times, Class<? extends Throwable>[] retryOn) throws Throwable {
try {
return proceed(pjp);
} catch (Throwable throwable) {
if (isRetryThrowable(throwable, retryOn) && times-- > 0) {
log.info("Conflict detected, {} remaining retries on {}", times, Arrays.toString(retryOn));
return tryProceeding(pjp, times, retryOn);
}
throw throwable;
}
}
private boolean isRetryThrowable(Throwable throwable, Class<? extends Throwable>[] retryOn) {
Throwable[] causes = ExceptionUtils.getThrowables(throwable);
for (Throwable cause : causes) {
for (Class<? extends Throwable> retryThrowable : retryOn) {
if (retryThrowable.isAssignableFrom(cause.getClass())) {
return true;
}
}
}
return false;
}
private boolean isRetryThrowable(Throwable throwable, Class<? extends Throwable>[] retryOn) {
Throwable[] causes = ExceptionUtils.getThrowables(throwable);
for (Throwable cause : causes) {
for (Class<? extends Throwable> retryThrowable : retryOn) {
if (retryThrowable.isAssignableFrom(cause.getClass())) {
return true;
}
}
}
return false;
}
private Retry getRetryAnnotation(ProceedingJoinPoint pjp) throws NoSuchMethodException {
MethodSignature signature = (MethodSignature) pjp.getSignature();
Method method = signature.getMethod();
Retry retryAnnotation = AnnotationUtils.findAnnotation(method, Retry.class);
private Retry getRetryAnnotation(ProceedingJoinPoint pjp) throws NoSuchMethodException {
MethodSignature signature = (MethodSignature) pjp.getSignature();
Method method = signature.getMethod();
Retry retryAnnotation = AnnotationUtils.findAnnotation(method, Retry.class);
if (retryAnnotation != null) {
return retryAnnotation;
}
if (retryAnnotation != null) {
return retryAnnotation;
}
Class<?>[] argClasses = new Class[pjp.getArgs().length];
for (int i = 0; i < pjp.getArgs().length; i++) {
argClasses[i] = pjp.getArgs()[i].getClass();
}
method = pjp.getTarget().getClass().getMethod(pjp.getSignature().getName(), argClasses);
return AnnotationUtils.findAnnotation(method, Retry.class);
}
Class<?>[] argClasses = new Class[pjp.getArgs().length];
for (int i = 0; i < pjp.getArgs().length; i++) {
argClasses[i] = pjp.getArgs()[i].getClass();
}
method = pjp.getTarget().getClass().getMethod(pjp.getSignature().getName(), argClasses);
return AnnotationUtils.findAnnotation(method, Retry.class);
}
}

112
src/main/java/net/helenus/core/aspect/RetryConcurrentUnitOfWorkAspect.java
View file

@ -2,7 +2,7 @@ package net.helenus.core.aspect;
import java.lang.reflect.Method;
import java.util.Arrays;
import net.helenus.core.annotation.Retry;
import org.apache.commons.lang3.exception.ExceptionUtils;
import org.aspectj.lang.ProceedingJoinPoint;
import org.aspectj.lang.annotation.Around;
@ -13,71 +13,69 @@ import org.slf4j.LoggerFactory;
import org.springframework.core.annotation.AnnotationUtils;
import org.springframework.util.Assert;
import net.helenus.core.annotation.Retry;
@Aspect
public class RetryConcurrentUnitOfWorkAspect {
private static final Logger log = LoggerFactory.getLogger(RetryConcurrentUnitOfWorkAspect.class);
private static final Logger log = LoggerFactory.getLogger(RetryConcurrentUnitOfWorkAspect.class);
@Around("@annotation(net.helenus.core.annotations.Retry)")
public Object retry(ProceedingJoinPoint pjp) throws Throwable {
Retry retryAnnotation = getRetryAnnotation(pjp);
return (retryAnnotation != null) ? proceed(pjp, retryAnnotation) : proceed(pjp);
}
@Around("@annotation(net.helenus.core.annotations.Retry)")
public Object retry(ProceedingJoinPoint pjp) throws Throwable {
Retry retryAnnotation = getRetryAnnotation(pjp);
return (retryAnnotation != null) ? proceed(pjp, retryAnnotation) : proceed(pjp);
}
private Object proceed(ProceedingJoinPoint pjp) throws Throwable {
return pjp.proceed();
}
private Object proceed(ProceedingJoinPoint pjp) throws Throwable {
return pjp.proceed();
}
private Object proceed(ProceedingJoinPoint pjp, Retry retryAnnotation) throws Throwable {
int times = retryAnnotation.times();
Class<? extends Throwable>[] retryOn = retryAnnotation.on();
Assert.isTrue(times > 0, "@Retry{times} should be greater than 0!");
Assert.isTrue(retryOn.length > 0, "@Retry{on} should have at least one Throwable!");
log.info("Proceed with {} retries on {}", times, Arrays.toString(retryOn));
return tryProceeding(pjp, times, retryOn);
}
private Object proceed(ProceedingJoinPoint pjp, Retry retryAnnotation) throws Throwable {
int times = retryAnnotation.times();
Class<? extends Throwable>[] retryOn = retryAnnotation.on();
Assert.isTrue(times > 0, "@Retry{times} should be greater than 0!");
Assert.isTrue(retryOn.length > 0, "@Retry{on} should have at least one Throwable!");
log.info("Proceed with {} retries on {}", times, Arrays.toString(retryOn));
return tryProceeding(pjp, times, retryOn);
}
private Object tryProceeding(ProceedingJoinPoint pjp, int times, Class<? extends Throwable>[] retryOn)
throws Throwable {
try {
return proceed(pjp);
} catch (Throwable throwable) {
if (isRetryThrowable(throwable, retryOn) && times-- > 0) {
log.info("Conflict detected, {} remaining retries on {}", times, Arrays.toString(retryOn));
return tryProceeding(pjp, times, retryOn);
}
throw throwable;
}
}
private Object tryProceeding(
ProceedingJoinPoint pjp, int times, Class<? extends Throwable>[] retryOn) throws Throwable {
try {
return proceed(pjp);
} catch (Throwable throwable) {
if (isRetryThrowable(throwable, retryOn) && times-- > 0) {
log.info("Conflict detected, {} remaining retries on {}", times, Arrays.toString(retryOn));
return tryProceeding(pjp, times, retryOn);
}
throw throwable;
}
}
private boolean isRetryThrowable(Throwable throwable, Class<? extends Throwable>[] retryOn) {
Throwable[] causes = ExceptionUtils.getThrowables(throwable);
for (Throwable cause : causes) {
for (Class<? extends Throwable> retryThrowable : retryOn) {
if (retryThrowable.isAssignableFrom(cause.getClass())) {
return true;
}
}
}
return false;
}
private boolean isRetryThrowable(Throwable throwable, Class<? extends Throwable>[] retryOn) {
Throwable[] causes = ExceptionUtils.getThrowables(throwable);
for (Throwable cause : causes) {
for (Class<? extends Throwable> retryThrowable : retryOn) {
if (retryThrowable.isAssignableFrom(cause.getClass())) {
return true;
}
}
}
return false;
}
private Retry getRetryAnnotation(ProceedingJoinPoint pjp) throws NoSuchMethodException {
MethodSignature signature = (MethodSignature) pjp.getSignature();
Method method = signature.getMethod();
Retry retryAnnotation = AnnotationUtils.findAnnotation(method, Retry.class);
private Retry getRetryAnnotation(ProceedingJoinPoint pjp) throws NoSuchMethodException {
MethodSignature signature = (MethodSignature) pjp.getSignature();
Method method = signature.getMethod();
Retry retryAnnotation = AnnotationUtils.findAnnotation(method, Retry.class);
if (retryAnnotation != null) {
return retryAnnotation;
}
if (retryAnnotation != null) {
return retryAnnotation;
}
Class[] argClasses = new Class[pjp.getArgs().length];
for (int i = 0; i < pjp.getArgs().length; i++) {
argClasses[i] = pjp.getArgs()[i].getClass();
}
method = pjp.getTarget().getClass().getMethod(pjp.getSignature().getName(), argClasses);
return AnnotationUtils.findAnnotation(method, Retry.class);
}
Class[] argClasses = new Class[pjp.getArgs().length];
for (int i = 0; i < pjp.getArgs().length; i++) {
argClasses[i] = pjp.getArgs()[i].getClass();
}
method = pjp.getTarget().getClass().getMethod(pjp.getSignature().getName(), argClasses);
return AnnotationUtils.findAnnotation(method, Retry.class);
}
}

47
src/main/java/net/helenus/core/cache/BoundFacet.java vendored
View file

@ -18,28 +18,37 @@ package net.helenus.core.cache;
import java.util.HashMap;
import java.util.Map;
import java.util.stream.Collectors;
import net.helenus.mapping.HelenusProperty;
public class BoundFacet extends Facet<String> {
private final Map<HelenusProperty, Object> properties;
private final Map<HelenusProperty, Object> properties;
public BoundFacet(HelenusProperty property, Object value) {
super(property.getPropertyName(), value == null ? null : value.toString());
this.properties = new HashMap<HelenusProperty, Object>(1);
this.properties.put(property, value);
}
public BoundFacet(String name, Map<HelenusProperty, Object> properties) {
super(name,
(properties.keySet().size() > 1)
? "[" + String.join(", ",
properties.keySet().stream().map(key -> properties.get(key).toString())
.collect(Collectors.toSet()))
+ "]"
: String.join("", properties.keySet().stream().map(key -> properties.get(key).toString())
.collect(Collectors.toSet())));
this.properties = properties;
}
public BoundFacet(HelenusProperty property, Object value) {
super(property.getPropertyName(), value == null ? null : value.toString());
this.properties = new HashMap<HelenusProperty, Object>(1);
this.properties.put(property, value);
}
public BoundFacet(String name, Map<HelenusProperty, Object> properties) {
super(
name,
(properties.keySet().size() > 1)
? "["
+ String.join(
", ",
properties
.keySet()
.stream()
.map(key -> properties.get(key).toString())
.collect(Collectors.toSet()))
+ "]"
: String.join(
"",
properties
.keySet()
.stream()
.map(key -> properties.get(key).toString())
.collect(Collectors.toSet())));
this.properties = properties;
}
}

111
src/main/java/net/helenus/core/cache/CacheUtil.java vendored
View file

@ -6,59 +6,68 @@ import java.util.stream.Collectors;
public class CacheUtil {
public static List<String[]> combinations(List<String> items) {
int n = items.size();
if (n > 20)
throw new IllegalArgumentException(n + " is out of range");
long e = Math.round(Math.pow(2, n));
List<String[]> out = new ArrayList<String[]>((int) e - 1);
for (int k = 1; k <= items.size(); k++) {
kCombinations(items, 0, k, new String[k], out);
}
return out;
}
public static List<String[]> combinations(List<String> items) {
int n = items.size();
if (n > 20) throw new IllegalArgumentException(n + " is out of range");
long e = Math.round(Math.pow(2, n));
List<String[]> out = new ArrayList<String[]>((int) e - 1);
for (int k = 1; k <= items.size(); k++) {
kCombinations(items, 0, k, new String[k], out);
}
return out;
}
private static void kCombinations(List<String> items, int n, int k, String[] arr, List<String[]> out) {
if (k == 0) {
out.add(arr.clone());
} else {
for (int i = n; i <= items.size() - k; i++) {
arr[arr.length - k] = items.get(i);
kCombinations(items, i + 1, k - 1, arr, out);
}
}
}
private static void kCombinations(
List<String> items, int n, int k, String[] arr, List<String[]> out) {
if (k == 0) {
out.add(arr.clone());
} else {
for (int i = n; i <= items.size() - k; i++) {
arr[arr.length - k] = items.get(i);
kCombinations(items, i + 1, k - 1, arr, out);
}
}
}
public static List<String[]> flattenFacets(List<Facet> facets) {
List<String[]> combinations = CacheUtil.combinations(
facets.stream().filter(facet -> !facet.fixed()).filter(facet -> facet.value() != null).map(facet -> {
return facet.name() + "==" + facet.value();
}).collect(Collectors.toList()));
return combinations;
}
public static List<String[]> flattenFacets(List<Facet> facets) {
List<String[]> combinations =
CacheUtil.combinations(
facets
.stream()
.filter(facet -> !facet.fixed())
.filter(facet -> facet.value() != null)
.map(
facet -> {
return facet.name() + "==" + facet.value();
})
.collect(Collectors.toList()));
return combinations;
}
public static Object merge(Object to, Object from) {
if (to == from) {
return to;
} else {
return from;
}
/*
* // TODO(gburd): take ttl and writeTime into account when merging. Map<String,
* Object> toValueMap = to instanceof MapExportable ? ((MapExportable)
* to).toMap() : null; Map<String, Object> fromValueMap = to instanceof
* MapExportable ? ((MapExportable) from).toMap() : null;
*
* if (toValueMap != null && fromValueMap != null) { for (String key :
* fromValueMap.keySet()) { if (toValueMap.containsKey(key) &&
* toValueMap.get(key) != fromValueMap.get(key)) { toValueMap.put(key,
* fromValueMap.get(key)); } } } return to;
*/
}
public static String schemaName(List<Facet> facets) {
return facets.stream().filter(Facet::fixed).map(facet -> facet.value().toString())
.collect(Collectors.joining("."));
}
public static Object merge(Object to, Object from) {
if (to == from) {
return to;
} else {
return from;
}
/*
* // TODO(gburd): take ttl and writeTime into account when merging. Map<String,
* Object> toValueMap = to instanceof MapExportable ? ((MapExportable)
* to).toMap() : null; Map<String, Object> fromValueMap = to instanceof
* MapExportable ? ((MapExportable) from).toMap() : null;
*
* if (toValueMap != null && fromValueMap != null) { for (String key :
* fromValueMap.keySet()) { if (toValueMap.containsKey(key) &&
* toValueMap.get(key) != fromValueMap.get(key)) { toValueMap.put(key,
* fromValueMap.get(key)); } } } return to;
*/
}
public static String schemaName(List<Facet> facets) {
return facets
.stream()
.filter(Facet::fixed)
.map(facet -> facet.value().toString())
.collect(Collectors.joining("."));
}
}

51
src/main/java/net/helenus/core/cache/Facet.java vendored
View file

@ -16,38 +16,35 @@
package net.helenus.core.cache;
/**
* An Entity is identifiable via one or more Facets
*/
/** An Entity is identifiable via one or more Facets */
public class Facet<T> {
private final String name;
private T value;
private boolean fixed = false;
private final String name;
private T value;
private boolean fixed = false;
public Facet(String name) {
this.name = name;
}
public Facet(String name) {
this.name = name;
}
public Facet(String name, T value) {
this.name = name;
this.value = value;
}
public Facet(String name, T value) {
this.name = name;
this.value = value;
}
public String name() {
return name;
}
public String name() {
return name;
}
public T value() {
return value;
}
public T value() {
return value;
}
public Facet setFixed() {
fixed = true;
return this;
}
public boolean fixed() {
return fixed;
}
public Facet setFixed() {
fixed = true;
return this;
}
public boolean fixed() {
return fixed;
}
}

33
src/main/java/net/helenus/core/cache/GuavaCache.java vendored
View file

@ -20,25 +20,24 @@ import com.google.common.cache.Cache;
public class GuavaCache<K, V> implements SessionCache<K, V> {
final Cache<K, V> cache;
final Cache<K, V> cache;
GuavaCache(Cache<K, V> cache) {
this.cache = cache;
}
GuavaCache(Cache<K, V> cache) {
this.cache = cache;
}
@Override
public void invalidate(K key) {
cache.invalidate(key);
}
@Override
public void invalidate(K key) {
cache.invalidate(key);
}
@Override
public V get(K key) {
return cache.getIfPresent(key);
}
@Override
public void put(K key, V value) {
cache.put(key, value);
}
@Override
public V get(K key) {
return cache.getIfPresent(key);
}
@Override
public void put(K key, V value) {
cache.put(key, value);
}
}

55
src/main/java/net/helenus/core/cache/SessionCache.java vendored
View file

@ -16,38 +16,45 @@
package net.helenus.core.cache;
import java.util.concurrent.TimeUnit;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import com.google.common.cache.CacheBuilder;
import com.google.common.cache.RemovalListener;
import com.google.common.cache.RemovalNotification;
import java.util.concurrent.TimeUnit;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
public interface SessionCache<K, V> {
static final Logger LOG = LoggerFactory.getLogger(SessionCache.class);
static final Logger LOG = LoggerFactory.getLogger(SessionCache.class);
static <K, V> SessionCache<K, V> defaultCache() {
GuavaCache<K, V> cache;
RemovalListener<K, V> listener = new RemovalListener<K, V>() {
@Override
public void onRemoval(RemovalNotification<K, V> n) {
if (n.wasEvicted()) {
String cause = n.getCause().name();
LOG.info(cause);
}
}
};
static <K, V> SessionCache<K, V> defaultCache() {
GuavaCache<K, V> cache;
RemovalListener<K, V> listener =
new RemovalListener<K, V>() {
@Override
public void onRemoval(RemovalNotification<K, V> n) {
if (n.wasEvicted()) {
String cause = n.getCause().name();
LOG.info(cause);
}
}
};
cache = new GuavaCache<K, V>(CacheBuilder.newBuilder().maximumSize(25_000)
.expireAfterAccess(5, TimeUnit.MINUTES).softValues().removalListener(listener).build());
cache =
new GuavaCache<K, V>(
CacheBuilder.newBuilder()
.maximumSize(25_000)
.expireAfterAccess(5, TimeUnit.MINUTES)
.softValues()
.removalListener(listener)
.build());
return cache;
}
return cache;
}
void invalidate(K key);
V get(K key);
void put(K key, V value);
void invalidate(K key);
V get(K key);
void put(K key, V value);
}

73
src/main/java/net/helenus/core/cache/UnboundFacet.java vendored
View file

@ -19,56 +19,55 @@ import java.util.ArrayList;
import java.util.HashMap;
import java.util.List;
import java.util.Map;
import net.helenus.core.SchemaUtil;
import net.helenus.mapping.HelenusProperty;
public class UnboundFacet extends Facet<String> {
private final List<HelenusProperty> properties;
private final List<HelenusProperty> properties;
public UnboundFacet(List<HelenusProperty> properties) {
super(SchemaUtil.createPrimaryKeyPhrase(properties));
this.properties = properties;
}
public UnboundFacet(List<HelenusProperty> properties) {
super(SchemaUtil.createPrimaryKeyPhrase(properties));
this.properties = properties;
}
public UnboundFacet(HelenusProperty property) {
super(property.getPropertyName());
properties = new ArrayList<HelenusProperty>();
properties.add(property);
}
public UnboundFacet(HelenusProperty property) {
super(property.getPropertyName());
properties = new ArrayList<HelenusProperty>();
properties.add(property);
}
public List<HelenusProperty> getProperties() {
return properties;
}
public List<HelenusProperty> getProperties() {
return properties;
}
public Binder binder() {
return new Binder(name(), properties);
}
public Binder binder() {
return new Binder(name(), properties);
}
public static class Binder {
public static class Binder {
private final String name;
private final List<HelenusProperty> properties = new ArrayList<HelenusProperty>();
private Map<HelenusProperty, Object> boundProperties = new HashMap<HelenusProperty, Object>();
private final String name;
private final List<HelenusProperty> properties = new ArrayList<HelenusProperty>();
private Map<HelenusProperty, Object> boundProperties = new HashMap<HelenusProperty, Object>();
Binder(String name, List<HelenusProperty> properties) {
this.name = name;
this.properties.addAll(properties);
}
Binder(String name, List<HelenusProperty> properties) {
this.name = name;
this.properties.addAll(properties);
}
public Binder setValueForProperty(HelenusProperty prop, Object value) {
properties.remove(prop);
boundProperties.put(prop, value);
return this;
}
public Binder setValueForProperty(HelenusProperty prop, Object value) {
properties.remove(prop);
boundProperties.put(prop, value);
return this;
}
public boolean isBound() {
return properties.isEmpty();
}
public boolean isBound() {
return properties.isEmpty();
}
public BoundFacet bind() {
return new BoundFacet(name, boundProperties);
}
}
public BoundFacet bind() {
return new BoundFacet(name, boundProperties);
}
}
}

173
src/main/java/net/helenus/core/operation/AbstractFilterOperation.java
View file

@ -16,132 +16,129 @@
package net.helenus.core.operation;
import java.util.*;
import net.helenus.core.*;
import net.helenus.core.cache.Facet;
import net.helenus.core.cache.UnboundFacet;
import net.helenus.mapping.HelenusProperty;
public abstract class AbstractFilterOperation<E, O extends AbstractFilterOperation<E, O>>
extends
AbstractOperation<E, O> {
extends AbstractOperation<E, O> {
protected List<Filter<?>> filters = null;
protected List<Filter<?>> ifFilters = null;
protected List<Filter<?>> filters = null;
protected List<Filter<?>> ifFilters = null;
public AbstractFilterOperation(AbstractSessionOperations sessionOperations) {
super(sessionOperations);
}
public AbstractFilterOperation(AbstractSessionOperations sessionOperations) {
super(sessionOperations);
}
public <V> O where(Getter<V> getter, Postulate<V> postulate) {
public <V> O where(Getter<V> getter, Postulate<V> postulate) {
addFilter(Filter.create(getter, postulate));
addFilter(Filter.create(getter, postulate));
return (O) this;
}
return (O) this;
}
public <V> O where(Getter<V> getter, Operator operator, V val) {
public <V> O where(Getter<V> getter, Operator operator, V val) {
addFilter(Filter.create(getter, operator, val));
addFilter(Filter.create(getter, operator, val));
return (O) this;
}
return (O) this;
}
public <V> O where(Filter<V> filter) {
public <V> O where(Filter<V> filter) {
addFilter(filter);
addFilter(filter);
return (O) this;
}
return (O) this;
}
public <V> O and(Getter<V> getter, Postulate<V> postulate) {
public <V> O and(Getter<V> getter, Postulate<V> postulate) {
addFilter(Filter.create(getter, postulate));
addFilter(Filter.create(getter, postulate));
return (O) this;
}
return (O) this;
}
public <V> O and(Getter<V> getter, Operator operator, V val) {
public <V> O and(Getter<V> getter, Operator operator, V val) {
addFilter(Filter.create(getter, operator, val));
addFilter(Filter.create(getter, operator, val));
return (O) this;
}
return (O) this;
}
public <V> O and(Filter<V> filter) {
public <V> O and(Filter<V> filter) {
addFilter(filter);
addFilter(filter);
return (O) this;
}
return (O) this;
}
public <V> O onlyIf(Getter<V> getter, Postulate<V> postulate) {
public <V> O onlyIf(Getter<V> getter, Postulate<V> postulate) {
addIfFilter(Filter.create(getter, postulate));
addIfFilter(Filter.create(getter, postulate));
return (O) this;
}
return (O) this;
}
public <V> O onlyIf(Getter<V> getter, Operator operator, V val) {
public <V> O onlyIf(Getter<V> getter, Operator operator, V val) {
addIfFilter(Filter.create(getter, operator, val));
addIfFilter(Filter.create(getter, operator, val));
return (O) this;
}
return (O) this;
}
public <V> O onlyIf(Filter<V> filter) {
public <V> O onlyIf(Filter<V> filter) {
addIfFilter(filter);
addIfFilter(filter);
return (O) this;
}
return (O) this;
}
private void addFilter(Filter<?> filter) {
if (filters == null) {
filters = new LinkedList<Filter<?>>();
}
filters.add(filter);
}
private void addFilter(Filter<?> filter) {
if (filters == null) {
filters = new LinkedList<Filter<?>>();
}
filters.add(filter);
}
private void addIfFilter(Filter<?> filter) {
if (ifFilters == null) {
ifFilters = new LinkedList<Filter<?>>();
}
ifFilters.add(filter);
}
private void addIfFilter(Filter<?> filter) {
if (ifFilters == null) {
ifFilters = new LinkedList<Filter<?>>();
}
ifFilters.add(filter);
}
protected List<Facet> bindFacetValues(List<Facet> facets) {
if (facets == null) {
return new ArrayList<Facet>();
}
List<Facet> boundFacets = new ArrayList<>();
Map<HelenusProperty, Filter> filterMap = new HashMap<>(filters.size());
filters.forEach(f -> filterMap.put(f.getNode().getProperty(), f));
protected List<Facet> bindFacetValues(List<Facet> facets) {
if (facets == null) {
return new ArrayList<Facet>();
}
List<Facet> boundFacets = new ArrayList<>();
Map<HelenusProperty, Filter> filterMap = new HashMap<>(filters.size());
filters.forEach(f -> filterMap.put(f.getNode().getProperty(), f));
for (Facet facet : facets) {
if (facet instanceof UnboundFacet) {
UnboundFacet unboundFacet = (UnboundFacet) facet;
UnboundFacet.Binder binder = unboundFacet.binder();
if (filters != null) {
for (HelenusProperty prop : unboundFacet.getProperties()) {
for (Facet facet : facets) {
if (facet instanceof UnboundFacet) {
UnboundFacet unboundFacet = (UnboundFacet) facet;
UnboundFacet.Binder binder = unboundFacet.binder();
if (filters != null) {
for (HelenusProperty prop : unboundFacet.getProperties()) {
Filter filter = filterMap.get(prop);
if (filter != null) {
Object[] postulates = filter.postulateValues();
for (Object p : postulates) {
binder.setValueForProperty(prop, p.toString());
}
}
}
}
if (binder.isBound()) {
boundFacets.add(binder.bind());
}
} else {
boundFacets.add(facet);
}
}
return boundFacets;
}
Filter filter = filterMap.get(prop);
if (filter != null) {
Object[] postulates = filter.postulateValues();
for (Object p : postulates) {
binder.setValueForProperty(prop, p.toString());
}
}
}
}
if (binder.isBound()) {
boundFacets.add(binder.bind());
}
} else {
boundFacets.add(facet);
}
}
return boundFacets;
}
}

113
src/main/java/net/helenus/core/operation/AbstractFilterOptionalOperation.java
View file

@ -19,95 +19,94 @@ import java.util.LinkedHashMap;
import java.util.LinkedList;
import java.util.List;
import java.util.Map;
import net.helenus.core.*;
import net.helenus.mapping.HelenusProperty;
public abstract class AbstractFilterOptionalOperation<E, O extends AbstractFilterOptionalOperation<E, O>>
extends
AbstractOptionalOperation<E, O> {
public abstract class AbstractFilterOptionalOperation<
E, O extends AbstractFilterOptionalOperation<E, O>>
extends AbstractOptionalOperation<E, O> {
protected Map<HelenusProperty, Filter<?>> filters = null;
protected List<Filter<?>> ifFilters = null;
protected Map<HelenusProperty, Filter<?>> filters = null;
protected List<Filter<?>> ifFilters = null;
public AbstractFilterOptionalOperation(AbstractSessionOperations sessionOperations) {
super(sessionOperations);
}
public AbstractFilterOptionalOperation(AbstractSessionOperations sessionOperations) {
super(sessionOperations);
}
public <V> O where(Getter<V> getter, Postulate<V> postulate) {
public <V> O where(Getter<V> getter, Postulate<V> postulate) {
addFilter(Filter.create(getter, postulate));
addFilter(Filter.create(getter, postulate));
return (O) this;
}
return (O) this;
}
public <V> O where(Getter<V> getter, Operator operator, V val) {
public <V> O where(Getter<V> getter, Operator operator, V val) {
addFilter(Filter.create(getter, operator, val));
addFilter(Filter.create(getter, operator, val));
return (O) this;
}
return (O) this;
}
public <V> O where(Filter<V> filter) {
public <V> O where(Filter<V> filter) {
addFilter(filter);
addFilter(filter);
return (O) this;
}
return (O) this;
}
public <V> O and(Getter<V> getter, Postulate<V> postulate) {
public <V> O and(Getter<V> getter, Postulate<V> postulate) {
addFilter(Filter.create(getter, postulate));
addFilter(Filter.create(getter, postulate));
return (O) this;
}
return (O) this;
}
public <V> O and(Getter<V> getter, Operator operator, V val) {
public <V> O and(Getter<V> getter, Operator operator, V val) {
addFilter(Filter.create(getter, operator, val));
addFilter(Filter.create(getter, operator, val));
return (O) this;
}
return (O) this;
}
public <V> O and(Filter<V> filter) {
public <V> O and(Filter<V> filter) {
addFilter(filter);
addFilter(filter);
return (O) this;
}
return (O) this;
}
public <V> O onlyIf(Getter<V> getter, Postulate<V> postulate) {
public <V> O onlyIf(Getter<V> getter, Postulate<V> postulate) {
addIfFilter(Filter.create(getter, postulate));
addIfFilter(Filter.create(getter, postulate));
return (O) this;
}
return (O) this;
}
public <V> O onlyIf(Getter<V> getter, Operator operator, V val) {
public <V> O onlyIf(Getter<V> getter, Operator operator, V val) {
addIfFilter(Filter.create(getter, operator, val));
addIfFilter(Filter.create(getter, operator, val));
return (O) this;
}
return (O) this;
}
public <V> O onlyIf(Filter<V> filter) {
public <V> O onlyIf(Filter<V> filter) {
addIfFilter(filter);
addIfFilter(filter);
return (O) this;
}
return (O) this;
}
private void addFilter(Filter<?> filter) {
if (filters == null) {
filters = new LinkedHashMap<HelenusProperty, Filter<?>>();
}
filters.put(filter.getNode().getProperty(), filter);
}
private void addFilter(Filter<?> filter) {
if (filters == null) {
filters = new LinkedHashMap<HelenusProperty, Filter<?>>();
}
filters.put(filter.getNode().getProperty(), filter);
}
private void addIfFilter(Filter<?> filter) {
if (ifFilters == null) {
ifFilters = new LinkedList<Filter<?>>();
}
ifFilters.add(filter);
}
private void addIfFilter(Filter<?> filter) {
if (ifFilters == null) {
ifFilters = new LinkedList<Filter<?>>();
}
ifFilters.add(filter);
}
}

113
src/main/java/net/helenus/core/operation/AbstractFilterStreamOperation.java
View file

@ -19,95 +19,94 @@ import java.util.LinkedHashMap;
import java.util.LinkedList;
import java.util.List;
import java.util.Map;
import net.helenus.core.*;
import net.helenus.mapping.HelenusProperty;
public abstract class AbstractFilterStreamOperation<E, O extends AbstractFilterStreamOperation<E, O>>
extends
AbstractStreamOperation<E, O> {
public abstract class AbstractFilterStreamOperation<
E, O extends AbstractFilterStreamOperation<E, O>>
extends AbstractStreamOperation<E, O> {
protected Map<HelenusProperty, Filter<?>> filters = null;
protected List<Filter<?>> ifFilters = null;
protected Map<HelenusProperty, Filter<?>> filters = null;
protected List<Filter<?>> ifFilters = null;
public AbstractFilterStreamOperation(AbstractSessionOperations sessionOperations) {
super(sessionOperations);
}
public AbstractFilterStreamOperation(AbstractSessionOperations sessionOperations) {
super(sessionOperations);
}
public <V> O where(Getter<V> getter, Postulate<V> postulate) {
public <V> O where(Getter<V> getter, Postulate<V> postulate) {
addFilter(Filter.create(getter, postulate));
addFilter(Filter.create(getter, postulate));
return (O) this;
}
return (O) this;
}
public <V> O where(Getter<V> getter, Operator operator, V val) {
public <V> O where(Getter<V> getter, Operator operator, V val) {
addFilter(Filter.create(getter, operator, val));
addFilter(Filter.create(getter, operator, val));
return (O) this;
}
return (O) this;
}
public <V> O where(Filter<V> filter) {
public <V> O where(Filter<V> filter) {
addFilter(filter);
addFilter(filter);
return (O) this;
}
return (O) this;
}
public <V> O and(Getter<V> getter, Postulate<V> postulate) {
public <V> O and(Getter<V> getter, Postulate<V> postulate) {
addFilter(Filter.create(getter, postulate));
addFilter(Filter.create(getter, postulate));
return (O) this;
}
return (O) this;
}
public <V> O and(Getter<V> getter, Operator operator, V val) {
public <V> O and(Getter<V> getter, Operator operator, V val) {
addFilter(Filter.create(getter, operator, val));
addFilter(Filter.create(getter, operator, val));
return (O) this;
}
return (O) this;
}
public <V> O and(Filter<V> filter) {
public <V> O and(Filter<V> filter) {
addFilter(filter);
addFilter(filter);
return (O) this;
}
return (O) this;
}
public <V> O onlyIf(Getter<V> getter, Postulate<V> postulate) {
public <V> O onlyIf(Getter<V> getter, Postulate<V> postulate) {
addIfFilter(Filter.create(getter, postulate));
addIfFilter(Filter.create(getter, postulate));
return (O) this;
}
return (O) this;
}
public <V> O onlyIf(Getter<V> getter, Operator operator, V val) {
public <V> O onlyIf(Getter<V> getter, Operator operator, V val) {
addIfFilter(Filter.create(getter, operator, val));
addIfFilter(Filter.create(getter, operator, val));
return (O) this;
}
return (O) this;
}
public <V> O onlyIf(Filter<V> filter) {
public <V> O onlyIf(Filter<V> filter) {
addIfFilter(filter);
addIfFilter(filter);
return (O) this;
}
return (O) this;
}
private void addFilter(Filter<?> filter) {
if (filters == null) {
filters = new LinkedHashMap<HelenusProperty, Filter<?>>();
}
filters.put(filter.getNode().getProperty(), filter);
}
private void addFilter(Filter<?> filter) {
if (filters == null) {
filters = new LinkedHashMap<HelenusProperty, Filter<?>>();
}
filters.put(filter.getNode().getProperty(), filter);
}
private void addIfFilter(Filter<?> filter) {
if (ifFilters == null) {
ifFilters = new LinkedList<Filter<?>>();
}
ifFilters.add(filter);
}
private void addIfFilter(Filter<?> filter) {
if (ifFilters == null) {
ifFilters = new LinkedList<Filter<?>>();
}
ifFilters.add(filter);
}
}

123
src/main/java/net/helenus/core/operation/AbstractOperation.java
View file

@ -15,73 +15,86 @@
*/
package net.helenus.core.operation;
import com.codahale.metrics.Timer;
import com.datastax.driver.core.ResultSet;
import java.util.concurrent.CompletableFuture;
import java.util.concurrent.CompletionException;
import java.util.concurrent.TimeoutException;
import com.codahale.metrics.Timer;
import com.datastax.driver.core.ResultSet;
import net.helenus.core.AbstractSessionOperations;
import net.helenus.core.UnitOfWork;
public abstract class AbstractOperation<E, O extends AbstractOperation<E, O>> extends AbstractStatementOperation<E, O> {
public abstract class AbstractOperation<E, O extends AbstractOperation<E, O>>
extends AbstractStatementOperation<E, O> {
public AbstractOperation(AbstractSessionOperations sessionOperations) {
super(sessionOperations);
}
public AbstractOperation(AbstractSessionOperations sessionOperations) {
super(sessionOperations);
}
public abstract E transform(ResultSet resultSet);
public abstract E transform(ResultSet resultSet);
public PreparedOperation<E> prepare() {
return new PreparedOperation<E>(prepareStatement(), this);
}
public PreparedOperation<E> prepare() {
return new PreparedOperation<E>(prepareStatement(), this);
}
public E sync() throws TimeoutException {
final Timer.Context context = requestLatency.time();
try {
ResultSet resultSet = this.execute(sessionOps, null, traceContext, queryExecutionTimeout, queryTimeoutUnits,
showValues, false);
return transform(resultSet);
} finally {
context.stop();
}
}
public E sync() throws TimeoutException {
final Timer.Context context = requestLatency.time();
try {
ResultSet resultSet =
this.execute(
sessionOps,
null,
traceContext,
queryExecutionTimeout,
queryTimeoutUnits,
showValues,
false);
return transform(resultSet);
} finally {
context.stop();
}
}
public E sync(UnitOfWork uow) throws TimeoutException {
if (uow == null)
return sync();
public E sync(UnitOfWork uow) throws TimeoutException {
if (uow == null) return sync();
final Timer.Context context = requestLatency.time();
try {
ResultSet resultSet = execute(sessionOps, uow, traceContext, queryExecutionTimeout, queryTimeoutUnits,
showValues, true);
E result = transform(resultSet);
return result;
} finally {
context.stop();
}
}
final Timer.Context context = requestLatency.time();
try {
ResultSet resultSet =
execute(
sessionOps,
uow,
traceContext,
queryExecutionTimeout,
queryTimeoutUnits,
showValues,
true);
E result = transform(resultSet);
return result;
} finally {
context.stop();
}
}
public CompletableFuture<E> async() {
return CompletableFuture.<E>supplyAsync(() -> {
try {
return sync();
} catch (TimeoutException ex) {
throw new CompletionException(ex);
}
});
}
public CompletableFuture<E> async() {
return CompletableFuture.<E>supplyAsync(
() -> {
try {
return sync();
} catch (TimeoutException ex) {
throw new CompletionException(ex);
}
});
}
public CompletableFuture<E> async(UnitOfWork uow) {
if (uow == null)
return async();
return CompletableFuture.<E>supplyAsync(() -> {
try {
return sync();
} catch (TimeoutException ex) {
throw new CompletionException(ex);
}
});
}
public CompletableFuture<E> async(UnitOfWork uow) {
if (uow == null) return async();
return CompletableFuture.<E>supplyAsync(
() -> {
try {
return sync();
} catch (TimeoutException ex) {
throw new CompletionException(ex);
}
});
}
}

324
src/main/java/net/helenus/core/operation/AbstractOptionalOperation.java
View file

@ -17,12 +17,6 @@ package net.helenus.core.operation;
import static net.helenus.core.HelenusSession.deleted;
import java.util.List;
import java.util.Optional;
import java.util.concurrent.CompletableFuture;
import java.util.concurrent.CompletionException;
import java.util.concurrent.TimeoutException;
import com.codahale.metrics.Timer;
import com.datastax.driver.core.PreparedStatement;
import com.datastax.driver.core.ResultSet;
@ -30,180 +24,198 @@ import com.google.common.base.Function;
import com.google.common.base.Stopwatch;
import com.google.common.util.concurrent.Futures;
import com.google.common.util.concurrent.ListenableFuture;
import java.util.List;
import java.util.Optional;
import java.util.concurrent.CompletableFuture;
import java.util.concurrent.CompletionException;
import java.util.concurrent.TimeoutException;
import net.helenus.core.AbstractSessionOperations;
import net.helenus.core.UnitOfWork;
import net.helenus.core.cache.CacheUtil;
import net.helenus.core.cache.Facet;
public abstract class AbstractOptionalOperation<E, O extends AbstractOptionalOperation<E, O>>
extends
AbstractStatementOperation<E, O> {
extends AbstractStatementOperation<E, O> {
public AbstractOptionalOperation(AbstractSessionOperations sessionOperations) {
super(sessionOperations);
}
public AbstractOptionalOperation(AbstractSessionOperations sessionOperations) {
super(sessionOperations);
}
public abstract Optional<E> transform(ResultSet resultSet);
public abstract Optional<E> transform(ResultSet resultSet);
public PreparedOptionalOperation<E> prepare() {
return new PreparedOptionalOperation<E>(prepareStatement(), this);
}
public PreparedOptionalOperation<E> prepare() {
return new PreparedOptionalOperation<E>(prepareStatement(), this);
}
public ListenableFuture<PreparedOptionalOperation<E>> prepareAsync() {
final O _this = (O) this;
return Futures.transform(prepareStatementAsync(),
new Function<PreparedStatement, PreparedOptionalOperation<E>>() {
@Override
public PreparedOptionalOperation<E> apply(PreparedStatement preparedStatement) {
return new PreparedOptionalOperation<E>(preparedStatement, _this);
}
});
}
public ListenableFuture<PreparedOptionalOperation<E>> prepareAsync() {
final O _this = (O) this;
return Futures.transform(
prepareStatementAsync(),
new Function<PreparedStatement, PreparedOptionalOperation<E>>() {
@Override
public PreparedOptionalOperation<E> apply(PreparedStatement preparedStatement) {
return new PreparedOptionalOperation<E>(preparedStatement, _this);
}
});
}
public Optional<E> sync() throws TimeoutException {
final Timer.Context context = requestLatency.time();
try {
Optional<E> result = Optional.empty();
E cacheResult = null;
boolean updateCache = isSessionCacheable() && checkCache;
public Optional<E> sync() throws TimeoutException {
final Timer.Context context = requestLatency.time();
try {
Optional<E> result = Optional.empty();
E cacheResult = null;
boolean updateCache = isSessionCacheable() && checkCache;
if (checkCache && isSessionCacheable()) {
List<Facet> facets = bindFacetValues();
String tableName = CacheUtil.schemaName(facets);
cacheResult = (E) sessionOps.checkCache(tableName, facets);
if (cacheResult != null) {
result = Optional.of(cacheResult);
updateCache = false;
sessionCacheHits.mark();
cacheHits.mark();
} else {
sessionCacheMiss.mark();
cacheMiss.mark();
}
}
if (checkCache && isSessionCacheable()) {
List<Facet> facets = bindFacetValues();
String tableName = CacheUtil.schemaName(facets);
cacheResult = (E) sessionOps.checkCache(tableName, facets);
if (cacheResult != null) {
result = Optional.of(cacheResult);
updateCache = false;
sessionCacheHits.mark();
cacheHits.mark();
} else {
sessionCacheMiss.mark();
cacheMiss.mark();
}
}
if (!result.isPresent()) {
// Formulate the query and execute it against the Cassandra cluster.
ResultSet resultSet = this.execute(sessionOps, null, traceContext, queryExecutionTimeout,
queryTimeoutUnits, showValues, false);
if (!result.isPresent()) {
// Formulate the query and execute it against the Cassandra cluster.
ResultSet resultSet =
this.execute(
sessionOps,
null,
traceContext,
queryExecutionTimeout,
queryTimeoutUnits,
showValues,
false);
// Transform the query result set into the desired shape.
result = transform(resultSet);
}
// Transform the query result set into the desired shape.
result = transform(resultSet);
}
if (updateCache && result.isPresent()) {
List<Facet> facets = getFacets();
if (facets != null && facets.size() > 1) {
sessionOps.updateCache(result.get(), facets);
}
}
return result;
} finally {
context.stop();
}
}
if (updateCache && result.isPresent()) {
List<Facet> facets = getFacets();
if (facets != null && facets.size() > 1) {
sessionOps.updateCache(result.get(), facets);
}
}
return result;
} finally {
context.stop();
}
}
public Optional<E> sync(UnitOfWork<?> uow) throws TimeoutException {
if (uow == null)
return sync();
public Optional<E> sync(UnitOfWork<?> uow) throws TimeoutException {
if (uow == null) return sync();
final Timer.Context context = requestLatency.time();
try {
final Timer.Context context = requestLatency.time();
try {
Optional<E> result = Optional.empty();
E cachedResult = null;
final boolean updateCache;
Optional<E> result = Optional.empty();
E cachedResult = null;
final boolean updateCache;
if (checkCache) {
Stopwatch timer = Stopwatch.createStarted();
try {
List<Facet> facets = bindFacetValues();
if (facets != null) {
cachedResult = checkCache(uow, facets);
if (cachedResult != null) {
updateCache = false;
result = Optional.of(cachedResult);
uowCacheHits.mark();
cacheHits.mark();
uow.recordCacheAndDatabaseOperationCount(1, 0);
} else {
updateCache = true;
uowCacheMiss.mark();
if (isSessionCacheable()) {
String tableName = CacheUtil.schemaName(facets);
cachedResult = (E) sessionOps.checkCache(tableName, facets);
if (cachedResult != null) {
result = Optional.of(cachedResult);
sessionCacheHits.mark();
cacheHits.mark();
uow.recordCacheAndDatabaseOperationCount(1, 0);
} else {
sessionCacheMiss.mark();
cacheMiss.mark();
uow.recordCacheAndDatabaseOperationCount(-1, 0);
}
}
}
} else {
updateCache = false;
}
} finally {
timer.stop();
uow.addCacheLookupTime(timer);
}
} else {
updateCache = false;
}
if (checkCache) {
Stopwatch timer = Stopwatch.createStarted();
try {
List<Facet> facets = bindFacetValues();
if (facets != null) {
cachedResult = checkCache(uow, facets);
if (cachedResult != null) {
updateCache = false;
result = Optional.of(cachedResult);
uowCacheHits.mark();
cacheHits.mark();
uow.recordCacheAndDatabaseOperationCount(1, 0);
} else {
updateCache = true;
uowCacheMiss.mark();
if (isSessionCacheable()) {
String tableName = CacheUtil.schemaName(facets);
cachedResult = (E) sessionOps.checkCache(tableName, facets);
if (cachedResult != null) {
result = Optional.of(cachedResult);
sessionCacheHits.mark();
cacheHits.mark();
uow.recordCacheAndDatabaseOperationCount(1, 0);
} else {
sessionCacheMiss.mark();
cacheMiss.mark();
uow.recordCacheAndDatabaseOperationCount(-1, 0);
}
}
}
} else {
updateCache = false;
}
} finally {
timer.stop();
uow.addCacheLookupTime(timer);
}
} else {
updateCache = false;
}
// Check to see if we fetched the object from the cache
if (result.isPresent()) {
// If we fetched the `deleted` object then the result is null (really
// Optional.empty()).
if (result.get() == deleted) {
result = Optional.empty();
}
} else {
// Check to see if we fetched the object from the cache
if (result.isPresent()) {
// If we fetched the `deleted` object then the result is null (really
// Optional.empty()).
if (result.get() == deleted) {
result = Optional.empty();
}
} else {
// Formulate the query and execute it against the Cassandra cluster.
ResultSet resultSet = execute(sessionOps, uow, traceContext, queryExecutionTimeout, queryTimeoutUnits,
showValues, true);
// Formulate the query and execute it against the Cassandra cluster.
ResultSet resultSet =
execute(
sessionOps,
uow,
traceContext,
queryExecutionTimeout,
queryTimeoutUnits,
showValues,
true);
// Transform the query result set into the desired shape.
result = transform(resultSet);
}
// Transform the query result set into the desired shape.
result = transform(resultSet);
}
// If we have a result, it wasn't from the UOW cache, and we're caching things
// then we need to put this result into the cache for future requests to find.
if (updateCache && result.isPresent() && result.get() != deleted) {
cacheUpdate(uow, result.get(), getFacets());
}
// If we have a result, it wasn't from the UOW cache, and we're caching things
// then we need to put this result into the cache for future requests to find.
if (updateCache && result.isPresent() && result.get() != deleted) {
cacheUpdate(uow, result.get(), getFacets());
}
return result;
} finally {
context.stop();
}
}
return result;
} finally {
context.stop();
}
}
public CompletableFuture<Optional<E>> async() {
return CompletableFuture.<Optional<E>>supplyAsync(() -> {
try {
return sync();
} catch (TimeoutException ex) {
throw new CompletionException(ex);
}
});
}
public CompletableFuture<Optional<E>> async() {
return CompletableFuture.<Optional<E>>supplyAsync(
() -> {
try {
return sync();
} catch (TimeoutException ex) {
throw new CompletionException(ex);
}
});
}
public CompletableFuture<Optional<E>> async(UnitOfWork<?> uow) {
if (uow == null)
return async();
return CompletableFuture.<Optional<E>>supplyAsync(() -> {
try {
return sync();
} catch (TimeoutException ex) {
throw new CompletionException(ex);
}
});
}
public CompletableFuture<Optional<E>> async(UnitOfWork<?> uow) {
if (uow == null) return async();
return CompletableFuture.<Optional<E>>supplyAsync(
() -> {
try {
return sync();
} catch (TimeoutException ex) {
throw new CompletionException(ex);
}
});
}
}

655
src/main/java/net/helenus/core/operation/AbstractStatementOperation.java
View file

@ -15,12 +15,8 @@
*/
package net.helenus.core.operation;
import java.util.ArrayList;
import java.util.List;
import java.util.Map;
import java.util.Optional;
import java.util.concurrent.TimeUnit;
import brave.Tracer;
import brave.propagation.TraceContext;
import com.datastax.driver.core.ConsistencyLevel;
import com.datastax.driver.core.PreparedStatement;
import com.datastax.driver.core.RegularStatement;
@ -31,9 +27,11 @@ import com.datastax.driver.core.policies.FallthroughRetryPolicy;
import com.datastax.driver.core.policies.RetryPolicy;
import com.datastax.driver.core.querybuilder.BuiltStatement;
import com.google.common.util.concurrent.ListenableFuture;
import brave.Tracer;
import brave.propagation.TraceContext;
import java.util.ArrayList;
import java.util.List;
import java.util.Map;
import java.util.Optional;
import java.util.concurrent.TimeUnit;
import net.helenus.core.AbstractSessionOperations;
import net.helenus.core.UnitOfWork;
import net.helenus.core.cache.Facet;
@ -43,323 +41,324 @@ import net.helenus.mapping.HelenusProperty;
import net.helenus.mapping.value.BeanColumnValueProvider;
import net.helenus.support.HelenusException;
public abstract class AbstractStatementOperation<E, O extends AbstractStatementOperation<E, O>> extends Operation<E> {
protected boolean checkCache = true;
protected boolean showValues = true;
protected TraceContext traceContext;
long queryExecutionTimeout = 10;
TimeUnit queryTimeoutUnits = TimeUnit.SECONDS;
private ConsistencyLevel consistencyLevel;
private ConsistencyLevel serialConsistencyLevel;
private RetryPolicy retryPolicy;
private boolean idempotent = false;
private boolean enableTracing = false;
private long[] defaultTimestamp = null;
private int[] fetchSize = null;
public AbstractStatementOperation(AbstractSessionOperations sessionOperations) {
super(sessionOperations);
this.consistencyLevel = sessionOperations.getDefaultConsistencyLevel();
this.idempotent = sessionOperations.getDefaultQueryIdempotency();
}
public abstract Statement buildStatement(boolean cached);
public O uncached(boolean enabled) {
checkCache = enabled;
return (O) this;
}
public O uncached() {
checkCache = false;
return (O) this;
}
public O showValues(boolean enabled) {
this.showValues = enabled;
return (O) this;
}
public O defaultTimestamp(long timestamp) {
this.defaultTimestamp = new long[1];
this.defaultTimestamp[0] = timestamp;
return (O) this;
}
public O retryPolicy(RetryPolicy retryPolicy) {
this.retryPolicy = retryPolicy;
return (O) this;
}
public O defaultRetryPolicy() {
this.retryPolicy = DefaultRetryPolicy.INSTANCE;
return (O) this;
}
public O idempotent() {
this.idempotent = true;
return (O) this;
}
public O isIdempotent(boolean idempotent) {
this.idempotent = idempotent;
return (O) this;
}
public O downgradingConsistencyRetryPolicy() {
this.retryPolicy = DowngradingConsistencyRetryPolicy.INSTANCE;
return (O) this;
}
public O fallthroughRetryPolicy() {
this.retryPolicy = FallthroughRetryPolicy.INSTANCE;
return (O) this;
}
public O consistency(ConsistencyLevel level) {
this.consistencyLevel = level;
return (O) this;
}
public O consistencyAny() {
this.consistencyLevel = ConsistencyLevel.ANY;
return (O) this;
}
public O consistencyOne() {
this.consistencyLevel = ConsistencyLevel.ONE;
return (O) this;
}
public O consistencyQuorum() {
this.consistencyLevel = ConsistencyLevel.QUORUM;
return (O) this;
}
public O consistencyAll() {
this.consistencyLevel = ConsistencyLevel.ALL;
return (O) this;
}
public O consistencyLocalOne() {
this.consistencyLevel = ConsistencyLevel.LOCAL_ONE;
return (O) this;
}
public O consistencyLocalQuorum() {
this.consistencyLevel = ConsistencyLevel.LOCAL_QUORUM;
return (O) this;
}
public O consistencyEachQuorum() {
this.consistencyLevel = ConsistencyLevel.EACH_QUORUM;
return (O) this;
}
public O serialConsistency(ConsistencyLevel level) {
this.serialConsistencyLevel = level;
return (O) this;
}
public O serialConsistencyAny() {
this.serialConsistencyLevel = ConsistencyLevel.ANY;
return (O) this;
}
public O serialConsistencyOne() {
this.serialConsistencyLevel = ConsistencyLevel.ONE;
return (O) this;
}
public O serialConsistencyQuorum() {
this.serialConsistencyLevel = ConsistencyLevel.QUORUM;
return (O) this;
}
public O serialConsistencyAll() {
this.serialConsistencyLevel = ConsistencyLevel.ALL;
return (O) this;
}
public O serialConsistencyLocal() {
this.serialConsistencyLevel = ConsistencyLevel.LOCAL_SERIAL;
return (O) this;
}
public O serialConsistencyLocalQuorum() {
this.serialConsistencyLevel = ConsistencyLevel.LOCAL_QUORUM;
return (O) this;
}
public O disableTracing() {
this.enableTracing = false;
return (O) this;
}
public O enableTracing() {
this.enableTracing = true;
return (O) this;
}
public O tracing(boolean enable) {
this.enableTracing = enable;
return (O) this;
}
public O fetchSize(int fetchSize) {
this.fetchSize = new int[1];
this.fetchSize[0] = fetchSize;
return (O) this;
}
public O queryTimeoutMs(long ms) {
this.queryExecutionTimeout = ms;
this.queryTimeoutUnits = TimeUnit.MILLISECONDS;
return (O) this;
}
public O queryTimeout(long timeout, TimeUnit units) {
this.queryExecutionTimeout = timeout;
this.queryTimeoutUnits = units;
return (O) this;
}
public Statement options(Statement statement) {
if (defaultTimestamp != null) {
statement.setDefaultTimestamp(defaultTimestamp[0]);
}
if (consistencyLevel != null) {
statement.setConsistencyLevel(consistencyLevel);
}
if (serialConsistencyLevel != null) {
statement.setSerialConsistencyLevel(serialConsistencyLevel);
}
if (retryPolicy != null) {
statement.setRetryPolicy(retryPolicy);
}
if (enableTracing) {
statement.enableTracing();
} else {
statement.disableTracing();
}
if (fetchSize != null) {
statement.setFetchSize(fetchSize[0]);
}
if (idempotent) {
statement.setIdempotent(true);
}
return statement;
}
public O zipkinContext(TraceContext traceContext) {
if (traceContext != null) {
Tracer tracer = this.sessionOps.getZipkinTracer();
if (tracer != null) {
this.traceContext = traceContext;
}
}
return (O) this;
}
public Statement statement() {
return buildStatement(false);
}
public String cql() {
Statement statement = buildStatement(false);
if (statement == null)
return "";
if (statement instanceof BuiltStatement) {
BuiltStatement buildStatement = (BuiltStatement) statement;
return buildStatement.setForceNoValues(true).getQueryString();
} else {
return statement.toString();
}
}
public PreparedStatement prepareStatement() {
Statement statement = buildStatement(true);
if (statement instanceof RegularStatement) {
RegularStatement regularStatement = (RegularStatement) statement;
return sessionOps.prepare(regularStatement);
}
throw new HelenusException("only RegularStatements can be prepared");
}
public ListenableFuture<PreparedStatement> prepareStatementAsync() {
Statement statement = buildStatement(true);
if (statement instanceof RegularStatement) {
RegularStatement regularStatement = (RegularStatement) statement;
return sessionOps.prepareAsync(regularStatement);
}
throw new HelenusException("only RegularStatements can be prepared");
}
protected E checkCache(UnitOfWork<?> uow, List<Facet> facets) {
E result = null;
Optional<Object> optionalCachedResult = Optional.empty();
if (!facets.isEmpty()) {
optionalCachedResult = uow.cacheLookup(facets);
if (optionalCachedResult.isPresent()) {
result = (E) optionalCachedResult.get();
}
}
return result;
}
protected void cacheUpdate(UnitOfWork<?> uow, E pojo, List<Facet> identifyingFacets) {
List<Facet> facets = new ArrayList<>();
Map<String, Object> valueMap = pojo instanceof MapExportable ? ((MapExportable) pojo).toMap() : null;
for (Facet facet : identifyingFacets) {
if (facet instanceof UnboundFacet) {
UnboundFacet unboundFacet = (UnboundFacet) facet;
UnboundFacet.Binder binder = unboundFacet.binder();
for (HelenusProperty prop : unboundFacet.getProperties()) {
Object value;
if (valueMap == null) {
value = BeanColumnValueProvider.INSTANCE.getColumnValue(pojo, -1, prop, false);
if (value != null) {
binder.setValueForProperty(prop, value.toString());
}
} else {
value = valueMap.get(prop.getPropertyName());
if (value != null) {
binder.setValueForProperty(prop, value.toString());
}
}
}
if (binder.isBound()) {
facets.add(binder.bind());
}
} else {
facets.add(facet);
}
}
// Cache the value (pojo), the statement key, and the fully bound facets.
uow.cacheUpdate(pojo, facets);
}
public abstract class AbstractStatementOperation<E, O extends AbstractStatementOperation<E, O>>
extends Operation<E> {
protected boolean checkCache = true;
protected boolean showValues = true;
protected TraceContext traceContext;
long queryExecutionTimeout = 10;
TimeUnit queryTimeoutUnits = TimeUnit.SECONDS;
private ConsistencyLevel consistencyLevel;
private ConsistencyLevel serialConsistencyLevel;
private RetryPolicy retryPolicy;
private boolean idempotent = false;
private boolean enableTracing = false;
private long[] defaultTimestamp = null;
private int[] fetchSize = null;
public AbstractStatementOperation(AbstractSessionOperations sessionOperations) {
super(sessionOperations);
this.consistencyLevel = sessionOperations.getDefaultConsistencyLevel();
this.idempotent = sessionOperations.getDefaultQueryIdempotency();
}
public abstract Statement buildStatement(boolean cached);
public O uncached(boolean enabled) {
checkCache = enabled;
return (O) this;
}
public O uncached() {
checkCache = false;
return (O) this;
}
public O showValues(boolean enabled) {
this.showValues = enabled;
return (O) this;
}
public O defaultTimestamp(long timestamp) {
this.defaultTimestamp = new long[1];
this.defaultTimestamp[0] = timestamp;
return (O) this;
}
public O retryPolicy(RetryPolicy retryPolicy) {
this.retryPolicy = retryPolicy;
return (O) this;
}
public O defaultRetryPolicy() {
this.retryPolicy = DefaultRetryPolicy.INSTANCE;
return (O) this;
}
public O idempotent() {
this.idempotent = true;
return (O) this;
}
public O isIdempotent(boolean idempotent) {
this.idempotent = idempotent;
return (O) this;
}
public O downgradingConsistencyRetryPolicy() {
this.retryPolicy = DowngradingConsistencyRetryPolicy.INSTANCE;
return (O) this;
}
public O fallthroughRetryPolicy() {
this.retryPolicy = FallthroughRetryPolicy.INSTANCE;
return (O) this;
}
public O consistency(ConsistencyLevel level) {
this.consistencyLevel = level;
return (O) this;
}
public O consistencyAny() {
this.consistencyLevel = ConsistencyLevel.ANY;
return (O) this;
}
public O consistencyOne() {
this.consistencyLevel = ConsistencyLevel.ONE;
return (O) this;
}
public O consistencyQuorum() {
this.consistencyLevel = ConsistencyLevel.QUORUM;
return (O) this;
}
public O consistencyAll() {
this.consistencyLevel = ConsistencyLevel.ALL;
return (O) this;
}
public O consistencyLocalOne() {
this.consistencyLevel = ConsistencyLevel.LOCAL_ONE;
return (O) this;
}
public O consistencyLocalQuorum() {
this.consistencyLevel = ConsistencyLevel.LOCAL_QUORUM;
return (O) this;
}
public O consistencyEachQuorum() {
this.consistencyLevel = ConsistencyLevel.EACH_QUORUM;
return (O) this;
}
public O serialConsistency(ConsistencyLevel level) {
this.serialConsistencyLevel = level;
return (O) this;
}
public O serialConsistencyAny() {
this.serialConsistencyLevel = ConsistencyLevel.ANY;
return (O) this;
}
public O serialConsistencyOne() {
this.serialConsistencyLevel = ConsistencyLevel.ONE;
return (O) this;
}
public O serialConsistencyQuorum() {
this.serialConsistencyLevel = ConsistencyLevel.QUORUM;
return (O) this;
}
public O serialConsistencyAll() {
this.serialConsistencyLevel = ConsistencyLevel.ALL;
return (O) this;
}
public O serialConsistencyLocal() {
this.serialConsistencyLevel = ConsistencyLevel.LOCAL_SERIAL;
return (O) this;
}
public O serialConsistencyLocalQuorum() {
this.serialConsistencyLevel = ConsistencyLevel.LOCAL_QUORUM;
return (O) this;
}
public O disableTracing() {
this.enableTracing = false;
return (O) this;
}
public O enableTracing() {
this.enableTracing = true;
return (O) this;
}
public O tracing(boolean enable) {
this.enableTracing = enable;
return (O) this;
}
public O fetchSize(int fetchSize) {
this.fetchSize = new int[1];
this.fetchSize[0] = fetchSize;
return (O) this;
}
public O queryTimeoutMs(long ms) {
this.queryExecutionTimeout = ms;
this.queryTimeoutUnits = TimeUnit.MILLISECONDS;
return (O) this;
}
public O queryTimeout(long timeout, TimeUnit units) {
this.queryExecutionTimeout = timeout;
this.queryTimeoutUnits = units;
return (O) this;
}
public Statement options(Statement statement) {
if (defaultTimestamp != null) {
statement.setDefaultTimestamp(defaultTimestamp[0]);
}
if (consistencyLevel != null) {
statement.setConsistencyLevel(consistencyLevel);
}
if (serialConsistencyLevel != null) {
statement.setSerialConsistencyLevel(serialConsistencyLevel);
}
if (retryPolicy != null) {
statement.setRetryPolicy(retryPolicy);
}
if (enableTracing) {
statement.enableTracing();
} else {
statement.disableTracing();
}
if (fetchSize != null) {
statement.setFetchSize(fetchSize[0]);
}
if (idempotent) {
statement.setIdempotent(true);
}
return statement;
}
public O zipkinContext(TraceContext traceContext) {
if (traceContext != null) {
Tracer tracer = this.sessionOps.getZipkinTracer();
if (tracer != null) {
this.traceContext = traceContext;
}
}
return (O) this;
}
public Statement statement() {
return buildStatement(false);
}
public String cql() {
Statement statement = buildStatement(false);
if (statement == null) return "";
if (statement instanceof BuiltStatement) {
BuiltStatement buildStatement = (BuiltStatement) statement;
return buildStatement.setForceNoValues(true).getQueryString();
} else {
return statement.toString();
}
}
public PreparedStatement prepareStatement() {
Statement statement = buildStatement(true);
if (statement instanceof RegularStatement) {
RegularStatement regularStatement = (RegularStatement) statement;
return sessionOps.prepare(regularStatement);
}
throw new HelenusException("only RegularStatements can be prepared");
}
public ListenableFuture<PreparedStatement> prepareStatementAsync() {
Statement statement = buildStatement(true);
if (statement instanceof RegularStatement) {
RegularStatement regularStatement = (RegularStatement) statement;
return sessionOps.prepareAsync(regularStatement);
}
throw new HelenusException("only RegularStatements can be prepared");
}
protected E checkCache(UnitOfWork<?> uow, List<Facet> facets) {
E result = null;
Optional<Object> optionalCachedResult = Optional.empty();
if (!facets.isEmpty()) {
optionalCachedResult = uow.cacheLookup(facets);
if (optionalCachedResult.isPresent()) {
result = (E) optionalCachedResult.get();
}
}
return result;
}
protected void cacheUpdate(UnitOfWork<?> uow, E pojo, List<Facet> identifyingFacets) {
List<Facet> facets = new ArrayList<>();
Map<String, Object> valueMap =
pojo instanceof MapExportable ? ((MapExportable) pojo).toMap() : null;
for (Facet facet : identifyingFacets) {
if (facet instanceof UnboundFacet) {
UnboundFacet unboundFacet = (UnboundFacet) facet;
UnboundFacet.Binder binder = unboundFacet.binder();
for (HelenusProperty prop : unboundFacet.getProperties()) {
Object value;
if (valueMap == null) {
value = BeanColumnValueProvider.INSTANCE.getColumnValue(pojo, -1, prop, false);
if (value != null) {
binder.setValueForProperty(prop, value.toString());
}
} else {
value = valueMap.get(prop.getPropertyName());
if (value != null) {
binder.setValueForProperty(prop, value.toString());
}
}
}
if (binder.isBound()) {
facets.add(binder.bind());
}
} else {
facets.add(facet);
}
}
// Cache the value (pojo), the statement key, and the fully bound facets.
uow.cacheUpdate(pojo, facets);
}
}

342
src/main/java/net/helenus/core/operation/AbstractStreamOperation.java
View file

@ -17,13 +17,6 @@ package net.helenus.core.operation;
import static net.helenus.core.HelenusSession.deleted;
import java.util.ArrayList;
import java.util.List;
import java.util.concurrent.CompletableFuture;
import java.util.concurrent.CompletionException;
import java.util.concurrent.TimeoutException;
import java.util.stream.Stream;
import com.codahale.metrics.Timer;
import com.datastax.driver.core.PreparedStatement;
import com.datastax.driver.core.ResultSet;
@ -31,185 +24,206 @@ import com.google.common.base.Function;
import com.google.common.base.Stopwatch;
import com.google.common.util.concurrent.Futures;
import com.google.common.util.concurrent.ListenableFuture;
import java.util.ArrayList;
import java.util.List;
import java.util.concurrent.CompletableFuture;
import java.util.concurrent.CompletionException;
import java.util.concurrent.TimeoutException;
import java.util.stream.Stream;
import net.helenus.core.AbstractSessionOperations;
import net.helenus.core.UnitOfWork;
import net.helenus.core.cache.CacheUtil;
import net.helenus.core.cache.Facet;
public abstract class AbstractStreamOperation<E, O extends AbstractStreamOperation<E, O>>
extends
AbstractStatementOperation<E, O> {
extends AbstractStatementOperation<E, O> {
public AbstractStreamOperation(AbstractSessionOperations sessionOperations) {
super(sessionOperations);
}
public AbstractStreamOperation(AbstractSessionOperations sessionOperations) {
super(sessionOperations);
}
public abstract Stream<E> transform(ResultSet resultSet);
public abstract Stream<E> transform(ResultSet resultSet);
public PreparedStreamOperation<E> prepare() {
return new PreparedStreamOperation<E>(prepareStatement(), this);
}
public PreparedStreamOperation<E> prepare() {
return new PreparedStreamOperation<E>(prepareStatement(), this);
}
public ListenableFuture<PreparedStreamOperation<E>> prepareAsync() {
final O _this = (O) this;
return Futures.transform(prepareStatementAsync(),
new Function<PreparedStatement, PreparedStreamOperation<E>>() {
@Override
public PreparedStreamOperation<E> apply(PreparedStatement preparedStatement) {
return new PreparedStreamOperation<E>(preparedStatement, _this);
}
});
}
public ListenableFuture<PreparedStreamOperation<E>> prepareAsync() {
final O _this = (O) this;
return Futures.transform(
prepareStatementAsync(),
new Function<PreparedStatement, PreparedStreamOperation<E>>() {
@Override
public PreparedStreamOperation<E> apply(PreparedStatement preparedStatement) {
return new PreparedStreamOperation<E>(preparedStatement, _this);
}
});
}
public Stream<E> sync() throws TimeoutException {
final Timer.Context context = requestLatency.time();
try {
Stream<E> resultStream = null;
E cacheResult = null;
boolean updateCache = isSessionCacheable();
public Stream<E> sync() throws TimeoutException {
final Timer.Context context = requestLatency.time();
try {
Stream<E> resultStream = null;
E cacheResult = null;
boolean updateCache = isSessionCacheable();
if (checkCache && isSessionCacheable()) {
List<Facet> facets = bindFacetValues();
String tableName = CacheUtil.schemaName(facets);
cacheResult = (E) sessionOps.checkCache(tableName, facets);
if (cacheResult != null) {
resultStream = Stream.of(cacheResult);
updateCache = false;
sessionCacheHits.mark();
cacheHits.mark();
} else {
sessionCacheMiss.mark();
cacheMiss.mark();
}
}
if (checkCache && isSessionCacheable()) {
List<Facet> facets = bindFacetValues();
String tableName = CacheUtil.schemaName(facets);
cacheResult = (E) sessionOps.checkCache(tableName, facets);
if (cacheResult != null) {
resultStream = Stream.of(cacheResult);
updateCache = false;
sessionCacheHits.mark();
cacheHits.mark();
} else {
sessionCacheMiss.mark();
cacheMiss.mark();
}
}
if (resultStream == null) {
// Formulate the query and execute it against the Cassandra cluster.
ResultSet resultSet = this.execute(sessionOps, null, traceContext, queryExecutionTimeout,
queryTimeoutUnits, showValues, false);
if (resultStream == null) {
// Formulate the query and execute it against the Cassandra cluster.
ResultSet resultSet =
this.execute(
sessionOps,
null,
traceContext,
queryExecutionTimeout,
queryTimeoutUnits,
showValues,
false);
// Transform the query result set into the desired shape.
resultStream = transform(resultSet);
}
// Transform the query result set into the desired shape.
resultStream = transform(resultSet);
}
if (updateCache && resultStream != null) {
List<Facet> facets = getFacets();
if (facets != null && facets.size() > 1) {
List<E> again = new ArrayList<>();
resultStream.forEach(result -> {
sessionOps.updateCache(result, facets);
again.add(result);
});
resultStream = again.stream();
}
}
return resultStream;
if (updateCache && resultStream != null) {
List<Facet> facets = getFacets();
if (facets != null && facets.size() > 1) {
List<E> again = new ArrayList<>();
resultStream.forEach(
result -> {
sessionOps.updateCache(result, facets);
again.add(result);
});
resultStream = again.stream();
}
}
return resultStream;
} finally {
context.stop();
}
}
} finally {
context.stop();
}
}
public Stream<E> sync(UnitOfWork uow) throws TimeoutException {
if (uow == null)
return sync();
public Stream<E> sync(UnitOfWork uow) throws TimeoutException {
if (uow == null) return sync();
final Timer.Context context = requestLatency.time();
try {
Stream<E> resultStream = null;
E cachedResult = null;
final boolean updateCache;
final Timer.Context context = requestLatency.time();
try {
Stream<E> resultStream = null;
E cachedResult = null;
final boolean updateCache;
if (checkCache) {
Stopwatch timer = Stopwatch.createStarted();
try {
List<Facet> facets = bindFacetValues();
if (facets != null) {
cachedResult = checkCache(uow, facets);
if (cachedResult != null) {
updateCache = false;
resultStream = Stream.of(cachedResult);
uowCacheHits.mark();
cacheHits.mark();
uow.recordCacheAndDatabaseOperationCount(1, 0);
} else {
updateCache = true;
uowCacheMiss.mark();
if (isSessionCacheable()) {
String tableName = CacheUtil.schemaName(facets);
cachedResult = (E) sessionOps.checkCache(tableName, facets);
if (cachedResult != null) {
resultStream = Stream.of(cachedResult);
sessionCacheHits.mark();
cacheHits.mark();
uow.recordCacheAndDatabaseOperationCount(1, 0);
} else {
sessionCacheMiss.mark();
cacheMiss.mark();
uow.recordCacheAndDatabaseOperationCount(-1, 0);
}
}
}
} else {
updateCache = false;
}
} finally {
timer.stop();
uow.addCacheLookupTime(timer);
}
} else {
updateCache = false;
}
if (checkCache) {
Stopwatch timer = Stopwatch.createStarted();
try {
List<Facet> facets = bindFacetValues();
if (facets != null) {
cachedResult = checkCache(uow, facets);
if (cachedResult != null) {
updateCache = false;
resultStream = Stream.of(cachedResult);
uowCacheHits.mark();
cacheHits.mark();
uow.recordCacheAndDatabaseOperationCount(1, 0);
} else {
updateCache = true;
uowCacheMiss.mark();
if (isSessionCacheable()) {
String tableName = CacheUtil.schemaName(facets);
cachedResult = (E) sessionOps.checkCache(tableName, facets);
if (cachedResult != null) {
resultStream = Stream.of(cachedResult);
sessionCacheHits.mark();
cacheHits.mark();
uow.recordCacheAndDatabaseOperationCount(1, 0);
} else {
sessionCacheMiss.mark();
cacheMiss.mark();
uow.recordCacheAndDatabaseOperationCount(-1, 0);
}
}
}
} else {
updateCache = false;
}
} finally {
timer.stop();
uow.addCacheLookupTime(timer);
}
} else {
updateCache = false;
}
// Check to see if we fetched the object from the cache
if (resultStream == null) {
ResultSet resultSet = execute(sessionOps, uow, traceContext, queryExecutionTimeout, queryTimeoutUnits,
showValues, true);
resultStream = transform(resultSet);
}
// Check to see if we fetched the object from the cache
if (resultStream == null) {
ResultSet resultSet =
execute(
sessionOps,
uow,
traceContext,
queryExecutionTimeout,
queryTimeoutUnits,
showValues,
true);
resultStream = transform(resultSet);
}
// If we have a result and we're caching then we need to put it into the cache
// for future requests to find.
if (resultStream != null) {
List<E> again = new ArrayList<>();
List<Facet> facets = getFacets();
resultStream.forEach(result -> {
if (result != deleted) {
if (updateCache) {
cacheUpdate(uow, result, facets);
}
again.add(result);
}
});
resultStream = again.stream();
}
// If we have a result and we're caching then we need to put it into the cache
// for future requests to find.
if (resultStream != null) {
List<E> again = new ArrayList<>();
List<Facet> facets = getFacets();
resultStream.forEach(
result -> {
if (result != deleted) {
if (updateCache) {
cacheUpdate(uow, result, facets);
}
again.add(result);
}
});
resultStream = again.stream();
}
return resultStream;
} finally {
context.stop();
}
}
return resultStream;
} finally {
context.stop();
}
}
public CompletableFuture<Stream<E>> async() {
return CompletableFuture.<Stream<E>>supplyAsync(() -> {
try {
return sync();
} catch (TimeoutException ex) {
throw new CompletionException(ex);
}
});
}
public CompletableFuture<Stream<E>> async() {
return CompletableFuture.<Stream<E>>supplyAsync(
() -> {
try {
return sync();
} catch (TimeoutException ex) {
throw new CompletionException(ex);
}
});
}
public CompletableFuture<Stream<E>> async(UnitOfWork uow) {
if (uow == null)
return async();
return CompletableFuture.<Stream<E>>supplyAsync(() -> {
try {
return sync();
} catch (TimeoutException ex) {
throw new CompletionException(ex);
}
});
}
public CompletableFuture<Stream<E>> async(UnitOfWork uow) {
if (uow == null) return async();
return CompletableFuture.<Stream<E>>supplyAsync(
() -> {
try {
return sync();
} catch (TimeoutException ex) {
throw new CompletionException(ex);
}
});
}
}

38
src/main/java/net/helenus/core/operation/BoundOperation.java
View file

@ -21,27 +21,27 @@ import com.datastax.driver.core.Statement;
public final class BoundOperation<E> extends AbstractOperation<E, BoundOperation<E>> {
private final BoundStatement boundStatement;
private final AbstractOperation<E, ?> delegate;
private final BoundStatement boundStatement;
private final AbstractOperation<E, ?> delegate;
public BoundOperation(BoundStatement boundStatement, AbstractOperation<E, ?> operation) {
super(operation.sessionOps);
this.boundStatement = boundStatement;
this.delegate = operation;
}
public BoundOperation(BoundStatement boundStatement, AbstractOperation<E, ?> operation) {
super(operation.sessionOps);
this.boundStatement = boundStatement;
this.delegate = operation;
}
@Override
public E transform(ResultSet resultSet) {
return delegate.transform(resultSet);
}
@Override
public E transform(ResultSet resultSet) {
return delegate.transform(resultSet);
}
@Override
public Statement buildStatement(boolean cached) {
return boundStatement;
}
@Override
public Statement buildStatement(boolean cached) {
return boundStatement;
}
@Override
public boolean isSessionCacheable() {
return delegate.isSessionCacheable();
}
@Override
public boolean isSessionCacheable() {
return delegate.isSessionCacheable();
}
}

45
src/main/java/net/helenus/core/operation/BoundOptionalOperation.java
View file

@ -15,35 +15,36 @@
*/
package net.helenus.core.operation;
import java.util.Optional;
import com.datastax.driver.core.BoundStatement;
import com.datastax.driver.core.ResultSet;
import com.datastax.driver.core.Statement;
import java.util.Optional;
public final class BoundOptionalOperation<E> extends AbstractOptionalOperation<E, BoundOptionalOperation<E>> {
public final class BoundOptionalOperation<E>
extends AbstractOptionalOperation<E, BoundOptionalOperation<E>> {
private final BoundStatement boundStatement;
private final AbstractOptionalOperation<E, ?> delegate;
private final BoundStatement boundStatement;
private final AbstractOptionalOperation<E, ?> delegate;
public BoundOptionalOperation(BoundStatement boundStatement, AbstractOptionalOperation<E, ?> operation) {
super(operation.sessionOps);
this.boundStatement = boundStatement;
this.delegate = operation;
}
public BoundOptionalOperation(
BoundStatement boundStatement, AbstractOptionalOperation<E, ?> operation) {
super(operation.sessionOps);
this.boundStatement = boundStatement;
this.delegate = operation;
}
@Override
public Optional<E> transform(ResultSet resultSet) {
return delegate.transform(resultSet);
}
@Override
public Optional<E> transform(ResultSet resultSet) {
return delegate.transform(resultSet);
}
@Override
public Statement buildStatement(boolean cached) {
return boundStatement;
}
@Override
public Statement buildStatement(boolean cached) {
return boundStatement;
}
@Override
public boolean isSessionCacheable() {
return delegate.isSessionCacheable();
}
@Override
public boolean isSessionCacheable() {
return delegate.isSessionCacheable();
}
}

56
src/main/java/net/helenus/core/operation/BoundStreamOperation.java
View file

@ -15,43 +15,43 @@
*/
package net.helenus.core.operation;
import java.util.List;
import java.util.stream.Stream;
import com.datastax.driver.core.BoundStatement;
import com.datastax.driver.core.ResultSet;
import com.datastax.driver.core.Statement;
import java.util.List;
import java.util.stream.Stream;
import net.helenus.core.cache.Facet;
public final class BoundStreamOperation<E> extends AbstractStreamOperation<E, BoundStreamOperation<E>> {
public final class BoundStreamOperation<E>
extends AbstractStreamOperation<E, BoundStreamOperation<E>> {
private final BoundStatement boundStatement;
private final AbstractStreamOperation<E, ?> delegate;
private final BoundStatement boundStatement;
private final AbstractStreamOperation<E, ?> delegate;
public BoundStreamOperation(BoundStatement boundStatement, AbstractStreamOperation<E, ?> operation) {
super(operation.sessionOps);
this.boundStatement = boundStatement;
this.delegate = operation;
}
public BoundStreamOperation(
BoundStatement boundStatement, AbstractStreamOperation<E, ?> operation) {
super(operation.sessionOps);
this.boundStatement = boundStatement;
this.delegate = operation;
}
@Override
public List<Facet> bindFacetValues() {
return delegate.bindFacetValues();
}
@Override
public List<Facet> bindFacetValues() {
return delegate.bindFacetValues();
}
@Override
public Stream<E> transform(ResultSet resultSet) {
return delegate.transform(resultSet);
}
@Override
public Stream<E> transform(ResultSet resultSet) {
return delegate.transform(resultSet);
}
@Override
public Statement buildStatement(boolean cached) {
return boundStatement;
}
@Override
public Statement buildStatement(boolean cached) {
return boundStatement;
}
@Override
public boolean isSessionCacheable() {
return delegate.isSessionCacheable();
}
@Override
public boolean isSessionCacheable() {
return delegate.isSessionCacheable();
}
}

78
src/main/java/net/helenus/core/operation/CountOperation.java
View file

@ -20,7 +20,6 @@ import com.datastax.driver.core.querybuilder.BuiltStatement;
import com.datastax.driver.core.querybuilder.QueryBuilder;
import com.datastax.driver.core.querybuilder.Select;
import com.datastax.driver.core.querybuilder.Select.Where;
import net.helenus.core.AbstractSessionOperations;
import net.helenus.core.Filter;
import net.helenus.core.reflect.HelenusPropertyNode;
@ -29,53 +28,56 @@ import net.helenus.support.HelenusMappingException;
public final class CountOperation extends AbstractFilterOperation<Long, CountOperation> {
private HelenusEntity entity;
private HelenusEntity entity;
public CountOperation(AbstractSessionOperations sessionOperations) {
super(sessionOperations);
}
public CountOperation(AbstractSessionOperations sessionOperations) {
super(sessionOperations);
}
public CountOperation(AbstractSessionOperations sessionOperations, HelenusEntity entity) {
super(sessionOperations);
this.entity = entity;
}
public CountOperation(AbstractSessionOperations sessionOperations, HelenusEntity entity) {
super(sessionOperations);
this.entity = entity;
}
@Override
public BuiltStatement buildStatement(boolean cached) {
@Override
public BuiltStatement buildStatement(boolean cached) {
if (filters != null && !filters.isEmpty()) {
filters.forEach(f -> addPropertyNode(f.getNode()));
}
if (filters != null && !filters.isEmpty()) {
filters.forEach(f -> addPropertyNode(f.getNode()));
}
if (entity == null) {
throw new HelenusMappingException("unknown entity");
}
if (entity == null) {
throw new HelenusMappingException("unknown entity");
}
Select select = QueryBuilder.select().countAll().from(entity.getName().toCql());
Select select = QueryBuilder.select().countAll().from(entity.getName().toCql());
if (filters != null && !filters.isEmpty()) {
if (filters != null && !filters.isEmpty()) {
Where where = select.where();
Where where = select.where();
for (Filter<?> filter : filters) {
where.and(filter.getClause(sessionOps.getValuePreparer()));
}
}
for (Filter<?> filter : filters) {
where.and(filter.getClause(sessionOps.getValuePreparer()));
}
}
return select;
}
return select;
}
@Override
public Long transform(ResultSet resultSet) {
return resultSet.one().getLong(0);
}
@Override
public Long transform(ResultSet resultSet) {
return resultSet.one().getLong(0);
}
private void addPropertyNode(HelenusPropertyNode p) {
if (entity == null) {
entity = p.getEntity();
} else if (entity != p.getEntity()) {
throw new HelenusMappingException("you can count columns only in single entity "
+ entity.getMappingInterface() + " or " + p.getEntity().getMappingInterface());
}
}
private void addPropertyNode(HelenusPropertyNode p) {
if (entity == null) {
entity = p.getEntity();
} else if (entity != p.getEntity()) {
throw new HelenusMappingException(
"you can count columns only in single entity "
+ entity.getMappingInterface()
+ " or "
+ p.getEntity().getMappingInterface());
}
}
}

198
src/main/java/net/helenus/core/operation/DeleteOperation.java
View file

@ -15,15 +15,13 @@
*/
package net.helenus.core.operation;
import java.util.List;
import java.util.concurrent.TimeoutException;
import com.datastax.driver.core.ResultSet;
import com.datastax.driver.core.querybuilder.BuiltStatement;
import com.datastax.driver.core.querybuilder.Delete;
import com.datastax.driver.core.querybuilder.Delete.Where;
import com.datastax.driver.core.querybuilder.QueryBuilder;
import java.util.List;
import java.util.concurrent.TimeoutException;
import net.helenus.core.AbstractSessionOperations;
import net.helenus.core.Filter;
import net.helenus.core.UnitOfWork;
@ -34,126 +32,128 @@ import net.helenus.support.HelenusMappingException;
public final class DeleteOperation extends AbstractFilterOperation<ResultSet, DeleteOperation> {
private HelenusEntity entity;
private HelenusEntity entity;
private boolean ifExists = false;
private boolean ifExists = false;
private int[] ttl;
private long[] timestamp;
private int[] ttl;
private long[] timestamp;
public DeleteOperation(AbstractSessionOperations sessionOperations) {
super(sessionOperations);
}
public DeleteOperation(AbstractSessionOperations sessionOperations) {
super(sessionOperations);
}
public DeleteOperation(AbstractSessionOperations sessionOperations, HelenusEntity entity) {
super(sessionOperations);
public DeleteOperation(AbstractSessionOperations sessionOperations, HelenusEntity entity) {
super(sessionOperations);
this.entity = entity;
}
this.entity = entity;
}
@Override
public BuiltStatement buildStatement(boolean cached) {
@Override
public BuiltStatement buildStatement(boolean cached) {
if (filters != null && !filters.isEmpty()) {
filters.forEach(f -> addPropertyNode(f.getNode()));
}
if (filters != null && !filters.isEmpty()) {
filters.forEach(f -> addPropertyNode(f.getNode()));
}
if (entity == null) {
throw new HelenusMappingException("unknown entity");
}
if (entity == null) {
throw new HelenusMappingException("unknown entity");
}
if (filters != null && !filters.isEmpty()) {
if (filters != null && !filters.isEmpty()) {
Delete delete = QueryBuilder.delete().from(entity.getName().toCql());
Delete delete = QueryBuilder.delete().from(entity.getName().toCql());
if (this.ifExists) {
delete.ifExists();
}
if (this.ifExists) {
delete.ifExists();
}
Where where = delete.where();
Where where = delete.where();
for (Filter<?> filter : filters) {
where.and(filter.getClause(sessionOps.getValuePreparer()));
}
for (Filter<?> filter : filters) {
where.and(filter.getClause(sessionOps.getValuePreparer()));
}
if (ifFilters != null && !ifFilters.isEmpty()) {
if (ifFilters != null && !ifFilters.isEmpty()) {
for (Filter<?> filter : ifFilters) {
delete.onlyIf(filter.getClause(sessionOps.getValuePreparer()));
}
}
for (Filter<?> filter : ifFilters) {
delete.onlyIf(filter.getClause(sessionOps.getValuePreparer()));
}
}
if (this.ttl != null) {
delete.using(QueryBuilder.ttl(this.ttl[0]));
}
if (this.timestamp != null) {
delete.using(QueryBuilder.timestamp(this.timestamp[0]));
}
if (this.ttl != null) {
delete.using(QueryBuilder.ttl(this.ttl[0]));
}
if (this.timestamp != null) {
delete.using(QueryBuilder.timestamp(this.timestamp[0]));
}
return delete;
return delete;
} else {
return QueryBuilder.truncate(entity.getName().toCql());
}
}
} else {
return QueryBuilder.truncate(entity.getName().toCql());
}
}
@Override
public ResultSet transform(ResultSet resultSet) {
return resultSet;
}
@Override
public ResultSet transform(ResultSet resultSet) {
return resultSet;
}
public DeleteOperation ifExists() {
this.ifExists = true;
return this;
}
public DeleteOperation ifExists() {
this.ifExists = true;
return this;
}
public DeleteOperation usingTtl(int ttl) {
this.ttl = new int[1];
this.ttl[0] = ttl;
return this;
}
public DeleteOperation usingTtl(int ttl) {
this.ttl = new int[1];
this.ttl[0] = ttl;
return this;
}
public DeleteOperation usingTimestamp(long timestamp) {
this.timestamp = new long[1];
this.timestamp[0] = timestamp;
return this;
}
public DeleteOperation usingTimestamp(long timestamp) {
this.timestamp = new long[1];
this.timestamp[0] = timestamp;
return this;
}
private void addPropertyNode(HelenusPropertyNode p) {
if (entity == null) {
entity = p.getEntity();
} else if (entity != p.getEntity()) {
throw new HelenusMappingException("you can delete rows only in single entity "
+ entity.getMappingInterface() + " or " + p.getEntity().getMappingInterface());
}
}
private void addPropertyNode(HelenusPropertyNode p) {
if (entity == null) {
entity = p.getEntity();
} else if (entity != p.getEntity()) {
throw new HelenusMappingException(
"you can delete rows only in single entity "
+ entity.getMappingInterface()
+ " or "
+ p.getEntity().getMappingInterface());
}
}
public List<Facet> bindFacetValues() {
return bindFacetValues(getFacets());
}
public List<Facet> bindFacetValues() {
return bindFacetValues(getFacets());
}
@Override
public ResultSet sync() throws TimeoutException {
ResultSet result = super.sync();
if (entity.isCacheable()) {
sessionOps.cacheEvict(bindFacetValues());
}
return result;
}
@Override
public ResultSet sync() throws TimeoutException {
ResultSet result = super.sync();
if (entity.isCacheable()) {
sessionOps.cacheEvict(bindFacetValues());
}
return result;
}
@Override
public ResultSet sync(UnitOfWork uow) throws TimeoutException {
if (uow == null) {
return sync();
}
ResultSet result = super.sync(uow);
uow.cacheEvict(bindFacetValues());
return result;
}
@Override
public List<Facet> getFacets() {
return entity.getFacets();
}
@Override
public ResultSet sync(UnitOfWork uow) throws TimeoutException {
if (uow == null) {
return sync();
}
ResultSet result = super.sync(uow);
uow.cacheEvict(bindFacetValues());
return result;
}
@Override
public List<Facet> getFacets() {
return entity.getFacets();
}
}

474
src/main/java/net/helenus/core/operation/InsertOperation.java
View file

@ -15,15 +15,13 @@
*/
package net.helenus.core.operation;
import java.util.*;
import java.util.concurrent.TimeoutException;
import java.util.function.Function;
import com.datastax.driver.core.ResultSet;
import com.datastax.driver.core.querybuilder.BuiltStatement;
import com.datastax.driver.core.querybuilder.Insert;
import com.datastax.driver.core.querybuilder.QueryBuilder;
import java.util.*;
import java.util.concurrent.TimeoutException;
import java.util.function.Function;
import net.helenus.core.AbstractSessionOperations;
import net.helenus.core.Getter;
import net.helenus.core.Helenus;
@ -43,274 +41,282 @@ import net.helenus.support.HelenusMappingException;
public final class InsertOperation<T> extends AbstractOperation<T, InsertOperation<T>> {
private final List<Fun.Tuple2<HelenusPropertyNode, Object>> values = new ArrayList<Fun.Tuple2<HelenusPropertyNode, Object>>();
private final T pojo;
private final Class<?> resultType;
private HelenusEntity entity;
private boolean ifNotExists;
private final List<Fun.Tuple2<HelenusPropertyNode, Object>> values =
new ArrayList<Fun.Tuple2<HelenusPropertyNode, Object>>();
private final T pojo;
private final Class<?> resultType;
private HelenusEntity entity;
private boolean ifNotExists;
private int[] ttl;
private long[] timestamp;
private int[] ttl;
private long[] timestamp;
public InsertOperation(AbstractSessionOperations sessionOperations, boolean ifNotExists) {
super(sessionOperations);
public InsertOperation(AbstractSessionOperations sessionOperations, boolean ifNotExists) {
super(sessionOperations);
this.ifNotExists = ifNotExists;
this.pojo = null;
this.resultType = ResultSet.class;
}
this.ifNotExists = ifNotExists;
this.pojo = null;
this.resultType = ResultSet.class;
}
public InsertOperation(AbstractSessionOperations sessionOperations, Class<?> resultType, boolean ifNotExists) {
super(sessionOperations);
public InsertOperation(
AbstractSessionOperations sessionOperations, Class<?> resultType, boolean ifNotExists) {
super(sessionOperations);
this.ifNotExists = ifNotExists;
this.pojo = null;
this.resultType = resultType;
}
this.ifNotExists = ifNotExists;
this.pojo = null;
this.resultType = resultType;
}
public InsertOperation(AbstractSessionOperations sessionOperations, HelenusEntity entity, T pojo,
Set<String> mutations, boolean ifNotExists) {
super(sessionOperations);
public InsertOperation(
AbstractSessionOperations sessionOperations,
HelenusEntity entity,
T pojo,
Set<String> mutations,
boolean ifNotExists) {
super(sessionOperations);
this.entity = entity;
this.pojo = pojo;
this.ifNotExists = ifNotExists;
this.resultType = entity.getMappingInterface();
this.entity = entity;
this.pojo = pojo;
this.ifNotExists = ifNotExists;
this.resultType = entity.getMappingInterface();
Collection<HelenusProperty> properties = entity.getOrderedProperties();
Set<String> keys = (mutations == null) ? null : mutations;
Collection<HelenusProperty> properties = entity.getOrderedProperties();
Set<String> keys = (mutations == null) ? null : mutations;
for (HelenusProperty prop : properties) {
boolean addProp = false;
for (HelenusProperty prop : properties) {
boolean addProp = false;
switch (prop.getColumnType()) {
case PARTITION_KEY :
case CLUSTERING_COLUMN :
addProp = true;
break;
default :
addProp = (keys == null || keys.contains(prop.getPropertyName()));
}
switch (prop.getColumnType()) {
case PARTITION_KEY:
case CLUSTERING_COLUMN:
addProp = true;
break;
default:
addProp = (keys == null || keys.contains(prop.getPropertyName()));
}
if (addProp) {
Object value = BeanColumnValueProvider.INSTANCE.getColumnValue(pojo, -1, prop);
value = sessionOps.getValuePreparer().prepareColumnValue(value, prop);
if (addProp) {
Object value = BeanColumnValueProvider.INSTANCE.getColumnValue(pojo, -1, prop);
value = sessionOps.getValuePreparer().prepareColumnValue(value, prop);
if (value != null) {
HelenusPropertyNode node = new HelenusPropertyNode(prop, Optional.empty());
values.add(Fun.Tuple2.of(node, value));
}
}
}
}
if (value != null) {
HelenusPropertyNode node = new HelenusPropertyNode(prop, Optional.empty());
values.add(Fun.Tuple2.of(node, value));
}
}
}
}
public InsertOperation<T> ifNotExists() {
this.ifNotExists = true;
return this;
}
public InsertOperation<T> ifNotExists() {
this.ifNotExists = true;
return this;
}
public InsertOperation<T> ifNotExists(boolean enable) {
this.ifNotExists = enable;
return this;
}
public InsertOperation<T> ifNotExists(boolean enable) {
this.ifNotExists = enable;
return this;
}
public <V> InsertOperation<T> value(Getter<V> getter, V val) {
public <V> InsertOperation<T> value(Getter<V> getter, V val) {
Objects.requireNonNull(getter, "getter is empty");
Objects.requireNonNull(getter, "getter is empty");
if (val != null) {
HelenusPropertyNode node = MappingUtil.resolveMappingProperty(getter);
Object value = sessionOps.getValuePreparer().prepareColumnValue(val, node.getProperty());
if (val != null) {
HelenusPropertyNode node = MappingUtil.resolveMappingProperty(getter);
Object value = sessionOps.getValuePreparer().prepareColumnValue(val, node.getProperty());
if (value != null) {
values.add(Fun.Tuple2.of(node, value));
}
}
if (value != null) {
values.add(Fun.Tuple2.of(node, value));
}
}
return this;
}
return this;
}
@Override
public BuiltStatement buildStatement(boolean cached) {
@Override
public BuiltStatement buildStatement(boolean cached) {
values.forEach(t -> addPropertyNode(t._1));
values.forEach(t -> addPropertyNode(t._1));
if (values.isEmpty())
return null;
if (values.isEmpty()) return null;
if (entity == null) {
throw new HelenusMappingException("unknown entity");
}
if (entity == null) {
throw new HelenusMappingException("unknown entity");
}
Insert insert = QueryBuilder.insertInto(entity.getName().toCql());
Insert insert = QueryBuilder.insertInto(entity.getName().toCql());
if (ifNotExists) {
insert.ifNotExists();
}
if (ifNotExists) {
insert.ifNotExists();
}
values.forEach(t -> {
insert.value(t._1.getColumnName(), t._2);
});
values.forEach(
t -> {
insert.value(t._1.getColumnName(), t._2);
});
if (this.ttl != null) {
insert.using(QueryBuilder.ttl(this.ttl[0]));
}
if (this.timestamp != null) {
insert.using(QueryBuilder.timestamp(this.timestamp[0]));
}
if (this.ttl != null) {
insert.using(QueryBuilder.ttl(this.ttl[0]));
}
if (this.timestamp != null) {
insert.using(QueryBuilder.timestamp(this.timestamp[0]));
}
return insert;
}
return insert;
}
@Override
public T transform(ResultSet resultSet) {
if ((ifNotExists == true) && (resultSet.wasApplied() == false)) {
throw new HelenusException("Statement was not applied due to consistency constraints");
}
@Override
public T transform(ResultSet resultSet) {
if ((ifNotExists == true) && (resultSet.wasApplied() == false)) {
throw new HelenusException("Statement was not applied due to consistency constraints");
}
Class<?> iface = entity.getMappingInterface();
if (resultType == iface) {
if (values.size() > 0) {
boolean immutable = iface.isAssignableFrom(Drafted.class);
Collection<HelenusProperty> properties = entity.getOrderedProperties();
Map<String, Object> backingMap = new HashMap<String, Object>(properties.size());
Class<?> iface = entity.getMappingInterface();
if (resultType == iface) {
if (values.size() > 0) {
boolean immutable = iface.isAssignableFrom(Drafted.class);
Collection<HelenusProperty> properties = entity.getOrderedProperties();
Map<String, Object> backingMap = new HashMap<String, Object>(properties.size());
// First, add all the inserted values into our new map.
values.forEach(t -> backingMap.put(t._1.getProperty().getPropertyName(), t._2));
// First, add all the inserted values into our new map.
values.forEach(t -> backingMap.put(t._1.getProperty().getPropertyName(), t._2));
// Then, fill in all the rest of the properties.
for (HelenusProperty prop : properties) {
String key = prop.getPropertyName();
if (backingMap.containsKey(key)) {
// Some values man need to be converted (e.g. from String to Enum). This is done
// within the BeanColumnValueProvider below.
Optional<Function<Object, Object>> converter = prop
.getReadConverter(sessionOps.getSessionRepository());
if (converter.isPresent()) {
backingMap.put(key, converter.get().apply(backingMap.get(key)));
}
} else {
// If we started this operation with an instance of this type, use values from
// that.
if (pojo != null) {
backingMap.put(key,
BeanColumnValueProvider.INSTANCE.getColumnValue(pojo, -1, prop, immutable));
} else {
// Otherwise we'll use default values for the property type if available.
Class<?> propType = prop.getJavaType();
if (propType.isPrimitive()) {
DefaultPrimitiveTypes type = DefaultPrimitiveTypes.lookup(propType);
if (type == null) {
throw new HelenusException("unknown primitive type " + propType);
}
backingMap.put(key, type.getDefaultValue());
}
}
}
}
// Then, fill in all the rest of the properties.
for (HelenusProperty prop : properties) {
String key = prop.getPropertyName();
if (backingMap.containsKey(key)) {
// Some values man need to be converted (e.g. from String to Enum). This is done
// within the BeanColumnValueProvider below.
Optional<Function<Object, Object>> converter =
prop.getReadConverter(sessionOps.getSessionRepository());
if (converter.isPresent()) {
backingMap.put(key, converter.get().apply(backingMap.get(key)));
}
} else {
// If we started this operation with an instance of this type, use values from
// that.
if (pojo != null) {
backingMap.put(
key, BeanColumnValueProvider.INSTANCE.getColumnValue(pojo, -1, prop, immutable));
} else {
// Otherwise we'll use default values for the property type if available.
Class<?> propType = prop.getJavaType();
if (propType.isPrimitive()) {
DefaultPrimitiveTypes type = DefaultPrimitiveTypes.lookup(propType);
if (type == null) {
throw new HelenusException("unknown primitive type " + propType);
}
backingMap.put(key, type.getDefaultValue());
}
}
}
}
// Lastly, create a new proxy object for the entity and return the new instance.
return (T) Helenus.map(iface, backingMap);
}
// Oddly, this insert didn't change anything so simply return the pojo.
return (T) pojo;
}
return (T) resultSet;
}
// Lastly, create a new proxy object for the entity and return the new instance.
return (T) Helenus.map(iface, backingMap);
}
// Oddly, this insert didn't change anything so simply return the pojo.
return (T) pojo;
}
return (T) resultSet;
}
public InsertOperation<T> usingTtl(int ttl) {
this.ttl = new int[1];
this.ttl[0] = ttl;
return this;
}
public InsertOperation<T> usingTtl(int ttl) {
this.ttl = new int[1];
this.ttl[0] = ttl;
return this;
}
public InsertOperation<T> usingTimestamp(long timestamp) {
this.timestamp = new long[1];
this.timestamp[0] = timestamp;
return this;
}
public InsertOperation<T> usingTimestamp(long timestamp) {
this.timestamp = new long[1];
this.timestamp[0] = timestamp;
return this;
}
private void addPropertyNode(HelenusPropertyNode p) {
if (entity == null) {
entity = p.getEntity();
} else if (entity != p.getEntity()) {
throw new HelenusMappingException("you can insert only single entity " + entity.getMappingInterface()
+ " or " + p.getEntity().getMappingInterface());
}
}
private void addPropertyNode(HelenusPropertyNode p) {
if (entity == null) {
entity = p.getEntity();
} else if (entity != p.getEntity()) {
throw new HelenusMappingException(
"you can insert only single entity "
+ entity.getMappingInterface()
+ " or "
+ p.getEntity().getMappingInterface());
}
}
@Override
public T sync() throws TimeoutException {
T result = super.sync();
if (entity.isCacheable() && result != null) {
sessionOps.updateCache(result, entity.getFacets());
}
return result;
}
@Override
public T sync() throws TimeoutException {
T result = super.sync();
if (entity.isCacheable() && result != null) {
sessionOps.updateCache(result, entity.getFacets());
}
return result;
}
@Override
public T sync(UnitOfWork uow) throws TimeoutException {
if (uow == null) {
return sync();
}
T result = super.sync(uow);
if (result != null && pojo != null && !(pojo == result) && pojo.equals(result)) {
// To preserve object identity we need to find this object in cache
// because it was unchanged by the INSERT but pojo in this case was
// the result of a draft.build().
T cachedValue = (T) uow.cacheLookup(bindFacetValues());
if (cachedValue != null) {
result = cachedValue;
}
}
Class<?> iface = entity.getMappingInterface();
if (resultType == iface) {
cacheUpdate(uow, result, entity.getFacets());
} else {
if (entity.isCacheable()) {
sessionOps.cacheEvict(bindFacetValues());
}
}
return result;
}
@Override
public T sync(UnitOfWork uow) throws TimeoutException {
if (uow == null) {
return sync();
}
T result = super.sync(uow);
if (result != null && pojo != null && !(pojo == result) && pojo.equals(result)) {
// To preserve object identity we need to find this object in cache
// because it was unchanged by the INSERT but pojo in this case was
// the result of a draft.build().
T cachedValue = (T) uow.cacheLookup(bindFacetValues());
if (cachedValue != null) {
result = cachedValue;
}
}
Class<?> iface = entity.getMappingInterface();
if (resultType == iface) {
cacheUpdate(uow, result, entity.getFacets());
} else {
if (entity.isCacheable()) {
sessionOps.cacheEvict(bindFacetValues());
}
}
return result;
}
@Override
public List<Facet> bindFacetValues() {
List<Facet> facets = getFacets();
if (facets == null || facets.size() == 0) {
return new ArrayList<Facet>();
}
List<Facet> boundFacets = new ArrayList<>();
Map<HelenusProperty, Object> valuesMap = new HashMap<>(values.size());
values.forEach(t -> valuesMap.put(t._1.getProperty(), t._2));
@Override
public List<Facet> bindFacetValues() {
List<Facet> facets = getFacets();
if (facets == null || facets.size() == 0) {
return new ArrayList<Facet>();
}
List<Facet> boundFacets = new ArrayList<>();
Map<HelenusProperty, Object> valuesMap = new HashMap<>(values.size());
values.forEach(t -> valuesMap.put(t._1.getProperty(), t._2));
for (Facet facet : facets) {
if (facet instanceof UnboundFacet) {
UnboundFacet unboundFacet = (UnboundFacet) facet;
UnboundFacet.Binder binder = unboundFacet.binder();
for (HelenusProperty prop : unboundFacet.getProperties()) {
Object value = valuesMap.get(prop);
if (value != null) {
binder.setValueForProperty(prop, value.toString());
}
}
if (binder.isBound()) {
boundFacets.add(binder.bind());
}
} else {
boundFacets.add(facet);
}
}
return boundFacets;
}
@Override
public List<Facet> getFacets() {
if (entity != null) {
return entity.getFacets();
} else {
return new ArrayList<Facet>();
}
}
for (Facet facet : facets) {
if (facet instanceof UnboundFacet) {
UnboundFacet unboundFacet = (UnboundFacet) facet;
UnboundFacet.Binder binder = unboundFacet.binder();
for (HelenusProperty prop : unboundFacet.getProperties()) {
Object value = valuesMap.get(prop);
if (value != null) {
binder.setValueForProperty(prop, value.toString());
}
}
if (binder.isBound()) {
boundFacets.add(binder.bind());
}
} else {
boundFacets.add(facet);
}
}
return boundFacets;
}
@Override
public List<Facet> getFacets() {
if (entity != null) {
return entity.getFacets();
} else {
return new ArrayList<Facet>();
}
}
}

302
src/main/java/net/helenus/core/operation/Operation.java
View file

@ -15,180 +15,190 @@
*/
package net.helenus.core.operation;
import java.net.InetAddress;
import java.util.ArrayList;
import java.util.List;
import java.util.concurrent.TimeUnit;
import java.util.concurrent.TimeoutException;
import java.util.stream.Collectors;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import brave.Span;
import brave.Tracer;
import brave.propagation.TraceContext;
import com.codahale.metrics.Meter;
import com.codahale.metrics.MetricRegistry;
import com.codahale.metrics.Timer;
import com.datastax.driver.core.*;
import com.datastax.driver.core.querybuilder.BuiltStatement;
import com.google.common.base.Stopwatch;
import brave.Span;
import brave.Tracer;
import brave.propagation.TraceContext;
import java.net.InetAddress;
import java.util.ArrayList;
import java.util.List;
import java.util.concurrent.TimeUnit;
import java.util.concurrent.TimeoutException;
import java.util.stream.Collectors;
import net.helenus.core.AbstractSessionOperations;
import net.helenus.core.UnitOfWork;
import net.helenus.core.cache.Facet;
import net.helenus.support.HelenusException;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
public abstract class Operation<E> {
private static final Logger LOG = LoggerFactory.getLogger(Operation.class);
private static final Logger LOG = LoggerFactory.getLogger(Operation.class);
protected final AbstractSessionOperations sessionOps;
protected final Meter uowCacheHits;
protected final Meter uowCacheMiss;
protected final Meter sessionCacheHits;
protected final Meter sessionCacheMiss;
protected final Meter cacheHits;
protected final Meter cacheMiss;
protected final Timer requestLatency;
protected final AbstractSessionOperations sessionOps;
protected final Meter uowCacheHits;
protected final Meter uowCacheMiss;
protected final Meter sessionCacheHits;
protected final Meter sessionCacheMiss;
protected final Meter cacheHits;
protected final Meter cacheMiss;
protected final Timer requestLatency;
Operation(AbstractSessionOperations sessionOperations) {
this.sessionOps = sessionOperations;
MetricRegistry metrics = sessionOperations.getMetricRegistry();
if (metrics == null) {
metrics = new MetricRegistry();
}
this.uowCacheHits = metrics.meter("net.helenus.UOW-cache-hits");
this.uowCacheMiss = metrics.meter("net.helenus.UOW-cache-miss");
this.sessionCacheHits = metrics.meter("net.helenus.session-cache-hits");
this.sessionCacheMiss = metrics.meter("net.helenus.session-cache-miss");
this.cacheHits = metrics.meter("net.helenus.cache-hits");
this.cacheMiss = metrics.meter("net.helenus.cache-miss");
this.requestLatency = metrics.timer("net.helenus.request-latency");
}
Operation(AbstractSessionOperations sessionOperations) {
this.sessionOps = sessionOperations;
MetricRegistry metrics = sessionOperations.getMetricRegistry();
if (metrics == null) {
metrics = new MetricRegistry();
}
this.uowCacheHits = metrics.meter("net.helenus.UOW-cache-hits");
this.uowCacheMiss = metrics.meter("net.helenus.UOW-cache-miss");
this.sessionCacheHits = metrics.meter("net.helenus.session-cache-hits");
this.sessionCacheMiss = metrics.meter("net.helenus.session-cache-miss");
this.cacheHits = metrics.meter("net.helenus.cache-hits");
this.cacheMiss = metrics.meter("net.helenus.cache-miss");
this.requestLatency = metrics.timer("net.helenus.request-latency");
}
public static String queryString(Statement statement, boolean includeValues) {
String query = null;
if (statement instanceof BuiltStatement) {
BuiltStatement builtStatement = (BuiltStatement) statement;
if (includeValues) {
RegularStatement regularStatement = builtStatement.setForceNoValues(true);
query = regularStatement.getQueryString();
} else {
query = builtStatement.getQueryString();
}
} else if (statement instanceof RegularStatement) {
RegularStatement regularStatement = (RegularStatement) statement;
query = regularStatement.getQueryString();
} else {
query = statement.toString();
public static String queryString(Statement statement, boolean includeValues) {
String query = null;
if (statement instanceof BuiltStatement) {
BuiltStatement builtStatement = (BuiltStatement) statement;
if (includeValues) {
RegularStatement regularStatement = builtStatement.setForceNoValues(true);
query = regularStatement.getQueryString();
} else {
query = builtStatement.getQueryString();
}
} else if (statement instanceof RegularStatement) {
RegularStatement regularStatement = (RegularStatement) statement;
query = regularStatement.getQueryString();
} else {
query = statement.toString();
}
return query;
}
}
return query;
}
public ResultSet execute(
AbstractSessionOperations session,
UnitOfWork uow,
TraceContext traceContext,
long timeout,
TimeUnit units,
boolean showValues,
boolean cached)
throws TimeoutException {
public ResultSet execute(AbstractSessionOperations session, UnitOfWork uow, TraceContext traceContext, long timeout,
TimeUnit units, boolean showValues, boolean cached) throws TimeoutException {
// Start recording in a Zipkin sub-span our execution time to perform this
// operation.
Tracer tracer = session.getZipkinTracer();
Span span = null;
if (tracer != null && traceContext != null) {
span = tracer.newChild(traceContext);
}
// Start recording in a Zipkin sub-span our execution time to perform this
// operation.
Tracer tracer = session.getZipkinTracer();
Span span = null;
if (tracer != null && traceContext != null) {
span = tracer.newChild(traceContext);
}
try {
try {
if (span != null) {
span.name("cassandra");
span.start();
}
if (span != null) {
span.name("cassandra");
span.start();
}
Statement statement = options(buildStatement(cached));
Stopwatch timer = Stopwatch.createStarted();
try {
ResultSetFuture futureResultSet = session.executeAsync(statement, uow, timer, showValues);
if (uow != null) uow.recordCacheAndDatabaseOperationCount(0, 1);
ResultSet resultSet = futureResultSet.getUninterruptibly(timeout, units);
ColumnDefinitions columnDefinitions = resultSet.getColumnDefinitions();
if (LOG.isDebugEnabled()) {
ExecutionInfo ei = resultSet.getExecutionInfo();
Host qh = ei.getQueriedHost();
String oh =
ei.getTriedHosts()
.stream()
.map(Host::getAddress)
.map(InetAddress::toString)
.collect(Collectors.joining(", "));
ConsistencyLevel cl = ei.getAchievedConsistencyLevel();
int se = ei.getSpeculativeExecutions();
String warn = ei.getWarnings().stream().collect(Collectors.joining(", "));
String ri =
String.format(
"%s %s %s %s %s %s%sspec-retries: %d",
"server v" + qh.getCassandraVersion(),
qh.getAddress().toString(),
(oh != null && !oh.equals("")) ? " [tried: " + oh + "]" : "",
qh.getDatacenter(),
qh.getRack(),
(cl != null)
? (" consistency: "
+ cl.name()
+ (cl.isDCLocal() ? " DC " : "")
+ (cl.isSerial() ? " SC " : ""))
: "",
(warn != null && !warn.equals("")) ? ": " + warn : "",
se);
if (uow != null) uow.setInfo(ri);
else LOG.debug(ri);
}
if (!resultSet.wasApplied()
&& !(columnDefinitions.size() > 1 || !columnDefinitions.contains("[applied]"))) {
throw new HelenusException("Operation Failed");
}
return resultSet;
Statement statement = options(buildStatement(cached));
Stopwatch timer = Stopwatch.createStarted();
try {
ResultSetFuture futureResultSet = session.executeAsync(statement, uow, timer, showValues);
if (uow != null)
uow.recordCacheAndDatabaseOperationCount(0, 1);
ResultSet resultSet = futureResultSet.getUninterruptibly(timeout, units);
ColumnDefinitions columnDefinitions = resultSet.getColumnDefinitions();
if (LOG.isDebugEnabled()) {
ExecutionInfo ei = resultSet.getExecutionInfo();
Host qh = ei.getQueriedHost();
String oh = ei.getTriedHosts().stream().map(Host::getAddress).map(InetAddress::toString)
.collect(Collectors.joining(", "));
ConsistencyLevel cl = ei.getAchievedConsistencyLevel();
int se = ei.getSpeculativeExecutions();
String warn = ei.getWarnings().stream().collect(Collectors.joining(", "));
String ri = String.format("%s %s %s %s %s %s%sspec-retries: %d",
"server v" + qh.getCassandraVersion(), qh.getAddress().toString(),
(oh != null && !oh.equals("")) ? " [tried: " + oh + "]" : "", qh.getDatacenter(),
qh.getRack(),
(cl != null)
? (" consistency: " + cl.name() + (cl.isDCLocal() ? " DC " : "")
+ (cl.isSerial() ? " SC " : ""))
: "",
(warn != null && !warn.equals("")) ? ": " + warn : "", se);
if (uow != null)
uow.setInfo(ri);
else
LOG.debug(ri);
}
if (!resultSet.wasApplied()
&& !(columnDefinitions.size() > 1 || !columnDefinitions.contains("[applied]"))) {
throw new HelenusException("Operation Failed");
}
return resultSet;
} finally {
timer.stop();
if (uow != null) uow.addDatabaseTime("Cassandra", timer);
log(statement, uow, timer, showValues);
}
} finally {
timer.stop();
if (uow != null)
uow.addDatabaseTime("Cassandra", timer);
log(statement, uow, timer, showValues);
}
} finally {
} finally {
if (span != null) {
span.finish();
}
}
}
if (span != null) {
span.finish();
}
}
}
void log(Statement statement, UnitOfWork uow, Stopwatch timer, boolean showValues) {
if (LOG.isInfoEnabled()) {
String uowString = "";
if (uow != null) {
uowString = "UOW(" + uow.hashCode() + ")";
}
String timerString = "";
if (timer != null) {
timerString = String.format(" %s ", timer.toString());
}
LOG.info(
String.format("%s%s%s", uowString, timerString, Operation.queryString(statement, false)));
}
}
void log(Statement statement, UnitOfWork uow, Stopwatch timer, boolean showValues) {
if (LOG.isInfoEnabled()) {
String uowString = "";
if (uow != null) {
uowString = "UOW(" + uow.hashCode() + ")";
}
String timerString = "";
if (timer != null) {
timerString = String.format(" %s ", timer.toString());
}
LOG.info(String.format("%s%s%s", uowString, timerString, Operation.queryString(statement, false)));
}
}
public Statement options(Statement statement) {
return statement;
}
public Statement options(Statement statement) {
return statement;
}
public Statement buildStatement(boolean cached) {
return null;
}
public Statement buildStatement(boolean cached) {
return null;
}
public List<Facet> getFacets() {
return new ArrayList<Facet>();
}
public List<Facet> getFacets() {
return new ArrayList<Facet>();
}
public List<Facet> bindFacetValues() {
return null;
}
public boolean isSessionCacheable() {
return false;
}
public List<Facet> bindFacetValues() {
return null;
}
public boolean isSessionCacheable() {
return false;
}
}

35
src/main/java/net/helenus/core/operation/PreparedOperation.java
View file

@ -20,28 +20,27 @@ import com.datastax.driver.core.PreparedStatement;
public final class PreparedOperation<E> {
private final PreparedStatement preparedStatement;
private final AbstractOperation<E, ?> operation;
private final PreparedStatement preparedStatement;
private final AbstractOperation<E, ?> operation;
public PreparedOperation(PreparedStatement statement, AbstractOperation<E, ?> operation) {
this.preparedStatement = statement;
this.operation = operation;
}
public PreparedOperation(PreparedStatement statement, AbstractOperation<E, ?> operation) {
this.preparedStatement = statement;
this.operation = operation;
}
public PreparedStatement getPreparedStatement() {
return preparedStatement;
}
public PreparedStatement getPreparedStatement() {
return preparedStatement;
}
public BoundOperation<E> bind(Object... params) {
public BoundOperation<E> bind(Object... params) {
BoundStatement boundStatement = preparedStatement.bind(params);
BoundStatement boundStatement = preparedStatement.bind(params);
return new BoundOperation<E>(boundStatement, operation);
}
@Override
public String toString() {
return preparedStatement.getQueryString();
}
return new BoundOperation<E>(boundStatement, operation);
}
@Override
public String toString() {
return preparedStatement.getQueryString();
}
}

35
src/main/java/net/helenus/core/operation/PreparedOptionalOperation.java
View file

@ -20,27 +20,28 @@ import com.datastax.driver.core.PreparedStatement;
public final class PreparedOptionalOperation<E> {
private final PreparedStatement preparedStatement;
private final AbstractOptionalOperation<E, ?> operation;
private final PreparedStatement preparedStatement;
private final AbstractOptionalOperation<E, ?> operation;
public PreparedOptionalOperation(PreparedStatement statement, AbstractOptionalOperation<E, ?> operation) {
this.preparedStatement = statement;
this.operation = operation;
}
public PreparedOptionalOperation(
PreparedStatement statement, AbstractOptionalOperation<E, ?> operation) {
this.preparedStatement = statement;
this.operation = operation;
}
public PreparedStatement getPreparedStatement() {
return preparedStatement;
}
public PreparedStatement getPreparedStatement() {
return preparedStatement;
}
public BoundOptionalOperation<E> bind(Object... params) {
public BoundOptionalOperation<E> bind(Object... params) {
BoundStatement boundStatement = preparedStatement.bind(params);
BoundStatement boundStatement = preparedStatement.bind(params);
return new BoundOptionalOperation<E>(boundStatement, operation);
}
return new BoundOptionalOperation<E>(boundStatement, operation);
}
@Override
public String toString() {
return preparedStatement.getQueryString();
}
@Override
public String toString() {
return preparedStatement.getQueryString();
}
}

35
src/main/java/net/helenus/core/operation/PreparedStreamOperation.java
View file

@ -20,25 +20,26 @@ import com.datastax.driver.core.PreparedStatement;
public final class PreparedStreamOperation<E> {
private final PreparedStatement preparedStatement;
private final AbstractStreamOperation<E, ?> operation;
private final PreparedStatement preparedStatement;
private final AbstractStreamOperation<E, ?> operation;
public PreparedStreamOperation(PreparedStatement statement, AbstractStreamOperation<E, ?> operation) {
this.preparedStatement = statement;
this.operation = operation;
}
public PreparedStreamOperation(
PreparedStatement statement, AbstractStreamOperation<E, ?> operation) {
this.preparedStatement = statement;
this.operation = operation;
}
public PreparedStatement getPreparedStatement() {
return preparedStatement;
}
public PreparedStatement getPreparedStatement() {
return preparedStatement;
}
public BoundStreamOperation<E> bind(Object... params) {
BoundStatement boundStatement = preparedStatement.bind(params);
return new BoundStreamOperation<E>(boundStatement, operation);
}
public BoundStreamOperation<E> bind(Object... params) {
BoundStatement boundStatement = preparedStatement.bind(params);
return new BoundStreamOperation<E>(boundStatement, operation);
}
@Override
public String toString() {
return preparedStatement.getQueryString();
}
@Override
public String toString() {
return preparedStatement.getQueryString();
}
}

69
src/main/java/net/helenus/core/operation/SelectFirstOperation.java
View file

@ -15,53 +15,52 @@
*/
package net.helenus.core.operation;
import com.datastax.driver.core.ResultSet;
import com.datastax.driver.core.querybuilder.BuiltStatement;
import java.util.List;
import java.util.Optional;
import java.util.function.Function;
import com.datastax.driver.core.ResultSet;
import com.datastax.driver.core.querybuilder.BuiltStatement;
import net.helenus.core.cache.Facet;
public final class SelectFirstOperation<E> extends AbstractFilterOptionalOperation<E, SelectFirstOperation<E>> {
public final class SelectFirstOperation<E>
extends AbstractFilterOptionalOperation<E, SelectFirstOperation<E>> {
private final SelectOperation<E> delegate;
private final SelectOperation<E> delegate;
public SelectFirstOperation(SelectOperation<E> delegate) {
super(delegate.sessionOps);
public SelectFirstOperation(SelectOperation<E> delegate) {
super(delegate.sessionOps);
this.delegate = delegate;
this.filters = delegate.filters;
this.ifFilters = delegate.ifFilters;
}
this.delegate = delegate;
this.filters = delegate.filters;
this.ifFilters = delegate.ifFilters;
}
public <R> SelectFirstTransformingOperation<R, E> map(Function<E, R> fn) {
return new SelectFirstTransformingOperation<R, E>(delegate, fn);
}
public <R> SelectFirstTransformingOperation<R, E> map(Function<E, R> fn) {
return new SelectFirstTransformingOperation<R, E>(delegate, fn);
}
@Override
public BuiltStatement buildStatement(boolean cached) {
return delegate.buildStatement(cached);
}
@Override
public BuiltStatement buildStatement(boolean cached) {
return delegate.buildStatement(cached);
}
@Override
public List<Facet> getFacets() {
return delegate.getFacets();
}
@Override
public List<Facet> getFacets() {
return delegate.getFacets();
}
@Override
public List<Facet> bindFacetValues() {
return delegate.bindFacetValues();
}
@Override
public List<Facet> bindFacetValues() {
return delegate.bindFacetValues();
}
@Override
public Optional<E> transform(ResultSet resultSet) {
return delegate.transform(resultSet).findFirst();
}
@Override
public Optional<E> transform(ResultSet resultSet) {
return delegate.transform(resultSet).findFirst();
}
@Override
public boolean isSessionCacheable() {
return delegate.isSessionCacheable();
}
@Override
public boolean isSessionCacheable() {
return delegate.isSessionCacheable();
}
}

59
src/main/java/net/helenus/core/operation/SelectFirstTransformingOperation.java
View file

@ -15,48 +15,45 @@
*/
package net.helenus.core.operation;
import com.datastax.driver.core.ResultSet;
import com.datastax.driver.core.querybuilder.BuiltStatement;
import java.util.List;
import java.util.Optional;
import java.util.function.Function;
import com.datastax.driver.core.ResultSet;
import com.datastax.driver.core.querybuilder.BuiltStatement;
import net.helenus.core.cache.Facet;
public final class SelectFirstTransformingOperation<R, E>
extends
AbstractFilterOptionalOperation<R, SelectFirstTransformingOperation<R, E>> {
extends AbstractFilterOptionalOperation<R, SelectFirstTransformingOperation<R, E>> {
private final SelectOperation<E> delegate;
private final Function<E, R> fn;
private final SelectOperation<E> delegate;
private final Function<E, R> fn;
public SelectFirstTransformingOperation(SelectOperation<E> delegate, Function<E, R> fn) {
super(delegate.sessionOps);
public SelectFirstTransformingOperation(SelectOperation<E> delegate, Function<E, R> fn) {
super(delegate.sessionOps);
this.delegate = delegate;
this.fn = fn;
this.filters = delegate.filters;
this.ifFilters = delegate.ifFilters;
}
this.delegate = delegate;
this.fn = fn;
this.filters = delegate.filters;
this.ifFilters = delegate.ifFilters;
}
@Override
public List<Facet> bindFacetValues() {
return delegate.bindFacetValues();
}
@Override
public List<Facet> bindFacetValues() {
return delegate.bindFacetValues();
}
@Override
public BuiltStatement buildStatement(boolean cached) {
return delegate.buildStatement(cached);
}
@Override
public BuiltStatement buildStatement(boolean cached) {
return delegate.buildStatement(cached);
}
@Override
public Optional<R> transform(ResultSet resultSet) {
return delegate.transform(resultSet).findFirst().map(fn);
}
@Override
public Optional<R> transform(ResultSet resultSet) {
return delegate.transform(resultSet).findFirst().map(fn);
}
@Override
public boolean isSessionCacheable() {
return delegate.isSessionCacheable();
}
@Override
public boolean isSessionCacheable() {
return delegate.isSessionCacheable();
}
}

514
src/main/java/net/helenus/core/operation/SelectOperation.java
View file

@ -15,14 +15,6 @@
*/
package net.helenus.core.operation;
import java.util.*;
import java.util.function.Function;
import java.util.stream.Stream;
import java.util.stream.StreamSupport;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import com.datastax.driver.core.ResultSet;
import com.datastax.driver.core.Row;
import com.datastax.driver.core.querybuilder.BuiltStatement;
@ -32,7 +24,10 @@ import com.datastax.driver.core.querybuilder.Select;
import com.datastax.driver.core.querybuilder.Select.Selection;
import com.datastax.driver.core.querybuilder.Select.Where;
import com.google.common.collect.Iterables;
import java.util.*;
import java.util.function.Function;
import java.util.stream.Stream;
import java.util.stream.StreamSupport;
import net.helenus.core.*;
import net.helenus.core.cache.Facet;
import net.helenus.core.cache.UnboundFacet;
@ -45,301 +40,326 @@ import net.helenus.mapping.value.ColumnValueProvider;
import net.helenus.mapping.value.ValueProviderMap;
import net.helenus.support.Fun;
import net.helenus.support.HelenusMappingException;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
public final class SelectOperation<E> extends AbstractFilterStreamOperation<E, SelectOperation<E>> {
private static final Logger LOG = LoggerFactory.getLogger(SelectOperation.class);
private static final Logger LOG = LoggerFactory.getLogger(SelectOperation.class);
protected final List<HelenusPropertyNode> props = new ArrayList<HelenusPropertyNode>();
protected Function<Row, E> rowMapper = null;
protected List<Ordering> ordering = null;
protected Integer limit = null;
protected boolean allowFiltering = false;
protected String alternateTableName = null;
protected boolean isCacheable = false;
protected final List<HelenusPropertyNode> props = new ArrayList<HelenusPropertyNode>();
protected Function<Row, E> rowMapper = null;
protected List<Ordering> ordering = null;
protected Integer limit = null;
protected boolean allowFiltering = false;
protected String alternateTableName = null;
protected boolean isCacheable = false;
@SuppressWarnings("unchecked")
public SelectOperation(AbstractSessionOperations sessionOperations) {
super(sessionOperations);
@SuppressWarnings("unchecked")
public SelectOperation(AbstractSessionOperations sessionOperations) {
super(sessionOperations);
this.rowMapper = new Function<Row, E>() {
this.rowMapper =
new Function<Row, E>() {
@Override
public E apply(Row source) {
@Override
public E apply(Row source) {
ColumnValueProvider valueProvider = sessionOps.getValueProvider();
Object[] arr = new Object[props.size()];
ColumnValueProvider valueProvider = sessionOps.getValueProvider();
Object[] arr = new Object[props.size()];
int i = 0;
for (HelenusPropertyNode p : props) {
Object value = valueProvider.getColumnValue(source, -1, p.getProperty());
arr[i++] = value;
}
int i = 0;
for (HelenusPropertyNode p : props) {
Object value = valueProvider.getColumnValue(source, -1, p.getProperty());
arr[i++] = value;
}
return (E) Fun.ArrayTuple.of(arr);
}
};
}
return (E) Fun.ArrayTuple.of(arr);
}
};
}
public SelectOperation(AbstractSessionOperations sessionOperations, HelenusEntity entity) {
public SelectOperation(AbstractSessionOperations sessionOperations, HelenusEntity entity) {
super(sessionOperations);
super(sessionOperations);
entity.getOrderedProperties().stream().map(p -> new HelenusPropertyNode(p, Optional.empty()))
.forEach(p -> this.props.add(p));
entity
.getOrderedProperties()
.stream()
.map(p -> new HelenusPropertyNode(p, Optional.empty()))
.forEach(p -> this.props.add(p));
isCacheable = entity.isCacheable();
}
isCacheable = entity.isCacheable();
}
public SelectOperation(AbstractSessionOperations sessionOperations, HelenusEntity entity,
Function<Row, E> rowMapper) {
public SelectOperation(
AbstractSessionOperations sessionOperations,
HelenusEntity entity,
Function<Row, E> rowMapper) {
super(sessionOperations);
this.rowMapper = rowMapper;
super(sessionOperations);
this.rowMapper = rowMapper;
entity.getOrderedProperties().stream().map(p -> new HelenusPropertyNode(p, Optional.empty()))
.forEach(p -> this.props.add(p));
entity
.getOrderedProperties()
.stream()
.map(p -> new HelenusPropertyNode(p, Optional.empty()))
.forEach(p -> this.props.add(p));
isCacheable = entity.isCacheable();
}
isCacheable = entity.isCacheable();
}
public SelectOperation(AbstractSessionOperations sessionOperations, Function<Row, E> rowMapper,
HelenusPropertyNode... props) {
public SelectOperation(
AbstractSessionOperations sessionOperations,
Function<Row, E> rowMapper,
HelenusPropertyNode... props) {
super(sessionOperations);
super(sessionOperations);
this.rowMapper = rowMapper;
Collections.addAll(this.props, props);
}
this.rowMapper = rowMapper;
Collections.addAll(this.props, props);
}
public CountOperation count() {
public CountOperation count() {
HelenusEntity entity = null;
for (HelenusPropertyNode prop : props) {
HelenusEntity entity = null;
for (HelenusPropertyNode prop : props) {
if (entity == null) {
entity = prop.getEntity();
} else if (entity != prop.getEntity()) {
throw new HelenusMappingException("you can count records only from a single entity "
+ entity.getMappingInterface() + " or " + prop.getEntity().getMappingInterface());
}
}
if (entity == null) {
entity = prop.getEntity();
} else if (entity != prop.getEntity()) {
throw new HelenusMappingException(
"you can count records only from a single entity "
+ entity.getMappingInterface()
+ " or "
+ prop.getEntity().getMappingInterface());
}
}
return new CountOperation(sessionOps, entity);
}
return new CountOperation(sessionOps, entity);
}
public <V extends E> SelectOperation<E> from(Class<V> materializedViewClass) {
Objects.requireNonNull(materializedViewClass);
HelenusEntity entity = Helenus.entity(materializedViewClass);
this.alternateTableName = entity.getName().toCql();
this.props.clear();
entity.getOrderedProperties().stream().map(p -> new HelenusPropertyNode(p, Optional.empty()))
.forEach(p -> this.props.add(p));
return this;
}
public <V extends E> SelectOperation<E> from(Class<V> materializedViewClass) {
Objects.requireNonNull(materializedViewClass);
HelenusEntity entity = Helenus.entity(materializedViewClass);
this.alternateTableName = entity.getName().toCql();
this.props.clear();
entity
.getOrderedProperties()
.stream()
.map(p -> new HelenusPropertyNode(p, Optional.empty()))
.forEach(p -> this.props.add(p));
return this;
}
public SelectFirstOperation<E> single() {
limit(1);
return new SelectFirstOperation<E>(this);
}
public SelectFirstOperation<E> single() {
limit(1);
return new SelectFirstOperation<E>(this);
}
public <R> SelectTransformingOperation<R, E> mapTo(Class<R> entityClass) {
public <R> SelectTransformingOperation<R, E> mapTo(Class<R> entityClass) {
Objects.requireNonNull(entityClass, "entityClass is null");
Objects.requireNonNull(entityClass, "entityClass is null");
HelenusEntity entity = Helenus.entity(entityClass);
HelenusEntity entity = Helenus.entity(entityClass);
this.rowMapper = null;
this.rowMapper = null;
return new SelectTransformingOperation<R, E>(this, (r) -> {
Map<String, Object> map = new ValueProviderMap(r, sessionOps.getValueProvider(), entity);
return (R) Helenus.map(entityClass, map);
});
}
return new SelectTransformingOperation<R, E>(
this,
(r) -> {
Map<String, Object> map = new ValueProviderMap(r, sessionOps.getValueProvider(), entity);
return (R) Helenus.map(entityClass, map);
});
}
public <R> SelectTransformingOperation<R, E> map(Function<E, R> fn) {
return new SelectTransformingOperation<R, E>(this, fn);
}
public <R> SelectTransformingOperation<R, E> map(Function<E, R> fn) {
return new SelectTransformingOperation<R, E>(this, fn);
}
public SelectOperation<E> column(Getter<?> getter) {
HelenusPropertyNode p = MappingUtil.resolveMappingProperty(getter);
this.props.add(p);
return this;
}
public SelectOperation<E> column(Getter<?> getter) {
HelenusPropertyNode p = MappingUtil.resolveMappingProperty(getter);
this.props.add(p);
return this;
}
public SelectOperation<E> orderBy(Getter<?> getter, OrderingDirection direction) {
getOrCreateOrdering().add(new Ordered(getter, direction).getOrdering());
return this;
}
public SelectOperation<E> orderBy(Getter<?> getter, OrderingDirection direction) {
getOrCreateOrdering().add(new Ordered(getter, direction).getOrdering());
return this;
}
public SelectOperation<E> orderBy(Ordered ordered) {
getOrCreateOrdering().add(ordered.getOrdering());
return this;
}
public SelectOperation<E> orderBy(Ordered ordered) {
getOrCreateOrdering().add(ordered.getOrdering());
return this;
}
public SelectOperation<E> limit(Integer limit) {
this.limit = limit;
return this;
}
public SelectOperation<E> limit(Integer limit) {
this.limit = limit;
return this;
}
public SelectOperation<E> allowFiltering() {
this.allowFiltering = true;
return this;
}
public SelectOperation<E> allowFiltering() {
this.allowFiltering = true;
return this;
}
@Override
public boolean isSessionCacheable() {
return isCacheable;
}
@Override
public boolean isSessionCacheable() {
return isCacheable;
}
@Override
public List<Facet> getFacets() {
HelenusEntity entity = props.get(0).getEntity();
return entity.getFacets();
}
@Override
public List<Facet> getFacets() {
HelenusEntity entity = props.get(0).getEntity();
return entity.getFacets();
}
@Override
public List<Facet> bindFacetValues() {
HelenusEntity entity = props.get(0).getEntity();
List<Facet> boundFacets = new ArrayList<>();
@Override
public List<Facet> bindFacetValues() {
HelenusEntity entity = props.get(0).getEntity();
List<Facet> boundFacets = new ArrayList<>();
for (Facet facet : entity.getFacets()) {
if (facet instanceof UnboundFacet) {
UnboundFacet unboundFacet = (UnboundFacet) facet;
UnboundFacet.Binder binder = unboundFacet.binder();
for (HelenusProperty prop : unboundFacet.getProperties()) {
if (filters != null) {
Filter filter = filters.get(prop);
if (filter != null) {
Object[] postulates = filter.postulateValues();
for (Object p : postulates) {
binder.setValueForProperty(prop, p.toString());
}
}
}
for (Facet facet : entity.getFacets()) {
if (facet instanceof UnboundFacet) {
UnboundFacet unboundFacet = (UnboundFacet) facet;
UnboundFacet.Binder binder = unboundFacet.binder();
for (HelenusProperty prop : unboundFacet.getProperties()) {
if (filters != null) {
Filter filter = filters.get(prop);
if (filter != null) {
Object[] postulates = filter.postulateValues();
for (Object p : postulates) {
binder.setValueForProperty(prop, p.toString());
}
}
}
}
if (binder.isBound()) {
boundFacets.add(binder.bind());
}
} else {
boundFacets.add(facet);
}
}
return boundFacets;
}
}
if (binder.isBound()) {
boundFacets.add(binder.bind());
}
} else {
boundFacets.add(facet);
}
}
return boundFacets;
}
@Override
public BuiltStatement buildStatement(boolean cached) {
@Override
public BuiltStatement buildStatement(boolean cached) {
HelenusEntity entity = null;
Selection selection = QueryBuilder.select();
HelenusEntity entity = null;
Selection selection = QueryBuilder.select();
for (HelenusPropertyNode prop : props) {
String columnName = prop.getColumnName();
selection = selection.column(columnName);
for (HelenusPropertyNode prop : props) {
String columnName = prop.getColumnName();
selection = selection.column(columnName);
if (entity == null) {
entity = prop.getEntity();
} else if (entity != prop.getEntity()) {
throw new HelenusMappingException(
"you can select columns only from a single entity "
+ entity.getMappingInterface()
+ " or "
+ prop.getEntity().getMappingInterface());
}
if (entity == null) {
entity = prop.getEntity();
} else if (entity != prop.getEntity()) {
throw new HelenusMappingException("you can select columns only from a single entity "
+ entity.getMappingInterface() + " or " + prop.getEntity().getMappingInterface());
}
// TODO(gburd): writeTime and ttl will be useful on merge() but cause object
// identity to fail.
if (false && cached) {
switch (prop.getProperty().getColumnType()) {
case PARTITION_KEY:
case CLUSTERING_COLUMN:
break;
default:
if (entity.equals(prop.getEntity())) {
if (prop.getNext().isPresent()) {
columnName = Iterables.getLast(prop).getColumnName().toCql(true);
}
if (!prop.getProperty().getDataType().isCollectionType()) {
selection.writeTime(columnName).as(columnName + "_writeTime");
selection.ttl(columnName).as(columnName + "_ttl");
}
}
break;
}
}
}
// TODO(gburd): writeTime and ttl will be useful on merge() but cause object
// identity to fail.
if (false && cached) {
switch (prop.getProperty().getColumnType()) {
case PARTITION_KEY :
case CLUSTERING_COLUMN :
break;
default :
if (entity.equals(prop.getEntity())) {
if (prop.getNext().isPresent()) {
columnName = Iterables.getLast(prop).getColumnName().toCql(true);
}
if (!prop.getProperty().getDataType().isCollectionType()) {
selection.writeTime(columnName).as(columnName + "_writeTime");
selection.ttl(columnName).as(columnName + "_ttl");
}
}
break;
}
}
}
if (entity == null) {
throw new HelenusMappingException("no entity or table to select data");
}
if (entity == null) {
throw new HelenusMappingException("no entity or table to select data");
}
String tableName = alternateTableName == null ? entity.getName().toCql() : alternateTableName;
Select select = selection.from(tableName);
String tableName = alternateTableName == null ? entity.getName().toCql() : alternateTableName;
Select select = selection.from(tableName);
if (ordering != null && !ordering.isEmpty()) {
select.orderBy(ordering.toArray(new Ordering[ordering.size()]));
}
if (ordering != null && !ordering.isEmpty()) {
select.orderBy(ordering.toArray(new Ordering[ordering.size()]));
}
if (limit != null) {
select.limit(limit);
}
if (limit != null) {
select.limit(limit);
}
if (filters != null && !filters.isEmpty()) {
if (filters != null && !filters.isEmpty()) {
Where where = select.where();
Where where = select.where();
boolean isFirstIndex = true;
for (Filter<?> filter : filters.values()) {
where.and(filter.getClause(sessionOps.getValuePreparer()));
HelenusProperty prop = filter.getNode().getProperty();
if (allowFiltering == false) {
switch (prop.getColumnType()) {
case PARTITION_KEY:
case CLUSTERING_COLUMN:
break;
default:
// When using non-Cassandra-standard 2i types or when using more than one
// indexed column or non-indexed columns the query must include ALLOW FILTERING.
if (prop.caseSensitiveIndex()) {
allowFiltering = true;
} else if (prop.getIndexName() != null) {
allowFiltering |= !isFirstIndex;
isFirstIndex = false;
} else {
allowFiltering = true;
}
}
}
}
}
boolean isFirstIndex = true;
for (Filter<?> filter : filters.values()) {
where.and(filter.getClause(sessionOps.getValuePreparer()));
HelenusProperty prop = filter.getNode().getProperty();
if (allowFiltering == false) {
switch (prop.getColumnType()) {
case PARTITION_KEY :
case CLUSTERING_COLUMN :
break;
default :
// When using non-Cassandra-standard 2i types or when using more than one
// indexed column or non-indexed columns the query must include ALLOW FILTERING.
if (prop.caseSensitiveIndex()) {
allowFiltering = true;
} else if (prop.getIndexName() != null) {
allowFiltering |= !isFirstIndex;
isFirstIndex = false;
} else {
allowFiltering = true;
}
}
}
}
}
if (ifFilters != null && !ifFilters.isEmpty()) {
LOG.error("onlyIf conditions " + ifFilters + " would be ignored in the statement " + select);
}
if (ifFilters != null && !ifFilters.isEmpty()) {
LOG.error("onlyIf conditions " + ifFilters + " would be ignored in the statement " + select);
}
if (allowFiltering) {
select.allowFiltering();
}
if (allowFiltering) {
select.allowFiltering();
}
return select;
}
return select;
}
@SuppressWarnings("unchecked")
@Override
public Stream<E> transform(ResultSet resultSet) {
if (rowMapper != null) {
return StreamSupport.stream(
Spliterators.spliteratorUnknownSize(resultSet.iterator(), Spliterator.ORDERED), false)
.map(rowMapper);
} else {
return (Stream<E>)
StreamSupport.stream(
Spliterators.spliteratorUnknownSize(resultSet.iterator(), Spliterator.ORDERED),
false);
}
}
@SuppressWarnings("unchecked")
@Override
public Stream<E> transform(ResultSet resultSet) {
if (rowMapper != null) {
return StreamSupport
.stream(Spliterators.spliteratorUnknownSize(resultSet.iterator(), Spliterator.ORDERED), false)
.map(rowMapper);
} else {
return (Stream<E>) StreamSupport
.stream(Spliterators.spliteratorUnknownSize(resultSet.iterator(), Spliterator.ORDERED), false);
}
}
private List<Ordering> getOrCreateOrdering() {
if (ordering == null) {
ordering = new ArrayList<Ordering>();
}
return ordering;
}
private List<Ordering> getOrCreateOrdering() {
if (ordering == null) {
ordering = new ArrayList<Ordering>();
}
return ordering;
}
}

59
src/main/java/net/helenus/core/operation/SelectTransformingOperation.java
View file

@ -15,48 +15,45 @@
*/
package net.helenus.core.operation;
import com.datastax.driver.core.ResultSet;
import com.datastax.driver.core.querybuilder.BuiltStatement;
import java.util.List;
import java.util.function.Function;
import java.util.stream.Stream;
import com.datastax.driver.core.ResultSet;
import com.datastax.driver.core.querybuilder.BuiltStatement;
import net.helenus.core.cache.Facet;
public final class SelectTransformingOperation<R, E>
extends
AbstractFilterStreamOperation<R, SelectTransformingOperation<R, E>> {
extends AbstractFilterStreamOperation<R, SelectTransformingOperation<R, E>> {
private final SelectOperation<E> delegate;
private final Function<E, R> fn;
private final SelectOperation<E> delegate;
private final Function<E, R> fn;
public SelectTransformingOperation(SelectOperation<E> delegate, Function<E, R> fn) {
super(delegate.sessionOps);
public SelectTransformingOperation(SelectOperation<E> delegate, Function<E, R> fn) {
super(delegate.sessionOps);
this.delegate = delegate;
this.fn = fn;
this.filters = delegate.filters;
this.ifFilters = delegate.ifFilters;
}
this.delegate = delegate;
this.fn = fn;
this.filters = delegate.filters;
this.ifFilters = delegate.ifFilters;
}
@Override
public List<Facet> bindFacetValues() {
return delegate.bindFacetValues();
}
@Override
public List<Facet> bindFacetValues() {
return delegate.bindFacetValues();
}
@Override
public List<Facet> getFacets() {
return delegate.getFacets();
}
@Override
public List<Facet> getFacets() {
return delegate.getFacets();
}
@Override
public BuiltStatement buildStatement(boolean cached) {
return delegate.buildStatement(cached);
}
@Override
public BuiltStatement buildStatement(boolean cached) {
return delegate.buildStatement(cached);
}
@Override
public Stream<R> transform(ResultSet resultSet) {
return delegate.transform(resultSet).map(fn);
}
@Override
public Stream<R> transform(ResultSet resultSet) {
return delegate.transform(resultSet).map(fn);
}
}

1432
src/main/java/net/helenus/core/operation/UpdateOperation.java
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File diff suppressed because it is too large Load diff

53
src/main/java/net/helenus/core/reflect/DefaultPrimitiveTypes.java
View file

@ -19,34 +19,41 @@ import java.util.HashMap;
import java.util.Map;
public enum DefaultPrimitiveTypes {
BOOLEAN(boolean.class, false), BYTE(byte.class, (byte) 0x0), CHAR(char.class, (char) 0x0), SHORT(short.class,
(short) 0), INT(int.class, 0), LONG(long.class, 0L), FLOAT(float.class, 0.0f), DOUBLE(double.class, 0.0);
BOOLEAN(boolean.class, false),
BYTE(byte.class, (byte) 0x0),
CHAR(char.class, (char) 0x0),
SHORT(short.class, (short) 0),
INT(int.class, 0),
LONG(long.class, 0L),
FLOAT(float.class, 0.0f),
DOUBLE(double.class, 0.0);
private static final Map<Class<?>, DefaultPrimitiveTypes> map = new HashMap<Class<?>, DefaultPrimitiveTypes>();
private static final Map<Class<?>, DefaultPrimitiveTypes> map =
new HashMap<Class<?>, DefaultPrimitiveTypes>();
static {
for (DefaultPrimitiveTypes type : DefaultPrimitiveTypes.values()) {
map.put(type.getPrimitiveClass(), type);
}
}
static {
for (DefaultPrimitiveTypes type : DefaultPrimitiveTypes.values()) {
map.put(type.getPrimitiveClass(), type);
}
}
private final Class<?> primitiveClass;
private final Object defaultValue;
private final Class<?> primitiveClass;
private final Object defaultValue;
private DefaultPrimitiveTypes(Class<?> primitiveClass, Object defaultValue) {
this.primitiveClass = primitiveClass;
this.defaultValue = defaultValue;
}
private DefaultPrimitiveTypes(Class<?> primitiveClass, Object defaultValue) {
this.primitiveClass = primitiveClass;
this.defaultValue = defaultValue;
}
public static DefaultPrimitiveTypes lookup(Class<?> primitiveClass) {
return map.get(primitiveClass);
}
public static DefaultPrimitiveTypes lookup(Class<?> primitiveClass) {
return map.get(primitiveClass);
}
public Class<?> getPrimitiveClass() {
return primitiveClass;
}
public Class<?> getPrimitiveClass() {
return primitiveClass;
}
public Object getDefaultValue() {
return defaultValue;
}
public Object getDefaultValue() {
return defaultValue;
}
}

4
src/main/java/net/helenus/core/reflect/Drafted.java
View file

@ -19,7 +19,7 @@ import java.util.Set;
public interface Drafted<T> extends MapExportable {
Set<String> mutated();
Set<String> mutated();
T build();
T build();
}

13
src/main/java/net/helenus/core/reflect/DslExportable.java
View file

@ -16,18 +16,17 @@
package net.helenus.core.reflect;
import com.datastax.driver.core.Metadata;
import net.helenus.mapping.HelenusEntity;
public interface DslExportable {
String GET_ENTITY_METHOD = "getHelenusMappingEntity";
String GET_PARENT_METHOD = "getParentDslHelenusPropertyNode";
String SET_METADATA_METHOD = "setCassandraMetadataForHelenusSession";
String GET_ENTITY_METHOD = "getHelenusMappingEntity";
String GET_PARENT_METHOD = "getParentDslHelenusPropertyNode";
String SET_METADATA_METHOD = "setCassandraMetadataForHelenusSession";
HelenusEntity getHelenusMappingEntity();
HelenusEntity getHelenusMappingEntity();
HelenusPropertyNode getParentDslHelenusPropertyNode();
HelenusPropertyNode getParentDslHelenusPropertyNode();
void setCassandraMetadataForHelenusSession(Metadata metadata);
void setCassandraMetadataForHelenusSession(Metadata metadata);
}

258
src/main/java/net/helenus/core/reflect/DslInvocationHandler.java
View file

@ -15,6 +15,7 @@
*/
package net.helenus.core.reflect;
import com.datastax.driver.core.*;
import java.lang.reflect.InvocationHandler;
import java.lang.reflect.Method;
import java.lang.reflect.Proxy;
@ -22,9 +23,6 @@ import java.util.Collection;
import java.util.HashMap;
import java.util.Map;
import java.util.Optional;
import com.datastax.driver.core.*;
import net.helenus.core.Helenus;
import net.helenus.mapping.HelenusEntity;
import net.helenus.mapping.HelenusMappingEntity;
@ -37,164 +35,178 @@ import net.helenus.support.HelenusException;
public class DslInvocationHandler<E> implements InvocationHandler {
private final Class<E> iface;
private final ClassLoader classLoader;
private final Optional<HelenusPropertyNode> parent;
private final Map<Method, HelenusProperty> map = new HashMap<Method, HelenusProperty>();
private final Map<Method, Object> udtMap = new HashMap<Method, Object>();
private final Map<Method, Object> tupleMap = new HashMap<Method, Object>();
private HelenusEntity entity = null;
private Metadata metadata = null;
private final Class<E> iface;
private final ClassLoader classLoader;
private final Optional<HelenusPropertyNode> parent;
private final Map<Method, HelenusProperty> map = new HashMap<Method, HelenusProperty>();
private final Map<Method, Object> udtMap = new HashMap<Method, Object>();
private final Map<Method, Object> tupleMap = new HashMap<Method, Object>();
private HelenusEntity entity = null;
private Metadata metadata = null;
public DslInvocationHandler(Class<E> iface, ClassLoader classLoader, Optional<HelenusPropertyNode> parent,
Metadata metadata) {
public DslInvocationHandler(
Class<E> iface,
ClassLoader classLoader,
Optional<HelenusPropertyNode> parent,
Metadata metadata) {
this.metadata = metadata;
this.parent = parent;
this.iface = iface;
this.classLoader = classLoader;
}
this.metadata = metadata;
this.parent = parent;
this.iface = iface;
this.classLoader = classLoader;
}
public void setCassandraMetadataForHelenusSession(Metadata metadata) {
if (metadata != null) {
this.metadata = metadata;
entity = init(metadata);
}
}
public void setCassandraMetadataForHelenusSession(Metadata metadata) {
if (metadata != null) {
this.metadata = metadata;
entity = init(metadata);
}
}
private HelenusEntity init(Metadata metadata) {
HelenusEntity entity = new HelenusMappingEntity(iface, metadata);
Collection<HelenusProperty> properties = entity.getOrderedProperties();
if (properties != null) {
for (HelenusProperty prop : properties) {
private HelenusEntity init(Metadata metadata) {
HelenusEntity entity = new HelenusMappingEntity(iface, metadata);
Collection<HelenusProperty> properties = entity.getOrderedProperties();
if (properties != null) {
for (HelenusProperty prop : properties) {
map.put(prop.getGetterMethod(), prop);
map.put(prop.getGetterMethod(), prop);
AbstractDataType type = prop.getDataType();
Class<?> javaType = prop.getJavaType();
AbstractDataType type = prop.getDataType();
Class<?> javaType = prop.getJavaType();
if (type instanceof UDTDataType && !UDTValue.class.isAssignableFrom(javaType)) {
if (type instanceof UDTDataType && !UDTValue.class.isAssignableFrom(javaType)) {
Object childDsl = Helenus.dsl(javaType, classLoader,
Optional.of(new HelenusPropertyNode(prop, parent)), metadata);
Object childDsl =
Helenus.dsl(
javaType,
classLoader,
Optional.of(new HelenusPropertyNode(prop, parent)),
metadata);
udtMap.put(prop.getGetterMethod(), childDsl);
}
udtMap.put(prop.getGetterMethod(), childDsl);
}
if (type instanceof DTDataType) {
DTDataType dataType = (DTDataType) type;
if (type instanceof DTDataType) {
DTDataType dataType = (DTDataType) type;
if (dataType.getDataType() instanceof TupleType && !TupleValue.class.isAssignableFrom(javaType)) {
if (dataType.getDataType() instanceof TupleType
&& !TupleValue.class.isAssignableFrom(javaType)) {
Object childDsl = Helenus.dsl(javaType, classLoader,
Optional.of(new HelenusPropertyNode(prop, parent)), metadata);
Object childDsl =
Helenus.dsl(
javaType,
classLoader,
Optional.of(new HelenusPropertyNode(prop, parent)),
metadata);
tupleMap.put(prop.getGetterMethod(), childDsl);
}
}
}
}
tupleMap.put(prop.getGetterMethod(), childDsl);
}
}
}
}
return entity;
}
return entity;
}
@Override
public Object invoke(Object proxy, Method method, Object[] args) throws Throwable {
@Override
public Object invoke(Object proxy, Method method, Object[] args) throws Throwable {
HelenusEntity entity = this.entity;
String methodName = method.getName();
HelenusEntity entity = this.entity;
String methodName = method.getName();
if ("equals".equals(methodName) && method.getParameterCount() == 1) {
Object otherObj = args[0];
if (otherObj == null) {
return false;
}
if (Proxy.isProxyClass(otherObj.getClass())) {
return this == Proxy.getInvocationHandler(otherObj);
}
return false;
}
if ("equals".equals(methodName) && method.getParameterCount() == 1) {
Object otherObj = args[0];
if (otherObj == null) {
return false;
}
if (Proxy.isProxyClass(otherObj.getClass())) {
return this == Proxy.getInvocationHandler(otherObj);
}
return false;
}
if (DslExportable.SET_METADATA_METHOD.equals(methodName) && args.length == 1 && args[0] instanceof Metadata) {
if (metadata == null) {
this.setCassandraMetadataForHelenusSession((Metadata) args[0]);
}
return null;
}
if (DslExportable.SET_METADATA_METHOD.equals(methodName)
&& args.length == 1
&& args[0] instanceof Metadata) {
if (metadata == null) {
this.setCassandraMetadataForHelenusSession((Metadata) args[0]);
}
return null;
}
if (method.getParameterCount() != 0 || method.getReturnType() == void.class) {
throw new HelenusException("invalid getter method " + method);
}
if (method.getParameterCount() != 0 || method.getReturnType() == void.class) {
throw new HelenusException("invalid getter method " + method);
}
if ("hashCode".equals(methodName)) {
return hashCode();
}
if ("hashCode".equals(methodName)) {
return hashCode();
}
if (DslExportable.GET_PARENT_METHOD.equals(methodName)) {
return parent.get();
}
if (DslExportable.GET_PARENT_METHOD.equals(methodName)) {
return parent.get();
}
if (entity == null) {
entity = init(metadata);
}
if (entity == null) {
entity = init(metadata);
}
if ("toString".equals(methodName)) {
return entity.toString();
}
if ("toString".equals(methodName)) {
return entity.toString();
}
if (DslExportable.GET_ENTITY_METHOD.equals(methodName)) {
return entity;
}
if (DslExportable.GET_ENTITY_METHOD.equals(methodName)) {
return entity;
}
HelenusProperty prop = map.get(method);
if (prop == null) {
prop = entity.getProperty(methodName);
}
HelenusProperty prop = map.get(method);
if (prop == null) {
prop = entity.getProperty(methodName);
}
if (prop != null) {
if (prop != null) {
AbstractDataType type = prop.getDataType();
AbstractDataType type = prop.getDataType();
if (type instanceof UDTDataType) {
if (type instanceof UDTDataType) {
Object childDsl = udtMap.get(method);
Object childDsl = udtMap.get(method);
if (childDsl != null) {
return childDsl;
}
}
if (childDsl != null) {
return childDsl;
}
}
if (type instanceof DTDataType) {
DTDataType dataType = (DTDataType) type;
DataType dt = dataType.getDataType();
if (type instanceof DTDataType) {
DTDataType dataType = (DTDataType) type;
DataType dt = dataType.getDataType();
switch (dt.getName()) {
case TUPLE :
Object childDsl = tupleMap.get(method);
switch (dt.getName()) {
case TUPLE:
Object childDsl = tupleMap.get(method);
if (childDsl != null) {
return childDsl;
}
if (childDsl != null) {
return childDsl;
}
break;
break;
case SET :
return new SetDsl(new HelenusPropertyNode(prop, parent));
case SET:
return new SetDsl(new HelenusPropertyNode(prop, parent));
case LIST :
return new ListDsl(new HelenusPropertyNode(prop, parent));
case LIST:
return new ListDsl(new HelenusPropertyNode(prop, parent));
case MAP :
return new MapDsl(new HelenusPropertyNode(prop, parent));
case MAP:
return new MapDsl(new HelenusPropertyNode(prop, parent));
default :
break;
}
}
default:
break;
}
}
throw new DslPropertyException(new HelenusPropertyNode(prop, parent));
}
throw new DslPropertyException(new HelenusPropertyNode(prop, parent));
}
throw new HelenusException("invalid method call " + method);
}
throw new HelenusException("invalid method call " + method);
}
}

122
src/main/java/net/helenus/core/reflect/HelenusNamedProperty.java
View file

@ -19,9 +19,7 @@ import java.lang.annotation.Annotation;
import java.lang.reflect.Method;
import java.util.Optional;
import java.util.function.Function;
import javax.validation.ConstraintValidator;
import net.helenus.core.SessionRepository;
import net.helenus.mapping.*;
import net.helenus.mapping.type.AbstractDataType;
@ -29,79 +27,79 @@ import net.helenus.support.HelenusMappingException;
public final class HelenusNamedProperty implements HelenusProperty {
private final String name;
private final String name;
public HelenusNamedProperty(String name) {
this.name = name;
}
public HelenusNamedProperty(String name) {
this.name = name;
}
@Override
public HelenusEntity getEntity() {
throw new HelenusMappingException("will never called");
}
@Override
public HelenusEntity getEntity() {
throw new HelenusMappingException("will never called");
}
@Override
public String getPropertyName() {
return name;
}
@Override
public String getPropertyName() {
return name;
}
@Override
public Method getGetterMethod() {
throw new HelenusMappingException("will never called");
}
@Override
public Method getGetterMethod() {
throw new HelenusMappingException("will never called");
}
@Override
public IdentityName getColumnName() {
return IdentityName.of(name, false);
}
@Override
public IdentityName getColumnName() {
return IdentityName.of(name, false);
}
@Override
public Optional<IdentityName> getIndexName() {
return Optional.empty();
}
@Override
public Optional<IdentityName> getIndexName() {
return Optional.empty();
}
@Override
public boolean caseSensitiveIndex() {
return false;
}
@Override
public boolean caseSensitiveIndex() {
return false;
}
@Override
public Class<?> getJavaType() {
throw new HelenusMappingException("will never called");
}
@Override
public Class<?> getJavaType() {
throw new HelenusMappingException("will never called");
}
@Override
public AbstractDataType getDataType() {
throw new HelenusMappingException("will never called");
}
@Override
public AbstractDataType getDataType() {
throw new HelenusMappingException("will never called");
}
@Override
public ColumnType getColumnType() {
return ColumnType.COLUMN;
}
@Override
public ColumnType getColumnType() {
return ColumnType.COLUMN;
}
@Override
public int getOrdinal() {
return 0;
}
@Override
public int getOrdinal() {
return 0;
}
@Override
public OrderingDirection getOrdering() {
return OrderingDirection.ASC;
}
@Override
public OrderingDirection getOrdering() {
return OrderingDirection.ASC;
}
@Override
public Optional<Function<Object, Object>> getReadConverter(SessionRepository repository) {
return Optional.empty();
}
@Override
public Optional<Function<Object, Object>> getReadConverter(SessionRepository repository) {
return Optional.empty();
}
@Override
public Optional<Function<Object, Object>> getWriteConverter(SessionRepository repository) {
return Optional.empty();
}
@Override
public Optional<Function<Object, Object>> getWriteConverter(SessionRepository repository) {
return Optional.empty();
}
@Override
public ConstraintValidator<? extends Annotation, ?>[] getValidators() {
return MappingUtil.EMPTY_VALIDATORS;
}
@Override
public ConstraintValidator<? extends Annotation, ?>[] getValidators() {
return MappingUtil.EMPTY_VALIDATORS;
}
}

135
src/main/java/net/helenus/core/reflect/HelenusPropertyNode.java
View file

@ -17,90 +17,89 @@ package net.helenus.core.reflect;
import java.util.*;
import java.util.stream.Collectors;
import net.helenus.mapping.HelenusEntity;
import net.helenus.mapping.HelenusProperty;
public final class HelenusPropertyNode implements Iterable<HelenusProperty> {
private final HelenusProperty prop;
private final Optional<HelenusPropertyNode> next;
private final HelenusProperty prop;
private final Optional<HelenusPropertyNode> next;
public HelenusPropertyNode(HelenusProperty prop, Optional<HelenusPropertyNode> next) {
this.prop = prop;
this.next = next;
}
public HelenusPropertyNode(HelenusProperty prop, Optional<HelenusPropertyNode> next) {
this.prop = prop;
this.next = next;
}
public String getColumnName() {
if (next.isPresent()) {
public String getColumnName() {
if (next.isPresent()) {
List<String> columnNames = new ArrayList<String>();
for (HelenusProperty p : this) {
columnNames.add(p.getColumnName().toCql(true));
}
Collections.reverse(columnNames);
List<String> columnNames = new ArrayList<String>();
for (HelenusProperty p : this) {
columnNames.add(p.getColumnName().toCql(true));
}
Collections.reverse(columnNames);
if (prop instanceof HelenusNamedProperty) {
int size = columnNames.size();
StringBuilder str = new StringBuilder();
for (int i = 0; i != size - 1; ++i) {
if (str.length() != 0) {
str.append(".");
}
str.append(columnNames.get(i));
}
str.append("[").append(columnNames.get(size - 1)).append("]");
return str.toString();
} else {
return columnNames.stream().collect(Collectors.joining("."));
}
} else {
return prop.getColumnName().toCql();
}
}
if (prop instanceof HelenusNamedProperty) {
int size = columnNames.size();
StringBuilder str = new StringBuilder();
for (int i = 0; i != size - 1; ++i) {
if (str.length() != 0) {
str.append(".");
}
str.append(columnNames.get(i));
}
str.append("[").append(columnNames.get(size - 1)).append("]");
return str.toString();
} else {
return columnNames.stream().collect(Collectors.joining("."));
}
} else {
return prop.getColumnName().toCql();
}
}
public HelenusEntity getEntity() {
if (next.isPresent()) {
HelenusProperty last = prop;
for (HelenusProperty p : this) {
last = p;
}
return last.getEntity();
} else {
return prop.getEntity();
}
}
public HelenusEntity getEntity() {
if (next.isPresent()) {
HelenusProperty last = prop;
for (HelenusProperty p : this) {
last = p;
}
return last.getEntity();
} else {
return prop.getEntity();
}
}
public HelenusProperty getProperty() {
return prop;
}
public HelenusProperty getProperty() {
return prop;
}
public Optional<HelenusPropertyNode> getNext() {
return next;
}
public Optional<HelenusPropertyNode> getNext() {
return next;
}
public Iterator<HelenusProperty> iterator() {
return new PropertyNodeIterator(Optional.of(this));
}
public Iterator<HelenusProperty> iterator() {
return new PropertyNodeIterator(Optional.of(this));
}
private static class PropertyNodeIterator implements Iterator<HelenusProperty> {
private static class PropertyNodeIterator implements Iterator<HelenusProperty> {
private Optional<HelenusPropertyNode> next;
private Optional<HelenusPropertyNode> next;
public PropertyNodeIterator(Optional<HelenusPropertyNode> next) {
this.next = next;
}
public PropertyNodeIterator(Optional<HelenusPropertyNode> next) {
this.next = next;
}
@Override
public boolean hasNext() {
return next.isPresent();
}
@Override
public boolean hasNext() {
return next.isPresent();
}
@Override
public HelenusProperty next() {
HelenusPropertyNode node = next.get();
next = node.next;
return node.prop;
}
}
@Override
public HelenusProperty next() {
HelenusPropertyNode node = next.get();
next = node.next;
return node.prop;
}
}
}

255
src/main/java/net/helenus/core/reflect/ListDsl.java
View file

@ -16,165 +16,164 @@
package net.helenus.core.reflect;
import java.util.*;
import net.helenus.mapping.HelenusProperty;
import net.helenus.support.DslPropertyException;
import net.helenus.support.HelenusMappingException;
public final class ListDsl<V> implements List<V> {
private final HelenusPropertyNode parent;
private final HelenusPropertyNode parent;
public ListDsl(HelenusPropertyNode parent) {
this.parent = parent;
}
public ListDsl(HelenusPropertyNode parent) {
this.parent = parent;
}
public HelenusPropertyNode getParent() {
return parent;
}
public HelenusPropertyNode getParent() {
return parent;
}
@Override
public V get(int index) {
HelenusProperty prop = new HelenusNamedProperty(Integer.toString(index));
throw new DslPropertyException(new HelenusPropertyNode(prop, Optional.of(parent)));
}
@Override
public V get(int index) {
HelenusProperty prop = new HelenusNamedProperty(Integer.toString(index));
throw new DslPropertyException(new HelenusPropertyNode(prop, Optional.of(parent)));
}
@Override
public int size() {
throwShouldNeverCall();
return 0;
}
@Override
public int size() {
throwShouldNeverCall();
return 0;
}
@Override
public boolean isEmpty() {
throwShouldNeverCall();
return false;
}
@Override
public boolean isEmpty() {
throwShouldNeverCall();
return false;
}
@Override
public boolean contains(Object o) {
throwShouldNeverCall();
return false;
}
@Override
public boolean contains(Object o) {
throwShouldNeverCall();
return false;
}
@Override
public Iterator<V> iterator() {
throwShouldNeverCall();
return null;
}
@Override
public Iterator<V> iterator() {
throwShouldNeverCall();
return null;
}
@Override
public Object[] toArray() {
throwShouldNeverCall();
return null;
}
@Override
public Object[] toArray() {
throwShouldNeverCall();
return null;
}
@Override
public <T> T[] toArray(T[] a) {
throwShouldNeverCall();
return null;
}
@Override
public <T> T[] toArray(T[] a) {
throwShouldNeverCall();
return null;
}
@Override
public boolean add(V e) {
throwShouldNeverCall();
return false;
}
@Override
public boolean add(V e) {
throwShouldNeverCall();
return false;
}
@Override
public boolean remove(Object o) {
throwShouldNeverCall();
return false;
}
@Override
public boolean remove(Object o) {
throwShouldNeverCall();
return false;
}
@Override
public boolean containsAll(Collection<?> c) {
throwShouldNeverCall();
return false;
}
@Override
public boolean containsAll(Collection<?> c) {
throwShouldNeverCall();
return false;
}
@Override
public boolean addAll(Collection<? extends V> c) {
throwShouldNeverCall();
return false;
}
@Override
public boolean addAll(Collection<? extends V> c) {
throwShouldNeverCall();
return false;
}
@Override
public boolean addAll(int index, Collection<? extends V> c) {
throwShouldNeverCall();
return false;
}
@Override
public boolean addAll(int index, Collection<? extends V> c) {
throwShouldNeverCall();
return false;
}
@Override
public boolean removeAll(Collection<?> c) {
throwShouldNeverCall();
return false;
}
@Override
public boolean removeAll(Collection<?> c) {
throwShouldNeverCall();
return false;
}
@Override
public boolean retainAll(Collection<?> c) {
throwShouldNeverCall();
return false;
}
@Override
public boolean retainAll(Collection<?> c) {
throwShouldNeverCall();
return false;
}
@Override
public void clear() {
throwShouldNeverCall();
}
@Override
public void clear() {
throwShouldNeverCall();
}
@Override
public V set(int index, V element) {
throwShouldNeverCall();
return null;
}
@Override
public V set(int index, V element) {
throwShouldNeverCall();
return null;
}
@Override
public void add(int index, V element) {
throwShouldNeverCall();
}
@Override
public void add(int index, V element) {
throwShouldNeverCall();
}
@Override
public V remove(int index) {
throwShouldNeverCall();
return null;
}
@Override
public V remove(int index) {
throwShouldNeverCall();
return null;
}
@Override
public int indexOf(Object o) {
throwShouldNeverCall();
return 0;
}
@Override
public int indexOf(Object o) {
throwShouldNeverCall();
return 0;
}
@Override
public int lastIndexOf(Object o) {
throwShouldNeverCall();
return 0;
}
@Override
public int lastIndexOf(Object o) {
throwShouldNeverCall();
return 0;
}
@Override
public ListIterator<V> listIterator() {
throwShouldNeverCall();
return null;
}
@Override
public ListIterator<V> listIterator() {
throwShouldNeverCall();
return null;
}
@Override
public ListIterator<V> listIterator(int index) {
throwShouldNeverCall();
return null;
}
@Override
public ListIterator<V> listIterator(int index) {
throwShouldNeverCall();
return null;
}
@Override
public List<V> subList(int fromIndex, int toIndex) {
throwShouldNeverCall();
return null;
}
@Override
public List<V> subList(int fromIndex, int toIndex) {
throwShouldNeverCall();
return null;
}
private void throwShouldNeverCall() {
throw new HelenusMappingException("should be never called");
}
private void throwShouldNeverCall() {
throw new HelenusMappingException("should be never called");
}
@Override
public String toString() {
return "ListDsl";
}
@Override
public String toString() {
return "ListDsl";
}
}

145
src/main/java/net/helenus/core/reflect/MapDsl.java
View file

@ -19,99 +19,98 @@ import java.util.Collection;
import java.util.Map;
import java.util.Optional;
import java.util.Set;
import net.helenus.mapping.HelenusProperty;
import net.helenus.support.DslPropertyException;
import net.helenus.support.HelenusMappingException;
public final class MapDsl<K, V> implements Map<K, V> {
private final HelenusPropertyNode parent;
private final HelenusPropertyNode parent;
public MapDsl(HelenusPropertyNode parent) {
this.parent = parent;
}
public MapDsl(HelenusPropertyNode parent) {
this.parent = parent;
}
public HelenusPropertyNode getParent() {
return parent;
}
public HelenusPropertyNode getParent() {
return parent;
}
@Override
public V get(Object key) {
HelenusProperty prop = new HelenusNamedProperty(key.toString());
throw new DslPropertyException(new HelenusPropertyNode(prop, Optional.of(parent)));
}
@Override
public V get(Object key) {
HelenusProperty prop = new HelenusNamedProperty(key.toString());
throw new DslPropertyException(new HelenusPropertyNode(prop, Optional.of(parent)));
}
@Override
public int size() {
throwShouldNeverCall();
return 0;
}
@Override
public int size() {
throwShouldNeverCall();
return 0;
}
@Override
public boolean isEmpty() {
throwShouldNeverCall();
return false;
}
@Override
public boolean isEmpty() {
throwShouldNeverCall();
return false;
}
@Override
public boolean containsKey(Object key) {
throwShouldNeverCall();
return false;
}
@Override
public boolean containsKey(Object key) {
throwShouldNeverCall();
return false;
}
@Override
public boolean containsValue(Object value) {
throwShouldNeverCall();
return false;
}
@Override
public boolean containsValue(Object value) {
throwShouldNeverCall();
return false;
}
@Override
public V put(K key, V value) {
throwShouldNeverCall();
return null;
}
@Override
public V put(K key, V value) {
throwShouldNeverCall();
return null;
}
@Override
public V remove(Object key) {
throwShouldNeverCall();
return null;
}
@Override
public V remove(Object key) {
throwShouldNeverCall();
return null;
}
@Override
public void putAll(Map<? extends K, ? extends V> m) {
throwShouldNeverCall();
}
@Override
public void putAll(Map<? extends K, ? extends V> m) {
throwShouldNeverCall();
}
@Override
public void clear() {
throwShouldNeverCall();
}
@Override
public void clear() {
throwShouldNeverCall();
}
@Override
public Set<K> keySet() {
throwShouldNeverCall();
return null;
}
@Override
public Set<K> keySet() {
throwShouldNeverCall();
return null;
}
@Override
public Collection<V> values() {
throwShouldNeverCall();
return null;
}
@Override
public Collection<V> values() {
throwShouldNeverCall();
return null;
}
@Override
public Set<java.util.Map.Entry<K, V>> entrySet() {
throwShouldNeverCall();
return null;
}
@Override
public Set<java.util.Map.Entry<K, V>> entrySet() {
throwShouldNeverCall();
return null;
}
private void throwShouldNeverCall() {
throw new HelenusMappingException("should be never called");
}
private void throwShouldNeverCall() {
throw new HelenusMappingException("should be never called");
}
@Override
public String toString() {
return "MapDsl";
}
@Override
public String toString() {
return "MapDsl";
}
}

4
src/main/java/net/helenus/core/reflect/MapExportable.java
View file

@ -19,7 +19,7 @@ import java.util.Map;
public interface MapExportable {
public static final String TO_MAP_METHOD = "toMap";
public static final String TO_MAP_METHOD = "toMap";
Map<String, Object> toMap();
Map<String, Object> toMap();
}

241
src/main/java/net/helenus/core/reflect/MapperInvocationHandler.java
View file

@ -27,158 +27,161 @@ import java.lang.reflect.Proxy;
import java.util.HashMap;
import java.util.Map;
import java.util.Set;
import net.helenus.core.Helenus;
import net.helenus.mapping.annotation.Transient;
import net.helenus.mapping.value.ValueProviderMap;
import net.helenus.support.HelenusException;
public class MapperInvocationHandler<E> implements InvocationHandler, Serializable {
private static final long serialVersionUID = -7044209982830584984L;
private static final long serialVersionUID = -7044209982830584984L;
private final Map<String, Object> src;
private final Class<E> iface;
private final Map<String, Object> src;
private final Class<E> iface;
public MapperInvocationHandler(Class<E> iface, Map<String, Object> src) {
this.src = src;
this.iface = iface;
}
public MapperInvocationHandler(Class<E> iface, Map<String, Object> src) {
this.src = src;
this.iface = iface;
}
private Object invokeDefault(Object proxy, Method method, Object[] args) throws Throwable {
// NOTE: This is reflection magic to invoke (non-recursively) a default method
// implemented on an interface
// that we've proxied (in ReflectionDslInstantiator). I found the answer in this
// article.
// https://zeroturnaround.com/rebellabs/recognize-and-conquer-java-proxies-default-methods-and-method-handles/
private Object invokeDefault(Object proxy, Method method, Object[] args) throws Throwable {
// NOTE: This is reflection magic to invoke (non-recursively) a default method
// implemented on an interface
// that we've proxied (in ReflectionDslInstantiator). I found the answer in this
// article.
// https://zeroturnaround.com/rebellabs/recognize-and-conquer-java-proxies-default-methods-and-method-handles/
// First, we need an instance of a private inner-class found in MethodHandles.
Constructor<MethodHandles.Lookup> constructor = MethodHandles.Lookup.class.getDeclaredConstructor(Class.class,
int.class);
constructor.setAccessible(true);
// First, we need an instance of a private inner-class found in MethodHandles.
Constructor<MethodHandles.Lookup> constructor =
MethodHandles.Lookup.class.getDeclaredConstructor(Class.class, int.class);
constructor.setAccessible(true);
// Now we need to lookup and invoke special the default method on the interface
// class.
final Class<?> declaringClass = method.getDeclaringClass();
Object result = constructor.newInstance(declaringClass, MethodHandles.Lookup.PRIVATE)
.unreflectSpecial(method, declaringClass).bindTo(proxy).invokeWithArguments(args);
return result;
}
// Now we need to lookup and invoke special the default method on the interface
// class.
final Class<?> declaringClass = method.getDeclaringClass();
Object result =
constructor
.newInstance(declaringClass, MethodHandles.Lookup.PRIVATE)
.unreflectSpecial(method, declaringClass)
.bindTo(proxy)
.invokeWithArguments(args);
return result;
}
private Object writeReplace() {
return new SerializationProxy<E>(this);
}
private void readObject(ObjectInputStream stream) throws InvalidObjectException {
throw new InvalidObjectException("Proxy required.");
}
private Object writeReplace() {
return new SerializationProxy<E>(this);
}
@Override
public Object invoke(Object proxy, Method method, Object[] args) throws Throwable {
private void readObject(ObjectInputStream stream) throws InvalidObjectException {
throw new InvalidObjectException("Proxy required.");
}
// Transient, default methods should simply be invoked as-is.
if (method.isDefault() && method.getDeclaredAnnotation(Transient.class) != null) {
return invokeDefault(proxy, method, args);
}
@Override
public Object invoke(Object proxy, Method method, Object[] args) throws Throwable {
String methodName = method.getName();
// Transient, default methods should simply be invoked as-is.
if (method.isDefault() && method.getDeclaredAnnotation(Transient.class) != null) {
return invokeDefault(proxy, method, args);
}
if ("equals".equals(methodName) && method.getParameterCount() == 1) {
Object otherObj = args[0];
if (otherObj == null) {
return false;
}
if (Proxy.isProxyClass(otherObj.getClass())) {
if (this == Proxy.getInvocationHandler(otherObj)) {
return true;
}
}
if (otherObj instanceof MapExportable && src.equals(((MapExportable) otherObj).toMap())) {
return true;
}
if (src instanceof MapExportable && otherObj.equals(((MapExportable) src).toMap())) {
return true;
}
return false;
}
String methodName = method.getName();
if (method.getParameterCount() != 0 || method.getReturnType() == void.class) {
throw new HelenusException("invalid getter method " + method);
}
if ("equals".equals(methodName) && method.getParameterCount() == 1) {
Object otherObj = args[0];
if (otherObj == null) {
return false;
}
if (Proxy.isProxyClass(otherObj.getClass())) {
if (this == Proxy.getInvocationHandler(otherObj)) {
return true;
}
}
if (otherObj instanceof MapExportable && src.equals(((MapExportable) otherObj).toMap())) {
return true;
}
if (src instanceof MapExportable && otherObj.equals(((MapExportable) src).toMap())) {
return true;
}
return false;
}
if ("hashCode".equals(methodName)) {
return hashCode();
}
if (method.getParameterCount() != 0 || method.getReturnType() == void.class) {
throw new HelenusException("invalid getter method " + method);
}
if ("toString".equals(methodName)) {
return iface.getSimpleName() + ": " + src.toString();
}
if ("hashCode".equals(methodName)) {
return hashCode();
}
if ("writeReplace".equals(methodName)) {
return new SerializationProxy(this);
}
if ("toString".equals(methodName)) {
return iface.getSimpleName() + ": " + src.toString();
}
if ("readObject".equals(methodName)) {
throw new InvalidObjectException("Proxy required.");
}
if ("writeReplace".equals(methodName)) {
return new SerializationProxy(this);
}
if ("dsl".equals(methodName)) {
return Helenus.dsl(iface);
}
if ("readObject".equals(methodName)) {
throw new InvalidObjectException("Proxy required.");
}
if (MapExportable.TO_MAP_METHOD.equals(methodName)) {
return src; // Collections.unmodifiableMap(src);
}
if ("dsl".equals(methodName)) {
return Helenus.dsl(iface);
}
Object value = src.get(methodName);
if (MapExportable.TO_MAP_METHOD.equals(methodName)) {
return src; // Collections.unmodifiableMap(src);
}
Class<?> returnType = method.getReturnType();
Object value = src.get(methodName);
if (value == null) {
Class<?> returnType = method.getReturnType();
// Default implementations of non-Transient methods in entities are the default
// value when the
// map contains 'null'.
if (method.isDefault()) {
return invokeDefault(proxy, method, args);
}
if (value == null) {
// Otherwise, if the return type of the method is a primitive Java type then
// we'll return the standard
// default values to avoid a NPE in user code.
if (returnType.isPrimitive()) {
DefaultPrimitiveTypes type = DefaultPrimitiveTypes.lookup(returnType);
if (type == null) {
throw new HelenusException("unknown primitive type " + returnType);
}
return type.getDefaultValue();
}
}
// Default implementations of non-Transient methods in entities are the default
// value when the
// map contains 'null'.
if (method.isDefault()) {
return invokeDefault(proxy, method, args);
}
return value;
}
// Otherwise, if the return type of the method is a primitive Java type then
// we'll return the standard
// default values to avoid a NPE in user code.
if (returnType.isPrimitive()) {
DefaultPrimitiveTypes type = DefaultPrimitiveTypes.lookup(returnType);
if (type == null) {
throw new HelenusException("unknown primitive type " + returnType);
}
return type.getDefaultValue();
}
}
static class SerializationProxy<E> implements Serializable {
return value;
}
private static final long serialVersionUID = -5617583940055969353L;
static class SerializationProxy<E> implements Serializable {
private final Class<E> iface;
private final Map<String, Object> src;
private static final long serialVersionUID = -5617583940055969353L;
public SerializationProxy(MapperInvocationHandler mapper) {
this.iface = mapper.iface;
if (mapper.src instanceof ValueProviderMap) {
this.src = new HashMap<String, Object>(mapper.src.size());
Set<String> keys = mapper.src.keySet();
for (String key : keys) {
this.src.put(key, mapper.src.get(key));
}
} else {
this.src = mapper.src;
}
}
private final Class<E> iface;
private final Map<String, Object> src;
Object readResolve() throws ObjectStreamException {
return new MapperInvocationHandler(iface, src);
}
public SerializationProxy(MapperInvocationHandler mapper) {
this.iface = mapper.iface;
if (mapper.src instanceof ValueProviderMap) {
this.src = new HashMap<String, Object>(mapper.src.size());
Set<String> keys = mapper.src.keySet();
for (String key : keys) {
this.src.put(key, mapper.src.get(key));
}
} else {
this.src = mapper.src;
}
}
}
Object readResolve() throws ObjectStreamException {
return new MapperInvocationHandler(iface, src);
}
}
}

27
src/main/java/net/helenus/core/reflect/ReflectionDslInstantiator.java
View file

@ -15,22 +15,25 @@
*/
package net.helenus.core.reflect;
import com.datastax.driver.core.Metadata;
import java.lang.reflect.Proxy;
import java.util.Optional;
import com.datastax.driver.core.Metadata;
import net.helenus.core.DslInstantiator;
public enum ReflectionDslInstantiator implements DslInstantiator {
INSTANCE;
INSTANCE;
@Override
@SuppressWarnings("unchecked")
public <E> E instantiate(Class<E> iface, ClassLoader classLoader, Optional<HelenusPropertyNode> parent,
Metadata metadata) {
DslInvocationHandler<E> handler = new DslInvocationHandler<E>(iface, classLoader, parent, metadata);
E proxy = (E) Proxy.newProxyInstance(classLoader, new Class[]{iface, DslExportable.class}, handler);
return proxy;
}
@Override
@SuppressWarnings("unchecked")
public <E> E instantiate(
Class<E> iface,
ClassLoader classLoader,
Optional<HelenusPropertyNode> parent,
Metadata metadata) {
DslInvocationHandler<E> handler =
new DslInvocationHandler<E>(iface, classLoader, parent, metadata);
E proxy =
(E) Proxy.newProxyInstance(classLoader, new Class[] {iface, DslExportable.class}, handler);
return proxy;
}
}

17
src/main/java/net/helenus/core/reflect/ReflectionInstantiator.java
View file

@ -19,15 +19,14 @@ import net.helenus.support.HelenusMappingException;
public final class ReflectionInstantiator {
private ReflectionInstantiator() {
}
private ReflectionInstantiator() {}
public static <T> T instantiateClass(Class<T> clazz) {
public static <T> T instantiateClass(Class<T> clazz) {
try {
return clazz.newInstance();
} catch (InstantiationException | IllegalAccessException e) {
throw new HelenusMappingException("invalid class " + clazz, e);
}
}
try {
return clazz.newInstance();
} catch (InstantiationException | IllegalAccessException e) {
throw new HelenusMappingException("invalid class " + clazz, e);
}
}
}

21
src/main/java/net/helenus/core/reflect/ReflectionMapperInstantiator.java
View file

@ -18,19 +18,20 @@ package net.helenus.core.reflect;
import java.io.Serializable;
import java.lang.reflect.Proxy;
import java.util.Map;
import net.helenus.core.MapperInstantiator;
public enum ReflectionMapperInstantiator implements MapperInstantiator {
INSTANCE;
INSTANCE;
@Override
@SuppressWarnings("unchecked")
public <E> E instantiate(Class<E> iface, Map<String, Object> src, ClassLoader classLoader) {
@Override
@SuppressWarnings("unchecked")
public <E> E instantiate(Class<E> iface, Map<String, Object> src, ClassLoader classLoader) {
MapperInvocationHandler<E> handler = new MapperInvocationHandler<E>(iface, src);
E proxy = (E) Proxy.newProxyInstance(classLoader, new Class[]{iface, MapExportable.class, Serializable.class},
handler);
return proxy;
}
MapperInvocationHandler<E> handler = new MapperInvocationHandler<E>(iface, src);
E proxy =
(E)
Proxy.newProxyInstance(
classLoader, new Class[] {iface, MapExportable.class, Serializable.class}, handler);
return proxy;
}
}

157
src/main/java/net/helenus/core/reflect/SetDsl.java
View file

@ -18,104 +18,103 @@ package net.helenus.core.reflect;
import java.util.Collection;
import java.util.Iterator;
import java.util.Set;
import net.helenus.support.HelenusMappingException;
public final class SetDsl<V> implements Set<V> {
private final HelenusPropertyNode parent;
private final HelenusPropertyNode parent;
public SetDsl(HelenusPropertyNode parent) {
this.parent = parent;
}
public SetDsl(HelenusPropertyNode parent) {
this.parent = parent;
}
public HelenusPropertyNode getParent() {
return parent;
}
public HelenusPropertyNode getParent() {
return parent;
}
@Override
public int size() {
throwShouldNeverCall();
return 0;
}
@Override
public int size() {
throwShouldNeverCall();
return 0;
}
@Override
public boolean isEmpty() {
throwShouldNeverCall();
return false;
}
@Override
public boolean isEmpty() {
throwShouldNeverCall();
return false;
}
@Override
public boolean contains(Object o) {
throwShouldNeverCall();
return false;
}
@Override
public boolean contains(Object o) {
throwShouldNeverCall();
return false;
}
@Override
public Iterator<V> iterator() {
throwShouldNeverCall();
return null;
}
@Override
public Iterator<V> iterator() {
throwShouldNeverCall();
return null;
}
@Override
public Object[] toArray() {
throwShouldNeverCall();
return null;
}
@Override
public Object[] toArray() {
throwShouldNeverCall();
return null;
}
@Override
public <T> T[] toArray(T[] a) {
throwShouldNeverCall();
return null;
}
@Override
public <T> T[] toArray(T[] a) {
throwShouldNeverCall();
return null;
}
@Override
public boolean add(V e) {
throwShouldNeverCall();
return false;
}
@Override
public boolean add(V e) {
throwShouldNeverCall();
return false;
}
@Override
public boolean remove(Object o) {
throwShouldNeverCall();
return false;
}
@Override
public boolean remove(Object o) {
throwShouldNeverCall();
return false;
}
@Override
public boolean containsAll(Collection<?> c) {
throwShouldNeverCall();
return false;
}
@Override
public boolean containsAll(Collection<?> c) {
throwShouldNeverCall();
return false;
}
@Override
public boolean addAll(Collection<? extends V> c) {
throwShouldNeverCall();
return false;
}
@Override
public boolean addAll(Collection<? extends V> c) {
throwShouldNeverCall();
return false;
}
@Override
public boolean retainAll(Collection<?> c) {
throwShouldNeverCall();
return false;
}
@Override
public boolean retainAll(Collection<?> c) {
throwShouldNeverCall();
return false;
}
@Override
public boolean removeAll(Collection<?> c) {
throwShouldNeverCall();
return false;
}
@Override
public boolean removeAll(Collection<?> c) {
throwShouldNeverCall();
return false;
}
@Override
public void clear() {
throwShouldNeverCall();
}
@Override
public void clear() {
throwShouldNeverCall();
}
private void throwShouldNeverCall() {
throw new HelenusMappingException("should be never called");
}
private void throwShouldNeverCall() {
throw new HelenusMappingException("should be never called");
}
@Override
public String toString() {
return "SetDsl";
}
@Override
public String toString() {
return "SetDsl";
}
}

153
src/main/java/net/helenus/mapping/ColumnInformation.java
View file

@ -16,7 +16,6 @@
package net.helenus.mapping;
import java.lang.reflect.Method;
import net.helenus.mapping.annotation.ClusteringColumn;
import net.helenus.mapping.annotation.Column;
import net.helenus.mapping.annotation.PartitionKey;
@ -25,91 +24,99 @@ import net.helenus.support.HelenusMappingException;
public final class ColumnInformation {
private final IdentityName columnName;
private final ColumnType columnType;
private final int ordinal;
private final OrderingDirection ordering;
private final IdentityName columnName;
private final ColumnType columnType;
private final int ordinal;
private final OrderingDirection ordering;
public ColumnInformation(Method getter) {
public ColumnInformation(Method getter) {
String columnName = null;
boolean forceQuote = false;
ColumnType columnTypeLocal = ColumnType.COLUMN;
int ordinalLocal = 0;
OrderingDirection orderingLocal = OrderingDirection.ASC;
String columnName = null;
boolean forceQuote = false;
ColumnType columnTypeLocal = ColumnType.COLUMN;
int ordinalLocal = 0;
OrderingDirection orderingLocal = OrderingDirection.ASC;
PartitionKey partitionKey = getter.getDeclaredAnnotation(PartitionKey.class);
if (partitionKey != null) {
columnName = partitionKey.value();
forceQuote = partitionKey.forceQuote();
columnTypeLocal = ColumnType.PARTITION_KEY;
ordinalLocal = partitionKey.ordinal();
}
PartitionKey partitionKey = getter.getDeclaredAnnotation(PartitionKey.class);
if (partitionKey != null) {
columnName = partitionKey.value();
forceQuote = partitionKey.forceQuote();
columnTypeLocal = ColumnType.PARTITION_KEY;
ordinalLocal = partitionKey.ordinal();
}
ClusteringColumn clusteringColumn = getter.getDeclaredAnnotation(ClusteringColumn.class);
if (clusteringColumn != null) {
ensureSingleColumnType(columnTypeLocal, getter);
columnName = clusteringColumn.value();
forceQuote = clusteringColumn.forceQuote();
columnTypeLocal = ColumnType.CLUSTERING_COLUMN;
ordinalLocal = clusteringColumn.ordinal();
orderingLocal = clusteringColumn.ordering();
}
ClusteringColumn clusteringColumn = getter.getDeclaredAnnotation(ClusteringColumn.class);
if (clusteringColumn != null) {
ensureSingleColumnType(columnTypeLocal, getter);
columnName = clusteringColumn.value();
forceQuote = clusteringColumn.forceQuote();
columnTypeLocal = ColumnType.CLUSTERING_COLUMN;
ordinalLocal = clusteringColumn.ordinal();
orderingLocal = clusteringColumn.ordering();
}
StaticColumn staticColumn = getter.getDeclaredAnnotation(StaticColumn.class);
if (staticColumn != null) {
ensureSingleColumnType(columnTypeLocal, getter);
columnName = staticColumn.value();
forceQuote = staticColumn.forceQuote();
columnTypeLocal = ColumnType.STATIC_COLUMN;
ordinalLocal = staticColumn.ordinal();
}
StaticColumn staticColumn = getter.getDeclaredAnnotation(StaticColumn.class);
if (staticColumn != null) {
ensureSingleColumnType(columnTypeLocal, getter);
columnName = staticColumn.value();
forceQuote = staticColumn.forceQuote();
columnTypeLocal = ColumnType.STATIC_COLUMN;
ordinalLocal = staticColumn.ordinal();
}
Column column = getter.getDeclaredAnnotation(Column.class);
if (column != null) {
ensureSingleColumnType(columnTypeLocal, getter);
columnName = column.value();
forceQuote = column.forceQuote();
columnTypeLocal = ColumnType.COLUMN;
ordinalLocal = column.ordinal();
}
Column column = getter.getDeclaredAnnotation(Column.class);
if (column != null) {
ensureSingleColumnType(columnTypeLocal, getter);
columnName = column.value();
forceQuote = column.forceQuote();
columnTypeLocal = ColumnType.COLUMN;
ordinalLocal = column.ordinal();
}
if (columnName == null || columnName.isEmpty()) {
columnName = MappingUtil.getDefaultColumnName(getter);
}
if (columnName == null || columnName.isEmpty()) {
columnName = MappingUtil.getDefaultColumnName(getter);
}
this.columnName = new IdentityName(columnName, forceQuote);
this.columnType = columnTypeLocal;
this.ordinal = ordinalLocal;
this.ordering = orderingLocal;
}
this.columnName = new IdentityName(columnName, forceQuote);
this.columnType = columnTypeLocal;
this.ordinal = ordinalLocal;
this.ordering = orderingLocal;
}
public IdentityName getColumnName() {
return columnName;
}
public IdentityName getColumnName() {
return columnName;
}
public ColumnType getColumnType() {
return columnType;
}
public ColumnType getColumnType() {
return columnType;
}
public int getOrdinal() {
return ordinal;
}
public int getOrdinal() {
return ordinal;
}
public OrderingDirection getOrdering() {
return ordering;
}
public OrderingDirection getOrdering() {
return ordering;
}
private void ensureSingleColumnType(ColumnType columnTypeLocal, Method getter) {
private void ensureSingleColumnType(ColumnType columnTypeLocal, Method getter) {
if (columnTypeLocal != ColumnType.COLUMN) {
throw new HelenusMappingException("property can be annotated only by a single column type " + getter);
}
}
if (columnTypeLocal != ColumnType.COLUMN) {
throw new HelenusMappingException(
"property can be annotated only by a single column type " + getter);
}
}
@Override
public String toString() {
return "ColumnInformation [columnName=" + columnName + ", columnType=" + columnType + ", ordinal=" + ordinal
+ ", ordering=" + ordering + "]";
}
@Override
public String toString() {
return "ColumnInformation [columnName="
+ columnName
+ ", columnType="
+ columnType
+ ", ordinal="
+ ordinal
+ ", ordering="
+ ordering
+ "]";
}
}

5
src/main/java/net/helenus/mapping/ColumnType.java
View file

@ -16,5 +16,8 @@
package net.helenus.mapping;
public enum ColumnType {
PARTITION_KEY, CLUSTERING_COLUMN, STATIC_COLUMN, COLUMN;
PARTITION_KEY,
CLUSTERING_COLUMN,
STATIC_COLUMN,
COLUMN;
}

15
src/main/java/net/helenus/mapping/HelenusEntity.java
View file

@ -17,22 +17,21 @@ package net.helenus.mapping;
import java.util.Collection;
import java.util.List;
import net.helenus.core.cache.Facet;
public interface HelenusEntity {
HelenusEntityType getType();
HelenusEntityType getType();
boolean isCacheable();
boolean isCacheable();
Class<?> getMappingInterface();
Class<?> getMappingInterface();
IdentityName getName();
IdentityName getName();
Collection<HelenusProperty> getOrderedProperties();
Collection<HelenusProperty> getOrderedProperties();
HelenusProperty getProperty(String name);
HelenusProperty getProperty(String name);
List<Facet> getFacets();
List<Facet> getFacets();
}

5
src/main/java/net/helenus/mapping/HelenusEntityType.java
View file

@ -16,5 +16,8 @@
package net.helenus.mapping;
public enum HelenusEntityType {
TABLE, VIEW, TUPLE, UDT;
TABLE,
VIEW,
TUPLE,
UDT;
}

464
src/main/java/net/helenus/mapping/HelenusMappingEntity.java
View file

@ -15,18 +15,13 @@
*/
package net.helenus.mapping;
import java.lang.reflect.Method;
import java.util.*;
import javax.validation.ConstraintValidator;
import org.apache.commons.lang3.ClassUtils;
import com.datastax.driver.core.DefaultMetadata;
import com.datastax.driver.core.Metadata;
import com.google.common.collect.ImmutableList;
import com.google.common.collect.ImmutableMap;
import java.lang.reflect.Method;
import java.util.*;
import javax.validation.ConstraintValidator;
import net.helenus.config.HelenusSettings;
import net.helenus.core.Helenus;
import net.helenus.core.annotation.Cacheable;
@ -35,278 +30,301 @@ import net.helenus.core.cache.UnboundFacet;
import net.helenus.mapping.annotation.*;
import net.helenus.mapping.validator.DistinctValidator;
import net.helenus.support.HelenusMappingException;
import org.apache.commons.lang3.ClassUtils;
public final class HelenusMappingEntity implements HelenusEntity {
private final Class<?> iface;
private final HelenusEntityType type;
private final IdentityName name;
private final boolean cacheable;
private final ImmutableMap<String, Method> methods;
private final ImmutableMap<String, HelenusProperty> props;
private final ImmutableList<HelenusProperty> orderedProps;
private final List<Facet> facets;
private final Class<?> iface;
private final HelenusEntityType type;
private final IdentityName name;
private final boolean cacheable;
private final ImmutableMap<String, Method> methods;
private final ImmutableMap<String, HelenusProperty> props;
private final ImmutableList<HelenusProperty> orderedProps;
private final List<Facet> facets;
public HelenusMappingEntity(Class<?> iface, Metadata metadata) {
this(iface, autoDetectType(iface), metadata);
}
public HelenusMappingEntity(Class<?> iface, Metadata metadata) {
this(iface, autoDetectType(iface), metadata);
}
public HelenusMappingEntity(Class<?> iface, HelenusEntityType type, Metadata metadata) {
public HelenusMappingEntity(Class<?> iface, HelenusEntityType type, Metadata metadata) {
if (iface == null || !iface.isInterface()) {
throw new IllegalArgumentException("invalid parameter " + iface);
}
if (iface == null || !iface.isInterface()) {
throw new IllegalArgumentException("invalid parameter " + iface);
}
this.iface = iface;
this.type = Objects.requireNonNull(type, "type is empty");
this.name = resolveName(iface, type);
this.iface = iface;
this.type = Objects.requireNonNull(type, "type is empty");
this.name = resolveName(iface, type);
HelenusSettings settings = Helenus.settings();
HelenusSettings settings = Helenus.settings();
Map<String, Method> methods = new HashMap<String, Method>();
for (Method m : iface.getDeclaredMethods()) {
methods.put(m.getName(), m);
}
Map<String, Method> methods = new HashMap<String, Method>();
for (Method m : iface.getDeclaredMethods()) {
methods.put(m.getName(), m);
}
for (Class<?> c : ClassUtils.getAllInterfaces(iface)) {
if (c.getDeclaredAnnotation(Table.class) != null || c.getDeclaredAnnotation(InheritedTable.class) != null) {
for (Method m : c.getDeclaredMethods()) {
Method o = methods.get(m.getName());
if (o != null) {
// Prefer overridden method implementation.
if (o.getDeclaringClass().isAssignableFrom(m.getDeclaringClass())) {
methods.put(m.getName(), m);
}
} else {
methods.put(m.getName(), m);
}
}
}
}
for (Class<?> c : ClassUtils.getAllInterfaces(iface)) {
if (c.getDeclaredAnnotation(Table.class) != null
|| c.getDeclaredAnnotation(InheritedTable.class) != null) {
for (Method m : c.getDeclaredMethods()) {
Method o = methods.get(m.getName());
if (o != null) {
// Prefer overridden method implementation.
if (o.getDeclaringClass().isAssignableFrom(m.getDeclaringClass())) {
methods.put(m.getName(), m);
}
} else {
methods.put(m.getName(), m);
}
}
}
}
List<HelenusProperty> propsLocal = new ArrayList<HelenusProperty>();
ImmutableMap.Builder<String, HelenusProperty> propsBuilder = ImmutableMap.builder();
ImmutableMap.Builder<String, Method> methodsBuilder = ImmutableMap.builder();
List<HelenusProperty> propsLocal = new ArrayList<HelenusProperty>();
ImmutableMap.Builder<String, HelenusProperty> propsBuilder = ImmutableMap.builder();
ImmutableMap.Builder<String, Method> methodsBuilder = ImmutableMap.builder();
for (Method method : methods.values()) {
for (Method method : methods.values()) {
if (settings.getGetterMethodDetector().apply(method)) {
if (settings.getGetterMethodDetector().apply(method)) {
methodsBuilder.put(method.getName(), method);
methodsBuilder.put(method.getName(), method);
if (metadata != null) {
HelenusProperty prop = new HelenusMappingProperty(this, method, metadata);
if (metadata != null) {
HelenusProperty prop = new HelenusMappingProperty(this, method, metadata);
propsBuilder.put(prop.getPropertyName(), prop);
propsLocal.add(prop);
}
}
}
propsBuilder.put(prop.getPropertyName(), prop);
propsLocal.add(prop);
}
}
}
this.methods = methodsBuilder.build();
this.props = propsBuilder.build();
this.methods = methodsBuilder.build();
this.props = propsBuilder.build();
Collections.sort(propsLocal, TypeAndOrdinalColumnComparator.INSTANCE);
this.orderedProps = ImmutableList.copyOf(propsLocal);
Collections.sort(propsLocal, TypeAndOrdinalColumnComparator.INSTANCE);
this.orderedProps = ImmutableList.copyOf(propsLocal);
validateOrdinals();
validateOrdinals();
// Caching
cacheable = (null != iface.getDeclaredAnnotation(Cacheable.class));
// Caching
cacheable = (null != iface.getDeclaredAnnotation(Cacheable.class));
List<HelenusProperty> primaryKeyProperties = new ArrayList<>();
ImmutableList.Builder<Facet> facetsBuilder = ImmutableList.builder();
facetsBuilder.add(new Facet("table", name.toCql()).setFixed());
for (HelenusProperty prop : orderedProps) {
switch (prop.getColumnType()) {
case PARTITION_KEY :
case CLUSTERING_COLUMN :
primaryKeyProperties.add(prop);
break;
default :
if (primaryKeyProperties != null && primaryKeyProperties.size() > 0) {
facetsBuilder.add(new UnboundFacet(primaryKeyProperties));
primaryKeyProperties = null;
}
for (ConstraintValidator<?, ?> constraint : MappingUtil.getValidators(prop.getGetterMethod())) {
if (constraint.getClass().isAssignableFrom(DistinctValidator.class)) {
UnboundFacet facet = new UnboundFacet(prop);
facetsBuilder.add(facet);
break;
}
}
}
}
if (primaryKeyProperties != null && primaryKeyProperties.size() > 0) {
facetsBuilder.add(new UnboundFacet(primaryKeyProperties));
}
this.facets = facetsBuilder.build();
}
List<HelenusProperty> primaryKeyProperties = new ArrayList<>();
ImmutableList.Builder<Facet> facetsBuilder = ImmutableList.builder();
facetsBuilder.add(new Facet("table", name.toCql()).setFixed());
for (HelenusProperty prop : orderedProps) {
switch (prop.getColumnType()) {
case PARTITION_KEY:
case CLUSTERING_COLUMN:
primaryKeyProperties.add(prop);
break;
default:
if (primaryKeyProperties != null && primaryKeyProperties.size() > 0) {
facetsBuilder.add(new UnboundFacet(primaryKeyProperties));
primaryKeyProperties = null;
}
for (ConstraintValidator<?, ?> constraint :
MappingUtil.getValidators(prop.getGetterMethod())) {
if (constraint.getClass().isAssignableFrom(DistinctValidator.class)) {
UnboundFacet facet = new UnboundFacet(prop);
facetsBuilder.add(facet);
break;
}
}
}
}
if (primaryKeyProperties != null && primaryKeyProperties.size() > 0) {
facetsBuilder.add(new UnboundFacet(primaryKeyProperties));
}
this.facets = facetsBuilder.build();
}
private static IdentityName resolveName(Class<?> iface, HelenusEntityType type) {
private static IdentityName resolveName(Class<?> iface, HelenusEntityType type) {
switch (type) {
case TABLE :
return MappingUtil.getTableName(iface, true);
switch (type) {
case TABLE:
return MappingUtil.getTableName(iface, true);
case VIEW :
return MappingUtil.getViewName(iface, true);
case VIEW:
return MappingUtil.getViewName(iface, true);
case TUPLE :
return IdentityName.of(MappingUtil.getDefaultEntityName(iface), false);
case TUPLE:
return IdentityName.of(MappingUtil.getDefaultEntityName(iface), false);
case UDT :
return MappingUtil.getUserDefinedTypeName(iface, true);
}
case UDT:
return MappingUtil.getUserDefinedTypeName(iface, true);
}
throw new HelenusMappingException("invalid entity type " + type + " in " + type);
}
throw new HelenusMappingException("invalid entity type " + type + " in " + type);
}
private static HelenusEntityType autoDetectType(Class<?> iface) {
private static HelenusEntityType autoDetectType(Class<?> iface) {
Objects.requireNonNull(iface, "empty iface");
Objects.requireNonNull(iface, "empty iface");
if (null != iface.getDeclaredAnnotation(Table.class)) {
return HelenusEntityType.TABLE;
} else if (null != iface.getDeclaredAnnotation(MaterializedView.class)) {
return HelenusEntityType.VIEW;
} else if (null != iface.getDeclaredAnnotation(Tuple.class)) {
return HelenusEntityType.TUPLE;
} else if (null != iface.getDeclaredAnnotation(UDT.class)) {
return HelenusEntityType.UDT;
}
if (null != iface.getDeclaredAnnotation(Table.class)) {
return HelenusEntityType.TABLE;
} else if (null != iface.getDeclaredAnnotation(MaterializedView.class)) {
return HelenusEntityType.VIEW;
} else if (null != iface.getDeclaredAnnotation(Tuple.class)) {
return HelenusEntityType.TUPLE;
} else if (null != iface.getDeclaredAnnotation(UDT.class)) {
return HelenusEntityType.UDT;
}
throw new HelenusMappingException("entity must be annotated by @Table or @Tuple or @UserDefinedType " + iface);
}
throw new HelenusMappingException(
"entity must be annotated by @Table or @Tuple or @UserDefinedType " + iface);
}
@Override
public HelenusEntityType getType() {
return type;
}
@Override
public HelenusEntityType getType() {
return type;
}
@Override
public boolean isCacheable() {
return cacheable;
}
@Override
public boolean isCacheable() {
return cacheable;
}
@Override
public Class<?> getMappingInterface() {
return iface;
}
@Override
public Class<?> getMappingInterface() {
return iface;
}
@Override
public Collection<HelenusProperty> getOrderedProperties() {
return orderedProps;
}
@Override
public Collection<HelenusProperty> getOrderedProperties() {
return orderedProps;
}
@Override
public HelenusProperty getProperty(String name) {
HelenusProperty property = props.get(name);
if (property == null && methods.containsKey(name)) {
property = new HelenusMappingProperty(this, methods.get(name), new DefaultMetadata());
return property; // TODO(gburd): review adding these into the props map...
}
return props.get(name);
}
@Override
public HelenusProperty getProperty(String name) {
HelenusProperty property = props.get(name);
if (property == null && methods.containsKey(name)) {
property = new HelenusMappingProperty(this, methods.get(name), new DefaultMetadata());
return property; // TODO(gburd): review adding these into the props map...
}
return props.get(name);
}
@Override
public List<Facet> getFacets() {
return facets;
}
@Override
public List<Facet> getFacets() {
return facets;
}
@Override
public IdentityName getName() {
return name;
}
@Override
public IdentityName getName() {
return name;
}
private void validateOrdinals() {
private void validateOrdinals() {
switch (getType()) {
case TABLE :
validateOrdinalsForTable();
break;
switch (getType()) {
case TABLE:
validateOrdinalsForTable();
break;
case TUPLE :
validateOrdinalsInTuple();
break;
case TUPLE:
validateOrdinalsInTuple();
break;
default :
break;
}
}
default:
break;
}
}
private void validateOrdinalsForTable() {
private void validateOrdinalsForTable() {
BitSet partitionKeys = new BitSet();
BitSet clusteringColumns = new BitSet();
BitSet partitionKeys = new BitSet();
BitSet clusteringColumns = new BitSet();
for (HelenusProperty prop : getOrderedProperties()) {
for (HelenusProperty prop : getOrderedProperties()) {
ColumnType type = prop.getColumnType();
ColumnType type = prop.getColumnType();
int ordinal = prop.getOrdinal();
int ordinal = prop.getOrdinal();
switch (type) {
case PARTITION_KEY :
if (partitionKeys.get(ordinal)) {
throw new HelenusMappingException(
"detected two or more partition key columns with the same ordinal " + ordinal + " in "
+ prop.getEntity());
}
partitionKeys.set(ordinal);
break;
switch (type) {
case PARTITION_KEY:
if (partitionKeys.get(ordinal)) {
throw new HelenusMappingException(
"detected two or more partition key columns with the same ordinal "
+ ordinal
+ " in "
+ prop.getEntity());
}
partitionKeys.set(ordinal);
break;
case CLUSTERING_COLUMN :
if (clusteringColumns.get(ordinal)) {
throw new HelenusMappingException("detected two or clustering columns with the same ordinal "
+ ordinal + " in " + prop.getEntity());
}
clusteringColumns.set(ordinal);
break;
case CLUSTERING_COLUMN:
if (clusteringColumns.get(ordinal)) {
throw new HelenusMappingException(
"detected two or clustering columns with the same ordinal "
+ ordinal
+ " in "
+ prop.getEntity());
}
clusteringColumns.set(ordinal);
break;
default :
break;
}
}
}
default:
break;
}
}
}
private void validateOrdinalsInTuple() {
boolean[] ordinals = new boolean[props.size()];
private void validateOrdinalsInTuple() {
boolean[] ordinals = new boolean[props.size()];
getOrderedProperties().forEach(p -> {
int ordinal = p.getOrdinal();
getOrderedProperties()
.forEach(
p -> {
int ordinal = p.getOrdinal();
if (ordinal < 0 || ordinal >= ordinals.length) {
throw new HelenusMappingException("invalid ordinal " + ordinal + " found for property "
+ p.getPropertyName() + " in " + p.getEntity());
}
if (ordinal < 0 || ordinal >= ordinals.length) {
throw new HelenusMappingException(
"invalid ordinal "
+ ordinal
+ " found for property "
+ p.getPropertyName()
+ " in "
+ p.getEntity());
}
if (ordinals[ordinal]) {
throw new HelenusMappingException(
"detected two or more properties with the same ordinal " + ordinal + " in " + p.getEntity());
}
if (ordinals[ordinal]) {
throw new HelenusMappingException(
"detected two or more properties with the same ordinal "
+ ordinal
+ " in "
+ p.getEntity());
}
ordinals[ordinal] = true;
});
ordinals[ordinal] = true;
});
for (int i = 0; i != ordinals.length; ++i) {
if (!ordinals[i]) {
throw new HelenusMappingException("detected absent ordinal " + i + " in " + this);
}
}
}
for (int i = 0; i != ordinals.length; ++i) {
if (!ordinals[i]) {
throw new HelenusMappingException("detected absent ordinal " + i + " in " + this);
}
}
}
@Override
public String toString() {
@Override
public String toString() {
StringBuilder str = new StringBuilder();
str.append(iface.getSimpleName()).append("(").append(name.getName()).append(") ")
.append(type.name().toLowerCase()).append(":\n");
StringBuilder str = new StringBuilder();
str.append(iface.getSimpleName())
.append("(")
.append(name.getName())
.append(") ")
.append(type.name().toLowerCase())
.append(":\n");
for (HelenusProperty prop : getOrderedProperties()) {
str.append(prop.toString());
str.append("\n");
}
return str.toString();
}
for (HelenusProperty prop : getOrderedProperties()) {
str.append(prop.toString());
str.append("\n");
}
return str.toString();
}
}

266
src/main/java/net/helenus/mapping/HelenusMappingProperty.java
View file

@ -15,16 +15,13 @@
*/
package net.helenus.mapping;
import com.datastax.driver.core.Metadata;
import java.lang.annotation.Annotation;
import java.lang.reflect.Method;
import java.lang.reflect.Type;
import java.util.Optional;
import java.util.function.Function;
import javax.validation.ConstraintValidator;
import com.datastax.driver.core.Metadata;
import net.helenus.core.SessionRepository;
import net.helenus.mapping.javatype.AbstractJavaType;
import net.helenus.mapping.javatype.MappingJavaTypes;
@ -32,171 +29,172 @@ import net.helenus.mapping.type.AbstractDataType;
public final class HelenusMappingProperty implements HelenusProperty {
private final HelenusEntity entity;
private final Method getter;
private final HelenusEntity entity;
private final Method getter;
private final String propertyName;
private final Optional<IdentityName> indexName;
private final boolean caseSensitiveIndex;
private final String propertyName;
private final Optional<IdentityName> indexName;
private final boolean caseSensitiveIndex;
private final ColumnInformation columnInfo;
private final ColumnInformation columnInfo;
private final Type genericJavaType;
private final Class<?> javaType;
private final AbstractJavaType abstractJavaType;
private final AbstractDataType dataType;
private final ConstraintValidator<? extends Annotation, ?>[] validators;
private volatile Optional<Function<Object, Object>> readConverter = null;
private volatile Optional<Function<Object, Object>> writeConverter = null;
private final Type genericJavaType;
private final Class<?> javaType;
private final AbstractJavaType abstractJavaType;
private final AbstractDataType dataType;
private final ConstraintValidator<? extends Annotation, ?>[] validators;
private volatile Optional<Function<Object, Object>> readConverter = null;
private volatile Optional<Function<Object, Object>> writeConverter = null;
public HelenusMappingProperty(HelenusMappingEntity entity, Method getter, Metadata metadata) {
this.entity = entity;
this.getter = getter;
public HelenusMappingProperty(HelenusMappingEntity entity, Method getter, Metadata metadata) {
this.entity = entity;
this.getter = getter;
this.propertyName = MappingUtil.getPropertyName(getter);
this.indexName = MappingUtil.getIndexName(getter);
this.caseSensitiveIndex = MappingUtil.caseSensitiveIndex(getter);
this.propertyName = MappingUtil.getPropertyName(getter);
this.indexName = MappingUtil.getIndexName(getter);
this.caseSensitiveIndex = MappingUtil.caseSensitiveIndex(getter);
this.columnInfo = new ColumnInformation(getter);
this.columnInfo = new ColumnInformation(getter);
this.genericJavaType = getter.getGenericReturnType();
this.javaType = getter.getReturnType();
this.abstractJavaType = MappingJavaTypes.resolveJavaType(this.javaType);
this.genericJavaType = getter.getGenericReturnType();
this.javaType = getter.getReturnType();
this.abstractJavaType = MappingJavaTypes.resolveJavaType(this.javaType);
this.dataType = abstractJavaType.resolveDataType(this.getter, this.genericJavaType,
this.columnInfo.getColumnType(), metadata);
this.dataType =
abstractJavaType.resolveDataType(
this.getter, this.genericJavaType, this.columnInfo.getColumnType(), metadata);
this.validators = MappingUtil.getValidators(getter);
}
this.validators = MappingUtil.getValidators(getter);
}
@Override
public HelenusEntity getEntity() {
return entity;
}
@Override
public HelenusEntity getEntity() {
return entity;
}
@Override
public Class<?> getJavaType() {
return (Class<?>) javaType;
}
@Override
public Class<?> getJavaType() {
return (Class<?>) javaType;
}
@Override
public AbstractDataType getDataType() {
return dataType;
}
@Override
public AbstractDataType getDataType() {
return dataType;
}
@Override
public ColumnType getColumnType() {
return columnInfo.getColumnType();
}
@Override
public ColumnType getColumnType() {
return columnInfo.getColumnType();
}
@Override
public int getOrdinal() {
return columnInfo.getOrdinal();
}
@Override
public int getOrdinal() {
return columnInfo.getOrdinal();
}
@Override
public OrderingDirection getOrdering() {
return columnInfo.getOrdering();
}
@Override
public OrderingDirection getOrdering() {
return columnInfo.getOrdering();
}
@Override
public IdentityName getColumnName() {
return columnInfo.getColumnName();
}
@Override
public IdentityName getColumnName() {
return columnInfo.getColumnName();
}
@Override
public Optional<IdentityName> getIndexName() {
return indexName;
}
@Override
public Optional<IdentityName> getIndexName() {
return indexName;
}
@Override
public boolean caseSensitiveIndex() {
return caseSensitiveIndex;
}
@Override
public boolean caseSensitiveIndex() {
return caseSensitiveIndex;
}
@Override
public String getPropertyName() {
return propertyName;
}
@Override
public String getPropertyName() {
return propertyName;
}
@Override
public Method getGetterMethod() {
return getter;
}
@Override
public Method getGetterMethod() {
return getter;
}
@Override
public Optional<Function<Object, Object>> getReadConverter(SessionRepository repository) {
@Override
public Optional<Function<Object, Object>> getReadConverter(SessionRepository repository) {
if (readConverter == null) {
readConverter = abstractJavaType.resolveReadConverter(this.dataType, repository);
}
if (readConverter == null) {
readConverter = abstractJavaType.resolveReadConverter(this.dataType, repository);
}
return readConverter;
}
return readConverter;
}
@Override
public Optional<Function<Object, Object>> getWriteConverter(SessionRepository repository) {
@Override
public Optional<Function<Object, Object>> getWriteConverter(SessionRepository repository) {
if (writeConverter == null) {
writeConverter = abstractJavaType.resolveWriteConverter(this.dataType, repository);
}
if (writeConverter == null) {
writeConverter = abstractJavaType.resolveWriteConverter(this.dataType, repository);
}
return writeConverter;
}
return writeConverter;
}
@Override
public ConstraintValidator<? extends Annotation, ?>[] getValidators() {
return validators;
}
@Override
public ConstraintValidator<? extends Annotation, ?>[] getValidators() {
return validators;
}
@Override
public String toString() {
@Override
public String toString() {
StringBuilder str = new StringBuilder();
StringBuilder str = new StringBuilder();
String columnName = this.getColumnName().getName();
str.append(" ");
str.append(this.getDataType());
str.append(" ");
str.append(this.getPropertyName());
str.append("(");
if (!columnName.equals(this.getPropertyName())) {
str.append(columnName);
}
str.append(") ");
String columnName = this.getColumnName().getName();
str.append(" ");
str.append(this.getDataType());
str.append(" ");
str.append(this.getPropertyName());
str.append("(");
if (!columnName.equals(this.getPropertyName())) {
str.append(columnName);
}
str.append(") ");
ColumnType type = this.getColumnType();
ColumnType type = this.getColumnType();
switch (type) {
case PARTITION_KEY :
str.append("partition_key[");
str.append(this.getOrdinal());
str.append("] ");
break;
switch (type) {
case PARTITION_KEY:
str.append("partition_key[");
str.append(this.getOrdinal());
str.append("] ");
break;
case CLUSTERING_COLUMN :
str.append("clustering_column[");
str.append(this.getOrdinal());
str.append("] ");
OrderingDirection od = this.getOrdering();
if (od != null) {
str.append(od.name().toLowerCase()).append(" ");
}
break;
case CLUSTERING_COLUMN:
str.append("clustering_column[");
str.append(this.getOrdinal());
str.append("] ");
OrderingDirection od = this.getOrdering();
if (od != null) {
str.append(od.name().toLowerCase()).append(" ");
}
break;
case STATIC_COLUMN :
str.append("static ");
break;
case STATIC_COLUMN:
str.append("static ");
break;
case COLUMN :
break;
}
case COLUMN:
break;
}
Optional<IdentityName> idx = this.getIndexName();
if (idx.isPresent()) {
str.append("index(").append(idx.get().getName()).append(") ");
}
Optional<IdentityName> idx = this.getIndexName();
if (idx.isPresent()) {
str.append("index(").append(idx.get().getName()).append(") ");
}
return str.toString();
}
return str.toString();
}
}

30
src/main/java/net/helenus/mapping/HelenusProperty.java
View file

@ -19,39 +19,37 @@ import java.lang.annotation.Annotation;
import java.lang.reflect.Method;
import java.util.Optional;
import java.util.function.Function;
import javax.validation.ConstraintValidator;
import net.helenus.core.SessionRepository;
import net.helenus.mapping.type.AbstractDataType;
public interface HelenusProperty {
HelenusEntity getEntity();
HelenusEntity getEntity();
String getPropertyName();
String getPropertyName();
Method getGetterMethod();
Method getGetterMethod();
IdentityName getColumnName();
IdentityName getColumnName();
Optional<IdentityName> getIndexName();
Optional<IdentityName> getIndexName();
boolean caseSensitiveIndex();
boolean caseSensitiveIndex();
Class<?> getJavaType();
Class<?> getJavaType();
AbstractDataType getDataType();
AbstractDataType getDataType();
ColumnType getColumnType();
ColumnType getColumnType();
int getOrdinal();
int getOrdinal();
OrderingDirection getOrdering();
OrderingDirection getOrdering();
Optional<Function<Object, Object>> getReadConverter(SessionRepository repository);
Optional<Function<Object, Object>> getReadConverter(SessionRepository repository);
Optional<Function<Object, Object>> getWriteConverter(SessionRepository repository);
Optional<Function<Object, Object>> getWriteConverter(SessionRepository repository);
ConstraintValidator<? extends Annotation, ?>[] getValidators();
ConstraintValidator<? extends Annotation, ?>[] getValidators();
}

58
src/main/java/net/helenus/mapping/IdentityName.java
View file

@ -19,41 +19,41 @@ import net.helenus.support.CqlUtil;
public final class IdentityName {
private final String name;
private final String name;
private final boolean forceQuote;
private final boolean forceQuote;
public IdentityName(String name, boolean forceQuote) {
this.name = name.toLowerCase();
this.forceQuote = forceQuote;
}
public IdentityName(String name, boolean forceQuote) {
this.name = name.toLowerCase();
this.forceQuote = forceQuote;
}
public static IdentityName of(String name, boolean forceQuote) {
return new IdentityName(name, forceQuote);
}
public static IdentityName of(String name, boolean forceQuote) {
return new IdentityName(name, forceQuote);
}
public String getName() {
return name;
}
public String getName() {
return name;
}
public boolean isForceQuote() {
return forceQuote;
}
public boolean isForceQuote() {
return forceQuote;
}
public String toCql(boolean overrideForceQuote) {
if (overrideForceQuote) {
return CqlUtil.forceQuote(name);
} else {
return name;
}
}
public String toCql(boolean overrideForceQuote) {
if (overrideForceQuote) {
return CqlUtil.forceQuote(name);
} else {
return name;
}
}
public String toCql() {
return toCql(forceQuote);
}
public String toCql() {
return toCql(forceQuote);
}
@Override
public String toString() {
return toCql();
}
@Override
public String toString() {
return toCql();
}
}

428
src/main/java/net/helenus/mapping/MappingUtil.java
View file

@ -21,10 +21,8 @@ import java.lang.reflect.Method;
import java.util.ArrayList;
import java.util.List;
import java.util.Optional;
import javax.validation.Constraint;
import javax.validation.ConstraintValidator;
import net.helenus.core.Getter;
import net.helenus.core.Helenus;
import net.helenus.core.reflect.*;
@ -34,290 +32,292 @@ import net.helenus.support.HelenusMappingException;
public final class MappingUtil {
@SuppressWarnings("unchecked")
public static final ConstraintValidator<? extends Annotation, ?>[] EMPTY_VALIDATORS = new ConstraintValidator[0];
@SuppressWarnings("unchecked")
public static final ConstraintValidator<? extends Annotation, ?>[] EMPTY_VALIDATORS =
new ConstraintValidator[0];
private MappingUtil() {
}
private MappingUtil() {}
public static ConstraintValidator<? extends Annotation, ?>[] getValidators(Method getterMethod) {
public static ConstraintValidator<? extends Annotation, ?>[] getValidators(Method getterMethod) {
List<ConstraintValidator<? extends Annotation, ?>> list = null;
List<ConstraintValidator<? extends Annotation, ?>> list = null;
for (Annotation constraintAnnotation : getterMethod.getDeclaredAnnotations()) {
for (Annotation constraintAnnotation : getterMethod.getDeclaredAnnotations()) {
list = addValidators(constraintAnnotation, list);
list = addValidators(constraintAnnotation, list);
Class<? extends Annotation> annotationType = constraintAnnotation.annotationType();
Class<? extends Annotation> annotationType = constraintAnnotation.annotationType();
for (Annotation possibleConstraint : annotationType.getDeclaredAnnotations()) {
for (Annotation possibleConstraint : annotationType.getDeclaredAnnotations()) {
list = addValidators(possibleConstraint, list);
}
}
list = addValidators(possibleConstraint, list);
}
}
if (list == null) {
return EMPTY_VALIDATORS;
} else {
return list.toArray(EMPTY_VALIDATORS);
}
}
if (list == null) {
return EMPTY_VALIDATORS;
} else {
return list.toArray(EMPTY_VALIDATORS);
}
}
private static List<ConstraintValidator<? extends Annotation, ?>> addValidators(Annotation constraintAnnotation,
List<ConstraintValidator<? extends Annotation, ?>> list) {
private static List<ConstraintValidator<? extends Annotation, ?>> addValidators(
Annotation constraintAnnotation, List<ConstraintValidator<? extends Annotation, ?>> list) {
Class<? extends Annotation> annotationType = constraintAnnotation.annotationType();
Class<? extends Annotation> annotationType = constraintAnnotation.annotationType();
for (Annotation possibleConstraint : annotationType.getDeclaredAnnotations()) {
for (Annotation possibleConstraint : annotationType.getDeclaredAnnotations()) {
if (possibleConstraint instanceof Constraint) {
if (possibleConstraint instanceof Constraint) {
Constraint constraint = (Constraint) possibleConstraint;
Constraint constraint = (Constraint) possibleConstraint;
for (Class<? extends ConstraintValidator<?, ?>> clazz : constraint.validatedBy()) {
for (Class<? extends ConstraintValidator<?, ?>> clazz : constraint.validatedBy()) {
ConstraintValidator<? extends Annotation, ?> validator = ReflectionInstantiator
.instantiateClass(clazz);
ConstraintValidator<? extends Annotation, ?> validator =
ReflectionInstantiator.instantiateClass(clazz);
((ConstraintValidator) validator).initialize(constraintAnnotation);
((ConstraintValidator) validator).initialize(constraintAnnotation);
if (list == null) {
list = new ArrayList<ConstraintValidator<? extends Annotation, ?>>();
}
if (list == null) {
list = new ArrayList<ConstraintValidator<? extends Annotation, ?>>();
}
list.add(validator);
}
}
}
list.add(validator);
}
}
}
return list;
}
return list;
}
public static Optional<IdentityName> getIndexName(Method getterMethod) {
public static Optional<IdentityName> getIndexName(Method getterMethod) {
String indexName = null;
boolean forceQuote = false;
String indexName = null;
boolean forceQuote = false;
Index index = getterMethod.getDeclaredAnnotation(Index.class);
Index index = getterMethod.getDeclaredAnnotation(Index.class);
if (index != null) {
indexName = index.value();
forceQuote = index.forceQuote();
if (index != null) {
indexName = index.value();
forceQuote = index.forceQuote();
if (indexName == null || indexName.isEmpty()) {
indexName = getDefaultColumnName(getterMethod);
}
}
if (indexName == null || indexName.isEmpty()) {
indexName = getDefaultColumnName(getterMethod);
}
}
return indexName != null ? Optional.of(new IdentityName(indexName, forceQuote)) : Optional.empty();
}
return indexName != null
? Optional.of(new IdentityName(indexName, forceQuote))
: Optional.empty();
}
public static boolean caseSensitiveIndex(Method getterMethod) {
Index index = getterMethod.getDeclaredAnnotation(Index.class);
public static boolean caseSensitiveIndex(Method getterMethod) {
Index index = getterMethod.getDeclaredAnnotation(Index.class);
if (index != null) {
return index.caseSensitive();
}
if (index != null) {
return index.caseSensitive();
}
return false;
}
return false;
}
public static String getPropertyName(Method getter) {
return getter.getName();
}
public static String getPropertyName(Method getter) {
return getter.getName();
}
public static String getDefaultColumnName(Method getter) {
return Helenus.settings().getPropertyToColumnConverter().apply(getPropertyName(getter));
}
public static String getDefaultColumnName(Method getter) {
return Helenus.settings().getPropertyToColumnConverter().apply(getPropertyName(getter));
}
public static IdentityName getUserDefinedTypeName(Class<?> iface, boolean required) {
public static IdentityName getUserDefinedTypeName(Class<?> iface, boolean required) {
String userTypeName = null;
boolean forceQuote = false;
String userTypeName = null;
boolean forceQuote = false;
UDT userDefinedType = iface.getDeclaredAnnotation(UDT.class);
UDT userDefinedType = iface.getDeclaredAnnotation(UDT.class);
if (userDefinedType != null) {
if (userDefinedType != null) {
userTypeName = userDefinedType.value();
forceQuote = userDefinedType.forceQuote();
userTypeName = userDefinedType.value();
forceQuote = userDefinedType.forceQuote();
if (userTypeName == null || userTypeName.isEmpty()) {
userTypeName = getDefaultEntityName(iface);
}
if (userTypeName == null || userTypeName.isEmpty()) {
userTypeName = getDefaultEntityName(iface);
}
return new IdentityName(userTypeName, forceQuote);
}
return new IdentityName(userTypeName, forceQuote);
}
if (required) {
throw new HelenusMappingException("entity must have annotation @UserDefinedType " + iface);
}
if (required) {
throw new HelenusMappingException("entity must have annotation @UserDefinedType " + iface);
}
return null;
}
return null;
}
public static boolean isTuple(Class<?> iface) {
public static boolean isTuple(Class<?> iface) {
Tuple tuple = iface.getDeclaredAnnotation(Tuple.class);
Tuple tuple = iface.getDeclaredAnnotation(Tuple.class);
return tuple != null;
}
return tuple != null;
}
public static boolean isUDT(Class<?> iface) {
public static boolean isUDT(Class<?> iface) {
UDT udt = iface.getDeclaredAnnotation(UDT.class);
UDT udt = iface.getDeclaredAnnotation(UDT.class);
return udt != null;
}
return udt != null;
}
public static IdentityName getViewName(Class<?> iface, boolean required) {
public static IdentityName getViewName(Class<?> iface, boolean required) {
String viewName = null;
boolean forceQuote = false;
String viewName = null;
boolean forceQuote = false;
MaterializedView view = iface.getDeclaredAnnotation(MaterializedView.class);
MaterializedView view = iface.getDeclaredAnnotation(MaterializedView.class);
if (view != null) {
viewName = view.value();
forceQuote = view.forceQuote();
if (view != null) {
viewName = view.value();
forceQuote = view.forceQuote();
} else if (required) {
throw new HelenusMappingException("entity must have annotation @Table " + iface);
}
} else if (required) {
throw new HelenusMappingException("entity must have annotation @Table " + iface);
}
if (viewName == null || viewName.isEmpty()) {
viewName = getDefaultEntityName(iface);
}
if (viewName == null || viewName.isEmpty()) {
viewName = getDefaultEntityName(iface);
}
return new IdentityName(viewName, forceQuote);
}
return new IdentityName(viewName, forceQuote);
}
public static IdentityName getTableName(Class<?> iface, boolean required) {
public static IdentityName getTableName(Class<?> iface, boolean required) {
String tableName = null;
boolean forceQuote = false;
String tableName = null;
boolean forceQuote = false;
Table table = iface.getDeclaredAnnotation(Table.class);
Table table = iface.getDeclaredAnnotation(Table.class);
if (table != null) {
tableName = table.value();
forceQuote = table.forceQuote();
if (table != null) {
tableName = table.value();
forceQuote = table.forceQuote();
} else if (required) {
throw new HelenusMappingException("entity must have annotation @Table " + iface);
}
} else if (required) {
throw new HelenusMappingException("entity must have annotation @Table " + iface);
}
if (tableName == null || tableName.isEmpty()) {
tableName = getDefaultEntityName(iface);
}
if (tableName == null || tableName.isEmpty()) {
tableName = getDefaultEntityName(iface);
}
return new IdentityName(tableName, forceQuote);
}
return new IdentityName(tableName, forceQuote);
}
public static String getDefaultEntityName(Class<?> iface) {
return Helenus.settings().getPropertyToColumnConverter().apply(iface.getSimpleName());
}
public static String getDefaultEntityName(Class<?> iface) {
return Helenus.settings().getPropertyToColumnConverter().apply(iface.getSimpleName());
}
public static Class<?> getMappingInterface(Object pojo) {
public static Class<?> getMappingInterface(Object pojo) {
Class<?> iface = null;
Class<?> iface = null;
if (pojo instanceof Class) {
iface = (Class<?>) pojo;
if (pojo instanceof Class) {
iface = (Class<?>) pojo;
if (!iface.isInterface()) {
throw new HelenusMappingException("expected interface " + iface);
}
if (!iface.isInterface()) {
throw new HelenusMappingException("expected interface " + iface);
}
} else {
Class<?>[] ifaces = pojo.getClass().getInterfaces();
} else {
Class<?>[] ifaces = pojo.getClass().getInterfaces();
int len = ifaces.length;
for (int i = 0; i != len; ++i) {
int len = ifaces.length;
for (int i = 0; i != len; ++i) {
iface = ifaces[0];
iface = ifaces[0];
if (MapExportable.class.isAssignableFrom(iface)) {
continue;
}
if (MapExportable.class.isAssignableFrom(iface)) {
continue;
}
if (iface.getDeclaredAnnotation(Table.class) != null
|| iface.getDeclaredAnnotation(MaterializedView.class) != null
|| iface.getDeclaredAnnotation(UDT.class) != null
|| iface.getDeclaredAnnotation(Tuple.class) != null) {
if (iface.getDeclaredAnnotation(Table.class) != null
|| iface.getDeclaredAnnotation(MaterializedView.class) != null
|| iface.getDeclaredAnnotation(UDT.class) != null
|| iface.getDeclaredAnnotation(Tuple.class) != null) {
break;
}
}
}
break;
}
}
}
if (iface == null) {
throw new HelenusMappingException("dsl interface not found for " + pojo);
}
if (iface == null) {
throw new HelenusMappingException("dsl interface not found for " + pojo);
}
return iface;
}
return iface;
}
public static HelenusPropertyNode resolveMappingProperty(Getter<?> getter) {
try {
Object childDsl = getter.get();
if (childDsl instanceof DslExportable) {
DslExportable e = (DslExportable) childDsl;
return e.getParentDslHelenusPropertyNode();
} else if (childDsl instanceof MapDsl) {
MapDsl mapDsl = (MapDsl) childDsl;
return mapDsl.getParent();
} else if (childDsl instanceof ListDsl) {
ListDsl listDsl = (ListDsl) childDsl;
return listDsl.getParent();
} else if (childDsl instanceof SetDsl) {
SetDsl setDsl = (SetDsl) childDsl;
return setDsl.getParent();
}
throw new HelenusMappingException("getter must reference to the dsl object " + getter);
} catch (DslPropertyException e) {
return e.getPropertyNode();
}
}
// https://stackoverflow.com/a/4882306/366692
public static <T> T clone(T object) throws CloneNotSupportedException {
Object clone = null;
// Use reflection, because there is no other way
try {
Method method = object.getClass().getMethod("clone");
clone = method.invoke(object);
} catch (InvocationTargetException e) {
rethrow(e.getCause());
} catch (Exception cause) {
rethrow(cause);
}
if (object.getClass().isInstance(clone)) {
@SuppressWarnings("unchecked") // clone class <= object class <= T
T t = (T) clone;
return t;
} else {
throw new ClassCastException(clone.getClass().getName());
}
}
private static void rethrow(Throwable cause) throws CloneNotSupportedException {
if (cause instanceof RuntimeException) {
throw (RuntimeException) cause;
}
if (cause instanceof Error) {
throw (Error) cause;
}
if (cause instanceof CloneNotSupportedException) {
throw (CloneNotSupportedException) cause;
}
CloneNotSupportedException e = new CloneNotSupportedException();
e.initCause(cause);
throw e;
}
public static HelenusPropertyNode resolveMappingProperty(Getter<?> getter) {
try {
Object childDsl = getter.get();
if (childDsl instanceof DslExportable) {
DslExportable e = (DslExportable) childDsl;
return e.getParentDslHelenusPropertyNode();
} else if (childDsl instanceof MapDsl) {
MapDsl mapDsl = (MapDsl) childDsl;
return mapDsl.getParent();
} else if (childDsl instanceof ListDsl) {
ListDsl listDsl = (ListDsl) childDsl;
return listDsl.getParent();
} else if (childDsl instanceof SetDsl) {
SetDsl setDsl = (SetDsl) childDsl;
return setDsl.getParent();
}
throw new HelenusMappingException("getter must reference to the dsl object " + getter);
} catch (DslPropertyException e) {
return e.getPropertyNode();
}
}
// https://stackoverflow.com/a/4882306/366692
public static <T> T clone(T object) throws CloneNotSupportedException {
Object clone = null;
// Use reflection, because there is no other way
try {
Method method = object.getClass().getMethod("clone");
clone = method.invoke(object);
} catch (InvocationTargetException e) {
rethrow(e.getCause());
} catch (Exception cause) {
rethrow(cause);
}
if (object.getClass().isInstance(clone)) {
@SuppressWarnings("unchecked") // clone class <= object class <= T
T t = (T) clone;
return t;
} else {
throw new ClassCastException(clone.getClass().getName());
}
}
private static void rethrow(Throwable cause) throws CloneNotSupportedException {
if (cause instanceof RuntimeException) {
throw (RuntimeException) cause;
}
if (cause instanceof Error) {
throw (Error) cause;
}
if (cause instanceof CloneNotSupportedException) {
throw (CloneNotSupportedException) cause;
}
CloneNotSupportedException e = new CloneNotSupportedException();
e.initCause(cause);
throw e;
}
}

34
src/main/java/net/helenus/mapping/OrderingDirection.java
View file

@ -18,28 +18,28 @@ package net.helenus.mapping;
import net.helenus.support.HelenusMappingException;
public enum OrderingDirection {
ASC("ASC"),
ASC("ASC"),
DESC("DESC");
DESC("DESC");
private final String cql;
private final String cql;
private OrderingDirection(String cql) {
this.cql = cql;
}
private OrderingDirection(String cql) {
this.cql = cql;
}
public static OrderingDirection parseString(String name) {
public static OrderingDirection parseString(String name) {
if (ASC.cql.equalsIgnoreCase(name)) {
return ASC;
} else if (DESC.cql.equalsIgnoreCase(name)) {
return DESC;
}
if (ASC.cql.equalsIgnoreCase(name)) {
return ASC;
} else if (DESC.cql.equalsIgnoreCase(name)) {
return DESC;
}
throw new HelenusMappingException("invalid ordering direction name " + name);
}
throw new HelenusMappingException("invalid ordering direction name " + name);
}
public String cql() {
return cql;
}
public String cql() {
return cql;
}
}

17
src/main/java/net/helenus/mapping/TypeAndOrdinalColumnComparator.java
View file

@ -18,16 +18,17 @@ package net.helenus.mapping;
import java.util.Comparator;
public enum TypeAndOrdinalColumnComparator implements Comparator<HelenusProperty> {
INSTANCE;
INSTANCE;
public int compare(HelenusProperty thisVal, HelenusProperty anotherVal) {
public int compare(HelenusProperty thisVal, HelenusProperty anotherVal) {
int c = Integer.compare(thisVal.getColumnType().ordinal(), anotherVal.getColumnType().ordinal());
int c =
Integer.compare(thisVal.getColumnType().ordinal(), anotherVal.getColumnType().ordinal());
if (c == 0) {
c = Integer.compare(thisVal.getOrdinal(), anotherVal.getOrdinal());
}
if (c == 0) {
c = Integer.compare(thisVal.getOrdinal(), anotherVal.getOrdinal());
}
return c;
}
return c;
}
}

127
src/main/java/net/helenus/mapping/annotation/ClusteringColumn.java
View file

@ -19,93 +19,78 @@ import java.lang.annotation.ElementType;
import java.lang.annotation.Retention;
import java.lang.annotation.RetentionPolicy;
import java.lang.annotation.Target;
import net.helenus.mapping.OrderingDirection;
/**
* ClusteringColumn is the family column in legacy Cassandra API
*
* <p>
* The purpose of this column is have additional dimension in the table.
* Both @PartitionKey and @ClusteringColumn together are parts of the primary
* key of the table. The primary difference between them is that the first one
* is using for routing purposes in order to locate a data node in the cluster,
* otherwise the second one is using inside the node to locate peace of data in
* <p>The purpose of this column is have additional dimension in the table. Both @PartitionKey
* and @ClusteringColumn together are parts of the primary key of the table. The primary difference
* between them is that the first one is using for routing purposes in order to locate a data node
* in the cluster, otherwise the second one is using inside the node to locate peace of data in
* concrete machine.
*
* <p>
* ClusteringColumn can be represented as a Key in SortedMap that fully stored
* in a single node. All developers must be careful for selecting fields for
* clustering columns, because all data inside this SortedMap must fit in to one
* node.
* <p>ClusteringColumn can be represented as a Key in SortedMap that fully stored in a single node.
* All developers must be careful for selecting fields for clustering columns, because all data
* inside this SortedMap must fit in to one node.
*
* <p>
* ClusteringColumn can have more than one part and the order of parts is
* important. This order defines the way how Cassandra joins the parts and
* influence of data retrieval operations. Each part can have ordering property
* that defines default ascending or descending order of data. In case of two
* and more parts in select queries developer needs to have consisdent order of
* all parts as they defined in table.
* <p>ClusteringColumn can have more than one part and the order of parts is important. This order
* defines the way how Cassandra joins the parts and influence of data retrieval operations. Each
* part can have ordering property that defines default ascending or descending order of data. In
* case of two and more parts in select queries developer needs to have consisdent order of all
* parts as they defined in table.
*
* <p>
* For example, first part is ASC ordering, second is also ASC, so Cassandra
* will sort entries like this: a-a a-b b-a b-b In this case we are able run
* queries: ORDER BY first ASC, second ASC ORDER BY first DESC, second DESC
* WHERE first=? ORDER BY second ASC WHERE first=? ORDER BY second DESC WHERE
* first=? AND second=?
* <p>For example, first part is ASC ordering, second is also ASC, so Cassandra will sort entries
* like this: a-a a-b b-a b-b In this case we are able run queries: ORDER BY first ASC, second ASC
* ORDER BY first DESC, second DESC WHERE first=? ORDER BY second ASC WHERE first=? ORDER BY second
* DESC WHERE first=? AND second=?
*
* <p>
* But, we can not run queries: ORDER BY first DESC, second ASC ORDER BY first
* ASC, second DESC WHERE second=? ORDER BY first (ASC,DESC)
* <p>But, we can not run queries: ORDER BY first DESC, second ASC ORDER BY first ASC, second DESC
* WHERE second=? ORDER BY first (ASC,DESC)
*/
@Retention(value = RetentionPolicy.RUNTIME)
@Target(value = {ElementType.METHOD, ElementType.ANNOTATION_TYPE})
public @interface ClusteringColumn {
/**
* Default value is the name of the method normalized to underscore
*
* @return name of the column
*/
String value() default "";
/**
* Default value is the name of the method normalized to underscore
*
* @return name of the column
*/
String value() default "";
/**
* ClusteringColumn parts must be ordered in the @Table. It is the requirement
* of Cassandra. Cassandra joins all parts to the final clustering key that is
* stored in column family name. Additionally all parts can have some ordering
* (ASC, DESC) that with sequence of parts determines key comparison function,
* so Cassandra storing column family names always in sorted order.
*
* <p>
* Be default ordinal has 0 value, that's because in most cases @Table have
* single column for ClusteringColumn If you have 2 and more parts of the
* ClusteringColumn, then you need to use ordinal() to define the sequence of
* the parts
*
* @return number that used to sort clustering columns
*/
int ordinal() default 0;
/**
* ClusteringColumn parts must be ordered in the @Table. It is the requirement of Cassandra.
* Cassandra joins all parts to the final clustering key that is stored in column family name.
* Additionally all parts can have some ordering (ASC, DESC) that with sequence of parts
* determines key comparison function, so Cassandra storing column family names always in sorted
* order.
*
* <p>Be default ordinal has 0 value, that's because in most cases @Table have single column for
* ClusteringColumn If you have 2 and more parts of the ClusteringColumn, then you need to use
* ordinal() to define the sequence of the parts
*
* @return number that used to sort clustering columns
*/
int ordinal() default 0;
/**
* Default order of values in the ClusteringColumn This ordering is using for
* comparison of the clustering column values when Cassandra stores it in the
* sorted order.
*
* <p>
* Default value is the ascending order
*
* @return ascending order or descending order of clustering column values
*/
OrderingDirection ordering() default OrderingDirection.ASC;
/**
* Default order of values in the ClusteringColumn This ordering is using for comparison of the
* clustering column values when Cassandra stores it in the sorted order.
*
* <p>Default value is the ascending order
*
* @return ascending order or descending order of clustering column values
*/
OrderingDirection ordering() default OrderingDirection.ASC;
/**
* For reserved words in Cassandra we need quotation in CQL queries. This
* property marks that the name of the UDT type needs to be quoted.
*
* <p>
* Default value is false, we are quoting only selected names.
*
* @return true if name have to be quoted
*/
boolean forceQuote() default false;
/**
* For reserved words in Cassandra we need quotation in CQL queries. This property marks that the
* name of the UDT type needs to be quoted.
*
* <p>Default value is false, we are quoting only selected names.
*
* @return true if name have to be quoted
*/
boolean forceQuote() default false;
}

68
src/main/java/net/helenus/mapping/annotation/Column.java
View file

@ -18,51 +18,45 @@ package net.helenus.mapping.annotation;
import java.lang.annotation.*;
/**
* Column annotation is used to define additional properties of the column in
* entity mapping interfaces: @Table, @UDT, @Tuple
* Column annotation is used to define additional properties of the column in entity mapping
* interfaces: @Table, @UDT, @Tuple
*
* <p>
* Column annotation can be used to override default name of the column or to
* setup order of the columns in the mapping
* <p>Column annotation can be used to override default name of the column or to setup order of the
* columns in the mapping
*
* <p>
* Usually for @Table and @UDT types it is not important to define order of the
* columns, but in @Tuple mapping it is required, because tuple itself
* represents the sequence of the types with particular order in the table's
* column
* <p>Usually for @Table and @UDT types it is not important to define order of the columns, but
* in @Tuple mapping it is required, because tuple itself represents the sequence of the types with
* particular order in the table's column
*/
@Documented
@Retention(RetentionPolicy.RUNTIME)
@Target(value = {ElementType.METHOD, ElementType.ANNOTATION_TYPE})
public @interface Column {
/**
* Default value is the name of the method normalized to underscore
*
* @return name of the column
*/
String value() default "";
/**
* Default value is the name of the method normalized to underscore
*
* @return name of the column
*/
String value() default "";
/**
* Ordinal will be used for ascending sorting of columns
*
* <p>
* Default value is 0, because not all mapping entities require all fields to
* have unique ordinals, only @Tuple mapping entity requires all of them to be
* unique.
*
* @return number that used to sort columns, usually for @Tuple only
*/
int ordinal() default 0;
/**
* Ordinal will be used for ascending sorting of columns
*
* <p>Default value is 0, because not all mapping entities require all fields to have unique
* ordinals, only @Tuple mapping entity requires all of them to be unique.
*
* @return number that used to sort columns, usually for @Tuple only
*/
int ordinal() default 0;
/**
* For reserved words in Cassandra we need quotation in CQL queries. This
* property marks that the name of the UDT type needs to be quoted.
*
* <p>
* Default value is false, we are quoting only selected names.
*
* @return true if name have to be quoted
*/
boolean forceQuote() default false;
/**
* For reserved words in Cassandra we need quotation in CQL queries. This property marks that the
* name of the UDT type needs to be quoted.
*
* <p>Default value is false, we are quoting only selected names.
*
* @return true if name have to be quoted
*/
boolean forceQuote() default false;
}

423
src/main/java/net/helenus/mapping/annotation/Constraints.java
View file

@ -16,265 +16,222 @@
package net.helenus.mapping.annotation;
import java.lang.annotation.*;
import javax.validation.Constraint;
import net.helenus.mapping.validator.*;
/**
* Constraint annotations are using for data integrity mostly
* for @java.lang.String types. The place of the annotation is the particular
* method in model interface.
* Constraint annotations are using for data integrity mostly for @java.lang.String types. The place
* of the annotation is the particular method in model interface.
*
* <p>
* All of them does not have effect on selects and data retrieval operations.
* <p>All of them does not have effect on selects and data retrieval operations.
*
* <p>
* Support types: - @NotNull supports any @java.lang.Object type - All
* annotations support @java.lang.String type
* <p>Support types: - @NotNull supports any @java.lang.Object type - All annotations
* support @java.lang.String type
*/
public final class Constraints {
private Constraints() {
}
private Constraints() {}
/**
* NotNull annotation is using to check that value is not null before storing it
*
* <p>
* Applicable to use in any @java.lang.Object
*
* <p>
* It does not check on selects and data retrieval operations
*/
@Documented
@Retention(RetentionPolicy.RUNTIME)
@Target(value = {ElementType.METHOD, ElementType.ANNOTATION_TYPE})
@Constraint(validatedBy = NotNullValidator.class)
public @interface NotNull {
}
/**
* NotNull annotation is using to check that value is not null before storing it
*
* <p>Applicable to use in any @java.lang.Object
*
* <p>It does not check on selects and data retrieval operations
*/
@Documented
@Retention(RetentionPolicy.RUNTIME)
@Target(value = {ElementType.METHOD, ElementType.ANNOTATION_TYPE})
@Constraint(validatedBy = NotNullValidator.class)
public @interface NotNull {}
/**
* NotEmpty annotation is using to check that value has text before storing it
*
* <p>
* Also checks for the null and it is more strict annotation then @NotNull
*
* <p>
* Can be used for @java.lang.CharSequence, @ByteBuffer and any array
*
* <p>
* It does not check on selects and data retrieval operations
*/
@Documented
@Retention(RetentionPolicy.RUNTIME)
@Target(value = {ElementType.METHOD, ElementType.ANNOTATION_TYPE})
@Constraint(validatedBy = NotEmptyValidator.class)
public @interface NotEmpty {
}
/**
* NotEmpty annotation is using to check that value has text before storing it
*
* <p>Also checks for the null and it is more strict annotation then @NotNull
*
* <p>Can be used for @java.lang.CharSequence, @ByteBuffer and any array
*
* <p>It does not check on selects and data retrieval operations
*/
@Documented
@Retention(RetentionPolicy.RUNTIME)
@Target(value = {ElementType.METHOD, ElementType.ANNOTATION_TYPE})
@Constraint(validatedBy = NotEmptyValidator.class)
public @interface NotEmpty {}
/**
* Email annotation is using to check that value has a valid email before
* storing it
*
* <p>
* Can be used only for @CharSequence
*
* <p>
* It does not check on selects and data retrieval operations
*/
@Documented
@Retention(RetentionPolicy.RUNTIME)
@Target(value = {ElementType.METHOD, ElementType.ANNOTATION_TYPE})
@Constraint(validatedBy = EmailValidator.class)
public @interface Email {
}
/**
* Email annotation is using to check that value has a valid email before storing it
*
* <p>Can be used only for @CharSequence
*
* <p>It does not check on selects and data retrieval operations
*/
@Documented
@Retention(RetentionPolicy.RUNTIME)
@Target(value = {ElementType.METHOD, ElementType.ANNOTATION_TYPE})
@Constraint(validatedBy = EmailValidator.class)
public @interface Email {}
/**
* Number annotation is using to check that all letters in value are digits
* before storing it
*
* <p>
* Can be used only for @java.lang.CharSequence
*
* <p>
* It does not check on selects and data retrieval operations
*/
@Documented
@Retention(RetentionPolicy.RUNTIME)
@Target(value = {ElementType.METHOD, ElementType.ANNOTATION_TYPE})
@Constraint(validatedBy = NumberValidator.class)
public @interface Number {
}
/**
* Number annotation is using to check that all letters in value are digits before storing it
*
* <p>Can be used only for @java.lang.CharSequence
*
* <p>It does not check on selects and data retrieval operations
*/
@Documented
@Retention(RetentionPolicy.RUNTIME)
@Target(value = {ElementType.METHOD, ElementType.ANNOTATION_TYPE})
@Constraint(validatedBy = NumberValidator.class)
public @interface Number {}
/**
* Alphabet annotation is using to check that all letters in value are in
* specific alphabet before storing it
*
* <p>
* Can be used only for @java.lang.CharSequence
*
* <p>
* It does not check on selects and data retrieval operations
*/
@Documented
@Retention(RetentionPolicy.RUNTIME)
@Target(value = {ElementType.METHOD, ElementType.ANNOTATION_TYPE})
@Constraint(validatedBy = AlphabetValidator.class)
public @interface Alphabet {
/**
* Alphabet annotation is using to check that all letters in value are in specific alphabet before
* storing it
*
* <p>Can be used only for @java.lang.CharSequence
*
* <p>It does not check on selects and data retrieval operations
*/
@Documented
@Retention(RetentionPolicy.RUNTIME)
@Target(value = {ElementType.METHOD, ElementType.ANNOTATION_TYPE})
@Constraint(validatedBy = AlphabetValidator.class)
public @interface Alphabet {
/**
* Defines alphabet that will be used to check value
*
* @return alphabet characters in the string
*/
String value();
}
/**
* Defines alphabet that will be used to check value
*
* @return alphabet characters in the string
*/
String value();
}
/**
* Length annotation is using to ensure that value has exact length before
* storing it
*
* <p>
* Can be used for @java.lang.CharSequence, @ByteBuffer and any array
*
* <p>
* It does not have effect on selects and data retrieval operations
*/
@Documented
@Retention(RetentionPolicy.RUNTIME)
@Target(value = {ElementType.METHOD, ElementType.ANNOTATION_TYPE})
@Constraint(validatedBy = LengthValidator.class)
public @interface Length {
/**
* Length annotation is using to ensure that value has exact length before storing it
*
* <p>Can be used for @java.lang.CharSequence, @ByteBuffer and any array
*
* <p>It does not have effect on selects and data retrieval operations
*/
@Documented
@Retention(RetentionPolicy.RUNTIME)
@Target(value = {ElementType.METHOD, ElementType.ANNOTATION_TYPE})
@Constraint(validatedBy = LengthValidator.class)
public @interface Length {
int value();
}
int value();
}
/**
* MaxLength annotation is using to ensure that value has length less or equal
* to some threshold before storing it
*
* <p>
* Can be used for @java.lang.CharSequence, @ByteBuffer and byte[]
*
* <p>
* It does not have effect on selects and data retrieval operations
*/
@Documented
@Retention(RetentionPolicy.RUNTIME)
@Target(value = {ElementType.METHOD, ElementType.ANNOTATION_TYPE})
@Constraint(validatedBy = MaxLengthValidator.class)
public @interface MaxLength {
/**
* MaxLength annotation is using to ensure that value has length less or equal to some threshold
* before storing it
*
* <p>Can be used for @java.lang.CharSequence, @ByteBuffer and byte[]
*
* <p>It does not have effect on selects and data retrieval operations
*/
@Documented
@Retention(RetentionPolicy.RUNTIME)
@Target(value = {ElementType.METHOD, ElementType.ANNOTATION_TYPE})
@Constraint(validatedBy = MaxLengthValidator.class)
public @interface MaxLength {
int value();
}
int value();
}
/**
* MinLength annotation is using to ensure that value has length greater or
* equal to some threshold before storing it
*
* <p>
* Can be used for @java.lang.CharSequence, @ByteBuffer and byte[]
*
* <p>
* It does not have effect on selects and data retrieval operations
*/
@Documented
@Retention(RetentionPolicy.RUNTIME)
@Target(value = {ElementType.METHOD, ElementType.ANNOTATION_TYPE})
@Constraint(validatedBy = MinLengthValidator.class)
public @interface MinLength {
/**
* MinLength annotation is using to ensure that value has length greater or equal to some
* threshold before storing it
*
* <p>Can be used for @java.lang.CharSequence, @ByteBuffer and byte[]
*
* <p>It does not have effect on selects and data retrieval operations
*/
@Documented
@Retention(RetentionPolicy.RUNTIME)
@Target(value = {ElementType.METHOD, ElementType.ANNOTATION_TYPE})
@Constraint(validatedBy = MinLengthValidator.class)
public @interface MinLength {
int value();
}
int value();
}
/**
* LowerCase annotation is using to ensure that value is in lower case before
* storing it
*
* <p>
* Can be used only for @java.lang.CharSequence
*
* <p>
* It does not have effect on selects and data retrieval operations
*/
@Documented
@Retention(RetentionPolicy.RUNTIME)
@Target(value = {ElementType.METHOD, ElementType.ANNOTATION_TYPE})
@Constraint(validatedBy = LowerCaseValidator.class)
public @interface LowerCase {
}
/**
* LowerCase annotation is using to ensure that value is in lower case before storing it
*
* <p>Can be used only for @java.lang.CharSequence
*
* <p>It does not have effect on selects and data retrieval operations
*/
@Documented
@Retention(RetentionPolicy.RUNTIME)
@Target(value = {ElementType.METHOD, ElementType.ANNOTATION_TYPE})
@Constraint(validatedBy = LowerCaseValidator.class)
public @interface LowerCase {}
/**
* UpperCase annotation is using to ensure that value is in upper case before
* storing it
*
* <p>
* Can be used only for @java.lang.CharSequence
*
* <p>
* It does not have effect on selects and data retrieval operations
*/
@Documented
@Retention(RetentionPolicy.RUNTIME)
@Target(value = {ElementType.METHOD, ElementType.ANNOTATION_TYPE})
@Constraint(validatedBy = UpperCaseValidator.class)
public @interface UpperCase {
}
/**
* UpperCase annotation is using to ensure that value is in upper case before storing it
*
* <p>Can be used only for @java.lang.CharSequence
*
* <p>It does not have effect on selects and data retrieval operations
*/
@Documented
@Retention(RetentionPolicy.RUNTIME)
@Target(value = {ElementType.METHOD, ElementType.ANNOTATION_TYPE})
@Constraint(validatedBy = UpperCaseValidator.class)
public @interface UpperCase {}
/**
* Pattern annotation is LowerCase annotation is using to ensure that value is
* upper case before storing it
*
* <p>
* Can be used only for @java.lang.CharSequence
*
* <p>
* It does not have effect on selects and data retrieval operations
*/
@Documented
@Retention(RetentionPolicy.RUNTIME)
@Target(value = {ElementType.METHOD, ElementType.ANNOTATION_TYPE})
@Constraint(validatedBy = PatternValidator.class)
public @interface Pattern {
/**
* Pattern annotation is LowerCase annotation is using to ensure that value is upper case before
* storing it
*
* <p>Can be used only for @java.lang.CharSequence
*
* <p>It does not have effect on selects and data retrieval operations
*/
@Documented
@Retention(RetentionPolicy.RUNTIME)
@Target(value = {ElementType.METHOD, ElementType.ANNOTATION_TYPE})
@Constraint(validatedBy = PatternValidator.class)
public @interface Pattern {
/**
* User defined regex expression to check match of the value
*
* @return Java regex pattern
*/
String value();
/**
* User defined regex expression to check match of the value
*
* @return Java regex pattern
*/
String value();
/**
* Regex flags composition
*
* @return Java regex flags
*/
int flags();
}
/**
* Regex flags composition
*
* @return Java regex flags
*/
int flags();
}
/**
* Distinct annotation is used to signal, but not ensure that a value should be
* distinct in the database.
*
* <p>
* Can be used only for @java.lang.CharSequence
*
* <p>
* It does not have effect on selects and data retrieval operations
*/
@Documented
@Retention(RetentionPolicy.RUNTIME)
@Target(value = {ElementType.METHOD, ElementType.ANNOTATION_TYPE})
@Constraint(validatedBy = DistinctValidator.class)
public @interface Distinct {
/**
* Distinct annotation is used to signal, but not ensure that a value should be distinct in the
* database.
*
* <p>Can be used only for @java.lang.CharSequence
*
* <p>It does not have effect on selects and data retrieval operations
*/
@Documented
@Retention(RetentionPolicy.RUNTIME)
@Target(value = {ElementType.METHOD, ElementType.ANNOTATION_TYPE})
@Constraint(validatedBy = DistinctValidator.class)
public @interface Distinct {
/**
* User defined Enum to further restrict the items in the set.
*
* @return Java
*/
Class<? extends Enum> value() default Enum.class;
}
/**
* User defined Enum to further restrict the items in the set.
*
* @return Java
*/
Class<? extends Enum> value() default Enum.class;
}
}

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