target stringlengths 20 113k | src_fm stringlengths 11 86.3k | src_fm_fc stringlengths 21 86.4k | src_fm_fc_co stringlengths 30 86.4k | src_fm_fc_ms stringlengths 42 86.8k | src_fm_fc_ms_ff stringlengths 43 86.8k |
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@Test public void startsWithWithEmptyTags() { assertFalse(EMPTY_TAGS.startsWith("test")); } | public boolean startsWith(String tag) { if (tag != null) { for (String value : values) { if (startsWithIgnoreCase(tag, value)) { return true; } } } return false; } | Tags { public boolean startsWith(String tag) { if (tag != null) { for (String value : values) { if (startsWithIgnoreCase(tag, value)) { return true; } } } return false; } } | Tags { public boolean startsWith(String tag) { if (tag != null) { for (String value : values) { if (startsWithIgnoreCase(tag, value)) { return true; } } } return false; } Tags(String... values); } | Tags { public boolean startsWith(String tag) { if (tag != null) { for (String value : values) { if (startsWithIgnoreCase(tag, value)) { return true; } } } return false; } Tags(String... values); String[] getTags(); boolean containsOne(List<String> tags); boolean contains(String tag); boolean startsWith(String tag); } | Tags { public boolean startsWith(String tag) { if (tag != null) { for (String value : values) { if (startsWithIgnoreCase(tag, value)) { return true; } } } return false; } Tags(String... values); String[] getTags(); boolean containsOne(List<String> tags); boolean contains(String tag); boolean startsWith(String tag); } |
@Test public void jdbcUrlNoPort() { RelationalServiceInfo serviceInfo = createServiceInfo("dbtype: assertEquals("jdbc:jdbcdbtype: } | @ServiceProperty(category = "connection") public String getJdbcUrl() { return jdbcUrl == null ? buildJdbcUrl() : jdbcUrl; } | RelationalServiceInfo extends UriBasedServiceInfo { @ServiceProperty(category = "connection") public String getJdbcUrl() { return jdbcUrl == null ? buildJdbcUrl() : jdbcUrl; } } | RelationalServiceInfo extends UriBasedServiceInfo { @ServiceProperty(category = "connection") public String getJdbcUrl() { return jdbcUrl == null ? buildJdbcUrl() : jdbcUrl; } RelationalServiceInfo(String id, String uriString, String jdbcUrlDatabaseType); RelationalServiceInfo(String id, String uriString, String jdbcU... | RelationalServiceInfo extends UriBasedServiceInfo { @ServiceProperty(category = "connection") public String getJdbcUrl() { return jdbcUrl == null ? buildJdbcUrl() : jdbcUrl; } RelationalServiceInfo(String id, String uriString, String jdbcUrlDatabaseType); RelationalServiceInfo(String id, String uriString, String jdbcU... | RelationalServiceInfo extends UriBasedServiceInfo { @ServiceProperty(category = "connection") public String getJdbcUrl() { return jdbcUrl == null ? buildJdbcUrl() : jdbcUrl; } RelationalServiceInfo(String id, String uriString, String jdbcUrlDatabaseType); RelationalServiceInfo(String id, String uriString, String jdbcU... |
@Test public void jdbcUrlNoUsernamePassword() { RelationalServiceInfo serviceInfo = createServiceInfo("dbtype: assertEquals("jdbc:jdbcdbtype: } | @ServiceProperty(category = "connection") public String getJdbcUrl() { return jdbcUrl == null ? buildJdbcUrl() : jdbcUrl; } | RelationalServiceInfo extends UriBasedServiceInfo { @ServiceProperty(category = "connection") public String getJdbcUrl() { return jdbcUrl == null ? buildJdbcUrl() : jdbcUrl; } } | RelationalServiceInfo extends UriBasedServiceInfo { @ServiceProperty(category = "connection") public String getJdbcUrl() { return jdbcUrl == null ? buildJdbcUrl() : jdbcUrl; } RelationalServiceInfo(String id, String uriString, String jdbcUrlDatabaseType); RelationalServiceInfo(String id, String uriString, String jdbcU... | RelationalServiceInfo extends UriBasedServiceInfo { @ServiceProperty(category = "connection") public String getJdbcUrl() { return jdbcUrl == null ? buildJdbcUrl() : jdbcUrl; } RelationalServiceInfo(String id, String uriString, String jdbcUrlDatabaseType); RelationalServiceInfo(String id, String uriString, String jdbcU... | RelationalServiceInfo extends UriBasedServiceInfo { @ServiceProperty(category = "connection") public String getJdbcUrl() { return jdbcUrl == null ? buildJdbcUrl() : jdbcUrl; } RelationalServiceInfo(String id, String uriString, String jdbcUrlDatabaseType); RelationalServiceInfo(String id, String uriString, String jdbcU... |
@Test public void jdbcUrlNoPassword() { RelationalServiceInfo serviceInfo = createServiceInfo("dbtype: assertEquals("jdbc:jdbcdbtype: } | @ServiceProperty(category = "connection") public String getJdbcUrl() { return jdbcUrl == null ? buildJdbcUrl() : jdbcUrl; } | RelationalServiceInfo extends UriBasedServiceInfo { @ServiceProperty(category = "connection") public String getJdbcUrl() { return jdbcUrl == null ? buildJdbcUrl() : jdbcUrl; } } | RelationalServiceInfo extends UriBasedServiceInfo { @ServiceProperty(category = "connection") public String getJdbcUrl() { return jdbcUrl == null ? buildJdbcUrl() : jdbcUrl; } RelationalServiceInfo(String id, String uriString, String jdbcUrlDatabaseType); RelationalServiceInfo(String id, String uriString, String jdbcU... | RelationalServiceInfo extends UriBasedServiceInfo { @ServiceProperty(category = "connection") public String getJdbcUrl() { return jdbcUrl == null ? buildJdbcUrl() : jdbcUrl; } RelationalServiceInfo(String id, String uriString, String jdbcUrlDatabaseType); RelationalServiceInfo(String id, String uriString, String jdbcU... | RelationalServiceInfo extends UriBasedServiceInfo { @ServiceProperty(category = "connection") public String getJdbcUrl() { return jdbcUrl == null ? buildJdbcUrl() : jdbcUrl; } RelationalServiceInfo(String id, String uriString, String jdbcUrlDatabaseType); RelationalServiceInfo(String id, String uriString, String jdbcU... |
@Test public void jdbcUrlWithQuery() { RelationalServiceInfo serviceInfo = createServiceInfo("dbtype: assertEquals("jdbc:jdbcdbtype: } | @ServiceProperty(category = "connection") public String getJdbcUrl() { return jdbcUrl == null ? buildJdbcUrl() : jdbcUrl; } | RelationalServiceInfo extends UriBasedServiceInfo { @ServiceProperty(category = "connection") public String getJdbcUrl() { return jdbcUrl == null ? buildJdbcUrl() : jdbcUrl; } } | RelationalServiceInfo extends UriBasedServiceInfo { @ServiceProperty(category = "connection") public String getJdbcUrl() { return jdbcUrl == null ? buildJdbcUrl() : jdbcUrl; } RelationalServiceInfo(String id, String uriString, String jdbcUrlDatabaseType); RelationalServiceInfo(String id, String uriString, String jdbcU... | RelationalServiceInfo extends UriBasedServiceInfo { @ServiceProperty(category = "connection") public String getJdbcUrl() { return jdbcUrl == null ? buildJdbcUrl() : jdbcUrl; } RelationalServiceInfo(String id, String uriString, String jdbcUrlDatabaseType); RelationalServiceInfo(String id, String uriString, String jdbcU... | RelationalServiceInfo extends UriBasedServiceInfo { @ServiceProperty(category = "connection") public String getJdbcUrl() { return jdbcUrl == null ? buildJdbcUrl() : jdbcUrl; } RelationalServiceInfo(String id, String uriString, String jdbcUrlDatabaseType); RelationalServiceInfo(String id, String uriString, String jdbcU... |
@Test public void givenPlainQueryWhenFindEntityExpectFirstEntityReturned() { Query<TestComposite> query = module.newQueryBuilder( TestComposite.class ).newQuery( composites ); assertEquals( "A", query.find().a().get() ); assertEquals( 6, query.count() ); } | public <T> QueryBuilder<T> newQueryBuilder( final Class<T> resultType ) { NotQueryableException.throwIfNotQueryable( resultType ); final ServiceReference<EntityFinder> serviceReference; try { serviceReference = finder.findService( EntityFinder.class ); return new QueryBuilderImpl<T>( serviceReference.get(), resultType,... | QueryBuilderFactoryImpl implements QueryBuilderFactory { public <T> QueryBuilder<T> newQueryBuilder( final Class<T> resultType ) { NotQueryableException.throwIfNotQueryable( resultType ); final ServiceReference<EntityFinder> serviceReference; try { serviceReference = finder.findService( EntityFinder.class ); return new... | QueryBuilderFactoryImpl implements QueryBuilderFactory { public <T> QueryBuilder<T> newQueryBuilder( final Class<T> resultType ) { NotQueryableException.throwIfNotQueryable( resultType ); final ServiceReference<EntityFinder> serviceReference; try { serviceReference = finder.findService( EntityFinder.class ); return new... | QueryBuilderFactoryImpl implements QueryBuilderFactory { public <T> QueryBuilder<T> newQueryBuilder( final Class<T> resultType ) { NotQueryableException.throwIfNotQueryable( resultType ); final ServiceReference<EntityFinder> serviceReference; try { serviceReference = finder.findService( EntityFinder.class ); return new... | QueryBuilderFactoryImpl implements QueryBuilderFactory { public <T> QueryBuilder<T> newQueryBuilder( final Class<T> resultType ) { NotQueryableException.throwIfNotQueryable( resultType ); final ServiceReference<EntityFinder> serviceReference; try { serviceReference = finder.findService( EntityFinder.class ); return new... |
@Test public void testTemplate() { new TestBuilder( "Rickard" ).newInstance( module); } | public T newInstance(Module module) { ValueBuilder<T> builder = module.newValueBuilder( type ); build( builder.prototype() ); return builder.newInstance(); } | ValueBuilderTemplate { public T newInstance(Module module) { ValueBuilder<T> builder = module.newValueBuilder( type ); build( builder.prototype() ); return builder.newInstance(); } } | ValueBuilderTemplate { public T newInstance(Module module) { ValueBuilder<T> builder = module.newValueBuilder( type ); build( builder.prototype() ); return builder.newInstance(); } protected ValueBuilderTemplate( Class<T> type ); } | ValueBuilderTemplate { public T newInstance(Module module) { ValueBuilder<T> builder = module.newValueBuilder( type ); build( builder.prototype() ); return builder.newInstance(); } protected ValueBuilderTemplate( Class<T> type ); T newInstance(Module module); } | ValueBuilderTemplate { public T newInstance(Module module) { ValueBuilder<T> builder = module.newValueBuilder( type ); build( builder.prototype() ); return builder.newInstance(); } protected ValueBuilderTemplate( Class<T> type ); T newInstance(Module module); } |
@Test public void testAnonymousTemplate() { new ValueBuilderTemplate<TestValue>(TestValue.class) { @Override protected void build( TestValue prototype ) { prototype.name().set( "Rickard" ); } }.newInstance( module ); } | public T newInstance(Module module) { ValueBuilder<T> builder = module.newValueBuilder( type ); build( builder.prototype() ); return builder.newInstance(); } | ValueBuilderTemplate { public T newInstance(Module module) { ValueBuilder<T> builder = module.newValueBuilder( type ); build( builder.prototype() ); return builder.newInstance(); } } | ValueBuilderTemplate { public T newInstance(Module module) { ValueBuilder<T> builder = module.newValueBuilder( type ); build( builder.prototype() ); return builder.newInstance(); } protected ValueBuilderTemplate( Class<T> type ); } | ValueBuilderTemplate { public T newInstance(Module module) { ValueBuilder<T> builder = module.newValueBuilder( type ); build( builder.prototype() ); return builder.newInstance(); } protected ValueBuilderTemplate( Class<T> type ); T newInstance(Module module); } | ValueBuilderTemplate { public T newInstance(Module module) { ValueBuilder<T> builder = module.newValueBuilder( type ); build( builder.prototype() ); return builder.newInstance(); } protected ValueBuilderTemplate( Class<T> type ); T newInstance(Module module); } |
@Test public void givenClassWithInterfacesWhenGetInterfacesWithMethodsThenGetCorrectSet() { HashSet<Class<?>> interfaces = new HashSet<Class<?>>(); interfaces.add( B.class ); Set<Class<?>> types = interfacesWithMethods( interfaces ); assertThat( "one interface returned", types.size(), equalTo( 1 ) ); assertThat( "corre... | public static Set<Class<?>> interfacesWithMethods( Set<Class<?>> interfaces ) { Set<Class<?>> newSet = new LinkedHashSet<Class<?>>(); for( Class type : interfaces ) { if( type.isInterface() && type.getDeclaredMethods().length > 0 ) { newSet.add( type ); } } return newSet; } | Classes { public static Set<Class<?>> interfacesWithMethods( Set<Class<?>> interfaces ) { Set<Class<?>> newSet = new LinkedHashSet<Class<?>>(); for( Class type : interfaces ) { if( type.isInterface() && type.getDeclaredMethods().length > 0 ) { newSet.add( type ); } } return newSet; } } | Classes { public static Set<Class<?>> interfacesWithMethods( Set<Class<?>> interfaces ) { Set<Class<?>> newSet = new LinkedHashSet<Class<?>>(); for( Class type : interfaces ) { if( type.isInterface() && type.getDeclaredMethods().length > 0 ) { newSet.add( type ); } } return newSet; } } | Classes { public static Set<Class<?>> interfacesWithMethods( Set<Class<?>> interfaces ) { Set<Class<?>> newSet = new LinkedHashSet<Class<?>>(); for( Class type : interfaces ) { if( type.isInterface() && type.getDeclaredMethods().length > 0 ) { newSet.add( type ); } } return newSet; } static Specification<Class<?>> isA... | Classes { public static Set<Class<?>> interfacesWithMethods( Set<Class<?>> interfaces ) { Set<Class<?>> newSet = new LinkedHashSet<Class<?>>(); for( Class type : interfaces ) { if( type.isInterface() && type.getDeclaredMethods().length > 0 ) { newSet.add( type ); } } return newSet; } static Specification<Class<?>> isA... |
@Test public void givenClassNameWhenToUriThenUriIsReturned() { assertThat( "URI is correct", Classes.toURI( A.class ), equalTo( "urn:qi4j:type:org.qi4j.api.util.ClassesTest-A" ) ); } | public static String toURI( final Class clazz ) throws NullPointerException { return toURI( clazz.getName() ); } | Classes { public static String toURI( final Class clazz ) throws NullPointerException { return toURI( clazz.getName() ); } } | Classes { public static String toURI( final Class clazz ) throws NullPointerException { return toURI( clazz.getName() ); } } | Classes { public static String toURI( final Class clazz ) throws NullPointerException { return toURI( clazz.getName() ); } static Specification<Class<?>> isAssignableFrom( final Class clazz); static Specification<Object> instanceOf( final Class clazz); static Specification<Class<?>> hasModifier( final int classModifie... | Classes { public static String toURI( final Class clazz ) throws NullPointerException { return toURI( clazz.getName() ); } static Specification<Class<?>> isAssignableFrom( final Class clazz); static Specification<Object> instanceOf( final Class clazz); static Specification<Class<?>> hasModifier( final int classModifie... |
@Test public void givenUriWhenToClassNameThenClassNameIsReturned() { assertThat( "Class name is correct", Classes.toClassName( "urn:qi4j:type:org.qi4j.api.util.ClassesTest-A" ), equalTo( "org.qi4j.api.util.ClassesTest$A" ) ); } | public static String toClassName( String uri ) throws NullPointerException { uri = uri.substring( "urn:qi4j:type:".length() ); uri = denormalizeURIToClass( uri ); return uri; } | Classes { public static String toClassName( String uri ) throws NullPointerException { uri = uri.substring( "urn:qi4j:type:".length() ); uri = denormalizeURIToClass( uri ); return uri; } } | Classes { public static String toClassName( String uri ) throws NullPointerException { uri = uri.substring( "urn:qi4j:type:".length() ); uri = denormalizeURIToClass( uri ); return uri; } } | Classes { public static String toClassName( String uri ) throws NullPointerException { uri = uri.substring( "urn:qi4j:type:".length() ); uri = denormalizeURIToClass( uri ); return uri; } static Specification<Class<?>> isAssignableFrom( final Class clazz); static Specification<Object> instanceOf( final Class clazz); st... | Classes { public static String toClassName( String uri ) throws NullPointerException { uri = uri.substring( "urn:qi4j:type:".length() ); uri = denormalizeURIToClass( uri ); return uri; } static Specification<Class<?>> isAssignableFrom( final Class clazz); static Specification<Object> instanceOf( final Class clazz); st... |
@Test public void givenTypeVariableWhenResolveThenResolved() { for( Method method : Type1.class.getMethods() ) { Type type = method.getGenericReturnType(); TypeVariable typeVariable = (TypeVariable) type; Type resolvedType = Classes.resolveTypeVariable( typeVariable, method.getDeclaringClass(), Type1.class ); System.ou... | public static Type resolveTypeVariable( TypeVariable name, Class declaringClass, Class topClass ) { Type type = resolveTypeVariable( name, declaringClass, new HashMap<TypeVariable, Type>(), topClass ); if( type == null ) { type = Object.class; } return type; } | Classes { public static Type resolveTypeVariable( TypeVariable name, Class declaringClass, Class topClass ) { Type type = resolveTypeVariable( name, declaringClass, new HashMap<TypeVariable, Type>(), topClass ); if( type == null ) { type = Object.class; } return type; } } | Classes { public static Type resolveTypeVariable( TypeVariable name, Class declaringClass, Class topClass ) { Type type = resolveTypeVariable( name, declaringClass, new HashMap<TypeVariable, Type>(), topClass ); if( type == null ) { type = Object.class; } return type; } } | Classes { public static Type resolveTypeVariable( TypeVariable name, Class declaringClass, Class topClass ) { Type type = resolveTypeVariable( name, declaringClass, new HashMap<TypeVariable, Type>(), topClass ); if( type == null ) { type = Object.class; } return type; } static Specification<Class<?>> isAssignableFrom(... | Classes { public static Type resolveTypeVariable( TypeVariable name, Class declaringClass, Class topClass ) { Type type = resolveTypeVariable( name, declaringClass, new HashMap<TypeVariable, Type>(), topClass ); if( type == null ) { type = Object.class; } return type; } static Specification<Class<?>> isAssignableFrom(... |
@Test public void testTemplate() throws UnitOfWorkCompletionException { new UnitOfWorkTemplate<Void, RuntimeException>() { @Override protected Void withUnitOfWork( UnitOfWork uow ) throws RuntimeException { new EntityBuilderTemplate<TestEntity>(TestEntity.class) { @Override protected void build( TestEntity prototype ) ... | public RESULT withModule(Module module) throws ThrowableType, UnitOfWorkCompletionException { int loop = 0; ThrowableType ex = null; do { UnitOfWork uow = module.newUnitOfWork( usecase ); try { RESULT result = withUnitOfWork( uow ); if (complete) { try { uow.complete(); return result; } catch( ConcurrentEntityModificat... | UnitOfWorkTemplate { public RESULT withModule(Module module) throws ThrowableType, UnitOfWorkCompletionException { int loop = 0; ThrowableType ex = null; do { UnitOfWork uow = module.newUnitOfWork( usecase ); try { RESULT result = withUnitOfWork( uow ); if (complete) { try { uow.complete(); return result; } catch( Conc... | UnitOfWorkTemplate { public RESULT withModule(Module module) throws ThrowableType, UnitOfWorkCompletionException { int loop = 0; ThrowableType ex = null; do { UnitOfWork uow = module.newUnitOfWork( usecase ); try { RESULT result = withUnitOfWork( uow ); if (complete) { try { uow.complete(); return result; } catch( Conc... | UnitOfWorkTemplate { public RESULT withModule(Module module) throws ThrowableType, UnitOfWorkCompletionException { int loop = 0; ThrowableType ex = null; do { UnitOfWork uow = module.newUnitOfWork( usecase ); try { RESULT result = withUnitOfWork( uow ); if (complete) { try { uow.complete(); return result; } catch( Conc... | UnitOfWorkTemplate { public RESULT withModule(Module module) throws ThrowableType, UnitOfWorkCompletionException { int loop = 0; ThrowableType ex = null; do { UnitOfWork uow = module.newUnitOfWork( usecase ); try { RESULT result = withUnitOfWork( uow ); if (complete) { try { uow.complete(); return result; } catch( Conc... |
@Test public void testMappingOfInteger() throws Exception { assertEquals( 5, mapToType( Integer.class, "5" ) ); assertEquals( -5, mapToType( Integer.class, "-5" ) ); assertEquals( Integer.class, mapToType( Integer.class, "5" ).getClass() ); } | private static Object mapToType( Type propertyType, Object value ) { final String stringValue = value.toString(); MappingStrategy strategy; if( propertyType instanceof Class ) { Class type = (Class) propertyType; if( type.isArray() ) { strategy = STRATEGY.get( Array.class ); } else if( Enum.class.isAssignableFrom( Clas... | PropertyMapper { private static Object mapToType( Type propertyType, Object value ) { final String stringValue = value.toString(); MappingStrategy strategy; if( propertyType instanceof Class ) { Class type = (Class) propertyType; if( type.isArray() ) { strategy = STRATEGY.get( Array.class ); } else if( Enum.class.isAss... | PropertyMapper { private static Object mapToType( Type propertyType, Object value ) { final String stringValue = value.toString(); MappingStrategy strategy; if( propertyType instanceof Class ) { Class type = (Class) propertyType; if( type.isArray() ) { strategy = STRATEGY.get( Array.class ); } else if( Enum.class.isAss... | PropertyMapper { private static Object mapToType( Type propertyType, Object value ) { final String stringValue = value.toString(); MappingStrategy strategy; if( propertyType instanceof Class ) { Class type = (Class) propertyType; if( type.isArray() ) { strategy = STRATEGY.get( Array.class ); } else if( Enum.class.isAss... | PropertyMapper { private static Object mapToType( Type propertyType, Object value ) { final String stringValue = value.toString(); MappingStrategy strategy; if( propertyType instanceof Class ) { Class type = (Class) propertyType; if( type.isArray() ) { strategy = STRATEGY.get( Array.class ); } else if( Enum.class.isAss... |
@Test public void testMappingOfLong() throws Exception { assertEquals( 5L, mapToType( Long.class, "5" ) ); assertEquals( 5876328476238746238L, mapToType( Long.class, "5876328476238746238" ) ); assertEquals( Long.class, mapToType( Long.class, "5" ).getClass() ); } | private static Object mapToType( Type propertyType, Object value ) { final String stringValue = value.toString(); MappingStrategy strategy; if( propertyType instanceof Class ) { Class type = (Class) propertyType; if( type.isArray() ) { strategy = STRATEGY.get( Array.class ); } else if( Enum.class.isAssignableFrom( Clas... | PropertyMapper { private static Object mapToType( Type propertyType, Object value ) { final String stringValue = value.toString(); MappingStrategy strategy; if( propertyType instanceof Class ) { Class type = (Class) propertyType; if( type.isArray() ) { strategy = STRATEGY.get( Array.class ); } else if( Enum.class.isAss... | PropertyMapper { private static Object mapToType( Type propertyType, Object value ) { final String stringValue = value.toString(); MappingStrategy strategy; if( propertyType instanceof Class ) { Class type = (Class) propertyType; if( type.isArray() ) { strategy = STRATEGY.get( Array.class ); } else if( Enum.class.isAss... | PropertyMapper { private static Object mapToType( Type propertyType, Object value ) { final String stringValue = value.toString(); MappingStrategy strategy; if( propertyType instanceof Class ) { Class type = (Class) propertyType; if( type.isArray() ) { strategy = STRATEGY.get( Array.class ); } else if( Enum.class.isAss... | PropertyMapper { private static Object mapToType( Type propertyType, Object value ) { final String stringValue = value.toString(); MappingStrategy strategy; if( propertyType instanceof Class ) { Class type = (Class) propertyType; if( type.isArray() ) { strategy = STRATEGY.get( Array.class ); } else if( Enum.class.isAss... |
@Test public void testMappingOfBoolean() throws Exception { assertEquals( false, mapToType( Boolean.class, "false" ) ); assertEquals( true, mapToType( Boolean.class, "true" ) ); assertEquals( Boolean.class, mapToType( Boolean.class, "false" ).getClass() ); } | private static Object mapToType( Type propertyType, Object value ) { final String stringValue = value.toString(); MappingStrategy strategy; if( propertyType instanceof Class ) { Class type = (Class) propertyType; if( type.isArray() ) { strategy = STRATEGY.get( Array.class ); } else if( Enum.class.isAssignableFrom( Clas... | PropertyMapper { private static Object mapToType( Type propertyType, Object value ) { final String stringValue = value.toString(); MappingStrategy strategy; if( propertyType instanceof Class ) { Class type = (Class) propertyType; if( type.isArray() ) { strategy = STRATEGY.get( Array.class ); } else if( Enum.class.isAss... | PropertyMapper { private static Object mapToType( Type propertyType, Object value ) { final String stringValue = value.toString(); MappingStrategy strategy; if( propertyType instanceof Class ) { Class type = (Class) propertyType; if( type.isArray() ) { strategy = STRATEGY.get( Array.class ); } else if( Enum.class.isAss... | PropertyMapper { private static Object mapToType( Type propertyType, Object value ) { final String stringValue = value.toString(); MappingStrategy strategy; if( propertyType instanceof Class ) { Class type = (Class) propertyType; if( type.isArray() ) { strategy = STRATEGY.get( Array.class ); } else if( Enum.class.isAss... | PropertyMapper { private static Object mapToType( Type propertyType, Object value ) { final String stringValue = value.toString(); MappingStrategy strategy; if( propertyType instanceof Class ) { Class type = (Class) propertyType; if( type.isArray() ) { strategy = STRATEGY.get( Array.class ); } else if( Enum.class.isAss... |
@Test public void givenPlainQueryWhenOrderByFirstPropertyExpectOrderedResult() { Query<TestComposite> query = module.newQueryBuilder( TestComposite.class ).newQuery( composites ); TestComposite template = templateFor( TestComposite.class ); query.orderBy( orderBy( template.a() ) ); verifyOrder( query, "612345" ); } | public <T> QueryBuilder<T> newQueryBuilder( final Class<T> resultType ) { NotQueryableException.throwIfNotQueryable( resultType ); final ServiceReference<EntityFinder> serviceReference; try { serviceReference = finder.findService( EntityFinder.class ); return new QueryBuilderImpl<T>( serviceReference.get(), resultType,... | QueryBuilderFactoryImpl implements QueryBuilderFactory { public <T> QueryBuilder<T> newQueryBuilder( final Class<T> resultType ) { NotQueryableException.throwIfNotQueryable( resultType ); final ServiceReference<EntityFinder> serviceReference; try { serviceReference = finder.findService( EntityFinder.class ); return new... | QueryBuilderFactoryImpl implements QueryBuilderFactory { public <T> QueryBuilder<T> newQueryBuilder( final Class<T> resultType ) { NotQueryableException.throwIfNotQueryable( resultType ); final ServiceReference<EntityFinder> serviceReference; try { serviceReference = finder.findService( EntityFinder.class ); return new... | QueryBuilderFactoryImpl implements QueryBuilderFactory { public <T> QueryBuilder<T> newQueryBuilder( final Class<T> resultType ) { NotQueryableException.throwIfNotQueryable( resultType ); final ServiceReference<EntityFinder> serviceReference; try { serviceReference = finder.findService( EntityFinder.class ); return new... | QueryBuilderFactoryImpl implements QueryBuilderFactory { public <T> QueryBuilder<T> newQueryBuilder( final Class<T> resultType ) { NotQueryableException.throwIfNotQueryable( resultType ); final ServiceReference<EntityFinder> serviceReference; try { serviceReference = finder.findService( EntityFinder.class ); return new... |
@Test public void testMappingOfFloat() throws Exception { assertEquals( 5.1234f, mapToType( Float.class, "5.1234" ) ); assertEquals( 5876328476.6238f, mapToType( Float.class, "5876328476.6238" ) ); assertEquals( Float.class, mapToType( Float.class, "5" ).getClass() ); } | private static Object mapToType( Type propertyType, Object value ) { final String stringValue = value.toString(); MappingStrategy strategy; if( propertyType instanceof Class ) { Class type = (Class) propertyType; if( type.isArray() ) { strategy = STRATEGY.get( Array.class ); } else if( Enum.class.isAssignableFrom( Clas... | PropertyMapper { private static Object mapToType( Type propertyType, Object value ) { final String stringValue = value.toString(); MappingStrategy strategy; if( propertyType instanceof Class ) { Class type = (Class) propertyType; if( type.isArray() ) { strategy = STRATEGY.get( Array.class ); } else if( Enum.class.isAss... | PropertyMapper { private static Object mapToType( Type propertyType, Object value ) { final String stringValue = value.toString(); MappingStrategy strategy; if( propertyType instanceof Class ) { Class type = (Class) propertyType; if( type.isArray() ) { strategy = STRATEGY.get( Array.class ); } else if( Enum.class.isAss... | PropertyMapper { private static Object mapToType( Type propertyType, Object value ) { final String stringValue = value.toString(); MappingStrategy strategy; if( propertyType instanceof Class ) { Class type = (Class) propertyType; if( type.isArray() ) { strategy = STRATEGY.get( Array.class ); } else if( Enum.class.isAss... | PropertyMapper { private static Object mapToType( Type propertyType, Object value ) { final String stringValue = value.toString(); MappingStrategy strategy; if( propertyType instanceof Class ) { Class type = (Class) propertyType; if( type.isArray() ) { strategy = STRATEGY.get( Array.class ); } else if( Enum.class.isAss... |
@Test public void testMappingOfDouble() throws Exception { assertEquals( 5.1234, mapToType( Double.class, "5.1234" ) ); assertEquals( 5876328476.623823, mapToType( Double.class, "5876328476.623823" ) ); assertEquals( Double.class, mapToType( Double.class, "5" ).getClass() ); } | private static Object mapToType( Type propertyType, Object value ) { final String stringValue = value.toString(); MappingStrategy strategy; if( propertyType instanceof Class ) { Class type = (Class) propertyType; if( type.isArray() ) { strategy = STRATEGY.get( Array.class ); } else if( Enum.class.isAssignableFrom( Clas... | PropertyMapper { private static Object mapToType( Type propertyType, Object value ) { final String stringValue = value.toString(); MappingStrategy strategy; if( propertyType instanceof Class ) { Class type = (Class) propertyType; if( type.isArray() ) { strategy = STRATEGY.get( Array.class ); } else if( Enum.class.isAss... | PropertyMapper { private static Object mapToType( Type propertyType, Object value ) { final String stringValue = value.toString(); MappingStrategy strategy; if( propertyType instanceof Class ) { Class type = (Class) propertyType; if( type.isArray() ) { strategy = STRATEGY.get( Array.class ); } else if( Enum.class.isAss... | PropertyMapper { private static Object mapToType( Type propertyType, Object value ) { final String stringValue = value.toString(); MappingStrategy strategy; if( propertyType instanceof Class ) { Class type = (Class) propertyType; if( type.isArray() ) { strategy = STRATEGY.get( Array.class ); } else if( Enum.class.isAss... | PropertyMapper { private static Object mapToType( Type propertyType, Object value ) { final String stringValue = value.toString(); MappingStrategy strategy; if( propertyType instanceof Class ) { Class type = (Class) propertyType; if( type.isArray() ) { strategy = STRATEGY.get( Array.class ); } else if( Enum.class.isAss... |
@Test public void testMappingOfBigDecimal() throws Exception { assertEquals( new BigDecimal( 3 ), mapToType( BigDecimal.class, "3" ) ); assertEquals( new BigDecimal( "12345.67891011" ), mapToType( BigDecimal.class, "12345.67891011" ) ); assertEquals( BigDecimal.class, mapToType( BigDecimal.class, "5" ).getClass() ); } | private static Object mapToType( Type propertyType, Object value ) { final String stringValue = value.toString(); MappingStrategy strategy; if( propertyType instanceof Class ) { Class type = (Class) propertyType; if( type.isArray() ) { strategy = STRATEGY.get( Array.class ); } else if( Enum.class.isAssignableFrom( Clas... | PropertyMapper { private static Object mapToType( Type propertyType, Object value ) { final String stringValue = value.toString(); MappingStrategy strategy; if( propertyType instanceof Class ) { Class type = (Class) propertyType; if( type.isArray() ) { strategy = STRATEGY.get( Array.class ); } else if( Enum.class.isAss... | PropertyMapper { private static Object mapToType( Type propertyType, Object value ) { final String stringValue = value.toString(); MappingStrategy strategy; if( propertyType instanceof Class ) { Class type = (Class) propertyType; if( type.isArray() ) { strategy = STRATEGY.get( Array.class ); } else if( Enum.class.isAss... | PropertyMapper { private static Object mapToType( Type propertyType, Object value ) { final String stringValue = value.toString(); MappingStrategy strategy; if( propertyType instanceof Class ) { Class type = (Class) propertyType; if( type.isArray() ) { strategy = STRATEGY.get( Array.class ); } else if( Enum.class.isAss... | PropertyMapper { private static Object mapToType( Type propertyType, Object value ) { final String stringValue = value.toString(); MappingStrategy strategy; if( propertyType instanceof Class ) { Class type = (Class) propertyType; if( type.isArray() ) { strategy = STRATEGY.get( Array.class ); } else if( Enum.class.isAss... |
@Test public void testMappingOfBigInteger() throws Exception { assertEquals( new BigInteger( "20", 16 ), mapToType( BigInteger.class, "32" ) ); assertEquals( new BigInteger( "1234567891011" ), mapToType( BigInteger.class, "1234567891011" ) ); assertEquals( BigInteger.class, mapToType( BigInteger.class, "5" ).getClass()... | private static Object mapToType( Type propertyType, Object value ) { final String stringValue = value.toString(); MappingStrategy strategy; if( propertyType instanceof Class ) { Class type = (Class) propertyType; if( type.isArray() ) { strategy = STRATEGY.get( Array.class ); } else if( Enum.class.isAssignableFrom( Clas... | PropertyMapper { private static Object mapToType( Type propertyType, Object value ) { final String stringValue = value.toString(); MappingStrategy strategy; if( propertyType instanceof Class ) { Class type = (Class) propertyType; if( type.isArray() ) { strategy = STRATEGY.get( Array.class ); } else if( Enum.class.isAss... | PropertyMapper { private static Object mapToType( Type propertyType, Object value ) { final String stringValue = value.toString(); MappingStrategy strategy; if( propertyType instanceof Class ) { Class type = (Class) propertyType; if( type.isArray() ) { strategy = STRATEGY.get( Array.class ); } else if( Enum.class.isAss... | PropertyMapper { private static Object mapToType( Type propertyType, Object value ) { final String stringValue = value.toString(); MappingStrategy strategy; if( propertyType instanceof Class ) { Class type = (Class) propertyType; if( type.isArray() ) { strategy = STRATEGY.get( Array.class ); } else if( Enum.class.isAss... | PropertyMapper { private static Object mapToType( Type propertyType, Object value ) { final String stringValue = value.toString(); MappingStrategy strategy; if( propertyType instanceof Class ) { Class type = (Class) propertyType; if( type.isArray() ) { strategy = STRATEGY.get( Array.class ); } else if( Enum.class.isAss... |
@Test public void testMappingOfEnum() throws Exception { assertEquals( TestEnum.FIRST, mapToType( TestEnum.class, "FIRST" ) ); assertEquals( TestEnum.SECOND, mapToType( TestEnum.class, "SECOND" ) ); assertEquals( TestEnum.class, mapToType( TestEnum.class, "SECOND" ).getClass() ); } | private static Object mapToType( Type propertyType, Object value ) { final String stringValue = value.toString(); MappingStrategy strategy; if( propertyType instanceof Class ) { Class type = (Class) propertyType; if( type.isArray() ) { strategy = STRATEGY.get( Array.class ); } else if( Enum.class.isAssignableFrom( Clas... | PropertyMapper { private static Object mapToType( Type propertyType, Object value ) { final String stringValue = value.toString(); MappingStrategy strategy; if( propertyType instanceof Class ) { Class type = (Class) propertyType; if( type.isArray() ) { strategy = STRATEGY.get( Array.class ); } else if( Enum.class.isAss... | PropertyMapper { private static Object mapToType( Type propertyType, Object value ) { final String stringValue = value.toString(); MappingStrategy strategy; if( propertyType instanceof Class ) { Class type = (Class) propertyType; if( type.isArray() ) { strategy = STRATEGY.get( Array.class ); } else if( Enum.class.isAss... | PropertyMapper { private static Object mapToType( Type propertyType, Object value ) { final String stringValue = value.toString(); MappingStrategy strategy; if( propertyType instanceof Class ) { Class type = (Class) propertyType; if( type.isArray() ) { strategy = STRATEGY.get( Array.class ); } else if( Enum.class.isAss... | PropertyMapper { private static Object mapToType( Type propertyType, Object value ) { final String stringValue = value.toString(); MappingStrategy strategy; if( propertyType instanceof Class ) { Class type = (Class) propertyType; if( type.isArray() ) { strategy = STRATEGY.get( Array.class ); } else if( Enum.class.isAss... |
@Test public void testMappingOfIntegerArray() throws Exception { Object[] value = (Object[]) mapToType( Integer[].class, "5,4 , 3 ,2,1" ); assertEquals( 5, value.length ); assertEquals( 5, value[ 0 ] ); assertEquals( 4, value[ 1 ] ); assertEquals( 3, value[ 2 ] ); assertEquals( 2, value[ 3 ] ); assertEquals( 1, value[ ... | private static Object mapToType( Type propertyType, Object value ) { final String stringValue = value.toString(); MappingStrategy strategy; if( propertyType instanceof Class ) { Class type = (Class) propertyType; if( type.isArray() ) { strategy = STRATEGY.get( Array.class ); } else if( Enum.class.isAssignableFrom( Clas... | PropertyMapper { private static Object mapToType( Type propertyType, Object value ) { final String stringValue = value.toString(); MappingStrategy strategy; if( propertyType instanceof Class ) { Class type = (Class) propertyType; if( type.isArray() ) { strategy = STRATEGY.get( Array.class ); } else if( Enum.class.isAss... | PropertyMapper { private static Object mapToType( Type propertyType, Object value ) { final String stringValue = value.toString(); MappingStrategy strategy; if( propertyType instanceof Class ) { Class type = (Class) propertyType; if( type.isArray() ) { strategy = STRATEGY.get( Array.class ); } else if( Enum.class.isAss... | PropertyMapper { private static Object mapToType( Type propertyType, Object value ) { final String stringValue = value.toString(); MappingStrategy strategy; if( propertyType instanceof Class ) { Class type = (Class) propertyType; if( type.isArray() ) { strategy = STRATEGY.get( Array.class ); } else if( Enum.class.isAss... | PropertyMapper { private static Object mapToType( Type propertyType, Object value ) { final String stringValue = value.toString(); MappingStrategy strategy; if( propertyType instanceof Class ) { Class type = (Class) propertyType; if( type.isArray() ) { strategy = STRATEGY.get( Array.class ); } else if( Enum.class.isAss... |
@Test public void testMappingOfStringArray() throws Exception { { Object[] value = (Object[]) mapToType( String[].class, "5,4 , 3 ,2,1" ); assertEquals( 5, value.length ); assertEquals( "5", value[ 0 ] ); assertEquals( "4 ", value[ 1 ] ); assertEquals( " 3 ", value[ 2 ] ); assertEquals( "2", value[ 3 ] ); assertEquals(... | private static Object mapToType( Type propertyType, Object value ) { final String stringValue = value.toString(); MappingStrategy strategy; if( propertyType instanceof Class ) { Class type = (Class) propertyType; if( type.isArray() ) { strategy = STRATEGY.get( Array.class ); } else if( Enum.class.isAssignableFrom( Clas... | PropertyMapper { private static Object mapToType( Type propertyType, Object value ) { final String stringValue = value.toString(); MappingStrategy strategy; if( propertyType instanceof Class ) { Class type = (Class) propertyType; if( type.isArray() ) { strategy = STRATEGY.get( Array.class ); } else if( Enum.class.isAss... | PropertyMapper { private static Object mapToType( Type propertyType, Object value ) { final String stringValue = value.toString(); MappingStrategy strategy; if( propertyType instanceof Class ) { Class type = (Class) propertyType; if( type.isArray() ) { strategy = STRATEGY.get( Array.class ); } else if( Enum.class.isAss... | PropertyMapper { private static Object mapToType( Type propertyType, Object value ) { final String stringValue = value.toString(); MappingStrategy strategy; if( propertyType instanceof Class ) { Class type = (Class) propertyType; if( type.isArray() ) { strategy = STRATEGY.get( Array.class ); } else if( Enum.class.isAss... | PropertyMapper { private static Object mapToType( Type propertyType, Object value ) { final String stringValue = value.toString(); MappingStrategy strategy; if( propertyType instanceof Class ) { Class type = (Class) propertyType; if( type.isArray() ) { strategy = STRATEGY.get( Array.class ); } else if( Enum.class.isAss... |
@Test public void testMappingOfBooleanArray() throws Exception { Object[] value = (Object[]) mapToType( Boolean[].class, " true,false, false, true ,true,false" ); assertEquals( true, value[ 0 ] ); assertEquals( false, value[ 1 ] ); assertEquals( false, value[ 2 ] ); assertEquals( true, value[ 3 ] ); assertEquals( true,... | private static Object mapToType( Type propertyType, Object value ) { final String stringValue = value.toString(); MappingStrategy strategy; if( propertyType instanceof Class ) { Class type = (Class) propertyType; if( type.isArray() ) { strategy = STRATEGY.get( Array.class ); } else if( Enum.class.isAssignableFrom( Clas... | PropertyMapper { private static Object mapToType( Type propertyType, Object value ) { final String stringValue = value.toString(); MappingStrategy strategy; if( propertyType instanceof Class ) { Class type = (Class) propertyType; if( type.isArray() ) { strategy = STRATEGY.get( Array.class ); } else if( Enum.class.isAss... | PropertyMapper { private static Object mapToType( Type propertyType, Object value ) { final String stringValue = value.toString(); MappingStrategy strategy; if( propertyType instanceof Class ) { Class type = (Class) propertyType; if( type.isArray() ) { strategy = STRATEGY.get( Array.class ); } else if( Enum.class.isAss... | PropertyMapper { private static Object mapToType( Type propertyType, Object value ) { final String stringValue = value.toString(); MappingStrategy strategy; if( propertyType instanceof Class ) { Class type = (Class) propertyType; if( type.isArray() ) { strategy = STRATEGY.get( Array.class ); } else if( Enum.class.isAss... | PropertyMapper { private static Object mapToType( Type propertyType, Object value ) { final String stringValue = value.toString(); MappingStrategy strategy; if( propertyType instanceof Class ) { Class type = (Class) propertyType; if( type.isArray() ) { strategy = STRATEGY.get( Array.class ); } else if( Enum.class.isAss... |
@Test public void testMappingOfList() throws Exception { Type type = Testing.class.getDeclaredMethod( "list" ).getGenericReturnType(); List<String> value = (List<String>) mapToType( type, "5,4 ,\" 3, \", \" 2\" ,1" ); assertEquals( "5", value.get( 0 ) ); assertEquals( "4 ", value.get( 1 ) ); assertEquals( " 3, ", value... | private static Object mapToType( Type propertyType, Object value ) { final String stringValue = value.toString(); MappingStrategy strategy; if( propertyType instanceof Class ) { Class type = (Class) propertyType; if( type.isArray() ) { strategy = STRATEGY.get( Array.class ); } else if( Enum.class.isAssignableFrom( Clas... | PropertyMapper { private static Object mapToType( Type propertyType, Object value ) { final String stringValue = value.toString(); MappingStrategy strategy; if( propertyType instanceof Class ) { Class type = (Class) propertyType; if( type.isArray() ) { strategy = STRATEGY.get( Array.class ); } else if( Enum.class.isAss... | PropertyMapper { private static Object mapToType( Type propertyType, Object value ) { final String stringValue = value.toString(); MappingStrategy strategy; if( propertyType instanceof Class ) { Class type = (Class) propertyType; if( type.isArray() ) { strategy = STRATEGY.get( Array.class ); } else if( Enum.class.isAss... | PropertyMapper { private static Object mapToType( Type propertyType, Object value ) { final String stringValue = value.toString(); MappingStrategy strategy; if( propertyType instanceof Class ) { Class type = (Class) propertyType; if( type.isArray() ) { strategy = STRATEGY.get( Array.class ); } else if( Enum.class.isAss... | PropertyMapper { private static Object mapToType( Type propertyType, Object value ) { final String stringValue = value.toString(); MappingStrategy strategy; if( propertyType instanceof Class ) { Class type = (Class) propertyType; if( type.isArray() ) { strategy = STRATEGY.get( Array.class ); } else if( Enum.class.isAss... |
@Test public void testMappingOfSet() throws Exception { Type type = Testing.class.getDeclaredMethod( "set" ).getGenericReturnType(); Set<String> value = (Set<String>) mapToType( type, "5,4 ,\" 3, \", \" 2\" ,1" ); assertTrue( value.contains( "5" ) ); assertTrue( value.contains( "4 " ) ); assertTrue( value.contains( " 3... | private static Object mapToType( Type propertyType, Object value ) { final String stringValue = value.toString(); MappingStrategy strategy; if( propertyType instanceof Class ) { Class type = (Class) propertyType; if( type.isArray() ) { strategy = STRATEGY.get( Array.class ); } else if( Enum.class.isAssignableFrom( Clas... | PropertyMapper { private static Object mapToType( Type propertyType, Object value ) { final String stringValue = value.toString(); MappingStrategy strategy; if( propertyType instanceof Class ) { Class type = (Class) propertyType; if( type.isArray() ) { strategy = STRATEGY.get( Array.class ); } else if( Enum.class.isAss... | PropertyMapper { private static Object mapToType( Type propertyType, Object value ) { final String stringValue = value.toString(); MappingStrategy strategy; if( propertyType instanceof Class ) { Class type = (Class) propertyType; if( type.isArray() ) { strategy = STRATEGY.get( Array.class ); } else if( Enum.class.isAss... | PropertyMapper { private static Object mapToType( Type propertyType, Object value ) { final String stringValue = value.toString(); MappingStrategy strategy; if( propertyType instanceof Class ) { Class type = (Class) propertyType; if( type.isArray() ) { strategy = STRATEGY.get( Array.class ); } else if( Enum.class.isAss... | PropertyMapper { private static Object mapToType( Type propertyType, Object value ) { final String stringValue = value.toString(); MappingStrategy strategy; if( propertyType instanceof Class ) { Class type = (Class) propertyType; if( type.isArray() ) { strategy = STRATEGY.get( Array.class ); } else if( Enum.class.isAss... |
@Test public void givenPlainQueryWhenOrderBySecondPropertyExpectOrderedResult() { Query<TestComposite> query = module.newQueryBuilder( TestComposite.class ).newQuery( composites ); TestComposite template = templateFor( TestComposite.class ); query.orderBy( orderBy( template.b() ) ); verifyOrder( query, "123456" ); } | public <T> QueryBuilder<T> newQueryBuilder( final Class<T> resultType ) { NotQueryableException.throwIfNotQueryable( resultType ); final ServiceReference<EntityFinder> serviceReference; try { serviceReference = finder.findService( EntityFinder.class ); return new QueryBuilderImpl<T>( serviceReference.get(), resultType,... | QueryBuilderFactoryImpl implements QueryBuilderFactory { public <T> QueryBuilder<T> newQueryBuilder( final Class<T> resultType ) { NotQueryableException.throwIfNotQueryable( resultType ); final ServiceReference<EntityFinder> serviceReference; try { serviceReference = finder.findService( EntityFinder.class ); return new... | QueryBuilderFactoryImpl implements QueryBuilderFactory { public <T> QueryBuilder<T> newQueryBuilder( final Class<T> resultType ) { NotQueryableException.throwIfNotQueryable( resultType ); final ServiceReference<EntityFinder> serviceReference; try { serviceReference = finder.findService( EntityFinder.class ); return new... | QueryBuilderFactoryImpl implements QueryBuilderFactory { public <T> QueryBuilder<T> newQueryBuilder( final Class<T> resultType ) { NotQueryableException.throwIfNotQueryable( resultType ); final ServiceReference<EntityFinder> serviceReference; try { serviceReference = finder.findService( EntityFinder.class ); return new... | QueryBuilderFactoryImpl implements QueryBuilderFactory { public <T> QueryBuilder<T> newQueryBuilder( final Class<T> resultType ) { NotQueryableException.throwIfNotQueryable( resultType ); final ServiceReference<EntityFinder> serviceReference; try { serviceReference = finder.findService( EntityFinder.class ); return new... |
@Test public void testMappingOfMap() throws Exception { Type type = Testing.class.getDeclaredMethod( "map" ).getGenericReturnType(); Map<String, String> value = (Map<String, String>) mapToType( type, "first:5,second:4 , third:\" 3, \", fourth: \" 2\" ,fifth : 1" ); assertEquals( "5", value.get( "first" ) ); assertEqual... | private static Object mapToType( Type propertyType, Object value ) { final String stringValue = value.toString(); MappingStrategy strategy; if( propertyType instanceof Class ) { Class type = (Class) propertyType; if( type.isArray() ) { strategy = STRATEGY.get( Array.class ); } else if( Enum.class.isAssignableFrom( Clas... | PropertyMapper { private static Object mapToType( Type propertyType, Object value ) { final String stringValue = value.toString(); MappingStrategy strategy; if( propertyType instanceof Class ) { Class type = (Class) propertyType; if( type.isArray() ) { strategy = STRATEGY.get( Array.class ); } else if( Enum.class.isAss... | PropertyMapper { private static Object mapToType( Type propertyType, Object value ) { final String stringValue = value.toString(); MappingStrategy strategy; if( propertyType instanceof Class ) { Class type = (Class) propertyType; if( type.isArray() ) { strategy = STRATEGY.get( Array.class ); } else if( Enum.class.isAss... | PropertyMapper { private static Object mapToType( Type propertyType, Object value ) { final String stringValue = value.toString(); MappingStrategy strategy; if( propertyType instanceof Class ) { Class type = (Class) propertyType; if( type.isArray() ) { strategy = STRATEGY.get( Array.class ); } else if( Enum.class.isAss... | PropertyMapper { private static Object mapToType( Type propertyType, Object value ) { final String stringValue = value.toString(); MappingStrategy strategy; if( propertyType instanceof Class ) { Class type = (Class) propertyType; if( type.isArray() ) { strategy = STRATEGY.get( Array.class ); } else if( Enum.class.isAss... |
@Test public void testQualifiedNameWithDollar() { assertEquals( "Name containing dollar is modified", "Test-Test", new QualifiedName( TypeName.nameOf( "Test$Test" ), "satisfiedBy" ).type() ); } | public String type() { return typeName.normalized(); } | QualifiedName implements Comparable<QualifiedName>, Serializable { public String type() { return typeName.normalized(); } } | QualifiedName implements Comparable<QualifiedName>, Serializable { public String type() { return typeName.normalized(); } QualifiedName( TypeName typeName, String name ); } | QualifiedName implements Comparable<QualifiedName>, Serializable { public String type() { return typeName.normalized(); } QualifiedName( TypeName typeName, String name ); static QualifiedName fromAccessor( AccessibleObject method ); static QualifiedName fromClass( Class type, String name ); static QualifiedName fromNam... | QualifiedName implements Comparable<QualifiedName>, Serializable { public String type() { return typeName.normalized(); } QualifiedName( TypeName typeName, String name ); static QualifiedName fromAccessor( AccessibleObject method ); static QualifiedName fromClass( Class type, String name ); static QualifiedName fromNam... |
@Test( expected = NullArgumentException.class ) public void nonNullArguments4() { QualifiedName.fromQN( null ); } | public static QualifiedName fromQN( String qualifiedName ) { NullArgumentException.validateNotEmpty( "qualifiedName", qualifiedName ); int idx = qualifiedName.lastIndexOf( ":" ); if( idx == -1 ) { throw new IllegalArgumentException( "Name '" + qualifiedName + "' is not a qualified name" ); } final String type = qualifi... | QualifiedName implements Comparable<QualifiedName>, Serializable { public static QualifiedName fromQN( String qualifiedName ) { NullArgumentException.validateNotEmpty( "qualifiedName", qualifiedName ); int idx = qualifiedName.lastIndexOf( ":" ); if( idx == -1 ) { throw new IllegalArgumentException( "Name '" + qualified... | QualifiedName implements Comparable<QualifiedName>, Serializable { public static QualifiedName fromQN( String qualifiedName ) { NullArgumentException.validateNotEmpty( "qualifiedName", qualifiedName ); int idx = qualifiedName.lastIndexOf( ":" ); if( idx == -1 ) { throw new IllegalArgumentException( "Name '" + qualified... | QualifiedName implements Comparable<QualifiedName>, Serializable { public static QualifiedName fromQN( String qualifiedName ) { NullArgumentException.validateNotEmpty( "qualifiedName", qualifiedName ); int idx = qualifiedName.lastIndexOf( ":" ); if( idx == -1 ) { throw new IllegalArgumentException( "Name '" + qualified... | QualifiedName implements Comparable<QualifiedName>, Serializable { public static QualifiedName fromQN( String qualifiedName ) { NullArgumentException.validateNotEmpty( "qualifiedName", qualifiedName ); int idx = qualifiedName.lastIndexOf( ":" ); if( idx == -1 ) { throw new IllegalArgumentException( "Name '" + qualified... |
@Test( expected = NullArgumentException.class ) public void nonNullArguments5() { QualifiedName.fromAccessor( null ); } | public static QualifiedName fromAccessor( AccessibleObject method ) { NullArgumentException.validateNotNull( "method", method ); return fromClass( ((Member)method).getDeclaringClass(), ((Member)method).getName() ); } | QualifiedName implements Comparable<QualifiedName>, Serializable { public static QualifiedName fromAccessor( AccessibleObject method ) { NullArgumentException.validateNotNull( "method", method ); return fromClass( ((Member)method).getDeclaringClass(), ((Member)method).getName() ); } } | QualifiedName implements Comparable<QualifiedName>, Serializable { public static QualifiedName fromAccessor( AccessibleObject method ) { NullArgumentException.validateNotNull( "method", method ); return fromClass( ((Member)method).getDeclaringClass(), ((Member)method).getName() ); } QualifiedName( TypeName typeName, St... | QualifiedName implements Comparable<QualifiedName>, Serializable { public static QualifiedName fromAccessor( AccessibleObject method ) { NullArgumentException.validateNotNull( "method", method ); return fromClass( ((Member)method).getDeclaringClass(), ((Member)method).getName() ); } QualifiedName( TypeName typeName, St... | QualifiedName implements Comparable<QualifiedName>, Serializable { public static QualifiedName fromAccessor( AccessibleObject method ) { NullArgumentException.validateNotNull( "method", method ); return fromClass( ((Member)method).getDeclaringClass(), ((Member)method).getName() ); } QualifiedName( TypeName typeName, St... |
@Test( expected = NullArgumentException.class ) public void nonNullArguments6() { QualifiedName.fromClass( null, "satisfiedBy" ); } | public static QualifiedName fromClass( Class type, String name ) { return new QualifiedName( TypeName.nameOf( type ), name ); } | QualifiedName implements Comparable<QualifiedName>, Serializable { public static QualifiedName fromClass( Class type, String name ) { return new QualifiedName( TypeName.nameOf( type ), name ); } } | QualifiedName implements Comparable<QualifiedName>, Serializable { public static QualifiedName fromClass( Class type, String name ) { return new QualifiedName( TypeName.nameOf( type ), name ); } QualifiedName( TypeName typeName, String name ); } | QualifiedName implements Comparable<QualifiedName>, Serializable { public static QualifiedName fromClass( Class type, String name ) { return new QualifiedName( TypeName.nameOf( type ), name ); } QualifiedName( TypeName typeName, String name ); static QualifiedName fromAccessor( AccessibleObject method ); static Qualifi... | QualifiedName implements Comparable<QualifiedName>, Serializable { public static QualifiedName fromClass( Class type, String name ) { return new QualifiedName( TypeName.nameOf( type ), name ); } QualifiedName( TypeName typeName, String name ); static QualifiedName fromAccessor( AccessibleObject method ); static Qualifi... |
@Test( expected = NullArgumentException.class ) public void nonNullArguments7() { QualifiedName.fromClass( null, null ); } | public static QualifiedName fromClass( Class type, String name ) { return new QualifiedName( TypeName.nameOf( type ), name ); } | QualifiedName implements Comparable<QualifiedName>, Serializable { public static QualifiedName fromClass( Class type, String name ) { return new QualifiedName( TypeName.nameOf( type ), name ); } } | QualifiedName implements Comparable<QualifiedName>, Serializable { public static QualifiedName fromClass( Class type, String name ) { return new QualifiedName( TypeName.nameOf( type ), name ); } QualifiedName( TypeName typeName, String name ); } | QualifiedName implements Comparable<QualifiedName>, Serializable { public static QualifiedName fromClass( Class type, String name ) { return new QualifiedName( TypeName.nameOf( type ), name ); } QualifiedName( TypeName typeName, String name ); static QualifiedName fromAccessor( AccessibleObject method ); static Qualifi... | QualifiedName implements Comparable<QualifiedName>, Serializable { public static QualifiedName fromClass( Class type, String name ) { return new QualifiedName( TypeName.nameOf( type ), name ); } QualifiedName( TypeName typeName, String name ); static QualifiedName fromAccessor( AccessibleObject method ); static Qualifi... |
@Test public void testClassScannerJar() { Assert.assertEquals( 121, Iterables.count( getClasses( Test.class ) )); } | public static Iterable<Class<?>> getClasses( final Class<?> seedClass ) { CodeSource codeSource = seedClass.getProtectionDomain().getCodeSource(); if( codeSource == null ) { return Iterables.empty(); } URL location = codeSource.getLocation(); if( !location.getProtocol().equals( "file" ) ) { throw new IllegalArgumentExc... | ClassScanner { public static Iterable<Class<?>> getClasses( final Class<?> seedClass ) { CodeSource codeSource = seedClass.getProtectionDomain().getCodeSource(); if( codeSource == null ) { return Iterables.empty(); } URL location = codeSource.getLocation(); if( !location.getProtocol().equals( "file" ) ) { throw new Ill... | ClassScanner { public static Iterable<Class<?>> getClasses( final Class<?> seedClass ) { CodeSource codeSource = seedClass.getProtectionDomain().getCodeSource(); if( codeSource == null ) { return Iterables.empty(); } URL location = codeSource.getLocation(); if( !location.getProtocol().equals( "file" ) ) { throw new Ill... | ClassScanner { public static Iterable<Class<?>> getClasses( final Class<?> seedClass ) { CodeSource codeSource = seedClass.getProtectionDomain().getCodeSource(); if( codeSource == null ) { return Iterables.empty(); } URL location = codeSource.getLocation(); if( !location.getProtocol().equals( "file" ) ) { throw new Ill... | ClassScanner { public static Iterable<Class<?>> getClasses( final Class<?> seedClass ) { CodeSource codeSource = seedClass.getProtectionDomain().getCodeSource(); if( codeSource == null ) { return Iterables.empty(); } URL location = codeSource.getLocation(); if( !location.getProtocol().equals( "file" ) ) { throw new Ill... |
@Test public void testConstant() { String str = ""; for( String string : Iterables.limit( 3, Iterables.constant( "123" ) ) ) { str += string; } assertThat( str, CoreMatchers.equalTo( "123123123" ) ); } | public static <T> Iterable<T> constant( final T item ) { return new Iterable<T>() { @Override public Iterator<T> iterator() { return new Iterator<T>() { @Override public boolean hasNext() { return true; } @Override public T next() { return item; } @Override public void remove() { } }; } }; } | Iterables { public static <T> Iterable<T> constant( final T item ) { return new Iterable<T>() { @Override public Iterator<T> iterator() { return new Iterator<T>() { @Override public boolean hasNext() { return true; } @Override public T next() { return item; } @Override public void remove() { } }; } }; } } | Iterables { public static <T> Iterable<T> constant( final T item ) { return new Iterable<T>() { @Override public Iterator<T> iterator() { return new Iterator<T>() { @Override public boolean hasNext() { return true; } @Override public T next() { return item; } @Override public void remove() { } }; } }; } } | Iterables { public static <T> Iterable<T> constant( final T item ) { return new Iterable<T>() { @Override public Iterator<T> iterator() { return new Iterator<T>() { @Override public boolean hasNext() { return true; } @Override public T next() { return item; } @Override public void remove() { } }; } }; } static Iterabl... | Iterables { public static <T> Iterable<T> constant( final T item ) { return new Iterable<T>() { @Override public Iterator<T> iterator() { return new Iterator<T>() { @Override public boolean hasNext() { return true; } @Override public T next() { return item; } @Override public void remove() { } }; } }; } static Iterabl... |
@Test public void testUnique() { String str = ""; for( String string : Iterables.unique( Iterables.flatten( numbers, numbers, numbers ) )) { str += string; } assertThat( str, CoreMatchers.equalTo( "123" ) ); } | public static <T> Iterable<T> unique( final Iterable<T> iterable) { return new Iterable<T>() { @Override public Iterator<T> iterator() { final Iterator<T> iterator = iterable.iterator(); return new Iterator<T>() { Set<T> items = new HashSet<T>(); T nextItem; @Override public boolean hasNext() { while(iterator.hasNext()... | Iterables { public static <T> Iterable<T> unique( final Iterable<T> iterable) { return new Iterable<T>() { @Override public Iterator<T> iterator() { final Iterator<T> iterator = iterable.iterator(); return new Iterator<T>() { Set<T> items = new HashSet<T>(); T nextItem; @Override public boolean hasNext() { while(iterat... | Iterables { public static <T> Iterable<T> unique( final Iterable<T> iterable) { return new Iterable<T>() { @Override public Iterator<T> iterator() { final Iterator<T> iterator = iterable.iterator(); return new Iterator<T>() { Set<T> items = new HashSet<T>(); T nextItem; @Override public boolean hasNext() { while(iterat... | Iterables { public static <T> Iterable<T> unique( final Iterable<T> iterable) { return new Iterable<T>() { @Override public Iterator<T> iterator() { final Iterator<T> iterator = iterable.iterator(); return new Iterator<T>() { Set<T> items = new HashSet<T>(); T nextItem; @Override public boolean hasNext() { while(iterat... | Iterables { public static <T> Iterable<T> unique( final Iterable<T> iterable) { return new Iterable<T>() { @Override public Iterator<T> iterator() { final Iterator<T> iterator = iterable.iterator(); return new Iterator<T>() { Set<T> items = new HashSet<T>(); T nextItem; @Override public boolean hasNext() { while(iterat... |
@Test public void testAddAll() { List<String> strings = Iterables.toList( numbers ); assertThat( strings.toString(), equalTo( "[1, 2, 3]" ) ); assertThat( Iterables.toList( numberLongs ).toString(), equalTo( "[1, 2, 3]" ) ); } | public static <T, C extends Collection<T>> C addAll( C collection, Iterable<? extends T> iterable ) { for( T item : iterable ) { collection.add( item ); } return collection; } | Iterables { public static <T, C extends Collection<T>> C addAll( C collection, Iterable<? extends T> iterable ) { for( T item : iterable ) { collection.add( item ); } return collection; } } | Iterables { public static <T, C extends Collection<T>> C addAll( C collection, Iterable<? extends T> iterable ) { for( T item : iterable ) { collection.add( item ); } return collection; } } | Iterables { public static <T, C extends Collection<T>> C addAll( C collection, Iterable<? extends T> iterable ) { for( T item : iterable ) { collection.add( item ); } return collection; } static Iterable<T> empty(); static Iterable<T> constant( final T item ); static Iterable<T> limit( final int limitItems, final Iter... | Iterables { public static <T, C extends Collection<T>> C addAll( C collection, Iterable<? extends T> iterable ) { for( T item : iterable ) { collection.add( item ); } return collection; } static Iterable<T> empty(); static Iterable<T> constant( final T item ); static Iterable<T> limit( final int limitItems, final Iter... |
@Test public void givenPlainQueryWhenOrderByTwoPropertiesExpectOrderedResult() { Query<TestComposite> query = module.newQueryBuilder( TestComposite.class ).newQuery( composites ); TestComposite template = templateFor( TestComposite.class ); query.orderBy( orderBy( template.a() ), orderBy( template.b() ) ); verifyOrder(... | public <T> QueryBuilder<T> newQueryBuilder( final Class<T> resultType ) { NotQueryableException.throwIfNotQueryable( resultType ); final ServiceReference<EntityFinder> serviceReference; try { serviceReference = finder.findService( EntityFinder.class ); return new QueryBuilderImpl<T>( serviceReference.get(), resultType,... | QueryBuilderFactoryImpl implements QueryBuilderFactory { public <T> QueryBuilder<T> newQueryBuilder( final Class<T> resultType ) { NotQueryableException.throwIfNotQueryable( resultType ); final ServiceReference<EntityFinder> serviceReference; try { serviceReference = finder.findService( EntityFinder.class ); return new... | QueryBuilderFactoryImpl implements QueryBuilderFactory { public <T> QueryBuilder<T> newQueryBuilder( final Class<T> resultType ) { NotQueryableException.throwIfNotQueryable( resultType ); final ServiceReference<EntityFinder> serviceReference; try { serviceReference = finder.findService( EntityFinder.class ); return new... | QueryBuilderFactoryImpl implements QueryBuilderFactory { public <T> QueryBuilder<T> newQueryBuilder( final Class<T> resultType ) { NotQueryableException.throwIfNotQueryable( resultType ); final ServiceReference<EntityFinder> serviceReference; try { serviceReference = finder.findService( EntityFinder.class ); return new... | QueryBuilderFactoryImpl implements QueryBuilderFactory { public <T> QueryBuilder<T> newQueryBuilder( final Class<T> resultType ) { NotQueryableException.throwIfNotQueryable( resultType ); final ServiceReference<EntityFinder> serviceReference; try { serviceReference = finder.findService( EntityFinder.class ); return new... |
@Test public void testCount() { assertThat( Iterables.count( numbers ), equalTo( 3L ) ); } | public static long count( Iterable<?> iterable ) { long c = 0; Iterator<?> iterator = iterable.iterator(); while( iterator.hasNext() ) { iterator.next(); c++; } return c; } | Iterables { public static long count( Iterable<?> iterable ) { long c = 0; Iterator<?> iterator = iterable.iterator(); while( iterator.hasNext() ) { iterator.next(); c++; } return c; } } | Iterables { public static long count( Iterable<?> iterable ) { long c = 0; Iterator<?> iterator = iterable.iterator(); while( iterator.hasNext() ) { iterator.next(); c++; } return c; } } | Iterables { public static long count( Iterable<?> iterable ) { long c = 0; Iterator<?> iterator = iterable.iterator(); while( iterator.hasNext() ) { iterator.next(); c++; } return c; } static Iterable<T> empty(); static Iterable<T> constant( final T item ); static Iterable<T> limit( final int limitItems, final Iterabl... | Iterables { public static long count( Iterable<?> iterable ) { long c = 0; Iterator<?> iterator = iterable.iterator(); while( iterator.hasNext() ) { iterator.next(); c++; } return c; } static Iterable<T> empty(); static Iterable<T> constant( final T item ); static Iterable<T> limit( final int limitItems, final Iterabl... |
@Test public void testFilter() { assertThat( Iterables.first( Iterables.filter( Specifications.in( "2" ), numbers ) ), equalTo( "2" ) ); } | public static <X> Iterable<X> filter( Specification<? super X> specification, Iterable<X> i ) { return new FilterIterable<X>( i, specification ); } | Iterables { public static <X> Iterable<X> filter( Specification<? super X> specification, Iterable<X> i ) { return new FilterIterable<X>( i, specification ); } } | Iterables { public static <X> Iterable<X> filter( Specification<? super X> specification, Iterable<X> i ) { return new FilterIterable<X>( i, specification ); } } | Iterables { public static <X> Iterable<X> filter( Specification<? super X> specification, Iterable<X> i ) { return new FilterIterable<X>( i, specification ); } static Iterable<T> empty(); static Iterable<T> constant( final T item ); static Iterable<T> limit( final int limitItems, final Iterable<T> iterable ); static I... | Iterables { public static <X> Iterable<X> filter( Specification<? super X> specification, Iterable<X> i ) { return new FilterIterable<X>( i, specification ); } static Iterable<T> empty(); static Iterable<T> constant( final T item ); static Iterable<T> limit( final int limitItems, final Iterable<T> iterable ); static I... |
@Test public void testFirst() { assertThat( Iterables.first( numbers ), equalTo( "1" ) ); assertThat( Iterables.first( Collections.<Object>emptyList() ), CoreMatchers.<Object>nullValue() ); } | public static <X> X first( Iterable<? extends X> i ) { Iterator<? extends X> iter = i.iterator(); if( iter.hasNext() ) { return iter.next(); } else { return null; } } | Iterables { public static <X> X first( Iterable<? extends X> i ) { Iterator<? extends X> iter = i.iterator(); if( iter.hasNext() ) { return iter.next(); } else { return null; } } } | Iterables { public static <X> X first( Iterable<? extends X> i ) { Iterator<? extends X> iter = i.iterator(); if( iter.hasNext() ) { return iter.next(); } else { return null; } } } | Iterables { public static <X> X first( Iterable<? extends X> i ) { Iterator<? extends X> iter = i.iterator(); if( iter.hasNext() ) { return iter.next(); } else { return null; } } static Iterable<T> empty(); static Iterable<T> constant( final T item ); static Iterable<T> limit( final int limitItems, final Iterable<T> i... | Iterables { public static <X> X first( Iterable<? extends X> i ) { Iterator<? extends X> iter = i.iterator(); if( iter.hasNext() ) { return iter.next(); } else { return null; } } static Iterable<T> empty(); static Iterable<T> constant( final T item ); static Iterable<T> limit( final int limitItems, final Iterable<T> i... |
@Test public void testLast() { assertThat( Iterables.last( numbers ), equalTo( "3" ) ); assertThat( Iterables.last( Collections.<Object>emptyList() ), CoreMatchers.<Object>nullValue() ); } | public static <X> X last( Iterable<? extends X> i ) { Iterator<? extends X> iter = i.iterator(); X item = null; while( iter.hasNext() ) item = iter.next(); return item; } | Iterables { public static <X> X last( Iterable<? extends X> i ) { Iterator<? extends X> iter = i.iterator(); X item = null; while( iter.hasNext() ) item = iter.next(); return item; } } | Iterables { public static <X> X last( Iterable<? extends X> i ) { Iterator<? extends X> iter = i.iterator(); X item = null; while( iter.hasNext() ) item = iter.next(); return item; } } | Iterables { public static <X> X last( Iterable<? extends X> i ) { Iterator<? extends X> iter = i.iterator(); X item = null; while( iter.hasNext() ) item = iter.next(); return item; } static Iterable<T> empty(); static Iterable<T> constant( final T item ); static Iterable<T> limit( final int limitItems, final Iterable<... | Iterables { public static <X> X last( Iterable<? extends X> i ) { Iterator<? extends X> iter = i.iterator(); X item = null; while( iter.hasNext() ) item = iter.next(); return item; } static Iterable<T> empty(); static Iterable<T> constant( final T item ); static Iterable<T> limit( final int limitItems, final Iterable<... |
@Test public void testFolding() { assertThat( Iterables.fold( new Function<Integer, Integer>() { int sum = 0; @Override public Integer map( Integer number ) { return sum += number; } }, numberIntegers ), equalTo( 6 ) ); } | public static <FROM, TO> TO fold( Function<? super FROM, TO> function, Iterable<? extends FROM> i ) { return last( map( function, i ) ); } | Iterables { public static <FROM, TO> TO fold( Function<? super FROM, TO> function, Iterable<? extends FROM> i ) { return last( map( function, i ) ); } } | Iterables { public static <FROM, TO> TO fold( Function<? super FROM, TO> function, Iterable<? extends FROM> i ) { return last( map( function, i ) ); } } | Iterables { public static <FROM, TO> TO fold( Function<? super FROM, TO> function, Iterable<? extends FROM> i ) { return last( map( function, i ) ); } static Iterable<T> empty(); static Iterable<T> constant( final T item ); static Iterable<T> limit( final int limitItems, final Iterable<T> iterable ); static Iterable<T... | Iterables { public static <FROM, TO> TO fold( Function<? super FROM, TO> function, Iterable<? extends FROM> i ) { return last( map( function, i ) ); } static Iterable<T> empty(); static Iterable<T> constant( final T item ); static Iterable<T> limit( final int limitItems, final Iterable<T> iterable ); static Iterable<T... |
@Test public void testAppend() { assertThat( Iterables.toList(Iterables.append( "C", Iterables.iterable( "A","B" ) )).toString(), equalTo( "[A, B, C]" ) ); } | public static <T, C extends T> Iterable<T> append( final C item, final Iterable<T> iterable ) { return new Iterable<T>() { @Override public Iterator<T> iterator() { final Iterator<T> iterator = iterable.iterator(); return new Iterator<T>() { T last = item; @Override public boolean hasNext() { if(iterator.hasNext()) { r... | Iterables { public static <T, C extends T> Iterable<T> append( final C item, final Iterable<T> iterable ) { return new Iterable<T>() { @Override public Iterator<T> iterator() { final Iterator<T> iterator = iterable.iterator(); return new Iterator<T>() { T last = item; @Override public boolean hasNext() { if(iterator.ha... | Iterables { public static <T, C extends T> Iterable<T> append( final C item, final Iterable<T> iterable ) { return new Iterable<T>() { @Override public Iterator<T> iterator() { final Iterator<T> iterator = iterable.iterator(); return new Iterator<T>() { T last = item; @Override public boolean hasNext() { if(iterator.ha... | Iterables { public static <T, C extends T> Iterable<T> append( final C item, final Iterable<T> iterable ) { return new Iterable<T>() { @Override public Iterator<T> iterator() { final Iterator<T> iterator = iterable.iterator(); return new Iterator<T>() { T last = item; @Override public boolean hasNext() { if(iterator.ha... | Iterables { public static <T, C extends T> Iterable<T> append( final C item, final Iterable<T> iterable ) { return new Iterable<T>() { @Override public Iterator<T> iterator() { final Iterator<T> iterator = iterable.iterator(); return new Iterator<T>() { T last = item; @Override public boolean hasNext() { if(iterator.ha... |
@Test public void testReverse() { assertThat( Iterables.reverse( numbers ).toString(), equalTo( "[3, 2, 1]" ) ); assertThat( Iterables.reverse( Collections.<Object>emptyList() ), equalTo( (Object) Collections.<Object>emptyList() ) ); } | public static <X> Iterable<X> reverse( Iterable<X> iterable ) { List<X> list = toList( iterable ); Collections.reverse( list ); return list; } | Iterables { public static <X> Iterable<X> reverse( Iterable<X> iterable ) { List<X> list = toList( iterable ); Collections.reverse( list ); return list; } } | Iterables { public static <X> Iterable<X> reverse( Iterable<X> iterable ) { List<X> list = toList( iterable ); Collections.reverse( list ); return list; } } | Iterables { public static <X> Iterable<X> reverse( Iterable<X> iterable ) { List<X> list = toList( iterable ); Collections.reverse( list ); return list; } static Iterable<T> empty(); static Iterable<T> constant( final T item ); static Iterable<T> limit( final int limitItems, final Iterable<T> iterable ); static Iterab... | Iterables { public static <X> Iterable<X> reverse( Iterable<X> iterable ) { List<X> list = toList( iterable ); Collections.reverse( list ); return list; } static Iterable<T> empty(); static Iterable<T> constant( final T item ); static Iterable<T> limit( final int limitItems, final Iterable<T> iterable ); static Iterab... |
@Test public void testMatchesAny() { assertThat( Iterables.matchesAny( Specifications.in( "2" ), numbers ), equalTo( true ) ); assertThat( Iterables.matchesAny( Specifications.in( "4" ), numbers ), equalTo( false ) ); } | public static <T> boolean matchesAny( Specification<? super T> specification, Iterable<T> iterable ) { boolean result = false; for( T item : iterable ) { if( specification.satisfiedBy( item ) ) { result = true; break; } } return result; } | Iterables { public static <T> boolean matchesAny( Specification<? super T> specification, Iterable<T> iterable ) { boolean result = false; for( T item : iterable ) { if( specification.satisfiedBy( item ) ) { result = true; break; } } return result; } } | Iterables { public static <T> boolean matchesAny( Specification<? super T> specification, Iterable<T> iterable ) { boolean result = false; for( T item : iterable ) { if( specification.satisfiedBy( item ) ) { result = true; break; } } return result; } } | Iterables { public static <T> boolean matchesAny( Specification<? super T> specification, Iterable<T> iterable ) { boolean result = false; for( T item : iterable ) { if( specification.satisfiedBy( item ) ) { result = true; break; } } return result; } static Iterable<T> empty(); static Iterable<T> constant( final T ite... | Iterables { public static <T> boolean matchesAny( Specification<? super T> specification, Iterable<T> iterable ) { boolean result = false; for( T item : iterable ) { if( specification.satisfiedBy( item ) ) { result = true; break; } } return result; } static Iterable<T> empty(); static Iterable<T> constant( final T ite... |
@Test public void testMatchesAll() { assertThat( Iterables.matchesAll( Specifications.in( "1", "2", "3" ), numbers ), equalTo( true ) ); assertThat( Iterables.matchesAll( Specifications.in( "2", "3", "4" ), numbers ), equalTo( false ) ); } | public static <T> boolean matchesAll( Specification<? super T> specification, Iterable<T> iterable ) { boolean result = true; for( T item : iterable ) { if( !specification.satisfiedBy( item ) ) { result = false; } } return result; } | Iterables { public static <T> boolean matchesAll( Specification<? super T> specification, Iterable<T> iterable ) { boolean result = true; for( T item : iterable ) { if( !specification.satisfiedBy( item ) ) { result = false; } } return result; } } | Iterables { public static <T> boolean matchesAll( Specification<? super T> specification, Iterable<T> iterable ) { boolean result = true; for( T item : iterable ) { if( !specification.satisfiedBy( item ) ) { result = false; } } return result; } } | Iterables { public static <T> boolean matchesAll( Specification<? super T> specification, Iterable<T> iterable ) { boolean result = true; for( T item : iterable ) { if( !specification.satisfiedBy( item ) ) { result = false; } } return result; } static Iterable<T> empty(); static Iterable<T> constant( final T item ); s... | Iterables { public static <T> boolean matchesAll( Specification<? super T> specification, Iterable<T> iterable ) { boolean result = true; for( T item : iterable ) { if( !specification.satisfiedBy( item ) ) { result = false; } } return result; } static Iterable<T> empty(); static Iterable<T> constant( final T item ); s... |
@Test public void testFlatten() { assertThat( Iterables.toList( Iterables.flatten( numbers, numbers ) ) .toString(), equalTo( "[1, 2, 3, 1, 2, 3]" ) ); Iterable<? extends Number> flatten = Iterables.flatten( numberIntegers, numberLongs ); assertThat( Iterables.toList( flatten ) .toString(), equalTo( "[1, 2, 3, 1, 2, 3]... | public static <X, I extends Iterable<? extends X>> Iterable<X> flatten( I... multiIterator ) { return new FlattenIterable<X, I>( Arrays.asList( multiIterator ) ); } | Iterables { public static <X, I extends Iterable<? extends X>> Iterable<X> flatten( I... multiIterator ) { return new FlattenIterable<X, I>( Arrays.asList( multiIterator ) ); } } | Iterables { public static <X, I extends Iterable<? extends X>> Iterable<X> flatten( I... multiIterator ) { return new FlattenIterable<X, I>( Arrays.asList( multiIterator ) ); } } | Iterables { public static <X, I extends Iterable<? extends X>> Iterable<X> flatten( I... multiIterator ) { return new FlattenIterable<X, I>( Arrays.asList( multiIterator ) ); } static Iterable<T> empty(); static Iterable<T> constant( final T item ); static Iterable<T> limit( final int limitItems, final Iterable<T> ite... | Iterables { public static <X, I extends Iterable<? extends X>> Iterable<X> flatten( I... multiIterator ) { return new FlattenIterable<X, I>( Arrays.asList( multiIterator ) ); } static Iterable<T> empty(); static Iterable<T> constant( final T item ); static Iterable<T> limit( final int limitItems, final Iterable<T> ite... |
@Test public void givenPlainQueryWhenMaxedResultExpectLimitedResult() { Query<TestComposite> query = module.newQueryBuilder( TestComposite.class ).newQuery( composites ); query.maxResults( 5 ); verifyOrder( query, "62345" ); } | public <T> QueryBuilder<T> newQueryBuilder( final Class<T> resultType ) { NotQueryableException.throwIfNotQueryable( resultType ); final ServiceReference<EntityFinder> serviceReference; try { serviceReference = finder.findService( EntityFinder.class ); return new QueryBuilderImpl<T>( serviceReference.get(), resultType,... | QueryBuilderFactoryImpl implements QueryBuilderFactory { public <T> QueryBuilder<T> newQueryBuilder( final Class<T> resultType ) { NotQueryableException.throwIfNotQueryable( resultType ); final ServiceReference<EntityFinder> serviceReference; try { serviceReference = finder.findService( EntityFinder.class ); return new... | QueryBuilderFactoryImpl implements QueryBuilderFactory { public <T> QueryBuilder<T> newQueryBuilder( final Class<T> resultType ) { NotQueryableException.throwIfNotQueryable( resultType ); final ServiceReference<EntityFinder> serviceReference; try { serviceReference = finder.findService( EntityFinder.class ); return new... | QueryBuilderFactoryImpl implements QueryBuilderFactory { public <T> QueryBuilder<T> newQueryBuilder( final Class<T> resultType ) { NotQueryableException.throwIfNotQueryable( resultType ); final ServiceReference<EntityFinder> serviceReference; try { serviceReference = finder.findService( EntityFinder.class ); return new... | QueryBuilderFactoryImpl implements QueryBuilderFactory { public <T> QueryBuilder<T> newQueryBuilder( final Class<T> resultType ) { NotQueryableException.throwIfNotQueryable( resultType ); final ServiceReference<EntityFinder> serviceReference; try { serviceReference = finder.findService( EntityFinder.class ); return new... |
@Test public void testFlattenIterables() { Iterable<List<String>> iterable = Iterables.iterable( numbers, numbers ); assertThat( Iterables.toList( Iterables.flattenIterables( iterable ) ) .toString(), equalTo( "[1, 2, 3, 1, 2, 3]" ) ); } | public static <X, I extends Iterable<? extends X>> Iterable<X> flattenIterables( Iterable<I> multiIterator ) { return new FlattenIterable<X, I>( multiIterator ); } | Iterables { public static <X, I extends Iterable<? extends X>> Iterable<X> flattenIterables( Iterable<I> multiIterator ) { return new FlattenIterable<X, I>( multiIterator ); } } | Iterables { public static <X, I extends Iterable<? extends X>> Iterable<X> flattenIterables( Iterable<I> multiIterator ) { return new FlattenIterable<X, I>( multiIterator ); } } | Iterables { public static <X, I extends Iterable<? extends X>> Iterable<X> flattenIterables( Iterable<I> multiIterator ) { return new FlattenIterable<X, I>( multiIterator ); } static Iterable<T> empty(); static Iterable<T> constant( final T item ); static Iterable<T> limit( final int limitItems, final Iterable<T> iter... | Iterables { public static <X, I extends Iterable<? extends X>> Iterable<X> flattenIterables( Iterable<I> multiIterator ) { return new FlattenIterable<X, I>( multiIterator ); } static Iterable<T> empty(); static Iterable<T> constant( final T item ); static Iterable<T> limit( final int limitItems, final Iterable<T> iter... |
@Test public void testMix() { assertThat( Iterables.toList(Iterables.mix( Iterables.iterable( "A","B","C" ),Iterables.iterable( "1","2","3","4","5" ),Iterables.iterable( "X","Y","Z" ) )).toString(), equalTo( "[A, 1, X, B, 2, Y, C, 3, Z, 4, 5]" )); } | public static <T> Iterable<T> mix( final Iterable<T>... iterables ) { return new Iterable<T>() { @Override public Iterator<T> iterator() { final Iterable<Iterator<T>> iterators = toList(map( new Function<Iterable<T>, Iterator<T>>() { @Override public Iterator<T> map( Iterable<T> iterable ) { return iterable.iterator();... | Iterables { public static <T> Iterable<T> mix( final Iterable<T>... iterables ) { return new Iterable<T>() { @Override public Iterator<T> iterator() { final Iterable<Iterator<T>> iterators = toList(map( new Function<Iterable<T>, Iterator<T>>() { @Override public Iterator<T> map( Iterable<T> iterable ) { return iterable... | Iterables { public static <T> Iterable<T> mix( final Iterable<T>... iterables ) { return new Iterable<T>() { @Override public Iterator<T> iterator() { final Iterable<Iterator<T>> iterators = toList(map( new Function<Iterable<T>, Iterator<T>>() { @Override public Iterator<T> map( Iterable<T> iterable ) { return iterable... | Iterables { public static <T> Iterable<T> mix( final Iterable<T>... iterables ) { return new Iterable<T>() { @Override public Iterator<T> iterator() { final Iterable<Iterator<T>> iterators = toList(map( new Function<Iterable<T>, Iterator<T>>() { @Override public Iterator<T> map( Iterable<T> iterable ) { return iterable... | Iterables { public static <T> Iterable<T> mix( final Iterable<T>... iterables ) { return new Iterable<T>() { @Override public Iterator<T> iterator() { final Iterable<Iterator<T>> iterators = toList(map( new Function<Iterable<T>, Iterator<T>>() { @Override public Iterator<T> map( Iterable<T> iterable ) { return iterable... |
@Test public void testMap() { assertThat( Iterables.toList( Iterables.map( new Function<String, String>() { public String map( String s ) { return s + s; } }, numbers ) ).toString(), equalTo( "[11, 22, 33]" ) ); Iterable<List<String>> numberIterable = Iterables.iterable( numbers, numbers, numbers ); assertThat( Iterabl... | public static <FROM, TO> Iterable<TO> map( Function<? super FROM, TO> function, Iterable<FROM> from ) { return new MapIterable<FROM, TO>( from, function ); } | Iterables { public static <FROM, TO> Iterable<TO> map( Function<? super FROM, TO> function, Iterable<FROM> from ) { return new MapIterable<FROM, TO>( from, function ); } } | Iterables { public static <FROM, TO> Iterable<TO> map( Function<? super FROM, TO> function, Iterable<FROM> from ) { return new MapIterable<FROM, TO>( from, function ); } } | Iterables { public static <FROM, TO> Iterable<TO> map( Function<? super FROM, TO> function, Iterable<FROM> from ) { return new MapIterable<FROM, TO>( from, function ); } static Iterable<T> empty(); static Iterable<T> constant( final T item ); static Iterable<T> limit( final int limitItems, final Iterable<T> iterable )... | Iterables { public static <FROM, TO> Iterable<TO> map( Function<? super FROM, TO> function, Iterable<FROM> from ) { return new MapIterable<FROM, TO>( from, function ); } static Iterable<T> empty(); static Iterable<T> constant( final T item ); static Iterable<T> limit( final int limitItems, final Iterable<T> iterable )... |
@Test public void testCast() { Iterable<Long> values = numberLongs; Iterable<Number> numbers = Iterables.cast(values); } | public static <T, C> Iterable<T> cast( Iterable<C> iterable ) { Iterable iter = iterable; return iter; } | Iterables { public static <T, C> Iterable<T> cast( Iterable<C> iterable ) { Iterable iter = iterable; return iter; } } | Iterables { public static <T, C> Iterable<T> cast( Iterable<C> iterable ) { Iterable iter = iterable; return iter; } } | Iterables { public static <T, C> Iterable<T> cast( Iterable<C> iterable ) { Iterable iter = iterable; return iter; } static Iterable<T> empty(); static Iterable<T> constant( final T item ); static Iterable<T> limit( final int limitItems, final Iterable<T> iterable ); static Iterable<T> unique( final Iterable<T> iterab... | Iterables { public static <T, C> Iterable<T> cast( Iterable<C> iterable ) { Iterable iter = iterable; return iter; } static Iterable<T> empty(); static Iterable<T> constant( final T item ); static Iterable<T> limit( final int limitItems, final Iterable<T> iterable ); static Iterable<T> unique( final Iterable<T> iterab... |
@Test public void testDebug() { assertThat( Iterables.first( Iterables.debug( "Filtered number:{0}", Iterables.filter( Specifications.in( "2" ), Iterables.debug( "Number:{0}", numbers ) ) ) ), equalTo( "2" ) ); } | public static <T> Iterable<T> debug( String format, final Iterable<T> iterable, final Function<T, String>... functions ) { final MessageFormat msgFormat = new MessageFormat( format ); return map( new Function<T, T>() { @Override public T map( T t ) { if( functions.length == 0 ) debugLogger.info( msgFormat.format( new O... | Iterables { public static <T> Iterable<T> debug( String format, final Iterable<T> iterable, final Function<T, String>... functions ) { final MessageFormat msgFormat = new MessageFormat( format ); return map( new Function<T, T>() { @Override public T map( T t ) { if( functions.length == 0 ) debugLogger.info( msgFormat.f... | Iterables { public static <T> Iterable<T> debug( String format, final Iterable<T> iterable, final Function<T, String>... functions ) { final MessageFormat msgFormat = new MessageFormat( format ); return map( new Function<T, T>() { @Override public T map( T t ) { if( functions.length == 0 ) debugLogger.info( msgFormat.f... | Iterables { public static <T> Iterable<T> debug( String format, final Iterable<T> iterable, final Function<T, String>... functions ) { final MessageFormat msgFormat = new MessageFormat( format ); return map( new Function<T, T>() { @Override public T map( T t ) { if( functions.length == 0 ) debugLogger.info( msgFormat.f... | Iterables { public static <T> Iterable<T> debug( String format, final Iterable<T> iterable, final Function<T, String>... functions ) { final MessageFormat msgFormat = new MessageFormat( format ); return map( new Function<T, T>() { @Override public T map( T t ) { if( functions.length == 0 ) debugLogger.info( msgFormat.f... |
@Test public void testCache() { final int[] count = new int[1]; Iterable<String> b = Iterables.cache(Iterables.filter( Specifications.and( new Specification<String>() { @Override public boolean satisfiedBy( String item ) { count[0] = count[0]+1; return true; } }, Specifications.in( "B" )), Iterables.iterable( "A", "B",... | public static <T> Iterable<T> cache(Iterable<T> iterable) { return new CacheIterable<T>(iterable); } | Iterables { public static <T> Iterable<T> cache(Iterable<T> iterable) { return new CacheIterable<T>(iterable); } } | Iterables { public static <T> Iterable<T> cache(Iterable<T> iterable) { return new CacheIterable<T>(iterable); } } | Iterables { public static <T> Iterable<T> cache(Iterable<T> iterable) { return new CacheIterable<T>(iterable); } static Iterable<T> empty(); static Iterable<T> constant( final T item ); static Iterable<T> limit( final int limitItems, final Iterable<T> iterable ); static Iterable<T> unique( final Iterable<T> iterable);... | Iterables { public static <T> Iterable<T> cache(Iterable<T> iterable) { return new CacheIterable<T>(iterable); } static Iterable<T> empty(); static Iterable<T> constant( final T item ); static Iterable<T> limit( final int limitItems, final Iterable<T> iterable ); static Iterable<T> unique( final Iterable<T> iterable);... |
@Test public void testTRUE() { Assert.assertThat( Specifications.<Object>TRUE().satisfiedBy( new Object() ), equalTo( true ) ); } | public static <T> Specification<T> TRUE() { return new Specification<T>() { public boolean satisfiedBy( T instance ) { return true; } }; } | Specifications { public static <T> Specification<T> TRUE() { return new Specification<T>() { public boolean satisfiedBy( T instance ) { return true; } }; } } | Specifications { public static <T> Specification<T> TRUE() { return new Specification<T>() { public boolean satisfiedBy( T instance ) { return true; } }; } } | Specifications { public static <T> Specification<T> TRUE() { return new Specification<T>() { public boolean satisfiedBy( T instance ) { return true; } }; } static Specification<T> TRUE(); static Specification<T> not( final Specification<T> specification ); static AndSpecification<T> and( final Specification<T>... spec... | Specifications { public static <T> Specification<T> TRUE() { return new Specification<T>() { public boolean satisfiedBy( T instance ) { return true; } }; } static Specification<T> TRUE(); static Specification<T> not( final Specification<T> specification ); static AndSpecification<T> and( final Specification<T>... spec... |
@Test public void testNot() { Assert.assertThat( Specifications.not( Specifications.<Object>TRUE() ) .satisfiedBy( new Object() ), equalTo( false ) ); } | public static <T> Specification<T> not( final Specification<T> specification ) { return new Specification<T>() { public boolean satisfiedBy( T instance ) { return !specification.satisfiedBy( instance ); } }; } | Specifications { public static <T> Specification<T> not( final Specification<T> specification ) { return new Specification<T>() { public boolean satisfiedBy( T instance ) { return !specification.satisfiedBy( instance ); } }; } } | Specifications { public static <T> Specification<T> not( final Specification<T> specification ) { return new Specification<T>() { public boolean satisfiedBy( T instance ) { return !specification.satisfiedBy( instance ); } }; } } | Specifications { public static <T> Specification<T> not( final Specification<T> specification ) { return new Specification<T>() { public boolean satisfiedBy( T instance ) { return !specification.satisfiedBy( instance ); } }; } static Specification<T> TRUE(); static Specification<T> not( final Specification<T> specific... | Specifications { public static <T> Specification<T> not( final Specification<T> specification ) { return new Specification<T>() { public boolean satisfiedBy( T instance ) { return !specification.satisfiedBy( instance ); } }; } static Specification<T> TRUE(); static Specification<T> not( final Specification<T> specific... |
@Test public void testAnd() { Specification<Object> trueSpec = Specifications.<Object>TRUE(); Specification<Object> falseSpec = Specifications.not( Specifications.<Object>TRUE() ); Assert.assertThat( Specifications.and( falseSpec, falseSpec ).satisfiedBy( new Object() ), equalTo( false ) ); Assert.assertThat( Specifica... | public static <T> AndSpecification<T> and( final Specification<T>... specifications ) { return and( Iterables.iterable( specifications )); } | Specifications { public static <T> AndSpecification<T> and( final Specification<T>... specifications ) { return and( Iterables.iterable( specifications )); } } | Specifications { public static <T> AndSpecification<T> and( final Specification<T>... specifications ) { return and( Iterables.iterable( specifications )); } } | Specifications { public static <T> AndSpecification<T> and( final Specification<T>... specifications ) { return and( Iterables.iterable( specifications )); } static Specification<T> TRUE(); static Specification<T> not( final Specification<T> specification ); static AndSpecification<T> and( final Specification<T>... sp... | Specifications { public static <T> AndSpecification<T> and( final Specification<T>... specifications ) { return and( Iterables.iterable( specifications )); } static Specification<T> TRUE(); static Specification<T> not( final Specification<T> specification ); static AndSpecification<T> and( final Specification<T>... sp... |
@Test public void testOr() { Specification<Object> trueSpec = Specifications.<Object>TRUE(); Specification<Object> falseSpec = Specifications.not( Specifications.<Object>TRUE() ); Assert.assertThat( Specifications.or( falseSpec, falseSpec ).satisfiedBy( new Object() ), equalTo( false ) ); Assert.assertThat( Specificati... | public static <T> OrSpecification<T> or( final Specification<T>... specifications ) { return or( Iterables.iterable( specifications ) ); } | Specifications { public static <T> OrSpecification<T> or( final Specification<T>... specifications ) { return or( Iterables.iterable( specifications ) ); } } | Specifications { public static <T> OrSpecification<T> or( final Specification<T>... specifications ) { return or( Iterables.iterable( specifications ) ); } } | Specifications { public static <T> OrSpecification<T> or( final Specification<T>... specifications ) { return or( Iterables.iterable( specifications ) ); } static Specification<T> TRUE(); static Specification<T> not( final Specification<T> specification ); static AndSpecification<T> and( final Specification<T>... spec... | Specifications { public static <T> OrSpecification<T> or( final Specification<T>... specifications ) { return or( Iterables.iterable( specifications ) ); } static Specification<T> TRUE(); static Specification<T> not( final Specification<T> specification ); static AndSpecification<T> and( final Specification<T>... spec... |
@Test public void givenPlainQueryWhenFirstResultIsBeyondFirstElementExpectLimitedResult() { Query<TestComposite> query = module.newQueryBuilder( TestComposite.class ).newQuery( composites ); query.firstResult( 2 ); verifyOrder( query, "3451" ); } | public <T> QueryBuilder<T> newQueryBuilder( final Class<T> resultType ) { NotQueryableException.throwIfNotQueryable( resultType ); final ServiceReference<EntityFinder> serviceReference; try { serviceReference = finder.findService( EntityFinder.class ); return new QueryBuilderImpl<T>( serviceReference.get(), resultType,... | QueryBuilderFactoryImpl implements QueryBuilderFactory { public <T> QueryBuilder<T> newQueryBuilder( final Class<T> resultType ) { NotQueryableException.throwIfNotQueryable( resultType ); final ServiceReference<EntityFinder> serviceReference; try { serviceReference = finder.findService( EntityFinder.class ); return new... | QueryBuilderFactoryImpl implements QueryBuilderFactory { public <T> QueryBuilder<T> newQueryBuilder( final Class<T> resultType ) { NotQueryableException.throwIfNotQueryable( resultType ); final ServiceReference<EntityFinder> serviceReference; try { serviceReference = finder.findService( EntityFinder.class ); return new... | QueryBuilderFactoryImpl implements QueryBuilderFactory { public <T> QueryBuilder<T> newQueryBuilder( final Class<T> resultType ) { NotQueryableException.throwIfNotQueryable( resultType ); final ServiceReference<EntityFinder> serviceReference; try { serviceReference = finder.findService( EntityFinder.class ); return new... | QueryBuilderFactoryImpl implements QueryBuilderFactory { public <T> QueryBuilder<T> newQueryBuilder( final Class<T> resultType ) { NotQueryableException.throwIfNotQueryable( resultType ); final ServiceReference<EntityFinder> serviceReference; try { serviceReference = finder.findService( EntityFinder.class ); return new... |
@Test public void testIn() { Assert.assertThat( Specifications.in( "1", "2", "3" ).satisfiedBy( "2" ), equalTo( true ) ); Assert.assertThat( Specifications.in( "1", "2", "3" ).satisfiedBy( "4" ), equalTo( false ) ); } | public static <T> Specification<T> in( final T... allowed ) { return in( Iterables.iterable( allowed ) ); } | Specifications { public static <T> Specification<T> in( final T... allowed ) { return in( Iterables.iterable( allowed ) ); } } | Specifications { public static <T> Specification<T> in( final T... allowed ) { return in( Iterables.iterable( allowed ) ); } } | Specifications { public static <T> Specification<T> in( final T... allowed ) { return in( Iterables.iterable( allowed ) ); } static Specification<T> TRUE(); static Specification<T> not( final Specification<T> specification ); static AndSpecification<T> and( final Specification<T>... specifications ); static AndSpecifi... | Specifications { public static <T> Specification<T> in( final T... allowed ) { return in( Iterables.iterable( allowed ) ); } static Specification<T> TRUE(); static Specification<T> not( final Specification<T> specification ); static AndSpecification<T> and( final Specification<T>... specifications ); static AndSpecifi... |
@Test public void testTranslate() { Function<Object, String> stringifier = new Function<Object, String>() { @Override public String map( Object s ) { return s.toString(); } }; Assert.assertTrue( Specifications.translate( stringifier, Specifications.in( "3" ) ).satisfiedBy( 3L ) ); } | public static <FROM,TO> Specification<FROM> translate( final Function<FROM,TO> function, final Specification<? super TO> specification) { return new Specification<FROM>() { @Override public boolean satisfiedBy( FROM item ) { return specification.satisfiedBy( function.map( item ) ); } }; } | Specifications { public static <FROM,TO> Specification<FROM> translate( final Function<FROM,TO> function, final Specification<? super TO> specification) { return new Specification<FROM>() { @Override public boolean satisfiedBy( FROM item ) { return specification.satisfiedBy( function.map( item ) ); } }; } } | Specifications { public static <FROM,TO> Specification<FROM> translate( final Function<FROM,TO> function, final Specification<? super TO> specification) { return new Specification<FROM>() { @Override public boolean satisfiedBy( FROM item ) { return specification.satisfiedBy( function.map( item ) ); } }; } } | Specifications { public static <FROM,TO> Specification<FROM> translate( final Function<FROM,TO> function, final Specification<? super TO> specification) { return new Specification<FROM>() { @Override public boolean satisfiedBy( FROM item ) { return specification.satisfiedBy( function.map( item ) ); } }; } static Speci... | Specifications { public static <FROM,TO> Specification<FROM> translate( final Function<FROM,TO> function, final Specification<? super TO> specification) { return new Specification<FROM>() { @Override public boolean satisfiedBy( FROM item ) { return specification.satisfiedBy( function.map( item ) ); } }; } static Speci... |
@Test public void testCompose() { assertThat( Functions.<Object, String, Integer>compose().map( length, stringifier ).map( 12345L ), equalTo( 5 ) ); assertThat( compose( length, stringifier ).map( 12345L ), equalTo( 5 ) ); } | public static <A,B,C> Function2<Function<? super B,C>,Function<A,B>, Function<A,C>> compose() { return new Function2<Function<? super B, C>, Function<A, B>, Function<A, C>>() { @Override public Function<A, C> map( Function<? super B, C> bcFunction, Function<A, B> abFunction ) { return compose( bcFunction, abFunction );... | Functions { public static <A,B,C> Function2<Function<? super B,C>,Function<A,B>, Function<A,C>> compose() { return new Function2<Function<? super B, C>, Function<A, B>, Function<A, C>>() { @Override public Function<A, C> map( Function<? super B, C> bcFunction, Function<A, B> abFunction ) { return compose( bcFunction, a... | Functions { public static <A,B,C> Function2<Function<? super B,C>,Function<A,B>, Function<A,C>> compose() { return new Function2<Function<? super B, C>, Function<A, B>, Function<A, C>>() { @Override public Function<A, C> map( Function<? super B, C> bcFunction, Function<A, B> abFunction ) { return compose( bcFunction, a... | Functions { public static <A,B,C> Function2<Function<? super B,C>,Function<A,B>, Function<A,C>> compose() { return new Function2<Function<? super B, C>, Function<A, B>, Function<A, C>>() { @Override public Function<A, C> map( Function<? super B, C> bcFunction, Function<A, B> abFunction ) { return compose( bcFunction, a... | Functions { public static <A,B,C> Function2<Function<? super B,C>,Function<A,B>, Function<A,C>> compose() { return new Function2<Function<? super B, C>, Function<A, B>, Function<A, C>>() { @Override public Function<A, C> map( Function<? super B, C> bcFunction, Function<A, B> abFunction ) { return compose( bcFunction, a... |
@Test public void testFromMap() { Map<String,String> map = new HashMap<String, String>( ); map.put( "A","1" ); map.put( "B","2" ); map.put( "C","3" ); assertThat( Iterables.toList( Iterables.filter( Specifications.notNull(), Iterables.map( Functions.fromMap( map ), Iterables.iterable( "A", "B", "D" ) ) ) ).toString(), ... | public static <FROM,TO> Function<FROM,TO> fromMap( final Map<FROM,TO> map) { return new Function<FROM,TO>() { @Override public TO map( FROM from ) { return map.get( from ); } }; } | Functions { public static <FROM,TO> Function<FROM,TO> fromMap( final Map<FROM,TO> map) { return new Function<FROM,TO>() { @Override public TO map( FROM from ) { return map.get( from ); } }; } } | Functions { public static <FROM,TO> Function<FROM,TO> fromMap( final Map<FROM,TO> map) { return new Function<FROM,TO>() { @Override public TO map( FROM from ) { return map.get( from ); } }; } } | Functions { public static <FROM,TO> Function<FROM,TO> fromMap( final Map<FROM,TO> map) { return new Function<FROM,TO>() { @Override public TO map( FROM from ) { return map.get( from ); } }; } static Function2<Function<? super B,C>,Function<A,B>, Function<A,C>> compose(); static Function<FROM,TO> compose( final Functio... | Functions { public static <FROM,TO> Function<FROM,TO> fromMap( final Map<FROM,TO> map) { return new Function<FROM,TO>() { @Override public TO map( FROM from ) { return map.get( from ); } }; } static Function2<Function<? super B,C>,Function<A,B>, Function<A,C>> compose(); static Function<FROM,TO> compose( final Functio... |
@Test public void testWithDefault() { assertThat( Iterables.toList( Iterables.map( Functions.withDefault( "DEFAULT" ), Iterables.iterable( "123", null, "456" ) ) ).toString(), equalTo( "[123, DEFAULT, 456]" ) ); } | public static <T> Function<T,T> withDefault( final T defaultValue) { return new Function<T, T>() { @Override public T map( T from ) { if (from == null) return defaultValue; else return from; } }; } | Functions { public static <T> Function<T,T> withDefault( final T defaultValue) { return new Function<T, T>() { @Override public T map( T from ) { if (from == null) return defaultValue; else return from; } }; } } | Functions { public static <T> Function<T,T> withDefault( final T defaultValue) { return new Function<T, T>() { @Override public T map( T from ) { if (from == null) return defaultValue; else return from; } }; } } | Functions { public static <T> Function<T,T> withDefault( final T defaultValue) { return new Function<T, T>() { @Override public T map( T from ) { if (from == null) return defaultValue; else return from; } }; } static Function2<Function<? super B,C>,Function<A,B>, Function<A,C>> compose(); static Function<FROM,TO> comp... | Functions { public static <T> Function<T,T> withDefault( final T defaultValue) { return new Function<T, T>() { @Override public T map( T from ) { if (from == null) return defaultValue; else return from; } }; } static Function2<Function<? super B,C>,Function<A,B>, Function<A,C>> compose(); static Function<FROM,TO> comp... |
@Test public void testLongSum() { assertThat( last( map( longSum(), iterable( 1, 2L, 3F, 4D ) ) ), equalTo( 10L ) ); } | public static final Function<Number, Long> longSum() { return new Function<Number, Long>() { long sum; @Override public Long map( Number number ) { sum += number.longValue(); return sum; } }; } | Functions { public static final Function<Number, Long> longSum() { return new Function<Number, Long>() { long sum; @Override public Long map( Number number ) { sum += number.longValue(); return sum; } }; } } | Functions { public static final Function<Number, Long> longSum() { return new Function<Number, Long>() { long sum; @Override public Long map( Number number ) { sum += number.longValue(); return sum; } }; } } | Functions { public static final Function<Number, Long> longSum() { return new Function<Number, Long>() { long sum; @Override public Long map( Number number ) { sum += number.longValue(); return sum; } }; } static Function2<Function<? super B,C>,Function<A,B>, Function<A,C>> compose(); static Function<FROM,TO> compose(... | Functions { public static final Function<Number, Long> longSum() { return new Function<Number, Long>() { long sum; @Override public Long map( Number number ) { sum += number.longValue(); return sum; } }; } static Function2<Function<? super B,C>,Function<A,B>, Function<A,C>> compose(); static Function<FROM,TO> compose(... |
@Test public void testIntSum() { assertThat( last( map( intSum(), iterable( 1, 2L, 3F, 4D ) ) ), equalTo( 10 ) ); } | public static Function<Number, Integer> intSum() { return new Function<Number, Integer>() { int sum; @Override public Integer map( Number number ) { sum += number.intValue(); return sum; } }; } | Functions { public static Function<Number, Integer> intSum() { return new Function<Number, Integer>() { int sum; @Override public Integer map( Number number ) { sum += number.intValue(); return sum; } }; } } | Functions { public static Function<Number, Integer> intSum() { return new Function<Number, Integer>() { int sum; @Override public Integer map( Number number ) { sum += number.intValue(); return sum; } }; } } | Functions { public static Function<Number, Integer> intSum() { return new Function<Number, Integer>() { int sum; @Override public Integer map( Number number ) { sum += number.intValue(); return sum; } }; } static Function2<Function<? super B,C>,Function<A,B>, Function<A,C>> compose(); static Function<FROM,TO> compose(... | Functions { public static Function<Number, Integer> intSum() { return new Function<Number, Integer>() { int sum; @Override public Integer map( Number number ) { sum += number.intValue(); return sum; } }; } static Function2<Function<? super B,C>,Function<A,B>, Function<A,C>> compose(); static Function<FROM,TO> compose(... |
@Test public void testCount() { assertThat( last( map( count( in( "X" ) ), iterable( "X","Y","X","X","Y" ) ) ), equalTo( 3 ) ); } | public static <T> Function<T, Integer> count( final Specification<T> specification) { return new Function<T, Integer>() { int count; @Override public Integer map( T item ) { if (specification.satisfiedBy( item )) count++; return count; } }; } | Functions { public static <T> Function<T, Integer> count( final Specification<T> specification) { return new Function<T, Integer>() { int count; @Override public Integer map( T item ) { if (specification.satisfiedBy( item )) count++; return count; } }; } } | Functions { public static <T> Function<T, Integer> count( final Specification<T> specification) { return new Function<T, Integer>() { int count; @Override public Integer map( T item ) { if (specification.satisfiedBy( item )) count++; return count; } }; } } | Functions { public static <T> Function<T, Integer> count( final Specification<T> specification) { return new Function<T, Integer>() { int count; @Override public Integer map( T item ) { if (specification.satisfiedBy( item )) count++; return count; } }; } static Function2<Function<? super B,C>,Function<A,B>, Function<A... | Functions { public static <T> Function<T, Integer> count( final Specification<T> specification) { return new Function<T, Integer>() { int count; @Override public Integer map( T item ) { if (specification.satisfiedBy( item )) count++; return count; } }; } static Function2<Function<? super B,C>,Function<A,B>, Function<A... |
@Test public void testIndexOf() { assertThat( last( map( indexOf( in( "D" ) ), iterable( "A","B","C","D","D" ) ) ), equalTo( 3 ) ); } | public static <T> Function<T, Integer> indexOf( final Specification<T> specification) { return new Function<T, Integer>() { int index = -1; int current = 0; @Override public Integer map( T item ) { if (index == -1 && specification.satisfiedBy( item )) index = current; current++; return index; } }; } | Functions { public static <T> Function<T, Integer> indexOf( final Specification<T> specification) { return new Function<T, Integer>() { int index = -1; int current = 0; @Override public Integer map( T item ) { if (index == -1 && specification.satisfiedBy( item )) index = current; current++; return index; } }; } } | Functions { public static <T> Function<T, Integer> indexOf( final Specification<T> specification) { return new Function<T, Integer>() { int index = -1; int current = 0; @Override public Integer map( T item ) { if (index == -1 && specification.satisfiedBy( item )) index = current; current++; return index; } }; } } | Functions { public static <T> Function<T, Integer> indexOf( final Specification<T> specification) { return new Function<T, Integer>() { int index = -1; int current = 0; @Override public Integer map( T item ) { if (index == -1 && specification.satisfiedBy( item )) index = current; current++; return index; } }; } static... | Functions { public static <T> Function<T, Integer> indexOf( final Specification<T> specification) { return new Function<T, Integer>() { int index = -1; int current = 0; @Override public Integer map( T item ) { if (index == -1 && specification.satisfiedBy( item )) index = current; current++; return index; } }; } static... |
@Test public void testIndexOf2() { assertThat( indexOf( "D", iterable( "A","B","C","D","D" )), equalTo( 3 ) ); } | public static <T> Function<T, Integer> indexOf( final Specification<T> specification) { return new Function<T, Integer>() { int index = -1; int current = 0; @Override public Integer map( T item ) { if (index == -1 && specification.satisfiedBy( item )) index = current; current++; return index; } }; } | Functions { public static <T> Function<T, Integer> indexOf( final Specification<T> specification) { return new Function<T, Integer>() { int index = -1; int current = 0; @Override public Integer map( T item ) { if (index == -1 && specification.satisfiedBy( item )) index = current; current++; return index; } }; } } | Functions { public static <T> Function<T, Integer> indexOf( final Specification<T> specification) { return new Function<T, Integer>() { int index = -1; int current = 0; @Override public Integer map( T item ) { if (index == -1 && specification.satisfiedBy( item )) index = current; current++; return index; } }; } } | Functions { public static <T> Function<T, Integer> indexOf( final Specification<T> specification) { return new Function<T, Integer>() { int index = -1; int current = 0; @Override public Integer map( T item ) { if (index == -1 && specification.satisfiedBy( item )) index = current; current++; return index; } }; } static... | Functions { public static <T> Function<T, Integer> indexOf( final Specification<T> specification) { return new Function<T, Integer>() { int index = -1; int current = 0; @Override public Integer map( T item ) { if (index == -1 && specification.satisfiedBy( item )) index = current; current++; return index; } }; } static... |
@Test public void givenWhereQueryWhenWhereClauseLimitsToRangeExpectLimitedResult() { final QueryBuilder<TestComposite> qb = module.newQueryBuilder( TestComposite.class ); TestComposite template = templateFor( TestComposite.class ); Query<TestComposite> query = qb.where( and( ge( template.b(), 3 ), lt( template.b(), 5 )... | public <T> QueryBuilder<T> newQueryBuilder( final Class<T> resultType ) { NotQueryableException.throwIfNotQueryable( resultType ); final ServiceReference<EntityFinder> serviceReference; try { serviceReference = finder.findService( EntityFinder.class ); return new QueryBuilderImpl<T>( serviceReference.get(), resultType,... | QueryBuilderFactoryImpl implements QueryBuilderFactory { public <T> QueryBuilder<T> newQueryBuilder( final Class<T> resultType ) { NotQueryableException.throwIfNotQueryable( resultType ); final ServiceReference<EntityFinder> serviceReference; try { serviceReference = finder.findService( EntityFinder.class ); return new... | QueryBuilderFactoryImpl implements QueryBuilderFactory { public <T> QueryBuilder<T> newQueryBuilder( final Class<T> resultType ) { NotQueryableException.throwIfNotQueryable( resultType ); final ServiceReference<EntityFinder> serviceReference; try { serviceReference = finder.findService( EntityFinder.class ); return new... | QueryBuilderFactoryImpl implements QueryBuilderFactory { public <T> QueryBuilder<T> newQueryBuilder( final Class<T> resultType ) { NotQueryableException.throwIfNotQueryable( resultType ); final ServiceReference<EntityFinder> serviceReference; try { serviceReference = finder.findService( EntityFinder.class ); return new... | QueryBuilderFactoryImpl implements QueryBuilderFactory { public <T> QueryBuilder<T> newQueryBuilder( final Class<T> resultType ) { NotQueryableException.throwIfNotQueryable( resultType ); final ServiceReference<EntityFinder> serviceReference; try { serviceReference = finder.findService( EntityFinder.class ); return new... |
@Test public void testComparator() { Comparator<Integer> comparator = Functions.comparator( new Function<Integer, Comparable>() { @Override public Comparable map( Integer integer ) { return integer.toString(); } } ); List<Integer> integers = Iterables.toList( Iterables.iterable( 1, 5, 3, 6, 8 ) ); Collections.sort( int... | public static <T> Comparator<T> comparator( final Function<T, Comparable> comparableFunction) { return new Comparator<T>() { Map<T, Comparable> compareKeys = new HashMap<T, Comparable>(); public int compare( T o1, T o2 ) { Comparable key1 = compareKeys.get( o1 ); if (key1 == null) { key1 = comparableFunction.map( o1 );... | Functions { public static <T> Comparator<T> comparator( final Function<T, Comparable> comparableFunction) { return new Comparator<T>() { Map<T, Comparable> compareKeys = new HashMap<T, Comparable>(); public int compare( T o1, T o2 ) { Comparable key1 = compareKeys.get( o1 ); if (key1 == null) { key1 = comparableFunctio... | Functions { public static <T> Comparator<T> comparator( final Function<T, Comparable> comparableFunction) { return new Comparator<T>() { Map<T, Comparable> compareKeys = new HashMap<T, Comparable>(); public int compare( T o1, T o2 ) { Comparable key1 = compareKeys.get( o1 ); if (key1 == null) { key1 = comparableFunctio... | Functions { public static <T> Comparator<T> comparator( final Function<T, Comparable> comparableFunction) { return new Comparator<T>() { Map<T, Comparable> compareKeys = new HashMap<T, Comparable>(); public int compare( T o1, T o2 ) { Comparable key1 = compareKeys.get( o1 ); if (key1 == null) { key1 = comparableFunctio... | Functions { public static <T> Comparator<T> comparator( final Function<T, Comparable> comparableFunction) { return new Comparator<T>() { Map<T, Comparable> compareKeys = new HashMap<T, Comparable>(); public int compare( T o1, T o2 ) { Comparable key1 = compareKeys.get( o1 ); if (key1 == null) { key1 = comparableFunctio... |
@Test public void givenManyAssociationContainsQueryWhenExecutedThenReturnCorrect() throws EntityFinderException { QueryBuilder<Person> qb = qbf.newQueryBuilder( Person.class ); Person person = templateFor( Person.class ); Domain value = Network.domains().iterator().next(); Query<Person> query = qb.where( QueryExpressio... | @Override public <T> Iterator<T> iterator( Class<T> resultType, Specification<Composite> whereClause, Iterable<OrderBy> orderBySegments, Integer firstResult, Integer maxResults, Map<String, Object> variables ) { return list(resultType, whereClause, orderBySegments, firstResult, maxResults, variables).iterator(); } | IterableQuerySource implements QuerySource { @Override public <T> Iterator<T> iterator( Class<T> resultType, Specification<Composite> whereClause, Iterable<OrderBy> orderBySegments, Integer firstResult, Integer maxResults, Map<String, Object> variables ) { return list(resultType, whereClause, orderBySegments, firstResu... | IterableQuerySource implements QuerySource { @Override public <T> Iterator<T> iterator( Class<T> resultType, Specification<Composite> whereClause, Iterable<OrderBy> orderBySegments, Integer firstResult, Integer maxResults, Map<String, Object> variables ) { return list(resultType, whereClause, orderBySegments, firstResu... | IterableQuerySource implements QuerySource { @Override public <T> Iterator<T> iterator( Class<T> resultType, Specification<Composite> whereClause, Iterable<OrderBy> orderBySegments, Integer firstResult, Integer maxResults, Map<String, Object> variables ) { return list(resultType, whereClause, orderBySegments, firstResu... | IterableQuerySource implements QuerySource { @Override public <T> Iterator<T> iterator( Class<T> resultType, Specification<Composite> whereClause, Iterable<OrderBy> orderBySegments, Integer firstResult, Integer maxResults, Map<String, Object> variables ) { return list(resultType, whereClause, orderBySegments, firstResu... |
@Test public void whenAskingForDependencyGivenThatGraphContainsCyclicDepThenDetectTheError() throws Exception { Thing thing1 = new Thing(); Thing thing2 = new Thing(); Thing thing3 = new Thing(); Thing thing4 = new Thing(); Thing thing5 = new Thing(); Thing thing6 = new Thing(); Thing thing7 = new Thing(); thing1.uses.... | public List<K> resolveOrder() throws BindingException { if( resolved == null ) { buildUsageGraph(); resolved = new LinkedList<K>(); for( K item : data ) { int pos = resolved.size(); for( K entry : resolved ) { if( transitiveUse( entry, item ) ) { pos = resolved.indexOf( entry ); break; } } resolved.add( pos, item ); } ... | UsageGraph { public List<K> resolveOrder() throws BindingException { if( resolved == null ) { buildUsageGraph(); resolved = new LinkedList<K>(); for( K item : data ) { int pos = resolved.size(); for( K entry : resolved ) { if( transitiveUse( entry, item ) ) { pos = resolved.indexOf( entry ); break; } } resolved.add( po... | UsageGraph { public List<K> resolveOrder() throws BindingException { if( resolved == null ) { buildUsageGraph(); resolved = new LinkedList<K>(); for( K item : data ) { int pos = resolved.size(); for( K entry : resolved ) { if( transitiveUse( entry, item ) ) { pos = resolved.indexOf( entry ); break; } } resolved.add( po... | UsageGraph { public List<K> resolveOrder() throws BindingException { if( resolved == null ) { buildUsageGraph(); resolved = new LinkedList<K>(); for( K item : data ) { int pos = resolved.size(); for( K entry : resolved ) { if( transitiveUse( entry, item ) ) { pos = resolved.indexOf( entry ); break; } } resolved.add( po... | UsageGraph { public List<K> resolveOrder() throws BindingException { if( resolved == null ) { buildUsageGraph(); resolved = new LinkedList<K>(); for( K item : data ) { int pos = resolved.size(); for( K entry : resolved ) { if( transitiveUse( entry, item ) ) { pos = resolved.indexOf( entry ); break; } } resolved.add( po... |
@Test public void whenAskingForResolveOrderGivenThatGraphContainsCyclicDepThenDetectTheError() throws Exception { Thing thing1 = new Thing(); Thing thing2 = new Thing(); Thing thing3 = new Thing(); Thing thing4 = new Thing(); Thing thing5 = new Thing(); Thing thing6 = new Thing(); Thing thing7 = new Thing(); thing1.use... | public boolean transitiveUse( K source, K other ) throws BindingException { if( transitive == null ) { buildUsageGraph(); } return transitive.containsKey( source ) && transitive.get( source ).contains( other ); } | UsageGraph { public boolean transitiveUse( K source, K other ) throws BindingException { if( transitive == null ) { buildUsageGraph(); } return transitive.containsKey( source ) && transitive.get( source ).contains( other ); } } | UsageGraph { public boolean transitiveUse( K source, K other ) throws BindingException { if( transitive == null ) { buildUsageGraph(); } return transitive.containsKey( source ) && transitive.get( source ).contains( other ); } UsageGraph( Collection<K> data, Use<K> use, boolean allowCyclic ); } | UsageGraph { public boolean transitiveUse( K source, K other ) throws BindingException { if( transitive == null ) { buildUsageGraph(); } return transitive.containsKey( source ) && transitive.get( source ).contains( other ); } UsageGraph( Collection<K> data, Use<K> use, boolean allowCyclic ); boolean transitiveUse( K so... | UsageGraph { public boolean transitiveUse( K source, K other ) throws BindingException { if( transitive == null ) { buildUsageGraph(); } return transitive.containsKey( source ) && transitive.get( source ).contains( other ); } UsageGraph( Collection<K> data, Use<K> use, boolean allowCyclic ); boolean transitiveUse( K so... |
@Test public void testInvoke() throws Throwable { JRubyComposite domain = module.newTransientBuilder( JRubyComposite.class ).newInstance(); Assert.assertEquals( "do1() in Ruby mixin.", domain.do1() ); } | public Object invoke( Object proxy, Method method, Object[] args ) throws Throwable { try { Class declaringClass = method.getDeclaringClass(); IRubyObject rubyObject = rubyObjects.get( declaringClass ); if( rubyObject == null ) { try { rubyObject = runtime.evalScriptlet( declaringClass.getSimpleName() + ".new()" ); } c... | JRubyMixin implements InvocationHandler, ScriptReloadable { public Object invoke( Object proxy, Method method, Object[] args ) throws Throwable { try { Class declaringClass = method.getDeclaringClass(); IRubyObject rubyObject = rubyObjects.get( declaringClass ); if( rubyObject == null ) { try { rubyObject = runtime.eva... | JRubyMixin implements InvocationHandler, ScriptReloadable { public Object invoke( Object proxy, Method method, Object[] args ) throws Throwable { try { Class declaringClass = method.getDeclaringClass(); IRubyObject rubyObject = rubyObjects.get( declaringClass ); if( rubyObject == null ) { try { rubyObject = runtime.eva... | JRubyMixin implements InvocationHandler, ScriptReloadable { public Object invoke( Object proxy, Method method, Object[] args ) throws Throwable { try { Class declaringClass = method.getDeclaringClass(); IRubyObject rubyObject = rubyObjects.get( declaringClass ); if( rubyObject == null ) { try { rubyObject = runtime.eva... | JRubyMixin implements InvocationHandler, ScriptReloadable { public Object invoke( Object proxy, Method method, Object[] args ) throws Throwable { try { Class declaringClass = method.getDeclaringClass(); IRubyObject rubyObject = rubyObjects.get( declaringClass ); if( rubyObject == null ) { try { rubyObject = runtime.eva... |
@Test public void testInvoke() { GroovyComposite domain1 = module.newTransient( GroovyComposite.class ); GroovyComposite domain2 = module.newTransient( GroovyComposite.class ); Assert.assertEquals( "do1() in Groovy:1", domain1.do1() ); Assert.assertEquals( "do1() in Groovy:2", domain1.do1() ); Assert.assertEquals( "do1... | public Object invoke( Object proxy, Method method, Object[] args ) throws Throwable { final FunctionResource groovySource = getFunctionResource( method ); if( groovySource != null ) { if( groovySource.script ) { return invokeAsObject( method, args, groovySource.url ); } return invokeAsScript( method, args, groovySource... | GroovyMixin implements InvocationHandler { public Object invoke( Object proxy, Method method, Object[] args ) throws Throwable { final FunctionResource groovySource = getFunctionResource( method ); if( groovySource != null ) { if( groovySource.script ) { return invokeAsObject( method, args, groovySource.url ); } return... | GroovyMixin implements InvocationHandler { public Object invoke( Object proxy, Method method, Object[] args ) throws Throwable { final FunctionResource groovySource = getFunctionResource( method ); if( groovySource != null ) { if( groovySource.script ) { return invokeAsObject( method, args, groovySource.url ); } return... | GroovyMixin implements InvocationHandler { public Object invoke( Object proxy, Method method, Object[] args ) throws Throwable { final FunctionResource groovySource = getFunctionResource( method ); if( groovySource != null ) { if( groovySource.script ) { return invokeAsObject( method, args, groovySource.url ); } return... | GroovyMixin implements InvocationHandler { public Object invoke( Object proxy, Method method, Object[] args ) throws Throwable { final FunctionResource groovySource = getFunctionResource( method ); if( groovySource != null ) { if( groovySource.script ) { return invokeAsObject( method, args, groovySource.url ); } return... |
@Test public void testInvoke() throws Throwable { JavaScriptComposite domain = module.newTransient( JavaScriptComposite.class ); Assert.assertEquals( "do1 script \" and ' for many cases is harder.", domain.do1() ); } | public Object invoke( Object proxy, Method method, Object[] args ) throws Throwable { Context cx = Context.enter(); try { Scriptable proxyScope = Context.toObject( proxy, instanceScope ); proxyScope.setPrototype( instanceScope ); proxyScope.put( "compositeBuilderFactory", proxyScope, factory ); proxyScope.put( "This", ... | JavaScriptMixin implements InvocationHandler, ScriptReloadable { public Object invoke( Object proxy, Method method, Object[] args ) throws Throwable { Context cx = Context.enter(); try { Scriptable proxyScope = Context.toObject( proxy, instanceScope ); proxyScope.setPrototype( instanceScope ); proxyScope.put( "composit... | JavaScriptMixin implements InvocationHandler, ScriptReloadable { public Object invoke( Object proxy, Method method, Object[] args ) throws Throwable { Context cx = Context.enter(); try { Scriptable proxyScope = Context.toObject( proxy, instanceScope ); proxyScope.setPrototype( instanceScope ); proxyScope.put( "composit... | JavaScriptMixin implements InvocationHandler, ScriptReloadable { public Object invoke( Object proxy, Method method, Object[] args ) throws Throwable { Context cx = Context.enter(); try { Scriptable proxyScope = Context.toObject( proxy, instanceScope ); proxyScope.setPrototype( instanceScope ); proxyScope.put( "composit... | JavaScriptMixin implements InvocationHandler, ScriptReloadable { public Object invoke( Object proxy, Method method, Object[] args ) throws Throwable { Context cx = Context.enter(); try { Scriptable proxyScope = Context.toObject( proxy, instanceScope ); proxyScope.setPrototype( instanceScope ); proxyScope.put( "composit... |
@Test public void testInvoke() throws Throwable { BeanShellComposite domain1 = module.newTransient( BeanShellComposite.class ); BeanShellComposite domain2 = module.newTransient( BeanShellComposite.class ); Assert.assertEquals( "do1() in Beanshell:1", domain1.do1() ); Assert.assertEquals( "do1() in Beanshell:2", domain1... | public Object invoke( Object proxy, Method method, Object[] args ) throws Throwable { Interpreter runtime; synchronized( BeanShellMixin.class ) { runtime = runtimes.get( module ); } if( runtime == null ) { runtime = new Interpreter(); BshClassManager.createClassManager( runtime ); Class compositeType = me.getClass().ge... | BeanShellMixin implements InvocationHandler, ScriptReloadable { public Object invoke( Object proxy, Method method, Object[] args ) throws Throwable { Interpreter runtime; synchronized( BeanShellMixin.class ) { runtime = runtimes.get( module ); } if( runtime == null ) { runtime = new Interpreter(); BshClassManager.creat... | BeanShellMixin implements InvocationHandler, ScriptReloadable { public Object invoke( Object proxy, Method method, Object[] args ) throws Throwable { Interpreter runtime; synchronized( BeanShellMixin.class ) { runtime = runtimes.get( module ); } if( runtime == null ) { runtime = new Interpreter(); BshClassManager.creat... | BeanShellMixin implements InvocationHandler, ScriptReloadable { public Object invoke( Object proxy, Method method, Object[] args ) throws Throwable { Interpreter runtime; synchronized( BeanShellMixin.class ) { runtime = runtimes.get( module ); } if( runtime == null ) { runtime = new Interpreter(); BshClassManager.creat... | BeanShellMixin implements InvocationHandler, ScriptReloadable { public Object invoke( Object proxy, Method method, Object[] args ) throws Throwable { Interpreter runtime; synchronized( BeanShellMixin.class ) { runtime = runtimes.get( module ); } if( runtime == null ) { runtime = new Interpreter(); BshClassManager.creat... |
@Test public void testRouter() throws IOException { final List<DomainEventValue> matched = new ArrayList<DomainEventValue>( ); EventRouter<IOException> router = new EventRouter<IOException>(); router.route( Events.withNames( "Test1", "Test2" ), new Receiver<DomainEventValue,IOException>() { @Override public void receiv... | public EventRouter route( Specification<DomainEventValue> specification, Receiver<DomainEventValue, T> receiver ) { routeEvent.put( specification, receiver ); return this; } | EventRouter implements Output<DomainEventValue, T>, Receiver<UnitOfWorkDomainEventsValue, T> { public EventRouter route( Specification<DomainEventValue> specification, Receiver<DomainEventValue, T> receiver ) { routeEvent.put( specification, receiver ); return this; } } | EventRouter implements Output<DomainEventValue, T>, Receiver<UnitOfWorkDomainEventsValue, T> { public EventRouter route( Specification<DomainEventValue> specification, Receiver<DomainEventValue, T> receiver ) { routeEvent.put( specification, receiver ); return this; } } | EventRouter implements Output<DomainEventValue, T>, Receiver<UnitOfWorkDomainEventsValue, T> { public EventRouter route( Specification<DomainEventValue> specification, Receiver<DomainEventValue, T> receiver ) { routeEvent.put( specification, receiver ); return this; } EventRouter route( Specification<DomainEventValue>... | EventRouter implements Output<DomainEventValue, T>, Receiver<UnitOfWorkDomainEventsValue, T> { public EventRouter route( Specification<DomainEventValue> specification, Receiver<DomainEventValue, T> receiver ) { routeEvent.put( specification, receiver ); return this; } EventRouter route( Specification<DomainEventValue>... |
@Test public void testIterablesEvents() { assertThat( count( events( list ) ), equalTo( 6L ) ); iterable( events( list ) ).transferTo( systemOut() ); } | public static Iterable<DomainEventValue> events( Iterable<UnitOfWorkDomainEventsValue> transactions ) { return Iterables.flattenIterables( Iterables.map( new Function<UnitOfWorkDomainEventsValue, Iterable<DomainEventValue>>() { @Override public Iterable<DomainEventValue> map( UnitOfWorkDomainEventsValue unitOfWorkDomai... | Events { public static Iterable<DomainEventValue> events( Iterable<UnitOfWorkDomainEventsValue> transactions ) { return Iterables.flattenIterables( Iterables.map( new Function<UnitOfWorkDomainEventsValue, Iterable<DomainEventValue>>() { @Override public Iterable<DomainEventValue> map( UnitOfWorkDomainEventsValue unitOf... | Events { public static Iterable<DomainEventValue> events( Iterable<UnitOfWorkDomainEventsValue> transactions ) { return Iterables.flattenIterables( Iterables.map( new Function<UnitOfWorkDomainEventsValue, Iterable<DomainEventValue>>() { @Override public Iterable<DomainEventValue> map( UnitOfWorkDomainEventsValue unitOf... | Events { public static Iterable<DomainEventValue> events( Iterable<UnitOfWorkDomainEventsValue> transactions ) { return Iterables.flattenIterables( Iterables.map( new Function<UnitOfWorkDomainEventsValue, Iterable<DomainEventValue>>() { @Override public Iterable<DomainEventValue> map( UnitOfWorkDomainEventsValue unitOf... | Events { public static Iterable<DomainEventValue> events( Iterable<UnitOfWorkDomainEventsValue> transactions ) { return Iterables.flattenIterables( Iterables.map( new Function<UnitOfWorkDomainEventsValue, Iterable<DomainEventValue>>() { @Override public Iterable<DomainEventValue> map( UnitOfWorkDomainEventsValue unitOf... |
@Test public void testEntityTypeSerializer() throws RDFHandlerException { EntityDescriptor entityDescriptor = module.entityDescriptor(TestEntity.class.getName()); Iterable<Statement> graph = serializer.serialize( entityDescriptor ); String[] prefixes = new String[]{ "rdf", "dc", " vc", "qi4j" }; String[] namespaces = n... | public EntityTypeSerializer() { dataTypes.put( String.class.getName(), XMLSchema.STRING ); dataTypes.put( Integer.class.getName(), XMLSchema.INT ); dataTypes.put( Boolean.class.getName(), XMLSchema.BOOLEAN ); dataTypes.put( Byte.class.getName(), XMLSchema.BYTE ); dataTypes.put( BigDecimal.class.getName(), XMLSchema.DEC... | EntityTypeSerializer { public EntityTypeSerializer() { dataTypes.put( String.class.getName(), XMLSchema.STRING ); dataTypes.put( Integer.class.getName(), XMLSchema.INT ); dataTypes.put( Boolean.class.getName(), XMLSchema.BOOLEAN ); dataTypes.put( Byte.class.getName(), XMLSchema.BYTE ); dataTypes.put( BigDecimal.class.g... | EntityTypeSerializer { public EntityTypeSerializer() { dataTypes.put( String.class.getName(), XMLSchema.STRING ); dataTypes.put( Integer.class.getName(), XMLSchema.INT ); dataTypes.put( Boolean.class.getName(), XMLSchema.BOOLEAN ); dataTypes.put( Byte.class.getName(), XMLSchema.BYTE ); dataTypes.put( BigDecimal.class.g... | EntityTypeSerializer { public EntityTypeSerializer() { dataTypes.put( String.class.getName(), XMLSchema.STRING ); dataTypes.put( Integer.class.getName(), XMLSchema.INT ); dataTypes.put( Boolean.class.getName(), XMLSchema.BOOLEAN ); dataTypes.put( Byte.class.getName(), XMLSchema.BYTE ); dataTypes.put( BigDecimal.class.g... | EntityTypeSerializer { public EntityTypeSerializer() { dataTypes.put( String.class.getName(), XMLSchema.STRING ); dataTypes.put( Integer.class.getName(), XMLSchema.INT ); dataTypes.put( Boolean.class.getName(), XMLSchema.BOOLEAN ); dataTypes.put( Byte.class.getName(), XMLSchema.BYTE ); dataTypes.put( BigDecimal.class.g... |
@Test public void findParameterizedType() { assertEquals( GarbageMan.class.getGenericInterfaces()[ 0 ], ParameterizedTypes.findParameterizedType( GarbageMan.class, HandlerOf.class ) ); } | public static <S, T extends S> ParameterizedType findParameterizedType( Class<T> type, Class<S> searchType ) { return ParameterizedTypes.findParameterizedType( (Type) type, searchType ); } | ParameterizedTypes { public static <S, T extends S> ParameterizedType findParameterizedType( Class<T> type, Class<S> searchType ) { return ParameterizedTypes.findParameterizedType( (Type) type, searchType ); } } | ParameterizedTypes { public static <S, T extends S> ParameterizedType findParameterizedType( Class<T> type, Class<S> searchType ) { return ParameterizedTypes.findParameterizedType( (Type) type, searchType ); } private ParameterizedTypes(); } | ParameterizedTypes { public static <S, T extends S> ParameterizedType findParameterizedType( Class<T> type, Class<S> searchType ) { return ParameterizedTypes.findParameterizedType( (Type) type, searchType ); } private ParameterizedTypes(); static Type[] findTypeVariables( Class<T> type, Class<S> searchType ); static P... | ParameterizedTypes { public static <S, T extends S> ParameterizedType findParameterizedType( Class<T> type, Class<S> searchType ) { return ParameterizedTypes.findParameterizedType( (Type) type, searchType ); } private ParameterizedTypes(); static Type[] findTypeVariables( Class<T> type, Class<S> searchType ); static P... |
@Test public void findTypeVariables() { assertArrayEquals( ((ParameterizedType) GarbageMan.class.getGenericInterfaces()[0]).getActualTypeArguments(), ParameterizedTypes.findTypeVariables( GarbageMan.class, HandlerOf.class ) ); } | public static <S, T extends S> Type[] findTypeVariables( Class<T> type, Class<S> searchType ) { return ParameterizedTypes.findParameterizedType( type, searchType ).getActualTypeArguments(); } | ParameterizedTypes { public static <S, T extends S> Type[] findTypeVariables( Class<T> type, Class<S> searchType ) { return ParameterizedTypes.findParameterizedType( type, searchType ).getActualTypeArguments(); } } | ParameterizedTypes { public static <S, T extends S> Type[] findTypeVariables( Class<T> type, Class<S> searchType ) { return ParameterizedTypes.findParameterizedType( type, searchType ).getActualTypeArguments(); } private ParameterizedTypes(); } | ParameterizedTypes { public static <S, T extends S> Type[] findTypeVariables( Class<T> type, Class<S> searchType ) { return ParameterizedTypes.findParameterizedType( type, searchType ).getActualTypeArguments(); } private ParameterizedTypes(); static Type[] findTypeVariables( Class<T> type, Class<S> searchType ); stati... | ParameterizedTypes { public static <S, T extends S> Type[] findTypeVariables( Class<T> type, Class<S> searchType ) { return ParameterizedTypes.findParameterizedType( type, searchType ).getActualTypeArguments(); } private ParameterizedTypes(); static Type[] findTypeVariables( Class<T> type, Class<S> searchType ); stati... |
@Test @Ignore( "The entire QRM is buggered." ) public void testInitializer() throws Exception { final DBInitializerConfiguration info = derbyDatabaseHandler.createDbInitializerConfigMock(); final DBInitializer initializer = new DBInitializer(); Properties connectionProperties = info.connectionProperties().get(); String... | public final void initialize( String schemaUrl, String dataUrl, String dbUrl, Properties connectionProperties ) throws SQLException, IOException { Connection connection1 = getSqlConnection( dbUrl, connectionProperties ); runScript( schemaUrl, connection1 ); Connection connection2 = getSqlConnection( dbUrl, connectionPr... | DBInitializer implements Serializable { public final void initialize( String schemaUrl, String dataUrl, String dbUrl, Properties connectionProperties ) throws SQLException, IOException { Connection connection1 = getSqlConnection( dbUrl, connectionProperties ); runScript( schemaUrl, connection1 ); Connection connection2... | DBInitializer implements Serializable { public final void initialize( String schemaUrl, String dataUrl, String dbUrl, Properties connectionProperties ) throws SQLException, IOException { Connection connection1 = getSqlConnection( dbUrl, connectionProperties ); runScript( schemaUrl, connection1 ); Connection connection2... | DBInitializer implements Serializable { public final void initialize( String schemaUrl, String dataUrl, String dbUrl, Properties connectionProperties ) throws SQLException, IOException { Connection connection1 = getSqlConnection( dbUrl, connectionProperties ); runScript( schemaUrl, connection1 ); Connection connection2... | DBInitializer implements Serializable { public final void initialize( String schemaUrl, String dataUrl, String dbUrl, Properties connectionProperties ) throws SQLException, IOException { Connection connection1 = getSqlConnection( dbUrl, connectionProperties ); runScript( schemaUrl, connection1 ); Connection connection2... |
@Test public void convertToUpperCase() { assertEquals( "identity -> ID", "ID", converter.convertIdentifier( QualifiedName.fromQN( "abc:identity" ) ) ); assertEquals( "uppercase ABC", "ABC", converter.convertIdentifier( QualifiedName.fromQN( "abc:abc" ) ) ); assertEquals( "removed qualified prefix", "ABC", converter.con... | public String convertIdentifier( final QualifiedName qualifiedIdentifier ) { final String name = qualifiedIdentifier.name(); if( name.equalsIgnoreCase( "identity" ) ) { return "ID"; } return name.toUpperCase(); } | CapitalizingIdentifierConverter implements IdentifierConverter { public String convertIdentifier( final QualifiedName qualifiedIdentifier ) { final String name = qualifiedIdentifier.name(); if( name.equalsIgnoreCase( "identity" ) ) { return "ID"; } return name.toUpperCase(); } } | CapitalizingIdentifierConverter implements IdentifierConverter { public String convertIdentifier( final QualifiedName qualifiedIdentifier ) { final String name = qualifiedIdentifier.name(); if( name.equalsIgnoreCase( "identity" ) ) { return "ID"; } return name.toUpperCase(); } } | CapitalizingIdentifierConverter implements IdentifierConverter { public String convertIdentifier( final QualifiedName qualifiedIdentifier ) { final String name = qualifiedIdentifier.name(); if( name.equalsIgnoreCase( "identity" ) ) { return "ID"; } return name.toUpperCase(); } String convertIdentifier( final Qualified... | CapitalizingIdentifierConverter implements IdentifierConverter { public String convertIdentifier( final QualifiedName qualifiedIdentifier ) { final String name = qualifiedIdentifier.name(); if( name.equalsIgnoreCase( "identity" ) ) { return "ID"; } return name.toUpperCase(); } String convertIdentifier( final Qualified... |
@Test public void removeFromMap() { Map<String, Object> rawData = new HashMap<String, Object>(); rawData.put( "ABC", "test" ); assertEquals( "converted key and found value", "test", converter.getValueFromData( rawData, QualifiedName.fromQN( "aaa:abc" ) ) ); assertEquals( "entry removed", 0, rawData.size() ); } | public Object getValueFromData( final Map<String, Object> rawData, final QualifiedName qualifiedName ) { String convertedIdentifier = convertIdentifier( qualifiedName ); if( rawData.containsKey( convertedIdentifier ) ) { return rawData.remove( convertedIdentifier ); } return null; } | CapitalizingIdentifierConverter implements IdentifierConverter { public Object getValueFromData( final Map<String, Object> rawData, final QualifiedName qualifiedName ) { String convertedIdentifier = convertIdentifier( qualifiedName ); if( rawData.containsKey( convertedIdentifier ) ) { return rawData.remove( convertedId... | CapitalizingIdentifierConverter implements IdentifierConverter { public Object getValueFromData( final Map<String, Object> rawData, final QualifiedName qualifiedName ) { String convertedIdentifier = convertIdentifier( qualifiedName ); if( rawData.containsKey( convertedIdentifier ) ) { return rawData.remove( convertedId... | CapitalizingIdentifierConverter implements IdentifierConverter { public Object getValueFromData( final Map<String, Object> rawData, final QualifiedName qualifiedName ) { String convertedIdentifier = convertIdentifier( qualifiedName ); if( rawData.containsKey( convertedIdentifier ) ) { return rawData.remove( convertedId... | CapitalizingIdentifierConverter implements IdentifierConverter { public Object getValueFromData( final Map<String, Object> rawData, final QualifiedName qualifiedName ) { String convertedIdentifier = convertIdentifier( qualifiedName ); if( rawData.containsKey( convertedIdentifier ) ) { return rawData.remove( convertedId... |
@Test public void nullIfNotFound() { Map<String, Object> rawData = new HashMap<String, Object>(); assertEquals( "converted key and found value", null, converter.getValueFromData( rawData, QualifiedName.fromQN( "aaa:abc" ) ) ); } | public Object getValueFromData( final Map<String, Object> rawData, final QualifiedName qualifiedName ) { String convertedIdentifier = convertIdentifier( qualifiedName ); if( rawData.containsKey( convertedIdentifier ) ) { return rawData.remove( convertedIdentifier ); } return null; } | CapitalizingIdentifierConverter implements IdentifierConverter { public Object getValueFromData( final Map<String, Object> rawData, final QualifiedName qualifiedName ) { String convertedIdentifier = convertIdentifier( qualifiedName ); if( rawData.containsKey( convertedIdentifier ) ) { return rawData.remove( convertedId... | CapitalizingIdentifierConverter implements IdentifierConverter { public Object getValueFromData( final Map<String, Object> rawData, final QualifiedName qualifiedName ) { String convertedIdentifier = convertIdentifier( qualifiedName ); if( rawData.containsKey( convertedIdentifier ) ) { return rawData.remove( convertedId... | CapitalizingIdentifierConverter implements IdentifierConverter { public Object getValueFromData( final Map<String, Object> rawData, final QualifiedName qualifiedName ) { String convertedIdentifier = convertIdentifier( qualifiedName ); if( rawData.containsKey( convertedIdentifier ) ) { return rawData.remove( convertedId... | CapitalizingIdentifierConverter implements IdentifierConverter { public Object getValueFromData( final Map<String, Object> rawData, final QualifiedName qualifiedName ) { String convertedIdentifier = convertIdentifier( qualifiedName ); if( rawData.containsKey( convertedIdentifier ) ) { return rawData.remove( convertedId... |
@Test public void convertMapKeys() { Map<QualifiedName, Object> rawData = new HashMap<QualifiedName, Object>(); rawData.put( QualifiedName.fromQN( "abc:abc" ), "test1" ); rawData.put( QualifiedName.fromQN( "abc:DEF" ), "test2" ); rawData.put( QualifiedName.fromQN( "aaa:GHI" ), "test3" ); rawData.put( QualifiedName.from... | public Map<String, Object> convertKeys( Map<QualifiedName, Object> rawData ) { Map<String, Object> result = new HashMap<String, Object>( rawData.size() ); for( Map.Entry<QualifiedName, Object> entry : rawData.entrySet() ) { final String convertedIdentifier = convertIdentifier( entry.getKey() ); if( result.containsKey( ... | CapitalizingIdentifierConverter implements IdentifierConverter { public Map<String, Object> convertKeys( Map<QualifiedName, Object> rawData ) { Map<String, Object> result = new HashMap<String, Object>( rawData.size() ); for( Map.Entry<QualifiedName, Object> entry : rawData.entrySet() ) { final String convertedIdentifie... | CapitalizingIdentifierConverter implements IdentifierConverter { public Map<String, Object> convertKeys( Map<QualifiedName, Object> rawData ) { Map<String, Object> result = new HashMap<String, Object>( rawData.size() ); for( Map.Entry<QualifiedName, Object> entry : rawData.entrySet() ) { final String convertedIdentifie... | CapitalizingIdentifierConverter implements IdentifierConverter { public Map<String, Object> convertKeys( Map<QualifiedName, Object> rawData ) { Map<String, Object> result = new HashMap<String, Object>( rawData.size() ); for( Map.Entry<QualifiedName, Object> entry : rawData.entrySet() ) { final String convertedIdentifie... | CapitalizingIdentifierConverter implements IdentifierConverter { public Map<String, Object> convertKeys( Map<QualifiedName, Object> rawData ) { Map<String, Object> result = new HashMap<String, Object>( rawData.size() ); for( Map.Entry<QualifiedName, Object> entry : rawData.entrySet() ) { final String convertedIdentifie... |
@Test( expected = IllegalArgumentException.class ) public void failDuplicateKeys() { Map<QualifiedName, Object> rawData = new HashMap<QualifiedName, Object>(); rawData.put( QualifiedName.fromQN( "abc" ), "test1" ); rawData.put( QualifiedName.fromQN( "ABC" ), "test2" ); converter.convertKeys( rawData ); } | public Map<String, Object> convertKeys( Map<QualifiedName, Object> rawData ) { Map<String, Object> result = new HashMap<String, Object>( rawData.size() ); for( Map.Entry<QualifiedName, Object> entry : rawData.entrySet() ) { final String convertedIdentifier = convertIdentifier( entry.getKey() ); if( result.containsKey( ... | CapitalizingIdentifierConverter implements IdentifierConverter { public Map<String, Object> convertKeys( Map<QualifiedName, Object> rawData ) { Map<String, Object> result = new HashMap<String, Object>( rawData.size() ); for( Map.Entry<QualifiedName, Object> entry : rawData.entrySet() ) { final String convertedIdentifie... | CapitalizingIdentifierConverter implements IdentifierConverter { public Map<String, Object> convertKeys( Map<QualifiedName, Object> rawData ) { Map<String, Object> result = new HashMap<String, Object>( rawData.size() ); for( Map.Entry<QualifiedName, Object> entry : rawData.entrySet() ) { final String convertedIdentifie... | CapitalizingIdentifierConverter implements IdentifierConverter { public Map<String, Object> convertKeys( Map<QualifiedName, Object> rawData ) { Map<String, Object> result = new HashMap<String, Object>( rawData.size() ); for( Map.Entry<QualifiedName, Object> entry : rawData.entrySet() ) { final String convertedIdentifie... | CapitalizingIdentifierConverter implements IdentifierConverter { public Map<String, Object> convertKeys( Map<QualifiedName, Object> rawData ) { Map<String, Object> result = new HashMap<String, Object>( rawData.size() ); for( Map.Entry<QualifiedName, Object> entry : rawData.entrySet() ) { final String convertedIdentifie... |
@Test( expected = IllegalArgumentException.class ) public void failDuplicateQualfiedKeys() { Map<QualifiedName, Object> rawData = new HashMap<QualifiedName, Object>(); rawData.put( QualifiedName.fromQN( "abc" ), "test1" ); rawData.put( QualifiedName.fromQN( "aaa:abc" ), "test2" ); converter.convertKeys( rawData ); } | public Map<String, Object> convertKeys( Map<QualifiedName, Object> rawData ) { Map<String, Object> result = new HashMap<String, Object>( rawData.size() ); for( Map.Entry<QualifiedName, Object> entry : rawData.entrySet() ) { final String convertedIdentifier = convertIdentifier( entry.getKey() ); if( result.containsKey( ... | CapitalizingIdentifierConverter implements IdentifierConverter { public Map<String, Object> convertKeys( Map<QualifiedName, Object> rawData ) { Map<String, Object> result = new HashMap<String, Object>( rawData.size() ); for( Map.Entry<QualifiedName, Object> entry : rawData.entrySet() ) { final String convertedIdentifie... | CapitalizingIdentifierConverter implements IdentifierConverter { public Map<String, Object> convertKeys( Map<QualifiedName, Object> rawData ) { Map<String, Object> result = new HashMap<String, Object>( rawData.size() ); for( Map.Entry<QualifiedName, Object> entry : rawData.entrySet() ) { final String convertedIdentifie... | CapitalizingIdentifierConverter implements IdentifierConverter { public Map<String, Object> convertKeys( Map<QualifiedName, Object> rawData ) { Map<String, Object> result = new HashMap<String, Object>( rawData.size() ); for( Map.Entry<QualifiedName, Object> entry : rawData.entrySet() ) { final String convertedIdentifie... | CapitalizingIdentifierConverter implements IdentifierConverter { public Map<String, Object> convertKeys( Map<QualifiedName, Object> rawData ) { Map<String, Object> result = new HashMap<String, Object>( rawData.size() ); for( Map.Entry<QualifiedName, Object> entry : rawData.entrySet() ) { final String convertedIdentifie... |
@Test void testOpenSDSInfo() { OpenSDSInfo OpenSDSInfo = new OpenSDSInfo("testId", "testHostName", "testPort"); OpenSDSInfo.hashCode(); OpenSDSInfo.getHostName(); OpenSDSInfo.getURL(); OpenSDSInfo.getProductSN(); OpenSDSInfo.toString(); } | public OpenSDSInfo() { super(); } | OpenSDSInfo extends BaseArrayInfo { public OpenSDSInfo() { super(); } } | OpenSDSInfo extends BaseArrayInfo { public OpenSDSInfo() { super(); } OpenSDSInfo(); OpenSDSInfo(String id, String hostName, String port); } | OpenSDSInfo extends BaseArrayInfo { public OpenSDSInfo() { super(); } OpenSDSInfo(); OpenSDSInfo(String id, String hostName, String port); @Override boolean equals(Object obj); @Override int hashCode(); String getProductSN(); void setProductSN(String productSN); boolean getauthEnabled(); void setauthEnabled(boolean au... | OpenSDSInfo extends BaseArrayInfo { public OpenSDSInfo() { super(); } OpenSDSInfo(); OpenSDSInfo(String id, String hostName, String port); @Override boolean equals(Object obj); @Override int hashCode(); String getProductSN(); void setProductSN(String productSN); boolean getauthEnabled(); void setauthEnabled(boolean au... |
@Test void testEqualsObject() { OpenSDSInfo OpenSDSInfo = new OpenSDSInfo("testId", "testHostName", "testPort"); OpenSDSInfo obj = new OpenSDSInfo("testId", "testHostName", "testPort"); OpenSDSInfo.equals(obj); } | @Override public boolean equals(Object obj) { if (obj instanceof OpenSDSInfo) { OpenSDSInfo openSDSInfo = (OpenSDSInfo) obj; if (openSDSInfo.getId().equals(getId())) { return true; } } return false; } | OpenSDSInfo extends BaseArrayInfo { @Override public boolean equals(Object obj) { if (obj instanceof OpenSDSInfo) { OpenSDSInfo openSDSInfo = (OpenSDSInfo) obj; if (openSDSInfo.getId().equals(getId())) { return true; } } return false; } } | OpenSDSInfo extends BaseArrayInfo { @Override public boolean equals(Object obj) { if (obj instanceof OpenSDSInfo) { OpenSDSInfo openSDSInfo = (OpenSDSInfo) obj; if (openSDSInfo.getId().equals(getId())) { return true; } } return false; } OpenSDSInfo(); OpenSDSInfo(String id, String hostName, String port); } | OpenSDSInfo extends BaseArrayInfo { @Override public boolean equals(Object obj) { if (obj instanceof OpenSDSInfo) { OpenSDSInfo openSDSInfo = (OpenSDSInfo) obj; if (openSDSInfo.getId().equals(getId())) { return true; } } return false; } OpenSDSInfo(); OpenSDSInfo(String id, String hostName, String port); @Override boo... | OpenSDSInfo extends BaseArrayInfo { @Override public boolean equals(Object obj) { if (obj instanceof OpenSDSInfo) { OpenSDSInfo openSDSInfo = (OpenSDSInfo) obj; if (openSDSInfo.getId().equals(getId())) { return true; } } return false; } OpenSDSInfo(); OpenSDSInfo(String id, String hostName, String port); @Override boo... |
@Test void testNotEqualsObject() { OpenSDSInfo OpenSDSInfo = new OpenSDSInfo(); OpenSDSInfo obj = new OpenSDSInfo("testId", "testHostName", "testPort"); OpenSDSInfo.equals(obj); } | @Override public boolean equals(Object obj) { if (obj instanceof OpenSDSInfo) { OpenSDSInfo openSDSInfo = (OpenSDSInfo) obj; if (openSDSInfo.getId().equals(getId())) { return true; } } return false; } | OpenSDSInfo extends BaseArrayInfo { @Override public boolean equals(Object obj) { if (obj instanceof OpenSDSInfo) { OpenSDSInfo openSDSInfo = (OpenSDSInfo) obj; if (openSDSInfo.getId().equals(getId())) { return true; } } return false; } } | OpenSDSInfo extends BaseArrayInfo { @Override public boolean equals(Object obj) { if (obj instanceof OpenSDSInfo) { OpenSDSInfo openSDSInfo = (OpenSDSInfo) obj; if (openSDSInfo.getId().equals(getId())) { return true; } } return false; } OpenSDSInfo(); OpenSDSInfo(String id, String hostName, String port); } | OpenSDSInfo extends BaseArrayInfo { @Override public boolean equals(Object obj) { if (obj instanceof OpenSDSInfo) { OpenSDSInfo openSDSInfo = (OpenSDSInfo) obj; if (openSDSInfo.getId().equals(getId())) { return true; } } return false; } OpenSDSInfo(); OpenSDSInfo(String id, String hostName, String port); @Override boo... | OpenSDSInfo extends BaseArrayInfo { @Override public boolean equals(Object obj) { if (obj instanceof OpenSDSInfo) { OpenSDSInfo openSDSInfo = (OpenSDSInfo) obj; if (openSDSInfo.getId().equals(getId())) { return true; } } return false; } OpenSDSInfo(); OpenSDSInfo(String id, String hostName, String port); @Override boo... |
@Test void testCreateVolume() throws Exception { readDefaultConfig(); VolumeService volumeService = new VolumeService(); volumeService.createVolume(arrayInfo, "test_script_vol", "test_script_vol", 1, profileId); } | public void createVolume(OpenSDSInfo openSDSInfo, String name, String description, long capacity, String profile) throws Exception { OpenSDS opensds = new OpenSDS(); opensds.login(openSDSInfo); log.info("Logged in to OpenSDS"); VolumeMO volume = opensds.createVolume(name, description, capacity, profile); log.info("Volu... | VolumeService { public void createVolume(OpenSDSInfo openSDSInfo, String name, String description, long capacity, String profile) throws Exception { OpenSDS opensds = new OpenSDS(); opensds.login(openSDSInfo); log.info("Logged in to OpenSDS"); VolumeMO volume = opensds.createVolume(name, description, capacity, profile)... | VolumeService { public void createVolume(OpenSDSInfo openSDSInfo, String name, String description, long capacity, String profile) throws Exception { OpenSDS opensds = new OpenSDS(); opensds.login(openSDSInfo); log.info("Logged in to OpenSDS"); VolumeMO volume = opensds.createVolume(name, description, capacity, profile)... | VolumeService { public void createVolume(OpenSDSInfo openSDSInfo, String name, String description, long capacity, String profile) throws Exception { OpenSDS opensds = new OpenSDS(); opensds.login(openSDSInfo); log.info("Logged in to OpenSDS"); VolumeMO volume = opensds.createVolume(name, description, capacity, profile)... | VolumeService { public void createVolume(OpenSDSInfo openSDSInfo, String name, String description, long capacity, String profile) throws Exception { OpenSDS opensds = new OpenSDS(); opensds.login(openSDSInfo); log.info("Logged in to OpenSDS"); VolumeMO volume = opensds.createVolume(name, description, capacity, profile)... |
@Test void testcreateAndAttachVolume() throws Exception { VolumeService volumeService = new VolumeService(); readDefaultConfig(); volumeService.createAndAttachVolume(arrayInfo, "attach_vol", "attach volume test", 1, profileId, esxIP, esxIQN); } | public String createAndAttachVolume(OpenSDSInfo openSDSInfo, String name, String description, long capacity, String profile, String hostIP, String iqn) throws Exception { OpenSDS opensds = new OpenSDS(); opensds.login(openSDSInfo); VolumeMO volume = opensds.createVolume(name, description, capacity, profile); TimeUnit.S... | VolumeService { public String createAndAttachVolume(OpenSDSInfo openSDSInfo, String name, String description, long capacity, String profile, String hostIP, String iqn) throws Exception { OpenSDS opensds = new OpenSDS(); opensds.login(openSDSInfo); VolumeMO volume = opensds.createVolume(name, description, capacity, prof... | VolumeService { public String createAndAttachVolume(OpenSDSInfo openSDSInfo, String name, String description, long capacity, String profile, String hostIP, String iqn) throws Exception { OpenSDS opensds = new OpenSDS(); opensds.login(openSDSInfo); VolumeMO volume = opensds.createVolume(name, description, capacity, prof... | VolumeService { public String createAndAttachVolume(OpenSDSInfo openSDSInfo, String name, String description, long capacity, String profile, String hostIP, String iqn) throws Exception { OpenSDS opensds = new OpenSDS(); opensds.login(openSDSInfo); VolumeMO volume = opensds.createVolume(name, description, capacity, prof... | VolumeService { public String createAndAttachVolume(OpenSDSInfo openSDSInfo, String name, String description, long capacity, String profile, String hostIP, String iqn) throws Exception { OpenSDS opensds = new OpenSDS(); opensds.login(openSDSInfo); VolumeMO volume = opensds.createVolume(name, description, capacity, prof... |
@Test void testDeleteVolume() throws Exception { VolumeService volumeService = new VolumeService(); readDefaultConfig(); volumeService.deleteVolume(arrayInfo, volId); } | public void deleteVolume(OpenSDSInfo openSDSInfo, String id) throws Exception { OpenSDS opensds = new OpenSDS(); opensds.login(openSDSInfo); log.info("Logged in to OpenSDS"); opensds.deleteVolume(id); log.info("Volume " + id + "is deleted"); } | VolumeService { public void deleteVolume(OpenSDSInfo openSDSInfo, String id) throws Exception { OpenSDS opensds = new OpenSDS(); opensds.login(openSDSInfo); log.info("Logged in to OpenSDS"); opensds.deleteVolume(id); log.info("Volume " + id + "is deleted"); } } | VolumeService { public void deleteVolume(OpenSDSInfo openSDSInfo, String id) throws Exception { OpenSDS opensds = new OpenSDS(); opensds.login(openSDSInfo); log.info("Logged in to OpenSDS"); opensds.deleteVolume(id); log.info("Volume " + id + "is deleted"); } } | VolumeService { public void deleteVolume(OpenSDSInfo openSDSInfo, String id) throws Exception { OpenSDS opensds = new OpenSDS(); opensds.login(openSDSInfo); log.info("Logged in to OpenSDS"); opensds.deleteVolume(id); log.info("Volume " + id + "is deleted"); } void createVolume(OpenSDSInfo openSDSInfo, String name, Str... | VolumeService { public void deleteVolume(OpenSDSInfo openSDSInfo, String id) throws Exception { OpenSDS opensds = new OpenSDS(); opensds.login(openSDSInfo); log.info("Logged in to OpenSDS"); opensds.deleteVolume(id); log.info("Volume " + id + "is deleted"); } void createVolume(OpenSDSInfo openSDSInfo, String name, Str... |
@Test void testexpandVolume() throws Exception { VolumeService volumeService = new VolumeService(); readDefaultConfig(); volumeService.expandVolume(arrayInfo, volId, 2); } | public void expandVolume(OpenSDSInfo openSDSInfo, String id, long capacity) throws Exception { OpenSDS opensds = new OpenSDS(); opensds.login(openSDSInfo); log.info("Logged in to OpenSDS"); opensds.expandVolume(id, capacity); } | VolumeService { public void expandVolume(OpenSDSInfo openSDSInfo, String id, long capacity) throws Exception { OpenSDS opensds = new OpenSDS(); opensds.login(openSDSInfo); log.info("Logged in to OpenSDS"); opensds.expandVolume(id, capacity); } } | VolumeService { public void expandVolume(OpenSDSInfo openSDSInfo, String id, long capacity) throws Exception { OpenSDS opensds = new OpenSDS(); opensds.login(openSDSInfo); log.info("Logged in to OpenSDS"); opensds.expandVolume(id, capacity); } } | VolumeService { public void expandVolume(OpenSDSInfo openSDSInfo, String id, long capacity) throws Exception { OpenSDS opensds = new OpenSDS(); opensds.login(openSDSInfo); log.info("Logged in to OpenSDS"); opensds.expandVolume(id, capacity); } void createVolume(OpenSDSInfo openSDSInfo, String name, String description,... | VolumeService { public void expandVolume(OpenSDSInfo openSDSInfo, String id, long capacity) throws Exception { OpenSDS opensds = new OpenSDS(); opensds.login(openSDSInfo); log.info("Logged in to OpenSDS"); opensds.expandVolume(id, capacity); } void createVolume(OpenSDSInfo openSDSInfo, String name, String description,... |
@Test void testRegister() throws Exception { Configuration conf = new Configuration("testID", "opensds"); conf.register("OpenSDS_Test", "127.0.0.1", "50040", "admin", "opensds@123", true, "V1"); } | public void register(String arrayName, String hostname, String port, String username, String password, boolean authEnabled, String productModel) throws Exception { String uniqId = hostname + "-" + port; OpenSDSInfo arrayInfo = new OpenSDSInfo(uniqId, hostname, port); arrayInfo.setArrayName(arrayName); arrayInfo.setHost... | Configuration { public void register(String arrayName, String hostname, String port, String username, String password, boolean authEnabled, String productModel) throws Exception { String uniqId = hostname + "-" + port; OpenSDSInfo arrayInfo = new OpenSDSInfo(uniqId, hostname, port); arrayInfo.setArrayName(arrayName); a... | Configuration { public void register(String arrayName, String hostname, String port, String username, String password, boolean authEnabled, String productModel) throws Exception { String uniqId = hostname + "-" + port; OpenSDSInfo arrayInfo = new OpenSDSInfo(uniqId, hostname, port); arrayInfo.setArrayName(arrayName); a... | Configuration { public void register(String arrayName, String hostname, String port, String username, String password, boolean authEnabled, String productModel) throws Exception { String uniqId = hostname + "-" + port; OpenSDSInfo arrayInfo = new OpenSDSInfo(uniqId, hostname, port); arrayInfo.setArrayName(arrayName); a... | Configuration { public void register(String arrayName, String hostname, String port, String username, String password, boolean authEnabled, String productModel) throws Exception { String uniqId = hostname + "-" + port; OpenSDSInfo arrayInfo = new OpenSDSInfo(uniqId, hostname, port); arrayInfo.setArrayName(arrayName); a... |
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