Formatting

This commit is contained in:
Greg Burd 2017-10-20 08:22:35 -04:00
parent 75f32eb542
commit 6e687a7e90
205 changed files with 10518 additions and 10704 deletions

View file

@ -15,9 +15,10 @@
*/
package com.datastax.driver.core.querybuilder;
import com.datastax.driver.core.CodecRegistry;
import java.util.List;
import com.datastax.driver.core.CodecRegistry;
public class IsNotNullClause extends Clause {
final String name;

View file

@ -1,8 +1,6 @@
package com.datastax.driver.core.schemabuilder;
import static com.datastax.driver.core.schemabuilder.SchemaStatement.STATEMENT_START;
import static com.datastax.driver.core.schemabuilder.SchemaStatement.validateNotEmpty;
import static com.datastax.driver.core.schemabuilder.SchemaStatement.validateNotKeyWord;
import static com.datastax.driver.core.schemabuilder.SchemaStatement.*;
import com.google.common.base.Optional;
@ -18,10 +16,8 @@ public class CreateCustomIndex extends CreateIndex {
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));
validateNotKeyWord(indexName,
String.format("The index name '%s' is not allowed because it is a reserved keyword", indexName));
this.indexName = indexName;
}
@ -38,22 +34,20 @@ public class CreateCustomIndex extends CreateIndex {
/**
* 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.
* @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));
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();
@ -62,15 +56,15 @@ public class CreateCustomIndex extends CreateIndex {
/**
* 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.
* @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));
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();
}
@ -79,15 +73,14 @@ public class CreateCustomIndex extends CreateIndex {
/**
* Specify the column to create the index on.
*
* @param columnName the column name.
* @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));
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());
}
@ -95,15 +88,14 @@ public class CreateCustomIndex extends CreateIndex {
/**
* Create an index on the keys of the given map column.
*
* @param columnName the column name.
* @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));
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());
@ -120,8 +112,7 @@ public class CreateCustomIndex extends CreateIndex {
@Override
public String buildInternal() {
StringBuilder createStatement =
new StringBuilder(STATEMENT_START).append("CREATE CUSTOM INDEX ");
StringBuilder createStatement = new StringBuilder(STATEMENT_START).append("CREATE CUSTOM INDEX ");
if (ifNotExists) {
createStatement.append("IF NOT EXISTS ");

View file

@ -10,11 +10,7 @@ public class CreateMaterializedView extends Create {
private String primaryKey;
private String clustering;
public CreateMaterializedView(
String keyspaceName,
String viewName,
Select.Where selection,
String primaryKey,
public CreateMaterializedView(String keyspaceName, String viewName, Select.Where selection, String primaryKey,
String clustering) {
super(keyspaceName, viewName);
this.viewName = viewName;
@ -28,8 +24,7 @@ public class CreateMaterializedView extends Create {
}
public String buildInternal() {
StringBuilder createStatement =
new StringBuilder(STATEMENT_START).append("CREATE MATERIALIZED VIEW");
StringBuilder createStatement = new StringBuilder(STATEMENT_START).append("CREATE MATERIALIZED VIEW");
if (ifNotExists) {
createStatement.append(" IF NOT EXISTS");
}

View file

@ -11,8 +11,7 @@ public class CreateSasiIndex extends CreateCustomIndex {
}
String getOptions() {
return "'analyzer_class': "
+ "'org.apache.cassandra.index.sasi.analyzer.NonTokenizingAnalyzer', "
return "'analyzer_class': " + "'org.apache.cassandra.index.sasi.analyzer.NonTokenizingAnalyzer', "
+ "'case_sensitive': 'false'";
}
}

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@ -5,10 +5,7 @@ import com.google.common.base.Optional;
public class DropMaterializedView extends Drop {
enum DroppedItem {
TABLE,
TYPE,
INDEX,
MATERIALIZED_VIEW
TABLE, TYPE, INDEX, MATERIALIZED_VIEW
}
private Optional<String> keyspaceName = Optional.absent();

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@ -17,6 +17,7 @@ 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;

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@ -18,6 +18,7 @@ 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> {

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@ -17,6 +17,7 @@ package net.helenus.config;
import java.lang.reflect.Method;
import java.util.function.Function;
import net.helenus.core.DslInstantiator;
import net.helenus.core.MapperInstantiator;

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@ -3,6 +3,7 @@ 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> {

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@ -1,7 +1,12 @@
package net.helenus.core;
import java.util.HashMap;
import java.util.Map;
import java.util.Objects;
import java.util.Set;
import com.google.common.primitives.Primitives;
import java.util.*;
import net.helenus.core.reflect.DefaultPrimitiveTypes;
import net.helenus.core.reflect.Drafted;
import net.helenus.core.reflect.MapExportable;

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@ -15,18 +15,21 @@
*/
package net.helenus.core;
import brave.Tracer;
import java.io.PrintStream;
import java.util.concurrent.Executor;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import com.codahale.metrics.MetricRegistry;
import com.datastax.driver.core.*;
import com.datastax.driver.core.querybuilder.BuiltStatement;
import com.google.common.util.concurrent.ListenableFuture;
import java.io.PrintStream;
import java.util.concurrent.Executor;
import brave.Tracer;
import net.helenus.mapping.value.ColumnValuePreparer;
import net.helenus.mapping.value.ColumnValueProvider;
import net.helenus.support.HelenusException;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
public abstract class AbstractSessionOperations {

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@ -15,26 +15,27 @@
*/
package net.helenus.core;
import com.diffplug.common.base.Errors;
import com.google.common.collect.TreeTraverser;
import java.util.*;
import java.util.stream.Collectors;
import net.helenus.core.cache.BoundFacet;
import net.helenus.support.Either;
import org.ahocorasick.trie.Emit;
import org.ahocorasick.trie.Trie;
import com.diffplug.common.base.Errors;
import com.google.common.collect.TreeTraverser;
import net.helenus.core.cache.BoundFacet;
import net.helenus.core.cache.Facet;
import net.helenus.support.Either;
/** 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 final List<AbstractUnitOfWork<E>> nested = new ArrayList<>();
private final HelenusSession session;
private final AbstractUnitOfWork<E> parent;
private List<CommitThunk> postCommit = new ArrayList<CommitThunk>();
private final Map<String, Either<Object, Set<Object>>> cache =
new HashMap<String, Either<Object, Set<Object>>>();
private Trie cacheIndex =
Trie.builder().ignoreOverlaps().onlyWholeWordsWhiteSpaceSeparated().build();
private final Map<String, Either<Object, Set<Object>>> cache = new HashMap<String, Either<Object, Set<Object>>>();
private Trie cacheIndex = Trie.builder().ignoreOverlaps().build();
private boolean aborted = false;
private boolean committed = false;
@ -67,14 +68,13 @@ public abstract class AbstractUnitOfWork<E extends Exception>
}
@Override
public Optional<Either<Object, Set<Object>>> cacheLookupByFacet(Set<BoundFacet> facets) {
public Optional<Either<Object, Set<Object>>> cacheLookupByFacet(Set<Facet> facets) {
Optional<Either<Object, Set<Object>>> result = Optional.empty();
Collection<Emit> emits =
cacheIndex.parseText(
String.join(
" ", facets.stream().map(facet -> facet.toString()).collect(Collectors.toList())));
Collection<Emit> emits = cacheIndex.parseText(
String.join(" ", facets.stream().map(facet -> facet.toString()).collect(Collectors.toList())));
for (Emit emit : emits) {
// NOTE: rethink. should this match *all* facets? how do I know which emit keyword is the primary key?
// NOTE: rethink. should this match *all* facets? how do I know which emit
// keyword is the primary key?
String key = emit.getKeyword();
result = cacheLookup(key);
if (result.isPresent()) {
@ -98,8 +98,9 @@ public abstract class AbstractUnitOfWork<E extends Exception>
@Override
public Optional<Either<Object, Set<Object>>> cacheLookup(String key) {
Optional<Either<Object, Set<Object>>> result =
(cache.containsKey(key)) ? Optional.of(cache.get(key)) : Optional.empty();
Optional<Either<Object, Set<Object>>> result = (cache.containsKey(key))
? Optional.of(cache.get(key))
: Optional.empty();
if (!result.isPresent()) {
// Be sure to check all enclosing UnitOfWork caches as well, we may be nested.
@ -111,14 +112,12 @@ public abstract class AbstractUnitOfWork<E extends Exception>
}
@Override
public void cacheUpdate(
Either<Object, Set<Object>> value, String[] statementKeys, Map<String, BoundFacet> facetMap) {
public void cacheUpdate(Either<Object, Set<Object>> value, String[] statementKeys,
Map<String, BoundFacet> facetMap) {
String key = "CQL::" + String.join(",", statementKeys);
cache.put(key, value);
Trie.TrieBuilder builder =
cacheIndex.builder().ignoreOverlaps().onlyWholeWordsWhiteSpaceSeparated();
facetMap.forEach(
(facetName, facet) -> {
Trie.TrieBuilder builder = cacheIndex.builder().ignoreOverlaps();
facetMap.forEach((facetName, facet) -> {
builder.addKeyword(facet.toString());
if (facetName.equals("*")) {
cache.put(facet.toString(), value);
@ -132,16 +131,19 @@ public abstract class AbstractUnitOfWork<E extends Exception>
}
/**
* Checks to see if the work performed between calling begin and now can be committed or not.
* 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.
* @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.
// 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);
TreeTraverser<AbstractUnitOfWork<E>> traverser = TreeTraverser.using(node -> node::getChildNodes);
for (AbstractUnitOfWork<E> uow : traverser.postOrderTraversal(this)) {
if (this != uow) {
canCommit &= (!uow.aborted && uow.committed);
@ -149,15 +151,18 @@ public abstract class AbstractUnitOfWork<E extends Exception>
}
// log.record(txn::provisionalCommit)
// examine log for conflicts in read-set and write-set between begin and provisional commit
// 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; })
// else return function so as to enable commit.andThen(() -> { do something iff
// commit was successful; })
if (canCommit) {
committed = true;
aborted = false;
// TODO(gburd): union this cache with parent's (if there is a parent) or with the session cache for all cacheable entities we currently hold
// TODO(gburd): union this cache with parent's (if there is a parent) or with
// the session cache for all cacheable entities we currently hold
nested.forEach((uow) -> Errors.rethrow().wrap(uow::commit));
@ -168,10 +173,7 @@ public abstract class AbstractUnitOfWork<E extends Exception>
// Apply all post-commit functions for
if (parent == null) {
traverser
.postOrderTraversal(this)
.forEach(
uow -> {
traverser.postOrderTraversal(this).forEach(uow -> {
uow.applyPostCommitFunctions();
});
return new PostCommitFunction(this, null);
@ -186,12 +188,8 @@ public abstract class AbstractUnitOfWork<E extends Exception>
/* Explicitly discard the work and mark it as as such in the log. */
public void abort() {
TreeTraverser<AbstractUnitOfWork<E>> traverser =
TreeTraverser.using(node -> node::getChildNodes);
traverser
.postOrderTraversal(this)
.forEach(
uow -> {
TreeTraverser<AbstractUnitOfWork<E>> traverser = TreeTraverser.using(node -> node::getChildNodes);
traverser.postOrderTraversal(this).forEach(uow -> {
uow.committed = false;
uow.aborted = true;
});
@ -199,8 +197,7 @@ public abstract class AbstractUnitOfWork<E extends Exception>
// cache.invalidateSince(txn::start time)
}
private void assumeCache(
Map<String, Either<Object, Set<Object>>> childCache, Trie childCacheIndex) {
private void assumeCache(Map<String, Either<Object, Set<Object>>> childCache, Trie childCacheIndex) {
for (String key : childCache.keySet()) {
if (cache.containsKey(key)) {
Either<Object, Set<Object>> value = cache.get(key);
@ -237,7 +234,8 @@ public abstract class AbstractUnitOfWork<E extends Exception>
@Override
public void close() throws E {
// Closing a AbstractUnitOfWork will abort iff we've not already aborted or committed this unit of work.
// Closing a AbstractUnitOfWork will abort iff we've not already aborted or
// committed this unit of work.
if (aborted == false && committed == false) {
abort();
}

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

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@ -15,15 +15,13 @@
*/
package net.helenus.core;
import com.datastax.driver.core.Metadata;
import java.util.Optional;
import com.datastax.driver.core.Metadata;
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);
}

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@ -15,8 +15,10 @@
*/
package net.helenus.core;
import com.datastax.driver.core.querybuilder.Clause;
import java.util.Objects;
import com.datastax.driver.core.querybuilder.Clause;
import net.helenus.core.reflect.HelenusPropertyNode;
import net.helenus.mapping.MappingUtil;
import net.helenus.mapping.value.ColumnValuePreparer;
@ -93,8 +95,7 @@ public final class Filter<V> {
Objects.requireNonNull(val, "empty value");
if (op == Operator.IN) {
throw new IllegalArgumentException(
"invalid usage of the 'in' operator, use Filter.in() static method");
throw new IllegalArgumentException("invalid usage of the 'in' operator, use Filter.in() static method");
}
HelenusPropertyNode node = MappingUtil.resolveMappingProperty(getter);

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@ -15,12 +15,17 @@
*/
package net.helenus.core;
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 java.util.*;
import java.util.concurrent.ConcurrentHashMap;
import java.util.concurrent.ConcurrentMap;
import net.helenus.config.DefaultHelenusSettings;
import net.helenus.config.HelenusSettings;
import net.helenus.core.reflect.DslExportable;
@ -31,14 +36,13 @@ import net.helenus.support.HelenusMappingException;
public final class Helenus {
private static volatile HelenusSettings settings = new DefaultHelenusSettings();
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 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 HelenusSession singleton;
private Helenus() {}
private Helenus() {
}
protected static void setSession(HelenusSession session) {
sessions.add(session);
@ -50,8 +54,7 @@ public final class Helenus {
}
public static void shutdown() {
sessions.forEach(
(session) -> {
sessions.forEach((session) -> {
session.close();
sessions.remove(session);
});
@ -103,10 +106,7 @@ public final class Helenus {
return dsl(iface, classLoader, Optional.empty(), metadata);
}
public static <E> E dsl(
Class<E> iface,
ClassLoader classLoader,
Optional<HelenusPropertyNode> parent,
public static <E> E dsl(Class<E> iface, ClassLoader classLoader, Optional<HelenusPropertyNode> parent,
Metadata metadata) {
Object instance = null;

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@ -17,9 +17,6 @@ package net.helenus.core;
import static net.helenus.core.Query.eq;
import brave.Tracer;
import com.codahale.metrics.MetricRegistry;
import com.datastax.driver.core.*;
import java.io.Closeable;
import java.io.PrintStream;
import java.lang.reflect.Constructor;
@ -30,6 +27,11 @@ import java.util.Optional;
import java.util.Set;
import java.util.concurrent.Executor;
import java.util.function.Function;
import com.codahale.metrics.MetricRegistry;
import com.datastax.driver.core.*;
import brave.Tracer;
import net.helenus.core.operation.*;
import net.helenus.core.reflect.Drafted;
import net.helenus.core.reflect.HelenusPropertyNode;
@ -67,25 +69,14 @@ public final class HelenusSession extends AbstractSessionOperations implements C
private final StatementColumnValuePreparer valuePreparer;
private final Metadata metadata;
HelenusSession(
Session session,
String usingKeyspace,
CodecRegistry registry,
boolean showCql,
PrintStream printStream,
SessionRepositoryBuilder sessionRepositoryBuilder,
Executor executor,
boolean dropSchemaOnClose,
ConsistencyLevel consistencyLevel,
boolean defaultQueryIdempotency,
Class<? extends UnitOfWork> unitOfWorkClass,
MetricRegistry metricRegistry,
Tracer tracer) {
HelenusSession(Session session, String usingKeyspace, CodecRegistry registry, boolean showCql,
PrintStream printStream, SessionRepositoryBuilder sessionRepositoryBuilder, Executor executor,
boolean dropSchemaOnClose, ConsistencyLevel consistencyLevel, boolean defaultQueryIdempotency,
Class<? extends UnitOfWork> unitOfWorkClass, MetricRegistry metricRegistry, Tracer tracer) {
this.session = session;
this.registry = registry == null ? CodecRegistry.DEFAULT_INSTANCE : registry;
this.usingKeyspace =
Objects.requireNonNull(
usingKeyspace, "keyspace needs to be selected before creating session");
this.usingKeyspace = Objects.requireNonNull(usingKeyspace,
"keyspace needs to be selected before creating session");
this.showCql = showCql;
this.printStream = printStream;
this.sessionRepository = sessionRepositoryBuilder.build();
@ -189,35 +180,26 @@ public final class HelenusSession extends AbstractSessionOperations implements C
public synchronized UnitOfWork begin(UnitOfWork parent) {
try {
Class<? extends UnitOfWork> clazz = unitOfWorkClass;
Constructor<? extends UnitOfWork> ctor =
clazz.getConstructor(HelenusSession.class, UnitOfWork.class);
Constructor<? extends UnitOfWork> ctor = clazz.getConstructor(HelenusSession.class, UnitOfWork.class);
UnitOfWork uow = ctor.newInstance(this, parent);
if (parent != null) {
parent.addNestedUnitOfWork(uow);
}
return uow.begin();
} catch (NoSuchMethodException
| InvocationTargetException
| InstantiationException
} catch (NoSuchMethodException | InvocationTargetException | InstantiationException
| IllegalAccessException e) {
throw new HelenusException(
String.format(
"Unable to instantiate {} as a UnitOfWork.", unitOfWorkClass.getSimpleName()),
e);
String.format("Unable to instantiate {} as a UnitOfWork.", unitOfWorkClass.getSimpleName()), e);
}
}
public <E> SelectOperation<E> select(E pojo) {
Objects.requireNonNull(
pojo, "supplied object must be a dsl for a registered entity but cannot be null");
Objects.requireNonNull(pojo, "supplied object must be a dsl for a registered entity but cannot be null");
ColumnValueProvider valueProvider = getValueProvider();
HelenusEntity entity = Helenus.resolve(pojo);
Class<?> entityClass = entity.getMappingInterface();
return new SelectOperation<E>(
this,
entity,
(r) -> {
return new SelectOperation<E>(this, entity, (r) -> {
Map<String, Object> map = new ValueProviderMap(r, valueProvider, entity);
return (E) Helenus.map(entityClass, map);
});
@ -228,10 +210,7 @@ public final class HelenusSession extends AbstractSessionOperations implements C
ColumnValueProvider valueProvider = getValueProvider();
HelenusEntity entity = Helenus.entity(entityClass);
return new SelectOperation<E>(
this,
entity,
(r) -> {
return new SelectOperation<E>(this, entity, (r) -> {
Map<String, Object> map = new ValueProviderMap(r, valueProvider, entity);
return (E) Helenus.map(entityClass, map);
});
@ -247,8 +226,7 @@ public final class HelenusSession extends AbstractSessionOperations implements C
}
public <E> SelectOperation<Row> selectAll(E pojo) {
Objects.requireNonNull(
pojo, "supplied object must be a dsl for a registered entity but cannot be null");
Objects.requireNonNull(pojo, "supplied object must be a dsl for a registered entity but cannot be null");
HelenusEntity entity = Helenus.resolve(pojo);
return new SelectOperation<Row>(this, entity);
}
@ -263,8 +241,7 @@ public final class HelenusSession extends AbstractSessionOperations implements C
Objects.requireNonNull(getter1, "field 1 is empty");
HelenusPropertyNode p1 = MappingUtil.resolveMappingProperty(getter1);
return new SelectOperation<Tuple1<V1>>(
this, new Mappers.Mapper1<V1>(getValueProvider(), p1), p1);
return new SelectOperation<Tuple1<V1>>(this, new Mappers.Mapper1<V1>(getValueProvider(), p1), p1);
}
public <V1, V2> SelectOperation<Tuple2<V1, V2>> select(Getter<V1> getter1, Getter<V2> getter2) {
@ -273,12 +250,12 @@ public final class HelenusSession extends AbstractSessionOperations implements C
HelenusPropertyNode p1 = MappingUtil.resolveMappingProperty(getter1);
HelenusPropertyNode p2 = MappingUtil.resolveMappingProperty(getter2);
return new SelectOperation<Fun.Tuple2<V1, V2>>(
this, new Mappers.Mapper2<V1, V2>(getValueProvider(), p1, p2), p1, p2);
return new SelectOperation<Fun.Tuple2<V1, V2>>(this, new Mappers.Mapper2<V1, V2>(getValueProvider(), p1, p2),
p1, p2);
}
public <V1, V2, V3> SelectOperation<Fun.Tuple3<V1, V2, V3>> select(
Getter<V1> getter1, Getter<V2> getter2, Getter<V3> getter3) {
public <V1, V2, V3> SelectOperation<Fun.Tuple3<V1, V2, V3>> select(Getter<V1> getter1, Getter<V2> getter2,
Getter<V3> getter3) {
Objects.requireNonNull(getter1, "field 1 is empty");
Objects.requireNonNull(getter2, "field 2 is empty");
Objects.requireNonNull(getter3, "field 3 is empty");
@ -286,12 +263,12 @@ public final class HelenusSession extends AbstractSessionOperations implements C
HelenusPropertyNode p1 = MappingUtil.resolveMappingProperty(getter1);
HelenusPropertyNode p2 = MappingUtil.resolveMappingProperty(getter2);
HelenusPropertyNode p3 = MappingUtil.resolveMappingProperty(getter3);
return new SelectOperation<Fun.Tuple3<V1, V2, V3>>(
this, new Mappers.Mapper3<V1, V2, V3>(getValueProvider(), p1, p2, p3), p1, p2, p3);
return new SelectOperation<Fun.Tuple3<V1, V2, V3>>(this,
new Mappers.Mapper3<V1, V2, V3>(getValueProvider(), p1, p2, p3), p1, p2, p3);
}
public <V1, V2, V3, V4> SelectOperation<Fun.Tuple4<V1, V2, V3, V4>> select(
Getter<V1> getter1, Getter<V2> getter2, Getter<V3> getter3, Getter<V4> getter4) {
public <V1, V2, V3, V4> SelectOperation<Fun.Tuple4<V1, V2, V3, V4>> select(Getter<V1> getter1, Getter<V2> getter2,
Getter<V3> getter3, Getter<V4> getter4) {
Objects.requireNonNull(getter1, "field 1 is empty");
Objects.requireNonNull(getter2, "field 2 is empty");
Objects.requireNonNull(getter3, "field 3 is empty");
@ -301,21 +278,12 @@ public final class HelenusSession extends AbstractSessionOperations implements C
HelenusPropertyNode p2 = MappingUtil.resolveMappingProperty(getter2);
HelenusPropertyNode p3 = MappingUtil.resolveMappingProperty(getter3);
HelenusPropertyNode p4 = MappingUtil.resolveMappingProperty(getter4);
return new SelectOperation<Fun.Tuple4<V1, V2, V3, V4>>(
this,
new Mappers.Mapper4<V1, V2, V3, V4>(getValueProvider(), p1, p2, p3, p4),
p1,
p2,
p3,
p4);
return new SelectOperation<Fun.Tuple4<V1, V2, V3, V4>>(this,
new Mappers.Mapper4<V1, V2, V3, V4>(getValueProvider(), p1, p2, p3, p4), p1, p2, p3, p4);
}
public <V1, V2, V3, V4, V5> SelectOperation<Fun.Tuple5<V1, V2, V3, V4, V5>> select(
Getter<V1> getter1,
Getter<V2> getter2,
Getter<V3> getter3,
Getter<V4> getter4,
Getter<V5> getter5) {
public <V1, V2, V3, V4, V5> SelectOperation<Fun.Tuple5<V1, V2, V3, V4, V5>> select(Getter<V1> getter1,
Getter<V2> getter2, Getter<V3> getter3, Getter<V4> getter4, Getter<V5> getter5) {
Objects.requireNonNull(getter1, "field 1 is empty");
Objects.requireNonNull(getter2, "field 2 is empty");
Objects.requireNonNull(getter3, "field 3 is empty");
@ -327,23 +295,12 @@ public final class HelenusSession extends AbstractSessionOperations implements C
HelenusPropertyNode p3 = MappingUtil.resolveMappingProperty(getter3);
HelenusPropertyNode p4 = MappingUtil.resolveMappingProperty(getter4);
HelenusPropertyNode p5 = MappingUtil.resolveMappingProperty(getter5);
return new SelectOperation<Fun.Tuple5<V1, V2, V3, V4, V5>>(
this,
new Mappers.Mapper5<V1, V2, V3, V4, V5>(getValueProvider(), p1, p2, p3, p4, p5),
p1,
p2,
p3,
p4,
p5);
return new SelectOperation<Fun.Tuple5<V1, V2, V3, V4, V5>>(this,
new Mappers.Mapper5<V1, V2, V3, V4, V5>(getValueProvider(), p1, p2, p3, p4, p5), p1, p2, p3, p4, p5);
}
public <V1, V2, V3, V4, V5, V6> SelectOperation<Fun.Tuple6<V1, V2, V3, V4, V5, V6>> select(
Getter<V1> getter1,
Getter<V2> getter2,
Getter<V3> getter3,
Getter<V4> getter4,
Getter<V5> getter5,
Getter<V6> getter6) {
public <V1, V2, V3, V4, V5, V6> SelectOperation<Fun.Tuple6<V1, V2, V3, V4, V5, V6>> select(Getter<V1> getter1,
Getter<V2> getter2, Getter<V3> getter3, Getter<V4> getter4, Getter<V5> getter5, Getter<V6> getter6) {
Objects.requireNonNull(getter1, "field 1 is empty");
Objects.requireNonNull(getter2, "field 2 is empty");
Objects.requireNonNull(getter3, "field 3 is empty");
@ -357,26 +314,14 @@ public final class HelenusSession extends AbstractSessionOperations implements C
HelenusPropertyNode p4 = MappingUtil.resolveMappingProperty(getter4);
HelenusPropertyNode p5 = MappingUtil.resolveMappingProperty(getter5);
HelenusPropertyNode p6 = MappingUtil.resolveMappingProperty(getter6);
return new SelectOperation<Tuple6<V1, V2, V3, V4, V5, V6>>(
this,
new Mappers.Mapper6<V1, V2, V3, V4, V5, V6>(getValueProvider(), p1, p2, p3, p4, p5, p6),
p1,
p2,
p3,
p4,
p5,
p6);
return new SelectOperation<Tuple6<V1, V2, V3, V4, V5, V6>>(this,
new Mappers.Mapper6<V1, V2, V3, V4, V5, V6>(getValueProvider(), p1, p2, p3, p4, p5, p6), p1, p2, p3, p4,
p5, p6);
}
public <V1, V2, V3, V4, V5, V6, V7>
SelectOperation<Fun.Tuple7<V1, V2, V3, V4, V5, V6, V7>> select(
Getter<V1> getter1,
Getter<V2> getter2,
Getter<V3> getter3,
Getter<V4> getter4,
Getter<V5> getter5,
Getter<V6> getter6,
Getter<V7> getter7) {
public <V1, V2, V3, V4, V5, V6, V7> SelectOperation<Fun.Tuple7<V1, V2, V3, V4, V5, V6, V7>> select(
Getter<V1> getter1, Getter<V2> getter2, Getter<V3> getter3, Getter<V4> getter4, Getter<V5> getter5,
Getter<V6> getter6, Getter<V7> getter7) {
Objects.requireNonNull(getter1, "field 1 is empty");
Objects.requireNonNull(getter2, "field 2 is empty");
Objects.requireNonNull(getter3, "field 3 is empty");
@ -392,17 +337,9 @@ public final class HelenusSession extends AbstractSessionOperations implements C
HelenusPropertyNode p5 = MappingUtil.resolveMappingProperty(getter5);
HelenusPropertyNode p6 = MappingUtil.resolveMappingProperty(getter6);
HelenusPropertyNode p7 = MappingUtil.resolveMappingProperty(getter7);
return new SelectOperation<Fun.Tuple7<V1, V2, V3, V4, V5, V6, V7>>(
this,
new Mappers.Mapper7<V1, V2, V3, V4, V5, V6, V7>(
getValueProvider(), p1, p2, p3, p4, p5, p6, p7),
p1,
p2,
p3,
p4,
p5,
p6,
p7);
return new SelectOperation<Fun.Tuple7<V1, V2, V3, V4, V5, V6, V7>>(this,
new Mappers.Mapper7<V1, V2, V3, V4, V5, V6, V7>(getValueProvider(), p1, p2, p3, p4, p5, p6, p7), p1, p2,
p3, p4, p5, p6, p7);
}
public CountOperation count() {
@ -430,10 +367,7 @@ public final class HelenusSession extends AbstractSessionOperations implements C
HelenusEntity entity = Helenus.entity(draft.getEntityClass());
// Add all the mutated values contained in the draft.
entity
.getOrderedProperties()
.forEach(
property -> {
entity.getOrderedProperties().forEach(property -> {
switch (property.getColumnType()) {
case PARTITION_KEY :
case CLUSTERING_COLUMN :
@ -442,12 +376,10 @@ public final class HelenusSession extends AbstractSessionOperations implements C
String propertyName = property.getPropertyName();
if (mutatedProperties.contains(propertyName)) {
Object value = map.get(propertyName);
Getter<Object> getter =
new Getter<Object>() {
Getter<Object> getter = new Getter<Object>() {
@Override
public Object get() {
throw new DslPropertyException(
new HelenusPropertyNode(property, Optional.empty()));
throw new DslPropertyException(new HelenusPropertyNode(property, Optional.empty()));
}
};
update.set(getter, value);
@ -455,22 +387,18 @@ public final class HelenusSession extends AbstractSessionOperations implements C
}
});
// Add the partition and clustering keys if they were in the draft (normally the case).
entity
.getOrderedProperties()
.forEach(
property -> {
// Add the partition and clustering keys if they were in the draft (normally the
// case).
entity.getOrderedProperties().forEach(property -> {
switch (property.getColumnType()) {
case PARTITION_KEY :
case CLUSTERING_COLUMN :
String propertyName = property.getPropertyName();
Object value = map.get(propertyName);
Getter<Object> getter =
new Getter<Object>() {
Getter<Object> getter = new Getter<Object>() {
@Override
public Object get() {
throw new DslPropertyException(
new HelenusPropertyNode(property, Optional.empty()));
throw new DslPropertyException(new HelenusPropertyNode(property, Optional.empty()));
}
};
update.where(getter, eq(value));
@ -498,8 +426,7 @@ public final class HelenusSession extends AbstractSessionOperations implements C
}
public <T> InsertOperation<T> insert(T pojo) {
Objects.requireNonNull(
pojo,
Objects.requireNonNull(pojo,
"supplied object must be either an instance of the entity class or a dsl for it, but cannot be null");
HelenusEntity entity = null;
try {
@ -539,8 +466,7 @@ public final class HelenusSession extends AbstractSessionOperations implements C
}
public <T> InsertOperation<T> upsert(T pojo) {
Objects.requireNonNull(
pojo,
Objects.requireNonNull(pojo,
"supplied object must be either an instance of the entity class or a dsl for it, but cannot be null");
HelenusEntity entity = null;
try {

View file

@ -16,7 +16,9 @@
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;
@ -35,8 +37,7 @@ public enum HelenusValidator implements PropertyValueValidator {
try {
valid = typeless.isValid(value, null);
} catch (ClassCastException e) {
throw new HelenusMappingException(
"validator was used for wrong type '" + value + "' in " + prop, e);
throw new HelenusMappingException("validator was used for wrong type '" + value + "' in " + prop, e);
}
if (!valid) {

View file

@ -15,8 +15,10 @@
*/
package net.helenus.core;
import com.datastax.driver.core.Row;
import java.util.function.Function;
import com.datastax.driver.core.Row;
import net.helenus.core.reflect.HelenusPropertyNode;
import net.helenus.mapping.HelenusProperty;
import net.helenus.mapping.value.ColumnValueProvider;
@ -24,7 +26,8 @@ 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>> {
@ -56,8 +59,7 @@ public final class Mappers {
@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));
return new Fun.Tuple2<A, B>(provider.getColumnValue(row, 0, p1), provider.getColumnValue(row, 1, p2));
}
}
@ -68,10 +70,7 @@ public final class Mappers {
private final HelenusProperty p2;
private final HelenusProperty p3;
public Mapper3(
ColumnValueProvider provider,
HelenusPropertyNode p1,
HelenusPropertyNode p2,
public Mapper3(ColumnValueProvider provider, HelenusPropertyNode p1, HelenusPropertyNode p2,
HelenusPropertyNode p3) {
this.provider = provider;
this.p1 = p1.getProperty();
@ -81,9 +80,7 @@ public final class Mappers {
@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),
return new Fun.Tuple3<A, B, C>(provider.getColumnValue(row, 0, p1), provider.getColumnValue(row, 1, p2),
provider.getColumnValue(row, 2, p3));
}
}
@ -96,12 +93,8 @@ public final class Mappers {
private final HelenusProperty p3;
private final HelenusProperty p4;
public Mapper4(
ColumnValueProvider provider,
HelenusPropertyNode p1,
HelenusPropertyNode p2,
HelenusPropertyNode p3,
HelenusPropertyNode p4) {
public Mapper4(ColumnValueProvider provider, HelenusPropertyNode p1, HelenusPropertyNode p2,
HelenusPropertyNode p3, HelenusPropertyNode p4) {
this.provider = provider;
this.p1 = p1.getProperty();
this.p2 = p2.getProperty();
@ -111,27 +104,18 @@ public final class Mappers {
@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));
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;
public Mapper5(
ColumnValueProvider provider,
HelenusPropertyNode p1,
HelenusPropertyNode p2,
HelenusPropertyNode p3,
HelenusPropertyNode p4,
HelenusPropertyNode 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();
@ -142,29 +126,19 @@ public final class Mappers {
@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));
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;
public Mapper6(
ColumnValueProvider provider,
HelenusPropertyNode p1,
HelenusPropertyNode p2,
HelenusPropertyNode p3,
HelenusPropertyNode p4,
HelenusPropertyNode p5,
HelenusPropertyNode 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();
@ -176,30 +150,20 @@ public final class Mappers {
@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),
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;
public Mapper7(
ColumnValueProvider provider,
HelenusPropertyNode p1,
HelenusPropertyNode p2,
HelenusPropertyNode p3,
HelenusPropertyNode p4,
HelenusPropertyNode p5,
HelenusPropertyNode p6,
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();
@ -213,14 +177,10 @@ public final class Mappers {
@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));
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));
}
}
}

View file

@ -1,8 +1,10 @@
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;

View file

@ -1,6 +1,6 @@
package net.helenus.core;
import java.util.*;
import java.util.List;
import java.util.Objects;
public class PostCommitFunction<T, R> implements java.util.function.Function<T, R> {

View file

@ -17,6 +17,7 @@ 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;
@ -39,8 +40,8 @@ public final class Postulate<V> {
switch (operator) {
case EQ :
return QueryBuilder.eq(
node.getColumnName(), valuePreparer.prepareColumnValue(values[0], node.getProperty()));
return QueryBuilder.eq(node.getColumnName(),
valuePreparer.prepareColumnValue(values[0], node.getProperty()));
case IN :
Object[] preparedValues = new Object[values.length];
@ -50,20 +51,20 @@ public final class Postulate<V> {
return QueryBuilder.in(node.getColumnName(), preparedValues);
case LT :
return QueryBuilder.lt(
node.getColumnName(), valuePreparer.prepareColumnValue(values[0], node.getProperty()));
return QueryBuilder.lt(node.getColumnName(),
valuePreparer.prepareColumnValue(values[0], node.getProperty()));
case LTE :
return QueryBuilder.lte(
node.getColumnName(), valuePreparer.prepareColumnValue(values[0], node.getProperty()));
return QueryBuilder.lte(node.getColumnName(),
valuePreparer.prepareColumnValue(values[0], node.getProperty()));
case GT :
return QueryBuilder.gt(
node.getColumnName(), valuePreparer.prepareColumnValue(values[0], node.getProperty()));
return QueryBuilder.gt(node.getColumnName(),
valuePreparer.prepareColumnValue(values[0], node.getProperty()));
case GTE :
return QueryBuilder.gte(
node.getColumnName(), valuePreparer.prepareColumnValue(values[0], node.getProperty()));
return QueryBuilder.gte(node.getColumnName(),
valuePreparer.prepareColumnValue(values[0], node.getProperty()));
default :
throw new HelenusMappingException("unknown filter operation " + operator);

View file

@ -15,17 +15,20 @@
*/
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();

View file

@ -15,15 +15,16 @@
*/
package net.helenus.core;
import java.util.*;
import java.util.stream.Collectors;
import com.datastax.driver.core.*;
import com.datastax.driver.core.IndexMetadata;
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;
@ -34,7 +35,8 @@ import net.helenus.support.HelenusMappingException;
public final class SchemaUtil {
private SchemaUtil() {}
private SchemaUtil() {
}
public static RegularStatement use(String keyspace, boolean forceQuote) {
if (forceQuote) {
@ -57,31 +59,23 @@ public final class SchemaUtil {
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);
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);
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) {
public static List<SchemaStatement> alterUserType(UserType userType, HelenusEntity entity,
boolean dropUnusedColumns) {
if (entity.getType() != HelenusEntityType.UDT) {
throw new HelenusMappingException("expected UDT entity " + entity);
@ -90,13 +84,12 @@ public final class SchemaUtil {
List<SchemaStatement> result = new ArrayList<SchemaStatement>();
/**
* TODO: In future replace SchemaBuilder.alterTable by SchemaBuilder.alterType when it will
* exist
* 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();
final Set<String> visitedColumns = dropUnusedColumns ? new HashSet<String>() : Collections.<String>emptySet();
for (HelenusProperty prop : entity.getOrderedProperties()) {
@ -113,9 +106,8 @@ public final class SchemaUtil {
}
DataType dataType = userType.getFieldType(columnName);
SchemaStatement stmt =
prop.getDataType()
.alterColumn(alter, prop.getColumnName(), optional(columnName, dataType));
SchemaStatement stmt = prop.getDataType().alterColumn(alter, prop.getColumnName(),
optional(columnName, dataType));
if (stmt != null) {
result.add(stmt);
@ -148,8 +140,7 @@ public final class SchemaUtil {
return SchemaBuilder.dropType(type.getTypeName()).ifExists();
}
public static SchemaStatement createMaterializedView(
String keyspace, String viewName, HelenusEntity entity) {
public static SchemaStatement createMaterializedView(String keyspace, String viewName, HelenusEntity entity) {
if (entity.getType() != HelenusEntityType.VIEW) {
throw new HelenusMappingException("expected view entity " + entity);
}
@ -159,10 +150,7 @@ public final class SchemaUtil {
}
List<HelenusPropertyNode> props = new ArrayList<HelenusPropertyNode>();
entity
.getOrderedProperties()
.stream()
.map(p -> new HelenusPropertyNode(p, Optional.empty()))
entity.getOrderedProperties().stream().map(p -> new HelenusPropertyNode(p, Optional.empty()))
.forEach(p -> props.add(p));
Select.Selection selection = QueryBuilder.select();
@ -190,8 +178,8 @@ public final class SchemaUtil {
c.add(columnName);
where = where.and(new IsNotNullClause(columnName));
ClusteringColumn clusteringColumn =
prop.getProperty().getGetterMethod().getAnnotation(ClusteringColumn.class);
ClusteringColumn clusteringColumn = prop.getProperty().getGetterMethod()
.getAnnotation(ClusteringColumn.class);
if (clusteringColumn != null && clusteringColumn.ordering() != null) {
o.add(columnName + " " + clusteringColumn.ordering().cql());
}
@ -201,24 +189,17 @@ public final class SchemaUtil {
}
}
String primaryKey =
"PRIMARY KEY ("
+ ((p.size() > 1) ? "(" + String.join(", ", p) + ")" : p.get(0))
+ ((c.size() > 0)
? ", " + ((c.size() > 1) ? "(" + String.join(", ", c) + ")" : c.get(0))
: "")
+ ")";
String primaryKey = "PRIMARY KEY (" + ((p.size() > 1) ? "(" + String.join(", ", p) + ")" : p.get(0))
+ ((c.size() > 0) ? ", " + ((c.size() > 1) ? "(" + String.join(", ", c) + ")" : c.get(0)) : "") + ")";
String clustering = "";
if (o.size() > 0) {
clustering = "WITH CLUSTERING ORDER BY (" + String.join(", ", o) + ")";
}
return new CreateMaterializedView(keyspace, viewName, where, primaryKey, clustering)
.ifNotExists();
return new CreateMaterializedView(keyspace, viewName, where, primaryKey, clustering).ifNotExists();
}
public static SchemaStatement dropMaterializedView(
String keyspace, String viewName, HelenusEntity entity) {
public static SchemaStatement dropMaterializedView(String keyspace, String viewName, HelenusEntity entity) {
return new DropMaterializedView(keyspace, viewName);
}
@ -251,15 +232,14 @@ public final class SchemaUtil {
if (!clusteringColumns.isEmpty()) {
Options options = create.withOptions();
clusteringColumns.forEach(
p -> options.clusteringOrder(p.getColumnName().toCql(), mapDirection(p.getOrdering())));
clusteringColumns
.forEach(p -> options.clusteringOrder(p.getColumnName().toCql(), mapDirection(p.getOrdering())));
}
return create;
}
public static List<SchemaStatement> alterTable(
TableMetadata tmd, HelenusEntity entity, boolean dropUnusedColumns) {
public static List<SchemaStatement> alterTable(TableMetadata tmd, HelenusEntity entity, boolean dropUnusedColumns) {
if (entity.getType() != HelenusEntityType.TABLE) {
throw new HelenusMappingException("expected table entity " + entity);
@ -269,8 +249,7 @@ public final class SchemaUtil {
Alter alter = SchemaBuilder.alterTable(entity.getName().toCql());
final Set<String> visitedColumns =
dropUnusedColumns ? new HashSet<String>() : Collections.<String>emptySet();
final Set<String> visitedColumns = dropUnusedColumns ? new HashSet<String>() : Collections.<String>emptySet();
for (HelenusProperty prop : entity.getOrderedProperties()) {
@ -287,8 +266,8 @@ public final class SchemaUtil {
}
ColumnMetadata columnMetadata = tmd.getColumn(columnName);
SchemaStatement stmt =
prop.getDataType().alterColumn(alter, prop.getColumnName(), optional(columnMetadata));
SchemaStatement stmt = prop.getDataType().alterColumn(alter, prop.getColumnName(),
optional(columnMetadata));
if (stmt != null) {
result.add(stmt);
@ -318,42 +297,28 @@ public final class SchemaUtil {
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());
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());
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());
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) {
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();
final Set<String> visitedColumns = dropUnusedIndexes ? new HashSet<String>() : Collections.<String>emptySet();
entity
.getOrderedProperties()
.stream()
.filter(p -> p.getIndexName().isPresent())
.forEach(
p -> {
entity.getOrderedProperties().stream().filter(p -> p.getIndexName().isPresent()).forEach(p -> {
String columnName = p.getColumnName().getName();
if (dropUnusedIndexes) {
@ -374,11 +339,9 @@ public final class SchemaUtil {
if (dropUnusedIndexes) {
tmd.getColumns()
.stream()
tmd.getColumns().stream()
.filter(c -> tmd.getIndex(c.getName()) != null && !visitedColumns.contains(c.getName()))
.forEach(
c -> {
.forEach(c -> {
list.add(SchemaBuilder.dropIndex(tmd.getIndex(c.getName()).getName()).ifExists());
});
}
@ -404,10 +367,7 @@ public final class SchemaUtil {
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.getPropertyName() + "' type is '" + prop.getJavaType() + "' in the entity "
+ prop.getEntity());
}

View file

@ -15,16 +15,18 @@
*/
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.reflect.DslExportable;
import net.helenus.mapping.HelenusEntity;
import net.helenus.mapping.HelenusEntityType;
@ -181,11 +183,8 @@ public final class SessionInitializer extends AbstractSessionOperations {
public SessionInitializer addPackage(String packageName) {
try {
PackageUtil.getClasses(packageName)
.stream()
.filter(c -> c.isInterface() && !c.isAnnotation())
.forEach(
clazz -> {
PackageUtil.getClasses(packageName).stream().filter(c -> c.isInterface() && !c.isAnnotation())
.forEach(clazz -> {
initList.add(Either.right(clazz));
});
} catch (IOException | ClassNotFoundException e) {
@ -247,19 +246,8 @@ public final class SessionInitializer extends AbstractSessionOperations {
public synchronized HelenusSession get() {
initialize();
return new HelenusSession(
session,
usingKeyspace,
registry,
showCql,
printStream,
sessionRepository,
executor,
autoDdl == AutoDdl.CREATE_DROP,
consistencyLevel,
idempotent,
unitOfWorkClass,
metricRegistry,
return new HelenusSession(session, usingKeyspace, registry, showCql, printStream, sessionRepository, executor,
autoDdl == AutoDdl.CREATE_DROP, consistencyLevel, idempotent, unitOfWorkClass, metricRegistry,
zipkinTracer);
}
@ -267,8 +255,7 @@ public final class SessionInitializer extends AbstractSessionOperations {
Objects.requireNonNull(usingKeyspace, "please define keyspace by 'use' operator");
initList.forEach(
(either) -> {
initList.forEach((either) -> {
Class<?> iface = null;
if (either.isLeft()) {
iface = MappingUtil.getMappingInterface(either.getLeft());
@ -287,38 +274,29 @@ public final class SessionInitializer extends AbstractSessionOperations {
switch (autoDdl) {
case CREATE_DROP :
// Drop view first, otherwise a `DROP TABLE ...` will fail as the type is still referenced
// 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)
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
// 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)
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!)
// 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)
sessionRepository.entities().stream().filter(e -> e.getType() == HelenusEntityType.TABLE)
.forEach(e -> tableOps.createTable(e));
sessionRepository
.entities()
.stream()
.filter(e -> e.getType() == HelenusEntityType.VIEW)
sessionRepository.entities().stream().filter(e -> e.getType() == HelenusEntityType.VIEW)
.forEach(e -> tableOps.createView(e));
break;
@ -326,10 +304,7 @@ public final class SessionInitializer extends AbstractSessionOperations {
case VALIDATE :
eachUserTypeInOrder(userTypeOps, e -> userTypeOps.validateUserType(getUserType(e), e));
sessionRepository
.entities()
.stream()
.filter(e -> e.getType() == HelenusEntityType.TABLE)
sessionRepository.entities().stream().filter(e -> e.getType() == HelenusEntityType.TABLE)
.forEach(e -> tableOps.validateTable(getTableMetadata(e), e));
break;
@ -337,22 +312,13 @@ public final class SessionInitializer extends AbstractSessionOperations {
case UPDATE :
eachUserTypeInOrder(userTypeOps, e -> userTypeOps.updateUserType(getUserType(e), e));
sessionRepository
.entities()
.stream()
.filter(e -> e.getType() == HelenusEntityType.VIEW)
sessionRepository.entities().stream().filter(e -> e.getType() == HelenusEntityType.VIEW)
.forEach(e -> tableOps.dropView(e));
sessionRepository
.entities()
.stream()
.filter(e -> e.getType() == HelenusEntityType.TABLE)
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)
sessionRepository.entities().stream().filter(e -> e.getType() == HelenusEntityType.VIEW)
.forEach(e -> tableOps.createView(e));
break;
}
@ -364,41 +330,27 @@ public final class SessionInitializer extends AbstractSessionOperations {
}
}
private void eachUserTypeInOrder(
UserTypeOperations userTypeOps, Consumer<? super HelenusEntity> action) {
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 -> {
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) {
private void eachUserTypeInReverseOrder(UserTypeOperations userTypeOps, Consumer<? super HelenusEntity> action) {
ArrayDeque<HelenusEntity> deque = new ArrayDeque<>();
eachUserTypeInOrder(userTypeOps, e -> deque.addFirst(e));
deque
.stream()
.forEach(
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) {
private void eachUserTypeInRecursion(HelenusEntity e, Set<HelenusEntity> processedSet, Set<HelenusEntity> stack,
UserTypeOperations userTypeOps, Consumer<? super HelenusEntity> action) {
stack.add(e);
@ -419,8 +371,7 @@ public final class SessionInitializer extends AbstractSessionOperations {
private KeyspaceMetadata getKeyspaceMetadata() {
if (keyspaceMetadata == null) {
keyspaceMetadata =
session.getCluster().getMetadata().getKeyspace(usingKeyspace.toLowerCase());
keyspaceMetadata = session.getCluster().getMetadata().getKeyspace(usingKeyspace.toLowerCase());
}
return keyspaceMetadata;
}

View file

@ -15,9 +15,11 @@
*/
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 {
@ -30,8 +32,7 @@ public final class SessionRepository {
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) {

View file

@ -15,15 +15,17 @@
*/
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;
@ -33,8 +35,7 @@ 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>();
@ -98,8 +99,7 @@ public final class SessionRepositoryBuilder {
entity = helenusEntity;
if (type.isPresent() && entity.getType() != type.get()) {
throw new HelenusMappingException(
"unexpected entity type " + entity.getType() + " for " + entity);
throw new HelenusMappingException("unexpected entity type " + entity.getType() + " for " + entity);
}
HelenusEntity concurrentEntity = entityMap.putIfAbsent(iface, entity);

View file

@ -15,9 +15,11 @@
*/
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;
@ -27,8 +29,7 @@ public final class TableOperations {
private final boolean dropUnusedColumns;
private final boolean dropUnusedIndexes;
public TableOperations(
AbstractSessionOperations sessionOps, boolean dropUnusedColumns, boolean dropUnusedIndexes) {
public TableOperations(AbstractSessionOperations sessionOps, boolean dropUnusedColumns, boolean dropUnusedIndexes) {
this.sessionOps = sessionOps;
this.dropUnusedColumns = dropUnusedColumns;
this.dropUnusedIndexes = dropUnusedIndexes;
@ -47,10 +48,7 @@ public final class TableOperations {
if (tmd == null) {
throw new HelenusException(
"table does not exists "
+ entity.getName()
+ "for entity "
+ entity.getMappingInterface());
"table does not exists " + entity.getName() + "for entity " + entity.getMappingInterface());
}
List<SchemaStatement> list = SchemaUtil.alterTable(tmd, entity, dropUnusedColumns);
@ -59,10 +57,7 @@ public final class TableOperations {
if (!list.isEmpty()) {
throw new HelenusException(
"schema changed for entity "
+ entity.getMappingInterface()
+ ", apply this command: "
+ list);
"schema changed for entity " + entity.getMappingInterface() + ", apply this command: " + list);
}
}
@ -78,17 +73,14 @@ public final class TableOperations {
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.
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);
SchemaUtil.dropMaterializedView(sessionOps.usingKeyspace(), entity.getName().toCql(), entity), true);
}
public void updateView(TableMetadata tmd, HelenusEntity entity) {
@ -103,8 +95,7 @@ public final class TableOperations {
private void executeBatch(List<SchemaStatement> list) {
list.forEach(
s -> {
list.forEach(s -> {
sessionOps.execute(s, true);
});
}

View file

@ -18,14 +18,16 @@ package net.helenus.core;
import java.util.Map;
import java.util.Optional;
import java.util.Set;
import net.helenus.core.cache.BoundFacet;
import net.helenus.core.cache.Facet;
import net.helenus.support.Either;
public interface UnitOfWork<X extends Exception> extends AutoCloseable {
/**
* Marks the beginning of a transactional section of work. Will write a record to the shared
* write-ahead log.
* Marks the beginning of a transactional section of work. Will write a record
* to the shared write-ahead log.
*
* @return the handle used to commit or abort the work.
*/
@ -34,16 +36,19 @@ public interface UnitOfWork<X extends Exception> extends AutoCloseable {
void addNestedUnitOfWork(UnitOfWork<X> uow);
/**
* Checks to see if the work performed between calling begin and now can be committed or not.
* 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.
* @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.
* 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();
@ -53,10 +58,9 @@ public interface UnitOfWork<X extends Exception> extends AutoCloseable {
Optional<Either<Object, Set<Object>>> cacheLookup(String key);
Optional<Either<Object, Set<Object>>> cacheLookupByFacet(Set<BoundFacet> facets);
Optional<Either<Object, Set<Object>>> cacheLookupByFacet(Set<Facet> facets);
Optional<Either<Object, Set<Object>>> cacheLookupByStatement(String[] statementKeys);
void cacheUpdate(
Either<Object, Set<Object>> pojo, String[] statementKeys, Map<String, BoundFacet> facets);
void cacheUpdate(Either<Object, Set<Object>> pojo, String[] statementKeys, Map<String, BoundFacet> facets);
}

View file

@ -15,9 +15,11 @@
*/
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;
@ -52,10 +54,7 @@ public final class UserTypeOperations {
if (!list.isEmpty()) {
throw new HelenusException(
"schema changed for entity "
+ entity.getMappingInterface()
+ ", apply this command: "
+ list);
"schema changed for entity " + entity.getMappingInterface() + ", apply this command: " + list);
}
}
@ -71,8 +70,7 @@ public final class UserTypeOperations {
private void executeBatch(List<SchemaStatement> list) {
list.forEach(
s -> {
list.forEach(s -> {
sessionOps.execute(s, true);
});
}

View file

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

View file

@ -4,6 +4,7 @@ import java.lang.annotation.ElementType;
import java.lang.annotation.Retention;
import java.lang.annotation.RetentionPolicy;
import java.lang.annotation.Target;
import net.helenus.core.ConflictingUnitOfWorkException;
@Retention(RetentionPolicy.RUNTIME)

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;
@ -13,6 +13,8 @@ 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 {
@ -37,8 +39,8 @@ public class RetryAspect {
return tryProceeding(pjp, times, retryOn);
}
private Object tryProceeding(
ProceedingJoinPoint pjp, int times, Class<? extends Throwable>[] retryOn) throws Throwable {
private Object tryProceeding(ProceedingJoinPoint pjp, int times, Class<? extends Throwable>[] retryOn)
throws Throwable {
try {
return proceed(pjp);
} catch (Throwable throwable) {

View file

@ -17,9 +17,10 @@ package net.helenus.core.cache;
import java.util.Map;
import java.util.stream.Collectors;
import net.helenus.mapping.HelenusProperty;
public class BoundFacet {
public class BoundFacet extends Facet {
private final Map<HelenusProperty, Object> properties;
BoundFacet(Map<HelenusProperty, Object> properties) {
@ -27,12 +28,7 @@ public class BoundFacet {
}
public String toString() {
return String.join(
";",
properties
.keySet()
.stream()
.map(key -> properties.get(key).toString())
.collect(Collectors.toSet()));
return String.join(";",
properties.keySet().stream().map(key -> properties.get(key).toString()).collect(Collectors.toSet()));
}
}

View file

@ -19,6 +19,7 @@ import java.util.HashMap;
import java.util.HashSet;
import java.util.Map;
import java.util.Set;
import net.helenus.mapping.HelenusProperty;
public class EntityIdentifyingFacet extends Facet {

View file

@ -1,20 +1,23 @@
package net.helenus.core.cache;
public class Facet {}
public class Facet {
}
/*
An Entity is identifiable via one or more Facets
A Facet is is a set of Properties and bound Facets
An Entity will have it's Keyspace, Table and Schema Version Facets bound.
A property may also have a TTL or write time bound.
The cache contains key->value mappings of merkel-hash -> Entity or Set<Entity>
The only way a Set<Entity> is put into the cache is with a key = hash([Entity's bound Facets, hash(filter clause from SELECT)])
REMEMBER to update the cache on build() for all impacted facets, delete existing keys and add new keys
*
* An Entity is identifiable via one or more Facets
*
* A Facet is is a set of Properties and bound Facets
*
* An Entity will have it's Keyspace, Table and Schema Version Facets bound.
*
* A property may also have a TTL or write time bound.
*
* The cache contains key->value mappings of merkel-hash -> Entity or
* Set<Entity> The only way a Set<Entity> is put into the cache is with a key =
* hash([Entity's bound Facets, hash(filter clause from SELECT)])
*
* REMEMBER to update the cache on build() for all impacted facets, delete
* existing keys and add new keys
*
*
*/

View file

@ -17,10 +17,12 @@ package net.helenus.core.operation;
import java.util.LinkedList;
import java.util.List;
import net.helenus.core.*;
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;

View file

@ -19,12 +19,13 @@ 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;

View file

@ -19,12 +19,13 @@ 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;

View file

@ -15,16 +15,21 @@
*/
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 abstract E transform(ResultSet resultSet);
@ -32,10 +37,6 @@ public abstract class AbstractOperation<E, O extends AbstractOperation<E, O>>
return false;
}
public AbstractOperation(AbstractSessionOperations sessionOperations) {
super(sessionOperations);
}
public PreparedOperation<E> prepare() {
return new PreparedOperation<E>(prepareStatement(), this);
}
@ -43,15 +44,8 @@ public abstract class AbstractOperation<E, O extends AbstractOperation<E, O>>
public E sync() throws TimeoutException {
final Timer.Context context = requestLatency.time();
try {
ResultSet resultSet =
this.execute(
sessionOps,
null,
traceContext,
queryExecutionTimeout,
queryTimeoutUnits,
showValues,
false);
ResultSet resultSet = this.execute(sessionOps, null, traceContext, queryExecutionTimeout, queryTimeoutUnits,
showValues, false);
return transform(resultSet);
} finally {
context.stop();
@ -59,19 +53,13 @@ public abstract class AbstractOperation<E, O extends AbstractOperation<E, O>>
}
public E sync(UnitOfWork uow) throws TimeoutException {
if (uow == null) return sync();
if (uow == null)
return sync();
final Timer.Context context = requestLatency.time();
try {
ResultSet resultSet =
execute(
sessionOps,
uow,
traceContext,
queryExecutionTimeout,
queryTimeoutUnits,
showValues,
true);
ResultSet resultSet = execute(sessionOps, uow, traceContext, queryExecutionTimeout, queryTimeoutUnits,
showValues, true);
E result = transform(resultSet);
return result;
} finally {
@ -80,8 +68,7 @@ public abstract class AbstractOperation<E, O extends AbstractOperation<E, O>>
}
public CompletableFuture<E> async() {
return CompletableFuture.<E>supplyAsync(
() -> {
return CompletableFuture.<E>supplyAsync(() -> {
try {
return sync();
} catch (TimeoutException ex) {
@ -91,9 +78,9 @@ public abstract class AbstractOperation<E, O extends AbstractOperation<E, O>>
}
public CompletableFuture<E> async(UnitOfWork uow) {
if (uow == null) return async();
return CompletableFuture.<E>supplyAsync(
() -> {
if (uow == null)
return async();
return CompletableFuture.<E>supplyAsync(() -> {
try {
return sync();
} catch (TimeoutException ex) {

View file

@ -15,23 +15,26 @@
*/
package net.helenus.core.operation;
import java.util.Optional;
import java.util.Set;
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;
import com.google.common.base.Function;
import com.google.common.util.concurrent.Futures;
import com.google.common.util.concurrent.ListenableFuture;
import java.util.Optional;
import java.util.Set;
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.BoundFacet;
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);
@ -45,8 +48,7 @@ public abstract class AbstractOptionalOperation<E, O extends AbstractOptionalOpe
public ListenableFuture<PreparedOptionalOperation<E>> prepareAsync() {
final O _this = (O) this;
return Futures.transform(
prepareStatementAsync(),
return Futures.transform(prepareStatementAsync(),
new Function<PreparedStatement, PreparedOptionalOperation<E>>() {
@Override
public PreparedOptionalOperation<E> apply(PreparedStatement preparedStatement) {
@ -58,15 +60,8 @@ public abstract class AbstractOptionalOperation<E, O extends AbstractOptionalOpe
public Optional<E> sync() throws TimeoutException {
final Timer.Context context = requestLatency.time();
try {
ResultSet resultSet =
this.execute(
sessionOps,
null,
traceContext,
queryExecutionTimeout,
queryTimeoutUnits,
showValues,
false);
ResultSet resultSet = this.execute(sessionOps, null, traceContext, queryExecutionTimeout, queryTimeoutUnits,
showValues, false);
return transform(resultSet);
} finally {
context.stop();
@ -74,7 +69,8 @@ public abstract class AbstractOptionalOperation<E, O extends AbstractOptionalOpe
}
public Optional<E> sync(UnitOfWork<?> uow) throws TimeoutException {
if (uow == null) return sync();
if (uow == null)
return sync();
final Timer.Context context = requestLatency.time();
try {
@ -84,7 +80,7 @@ public abstract class AbstractOptionalOperation<E, O extends AbstractOptionalOpe
String[] statementKeys = null;
if (enableCache) {
Set<BoundFacet> facets = bindFacetValues();
Set<Facet> facets = bindFacetValues();
statementKeys = getQueryKeys();
cacheResult = checkCache(uow, facets, statementKeys);
if (cacheResult != null) {
@ -94,21 +90,15 @@ public abstract class AbstractOptionalOperation<E, O extends AbstractOptionalOpe
if (!result.isPresent()) {
// Formulate the query and execute it against the Cassandra cluster.
ResultSet resultSet =
execute(
sessionOps,
uow,
traceContext,
queryExecutionTimeout,
queryTimeoutUnits,
showValues,
true);
ResultSet resultSet = execute(sessionOps, uow, traceContext, queryExecutionTimeout, queryTimeoutUnits,
showValues, true);
// Transform the query result set into the desired shape.
result = transform(resultSet);
}
// If we have a result, it wasn't from cache, and we're caching things then we need to put this result
// If we have a result, it wasn't from cache, and we're caching things then we
// need to put this result
// into the cache for future requests to find.
if (enableCache && cacheResult == null && result.isPresent()) {
updateCache(uow, result.get(), getIdentifyingFacets(), statementKeys);
@ -121,8 +111,7 @@ public abstract class AbstractOptionalOperation<E, O extends AbstractOptionalOpe
}
public CompletableFuture<Optional<E>> async() {
return CompletableFuture.<Optional<E>>supplyAsync(
() -> {
return CompletableFuture.<Optional<E>>supplyAsync(() -> {
try {
return sync();
} catch (TimeoutException ex) {
@ -132,9 +121,9 @@ public abstract class AbstractOptionalOperation<E, O extends AbstractOptionalOpe
}
public CompletableFuture<Optional<E>> async(UnitOfWork<?> uow) {
if (uow == null) return async();
return CompletableFuture.<Optional<E>>supplyAsync(
() -> {
if (uow == null)
return async();
return CompletableFuture.<Optional<E>>supplyAsync(() -> {
try {
return sync();
} catch (TimeoutException ex) {

View file

@ -15,8 +15,15 @@
*/
package net.helenus.core.operation;
import brave.Tracer;
import brave.propagation.TraceContext;
import java.util.HashMap;
import java.util.Map;
import java.util.Optional;
import java.util.Set;
import java.util.concurrent.TimeUnit;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import com.datastax.driver.core.ConsistencyLevel;
import com.datastax.driver.core.PreparedStatement;
import com.datastax.driver.core.RegularStatement;
@ -27,24 +34,20 @@ 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 java.util.HashMap;
import java.util.Map;
import java.util.Optional;
import java.util.Set;
import java.util.concurrent.TimeUnit;
import brave.Tracer;
import brave.propagation.TraceContext;
import net.helenus.core.AbstractSessionOperations;
import net.helenus.core.UnitOfWork;
import net.helenus.core.cache.BoundFacet;
import net.helenus.core.cache.EntityIdentifyingFacet;
import net.helenus.core.cache.Facet;
import net.helenus.core.reflect.MapExportable;
import net.helenus.mapping.value.BeanColumnValueProvider;
import net.helenus.support.Either;
import net.helenus.support.HelenusException;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
public abstract class AbstractStatementOperation<E, O extends AbstractStatementOperation<E, O>>
extends Operation<E> {
public abstract class AbstractStatementOperation<E, O extends AbstractStatementOperation<E, O>> extends Operation<E> {
final Logger logger = LoggerFactory.getLogger(getClass());
protected boolean enableCache = true;
@ -279,7 +282,8 @@ public abstract class AbstractStatementOperation<E, O extends AbstractStatementO
public String cql() {
Statement statement = buildStatement(false);
if (statement == null) return "";
if (statement == null)
return "";
if (statement instanceof BuiltStatement) {
BuiltStatement buildStatement = (BuiltStatement) statement;
return buildStatement.setForceNoValues(true).getQueryString();
@ -316,7 +320,7 @@ public abstract class AbstractStatementOperation<E, O extends AbstractStatementO
throw new HelenusException("only RegularStatements can be prepared");
}
protected E checkCache(UnitOfWork<?> uow, Set<BoundFacet> facets, String[] statementKeys) {
protected E checkCache(UnitOfWork<?> uow, Set<Facet> facets, String[] statementKeys) {
E result = null;
Optional<Either<Object, Set<Object>>> optionalCachedResult = Optional.empty();
@ -334,7 +338,8 @@ public abstract class AbstractStatementOperation<E, O extends AbstractStatementO
}
if (result == null && statementKeys != null) {
// Then check to see if this query happens to uniquely identify a single object in thecache.
// Then check to see if this query happens to uniquely identify a single object
// in thecache.
optionalCachedResult = uow.cacheLookupByStatement(statementKeys);
if (optionalCachedResult.isPresent()) {
Either<Object, Set<Object>> eitherCachedResult = optionalCachedResult.get();
@ -362,35 +367,23 @@ public abstract class AbstractStatementOperation<E, O extends AbstractStatementO
return result;
}
protected void updateCache(
UnitOfWork<?> uow,
E pojo,
Map<String, EntityIdentifyingFacet> facetMap,
protected void updateCache(UnitOfWork<?> uow, E pojo, Map<String, EntityIdentifyingFacet> facetMap,
String[] statementKeys) {
// Insert this entity into the cache for each facet for this entity that we can fully bind.
// Insert this entity into the cache for each facet for this entity that we can
// fully bind.
Map<String, BoundFacet> boundFacets = new HashMap<String, BoundFacet>();
Map<String, Object> valueMap =
pojo instanceof MapExportable ? ((MapExportable) pojo).toMap() : null;
facetMap.forEach(
(facetName, facet) -> {
Map<String, Object> valueMap = pojo instanceof MapExportable ? ((MapExportable) pojo).toMap() : null;
facetMap.forEach((facetName, facet) -> {
if (!facet.isFullyBound()) {
EntityIdentifyingFacet.Binder binder = facet.binder();
facet
.getProperties()
.forEach(
prop -> {
facet.getProperties().forEach(prop -> {
if (valueMap == null) {
Object value =
BeanColumnValueProvider.INSTANCE.getColumnValue(pojo, -1, prop, false);
binder.setValueForProperty(
prop, prop.getColumnName().toCql() + "==" + value.toString());
Object value = BeanColumnValueProvider.INSTANCE.getColumnValue(pojo, -1, prop, false);
binder.setValueForProperty(prop, prop.getColumnName().toCql() + "==" + value.toString());
} else {
binder.setValueForProperty(
prop,
prop.getColumnName().toCql()
+ "=="
+ valueMap.get(prop.getPropertyName()).toString());
binder.setValueForProperty(prop,
prop.getColumnName().toCql() + "==" + valueMap.get(prop.getPropertyName()).toString());
}
});
boundFacets.put(facetName, binder.bind());

View file

@ -15,23 +15,26 @@
*/
package net.helenus.core.operation;
import java.util.Set;
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;
import com.google.common.base.Function;
import com.google.common.util.concurrent.Futures;
import com.google.common.util.concurrent.ListenableFuture;
import java.util.Set;
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.BoundFacet;
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);
@ -45,8 +48,7 @@ public abstract class AbstractStreamOperation<E, O extends AbstractStreamOperati
public ListenableFuture<PreparedStreamOperation<E>> prepareAsync() {
final O _this = (O) this;
return Futures.transform(
prepareStatementAsync(),
return Futures.transform(prepareStatementAsync(),
new Function<PreparedStatement, PreparedStreamOperation<E>>() {
@Override
public PreparedStreamOperation<E> apply(PreparedStatement preparedStatement) {
@ -58,15 +60,8 @@ public abstract class AbstractStreamOperation<E, O extends AbstractStreamOperati
public Stream<E> sync() throws TimeoutException {
final Timer.Context context = requestLatency.time();
try {
ResultSet resultSet =
this.execute(
sessionOps,
null,
traceContext,
queryExecutionTimeout,
queryTimeoutUnits,
showValues,
false);
ResultSet resultSet = this.execute(sessionOps, null, traceContext, queryExecutionTimeout, queryTimeoutUnits,
showValues, false);
return transform(resultSet);
} finally {
context.stop();
@ -74,7 +69,8 @@ public abstract class AbstractStreamOperation<E, O extends AbstractStreamOperati
}
public Stream<E> sync(UnitOfWork<?> uow) throws TimeoutException {
if (uow == null) return sync();
if (uow == null)
return sync();
final Timer.Context context = requestLatency.time();
try {
@ -83,7 +79,7 @@ public abstract class AbstractStreamOperation<E, O extends AbstractStreamOperati
String[] statementKeys = null;
if (enableCache) {
Set<BoundFacet> facets = bindFacetValues();
Set<Facet> facets = bindFacetValues();
statementKeys = getQueryKeys();
cachedResult = checkCache(uow, facets, statementKeys);
if (cachedResult != null) {
@ -92,19 +88,13 @@ public abstract class AbstractStreamOperation<E, O extends AbstractStreamOperati
}
if (result == null) {
ResultSet resultSet =
execute(
sessionOps,
uow,
traceContext,
queryExecutionTimeout,
queryTimeoutUnits,
showValues,
true);
ResultSet resultSet = execute(sessionOps, uow, traceContext, queryExecutionTimeout, queryTimeoutUnits,
showValues, true);
result = 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 we have a result and we're caching then we need to put it into the cache
// for future requests to find.
if (enableCache && cachedResult != null) {
updateCache(uow, cachedResult, getIdentifyingFacets(), statementKeys);
}
@ -116,8 +106,7 @@ public abstract class AbstractStreamOperation<E, O extends AbstractStreamOperati
}
public CompletableFuture<Stream<E>> async() {
return CompletableFuture.<Stream<E>>supplyAsync(
() -> {
return CompletableFuture.<Stream<E>>supplyAsync(() -> {
try {
return sync();
} catch (TimeoutException ex) {
@ -127,9 +116,9 @@ public abstract class AbstractStreamOperation<E, O extends AbstractStreamOperati
}
public CompletableFuture<Stream<E>> async(UnitOfWork<?> uow) {
if (uow == null) return async();
return CompletableFuture.<Stream<E>>supplyAsync(
() -> {
if (uow == null)
return async();
return CompletableFuture.<Stream<E>>supplyAsync(() -> {
try {
return sync();
} catch (TimeoutException ex) {

View file

@ -15,19 +15,18 @@
*/
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;
public BoundOptionalOperation(
BoundStatement boundStatement, AbstractOptionalOperation<E, ?> operation) {
public BoundOptionalOperation(BoundStatement boundStatement, AbstractOptionalOperation<E, ?> operation) {
super(operation.sessionOps);
this.boundStatement = boundStatement;
this.delegate = operation;

View file

@ -15,21 +15,21 @@
*/
package net.helenus.core.operation;
import java.util.Set;
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.Set;
import java.util.stream.Stream;
import net.helenus.core.cache.BoundFacet;
public final class BoundStreamOperation<E>
extends AbstractStreamOperation<E, BoundStreamOperation<E>> {
import net.helenus.core.cache.Facet;
public final class BoundStreamOperation<E> extends AbstractStreamOperation<E, BoundStreamOperation<E>> {
private final BoundStatement boundStatement;
private final AbstractStreamOperation<E, ?> delegate;
public BoundStreamOperation(
BoundStatement boundStatement, AbstractStreamOperation<E, ?> operation) {
public BoundStreamOperation(BoundStatement boundStatement, AbstractStreamOperation<E, ?> operation) {
super(operation.sessionOps);
this.boundStatement = boundStatement;
this.delegate = operation;
@ -41,7 +41,7 @@ public final class BoundStreamOperation<E>
}
@Override
public Set<BoundFacet> bindFacetValues() {
public Set<Facet> bindFacetValues() {
return delegate.bindFacetValues();
}

View file

@ -20,6 +20,7 @@ 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;
@ -73,11 +74,8 @@ public final class CountOperation extends AbstractFilterOperation<Long, CountOpe
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());
throw new HelenusMappingException("you can count columns only in single entity "
+ entity.getMappingInterface() + " or " + p.getEntity().getMappingInterface());
}
}
}

View file

@ -20,6 +20,7 @@ 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 net.helenus.core.AbstractSessionOperations;
import net.helenus.core.Filter;
import net.helenus.core.reflect.HelenusPropertyNode;
@ -117,11 +118,8 @@ public final class DeleteOperation extends AbstractFilterOperation<ResultSet, De
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());
throw new HelenusMappingException("you can delete rows only in single entity "
+ entity.getMappingInterface() + " or " + p.getEntity().getMappingInterface());
}
}
}

View file

@ -15,13 +15,15 @@
*/
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;
@ -41,8 +43,7 @@ public final class InsertOperation<T> extends AbstractOperation<T, InsertOperati
private HelenusEntity entity;
private final List<Fun.Tuple2<HelenusPropertyNode, Object>> values =
new ArrayList<Fun.Tuple2<HelenusPropertyNode, Object>>();
private final List<Fun.Tuple2<HelenusPropertyNode, Object>> values = new ArrayList<Fun.Tuple2<HelenusPropertyNode, Object>>();
private final T pojo;
private final Class<?> resultType;
private boolean ifNotExists;
@ -58,8 +59,7 @@ public final class InsertOperation<T> extends AbstractOperation<T, InsertOperati
this.resultType = ResultSet.class;
}
public InsertOperation(
AbstractSessionOperations sessionOperations, Class<?> resultType, boolean ifNotExists) {
public InsertOperation(AbstractSessionOperations sessionOperations, Class<?> resultType, boolean ifNotExists) {
super(sessionOperations);
this.ifNotExists = ifNotExists;
@ -67,12 +67,8 @@ public final class InsertOperation<T> extends AbstractOperation<T, InsertOperati
this.resultType = resultType;
}
public InsertOperation(
AbstractSessionOperations sessionOperations,
HelenusEntity entity,
T pojo,
Set<String> mutations,
boolean ifNotExists) {
public InsertOperation(AbstractSessionOperations sessionOperations, HelenusEntity entity, T pojo,
Set<String> mutations, boolean ifNotExists) {
super(sessionOperations);
this.entity = entity;
@ -138,7 +134,8 @@ public final class InsertOperation<T> extends AbstractOperation<T, InsertOperati
values.forEach(t -> addPropertyNode(t._1));
if (values.isEmpty()) return null;
if (values.isEmpty())
return null;
if (entity == null) {
throw new HelenusMappingException("unknown entity");
@ -150,8 +147,7 @@ public final class InsertOperation<T> extends AbstractOperation<T, InsertOperati
insert.ifNotExists();
}
values.forEach(
t -> {
values.forEach(t -> {
insert.value(t._1.getColumnName(), t._2);
});
@ -183,16 +179,17 @@ public final class InsertOperation<T> extends AbstractOperation<T, InsertOperati
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());
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 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));
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();
@ -211,7 +208,8 @@ public final class InsertOperation<T> extends AbstractOperation<T, InsertOperati
return (T) Helenus.map(iface, backingMap);
}
// Oddly, this insert didn't change any value so simply return the pojo.
// TODO(gburd): this pojo is the result of a Draft.build() call which will not preserve object identity (o1 == o2), ... fix me.
// TODO(gburd): this pojo is the result of a Draft.build() call which will not
// preserve object identity (o1 == o2), ... fix me.
return (T) pojo;
}
return (T) resultSet;
@ -233,25 +231,20 @@ public final class InsertOperation<T> extends AbstractOperation<T, InsertOperati
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());
throw new HelenusMappingException("you can insert only single entity " + entity.getMappingInterface()
+ " or " + p.getEntity().getMappingInterface());
}
}
@Override
public String[] getQueryKeys() {
List<String> keys = new ArrayList<>(values.size());
values.forEach(
t -> {
values.forEach(t -> {
HelenusPropertyNode prop = t._1;
switch (prop.getProperty().getColumnType()) {
case PARTITION_KEY :
case CLUSTERING_COLUMN :
keys.add(
entity.getName().toCql() + '.' + prop.getColumnName() + "==" + t._2.toString());
keys.add(entity.getName().toCql() + '.' + prop.getColumnName() + "==" + t._2.toString());
break;
default :
break;

View file

@ -15,23 +15,25 @@
*/
package net.helenus.core.operation;
import brave.Span;
import brave.Tracer;
import brave.propagation.TraceContext;
import java.util.Map;
import java.util.Set;
import java.util.concurrent.TimeUnit;
import java.util.concurrent.TimeoutException;
import com.codahale.metrics.Meter;
import com.codahale.metrics.MetricRegistry;
import com.codahale.metrics.Timer;
import com.datastax.driver.core.ResultSet;
import com.datastax.driver.core.ResultSetFuture;
import com.datastax.driver.core.Statement;
import java.util.Map;
import java.util.Set;
import java.util.concurrent.TimeUnit;
import java.util.concurrent.TimeoutException;
import brave.Span;
import brave.Tracer;
import brave.propagation.TraceContext;
import net.helenus.core.AbstractSessionOperations;
import net.helenus.core.UnitOfWork;
import net.helenus.core.cache.BoundFacet;
import net.helenus.core.cache.EntityIdentifyingFacet;
import net.helenus.core.cache.Facet;
public abstract class Operation<E> {
@ -48,17 +50,11 @@ public abstract class Operation<E> {
this.requestLatency = metrics.timer("net.helenus.request-latency");
}
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.
// 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) {
@ -99,7 +95,7 @@ public abstract class Operation<E> {
return null;
}
public Set<BoundFacet> bindFacetValues() {
public Set<Facet> bindFacetValues() {
return null;
}
}

View file

@ -23,8 +23,7 @@ public final class PreparedOptionalOperation<E> {
private final PreparedStatement preparedStatement;
private final AbstractOptionalOperation<E, ?> operation;
public PreparedOptionalOperation(
PreparedStatement statement, AbstractOptionalOperation<E, ?> operation) {
public PreparedOptionalOperation(PreparedStatement statement, AbstractOptionalOperation<E, ?> operation) {
this.preparedStatement = statement;
this.operation = operation;
}

View file

@ -23,8 +23,7 @@ public final class PreparedStreamOperation<E> {
private final PreparedStatement preparedStatement;
private final AbstractStreamOperation<E, ?> operation;
public PreparedStreamOperation(
PreparedStatement statement, AbstractStreamOperation<E, ?> operation) {
public PreparedStreamOperation(PreparedStatement statement, AbstractStreamOperation<E, ?> operation) {
this.preparedStatement = statement;
this.operation = operation;
}

View file

@ -15,17 +15,18 @@
*/
package net.helenus.core.operation;
import com.datastax.driver.core.ResultSet;
import com.datastax.driver.core.querybuilder.BuiltStatement;
import java.util.Map;
import java.util.Optional;
import java.util.Set;
import java.util.function.Function;
import net.helenus.core.cache.BoundFacet;
import net.helenus.core.cache.EntityIdentifyingFacet;
public final class SelectFirstOperation<E>
extends AbstractFilterOptionalOperation<E, SelectFirstOperation<E>> {
import com.datastax.driver.core.ResultSet;
import com.datastax.driver.core.querybuilder.BuiltStatement;
import net.helenus.core.cache.EntityIdentifyingFacet;
import net.helenus.core.cache.Facet;
public final class SelectFirstOperation<E> extends AbstractFilterOptionalOperation<E, SelectFirstOperation<E>> {
private final SelectOperation<E> delegate;
@ -57,7 +58,7 @@ public final class SelectFirstOperation<E>
}
@Override
public Set<BoundFacet> bindFacetValues() {
public Set<Facet> bindFacetValues() {
return delegate.bindFacetValues();
}

View file

@ -15,15 +15,18 @@
*/
package net.helenus.core.operation;
import com.datastax.driver.core.ResultSet;
import com.datastax.driver.core.querybuilder.BuiltStatement;
import java.util.Optional;
import java.util.Set;
import java.util.function.Function;
import net.helenus.core.cache.BoundFacet;
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;
@ -43,7 +46,7 @@ public final class SelectFirstTransformingOperation<R, E>
}
@Override
public Set<BoundFacet> bindFacetValues() {
public Set<Facet> bindFacetValues() {
return delegate.bindFacetValues();
}

View file

@ -15,6 +15,11 @@
*/
package net.helenus.core.operation;
import java.util.*;
import java.util.function.Function;
import java.util.stream.Stream;
import java.util.stream.StreamSupport;
import com.datastax.driver.core.ResultSet;
import com.datastax.driver.core.Row;
import com.datastax.driver.core.querybuilder.BuiltStatement;
@ -24,13 +29,10 @@ 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.BoundFacet;
import net.helenus.core.cache.EntityIdentifyingFacet;
import net.helenus.core.cache.Facet;
import net.helenus.core.reflect.HelenusPropertyNode;
import net.helenus.mapping.HelenusEntity;
import net.helenus.mapping.MappingUtil;
@ -42,9 +44,8 @@ import net.helenus.support.HelenusMappingException;
public final class SelectOperation<E> extends AbstractFilterStreamOperation<E, SelectOperation<E>> {
protected Function<Row, E> rowMapper = null;
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;
@ -54,8 +55,7 @@ public final class SelectOperation<E> extends AbstractFilterStreamOperation<E, S
public SelectOperation(AbstractSessionOperations sessionOperations) {
super(sessionOperations);
this.rowMapper =
new Function<Row, E>() {
this.rowMapper = new Function<Row, E>() {
@Override
public E apply(Row source) {
@ -78,31 +78,21 @@ public final class SelectOperation<E> extends AbstractFilterStreamOperation<E, S
super(sessionOperations);
entity
.getOrderedProperties()
.stream()
.map(p -> new HelenusPropertyNode(p, Optional.empty()))
entity.getOrderedProperties().stream().map(p -> new HelenusPropertyNode(p, Optional.empty()))
.forEach(p -> this.props.add(p));
}
public SelectOperation(
AbstractSessionOperations sessionOperations,
HelenusEntity entity,
public SelectOperation(AbstractSessionOperations sessionOperations, HelenusEntity entity,
Function<Row, E> rowMapper) {
super(sessionOperations);
this.rowMapper = rowMapper;
entity
.getOrderedProperties()
.stream()
.map(p -> new HelenusPropertyNode(p, Optional.empty()))
entity.getOrderedProperties().stream().map(p -> new HelenusPropertyNode(p, Optional.empty()))
.forEach(p -> this.props.add(p));
}
public SelectOperation(
AbstractSessionOperations sessionOperations,
Function<Row, E> rowMapper,
public SelectOperation(AbstractSessionOperations sessionOperations, Function<Row, E> rowMapper,
HelenusPropertyNode... props) {
super(sessionOperations);
@ -119,11 +109,8 @@ public final class SelectOperation<E> extends AbstractFilterStreamOperation<E, S
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());
throw new HelenusMappingException("you can count records only from a single entity "
+ entity.getMappingInterface() + " or " + prop.getEntity().getMappingInterface());
}
}
@ -135,10 +122,7 @@ public final class SelectOperation<E> extends AbstractFilterStreamOperation<E, S
HelenusEntity entity = Helenus.entity(materializedViewClass);
this.alternateTableName = entity.getName().toCql();
this.props.clear();
entity
.getOrderedProperties()
.stream()
.map(p -> new HelenusPropertyNode(p, Optional.empty()))
entity.getOrderedProperties().stream().map(p -> new HelenusPropertyNode(p, Optional.empty()))
.forEach(p -> this.props.add(p));
return this;
}
@ -156,9 +140,7 @@ public final class SelectOperation<E> extends AbstractFilterStreamOperation<E, S
this.rowMapper = null;
return new SelectTransformingOperation<R, E>(
this,
(r) -> {
return new SelectTransformingOperation<R, E>(this, (r) -> {
Map<String, Object> map = new ValueProviderMap(r, sessionOps.getValueProvider(), entity);
return (R) Helenus.map(entityClass, map);
});
@ -194,18 +176,6 @@ public final class SelectOperation<E> extends AbstractFilterStreamOperation<E, S
return this;
}
@Override
public String[] getQueryKeys() {
int i = 0;
String[] keys = new String[filters.size()];
HelenusEntity entity = props.get(0).getEntity();
String entityName = entity.getName().toCql();
for (Filter<?> filter : filters.values()) {
keys[i++] = entityName + '.' + filter.toString();
}
return keys;
}
@Override
public Map<String, EntityIdentifyingFacet> getIdentifyingFacets() {
HelenusEntity entity = props.get(0).getEntity();
@ -213,23 +183,19 @@ public final class SelectOperation<E> extends AbstractFilterStreamOperation<E, S
}
@Override
public Set<BoundFacet> bindFacetValues() {
public Set<Facet> bindFacetValues() {
HelenusEntity entity = props.get(0).getEntity();
Set<BoundFacet> boundFacets = new HashSet<BoundFacet>();
Set<Facet> boundFacets = new HashSet<Facet>();
// Check to see if this select statement has enough information to build one or
// more identifying facets.
entity
.getIdentifyingFacets()
.forEach(
(facetName, facet) -> {
entity.getIdentifyingFacets().forEach((facetName, facet) -> {
EntityIdentifyingFacet.Binder binder = facet.binder();
facet
.getProperties()
.forEach(
prop -> {
facet.getProperties().forEach(prop -> {
Filter filter = filters.get(prop);
if (filter != null) {
binder.setValueForProperty(prop, filter.toString());
} else if (facetName.equals("*")) {
binder.setValueForProperty(prop, "");
}
});
if (binder.isFullyBound()) {
@ -256,11 +222,8 @@ public final class SelectOperation<E> extends AbstractFilterStreamOperation<E, S
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());
throw new HelenusMappingException("you can select columns only from a single entity "
+ entity.getMappingInterface() + " or " + prop.getEntity().getMappingInterface());
}
if (cached) {
@ -308,8 +271,7 @@ public final class SelectOperation<E> extends AbstractFilterStreamOperation<E, S
}
if (ifFilters != null && !ifFilters.isEmpty()) {
logger.error(
"onlyIf conditions " + ifFilters + " would be ignored in the statement " + select);
logger.error("onlyIf conditions " + ifFilters + " would be ignored in the statement " + select);
}
if (allowFiltering) {
@ -323,14 +285,12 @@ public final class SelectOperation<E> extends AbstractFilterStreamOperation<E, S
@Override
public Stream<E> transform(ResultSet resultSet) {
if (rowMapper != null) {
return StreamSupport.stream(
Spliterators.spliteratorUnknownSize(resultSet.iterator(), Spliterator.ORDERED), false)
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);
return (Stream<E>) StreamSupport
.stream(Spliterators.spliteratorUnknownSize(resultSet.iterator(), Spliterator.ORDERED), false);
}
}

View file

@ -15,17 +15,20 @@
*/
package net.helenus.core.operation;
import com.datastax.driver.core.ResultSet;
import com.datastax.driver.core.querybuilder.BuiltStatement;
import java.util.Map;
import java.util.Set;
import java.util.function.Function;
import java.util.stream.Stream;
import net.helenus.core.cache.BoundFacet;
import com.datastax.driver.core.ResultSet;
import com.datastax.driver.core.querybuilder.BuiltStatement;
import net.helenus.core.cache.EntityIdentifyingFacet;
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;
@ -45,7 +48,7 @@ public final class SelectTransformingOperation<R, E>
}
@Override
public Set<BoundFacet> bindFacetValues() {
public Set<Facet> bindFacetValues() {
return delegate.bindFacetValues();
}

View file

@ -15,14 +15,16 @@
*/
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.Assignment;
import com.datastax.driver.core.querybuilder.BuiltStatement;
import com.datastax.driver.core.querybuilder.QueryBuilder;
import com.datastax.driver.core.querybuilder.Update;
import java.util.*;
import java.util.concurrent.TimeoutException;
import java.util.function.Function;
import net.helenus.core.*;
import net.helenus.core.reflect.HelenusPropertyNode;
import net.helenus.mapping.HelenusEntity;
@ -48,15 +50,13 @@ public final class UpdateOperation<E> extends AbstractFilterOperation<E, UpdateO
this.draftMap = null;
}
public UpdateOperation(
AbstractSessionOperations sessionOperations, AbstractEntityDraft<E> draft) {
public UpdateOperation(AbstractSessionOperations sessionOperations, AbstractEntityDraft<E> draft) {
super(sessionOperations);
this.draft = draft;
this.draftMap = draft.toMap();
}
public UpdateOperation(
AbstractSessionOperations sessionOperations, HelenusPropertyNode p, Object v) {
public UpdateOperation(AbstractSessionOperations sessionOperations, HelenusPropertyNode p, Object v) {
super(sessionOperations);
this.draft = null;
this.draftMap = null;
@ -298,8 +298,7 @@ public final class UpdateOperation<E> extends AbstractFilterOperation<E, UpdateO
Object valueObj = value;
Optional<Function<Object, Object>> converter =
prop.getWriteConverter(sessionOps.getSessionRepository());
Optional<Function<Object, Object>> converter = prop.getWriteConverter(sessionOps.getSessionRepository());
if (converter.isPresent()) {
List convertedList = (List) converter.get().apply(Immutables.listOf(value));
valueObj = convertedList.get(0);
@ -314,8 +313,7 @@ public final class UpdateOperation<E> extends AbstractFilterOperation<E, UpdateO
List valueObj = value;
Optional<Function<Object, Object>> converter =
prop.getWriteConverter(sessionOps.getSessionRepository());
Optional<Function<Object, Object>> converter = prop.getWriteConverter(sessionOps.getSessionRepository());
if (converter.isPresent()) {
valueObj = (List) converter.get().apply(value);
}
@ -420,8 +418,7 @@ public final class UpdateOperation<E> extends AbstractFilterOperation<E, UpdateO
HelenusProperty prop = p.getProperty();
Object valueObj = value;
Optional<Function<Object, Object>> converter =
prop.getWriteConverter(sessionOps.getSessionRepository());
Optional<Function<Object, Object>> converter = prop.getWriteConverter(sessionOps.getSessionRepository());
if (converter.isPresent()) {
Set convertedSet = (Set) converter.get().apply(Immutables.setOf(value));
valueObj = convertedSet.iterator().next();
@ -435,8 +432,7 @@ public final class UpdateOperation<E> extends AbstractFilterOperation<E, UpdateO
HelenusProperty prop = p.getProperty();
Set valueObj = value;
Optional<Function<Object, Object>> converter =
prop.getWriteConverter(sessionOps.getSessionRepository());
Optional<Function<Object, Object>> converter = prop.getWriteConverter(sessionOps.getSessionRepository());
if (converter.isPresent()) {
valueObj = (Set) converter.get().apply(value);
}
@ -460,11 +456,10 @@ public final class UpdateOperation<E> extends AbstractFilterOperation<E, UpdateO
HelenusPropertyNode p = MappingUtil.resolveMappingProperty(mapGetter);
HelenusProperty prop = p.getProperty();
Optional<Function<Object, Object>> converter =
prop.getWriteConverter(sessionOps.getSessionRepository());
Optional<Function<Object, Object>> converter = prop.getWriteConverter(sessionOps.getSessionRepository());
if (converter.isPresent()) {
Map<Object, Object> convertedMap =
(Map<Object, Object>) converter.get().apply(Immutables.mapOf(key, value));
Map<Object, Object> convertedMap = (Map<Object, Object>) converter.get()
.apply(Immutables.mapOf(key, value));
for (Map.Entry<Object, Object> e : convertedMap.entrySet()) {
assignments.add(QueryBuilder.put(p.getColumnName(), e.getKey(), e.getValue()));
}
@ -489,8 +484,7 @@ public final class UpdateOperation<E> extends AbstractFilterOperation<E, UpdateO
HelenusPropertyNode p = MappingUtil.resolveMappingProperty(mapGetter);
HelenusProperty prop = p.getProperty();
Optional<Function<Object, Object>> converter =
prop.getWriteConverter(sessionOps.getSessionRepository());
Optional<Function<Object, Object>> converter = prop.getWriteConverter(sessionOps.getSessionRepository());
if (converter.isPresent()) {
Map convertedMap = (Map) converter.get().apply(map);
assignments.add(QueryBuilder.putAll(p.getColumnName(), convertedMap));
@ -570,11 +564,8 @@ public final class UpdateOperation<E> extends AbstractFilterOperation<E, UpdateO
if (entity == null) {
entity = p.getEntity();
} else if (entity != p.getEntity()) {
throw new HelenusMappingException(
"you can update columns only in single entity "
+ entity.getMappingInterface()
+ " or "
+ p.getEntity().getMappingInterface());
throw new HelenusMappingException("you can update columns only in single entity "
+ entity.getMappingInterface() + " or " + p.getEntity().getMappingInterface());
}
}
@ -584,7 +575,8 @@ public final class UpdateOperation<E> extends AbstractFilterOperation<E, UpdateO
return sync();
}
E result = super.sync(uow);
// TODO(gburd): Only drafted entity objects are updated in the cache at this time.
// TODO(gburd): Only drafted entity objects are updated in the cache at this
// time.
if (draft != null) {
updateCache(uow, result, getIdentifyingFacets(), getQueryKeys());
}

View file

@ -19,20 +19,13 @@ 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 final Class<?> primitiveClass;
private final Object defaultValue;
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()) {

View file

@ -16,6 +16,7 @@
package net.helenus.core.reflect;
import com.datastax.driver.core.Metadata;
import net.helenus.mapping.HelenusEntity;
public interface DslExportable {

View file

@ -15,13 +15,15 @@
*/
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;
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;
@ -47,10 +49,7 @@ public class DslInvocationHandler<E> implements InvocationHandler {
private final Map<Method, Object> udtMap = new HashMap<Method, Object>();
private final Map<Method, Object> tupleMap = new HashMap<Method, Object>();
public DslInvocationHandler(
Class<E> iface,
ClassLoader classLoader,
Optional<HelenusPropertyNode> parent,
public DslInvocationHandler(Class<E> iface, ClassLoader classLoader, Optional<HelenusPropertyNode> parent,
Metadata metadata) {
this.metadata = metadata;
@ -78,11 +77,7 @@ public class DslInvocationHandler<E> implements InvocationHandler {
if (type instanceof UDTDataType && !UDTValue.class.isAssignableFrom(javaType)) {
Object childDsl =
Helenus.dsl(
javaType,
classLoader,
Optional.of(new HelenusPropertyNode(prop, parent)),
Object childDsl = Helenus.dsl(javaType, classLoader, Optional.of(new HelenusPropertyNode(prop, parent)),
metadata);
udtMap.put(prop.getGetterMethod(), childDsl);
@ -91,15 +86,10 @@ public class DslInvocationHandler<E> implements InvocationHandler {
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);
}
@ -126,9 +116,7 @@ public class DslInvocationHandler<E> implements InvocationHandler {
return false;
}
if (DslExportable.SET_METADATA_METHOD.equals(methodName)
&& args.length == 1
&& args[0] instanceof Metadata) {
if (DslExportable.SET_METADATA_METHOD.equals(methodName) && args.length == 1 && args[0] instanceof Metadata) {
if (metadata == null) {
this.setCassandraMetadataForHelenusSession((Metadata) args[0]);
}

View file

@ -19,7 +19,9 @@ 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;

View file

@ -17,6 +17,7 @@ package net.helenus.core.reflect;
import java.util.*;
import java.util.stream.Collectors;
import net.helenus.mapping.HelenusEntity;
import net.helenus.mapping.HelenusProperty;

View file

@ -16,6 +16,7 @@
package net.helenus.core.reflect;
import java.util.*;
import net.helenus.mapping.HelenusProperty;
import net.helenus.support.DslPropertyException;
import net.helenus.support.HelenusMappingException;

View file

@ -19,6 +19,7 @@ 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;

View file

@ -23,6 +23,7 @@ import java.lang.reflect.Method;
import java.lang.reflect.Proxy;
import java.util.Collections;
import java.util.Map;
import net.helenus.core.Helenus;
import net.helenus.mapping.annotation.Transient;
import net.helenus.support.HelenusException;
@ -39,23 +40,22 @@ public class MapperInvocationHandler<E> implements InvocationHandler, Serializab
}
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.
// 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<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.
// 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);
Object result = constructor.newInstance(declaringClass, MethodHandles.Lookup.PRIVATE)
.unreflectSpecial(method, declaringClass).bindTo(proxy).invokeWithArguments(args);
return result;
}
@ -111,13 +111,15 @@ public class MapperInvocationHandler<E> implements InvocationHandler, Serializab
if (value == null) {
// Default implementations of non-Transient methods in entities are the default value when the
// 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);
}
// Otherwise, if the return type of the method is a primitive Java type then we'll return the standard
// 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);

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@ -15,9 +15,11 @@
*/
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 {
@ -25,15 +27,10 @@ public enum ReflectionDslInstantiator implements DslInstantiator {
@Override
@SuppressWarnings("unchecked")
public <E> E instantiate(
Class<E> iface,
ClassLoader classLoader,
Optional<HelenusPropertyNode> parent,
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);
DslInvocationHandler<E> handler = new DslInvocationHandler<E>(iface, classLoader, parent, metadata);
E proxy = (E) Proxy.newProxyInstance(classLoader, new Class[]{iface, DslExportable.class}, handler);
return proxy;
}
}

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@ -19,7 +19,8 @@ import net.helenus.support.HelenusMappingException;
public final class ReflectionInstantiator {
private ReflectionInstantiator() {}
private ReflectionInstantiator() {
}
public static <T> T instantiateClass(Class<T> clazz) {

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@ -17,6 +17,7 @@ package net.helenus.core.reflect;
import java.lang.reflect.Proxy;
import java.util.Map;
import net.helenus.core.MapperInstantiator;
public enum ReflectionMapperInstantiator implements MapperInstantiator {
@ -27,8 +28,7 @@ public enum ReflectionMapperInstantiator implements MapperInstantiator {
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}, handler);
E proxy = (E) Proxy.newProxyInstance(classLoader, new Class[]{iface, MapExportable.class}, handler);
return proxy;
}
}

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@ -18,6 +18,7 @@ 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> {

View file

@ -16,6 +16,7 @@
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;
@ -102,21 +103,13 @@ public final class ColumnInformation {
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);
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
+ "]";
return "ColumnInformation [columnName=" + columnName + ", columnType=" + columnType + ", ordinal=" + ordinal
+ ", ordering=" + ordering + "]";
}
}

View file

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

View file

@ -17,6 +17,7 @@ package net.helenus.mapping;
import java.util.Collection;
import java.util.Map;
import net.helenus.core.cache.EntityIdentifyingFacet;
public interface HelenusEntity {

View file

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

View file

@ -15,18 +15,22 @@
*/
package net.helenus.mapping;
import com.datastax.driver.core.*;
import com.google.common.collect.ImmutableList;
import com.google.common.collect.ImmutableMap;
import java.lang.reflect.Method;
import java.util.*;
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 net.helenus.config.HelenusSettings;
import net.helenus.core.Helenus;
import net.helenus.core.annotation.Cacheable;
import net.helenus.core.cache.EntityIdentifyingFacet;
import net.helenus.mapping.annotation.*;
import net.helenus.support.HelenusMappingException;
import org.apache.commons.lang3.ClassUtils;
public final class HelenusMappingEntity implements HelenusEntity {
@ -63,8 +67,7 @@ public final class HelenusMappingEntity implements HelenusEntity {
}
for (Class<?> c : ClassUtils.getAllInterfaces(iface)) {
if (c.getDeclaredAnnotation(Table.class) != null
|| c.getDeclaredAnnotation(InheritedTable.class) != null) {
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) {
@ -110,8 +113,7 @@ public final class HelenusMappingEntity implements HelenusEntity {
cacheable = (null != iface.getDeclaredAnnotation(Cacheable.class));
ImmutableMap.Builder<String, EntityIdentifyingFacet> allFacetsBuilder = ImmutableMap.builder();
ImmutableMap.Builder<String, EntityIdentifyingFacet> ancillaryFacetsBuilder =
ImmutableMap.builder();
ImmutableMap.Builder<String, EntityIdentifyingFacet> ancillaryFacetsBuilder = ImmutableMap.builder();
EntityIdentifyingFacet primaryFacet = null;
List<HelenusProperty> primaryProperties = new ArrayList<HelenusProperty>(4);
for (HelenusProperty prop : propsLocal) {
@ -122,8 +124,7 @@ public final class HelenusMappingEntity implements HelenusEntity {
break;
default :
if (primaryProperties != null) {
primaryFacet =
new EntityIdentifyingFacet(new HashSet<HelenusProperty>(primaryProperties));
primaryFacet = new EntityIdentifyingFacet(new HashSet<HelenusProperty>(primaryProperties));
allFacetsBuilder.put("*", primaryFacet);
primaryProperties = null;
}
@ -213,8 +214,7 @@ public final class HelenusMappingEntity implements HelenusEntity {
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);
}
private void validateOrdinals() {
@ -248,9 +248,7 @@ public final class HelenusMappingEntity implements HelenusEntity {
case PARTITION_KEY :
if (partitionKeys.get(ordinal)) {
throw new HelenusMappingException(
"detected two or more partition key columns with the same ordinal "
+ ordinal
+ " in "
"detected two or more partition key columns with the same ordinal " + ordinal + " in "
+ prop.getEntity());
}
partitionKeys.set(ordinal);
@ -258,11 +256,8 @@ public final class HelenusMappingEntity implements HelenusEntity {
case CLUSTERING_COLUMN :
if (clusteringColumns.get(ordinal)) {
throw new HelenusMappingException(
"detected two or clustering columns with the same ordinal "
+ ordinal
+ " in "
+ prop.getEntity());
throw new HelenusMappingException("detected two or clustering columns with the same ordinal "
+ ordinal + " in " + prop.getEntity());
}
clusteringColumns.set(ordinal);
break;
@ -276,27 +271,17 @@ public final class HelenusMappingEntity implements HelenusEntity {
private void validateOrdinalsInTuple() {
boolean[] ordinals = new boolean[props.size()];
getOrderedProperties()
.forEach(
p -> {
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());
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());
"detected two or more properties with the same ordinal " + ordinal + " in " + p.getEntity());
}
ordinals[ordinal] = true;
@ -313,12 +298,8 @@ public final class HelenusMappingEntity implements HelenusEntity {
public String toString() {
StringBuilder str = new StringBuilder();
str.append(iface.getSimpleName())
.append("(")
.append(name.getName())
.append(") ")
.append(type.name().toLowerCase())
.append(":\n");
str.append(iface.getSimpleName()).append("(").append(name.getName()).append(") ")
.append(type.name().toLowerCase()).append(":\n");
for (HelenusProperty prop : getOrderedProperties()) {
str.append(prop.toString());

View file

@ -15,13 +15,16 @@
*/
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;
@ -62,9 +65,8 @@ public final class HelenusMappingProperty implements HelenusProperty {
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);
}

View file

@ -19,7 +19,9 @@ 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;

View file

@ -20,8 +20,10 @@ 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.*;
@ -32,10 +34,10 @@ import net.helenus.support.HelenusMappingException;
public final class MappingUtil {
@SuppressWarnings("unchecked")
public static final ConstraintValidator<? extends Annotation, ?>[] EMPTY_VALIDATORS =
new ConstraintValidator[0];
public static final ConstraintValidator<? extends Annotation, ?>[] EMPTY_VALIDATORS = new ConstraintValidator[0];
private MappingUtil() {}
private MappingUtil() {
}
public static ConstraintValidator<? extends Annotation, ?>[] getValidators(Method getterMethod) {
@ -60,8 +62,8 @@ public final class MappingUtil {
}
}
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();
@ -73,8 +75,8 @@ public final class MappingUtil {
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);
@ -106,9 +108,7 @@ public final class MappingUtil {
}
}
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) {

View file

@ -22,8 +22,7 @@ public enum TypeAndOrdinalColumnComparator implements Comparator<HelenusProperty
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());

View file

@ -19,34 +19,44 @@ 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})
@ -60,35 +70,40 @@ public @interface ClusteringColumn {
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.
* 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
* <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.
* 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
* <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.
* 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.
* <p>
* Default value is false, we are quoting only selected names.
*
* @return true if name have to be quoted
*/

View file

@ -18,15 +18,18 @@ 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)
@ -43,18 +46,21 @@ public @interface Column {
/**
* 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.
* <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.
* 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.
* <p>
* Default value is false, we are quoting only selected names.
*
* @return true if name have to be quoted
*/

View file

@ -16,83 +16,106 @@
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>
* Applicable to use in any @java.lang.Object
*
* <p>It does not check on selects and data retrieval operations
* <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 {}
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>
* 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>
* Can be used for @java.lang.CharSequence, @ByteBuffer and any array
*
* <p>It does not check on selects and data retrieval operations
* <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 {}
public @interface NotEmpty {
}
/**
* Email annotation is using to check that value has a valid email before storing it
* Email annotation is using to check that value has a valid email before
* storing it
*
* <p>Can be used only for @CharSequence
* <p>
* Can be used only for @CharSequence
*
* <p>It does not check on selects and data retrieval operations
* <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 {}
public @interface Email {
}
/**
* Number annotation is using to check that all letters in value are digits before storing it
* 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>
* Can be used only for @java.lang.CharSequence
*
* <p>It does not check on selects and data retrieval operations
* <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 {}
public @interface Number {
}
/**
* Alphabet annotation is using to check that all letters in value are in specific alphabet before
* storing it
* 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>
* Can be used only for @java.lang.CharSequence
*
* <p>It does not check on selects and data retrieval operations
* <p>
* It does not check on selects and data retrieval operations
*/
@Documented
@Retention(RetentionPolicy.RUNTIME)
@ -109,11 +132,14 @@ public final class Constraints {
}
/**
* Length annotation is using to ensure that value has exact length before storing it
* 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>
* Can be used for @java.lang.CharSequence, @ByteBuffer and any array
*
* <p>It does not have effect on selects and data retrieval operations
* <p>
* It does not have effect on selects and data retrieval operations
*/
@Documented
@Retention(RetentionPolicy.RUNTIME)
@ -125,12 +151,14 @@ public final class Constraints {
}
/**
* MaxLength annotation is using to ensure that value has length less or equal to some threshold
* before storing it
* 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>
* Can be used for @java.lang.CharSequence, @ByteBuffer and byte[]
*
* <p>It does not have effect on selects and data retrieval operations
* <p>
* It does not have effect on selects and data retrieval operations
*/
@Documented
@Retention(RetentionPolicy.RUNTIME)
@ -142,12 +170,14 @@ public final class Constraints {
}
/**
* MinLength annotation is using to ensure that value has length greater or equal to some
* threshold before storing it
* 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>
* Can be used for @java.lang.CharSequence, @ByteBuffer and byte[]
*
* <p>It does not have effect on selects and data retrieval operations
* <p>
* It does not have effect on selects and data retrieval operations
*/
@Documented
@Retention(RetentionPolicy.RUNTIME)
@ -159,38 +189,48 @@ public final class Constraints {
}
/**
* LowerCase annotation is using to ensure that value is in lower case before storing it
* 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>
* Can be used only for @java.lang.CharSequence
*
* <p>It does not have effect on selects and data retrieval operations
* <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 {}
public @interface LowerCase {
}
/**
* UpperCase annotation is using to ensure that value is in upper case before storing it
* 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>
* Can be used only for @java.lang.CharSequence
*
* <p>It does not have effect on selects and data retrieval operations
* <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 {}
public @interface UpperCase {
}
/**
* Pattern annotation is LowerCase annotation is using to ensure that value is upper case before
* storing it
* 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>
* Can be used only for @java.lang.CharSequence
*
* <p>It does not have effect on selects and data retrieval operations
* <p>
* It does not have effect on selects and data retrieval operations
*/
@Documented
@Retention(RetentionPolicy.RUNTIME)

View file

@ -3,17 +3,20 @@ package net.helenus.mapping.annotation;
import java.lang.annotation.*;
/**
* CoveringIndex annotation is using under the specific column or method in entity interface
* with @Table annotation.
* CoveringIndex annotation is using under the specific column or method in
* entity interface with @Table annotation.
*
* <p>A corresponding materialized view will be created based on the underline @Table for the
* specific column.
* <p>
* A corresponding materialized view will be created based on the
* underline @Table for the specific column.
*
* <p>This is useful when you need to perform IN or SORT/ORDER-BY queries and to do so you'll need
* different materialized table on disk in Cassandra.
* <p>
* This is useful when you need to perform IN or SORT/ORDER-BY queries and to do
* so you'll need different materialized table on disk in Cassandra.
*
* <p>For each @Table annotated interface Helenus will create/update/verify Cassandra Materialized
* Views and some indexes if needed on startup.
* <p>
* For each @Table annotated interface Helenus will create/update/verify
* Cassandra Materialized Views and some indexes if needed on startup.
*/
@Inherited
@Retention(RetentionPolicy.RUNTIME)
@ -21,7 +24,8 @@ import java.lang.annotation.*;
public @interface CoveringIndex {
/**
* Defined the name of the index. By default the entity name with column name as suffix.
* Defined the name of the index. By default the entity name with column name as
* suffix.
*
* @return name of the covering index
*/

View file

@ -18,18 +18,22 @@ package net.helenus.mapping.annotation;
import java.lang.annotation.*;
/**
* Index annotation is using under the specific column or method in entity interface with @Table
* annotation.
* Index annotation is using under the specific column or method in entity
* interface with @Table annotation.
*
* <p>The corresponding secondary index will be created in the underline @Table for the specific
* column.
* <p>
* The corresponding secondary index will be created in the underline @Table for
* the specific column.
*
* <p>Currently Cassandra supports only single column index, so this index works only for single
* column.
* <p>
* Currently Cassandra supports only single column index, so this index works
* only for single column.
*
* <p>Make sure that you are using low cardinality columns for this index, that is the requirement
* of the Cassandra. Low cardinality fields examples: gender, country, age, status and etc High
* cardinality fields examples: id, email, timestamp, UUID and etc
* <p>
* Make sure that you are using low cardinality columns for this index, that is
* the requirement of the Cassandra. Low cardinality fields examples: gender,
* country, age, status and etc High cardinality fields examples: id, email,
* timestamp, UUID and etc
*/
@Documented
@Retention(RetentionPolicy.RUNTIME)
@ -44,17 +48,19 @@ public @interface Index {
String value() default "";
/**
* 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.
* 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.
* <p>
* Default value is false, we are quoting only selected names.
*
* @return true if name have to be quoted
*/
boolean forceQuote() default false;
/**
* Create a case-insensitive index using Cassandra 3.x+ support for SASI indexing.
* Create a case-insensitive index using Cassandra 3.x+ support for SASI
* indexing.
*
* @return true if the index should ignore case when comparing
*/

View file

@ -20,7 +20,9 @@ import java.lang.annotation.*;
/**
* Inherited Entity annotation
*
* <p>Inherited Table annotation is used to indicate that the methods should also be mapped
* <p>
* Inherited Table annotation is used to indicate that the methods should also
* be mapped
*/
@Inherited
@Retention(RetentionPolicy.RUNTIME)

View file

@ -20,13 +20,17 @@ import java.lang.annotation.*;
/**
* Materialized alternate view of another Entity annotation
*
* <p>MaterializedView annotation is used to define different mapping to some other Table interface
* <p>
* MaterializedView annotation is used to define different mapping to some other
* Table interface
*
* <p>This is useful when you need to perform IN or SORT/ORDER-BY queries and to do so you'll need
* different materialized table on disk in Cassandra.
* <p>
* This is useful when you need to perform IN or SORT/ORDER-BY queries and to do
* so you'll need different materialized table on disk in Cassandra.
*
* <p>For each @Table annotated interface Helenus will create/update/verify Cassandra Materialized
* Views and some indexes if needed on startup.
* <p>
* For each @Table annotated interface Helenus will create/update/verify
* Cassandra Materialized Views and some indexes if needed on startup.
*/
@Inherited
@Retention(RetentionPolicy.RUNTIME)
@ -41,10 +45,11 @@ public @interface MaterializedView {
String value() default "";
/**
* For reserved words in Cassandra we need quotation in CQL queries. This property marks that the
* name of the type needs to be quoted.
* For reserved words in Cassandra we need quotation in CQL queries. This
* property marks that the name of the type needs to be quoted.
*
* <p>Default value is false, we are quoting only selected names.
* <p>
* Default value is false, we are quoting only selected names.
*
* @return true if name have to be quoted
*/

View file

@ -21,16 +21,20 @@ import java.lang.annotation.RetentionPolicy;
import java.lang.annotation.Target;
/**
* PartitionKey annotation is using to define that particular column is the part of partition key in
* the table.
* PartitionKey annotation is using to define that particular column is the part
* of partition key in the table.
*
* <p>Partition Key is the routing key. Cassandra is using it to find the primary data node in the
* cluster that holds data. Cassandra combines all parts of the partition key to byte array and then
* calculates hash function by using good distribution algorithm (by default MurMur3). After that it
* uses hash number as a token in the ring to find a virtual and then a physical data server.
* <p>
* Partition Key is the routing key. Cassandra is using it to find the primary
* data node in the cluster that holds data. Cassandra combines all parts of the
* partition key to byte array and then calculates hash function by using good
* distribution algorithm (by default MurMur3). After that it uses hash number
* as a token in the ring to find a virtual and then a physical data server.
*
* <p>For @Table mapping entity it is required to have as minimum one PartitionKey column. For @UDT
* and @Tuple mapping entities @PartitionKey annotation is not using.
* <p>
* For @Table mapping entity it is required to have as minimum one PartitionKey
* column. For @UDT and @Tuple mapping entities @PartitionKey annotation is not
* using.
*/
@Retention(value = RetentionPolicy.RUNTIME)
@Target(value = {ElementType.METHOD, ElementType.ANNOTATION_TYPE})
@ -44,23 +48,26 @@ public @interface PartitionKey {
String value() default "";
/**
* PartitionKey parts must be ordered in the @Table. It is the requirement of Cassandra. That is
* how the partition key calculation works, column parts will be joined based on some order and
* final hash/token will be calculated.
* PartitionKey parts must be ordered in the @Table. It is the requirement of
* Cassandra. That is how the partition key calculation works, column parts will
* be joined based on some order and final hash/token will be calculated.
*
* <p>Be default ordinal has 0 value, that's because in most cases @Table have single column
* for @PartitionKey If you have 2 and more parts of the PartitionKey, then you need to use
* ordinal() to define the sequence of the parts
* <p>
* Be default ordinal has 0 value, that's because in most cases @Table have
* single column for @PartitionKey If you have 2 and more parts of the
* PartitionKey, then you need to use ordinal() to define the sequence of the
* parts
*
* @return number that used to sort columns in PartitionKey
*/
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.
* 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.
* <p>
* Default value is false, we are quoting only selected names.
*
* @return true if name have to be quoted
*/

View file

@ -23,12 +23,14 @@ import java.lang.annotation.Target;
/**
* StaticColumn annotation is using to define a static column in Cassandra Table
*
* <p>It does not have effect in @UDT and @Tuple types and in @Table-s that does not
* have @ClusteringColumn-s
* <p>
* It does not have effect in @UDT and @Tuple types and in @Table-s that does
* not have @ClusteringColumn-s
*
* <p>In case of using @ClusteringColumn we can repeat some information that is unique for a row.
* For this purpose we can define @StaticColumn annotation, that will create static column in the
* table
* <p>
* In case of using @ClusteringColumn we can repeat some information that is
* unique for a row. For this purpose we can define @StaticColumn annotation,
* that will create static column in the table
*/
@Retention(value = RetentionPolicy.RUNTIME)
@Target(value = {ElementType.METHOD, ElementType.ANNOTATION_TYPE})
@ -49,10 +51,11 @@ public @interface StaticColumn {
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.
* 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.
* <p>
* Default value is false, we are quoting only selected names.
*
* @return true if name have to be quoted
*/

View file

@ -20,12 +20,15 @@ import java.lang.annotation.*;
/**
* Entity annotation
*
* <p>Table annotation is used to define Table mapping to some interface
* <p>
* Table annotation is used to define Table mapping to some interface
*
* <p>There are three types of Entity mapping annotations: @Table, @UDT, @Tuple
* <p>
* There are three types of Entity mapping annotations: @Table, @UDT, @Tuple
*
* <p>For each @Table annotated interface Helenus will create/update/verify Cassandra Table and some
* indexes if needed on startup.
* <p>
* For each @Table annotated interface Helenus will create/update/verify
* Cassandra Table and some indexes if needed on startup.
*/
@Inherited
@Retention(RetentionPolicy.RUNTIME)
@ -40,10 +43,11 @@ public @interface Table {
String value() default "";
/**
* 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.
* 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.
* <p>
* Default value is false, we are quoting only selected names.
*
* @return true if name have to be quoted
*/

View file

@ -17,8 +17,12 @@ package net.helenus.mapping.annotation;
import java.lang.annotation.*;
/** Transient annotation is used to mark properties that are need not be mapped to the database. */
/**
* Transient annotation is used to mark properties that are need not be mapped
* to the database.
*/
@Documented
@Retention(RetentionPolicy.RUNTIME)
@Target(value = {ElementType.METHOD, ElementType.ANNOTATION_TYPE})
public @interface Transient {}
public @interface Transient {
}

View file

@ -20,15 +20,19 @@ import java.lang.annotation.*;
/**
* Entity annotation
*
* <p>Tuple annotation is used to define Tuple type mapping to some interface
* <p>
* Tuple annotation is used to define Tuple type mapping to some interface
*
* <p>There are three types of Entity mapping annotations: @Table, @UDT, @Tuple
* <p>
* There are three types of Entity mapping annotations: @Table, @UDT, @Tuple
*
* <p>Tuple is fully embedded type, it is the sequence of the underline types and the order of the
* sub-types is important, therefore all @Column-s must have ordinal() and only @Column annotation
* supported for underline types
* <p>
* Tuple is fully embedded type, it is the sequence of the underline types and
* the order of the sub-types is important, therefore all @Column-s must have
* ordinal() and only @Column annotation supported for underline types
*/
@Inherited
@Retention(RetentionPolicy.RUNTIME)
@Target({ElementType.TYPE})
public @interface Tuple {}
public @interface Tuple {
}

View file

@ -15,62 +15,79 @@
*/
package net.helenus.mapping.annotation;
import com.datastax.driver.core.DataType;
import java.lang.annotation.*;
import com.datastax.driver.core.DataType;
/**
* Types annotations are using for clarification of Cassandra data type for particular Java type.
* Types annotations are using for clarification of Cassandra data type for
* particular Java type.
*
* <p>Sometimes it is possible to have for single Java type multiple Cassandra data types: - @String
* can be @DataType.Name.ASCII or @DataType.Name.TEXT or @DataType.Name.VARCHAR - @Long can
* be @DataType.Name.BIGINT or @DataType.Name.COUNTER
* <p>
* Sometimes it is possible to have for single Java type multiple Cassandra data
* types: - @String can be @DataType.Name.ASCII or @DataType.Name.TEXT
* or @DataType.Name.VARCHAR - @Long can be @DataType.Name.BIGINT
* or @DataType.Name.COUNTER
*
* <p>All those type annotations simplify mapping between Java types and Cassandra data types. They
* are not required, for each Java type there is a default Cassandra data type in Helenus, but in
* some cases you would like to control mapping to make sure that the right Cassandra data type is
* using.
* <p>
* All those type annotations simplify mapping between Java types and Cassandra
* data types. They are not required, for each Java type there is a default
* Cassandra data type in Helenus, but in some cases you would like to control
* mapping to make sure that the right Cassandra data type is using.
*
* <p>For complex types like collections, UDF and Tuple types all those annotations are using to
* clarify the sub-type(s) or class/UDF names.
* <p>
* For complex types like collections, UDF and Tuple types all those annotations
* are using to clarify the sub-type(s) or class/UDF names.
*
* <p>Has significant effect on schema operations.
* <p>
* Has significant effect on schema operations.
*/
public final class Types {
private Types() {}
private Types() {
}
/** Says to use @DataType.Name.ASCII data type in schema Java type is @String */
@Documented
@Retention(RetentionPolicy.RUNTIME)
@Target(value = {ElementType.METHOD, ElementType.ANNOTATION_TYPE})
public @interface Ascii {}
public @interface Ascii {
}
/** Says to use @DataType.Name.BIGINT data type in schema Java type is @Long */
@Documented
@Retention(RetentionPolicy.RUNTIME)
@Target(value = {ElementType.METHOD, ElementType.ANNOTATION_TYPE})
public @interface Bigint {}
public @interface Bigint {
}
/**
* Says to use @DataType.Name.BLOB data type in schema Java type is @ByteBuffer or @byte[] Using
* by default
* Says to use @DataType.Name.BLOB data type in schema Java type is @ByteBuffer
* or @byte[] Using by default
*/
@Documented
@Retention(RetentionPolicy.RUNTIME)
@Target(value = {ElementType.METHOD, ElementType.ANNOTATION_TYPE})
public @interface Blob {}
public @interface Blob {
}
/**
* Says to use @DataType.Name.LIST data type in schema with specific sub-type Java type is @List
* Says to use @DataType.Name.LIST data type in schema with specific sub-type
* Java type is @List
*
* <p>Helenus does not allow to use a specific implementation of the collection thereof data
* retrieval operation result can be a collection with another implementation.
* <p>
* Helenus does not allow to use a specific implementation of the collection
* thereof data retrieval operation result can be a collection with another
* implementation.
*
* <p>This annotation is usually used only for sub-types clarification and only in case if
* sub-type is Java type that corresponds to multiple Cassandra data types.
* <p>
* This annotation is usually used only for sub-types clarification and only in
* case if sub-type is Java type that corresponds to multiple Cassandra data
* types.
*
* <p>For this type there are special operations: prepend, prependAll, setIdx, append, appendAll,
* discard and discardAll in @UpdateOperation
* <p>
* For this type there are special operations: prepend, prependAll, setIdx,
* append, appendAll, discard and discardAll in @UpdateOperation
*/
@Documented
@Retention(RetentionPolicy.RUNTIME)
@ -78,10 +95,11 @@ public final class Types {
public @interface List {
/**
* Clarification of using the sub-type data type in the collection. It supports only simple data
* type (not Collection, UDT or Tuple)
* Clarification of using the sub-type data type in the collection. It supports
* only simple data type (not Collection, UDT or Tuple)
*
* <p>In case if you need UDT sub-type in the list, consider @UDTList annotation
* <p>
* In case if you need UDT sub-type in the list, consider @UDTList annotation
*
* @return data type name of the value
*/
@ -89,15 +107,22 @@ public final class Types {
}
/**
* Says to use @DataType.Name.MAP data type in schema with specific sub-types Java type is @Map
* Says to use @DataType.Name.MAP data type in schema with specific sub-types
* Java type is @Map
*
* <p>Helenus does not allow to use a specific implementation of the collection thereof data
* retrieval operation result can be a collection with another implementation.
* <p>
* Helenus does not allow to use a specific implementation of the collection
* thereof data retrieval operation result can be a collection with another
* implementation.
*
* <p>This annotation is usually used only for sub-types clarification and only in case if
* sub-type is Java type that corresponds to multiple Cassandra data types.
* <p>
* This annotation is usually used only for sub-types clarification and only in
* case if sub-type is Java type that corresponds to multiple Cassandra data
* types.
*
* <p>For this type there are special operations: put and putAll in @UpdateOperation.
* <p>
* For this type there are special operations: put and putAll
* in @UpdateOperation.
*/
@Documented
@Retention(RetentionPolicy.RUNTIME)
@ -105,22 +130,24 @@ public final class Types {
public @interface Map {
/**
* Clarification of using the sub-type data type in the collection. It supports only simple data
* type (not Collection, UDT or Tuple)
* Clarification of using the sub-type data type in the collection. It supports
* only simple data type (not Collection, UDT or Tuple)
*
* <p>In case if you need UDT key sub-type in the map, consider @UDTKeyMap or @UDTMap
* annotations
* <p>
* In case if you need UDT key sub-type in the map, consider @UDTKeyMap
* or @UDTMap annotations
*
* @return data type name of the key
*/
DataType.Name key();
/**
* Clarification of using the sub-type data type in the collection. It supports only simple data
* type (not Collection, UDT or Tuple)
* Clarification of using the sub-type data type in the collection. It supports
* only simple data type (not Collection, UDT or Tuple)
*
* <p>In case if you need UDT value sub-type in the map, consider @UDTValueMap or @UDTMap
* annotations
* <p>
* In case if you need UDT value sub-type in the map, consider @UDTValueMap
* or @UDTMap annotations
*
* @return data type name of the value
*/
@ -130,24 +157,33 @@ public final class Types {
/**
* Says to use @DataType.Name.COUNTER type in schema Java type is @Long
*
* <p>For this type there are special operations: increment and decrement in @UpdateOperation. You
* do not need to initialize counter value, it will be done automatically by Cassandra.
* <p>
* For this type there are special operations: increment and decrement
* in @UpdateOperation. You do not need to initialize counter value, it will be
* done automatically by Cassandra.
*/
@Documented
@Retention(RetentionPolicy.RUNTIME)
@Target(value = {ElementType.METHOD, ElementType.ANNOTATION_TYPE})
public @interface Counter {}
public @interface Counter {
}
/**
* Says to use @DataType.Name.SET data type in schema with specific sub-type Java type is @Set
* Says to use @DataType.Name.SET data type in schema with specific sub-type
* Java type is @Set
*
* <p>Helenus does not allow to use a specific implementation of the collection thereof data
* retrieval operation result can be a collection with another implementation.
* <p>
* Helenus does not allow to use a specific implementation of the collection
* thereof data retrieval operation result can be a collection with another
* implementation.
*
* <p>This annotation is usually used only for sub-types clarification and only in case if
* sub-type is Java type that corresponds to multiple Cassandra data types.
* <p>
* This annotation is usually used only for sub-types clarification and only in
* case if sub-type is Java type that corresponds to multiple Cassandra data
* types.
*
* <p>For this type there are special operations: add, addAll, remove and removeAll
* <p>
* For this type there are special operations: add, addAll, remove and removeAll
* in @UpdateOperation.
*/
@Documented
@ -156,10 +192,11 @@ public final class Types {
public @interface Set {
/**
* Clarification of using the sub-type data type in the collection. It supports only simple data
* type (not Collection, UDT or Tuple)
* Clarification of using the sub-type data type in the collection. It supports
* only simple data type (not Collection, UDT or Tuple)
*
* <p>In case if you need UDT sub-type in the set, consider @UDTSet annotation
* <p>
* In case if you need UDT sub-type in the set, consider @UDTSet annotation
*
* @return data type name of the value
*/
@ -167,10 +204,12 @@ public final class Types {
}
/**
* Says to use @DataType.Name.CUSTOM type in schema Java type is @ByteBuffer or @byte[]
* Says to use @DataType.Name.CUSTOM type in schema Java type is @ByteBuffer
* or @byte[]
*
* <p>Uses for custom user types that has special implementation. Helenus does not deal with this
* class directly for now, uses only in serialized form.
* <p>
* Uses for custom user types that has special implementation. Helenus does not
* deal with this class directly for now, uses only in serialized form.
*/
@Documented
@Retention(RetentionPolicy.RUNTIME)
@ -185,39 +224,53 @@ public final class Types {
String className();
}
/** Says to use @DataType.Name.TEXT type in schema Java type is @String Using by default */
/**
* Says to use @DataType.Name.TEXT type in schema Java type is @String Using by
* default
*/
@Documented
@Retention(RetentionPolicy.RUNTIME)
@Target(value = {ElementType.METHOD, ElementType.ANNOTATION_TYPE})
public @interface Text {}
/** Says to use @DataType.Name.TIMESTAMP type in schema Java type is @Date Using by default */
@Documented
@Retention(RetentionPolicy.RUNTIME)
@Target(value = {ElementType.METHOD, ElementType.ANNOTATION_TYPE})
public @interface Timestamp {}
/** Says to use @DataType.Name.TIMEUUID type in schema Java type is @UUID or @Date */
@Documented
@Retention(RetentionPolicy.RUNTIME)
@Target(value = {ElementType.METHOD, ElementType.ANNOTATION_TYPE})
public @interface Timeuuid {}
public @interface Text {
}
/**
* Says to use @DataType.Name.TUPLE type in schema Java type is @TupleValue or model interface
* with @Tuple annotation
* Says to use @DataType.Name.TIMESTAMP type in schema Java type is @Date Using
* by default
*/
@Documented
@Retention(RetentionPolicy.RUNTIME)
@Target(value = {ElementType.METHOD, ElementType.ANNOTATION_TYPE})
public @interface Timestamp {
}
/**
* Says to use @DataType.Name.TIMEUUID type in schema Java type is @UUID
* or @Date
*/
@Documented
@Retention(RetentionPolicy.RUNTIME)
@Target(value = {ElementType.METHOD, ElementType.ANNOTATION_TYPE})
public @interface Timeuuid {
}
/**
* Says to use @DataType.Name.TUPLE type in schema Java type is @TupleValue or
* model interface with @Tuple annotation
*/
@Documented
@Retention(RetentionPolicy.RUNTIME)
public @interface Tuple {
/**
* If Java type is the @TupleValue then this field is required. Any Cassandra Tuple is the
* sequence of Cassandra types. For now Helenus supports only simple data types in tuples
* for @TupleValue Java type
* If Java type is the @TupleValue then this field is required. Any Cassandra
* Tuple is the sequence of Cassandra types. For now Helenus supports only
* simple data types in tuples for @TupleValue Java type
*
* <p>In case if Java type is the model interface with @Tuple annotation then all methods in
* this interface can have Types annotations that can be complex types as well.
* <p>
* In case if Java type is the model interface with @Tuple annotation then all
* methods in this interface can have Types annotations that can be complex
* types as well.
*
* @return data type name sequence
*/
@ -225,8 +278,8 @@ public final class Types {
}
/**
* Says to use @DataType.Name.UDT type in schema Java type is @UDTValue or model interface
* with @UDT annotation
* Says to use @DataType.Name.UDT type in schema Java type is @UDTValue or model
* interface with @UDT annotation
*/
@Documented
@Retention(RetentionPolicy.RUNTIME)
@ -234,13 +287,17 @@ public final class Types {
public @interface UDT {
/**
* If Java type is the @UDTValue then this field is required. Any Cassandra UDT has name and
* must be created before this use as a Cassandra Type.
* If Java type is the @UDTValue then this field is required. Any Cassandra UDT
* has name and must be created before this use as a Cassandra Type.
*
* <p>This value is the UDT name of the Cassandra Type that was already created in the schema
* <p>
* This value is the UDT name of the Cassandra Type that was already created in
* the schema
*
* <p>In case of Java type is the model interface with @UDT annotation then this field is not
* using since model interface defines UserDefinedType with specific name
* <p>
* In case of Java type is the model interface with @UDT annotation then this
* field is not using since model interface defines UserDefinedType with
* specific name
*
* @return UDT name
*/
@ -249,10 +306,13 @@ public final class Types {
/**
* Only used for JavaType @UDTValue
*
* <p>In case if value() method returns reserved word that can not be used as a name of UDT then
* forceQuote will add additional quotes around this name in all CQL queries.
* <p>
* In case if value() method returns reserved word that can not be used as a
* name of UDT then forceQuote will add additional quotes around this name in
* all CQL queries.
*
* <p>Default value is false.
* <p>
* Default value is false.
*
* @return true if quotation is needed
*/
@ -260,16 +320,22 @@ public final class Types {
}
/**
* Says to use @DataType.Name.MAP data type in schema with specific UDT sub-type as a key and
* simple sub-type as a value Java type is @Map
* Says to use @DataType.Name.MAP data type in schema with specific UDT sub-type
* as a key and simple sub-type as a value Java type is @Map
*
* <p>Helenus does not allow to use a specific implementation of the collection thereof data
* retrieval operation result can be a collection with another implementation.
* <p>
* Helenus does not allow to use a specific implementation of the collection
* thereof data retrieval operation result can be a collection with another
* implementation.
*
* <p>This annotation is usually used only for sub-types clarification and only in case if
* sub-type is Java type that corresponds to multiple Cassandra data types.
* <p>
* This annotation is usually used only for sub-types clarification and only in
* case if sub-type is Java type that corresponds to multiple Cassandra data
* types.
*
* <p>For this type there are special operations: put and putAll in @UpdateOperation.
* <p>
* For this type there are special operations: put and putAll
* in @UpdateOperation.
*/
@Documented
@Retention(RetentionPolicy.RUNTIME)
@ -284,10 +350,12 @@ public final class Types {
UDT key();
/**
* Clarification of using the sub-type data type in the collection. It supports only simple data
* type (not Collection, UDT or Tuple)
* Clarification of using the sub-type data type in the collection. It supports
* only simple data type (not Collection, UDT or Tuple)
*
* <p>In case if you need UDT value sub-type in the map, consider @UDTMap annotations
* <p>
* In case if you need UDT value sub-type in the map, consider @UDTMap
* annotations
*
* @return data type name of the value
*/
@ -295,17 +363,22 @@ public final class Types {
}
/**
* Says to use @DataType.Name.LIST data type in schema with specific UDT sub-type Java type
* is @List
* Says to use @DataType.Name.LIST data type in schema with specific UDT
* sub-type Java type is @List
*
* <p>Helenus does not allow to use a specific implementation of the collection thereof data
* retrieval operation result can be a collection with another implementation.
* <p>
* Helenus does not allow to use a specific implementation of the collection
* thereof data retrieval operation result can be a collection with another
* implementation.
*
* <p>This annotation is usually used only for sub-types clarification and only in case if
* sub-type is Java type that corresponds to multiple Cassandra data types.
* <p>
* This annotation is usually used only for sub-types clarification and only in
* case if sub-type is Java type that corresponds to multiple Cassandra data
* types.
*
* <p>For this type there are special operations: prepend, prependAll, setIdx, append, appendAll,
* discard and discardAll in @UpdateOperation
* <p>
* For this type there are special operations: prepend, prependAll, setIdx,
* append, appendAll, discard and discardAll in @UpdateOperation
*/
@Documented
@Retention(RetentionPolicy.RUNTIME)
@ -321,16 +394,22 @@ public final class Types {
}
/**
* Says to use @DataType.Name.MAP data type in schema with specific UDT sub-types Java type
* is @Map
* Says to use @DataType.Name.MAP data type in schema with specific UDT
* sub-types Java type is @Map
*
* <p>Helenus does not allow to use a specific implementation of the collection thereof data
* retrieval operation result can be a collection with another implementation.
* <p>
* Helenus does not allow to use a specific implementation of the collection
* thereof data retrieval operation result can be a collection with another
* implementation.
*
* <p>This annotation is usually used only for sub-types clarification and only in case if
* sub-type is Java type that corresponds to multiple Cassandra data types.
* <p>
* This annotation is usually used only for sub-types clarification and only in
* case if sub-type is Java type that corresponds to multiple Cassandra data
* types.
*
* <p>For this type there are special operations: put and putAll in @UpdateOperation.
* <p>
* For this type there are special operations: put and putAll
* in @UpdateOperation.
*/
@Documented
@Retention(RetentionPolicy.RUNTIME)
@ -345,7 +424,8 @@ public final class Types {
UDT key();
/**
* Clarification of using the UDT data type as a value sub-type in the collection.
* Clarification of using the UDT data type as a value sub-type in the
* collection.
*
* @return annotation of the UDT value
*/
@ -353,15 +433,21 @@ public final class Types {
}
/**
* Says to use @DataType.Name.SET data type in schema with specific UDT sub-type Java type is @Set
* Says to use @DataType.Name.SET data type in schema with specific UDT sub-type
* Java type is @Set
*
* <p>Helenus does not allow to use a specific implementation of the collection thereof data
* retrieval operation result can be a collection with another implementation.
* <p>
* Helenus does not allow to use a specific implementation of the collection
* thereof data retrieval operation result can be a collection with another
* implementation.
*
* <p>This annotation is usually used only for sub-types clarification and only in case if
* sub-type is Java type that corresponds to multiple Cassandra data types.
* <p>
* This annotation is usually used only for sub-types clarification and only in
* case if sub-type is Java type that corresponds to multiple Cassandra data
* types.
*
* <p>For this type there are special operations: add, addAll, remove and removeAll
* <p>
* For this type there are special operations: add, addAll, remove and removeAll
* in @UpdateOperation.
*/
@Documented
@ -378,16 +464,22 @@ public final class Types {
}
/**
* Says to use @DataType.Name.MAP data type in schema with specific simple sub-type as a key and
* UDT sub-type as a value Java type is @Map
* Says to use @DataType.Name.MAP data type in schema with specific simple
* sub-type as a key and UDT sub-type as a value Java type is @Map
*
* <p>Helenus does not allow to use a specific implementation of the collection thereof data
* retrieval operation result can be a collection with another implementation.
* <p>
* Helenus does not allow to use a specific implementation of the collection
* thereof data retrieval operation result can be a collection with another
* implementation.
*
* <p>This annotation is usually used only for sub-types clarification and only in case if
* sub-type is Java type that corresponds to multiple Cassandra data types.
* <p>
* This annotation is usually used only for sub-types clarification and only in
* case if sub-type is Java type that corresponds to multiple Cassandra data
* types.
*
* <p>For this type there are special operations: put and putAll in @UpdateOperation.
* <p>
* For this type there are special operations: put and putAll
* in @UpdateOperation.
*/
@Documented
@Retention(RetentionPolicy.RUNTIME)
@ -395,32 +487,39 @@ public final class Types {
public @interface UDTValueMap {
/**
* Clarification of using the sub-type data type in the collection. It supports only simple data
* type (not Collection, UDT or Tuple)
* Clarification of using the sub-type data type in the collection. It supports
* only simple data type (not Collection, UDT or Tuple)
*
* <p>In case if you need UDT key sub-type in the map, consider @UDTMap annotations
* <p>
* In case if you need UDT key sub-type in the map, consider @UDTMap annotations
*
* @return data type name of the key
*/
DataType.Name key();
/**
* Clarification of using the UDT data type as a value sub-type in the collection.
* Clarification of using the UDT data type as a value sub-type in the
* collection.
*
* @return annotation of the UDT value
*/
UDT value();
}
/** Says to use @DataType.Name.UUID type in schema Java type is @UUID Using by default */
/**
* Says to use @DataType.Name.UUID type in schema Java type is @UUID Using by
* default
*/
@Documented
@Retention(RetentionPolicy.RUNTIME)
@Target(value = {ElementType.METHOD, ElementType.ANNOTATION_TYPE})
public @interface Uuid {}
public @interface Uuid {
}
/** Says to use @DataType.Name.VARCHAR type in schema Java type is @String */
@Documented
@Retention(RetentionPolicy.RUNTIME)
@Target(value = {ElementType.METHOD, ElementType.ANNOTATION_TYPE})
public @interface Varchar {}
public @interface Varchar {
}
}

View file

@ -39,10 +39,11 @@ public @interface UDT {
String value() default "";
/**
* 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.
* 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.
* <p>
* Default value is false, we are quoting only selected names.
*
* @return true if name have to be quoted
*/

View file

@ -16,6 +16,7 @@
package net.helenus.mapping.convert;
import java.util.Map;
import net.helenus.core.Helenus;
import net.helenus.core.reflect.MapExportable;
import net.helenus.mapping.HelenusEntity;

View file

@ -15,9 +15,10 @@
*/
package net.helenus.mapping.convert;
import com.google.common.base.CaseFormat;
import java.util.function.Function;
import com.google.common.base.CaseFormat;
public enum CamelCaseToUnderscoreConverter implements Function<String, String> {
INSTANCE;

View file

@ -18,6 +18,7 @@ package net.helenus.mapping.convert;
import java.util.Date;
import java.util.UUID;
import java.util.function.Function;
import net.helenus.support.Timeuuid;
/** Simple Date to TimeUUID Converter */

View file

@ -17,6 +17,7 @@ package net.helenus.mapping.convert;
import java.util.Map;
import java.util.function.Function;
import net.helenus.core.Helenus;
import net.helenus.mapping.HelenusEntity;
import net.helenus.mapping.value.ColumnValueProvider;

View file

@ -18,6 +18,7 @@ package net.helenus.mapping.convert;
import java.util.Date;
import java.util.UUID;
import java.util.function.Function;
import net.helenus.support.Timeuuid;
public enum TimeuuidToDateConverter implements Function<UUID, Date> {

View file

@ -15,16 +15,17 @@
*/
package net.helenus.mapping.convert;
import com.datastax.driver.core.TupleType;
import com.datastax.driver.core.TupleValue;
import java.nio.ByteBuffer;
import java.util.function.Function;
import com.datastax.driver.core.TupleType;
import com.datastax.driver.core.TupleValue;
import net.helenus.core.SessionRepository;
import net.helenus.mapping.HelenusProperty;
import net.helenus.mapping.value.TupleColumnValuePreparer;
public class TupleValueWriter extends AbstractEntityValueWriter<TupleValue>
implements Function<Object, TupleValue> {
public class TupleValueWriter extends AbstractEntityValueWriter<TupleValue> implements Function<Object, TupleValue> {
private final TupleType tupleType;
private final TupleColumnValuePreparer valuePreparer;

View file

@ -16,6 +16,7 @@
package net.helenus.mapping.convert;
import java.util.function.Function;
import net.helenus.support.HelenusMappingException;
public class TypedConverter<I, O> implements Function<Object, Object> {
@ -30,8 +31,7 @@ public class TypedConverter<I, O> implements Function<Object, Object> {
this.delegate = delegate;
}
public static <I, O> TypedConverter<I, O> create(
Class<I> inputType, Class<O> outputType, Function<I, O> delegate) {
public static <I, O> TypedConverter<I, O> create(Class<I> inputType, Class<O> outputType, Function<I, O> delegate) {
return new TypedConverter<I, O>(inputType, outputType, delegate);
}

View file

@ -15,16 +15,17 @@
*/
package net.helenus.mapping.convert;
import com.datastax.driver.core.UDTValue;
import com.datastax.driver.core.UserType;
import java.nio.ByteBuffer;
import java.util.function.Function;
import com.datastax.driver.core.UDTValue;
import com.datastax.driver.core.UserType;
import net.helenus.core.SessionRepository;
import net.helenus.mapping.HelenusProperty;
import net.helenus.mapping.value.UDTColumnValuePreparer;
public class UDTValueWriter extends AbstractEntityValueWriter<UDTValue>
implements Function<Object, UDTValue> {
public class UDTValueWriter extends AbstractEntityValueWriter<UDTValue> implements Function<Object, UDTValue> {
final UserType userType;
final UDTColumnValuePreparer valuePreparer;

View file

@ -15,17 +15,17 @@
*/
package net.helenus.mapping.convert.tuple;
import java.util.function.Function;
import com.datastax.driver.core.TupleType;
import com.datastax.driver.core.TupleValue;
import java.util.function.Function;
import net.helenus.core.SessionRepository;
import net.helenus.mapping.convert.TupleValueWriter;
public final class EntityToTupleValueConverter extends TupleValueWriter
implements Function<Object, TupleValue> {
public final class EntityToTupleValueConverter extends TupleValueWriter implements Function<Object, TupleValue> {
public EntityToTupleValueConverter(
Class<?> iface, TupleType tupleType, SessionRepository repository) {
public EntityToTupleValueConverter(Class<?> iface, TupleType tupleType, SessionRepository repository) {
super(iface, tupleType, repository);
}
}

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