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MinijaxCriteriaBuilder implements javax.persistence.criteria.CriteriaBuilder { @Override public <T> ParameterExpression<T> parameter(final Class<T> paramClass) { throw new UnsupportedOperationException(); } MinijaxCriteriaBuilder(final MinijaxMetamodel metamodel); MinijaxMetamodel getMetamodel(); @Override MinijaxCriteriaQuery<T> createQuery(final Class<T> resultClass); @Override MinijaxCriteriaQuery<Object> createQuery(); @Override MinijaxCriteriaQuery<Tuple> createTupleQuery(); @Override MinijaxCompoundSelection<Tuple> tuple(final Selection<?>... selections); @Override @SuppressWarnings({ "rawtypes", "unchecked", "java:S1221" }) // Ignore Sonar warning about confusing "equal" method MinijaxComparison equal(final Expression<?> x, final Object y); @Override @SuppressWarnings({ "rawtypes", "unchecked", "java:S1221" }) // Ignore Sonar warning about confusing "equal" method MinijaxComparison equal(final Expression<?> x, final Expression<?> y); @Override @SuppressWarnings("unchecked") MinijaxIn<T> in(final Expression<? extends T> expression); @Override @SuppressWarnings({ "rawtypes", "unchecked" }) MinijaxComparison isNull(final Expression<?> x); @Override @SuppressWarnings({ "rawtypes", "unchecked" }) MinijaxComparison isNotNull(final Expression<?> x); @Override @SuppressWarnings("unchecked") MinijaxPredicate like(final Expression<String> x, final Expression<String> pattern); @Override MinijaxPredicate like(final Expression<String> x, final String pattern); @Override @SuppressWarnings({ "unchecked", "rawtypes" }) MinijaxFunctionExpression<String> lower(final Expression<String> x); @Override @SuppressWarnings({ "unchecked", "rawtypes" }) Expression<String> upper(final Expression<String> x); @Override MinijaxConjunction and(final Expression<Boolean> x, final Expression<Boolean> y); @Override MinijaxConjunction and(final Predicate... restrictions); @Override MinijaxConjunction or(final Expression<Boolean> x, final Expression<Boolean> y); @Override MinijaxConjunction or(final Predicate... restrictions); @Override MinijaxOrder asc(final Expression<?> x); @Override MinijaxOrder desc(final Expression<?> x); @Override CriteriaUpdate<T> createCriteriaUpdate(final Class<T> targetEntity); @Override CriteriaDelete<T> createCriteriaDelete(final Class<T> targetEntity); @Override CompoundSelection<Y> construct(final Class<Y> resultClass, final Selection<?>... selections); @Override CompoundSelection<Object[]> array(final Selection<?>... selections); @Override Expression<Double> avg(final Expression<N> x); @Override Expression<N> max(final Expression<N> x); @Override Expression<N> min(final Expression<N> x); @Override Expression<X> greatest(final Expression<X> x); @Override Expression<X> least(final Expression<X> x); @Override Expression<Long> count(final Expression<?> x); @Override Expression<Long> countDistinct(final Expression<?> x); @Override Predicate exists(final Subquery<?> subquery); @Override Expression<Y> all(final Subquery<Y> subquery); @Override Expression<Y> some(final Subquery<Y> subquery); @Override Expression<Y> any(final Subquery<Y> subquery); @Override Predicate not(final Expression<Boolean> restriction); @Override Predicate conjunction(); @Override Predicate disjunction(); @Override Predicate isTrue(final Expression<Boolean> x); @Override Predicate isFalse(final Expression<Boolean> x); @Override Predicate notEqual(final Expression<?> x, final Expression<?> y); @Override Predicate notEqual(final Expression<?> x, final Object y); @Override Predicate greaterThan(final Expression<? extends Y> x,
final Expression<? extends Y> y); @Override Predicate greaterThan(final Expression<? extends Y> x, final Y y); @Override Predicate greaterThanOrEqualTo(final Expression<? extends Y> x,
final Expression<? extends Y> y); @Override Predicate greaterThanOrEqualTo(final Expression<? extends Y> x, final Y y); @Override Predicate lessThan(final Expression<? extends Y> x, final Expression<? extends Y> y); @Override Predicate lessThan(final Expression<? extends Y> x, final Y y); @Override Predicate lessThanOrEqualTo(final Expression<? extends Y> x,
final Expression<? extends Y> y); @Override Predicate lessThanOrEqualTo(final Expression<? extends Y> x, final Y y); @Override Predicate between(final Expression<? extends Y> v, final Expression<? extends Y> x,
final Expression<? extends Y> y); @Override Predicate between(final Expression<? extends Y> v, final Y x, final Y y); @Override Predicate gt(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Predicate gt(final Expression<? extends Number> x, final Number y); @Override Predicate ge(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Predicate ge(final Expression<? extends Number> x, final Number y); @Override Predicate lt(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Predicate lt(final Expression<? extends Number> x, final Number y); @Override Predicate le(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Predicate le(final Expression<? extends Number> x, final Number y); @Override Expression<N> neg(final Expression<N> x); @Override Expression<N> abs(final Expression<N> x); @Override Expression<N> sum(final Expression<? extends N> x, final Expression<? extends N> y); @Override Expression<N> sum(final Expression<? extends N> x, final N y); @Override Expression<N> sum(final N x, final Expression<? extends N> y); @Override Expression<N> sum(final Expression<N> x); @Override Expression<Long> sumAsLong(final Expression<Integer> x); @Override Expression<Double> sumAsDouble(final Expression<Float> x); @Override Expression<N> prod(final Expression<? extends N> x, final Expression<? extends N> y); @Override Expression<N> prod(final Expression<? extends N> x, final N y); @Override Expression<N> prod(final N x, final Expression<? extends N> y); @Override Expression<N> diff(final Expression<? extends N> x, final Expression<? extends N> y); @Override Expression<N> diff(final Expression<? extends N> x, final N y); @Override Expression<N> diff(final N x, final Expression<? extends N> y); @Override Expression<Number> quot(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Expression<Number> quot(final Expression<? extends Number> x, final Number y); @Override Expression<Number> quot(final Number x, final Expression<? extends Number> y); @Override Expression<Integer> mod(final Expression<Integer> x, final Expression<Integer> y); @Override Expression<Integer> mod(final Expression<Integer> x, final Integer y); @Override Expression<Integer> mod(final Integer x, final Expression<Integer> y); @Override Expression<Double> sqrt(final Expression<? extends Number> x); @Override Expression<Long> toLong(final Expression<? extends Number> number); @Override Expression<Integer> toInteger(final Expression<? extends Number> number); @Override Expression<Float> toFloat(final Expression<? extends Number> number); @Override Expression<Double> toDouble(final Expression<? extends Number> number); @Override Expression<BigDecimal> toBigDecimal(final Expression<? extends Number> number); @Override Expression<BigInteger> toBigInteger(final Expression<? extends Number> number); @Override Expression<String> toString(final Expression<Character> character); @Override Expression<T> literal(final T value); @Override Expression<T> nullLiteral(final Class<T> resultClass); @Override ParameterExpression<T> parameter(final Class<T> paramClass); @Override ParameterExpression<T> parameter(final Class<T> paramClass, final String name); @Override Predicate isEmpty(final Expression<C> collection); @Override Predicate isNotEmpty(final Expression<C> collection); @Override Expression<Integer> size(final Expression<C> collection); @Override Expression<Integer> size(final C collection); @Override Predicate isMember(final Expression<E> elem, final Expression<C> collection); @Override Predicate isMember(final E elem, final Expression<C> collection); @Override Predicate isNotMember(final Expression<E> elem, final Expression<C> collection); @Override Predicate isNotMember(final E elem, final Expression<C> collection); @Override Expression<Collection<V>> values(final M map); @Override Expression<Set<K>> keys(final M map); @Override Predicate like(final Expression<String> x, final Expression<String> pattern, final Expression<Character> escapeChar); @Override Predicate like(final Expression<String> x, final Expression<String> pattern, final char escapeChar); @Override Predicate like(final Expression<String> x, final String pattern, final Expression<Character> escapeChar); @Override Predicate like(final Expression<String> x, final String pattern, final char escapeChar); @Override Predicate notLike(final Expression<String> x, final Expression<String> pattern); @Override Predicate notLike(final Expression<String> x, final String pattern); @Override Predicate notLike(final Expression<String> x, final Expression<String> pattern, final Expression<Character> escapeChar); @Override Predicate notLike(final Expression<String> x, final Expression<String> pattern, final char escapeChar); @Override Predicate notLike(final Expression<String> x, final String pattern, final Expression<Character> escapeChar); @Override Predicate notLike(final Expression<String> x, final String pattern, final char escapeChar); @Override Expression<String> concat(final Expression<String> x, final Expression<String> y); @Override Expression<String> concat(final Expression<String> x, final String y); @Override Expression<String> concat(final String x, final Expression<String> y); @Override Expression<String> substring(final Expression<String> x, final Expression<Integer> from); @Override Expression<String> substring(final Expression<String> x, final int from); @Override Expression<String> substring(final Expression<String> x, final Expression<Integer> from, final Expression<Integer> len); @Override Expression<String> substring(final Expression<String> x, final int from, final int len); @Override Expression<String> trim(final Expression<String> x); @Override Expression<String> trim(final Trimspec ts, final Expression<String> x); @Override Expression<String> trim(final Expression<Character> t, final Expression<String> x); @Override Expression<String> trim(final Trimspec ts, final Expression<Character> t, final Expression<String> x); @Override Expression<String> trim(final char t, final Expression<String> x); @Override Expression<String> trim(final Trimspec ts, final char t, final Expression<String> x); @Override Expression<Integer> length(final Expression<String> x); @Override Expression<Integer> locate(final Expression<String> x, final Expression<String> pattern); @Override Expression<Integer> locate(final Expression<String> x, final String pattern); @Override Expression<Integer> locate(final Expression<String> x, final Expression<String> pattern, final Expression<Integer> from); @Override Expression<Integer> locate(final Expression<String> x, final String pattern, final int from); @Override Expression<Date> currentDate(); @Override Expression<Timestamp> currentTimestamp(); @Override Expression<Time> currentTime(); @Override Coalesce<T> coalesce(); @Override Expression<Y> coalesce(final Expression<? extends Y> x, final Expression<? extends Y> y); @Override Expression<Y> coalesce(final Expression<? extends Y> x, final Y y); @Override Expression<Y> nullif(final Expression<Y> x, final Expression<?> y); @Override Expression<Y> nullif(final Expression<Y> x, final Y y); @Override SimpleCase<C, R> selectCase(final Expression<? extends C> expression); @Override Case<R> selectCase(); @Override Expression<T> function(final String name, final Class<T> type, final Expression<?>... args); @Override Join<X, V> treat(final Join<X, T> join, final Class<V> type); @Override CollectionJoin<X, E> treat(final CollectionJoin<X, T> join, final Class<E> type); @Override SetJoin<X, E> treat(final SetJoin<X, T> join, final Class<E> type); @Override ListJoin<X, E> treat(final ListJoin<X, T> join, final Class<E> type); @Override MapJoin<X, K, V> treat(final MapJoin<X, K, T> join, final Class<V> type); @Override Path<T> treat(final Path<X> path, final Class<T> type); @Override Root<T> treat(final Root<X> root, final Class<T> type); }
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@Test(expected = UnsupportedOperationException.class) public void testParameter1() { cb.parameter(null); }
@Test(expected = UnsupportedOperationException.class) public void testParameter2() { cb.parameter(null, null); }
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MinijaxCriteriaBuilder implements javax.persistence.criteria.CriteriaBuilder { @Override public <C extends Collection<?>> Predicate isEmpty(final Expression<C> collection) { throw new UnsupportedOperationException(); } MinijaxCriteriaBuilder(final MinijaxMetamodel metamodel); MinijaxMetamodel getMetamodel(); @Override MinijaxCriteriaQuery<T> createQuery(final Class<T> resultClass); @Override MinijaxCriteriaQuery<Object> createQuery(); @Override MinijaxCriteriaQuery<Tuple> createTupleQuery(); @Override MinijaxCompoundSelection<Tuple> tuple(final Selection<?>... selections); @Override @SuppressWarnings({ "rawtypes", "unchecked", "java:S1221" }) // Ignore Sonar warning about confusing "equal" method MinijaxComparison equal(final Expression<?> x, final Object y); @Override @SuppressWarnings({ "rawtypes", "unchecked", "java:S1221" }) // Ignore Sonar warning about confusing "equal" method MinijaxComparison equal(final Expression<?> x, final Expression<?> y); @Override @SuppressWarnings("unchecked") MinijaxIn<T> in(final Expression<? extends T> expression); @Override @SuppressWarnings({ "rawtypes", "unchecked" }) MinijaxComparison isNull(final Expression<?> x); @Override @SuppressWarnings({ "rawtypes", "unchecked" }) MinijaxComparison isNotNull(final Expression<?> x); @Override @SuppressWarnings("unchecked") MinijaxPredicate like(final Expression<String> x, final Expression<String> pattern); @Override MinijaxPredicate like(final Expression<String> x, final String pattern); @Override @SuppressWarnings({ "unchecked", "rawtypes" }) MinijaxFunctionExpression<String> lower(final Expression<String> x); @Override @SuppressWarnings({ "unchecked", "rawtypes" }) Expression<String> upper(final Expression<String> x); @Override MinijaxConjunction and(final Expression<Boolean> x, final Expression<Boolean> y); @Override MinijaxConjunction and(final Predicate... restrictions); @Override MinijaxConjunction or(final Expression<Boolean> x, final Expression<Boolean> y); @Override MinijaxConjunction or(final Predicate... restrictions); @Override MinijaxOrder asc(final Expression<?> x); @Override MinijaxOrder desc(final Expression<?> x); @Override CriteriaUpdate<T> createCriteriaUpdate(final Class<T> targetEntity); @Override CriteriaDelete<T> createCriteriaDelete(final Class<T> targetEntity); @Override CompoundSelection<Y> construct(final Class<Y> resultClass, final Selection<?>... selections); @Override CompoundSelection<Object[]> array(final Selection<?>... selections); @Override Expression<Double> avg(final Expression<N> x); @Override Expression<N> max(final Expression<N> x); @Override Expression<N> min(final Expression<N> x); @Override Expression<X> greatest(final Expression<X> x); @Override Expression<X> least(final Expression<X> x); @Override Expression<Long> count(final Expression<?> x); @Override Expression<Long> countDistinct(final Expression<?> x); @Override Predicate exists(final Subquery<?> subquery); @Override Expression<Y> all(final Subquery<Y> subquery); @Override Expression<Y> some(final Subquery<Y> subquery); @Override Expression<Y> any(final Subquery<Y> subquery); @Override Predicate not(final Expression<Boolean> restriction); @Override Predicate conjunction(); @Override Predicate disjunction(); @Override Predicate isTrue(final Expression<Boolean> x); @Override Predicate isFalse(final Expression<Boolean> x); @Override Predicate notEqual(final Expression<?> x, final Expression<?> y); @Override Predicate notEqual(final Expression<?> x, final Object y); @Override Predicate greaterThan(final Expression<? extends Y> x,
final Expression<? extends Y> y); @Override Predicate greaterThan(final Expression<? extends Y> x, final Y y); @Override Predicate greaterThanOrEqualTo(final Expression<? extends Y> x,
final Expression<? extends Y> y); @Override Predicate greaterThanOrEqualTo(final Expression<? extends Y> x, final Y y); @Override Predicate lessThan(final Expression<? extends Y> x, final Expression<? extends Y> y); @Override Predicate lessThan(final Expression<? extends Y> x, final Y y); @Override Predicate lessThanOrEqualTo(final Expression<? extends Y> x,
final Expression<? extends Y> y); @Override Predicate lessThanOrEqualTo(final Expression<? extends Y> x, final Y y); @Override Predicate between(final Expression<? extends Y> v, final Expression<? extends Y> x,
final Expression<? extends Y> y); @Override Predicate between(final Expression<? extends Y> v, final Y x, final Y y); @Override Predicate gt(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Predicate gt(final Expression<? extends Number> x, final Number y); @Override Predicate ge(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Predicate ge(final Expression<? extends Number> x, final Number y); @Override Predicate lt(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Predicate lt(final Expression<? extends Number> x, final Number y); @Override Predicate le(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Predicate le(final Expression<? extends Number> x, final Number y); @Override Expression<N> neg(final Expression<N> x); @Override Expression<N> abs(final Expression<N> x); @Override Expression<N> sum(final Expression<? extends N> x, final Expression<? extends N> y); @Override Expression<N> sum(final Expression<? extends N> x, final N y); @Override Expression<N> sum(final N x, final Expression<? extends N> y); @Override Expression<N> sum(final Expression<N> x); @Override Expression<Long> sumAsLong(final Expression<Integer> x); @Override Expression<Double> sumAsDouble(final Expression<Float> x); @Override Expression<N> prod(final Expression<? extends N> x, final Expression<? extends N> y); @Override Expression<N> prod(final Expression<? extends N> x, final N y); @Override Expression<N> prod(final N x, final Expression<? extends N> y); @Override Expression<N> diff(final Expression<? extends N> x, final Expression<? extends N> y); @Override Expression<N> diff(final Expression<? extends N> x, final N y); @Override Expression<N> diff(final N x, final Expression<? extends N> y); @Override Expression<Number> quot(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Expression<Number> quot(final Expression<? extends Number> x, final Number y); @Override Expression<Number> quot(final Number x, final Expression<? extends Number> y); @Override Expression<Integer> mod(final Expression<Integer> x, final Expression<Integer> y); @Override Expression<Integer> mod(final Expression<Integer> x, final Integer y); @Override Expression<Integer> mod(final Integer x, final Expression<Integer> y); @Override Expression<Double> sqrt(final Expression<? extends Number> x); @Override Expression<Long> toLong(final Expression<? extends Number> number); @Override Expression<Integer> toInteger(final Expression<? extends Number> number); @Override Expression<Float> toFloat(final Expression<? extends Number> number); @Override Expression<Double> toDouble(final Expression<? extends Number> number); @Override Expression<BigDecimal> toBigDecimal(final Expression<? extends Number> number); @Override Expression<BigInteger> toBigInteger(final Expression<? extends Number> number); @Override Expression<String> toString(final Expression<Character> character); @Override Expression<T> literal(final T value); @Override Expression<T> nullLiteral(final Class<T> resultClass); @Override ParameterExpression<T> parameter(final Class<T> paramClass); @Override ParameterExpression<T> parameter(final Class<T> paramClass, final String name); @Override Predicate isEmpty(final Expression<C> collection); @Override Predicate isNotEmpty(final Expression<C> collection); @Override Expression<Integer> size(final Expression<C> collection); @Override Expression<Integer> size(final C collection); @Override Predicate isMember(final Expression<E> elem, final Expression<C> collection); @Override Predicate isMember(final E elem, final Expression<C> collection); @Override Predicate isNotMember(final Expression<E> elem, final Expression<C> collection); @Override Predicate isNotMember(final E elem, final Expression<C> collection); @Override Expression<Collection<V>> values(final M map); @Override Expression<Set<K>> keys(final M map); @Override Predicate like(final Expression<String> x, final Expression<String> pattern, final Expression<Character> escapeChar); @Override Predicate like(final Expression<String> x, final Expression<String> pattern, final char escapeChar); @Override Predicate like(final Expression<String> x, final String pattern, final Expression<Character> escapeChar); @Override Predicate like(final Expression<String> x, final String pattern, final char escapeChar); @Override Predicate notLike(final Expression<String> x, final Expression<String> pattern); @Override Predicate notLike(final Expression<String> x, final String pattern); @Override Predicate notLike(final Expression<String> x, final Expression<String> pattern, final Expression<Character> escapeChar); @Override Predicate notLike(final Expression<String> x, final Expression<String> pattern, final char escapeChar); @Override Predicate notLike(final Expression<String> x, final String pattern, final Expression<Character> escapeChar); @Override Predicate notLike(final Expression<String> x, final String pattern, final char escapeChar); @Override Expression<String> concat(final Expression<String> x, final Expression<String> y); @Override Expression<String> concat(final Expression<String> x, final String y); @Override Expression<String> concat(final String x, final Expression<String> y); @Override Expression<String> substring(final Expression<String> x, final Expression<Integer> from); @Override Expression<String> substring(final Expression<String> x, final int from); @Override Expression<String> substring(final Expression<String> x, final Expression<Integer> from, final Expression<Integer> len); @Override Expression<String> substring(final Expression<String> x, final int from, final int len); @Override Expression<String> trim(final Expression<String> x); @Override Expression<String> trim(final Trimspec ts, final Expression<String> x); @Override Expression<String> trim(final Expression<Character> t, final Expression<String> x); @Override Expression<String> trim(final Trimspec ts, final Expression<Character> t, final Expression<String> x); @Override Expression<String> trim(final char t, final Expression<String> x); @Override Expression<String> trim(final Trimspec ts, final char t, final Expression<String> x); @Override Expression<Integer> length(final Expression<String> x); @Override Expression<Integer> locate(final Expression<String> x, final Expression<String> pattern); @Override Expression<Integer> locate(final Expression<String> x, final String pattern); @Override Expression<Integer> locate(final Expression<String> x, final Expression<String> pattern, final Expression<Integer> from); @Override Expression<Integer> locate(final Expression<String> x, final String pattern, final int from); @Override Expression<Date> currentDate(); @Override Expression<Timestamp> currentTimestamp(); @Override Expression<Time> currentTime(); @Override Coalesce<T> coalesce(); @Override Expression<Y> coalesce(final Expression<? extends Y> x, final Expression<? extends Y> y); @Override Expression<Y> coalesce(final Expression<? extends Y> x, final Y y); @Override Expression<Y> nullif(final Expression<Y> x, final Expression<?> y); @Override Expression<Y> nullif(final Expression<Y> x, final Y y); @Override SimpleCase<C, R> selectCase(final Expression<? extends C> expression); @Override Case<R> selectCase(); @Override Expression<T> function(final String name, final Class<T> type, final Expression<?>... args); @Override Join<X, V> treat(final Join<X, T> join, final Class<V> type); @Override CollectionJoin<X, E> treat(final CollectionJoin<X, T> join, final Class<E> type); @Override SetJoin<X, E> treat(final SetJoin<X, T> join, final Class<E> type); @Override ListJoin<X, E> treat(final ListJoin<X, T> join, final Class<E> type); @Override MapJoin<X, K, V> treat(final MapJoin<X, K, T> join, final Class<V> type); @Override Path<T> treat(final Path<X> path, final Class<T> type); @Override Root<T> treat(final Root<X> root, final Class<T> type); }
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@Test(expected = UnsupportedOperationException.class) public void testIsEmpty() { cb.isEmpty(null); }
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HelloApplication extends Application { @Override public Set<Class<?>> getClasses() { return new HashSet<>(Arrays.asList( HelloResource.class, PostResource.class, ShoutResource.class)); } @Override Set<Class<?>> getClasses(); }
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@Test public void testApp() { final HelloApplication app = new HelloApplication(); final Set<Class<?>> c = app.getClasses(); assertTrue(c.contains(HelloResource.class)); assertTrue(c.contains(PostResource.class)); assertTrue(c.contains(ShoutResource.class)); }
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MinijaxCriteriaBuilder implements javax.persistence.criteria.CriteriaBuilder { @Override public <C extends Collection<?>> Predicate isNotEmpty(final Expression<C> collection) { throw new UnsupportedOperationException(); } MinijaxCriteriaBuilder(final MinijaxMetamodel metamodel); MinijaxMetamodel getMetamodel(); @Override MinijaxCriteriaQuery<T> createQuery(final Class<T> resultClass); @Override MinijaxCriteriaQuery<Object> createQuery(); @Override MinijaxCriteriaQuery<Tuple> createTupleQuery(); @Override MinijaxCompoundSelection<Tuple> tuple(final Selection<?>... selections); @Override @SuppressWarnings({ "rawtypes", "unchecked", "java:S1221" }) // Ignore Sonar warning about confusing "equal" method MinijaxComparison equal(final Expression<?> x, final Object y); @Override @SuppressWarnings({ "rawtypes", "unchecked", "java:S1221" }) // Ignore Sonar warning about confusing "equal" method MinijaxComparison equal(final Expression<?> x, final Expression<?> y); @Override @SuppressWarnings("unchecked") MinijaxIn<T> in(final Expression<? extends T> expression); @Override @SuppressWarnings({ "rawtypes", "unchecked" }) MinijaxComparison isNull(final Expression<?> x); @Override @SuppressWarnings({ "rawtypes", "unchecked" }) MinijaxComparison isNotNull(final Expression<?> x); @Override @SuppressWarnings("unchecked") MinijaxPredicate like(final Expression<String> x, final Expression<String> pattern); @Override MinijaxPredicate like(final Expression<String> x, final String pattern); @Override @SuppressWarnings({ "unchecked", "rawtypes" }) MinijaxFunctionExpression<String> lower(final Expression<String> x); @Override @SuppressWarnings({ "unchecked", "rawtypes" }) Expression<String> upper(final Expression<String> x); @Override MinijaxConjunction and(final Expression<Boolean> x, final Expression<Boolean> y); @Override MinijaxConjunction and(final Predicate... restrictions); @Override MinijaxConjunction or(final Expression<Boolean> x, final Expression<Boolean> y); @Override MinijaxConjunction or(final Predicate... restrictions); @Override MinijaxOrder asc(final Expression<?> x); @Override MinijaxOrder desc(final Expression<?> x); @Override CriteriaUpdate<T> createCriteriaUpdate(final Class<T> targetEntity); @Override CriteriaDelete<T> createCriteriaDelete(final Class<T> targetEntity); @Override CompoundSelection<Y> construct(final Class<Y> resultClass, final Selection<?>... selections); @Override CompoundSelection<Object[]> array(final Selection<?>... selections); @Override Expression<Double> avg(final Expression<N> x); @Override Expression<N> max(final Expression<N> x); @Override Expression<N> min(final Expression<N> x); @Override Expression<X> greatest(final Expression<X> x); @Override Expression<X> least(final Expression<X> x); @Override Expression<Long> count(final Expression<?> x); @Override Expression<Long> countDistinct(final Expression<?> x); @Override Predicate exists(final Subquery<?> subquery); @Override Expression<Y> all(final Subquery<Y> subquery); @Override Expression<Y> some(final Subquery<Y> subquery); @Override Expression<Y> any(final Subquery<Y> subquery); @Override Predicate not(final Expression<Boolean> restriction); @Override Predicate conjunction(); @Override Predicate disjunction(); @Override Predicate isTrue(final Expression<Boolean> x); @Override Predicate isFalse(final Expression<Boolean> x); @Override Predicate notEqual(final Expression<?> x, final Expression<?> y); @Override Predicate notEqual(final Expression<?> x, final Object y); @Override Predicate greaterThan(final Expression<? extends Y> x,
final Expression<? extends Y> y); @Override Predicate greaterThan(final Expression<? extends Y> x, final Y y); @Override Predicate greaterThanOrEqualTo(final Expression<? extends Y> x,
final Expression<? extends Y> y); @Override Predicate greaterThanOrEqualTo(final Expression<? extends Y> x, final Y y); @Override Predicate lessThan(final Expression<? extends Y> x, final Expression<? extends Y> y); @Override Predicate lessThan(final Expression<? extends Y> x, final Y y); @Override Predicate lessThanOrEqualTo(final Expression<? extends Y> x,
final Expression<? extends Y> y); @Override Predicate lessThanOrEqualTo(final Expression<? extends Y> x, final Y y); @Override Predicate between(final Expression<? extends Y> v, final Expression<? extends Y> x,
final Expression<? extends Y> y); @Override Predicate between(final Expression<? extends Y> v, final Y x, final Y y); @Override Predicate gt(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Predicate gt(final Expression<? extends Number> x, final Number y); @Override Predicate ge(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Predicate ge(final Expression<? extends Number> x, final Number y); @Override Predicate lt(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Predicate lt(final Expression<? extends Number> x, final Number y); @Override Predicate le(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Predicate le(final Expression<? extends Number> x, final Number y); @Override Expression<N> neg(final Expression<N> x); @Override Expression<N> abs(final Expression<N> x); @Override Expression<N> sum(final Expression<? extends N> x, final Expression<? extends N> y); @Override Expression<N> sum(final Expression<? extends N> x, final N y); @Override Expression<N> sum(final N x, final Expression<? extends N> y); @Override Expression<N> sum(final Expression<N> x); @Override Expression<Long> sumAsLong(final Expression<Integer> x); @Override Expression<Double> sumAsDouble(final Expression<Float> x); @Override Expression<N> prod(final Expression<? extends N> x, final Expression<? extends N> y); @Override Expression<N> prod(final Expression<? extends N> x, final N y); @Override Expression<N> prod(final N x, final Expression<? extends N> y); @Override Expression<N> diff(final Expression<? extends N> x, final Expression<? extends N> y); @Override Expression<N> diff(final Expression<? extends N> x, final N y); @Override Expression<N> diff(final N x, final Expression<? extends N> y); @Override Expression<Number> quot(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Expression<Number> quot(final Expression<? extends Number> x, final Number y); @Override Expression<Number> quot(final Number x, final Expression<? extends Number> y); @Override Expression<Integer> mod(final Expression<Integer> x, final Expression<Integer> y); @Override Expression<Integer> mod(final Expression<Integer> x, final Integer y); @Override Expression<Integer> mod(final Integer x, final Expression<Integer> y); @Override Expression<Double> sqrt(final Expression<? extends Number> x); @Override Expression<Long> toLong(final Expression<? extends Number> number); @Override Expression<Integer> toInteger(final Expression<? extends Number> number); @Override Expression<Float> toFloat(final Expression<? extends Number> number); @Override Expression<Double> toDouble(final Expression<? extends Number> number); @Override Expression<BigDecimal> toBigDecimal(final Expression<? extends Number> number); @Override Expression<BigInteger> toBigInteger(final Expression<? extends Number> number); @Override Expression<String> toString(final Expression<Character> character); @Override Expression<T> literal(final T value); @Override Expression<T> nullLiteral(final Class<T> resultClass); @Override ParameterExpression<T> parameter(final Class<T> paramClass); @Override ParameterExpression<T> parameter(final Class<T> paramClass, final String name); @Override Predicate isEmpty(final Expression<C> collection); @Override Predicate isNotEmpty(final Expression<C> collection); @Override Expression<Integer> size(final Expression<C> collection); @Override Expression<Integer> size(final C collection); @Override Predicate isMember(final Expression<E> elem, final Expression<C> collection); @Override Predicate isMember(final E elem, final Expression<C> collection); @Override Predicate isNotMember(final Expression<E> elem, final Expression<C> collection); @Override Predicate isNotMember(final E elem, final Expression<C> collection); @Override Expression<Collection<V>> values(final M map); @Override Expression<Set<K>> keys(final M map); @Override Predicate like(final Expression<String> x, final Expression<String> pattern, final Expression<Character> escapeChar); @Override Predicate like(final Expression<String> x, final Expression<String> pattern, final char escapeChar); @Override Predicate like(final Expression<String> x, final String pattern, final Expression<Character> escapeChar); @Override Predicate like(final Expression<String> x, final String pattern, final char escapeChar); @Override Predicate notLike(final Expression<String> x, final Expression<String> pattern); @Override Predicate notLike(final Expression<String> x, final String pattern); @Override Predicate notLike(final Expression<String> x, final Expression<String> pattern, final Expression<Character> escapeChar); @Override Predicate notLike(final Expression<String> x, final Expression<String> pattern, final char escapeChar); @Override Predicate notLike(final Expression<String> x, final String pattern, final Expression<Character> escapeChar); @Override Predicate notLike(final Expression<String> x, final String pattern, final char escapeChar); @Override Expression<String> concat(final Expression<String> x, final Expression<String> y); @Override Expression<String> concat(final Expression<String> x, final String y); @Override Expression<String> concat(final String x, final Expression<String> y); @Override Expression<String> substring(final Expression<String> x, final Expression<Integer> from); @Override Expression<String> substring(final Expression<String> x, final int from); @Override Expression<String> substring(final Expression<String> x, final Expression<Integer> from, final Expression<Integer> len); @Override Expression<String> substring(final Expression<String> x, final int from, final int len); @Override Expression<String> trim(final Expression<String> x); @Override Expression<String> trim(final Trimspec ts, final Expression<String> x); @Override Expression<String> trim(final Expression<Character> t, final Expression<String> x); @Override Expression<String> trim(final Trimspec ts, final Expression<Character> t, final Expression<String> x); @Override Expression<String> trim(final char t, final Expression<String> x); @Override Expression<String> trim(final Trimspec ts, final char t, final Expression<String> x); @Override Expression<Integer> length(final Expression<String> x); @Override Expression<Integer> locate(final Expression<String> x, final Expression<String> pattern); @Override Expression<Integer> locate(final Expression<String> x, final String pattern); @Override Expression<Integer> locate(final Expression<String> x, final Expression<String> pattern, final Expression<Integer> from); @Override Expression<Integer> locate(final Expression<String> x, final String pattern, final int from); @Override Expression<Date> currentDate(); @Override Expression<Timestamp> currentTimestamp(); @Override Expression<Time> currentTime(); @Override Coalesce<T> coalesce(); @Override Expression<Y> coalesce(final Expression<? extends Y> x, final Expression<? extends Y> y); @Override Expression<Y> coalesce(final Expression<? extends Y> x, final Y y); @Override Expression<Y> nullif(final Expression<Y> x, final Expression<?> y); @Override Expression<Y> nullif(final Expression<Y> x, final Y y); @Override SimpleCase<C, R> selectCase(final Expression<? extends C> expression); @Override Case<R> selectCase(); @Override Expression<T> function(final String name, final Class<T> type, final Expression<?>... args); @Override Join<X, V> treat(final Join<X, T> join, final Class<V> type); @Override CollectionJoin<X, E> treat(final CollectionJoin<X, T> join, final Class<E> type); @Override SetJoin<X, E> treat(final SetJoin<X, T> join, final Class<E> type); @Override ListJoin<X, E> treat(final ListJoin<X, T> join, final Class<E> type); @Override MapJoin<X, K, V> treat(final MapJoin<X, K, T> join, final Class<V> type); @Override Path<T> treat(final Path<X> path, final Class<T> type); @Override Root<T> treat(final Root<X> root, final Class<T> type); }
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@Test(expected = UnsupportedOperationException.class) public void testIsNotEmpty() { cb.isNotEmpty(null); }
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MinijaxCriteriaBuilder implements javax.persistence.criteria.CriteriaBuilder { @Override public <C extends Collection<?>> Expression<Integer> size(final Expression<C> collection) { throw new UnsupportedOperationException(); } MinijaxCriteriaBuilder(final MinijaxMetamodel metamodel); MinijaxMetamodel getMetamodel(); @Override MinijaxCriteriaQuery<T> createQuery(final Class<T> resultClass); @Override MinijaxCriteriaQuery<Object> createQuery(); @Override MinijaxCriteriaQuery<Tuple> createTupleQuery(); @Override MinijaxCompoundSelection<Tuple> tuple(final Selection<?>... selections); @Override @SuppressWarnings({ "rawtypes", "unchecked", "java:S1221" }) // Ignore Sonar warning about confusing "equal" method MinijaxComparison equal(final Expression<?> x, final Object y); @Override @SuppressWarnings({ "rawtypes", "unchecked", "java:S1221" }) // Ignore Sonar warning about confusing "equal" method MinijaxComparison equal(final Expression<?> x, final Expression<?> y); @Override @SuppressWarnings("unchecked") MinijaxIn<T> in(final Expression<? extends T> expression); @Override @SuppressWarnings({ "rawtypes", "unchecked" }) MinijaxComparison isNull(final Expression<?> x); @Override @SuppressWarnings({ "rawtypes", "unchecked" }) MinijaxComparison isNotNull(final Expression<?> x); @Override @SuppressWarnings("unchecked") MinijaxPredicate like(final Expression<String> x, final Expression<String> pattern); @Override MinijaxPredicate like(final Expression<String> x, final String pattern); @Override @SuppressWarnings({ "unchecked", "rawtypes" }) MinijaxFunctionExpression<String> lower(final Expression<String> x); @Override @SuppressWarnings({ "unchecked", "rawtypes" }) Expression<String> upper(final Expression<String> x); @Override MinijaxConjunction and(final Expression<Boolean> x, final Expression<Boolean> y); @Override MinijaxConjunction and(final Predicate... restrictions); @Override MinijaxConjunction or(final Expression<Boolean> x, final Expression<Boolean> y); @Override MinijaxConjunction or(final Predicate... restrictions); @Override MinijaxOrder asc(final Expression<?> x); @Override MinijaxOrder desc(final Expression<?> x); @Override CriteriaUpdate<T> createCriteriaUpdate(final Class<T> targetEntity); @Override CriteriaDelete<T> createCriteriaDelete(final Class<T> targetEntity); @Override CompoundSelection<Y> construct(final Class<Y> resultClass, final Selection<?>... selections); @Override CompoundSelection<Object[]> array(final Selection<?>... selections); @Override Expression<Double> avg(final Expression<N> x); @Override Expression<N> max(final Expression<N> x); @Override Expression<N> min(final Expression<N> x); @Override Expression<X> greatest(final Expression<X> x); @Override Expression<X> least(final Expression<X> x); @Override Expression<Long> count(final Expression<?> x); @Override Expression<Long> countDistinct(final Expression<?> x); @Override Predicate exists(final Subquery<?> subquery); @Override Expression<Y> all(final Subquery<Y> subquery); @Override Expression<Y> some(final Subquery<Y> subquery); @Override Expression<Y> any(final Subquery<Y> subquery); @Override Predicate not(final Expression<Boolean> restriction); @Override Predicate conjunction(); @Override Predicate disjunction(); @Override Predicate isTrue(final Expression<Boolean> x); @Override Predicate isFalse(final Expression<Boolean> x); @Override Predicate notEqual(final Expression<?> x, final Expression<?> y); @Override Predicate notEqual(final Expression<?> x, final Object y); @Override Predicate greaterThan(final Expression<? extends Y> x,
final Expression<? extends Y> y); @Override Predicate greaterThan(final Expression<? extends Y> x, final Y y); @Override Predicate greaterThanOrEqualTo(final Expression<? extends Y> x,
final Expression<? extends Y> y); @Override Predicate greaterThanOrEqualTo(final Expression<? extends Y> x, final Y y); @Override Predicate lessThan(final Expression<? extends Y> x, final Expression<? extends Y> y); @Override Predicate lessThan(final Expression<? extends Y> x, final Y y); @Override Predicate lessThanOrEqualTo(final Expression<? extends Y> x,
final Expression<? extends Y> y); @Override Predicate lessThanOrEqualTo(final Expression<? extends Y> x, final Y y); @Override Predicate between(final Expression<? extends Y> v, final Expression<? extends Y> x,
final Expression<? extends Y> y); @Override Predicate between(final Expression<? extends Y> v, final Y x, final Y y); @Override Predicate gt(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Predicate gt(final Expression<? extends Number> x, final Number y); @Override Predicate ge(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Predicate ge(final Expression<? extends Number> x, final Number y); @Override Predicate lt(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Predicate lt(final Expression<? extends Number> x, final Number y); @Override Predicate le(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Predicate le(final Expression<? extends Number> x, final Number y); @Override Expression<N> neg(final Expression<N> x); @Override Expression<N> abs(final Expression<N> x); @Override Expression<N> sum(final Expression<? extends N> x, final Expression<? extends N> y); @Override Expression<N> sum(final Expression<? extends N> x, final N y); @Override Expression<N> sum(final N x, final Expression<? extends N> y); @Override Expression<N> sum(final Expression<N> x); @Override Expression<Long> sumAsLong(final Expression<Integer> x); @Override Expression<Double> sumAsDouble(final Expression<Float> x); @Override Expression<N> prod(final Expression<? extends N> x, final Expression<? extends N> y); @Override Expression<N> prod(final Expression<? extends N> x, final N y); @Override Expression<N> prod(final N x, final Expression<? extends N> y); @Override Expression<N> diff(final Expression<? extends N> x, final Expression<? extends N> y); @Override Expression<N> diff(final Expression<? extends N> x, final N y); @Override Expression<N> diff(final N x, final Expression<? extends N> y); @Override Expression<Number> quot(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Expression<Number> quot(final Expression<? extends Number> x, final Number y); @Override Expression<Number> quot(final Number x, final Expression<? extends Number> y); @Override Expression<Integer> mod(final Expression<Integer> x, final Expression<Integer> y); @Override Expression<Integer> mod(final Expression<Integer> x, final Integer y); @Override Expression<Integer> mod(final Integer x, final Expression<Integer> y); @Override Expression<Double> sqrt(final Expression<? extends Number> x); @Override Expression<Long> toLong(final Expression<? extends Number> number); @Override Expression<Integer> toInteger(final Expression<? extends Number> number); @Override Expression<Float> toFloat(final Expression<? extends Number> number); @Override Expression<Double> toDouble(final Expression<? extends Number> number); @Override Expression<BigDecimal> toBigDecimal(final Expression<? extends Number> number); @Override Expression<BigInteger> toBigInteger(final Expression<? extends Number> number); @Override Expression<String> toString(final Expression<Character> character); @Override Expression<T> literal(final T value); @Override Expression<T> nullLiteral(final Class<T> resultClass); @Override ParameterExpression<T> parameter(final Class<T> paramClass); @Override ParameterExpression<T> parameter(final Class<T> paramClass, final String name); @Override Predicate isEmpty(final Expression<C> collection); @Override Predicate isNotEmpty(final Expression<C> collection); @Override Expression<Integer> size(final Expression<C> collection); @Override Expression<Integer> size(final C collection); @Override Predicate isMember(final Expression<E> elem, final Expression<C> collection); @Override Predicate isMember(final E elem, final Expression<C> collection); @Override Predicate isNotMember(final Expression<E> elem, final Expression<C> collection); @Override Predicate isNotMember(final E elem, final Expression<C> collection); @Override Expression<Collection<V>> values(final M map); @Override Expression<Set<K>> keys(final M map); @Override Predicate like(final Expression<String> x, final Expression<String> pattern, final Expression<Character> escapeChar); @Override Predicate like(final Expression<String> x, final Expression<String> pattern, final char escapeChar); @Override Predicate like(final Expression<String> x, final String pattern, final Expression<Character> escapeChar); @Override Predicate like(final Expression<String> x, final String pattern, final char escapeChar); @Override Predicate notLike(final Expression<String> x, final Expression<String> pattern); @Override Predicate notLike(final Expression<String> x, final String pattern); @Override Predicate notLike(final Expression<String> x, final Expression<String> pattern, final Expression<Character> escapeChar); @Override Predicate notLike(final Expression<String> x, final Expression<String> pattern, final char escapeChar); @Override Predicate notLike(final Expression<String> x, final String pattern, final Expression<Character> escapeChar); @Override Predicate notLike(final Expression<String> x, final String pattern, final char escapeChar); @Override Expression<String> concat(final Expression<String> x, final Expression<String> y); @Override Expression<String> concat(final Expression<String> x, final String y); @Override Expression<String> concat(final String x, final Expression<String> y); @Override Expression<String> substring(final Expression<String> x, final Expression<Integer> from); @Override Expression<String> substring(final Expression<String> x, final int from); @Override Expression<String> substring(final Expression<String> x, final Expression<Integer> from, final Expression<Integer> len); @Override Expression<String> substring(final Expression<String> x, final int from, final int len); @Override Expression<String> trim(final Expression<String> x); @Override Expression<String> trim(final Trimspec ts, final Expression<String> x); @Override Expression<String> trim(final Expression<Character> t, final Expression<String> x); @Override Expression<String> trim(final Trimspec ts, final Expression<Character> t, final Expression<String> x); @Override Expression<String> trim(final char t, final Expression<String> x); @Override Expression<String> trim(final Trimspec ts, final char t, final Expression<String> x); @Override Expression<Integer> length(final Expression<String> x); @Override Expression<Integer> locate(final Expression<String> x, final Expression<String> pattern); @Override Expression<Integer> locate(final Expression<String> x, final String pattern); @Override Expression<Integer> locate(final Expression<String> x, final Expression<String> pattern, final Expression<Integer> from); @Override Expression<Integer> locate(final Expression<String> x, final String pattern, final int from); @Override Expression<Date> currentDate(); @Override Expression<Timestamp> currentTimestamp(); @Override Expression<Time> currentTime(); @Override Coalesce<T> coalesce(); @Override Expression<Y> coalesce(final Expression<? extends Y> x, final Expression<? extends Y> y); @Override Expression<Y> coalesce(final Expression<? extends Y> x, final Y y); @Override Expression<Y> nullif(final Expression<Y> x, final Expression<?> y); @Override Expression<Y> nullif(final Expression<Y> x, final Y y); @Override SimpleCase<C, R> selectCase(final Expression<? extends C> expression); @Override Case<R> selectCase(); @Override Expression<T> function(final String name, final Class<T> type, final Expression<?>... args); @Override Join<X, V> treat(final Join<X, T> join, final Class<V> type); @Override CollectionJoin<X, E> treat(final CollectionJoin<X, T> join, final Class<E> type); @Override SetJoin<X, E> treat(final SetJoin<X, T> join, final Class<E> type); @Override ListJoin<X, E> treat(final ListJoin<X, T> join, final Class<E> type); @Override MapJoin<X, K, V> treat(final MapJoin<X, K, T> join, final Class<V> type); @Override Path<T> treat(final Path<X> path, final Class<T> type); @Override Root<T> treat(final Root<X> root, final Class<T> type); }
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@Test(expected = UnsupportedOperationException.class) public void testSize1() { cb.size((Expression<Collection<Object>>) null); }
@Test(expected = UnsupportedOperationException.class) public void testSize2() { cb.size((Collection<Object>) null); }
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MinijaxCriteriaBuilder implements javax.persistence.criteria.CriteriaBuilder { @Override public <E, C extends Collection<E>> Predicate isMember(final Expression<E> elem, final Expression<C> collection) { throw new UnsupportedOperationException(); } MinijaxCriteriaBuilder(final MinijaxMetamodel metamodel); MinijaxMetamodel getMetamodel(); @Override MinijaxCriteriaQuery<T> createQuery(final Class<T> resultClass); @Override MinijaxCriteriaQuery<Object> createQuery(); @Override MinijaxCriteriaQuery<Tuple> createTupleQuery(); @Override MinijaxCompoundSelection<Tuple> tuple(final Selection<?>... selections); @Override @SuppressWarnings({ "rawtypes", "unchecked", "java:S1221" }) // Ignore Sonar warning about confusing "equal" method MinijaxComparison equal(final Expression<?> x, final Object y); @Override @SuppressWarnings({ "rawtypes", "unchecked", "java:S1221" }) // Ignore Sonar warning about confusing "equal" method MinijaxComparison equal(final Expression<?> x, final Expression<?> y); @Override @SuppressWarnings("unchecked") MinijaxIn<T> in(final Expression<? extends T> expression); @Override @SuppressWarnings({ "rawtypes", "unchecked" }) MinijaxComparison isNull(final Expression<?> x); @Override @SuppressWarnings({ "rawtypes", "unchecked" }) MinijaxComparison isNotNull(final Expression<?> x); @Override @SuppressWarnings("unchecked") MinijaxPredicate like(final Expression<String> x, final Expression<String> pattern); @Override MinijaxPredicate like(final Expression<String> x, final String pattern); @Override @SuppressWarnings({ "unchecked", "rawtypes" }) MinijaxFunctionExpression<String> lower(final Expression<String> x); @Override @SuppressWarnings({ "unchecked", "rawtypes" }) Expression<String> upper(final Expression<String> x); @Override MinijaxConjunction and(final Expression<Boolean> x, final Expression<Boolean> y); @Override MinijaxConjunction and(final Predicate... restrictions); @Override MinijaxConjunction or(final Expression<Boolean> x, final Expression<Boolean> y); @Override MinijaxConjunction or(final Predicate... restrictions); @Override MinijaxOrder asc(final Expression<?> x); @Override MinijaxOrder desc(final Expression<?> x); @Override CriteriaUpdate<T> createCriteriaUpdate(final Class<T> targetEntity); @Override CriteriaDelete<T> createCriteriaDelete(final Class<T> targetEntity); @Override CompoundSelection<Y> construct(final Class<Y> resultClass, final Selection<?>... selections); @Override CompoundSelection<Object[]> array(final Selection<?>... selections); @Override Expression<Double> avg(final Expression<N> x); @Override Expression<N> max(final Expression<N> x); @Override Expression<N> min(final Expression<N> x); @Override Expression<X> greatest(final Expression<X> x); @Override Expression<X> least(final Expression<X> x); @Override Expression<Long> count(final Expression<?> x); @Override Expression<Long> countDistinct(final Expression<?> x); @Override Predicate exists(final Subquery<?> subquery); @Override Expression<Y> all(final Subquery<Y> subquery); @Override Expression<Y> some(final Subquery<Y> subquery); @Override Expression<Y> any(final Subquery<Y> subquery); @Override Predicate not(final Expression<Boolean> restriction); @Override Predicate conjunction(); @Override Predicate disjunction(); @Override Predicate isTrue(final Expression<Boolean> x); @Override Predicate isFalse(final Expression<Boolean> x); @Override Predicate notEqual(final Expression<?> x, final Expression<?> y); @Override Predicate notEqual(final Expression<?> x, final Object y); @Override Predicate greaterThan(final Expression<? extends Y> x,
final Expression<? extends Y> y); @Override Predicate greaterThan(final Expression<? extends Y> x, final Y y); @Override Predicate greaterThanOrEqualTo(final Expression<? extends Y> x,
final Expression<? extends Y> y); @Override Predicate greaterThanOrEqualTo(final Expression<? extends Y> x, final Y y); @Override Predicate lessThan(final Expression<? extends Y> x, final Expression<? extends Y> y); @Override Predicate lessThan(final Expression<? extends Y> x, final Y y); @Override Predicate lessThanOrEqualTo(final Expression<? extends Y> x,
final Expression<? extends Y> y); @Override Predicate lessThanOrEqualTo(final Expression<? extends Y> x, final Y y); @Override Predicate between(final Expression<? extends Y> v, final Expression<? extends Y> x,
final Expression<? extends Y> y); @Override Predicate between(final Expression<? extends Y> v, final Y x, final Y y); @Override Predicate gt(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Predicate gt(final Expression<? extends Number> x, final Number y); @Override Predicate ge(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Predicate ge(final Expression<? extends Number> x, final Number y); @Override Predicate lt(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Predicate lt(final Expression<? extends Number> x, final Number y); @Override Predicate le(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Predicate le(final Expression<? extends Number> x, final Number y); @Override Expression<N> neg(final Expression<N> x); @Override Expression<N> abs(final Expression<N> x); @Override Expression<N> sum(final Expression<? extends N> x, final Expression<? extends N> y); @Override Expression<N> sum(final Expression<? extends N> x, final N y); @Override Expression<N> sum(final N x, final Expression<? extends N> y); @Override Expression<N> sum(final Expression<N> x); @Override Expression<Long> sumAsLong(final Expression<Integer> x); @Override Expression<Double> sumAsDouble(final Expression<Float> x); @Override Expression<N> prod(final Expression<? extends N> x, final Expression<? extends N> y); @Override Expression<N> prod(final Expression<? extends N> x, final N y); @Override Expression<N> prod(final N x, final Expression<? extends N> y); @Override Expression<N> diff(final Expression<? extends N> x, final Expression<? extends N> y); @Override Expression<N> diff(final Expression<? extends N> x, final N y); @Override Expression<N> diff(final N x, final Expression<? extends N> y); @Override Expression<Number> quot(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Expression<Number> quot(final Expression<? extends Number> x, final Number y); @Override Expression<Number> quot(final Number x, final Expression<? extends Number> y); @Override Expression<Integer> mod(final Expression<Integer> x, final Expression<Integer> y); @Override Expression<Integer> mod(final Expression<Integer> x, final Integer y); @Override Expression<Integer> mod(final Integer x, final Expression<Integer> y); @Override Expression<Double> sqrt(final Expression<? extends Number> x); @Override Expression<Long> toLong(final Expression<? extends Number> number); @Override Expression<Integer> toInteger(final Expression<? extends Number> number); @Override Expression<Float> toFloat(final Expression<? extends Number> number); @Override Expression<Double> toDouble(final Expression<? extends Number> number); @Override Expression<BigDecimal> toBigDecimal(final Expression<? extends Number> number); @Override Expression<BigInteger> toBigInteger(final Expression<? extends Number> number); @Override Expression<String> toString(final Expression<Character> character); @Override Expression<T> literal(final T value); @Override Expression<T> nullLiteral(final Class<T> resultClass); @Override ParameterExpression<T> parameter(final Class<T> paramClass); @Override ParameterExpression<T> parameter(final Class<T> paramClass, final String name); @Override Predicate isEmpty(final Expression<C> collection); @Override Predicate isNotEmpty(final Expression<C> collection); @Override Expression<Integer> size(final Expression<C> collection); @Override Expression<Integer> size(final C collection); @Override Predicate isMember(final Expression<E> elem, final Expression<C> collection); @Override Predicate isMember(final E elem, final Expression<C> collection); @Override Predicate isNotMember(final Expression<E> elem, final Expression<C> collection); @Override Predicate isNotMember(final E elem, final Expression<C> collection); @Override Expression<Collection<V>> values(final M map); @Override Expression<Set<K>> keys(final M map); @Override Predicate like(final Expression<String> x, final Expression<String> pattern, final Expression<Character> escapeChar); @Override Predicate like(final Expression<String> x, final Expression<String> pattern, final char escapeChar); @Override Predicate like(final Expression<String> x, final String pattern, final Expression<Character> escapeChar); @Override Predicate like(final Expression<String> x, final String pattern, final char escapeChar); @Override Predicate notLike(final Expression<String> x, final Expression<String> pattern); @Override Predicate notLike(final Expression<String> x, final String pattern); @Override Predicate notLike(final Expression<String> x, final Expression<String> pattern, final Expression<Character> escapeChar); @Override Predicate notLike(final Expression<String> x, final Expression<String> pattern, final char escapeChar); @Override Predicate notLike(final Expression<String> x, final String pattern, final Expression<Character> escapeChar); @Override Predicate notLike(final Expression<String> x, final String pattern, final char escapeChar); @Override Expression<String> concat(final Expression<String> x, final Expression<String> y); @Override Expression<String> concat(final Expression<String> x, final String y); @Override Expression<String> concat(final String x, final Expression<String> y); @Override Expression<String> substring(final Expression<String> x, final Expression<Integer> from); @Override Expression<String> substring(final Expression<String> x, final int from); @Override Expression<String> substring(final Expression<String> x, final Expression<Integer> from, final Expression<Integer> len); @Override Expression<String> substring(final Expression<String> x, final int from, final int len); @Override Expression<String> trim(final Expression<String> x); @Override Expression<String> trim(final Trimspec ts, final Expression<String> x); @Override Expression<String> trim(final Expression<Character> t, final Expression<String> x); @Override Expression<String> trim(final Trimspec ts, final Expression<Character> t, final Expression<String> x); @Override Expression<String> trim(final char t, final Expression<String> x); @Override Expression<String> trim(final Trimspec ts, final char t, final Expression<String> x); @Override Expression<Integer> length(final Expression<String> x); @Override Expression<Integer> locate(final Expression<String> x, final Expression<String> pattern); @Override Expression<Integer> locate(final Expression<String> x, final String pattern); @Override Expression<Integer> locate(final Expression<String> x, final Expression<String> pattern, final Expression<Integer> from); @Override Expression<Integer> locate(final Expression<String> x, final String pattern, final int from); @Override Expression<Date> currentDate(); @Override Expression<Timestamp> currentTimestamp(); @Override Expression<Time> currentTime(); @Override Coalesce<T> coalesce(); @Override Expression<Y> coalesce(final Expression<? extends Y> x, final Expression<? extends Y> y); @Override Expression<Y> coalesce(final Expression<? extends Y> x, final Y y); @Override Expression<Y> nullif(final Expression<Y> x, final Expression<?> y); @Override Expression<Y> nullif(final Expression<Y> x, final Y y); @Override SimpleCase<C, R> selectCase(final Expression<? extends C> expression); @Override Case<R> selectCase(); @Override Expression<T> function(final String name, final Class<T> type, final Expression<?>... args); @Override Join<X, V> treat(final Join<X, T> join, final Class<V> type); @Override CollectionJoin<X, E> treat(final CollectionJoin<X, T> join, final Class<E> type); @Override SetJoin<X, E> treat(final SetJoin<X, T> join, final Class<E> type); @Override ListJoin<X, E> treat(final ListJoin<X, T> join, final Class<E> type); @Override MapJoin<X, K, V> treat(final MapJoin<X, K, T> join, final Class<V> type); @Override Path<T> treat(final Path<X> path, final Class<T> type); @Override Root<T> treat(final Root<X> root, final Class<T> type); }
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@Test(expected = UnsupportedOperationException.class) public void testIsMember1() { cb.isMember((Expression<Widget>) null, (Expression<List<Widget>>) null); }
@Test(expected = UnsupportedOperationException.class) public void testIsMember2() { cb.isMember((Widget) null, (Expression<List<Widget>>) null); }
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MinijaxCriteriaBuilder implements javax.persistence.criteria.CriteriaBuilder { @Override public <E, C extends Collection<E>> Predicate isNotMember(final Expression<E> elem, final Expression<C> collection) { throw new UnsupportedOperationException(); } MinijaxCriteriaBuilder(final MinijaxMetamodel metamodel); MinijaxMetamodel getMetamodel(); @Override MinijaxCriteriaQuery<T> createQuery(final Class<T> resultClass); @Override MinijaxCriteriaQuery<Object> createQuery(); @Override MinijaxCriteriaQuery<Tuple> createTupleQuery(); @Override MinijaxCompoundSelection<Tuple> tuple(final Selection<?>... selections); @Override @SuppressWarnings({ "rawtypes", "unchecked", "java:S1221" }) // Ignore Sonar warning about confusing "equal" method MinijaxComparison equal(final Expression<?> x, final Object y); @Override @SuppressWarnings({ "rawtypes", "unchecked", "java:S1221" }) // Ignore Sonar warning about confusing "equal" method MinijaxComparison equal(final Expression<?> x, final Expression<?> y); @Override @SuppressWarnings("unchecked") MinijaxIn<T> in(final Expression<? extends T> expression); @Override @SuppressWarnings({ "rawtypes", "unchecked" }) MinijaxComparison isNull(final Expression<?> x); @Override @SuppressWarnings({ "rawtypes", "unchecked" }) MinijaxComparison isNotNull(final Expression<?> x); @Override @SuppressWarnings("unchecked") MinijaxPredicate like(final Expression<String> x, final Expression<String> pattern); @Override MinijaxPredicate like(final Expression<String> x, final String pattern); @Override @SuppressWarnings({ "unchecked", "rawtypes" }) MinijaxFunctionExpression<String> lower(final Expression<String> x); @Override @SuppressWarnings({ "unchecked", "rawtypes" }) Expression<String> upper(final Expression<String> x); @Override MinijaxConjunction and(final Expression<Boolean> x, final Expression<Boolean> y); @Override MinijaxConjunction and(final Predicate... restrictions); @Override MinijaxConjunction or(final Expression<Boolean> x, final Expression<Boolean> y); @Override MinijaxConjunction or(final Predicate... restrictions); @Override MinijaxOrder asc(final Expression<?> x); @Override MinijaxOrder desc(final Expression<?> x); @Override CriteriaUpdate<T> createCriteriaUpdate(final Class<T> targetEntity); @Override CriteriaDelete<T> createCriteriaDelete(final Class<T> targetEntity); @Override CompoundSelection<Y> construct(final Class<Y> resultClass, final Selection<?>... selections); @Override CompoundSelection<Object[]> array(final Selection<?>... selections); @Override Expression<Double> avg(final Expression<N> x); @Override Expression<N> max(final Expression<N> x); @Override Expression<N> min(final Expression<N> x); @Override Expression<X> greatest(final Expression<X> x); @Override Expression<X> least(final Expression<X> x); @Override Expression<Long> count(final Expression<?> x); @Override Expression<Long> countDistinct(final Expression<?> x); @Override Predicate exists(final Subquery<?> subquery); @Override Expression<Y> all(final Subquery<Y> subquery); @Override Expression<Y> some(final Subquery<Y> subquery); @Override Expression<Y> any(final Subquery<Y> subquery); @Override Predicate not(final Expression<Boolean> restriction); @Override Predicate conjunction(); @Override Predicate disjunction(); @Override Predicate isTrue(final Expression<Boolean> x); @Override Predicate isFalse(final Expression<Boolean> x); @Override Predicate notEqual(final Expression<?> x, final Expression<?> y); @Override Predicate notEqual(final Expression<?> x, final Object y); @Override Predicate greaterThan(final Expression<? extends Y> x,
final Expression<? extends Y> y); @Override Predicate greaterThan(final Expression<? extends Y> x, final Y y); @Override Predicate greaterThanOrEqualTo(final Expression<? extends Y> x,
final Expression<? extends Y> y); @Override Predicate greaterThanOrEqualTo(final Expression<? extends Y> x, final Y y); @Override Predicate lessThan(final Expression<? extends Y> x, final Expression<? extends Y> y); @Override Predicate lessThan(final Expression<? extends Y> x, final Y y); @Override Predicate lessThanOrEqualTo(final Expression<? extends Y> x,
final Expression<? extends Y> y); @Override Predicate lessThanOrEqualTo(final Expression<? extends Y> x, final Y y); @Override Predicate between(final Expression<? extends Y> v, final Expression<? extends Y> x,
final Expression<? extends Y> y); @Override Predicate between(final Expression<? extends Y> v, final Y x, final Y y); @Override Predicate gt(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Predicate gt(final Expression<? extends Number> x, final Number y); @Override Predicate ge(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Predicate ge(final Expression<? extends Number> x, final Number y); @Override Predicate lt(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Predicate lt(final Expression<? extends Number> x, final Number y); @Override Predicate le(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Predicate le(final Expression<? extends Number> x, final Number y); @Override Expression<N> neg(final Expression<N> x); @Override Expression<N> abs(final Expression<N> x); @Override Expression<N> sum(final Expression<? extends N> x, final Expression<? extends N> y); @Override Expression<N> sum(final Expression<? extends N> x, final N y); @Override Expression<N> sum(final N x, final Expression<? extends N> y); @Override Expression<N> sum(final Expression<N> x); @Override Expression<Long> sumAsLong(final Expression<Integer> x); @Override Expression<Double> sumAsDouble(final Expression<Float> x); @Override Expression<N> prod(final Expression<? extends N> x, final Expression<? extends N> y); @Override Expression<N> prod(final Expression<? extends N> x, final N y); @Override Expression<N> prod(final N x, final Expression<? extends N> y); @Override Expression<N> diff(final Expression<? extends N> x, final Expression<? extends N> y); @Override Expression<N> diff(final Expression<? extends N> x, final N y); @Override Expression<N> diff(final N x, final Expression<? extends N> y); @Override Expression<Number> quot(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Expression<Number> quot(final Expression<? extends Number> x, final Number y); @Override Expression<Number> quot(final Number x, final Expression<? extends Number> y); @Override Expression<Integer> mod(final Expression<Integer> x, final Expression<Integer> y); @Override Expression<Integer> mod(final Expression<Integer> x, final Integer y); @Override Expression<Integer> mod(final Integer x, final Expression<Integer> y); @Override Expression<Double> sqrt(final Expression<? extends Number> x); @Override Expression<Long> toLong(final Expression<? extends Number> number); @Override Expression<Integer> toInteger(final Expression<? extends Number> number); @Override Expression<Float> toFloat(final Expression<? extends Number> number); @Override Expression<Double> toDouble(final Expression<? extends Number> number); @Override Expression<BigDecimal> toBigDecimal(final Expression<? extends Number> number); @Override Expression<BigInteger> toBigInteger(final Expression<? extends Number> number); @Override Expression<String> toString(final Expression<Character> character); @Override Expression<T> literal(final T value); @Override Expression<T> nullLiteral(final Class<T> resultClass); @Override ParameterExpression<T> parameter(final Class<T> paramClass); @Override ParameterExpression<T> parameter(final Class<T> paramClass, final String name); @Override Predicate isEmpty(final Expression<C> collection); @Override Predicate isNotEmpty(final Expression<C> collection); @Override Expression<Integer> size(final Expression<C> collection); @Override Expression<Integer> size(final C collection); @Override Predicate isMember(final Expression<E> elem, final Expression<C> collection); @Override Predicate isMember(final E elem, final Expression<C> collection); @Override Predicate isNotMember(final Expression<E> elem, final Expression<C> collection); @Override Predicate isNotMember(final E elem, final Expression<C> collection); @Override Expression<Collection<V>> values(final M map); @Override Expression<Set<K>> keys(final M map); @Override Predicate like(final Expression<String> x, final Expression<String> pattern, final Expression<Character> escapeChar); @Override Predicate like(final Expression<String> x, final Expression<String> pattern, final char escapeChar); @Override Predicate like(final Expression<String> x, final String pattern, final Expression<Character> escapeChar); @Override Predicate like(final Expression<String> x, final String pattern, final char escapeChar); @Override Predicate notLike(final Expression<String> x, final Expression<String> pattern); @Override Predicate notLike(final Expression<String> x, final String pattern); @Override Predicate notLike(final Expression<String> x, final Expression<String> pattern, final Expression<Character> escapeChar); @Override Predicate notLike(final Expression<String> x, final Expression<String> pattern, final char escapeChar); @Override Predicate notLike(final Expression<String> x, final String pattern, final Expression<Character> escapeChar); @Override Predicate notLike(final Expression<String> x, final String pattern, final char escapeChar); @Override Expression<String> concat(final Expression<String> x, final Expression<String> y); @Override Expression<String> concat(final Expression<String> x, final String y); @Override Expression<String> concat(final String x, final Expression<String> y); @Override Expression<String> substring(final Expression<String> x, final Expression<Integer> from); @Override Expression<String> substring(final Expression<String> x, final int from); @Override Expression<String> substring(final Expression<String> x, final Expression<Integer> from, final Expression<Integer> len); @Override Expression<String> substring(final Expression<String> x, final int from, final int len); @Override Expression<String> trim(final Expression<String> x); @Override Expression<String> trim(final Trimspec ts, final Expression<String> x); @Override Expression<String> trim(final Expression<Character> t, final Expression<String> x); @Override Expression<String> trim(final Trimspec ts, final Expression<Character> t, final Expression<String> x); @Override Expression<String> trim(final char t, final Expression<String> x); @Override Expression<String> trim(final Trimspec ts, final char t, final Expression<String> x); @Override Expression<Integer> length(final Expression<String> x); @Override Expression<Integer> locate(final Expression<String> x, final Expression<String> pattern); @Override Expression<Integer> locate(final Expression<String> x, final String pattern); @Override Expression<Integer> locate(final Expression<String> x, final Expression<String> pattern, final Expression<Integer> from); @Override Expression<Integer> locate(final Expression<String> x, final String pattern, final int from); @Override Expression<Date> currentDate(); @Override Expression<Timestamp> currentTimestamp(); @Override Expression<Time> currentTime(); @Override Coalesce<T> coalesce(); @Override Expression<Y> coalesce(final Expression<? extends Y> x, final Expression<? extends Y> y); @Override Expression<Y> coalesce(final Expression<? extends Y> x, final Y y); @Override Expression<Y> nullif(final Expression<Y> x, final Expression<?> y); @Override Expression<Y> nullif(final Expression<Y> x, final Y y); @Override SimpleCase<C, R> selectCase(final Expression<? extends C> expression); @Override Case<R> selectCase(); @Override Expression<T> function(final String name, final Class<T> type, final Expression<?>... args); @Override Join<X, V> treat(final Join<X, T> join, final Class<V> type); @Override CollectionJoin<X, E> treat(final CollectionJoin<X, T> join, final Class<E> type); @Override SetJoin<X, E> treat(final SetJoin<X, T> join, final Class<E> type); @Override ListJoin<X, E> treat(final ListJoin<X, T> join, final Class<E> type); @Override MapJoin<X, K, V> treat(final MapJoin<X, K, T> join, final Class<V> type); @Override Path<T> treat(final Path<X> path, final Class<T> type); @Override Root<T> treat(final Root<X> root, final Class<T> type); }
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@Test(expected = UnsupportedOperationException.class) public void isNotMember1() { cb.isNotMember((Expression<Widget>) null, (Expression<List<Widget>>) null); }
@Test(expected = UnsupportedOperationException.class) public void isNotMember2() { cb.isNotMember((Widget) null, (Expression<List<Widget>>) null); }
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MinijaxCriteriaBuilder implements javax.persistence.criteria.CriteriaBuilder { @Override public <V, M extends Map<?, V>> Expression<Collection<V>> values(final M map) { throw new UnsupportedOperationException(); } MinijaxCriteriaBuilder(final MinijaxMetamodel metamodel); MinijaxMetamodel getMetamodel(); @Override MinijaxCriteriaQuery<T> createQuery(final Class<T> resultClass); @Override MinijaxCriteriaQuery<Object> createQuery(); @Override MinijaxCriteriaQuery<Tuple> createTupleQuery(); @Override MinijaxCompoundSelection<Tuple> tuple(final Selection<?>... selections); @Override @SuppressWarnings({ "rawtypes", "unchecked", "java:S1221" }) // Ignore Sonar warning about confusing "equal" method MinijaxComparison equal(final Expression<?> x, final Object y); @Override @SuppressWarnings({ "rawtypes", "unchecked", "java:S1221" }) // Ignore Sonar warning about confusing "equal" method MinijaxComparison equal(final Expression<?> x, final Expression<?> y); @Override @SuppressWarnings("unchecked") MinijaxIn<T> in(final Expression<? extends T> expression); @Override @SuppressWarnings({ "rawtypes", "unchecked" }) MinijaxComparison isNull(final Expression<?> x); @Override @SuppressWarnings({ "rawtypes", "unchecked" }) MinijaxComparison isNotNull(final Expression<?> x); @Override @SuppressWarnings("unchecked") MinijaxPredicate like(final Expression<String> x, final Expression<String> pattern); @Override MinijaxPredicate like(final Expression<String> x, final String pattern); @Override @SuppressWarnings({ "unchecked", "rawtypes" }) MinijaxFunctionExpression<String> lower(final Expression<String> x); @Override @SuppressWarnings({ "unchecked", "rawtypes" }) Expression<String> upper(final Expression<String> x); @Override MinijaxConjunction and(final Expression<Boolean> x, final Expression<Boolean> y); @Override MinijaxConjunction and(final Predicate... restrictions); @Override MinijaxConjunction or(final Expression<Boolean> x, final Expression<Boolean> y); @Override MinijaxConjunction or(final Predicate... restrictions); @Override MinijaxOrder asc(final Expression<?> x); @Override MinijaxOrder desc(final Expression<?> x); @Override CriteriaUpdate<T> createCriteriaUpdate(final Class<T> targetEntity); @Override CriteriaDelete<T> createCriteriaDelete(final Class<T> targetEntity); @Override CompoundSelection<Y> construct(final Class<Y> resultClass, final Selection<?>... selections); @Override CompoundSelection<Object[]> array(final Selection<?>... selections); @Override Expression<Double> avg(final Expression<N> x); @Override Expression<N> max(final Expression<N> x); @Override Expression<N> min(final Expression<N> x); @Override Expression<X> greatest(final Expression<X> x); @Override Expression<X> least(final Expression<X> x); @Override Expression<Long> count(final Expression<?> x); @Override Expression<Long> countDistinct(final Expression<?> x); @Override Predicate exists(final Subquery<?> subquery); @Override Expression<Y> all(final Subquery<Y> subquery); @Override Expression<Y> some(final Subquery<Y> subquery); @Override Expression<Y> any(final Subquery<Y> subquery); @Override Predicate not(final Expression<Boolean> restriction); @Override Predicate conjunction(); @Override Predicate disjunction(); @Override Predicate isTrue(final Expression<Boolean> x); @Override Predicate isFalse(final Expression<Boolean> x); @Override Predicate notEqual(final Expression<?> x, final Expression<?> y); @Override Predicate notEqual(final Expression<?> x, final Object y); @Override Predicate greaterThan(final Expression<? extends Y> x,
final Expression<? extends Y> y); @Override Predicate greaterThan(final Expression<? extends Y> x, final Y y); @Override Predicate greaterThanOrEqualTo(final Expression<? extends Y> x,
final Expression<? extends Y> y); @Override Predicate greaterThanOrEqualTo(final Expression<? extends Y> x, final Y y); @Override Predicate lessThan(final Expression<? extends Y> x, final Expression<? extends Y> y); @Override Predicate lessThan(final Expression<? extends Y> x, final Y y); @Override Predicate lessThanOrEqualTo(final Expression<? extends Y> x,
final Expression<? extends Y> y); @Override Predicate lessThanOrEqualTo(final Expression<? extends Y> x, final Y y); @Override Predicate between(final Expression<? extends Y> v, final Expression<? extends Y> x,
final Expression<? extends Y> y); @Override Predicate between(final Expression<? extends Y> v, final Y x, final Y y); @Override Predicate gt(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Predicate gt(final Expression<? extends Number> x, final Number y); @Override Predicate ge(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Predicate ge(final Expression<? extends Number> x, final Number y); @Override Predicate lt(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Predicate lt(final Expression<? extends Number> x, final Number y); @Override Predicate le(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Predicate le(final Expression<? extends Number> x, final Number y); @Override Expression<N> neg(final Expression<N> x); @Override Expression<N> abs(final Expression<N> x); @Override Expression<N> sum(final Expression<? extends N> x, final Expression<? extends N> y); @Override Expression<N> sum(final Expression<? extends N> x, final N y); @Override Expression<N> sum(final N x, final Expression<? extends N> y); @Override Expression<N> sum(final Expression<N> x); @Override Expression<Long> sumAsLong(final Expression<Integer> x); @Override Expression<Double> sumAsDouble(final Expression<Float> x); @Override Expression<N> prod(final Expression<? extends N> x, final Expression<? extends N> y); @Override Expression<N> prod(final Expression<? extends N> x, final N y); @Override Expression<N> prod(final N x, final Expression<? extends N> y); @Override Expression<N> diff(final Expression<? extends N> x, final Expression<? extends N> y); @Override Expression<N> diff(final Expression<? extends N> x, final N y); @Override Expression<N> diff(final N x, final Expression<? extends N> y); @Override Expression<Number> quot(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Expression<Number> quot(final Expression<? extends Number> x, final Number y); @Override Expression<Number> quot(final Number x, final Expression<? extends Number> y); @Override Expression<Integer> mod(final Expression<Integer> x, final Expression<Integer> y); @Override Expression<Integer> mod(final Expression<Integer> x, final Integer y); @Override Expression<Integer> mod(final Integer x, final Expression<Integer> y); @Override Expression<Double> sqrt(final Expression<? extends Number> x); @Override Expression<Long> toLong(final Expression<? extends Number> number); @Override Expression<Integer> toInteger(final Expression<? extends Number> number); @Override Expression<Float> toFloat(final Expression<? extends Number> number); @Override Expression<Double> toDouble(final Expression<? extends Number> number); @Override Expression<BigDecimal> toBigDecimal(final Expression<? extends Number> number); @Override Expression<BigInteger> toBigInteger(final Expression<? extends Number> number); @Override Expression<String> toString(final Expression<Character> character); @Override Expression<T> literal(final T value); @Override Expression<T> nullLiteral(final Class<T> resultClass); @Override ParameterExpression<T> parameter(final Class<T> paramClass); @Override ParameterExpression<T> parameter(final Class<T> paramClass, final String name); @Override Predicate isEmpty(final Expression<C> collection); @Override Predicate isNotEmpty(final Expression<C> collection); @Override Expression<Integer> size(final Expression<C> collection); @Override Expression<Integer> size(final C collection); @Override Predicate isMember(final Expression<E> elem, final Expression<C> collection); @Override Predicate isMember(final E elem, final Expression<C> collection); @Override Predicate isNotMember(final Expression<E> elem, final Expression<C> collection); @Override Predicate isNotMember(final E elem, final Expression<C> collection); @Override Expression<Collection<V>> values(final M map); @Override Expression<Set<K>> keys(final M map); @Override Predicate like(final Expression<String> x, final Expression<String> pattern, final Expression<Character> escapeChar); @Override Predicate like(final Expression<String> x, final Expression<String> pattern, final char escapeChar); @Override Predicate like(final Expression<String> x, final String pattern, final Expression<Character> escapeChar); @Override Predicate like(final Expression<String> x, final String pattern, final char escapeChar); @Override Predicate notLike(final Expression<String> x, final Expression<String> pattern); @Override Predicate notLike(final Expression<String> x, final String pattern); @Override Predicate notLike(final Expression<String> x, final Expression<String> pattern, final Expression<Character> escapeChar); @Override Predicate notLike(final Expression<String> x, final Expression<String> pattern, final char escapeChar); @Override Predicate notLike(final Expression<String> x, final String pattern, final Expression<Character> escapeChar); @Override Predicate notLike(final Expression<String> x, final String pattern, final char escapeChar); @Override Expression<String> concat(final Expression<String> x, final Expression<String> y); @Override Expression<String> concat(final Expression<String> x, final String y); @Override Expression<String> concat(final String x, final Expression<String> y); @Override Expression<String> substring(final Expression<String> x, final Expression<Integer> from); @Override Expression<String> substring(final Expression<String> x, final int from); @Override Expression<String> substring(final Expression<String> x, final Expression<Integer> from, final Expression<Integer> len); @Override Expression<String> substring(final Expression<String> x, final int from, final int len); @Override Expression<String> trim(final Expression<String> x); @Override Expression<String> trim(final Trimspec ts, final Expression<String> x); @Override Expression<String> trim(final Expression<Character> t, final Expression<String> x); @Override Expression<String> trim(final Trimspec ts, final Expression<Character> t, final Expression<String> x); @Override Expression<String> trim(final char t, final Expression<String> x); @Override Expression<String> trim(final Trimspec ts, final char t, final Expression<String> x); @Override Expression<Integer> length(final Expression<String> x); @Override Expression<Integer> locate(final Expression<String> x, final Expression<String> pattern); @Override Expression<Integer> locate(final Expression<String> x, final String pattern); @Override Expression<Integer> locate(final Expression<String> x, final Expression<String> pattern, final Expression<Integer> from); @Override Expression<Integer> locate(final Expression<String> x, final String pattern, final int from); @Override Expression<Date> currentDate(); @Override Expression<Timestamp> currentTimestamp(); @Override Expression<Time> currentTime(); @Override Coalesce<T> coalesce(); @Override Expression<Y> coalesce(final Expression<? extends Y> x, final Expression<? extends Y> y); @Override Expression<Y> coalesce(final Expression<? extends Y> x, final Y y); @Override Expression<Y> nullif(final Expression<Y> x, final Expression<?> y); @Override Expression<Y> nullif(final Expression<Y> x, final Y y); @Override SimpleCase<C, R> selectCase(final Expression<? extends C> expression); @Override Case<R> selectCase(); @Override Expression<T> function(final String name, final Class<T> type, final Expression<?>... args); @Override Join<X, V> treat(final Join<X, T> join, final Class<V> type); @Override CollectionJoin<X, E> treat(final CollectionJoin<X, T> join, final Class<E> type); @Override SetJoin<X, E> treat(final SetJoin<X, T> join, final Class<E> type); @Override ListJoin<X, E> treat(final ListJoin<X, T> join, final Class<E> type); @Override MapJoin<X, K, V> treat(final MapJoin<X, K, T> join, final Class<V> type); @Override Path<T> treat(final Path<X> path, final Class<T> type); @Override Root<T> treat(final Root<X> root, final Class<T> type); }
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@Test(expected = UnsupportedOperationException.class) public void testValues() { cb.values(null); }
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MinijaxCriteriaBuilder implements javax.persistence.criteria.CriteriaBuilder { @Override public <K, M extends Map<K, ?>> Expression<Set<K>> keys(final M map) { throw new UnsupportedOperationException(); } MinijaxCriteriaBuilder(final MinijaxMetamodel metamodel); MinijaxMetamodel getMetamodel(); @Override MinijaxCriteriaQuery<T> createQuery(final Class<T> resultClass); @Override MinijaxCriteriaQuery<Object> createQuery(); @Override MinijaxCriteriaQuery<Tuple> createTupleQuery(); @Override MinijaxCompoundSelection<Tuple> tuple(final Selection<?>... selections); @Override @SuppressWarnings({ "rawtypes", "unchecked", "java:S1221" }) // Ignore Sonar warning about confusing "equal" method MinijaxComparison equal(final Expression<?> x, final Object y); @Override @SuppressWarnings({ "rawtypes", "unchecked", "java:S1221" }) // Ignore Sonar warning about confusing "equal" method MinijaxComparison equal(final Expression<?> x, final Expression<?> y); @Override @SuppressWarnings("unchecked") MinijaxIn<T> in(final Expression<? extends T> expression); @Override @SuppressWarnings({ "rawtypes", "unchecked" }) MinijaxComparison isNull(final Expression<?> x); @Override @SuppressWarnings({ "rawtypes", "unchecked" }) MinijaxComparison isNotNull(final Expression<?> x); @Override @SuppressWarnings("unchecked") MinijaxPredicate like(final Expression<String> x, final Expression<String> pattern); @Override MinijaxPredicate like(final Expression<String> x, final String pattern); @Override @SuppressWarnings({ "unchecked", "rawtypes" }) MinijaxFunctionExpression<String> lower(final Expression<String> x); @Override @SuppressWarnings({ "unchecked", "rawtypes" }) Expression<String> upper(final Expression<String> x); @Override MinijaxConjunction and(final Expression<Boolean> x, final Expression<Boolean> y); @Override MinijaxConjunction and(final Predicate... restrictions); @Override MinijaxConjunction or(final Expression<Boolean> x, final Expression<Boolean> y); @Override MinijaxConjunction or(final Predicate... restrictions); @Override MinijaxOrder asc(final Expression<?> x); @Override MinijaxOrder desc(final Expression<?> x); @Override CriteriaUpdate<T> createCriteriaUpdate(final Class<T> targetEntity); @Override CriteriaDelete<T> createCriteriaDelete(final Class<T> targetEntity); @Override CompoundSelection<Y> construct(final Class<Y> resultClass, final Selection<?>... selections); @Override CompoundSelection<Object[]> array(final Selection<?>... selections); @Override Expression<Double> avg(final Expression<N> x); @Override Expression<N> max(final Expression<N> x); @Override Expression<N> min(final Expression<N> x); @Override Expression<X> greatest(final Expression<X> x); @Override Expression<X> least(final Expression<X> x); @Override Expression<Long> count(final Expression<?> x); @Override Expression<Long> countDistinct(final Expression<?> x); @Override Predicate exists(final Subquery<?> subquery); @Override Expression<Y> all(final Subquery<Y> subquery); @Override Expression<Y> some(final Subquery<Y> subquery); @Override Expression<Y> any(final Subquery<Y> subquery); @Override Predicate not(final Expression<Boolean> restriction); @Override Predicate conjunction(); @Override Predicate disjunction(); @Override Predicate isTrue(final Expression<Boolean> x); @Override Predicate isFalse(final Expression<Boolean> x); @Override Predicate notEqual(final Expression<?> x, final Expression<?> y); @Override Predicate notEqual(final Expression<?> x, final Object y); @Override Predicate greaterThan(final Expression<? extends Y> x,
final Expression<? extends Y> y); @Override Predicate greaterThan(final Expression<? extends Y> x, final Y y); @Override Predicate greaterThanOrEqualTo(final Expression<? extends Y> x,
final Expression<? extends Y> y); @Override Predicate greaterThanOrEqualTo(final Expression<? extends Y> x, final Y y); @Override Predicate lessThan(final Expression<? extends Y> x, final Expression<? extends Y> y); @Override Predicate lessThan(final Expression<? extends Y> x, final Y y); @Override Predicate lessThanOrEqualTo(final Expression<? extends Y> x,
final Expression<? extends Y> y); @Override Predicate lessThanOrEqualTo(final Expression<? extends Y> x, final Y y); @Override Predicate between(final Expression<? extends Y> v, final Expression<? extends Y> x,
final Expression<? extends Y> y); @Override Predicate between(final Expression<? extends Y> v, final Y x, final Y y); @Override Predicate gt(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Predicate gt(final Expression<? extends Number> x, final Number y); @Override Predicate ge(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Predicate ge(final Expression<? extends Number> x, final Number y); @Override Predicate lt(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Predicate lt(final Expression<? extends Number> x, final Number y); @Override Predicate le(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Predicate le(final Expression<? extends Number> x, final Number y); @Override Expression<N> neg(final Expression<N> x); @Override Expression<N> abs(final Expression<N> x); @Override Expression<N> sum(final Expression<? extends N> x, final Expression<? extends N> y); @Override Expression<N> sum(final Expression<? extends N> x, final N y); @Override Expression<N> sum(final N x, final Expression<? extends N> y); @Override Expression<N> sum(final Expression<N> x); @Override Expression<Long> sumAsLong(final Expression<Integer> x); @Override Expression<Double> sumAsDouble(final Expression<Float> x); @Override Expression<N> prod(final Expression<? extends N> x, final Expression<? extends N> y); @Override Expression<N> prod(final Expression<? extends N> x, final N y); @Override Expression<N> prod(final N x, final Expression<? extends N> y); @Override Expression<N> diff(final Expression<? extends N> x, final Expression<? extends N> y); @Override Expression<N> diff(final Expression<? extends N> x, final N y); @Override Expression<N> diff(final N x, final Expression<? extends N> y); @Override Expression<Number> quot(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Expression<Number> quot(final Expression<? extends Number> x, final Number y); @Override Expression<Number> quot(final Number x, final Expression<? extends Number> y); @Override Expression<Integer> mod(final Expression<Integer> x, final Expression<Integer> y); @Override Expression<Integer> mod(final Expression<Integer> x, final Integer y); @Override Expression<Integer> mod(final Integer x, final Expression<Integer> y); @Override Expression<Double> sqrt(final Expression<? extends Number> x); @Override Expression<Long> toLong(final Expression<? extends Number> number); @Override Expression<Integer> toInteger(final Expression<? extends Number> number); @Override Expression<Float> toFloat(final Expression<? extends Number> number); @Override Expression<Double> toDouble(final Expression<? extends Number> number); @Override Expression<BigDecimal> toBigDecimal(final Expression<? extends Number> number); @Override Expression<BigInteger> toBigInteger(final Expression<? extends Number> number); @Override Expression<String> toString(final Expression<Character> character); @Override Expression<T> literal(final T value); @Override Expression<T> nullLiteral(final Class<T> resultClass); @Override ParameterExpression<T> parameter(final Class<T> paramClass); @Override ParameterExpression<T> parameter(final Class<T> paramClass, final String name); @Override Predicate isEmpty(final Expression<C> collection); @Override Predicate isNotEmpty(final Expression<C> collection); @Override Expression<Integer> size(final Expression<C> collection); @Override Expression<Integer> size(final C collection); @Override Predicate isMember(final Expression<E> elem, final Expression<C> collection); @Override Predicate isMember(final E elem, final Expression<C> collection); @Override Predicate isNotMember(final Expression<E> elem, final Expression<C> collection); @Override Predicate isNotMember(final E elem, final Expression<C> collection); @Override Expression<Collection<V>> values(final M map); @Override Expression<Set<K>> keys(final M map); @Override Predicate like(final Expression<String> x, final Expression<String> pattern, final Expression<Character> escapeChar); @Override Predicate like(final Expression<String> x, final Expression<String> pattern, final char escapeChar); @Override Predicate like(final Expression<String> x, final String pattern, final Expression<Character> escapeChar); @Override Predicate like(final Expression<String> x, final String pattern, final char escapeChar); @Override Predicate notLike(final Expression<String> x, final Expression<String> pattern); @Override Predicate notLike(final Expression<String> x, final String pattern); @Override Predicate notLike(final Expression<String> x, final Expression<String> pattern, final Expression<Character> escapeChar); @Override Predicate notLike(final Expression<String> x, final Expression<String> pattern, final char escapeChar); @Override Predicate notLike(final Expression<String> x, final String pattern, final Expression<Character> escapeChar); @Override Predicate notLike(final Expression<String> x, final String pattern, final char escapeChar); @Override Expression<String> concat(final Expression<String> x, final Expression<String> y); @Override Expression<String> concat(final Expression<String> x, final String y); @Override Expression<String> concat(final String x, final Expression<String> y); @Override Expression<String> substring(final Expression<String> x, final Expression<Integer> from); @Override Expression<String> substring(final Expression<String> x, final int from); @Override Expression<String> substring(final Expression<String> x, final Expression<Integer> from, final Expression<Integer> len); @Override Expression<String> substring(final Expression<String> x, final int from, final int len); @Override Expression<String> trim(final Expression<String> x); @Override Expression<String> trim(final Trimspec ts, final Expression<String> x); @Override Expression<String> trim(final Expression<Character> t, final Expression<String> x); @Override Expression<String> trim(final Trimspec ts, final Expression<Character> t, final Expression<String> x); @Override Expression<String> trim(final char t, final Expression<String> x); @Override Expression<String> trim(final Trimspec ts, final char t, final Expression<String> x); @Override Expression<Integer> length(final Expression<String> x); @Override Expression<Integer> locate(final Expression<String> x, final Expression<String> pattern); @Override Expression<Integer> locate(final Expression<String> x, final String pattern); @Override Expression<Integer> locate(final Expression<String> x, final Expression<String> pattern, final Expression<Integer> from); @Override Expression<Integer> locate(final Expression<String> x, final String pattern, final int from); @Override Expression<Date> currentDate(); @Override Expression<Timestamp> currentTimestamp(); @Override Expression<Time> currentTime(); @Override Coalesce<T> coalesce(); @Override Expression<Y> coalesce(final Expression<? extends Y> x, final Expression<? extends Y> y); @Override Expression<Y> coalesce(final Expression<? extends Y> x, final Y y); @Override Expression<Y> nullif(final Expression<Y> x, final Expression<?> y); @Override Expression<Y> nullif(final Expression<Y> x, final Y y); @Override SimpleCase<C, R> selectCase(final Expression<? extends C> expression); @Override Case<R> selectCase(); @Override Expression<T> function(final String name, final Class<T> type, final Expression<?>... args); @Override Join<X, V> treat(final Join<X, T> join, final Class<V> type); @Override CollectionJoin<X, E> treat(final CollectionJoin<X, T> join, final Class<E> type); @Override SetJoin<X, E> treat(final SetJoin<X, T> join, final Class<E> type); @Override ListJoin<X, E> treat(final ListJoin<X, T> join, final Class<E> type); @Override MapJoin<X, K, V> treat(final MapJoin<X, K, T> join, final Class<V> type); @Override Path<T> treat(final Path<X> path, final Class<T> type); @Override Root<T> treat(final Root<X> root, final Class<T> type); }
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@Test(expected = UnsupportedOperationException.class) public void testKeys() { cb.keys(null); }
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NetworkUtils { public static String getIpAddress(final Enumeration<NetworkInterface> nis) { while (nis.hasMoreElements()) { final NetworkInterface ni = nis.nextElement(); final String address = getIpAddress(ni); if (address != null && !address.startsWith("127.") && !address.startsWith("169.")) { return address; } } return null; } NetworkUtils(); static String getIpAddress(final Enumeration<NetworkInterface> nis); }
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@Test public void testEmptyInterfaces() { final Enumeration<NetworkInterface> nis = enumeration(emptyList()); assertNull(NetworkUtils.getIpAddress(nis)); }
@Test public void testLoopbackOnly() { final Enumeration<NetworkInterface> nis = enumeration(singletonList(createInterface("127.0.0.1"))); assertNull(NetworkUtils.getIpAddress(nis)); }
@Test public void testLinkLocalOnly() { final Enumeration<NetworkInterface> nis = enumeration(singletonList(createInterface("169.254.172.42"))); assertNull(NetworkUtils.getIpAddress(nis)); }
@Test public void testIpv6Only() { final Enumeration<NetworkInterface> nis = enumeration(singletonList(createInterface("2001:0db8:85a3:0000:0000:8a2e:0370:7334"))); assertNull(NetworkUtils.getIpAddress(nis)); }
@Test public void testFargate() { final Enumeration<NetworkInterface> nis = enumeration(asList( createInterface("127.0.0.1"), createInterface("169.254.172.42"), createInterface("2001:0db8:85a3:0000:0000:8a2e:0370:7334", "10.0.0.1"))); assertEquals("10.0.0.1", NetworkUtils.getIpAddress(nis)); }
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MinijaxCriteriaBuilder implements javax.persistence.criteria.CriteriaBuilder { @Override public Predicate notLike(final Expression<String> x, final Expression<String> pattern) { throw new UnsupportedOperationException(); } MinijaxCriteriaBuilder(final MinijaxMetamodel metamodel); MinijaxMetamodel getMetamodel(); @Override MinijaxCriteriaQuery<T> createQuery(final Class<T> resultClass); @Override MinijaxCriteriaQuery<Object> createQuery(); @Override MinijaxCriteriaQuery<Tuple> createTupleQuery(); @Override MinijaxCompoundSelection<Tuple> tuple(final Selection<?>... selections); @Override @SuppressWarnings({ "rawtypes", "unchecked", "java:S1221" }) // Ignore Sonar warning about confusing "equal" method MinijaxComparison equal(final Expression<?> x, final Object y); @Override @SuppressWarnings({ "rawtypes", "unchecked", "java:S1221" }) // Ignore Sonar warning about confusing "equal" method MinijaxComparison equal(final Expression<?> x, final Expression<?> y); @Override @SuppressWarnings("unchecked") MinijaxIn<T> in(final Expression<? extends T> expression); @Override @SuppressWarnings({ "rawtypes", "unchecked" }) MinijaxComparison isNull(final Expression<?> x); @Override @SuppressWarnings({ "rawtypes", "unchecked" }) MinijaxComparison isNotNull(final Expression<?> x); @Override @SuppressWarnings("unchecked") MinijaxPredicate like(final Expression<String> x, final Expression<String> pattern); @Override MinijaxPredicate like(final Expression<String> x, final String pattern); @Override @SuppressWarnings({ "unchecked", "rawtypes" }) MinijaxFunctionExpression<String> lower(final Expression<String> x); @Override @SuppressWarnings({ "unchecked", "rawtypes" }) Expression<String> upper(final Expression<String> x); @Override MinijaxConjunction and(final Expression<Boolean> x, final Expression<Boolean> y); @Override MinijaxConjunction and(final Predicate... restrictions); @Override MinijaxConjunction or(final Expression<Boolean> x, final Expression<Boolean> y); @Override MinijaxConjunction or(final Predicate... restrictions); @Override MinijaxOrder asc(final Expression<?> x); @Override MinijaxOrder desc(final Expression<?> x); @Override CriteriaUpdate<T> createCriteriaUpdate(final Class<T> targetEntity); @Override CriteriaDelete<T> createCriteriaDelete(final Class<T> targetEntity); @Override CompoundSelection<Y> construct(final Class<Y> resultClass, final Selection<?>... selections); @Override CompoundSelection<Object[]> array(final Selection<?>... selections); @Override Expression<Double> avg(final Expression<N> x); @Override Expression<N> max(final Expression<N> x); @Override Expression<N> min(final Expression<N> x); @Override Expression<X> greatest(final Expression<X> x); @Override Expression<X> least(final Expression<X> x); @Override Expression<Long> count(final Expression<?> x); @Override Expression<Long> countDistinct(final Expression<?> x); @Override Predicate exists(final Subquery<?> subquery); @Override Expression<Y> all(final Subquery<Y> subquery); @Override Expression<Y> some(final Subquery<Y> subquery); @Override Expression<Y> any(final Subquery<Y> subquery); @Override Predicate not(final Expression<Boolean> restriction); @Override Predicate conjunction(); @Override Predicate disjunction(); @Override Predicate isTrue(final Expression<Boolean> x); @Override Predicate isFalse(final Expression<Boolean> x); @Override Predicate notEqual(final Expression<?> x, final Expression<?> y); @Override Predicate notEqual(final Expression<?> x, final Object y); @Override Predicate greaterThan(final Expression<? extends Y> x,
final Expression<? extends Y> y); @Override Predicate greaterThan(final Expression<? extends Y> x, final Y y); @Override Predicate greaterThanOrEqualTo(final Expression<? extends Y> x,
final Expression<? extends Y> y); @Override Predicate greaterThanOrEqualTo(final Expression<? extends Y> x, final Y y); @Override Predicate lessThan(final Expression<? extends Y> x, final Expression<? extends Y> y); @Override Predicate lessThan(final Expression<? extends Y> x, final Y y); @Override Predicate lessThanOrEqualTo(final Expression<? extends Y> x,
final Expression<? extends Y> y); @Override Predicate lessThanOrEqualTo(final Expression<? extends Y> x, final Y y); @Override Predicate between(final Expression<? extends Y> v, final Expression<? extends Y> x,
final Expression<? extends Y> y); @Override Predicate between(final Expression<? extends Y> v, final Y x, final Y y); @Override Predicate gt(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Predicate gt(final Expression<? extends Number> x, final Number y); @Override Predicate ge(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Predicate ge(final Expression<? extends Number> x, final Number y); @Override Predicate lt(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Predicate lt(final Expression<? extends Number> x, final Number y); @Override Predicate le(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Predicate le(final Expression<? extends Number> x, final Number y); @Override Expression<N> neg(final Expression<N> x); @Override Expression<N> abs(final Expression<N> x); @Override Expression<N> sum(final Expression<? extends N> x, final Expression<? extends N> y); @Override Expression<N> sum(final Expression<? extends N> x, final N y); @Override Expression<N> sum(final N x, final Expression<? extends N> y); @Override Expression<N> sum(final Expression<N> x); @Override Expression<Long> sumAsLong(final Expression<Integer> x); @Override Expression<Double> sumAsDouble(final Expression<Float> x); @Override Expression<N> prod(final Expression<? extends N> x, final Expression<? extends N> y); @Override Expression<N> prod(final Expression<? extends N> x, final N y); @Override Expression<N> prod(final N x, final Expression<? extends N> y); @Override Expression<N> diff(final Expression<? extends N> x, final Expression<? extends N> y); @Override Expression<N> diff(final Expression<? extends N> x, final N y); @Override Expression<N> diff(final N x, final Expression<? extends N> y); @Override Expression<Number> quot(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Expression<Number> quot(final Expression<? extends Number> x, final Number y); @Override Expression<Number> quot(final Number x, final Expression<? extends Number> y); @Override Expression<Integer> mod(final Expression<Integer> x, final Expression<Integer> y); @Override Expression<Integer> mod(final Expression<Integer> x, final Integer y); @Override Expression<Integer> mod(final Integer x, final Expression<Integer> y); @Override Expression<Double> sqrt(final Expression<? extends Number> x); @Override Expression<Long> toLong(final Expression<? extends Number> number); @Override Expression<Integer> toInteger(final Expression<? extends Number> number); @Override Expression<Float> toFloat(final Expression<? extends Number> number); @Override Expression<Double> toDouble(final Expression<? extends Number> number); @Override Expression<BigDecimal> toBigDecimal(final Expression<? extends Number> number); @Override Expression<BigInteger> toBigInteger(final Expression<? extends Number> number); @Override Expression<String> toString(final Expression<Character> character); @Override Expression<T> literal(final T value); @Override Expression<T> nullLiteral(final Class<T> resultClass); @Override ParameterExpression<T> parameter(final Class<T> paramClass); @Override ParameterExpression<T> parameter(final Class<T> paramClass, final String name); @Override Predicate isEmpty(final Expression<C> collection); @Override Predicate isNotEmpty(final Expression<C> collection); @Override Expression<Integer> size(final Expression<C> collection); @Override Expression<Integer> size(final C collection); @Override Predicate isMember(final Expression<E> elem, final Expression<C> collection); @Override Predicate isMember(final E elem, final Expression<C> collection); @Override Predicate isNotMember(final Expression<E> elem, final Expression<C> collection); @Override Predicate isNotMember(final E elem, final Expression<C> collection); @Override Expression<Collection<V>> values(final M map); @Override Expression<Set<K>> keys(final M map); @Override Predicate like(final Expression<String> x, final Expression<String> pattern, final Expression<Character> escapeChar); @Override Predicate like(final Expression<String> x, final Expression<String> pattern, final char escapeChar); @Override Predicate like(final Expression<String> x, final String pattern, final Expression<Character> escapeChar); @Override Predicate like(final Expression<String> x, final String pattern, final char escapeChar); @Override Predicate notLike(final Expression<String> x, final Expression<String> pattern); @Override Predicate notLike(final Expression<String> x, final String pattern); @Override Predicate notLike(final Expression<String> x, final Expression<String> pattern, final Expression<Character> escapeChar); @Override Predicate notLike(final Expression<String> x, final Expression<String> pattern, final char escapeChar); @Override Predicate notLike(final Expression<String> x, final String pattern, final Expression<Character> escapeChar); @Override Predicate notLike(final Expression<String> x, final String pattern, final char escapeChar); @Override Expression<String> concat(final Expression<String> x, final Expression<String> y); @Override Expression<String> concat(final Expression<String> x, final String y); @Override Expression<String> concat(final String x, final Expression<String> y); @Override Expression<String> substring(final Expression<String> x, final Expression<Integer> from); @Override Expression<String> substring(final Expression<String> x, final int from); @Override Expression<String> substring(final Expression<String> x, final Expression<Integer> from, final Expression<Integer> len); @Override Expression<String> substring(final Expression<String> x, final int from, final int len); @Override Expression<String> trim(final Expression<String> x); @Override Expression<String> trim(final Trimspec ts, final Expression<String> x); @Override Expression<String> trim(final Expression<Character> t, final Expression<String> x); @Override Expression<String> trim(final Trimspec ts, final Expression<Character> t, final Expression<String> x); @Override Expression<String> trim(final char t, final Expression<String> x); @Override Expression<String> trim(final Trimspec ts, final char t, final Expression<String> x); @Override Expression<Integer> length(final Expression<String> x); @Override Expression<Integer> locate(final Expression<String> x, final Expression<String> pattern); @Override Expression<Integer> locate(final Expression<String> x, final String pattern); @Override Expression<Integer> locate(final Expression<String> x, final Expression<String> pattern, final Expression<Integer> from); @Override Expression<Integer> locate(final Expression<String> x, final String pattern, final int from); @Override Expression<Date> currentDate(); @Override Expression<Timestamp> currentTimestamp(); @Override Expression<Time> currentTime(); @Override Coalesce<T> coalesce(); @Override Expression<Y> coalesce(final Expression<? extends Y> x, final Expression<? extends Y> y); @Override Expression<Y> coalesce(final Expression<? extends Y> x, final Y y); @Override Expression<Y> nullif(final Expression<Y> x, final Expression<?> y); @Override Expression<Y> nullif(final Expression<Y> x, final Y y); @Override SimpleCase<C, R> selectCase(final Expression<? extends C> expression); @Override Case<R> selectCase(); @Override Expression<T> function(final String name, final Class<T> type, final Expression<?>... args); @Override Join<X, V> treat(final Join<X, T> join, final Class<V> type); @Override CollectionJoin<X, E> treat(final CollectionJoin<X, T> join, final Class<E> type); @Override SetJoin<X, E> treat(final SetJoin<X, T> join, final Class<E> type); @Override ListJoin<X, E> treat(final ListJoin<X, T> join, final Class<E> type); @Override MapJoin<X, K, V> treat(final MapJoin<X, K, T> join, final Class<V> type); @Override Path<T> treat(final Path<X> path, final Class<T> type); @Override Root<T> treat(final Root<X> root, final Class<T> type); }
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@Test(expected = UnsupportedOperationException.class) public void testNotLike1() { cb.notLike((Expression<String>) null, (Expression<String>) null); }
@Test(expected = UnsupportedOperationException.class) public void testNotLike2() { cb.notLike((Expression<String>) null, (String) null); }
@Test(expected = UnsupportedOperationException.class) public void testNotLike3() { cb.notLike((Expression<String>) null, (Expression<String>) null, (Expression<Character>) null); }
@Test(expected = UnsupportedOperationException.class) public void testNotLike4() { cb.notLike((Expression<String>) null, (Expression<String>) null, ' '); }
@Test(expected = UnsupportedOperationException.class) public void testNotLike5() { cb.notLike((Expression<String>) null, (String) null, (Expression<Character>) null); }
@Test(expected = UnsupportedOperationException.class) public void testNotLike6() { cb.notLike((Expression<String>) null, (String) null, ' '); }
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MinijaxCriteriaBuilder implements javax.persistence.criteria.CriteriaBuilder { @Override public Expression<String> concat(final Expression<String> x, final Expression<String> y) { throw new UnsupportedOperationException(); } MinijaxCriteriaBuilder(final MinijaxMetamodel metamodel); MinijaxMetamodel getMetamodel(); @Override MinijaxCriteriaQuery<T> createQuery(final Class<T> resultClass); @Override MinijaxCriteriaQuery<Object> createQuery(); @Override MinijaxCriteriaQuery<Tuple> createTupleQuery(); @Override MinijaxCompoundSelection<Tuple> tuple(final Selection<?>... selections); @Override @SuppressWarnings({ "rawtypes", "unchecked", "java:S1221" }) // Ignore Sonar warning about confusing "equal" method MinijaxComparison equal(final Expression<?> x, final Object y); @Override @SuppressWarnings({ "rawtypes", "unchecked", "java:S1221" }) // Ignore Sonar warning about confusing "equal" method MinijaxComparison equal(final Expression<?> x, final Expression<?> y); @Override @SuppressWarnings("unchecked") MinijaxIn<T> in(final Expression<? extends T> expression); @Override @SuppressWarnings({ "rawtypes", "unchecked" }) MinijaxComparison isNull(final Expression<?> x); @Override @SuppressWarnings({ "rawtypes", "unchecked" }) MinijaxComparison isNotNull(final Expression<?> x); @Override @SuppressWarnings("unchecked") MinijaxPredicate like(final Expression<String> x, final Expression<String> pattern); @Override MinijaxPredicate like(final Expression<String> x, final String pattern); @Override @SuppressWarnings({ "unchecked", "rawtypes" }) MinijaxFunctionExpression<String> lower(final Expression<String> x); @Override @SuppressWarnings({ "unchecked", "rawtypes" }) Expression<String> upper(final Expression<String> x); @Override MinijaxConjunction and(final Expression<Boolean> x, final Expression<Boolean> y); @Override MinijaxConjunction and(final Predicate... restrictions); @Override MinijaxConjunction or(final Expression<Boolean> x, final Expression<Boolean> y); @Override MinijaxConjunction or(final Predicate... restrictions); @Override MinijaxOrder asc(final Expression<?> x); @Override MinijaxOrder desc(final Expression<?> x); @Override CriteriaUpdate<T> createCriteriaUpdate(final Class<T> targetEntity); @Override CriteriaDelete<T> createCriteriaDelete(final Class<T> targetEntity); @Override CompoundSelection<Y> construct(final Class<Y> resultClass, final Selection<?>... selections); @Override CompoundSelection<Object[]> array(final Selection<?>... selections); @Override Expression<Double> avg(final Expression<N> x); @Override Expression<N> max(final Expression<N> x); @Override Expression<N> min(final Expression<N> x); @Override Expression<X> greatest(final Expression<X> x); @Override Expression<X> least(final Expression<X> x); @Override Expression<Long> count(final Expression<?> x); @Override Expression<Long> countDistinct(final Expression<?> x); @Override Predicate exists(final Subquery<?> subquery); @Override Expression<Y> all(final Subquery<Y> subquery); @Override Expression<Y> some(final Subquery<Y> subquery); @Override Expression<Y> any(final Subquery<Y> subquery); @Override Predicate not(final Expression<Boolean> restriction); @Override Predicate conjunction(); @Override Predicate disjunction(); @Override Predicate isTrue(final Expression<Boolean> x); @Override Predicate isFalse(final Expression<Boolean> x); @Override Predicate notEqual(final Expression<?> x, final Expression<?> y); @Override Predicate notEqual(final Expression<?> x, final Object y); @Override Predicate greaterThan(final Expression<? extends Y> x,
final Expression<? extends Y> y); @Override Predicate greaterThan(final Expression<? extends Y> x, final Y y); @Override Predicate greaterThanOrEqualTo(final Expression<? extends Y> x,
final Expression<? extends Y> y); @Override Predicate greaterThanOrEqualTo(final Expression<? extends Y> x, final Y y); @Override Predicate lessThan(final Expression<? extends Y> x, final Expression<? extends Y> y); @Override Predicate lessThan(final Expression<? extends Y> x, final Y y); @Override Predicate lessThanOrEqualTo(final Expression<? extends Y> x,
final Expression<? extends Y> y); @Override Predicate lessThanOrEqualTo(final Expression<? extends Y> x, final Y y); @Override Predicate between(final Expression<? extends Y> v, final Expression<? extends Y> x,
final Expression<? extends Y> y); @Override Predicate between(final Expression<? extends Y> v, final Y x, final Y y); @Override Predicate gt(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Predicate gt(final Expression<? extends Number> x, final Number y); @Override Predicate ge(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Predicate ge(final Expression<? extends Number> x, final Number y); @Override Predicate lt(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Predicate lt(final Expression<? extends Number> x, final Number y); @Override Predicate le(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Predicate le(final Expression<? extends Number> x, final Number y); @Override Expression<N> neg(final Expression<N> x); @Override Expression<N> abs(final Expression<N> x); @Override Expression<N> sum(final Expression<? extends N> x, final Expression<? extends N> y); @Override Expression<N> sum(final Expression<? extends N> x, final N y); @Override Expression<N> sum(final N x, final Expression<? extends N> y); @Override Expression<N> sum(final Expression<N> x); @Override Expression<Long> sumAsLong(final Expression<Integer> x); @Override Expression<Double> sumAsDouble(final Expression<Float> x); @Override Expression<N> prod(final Expression<? extends N> x, final Expression<? extends N> y); @Override Expression<N> prod(final Expression<? extends N> x, final N y); @Override Expression<N> prod(final N x, final Expression<? extends N> y); @Override Expression<N> diff(final Expression<? extends N> x, final Expression<? extends N> y); @Override Expression<N> diff(final Expression<? extends N> x, final N y); @Override Expression<N> diff(final N x, final Expression<? extends N> y); @Override Expression<Number> quot(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Expression<Number> quot(final Expression<? extends Number> x, final Number y); @Override Expression<Number> quot(final Number x, final Expression<? extends Number> y); @Override Expression<Integer> mod(final Expression<Integer> x, final Expression<Integer> y); @Override Expression<Integer> mod(final Expression<Integer> x, final Integer y); @Override Expression<Integer> mod(final Integer x, final Expression<Integer> y); @Override Expression<Double> sqrt(final Expression<? extends Number> x); @Override Expression<Long> toLong(final Expression<? extends Number> number); @Override Expression<Integer> toInteger(final Expression<? extends Number> number); @Override Expression<Float> toFloat(final Expression<? extends Number> number); @Override Expression<Double> toDouble(final Expression<? extends Number> number); @Override Expression<BigDecimal> toBigDecimal(final Expression<? extends Number> number); @Override Expression<BigInteger> toBigInteger(final Expression<? extends Number> number); @Override Expression<String> toString(final Expression<Character> character); @Override Expression<T> literal(final T value); @Override Expression<T> nullLiteral(final Class<T> resultClass); @Override ParameterExpression<T> parameter(final Class<T> paramClass); @Override ParameterExpression<T> parameter(final Class<T> paramClass, final String name); @Override Predicate isEmpty(final Expression<C> collection); @Override Predicate isNotEmpty(final Expression<C> collection); @Override Expression<Integer> size(final Expression<C> collection); @Override Expression<Integer> size(final C collection); @Override Predicate isMember(final Expression<E> elem, final Expression<C> collection); @Override Predicate isMember(final E elem, final Expression<C> collection); @Override Predicate isNotMember(final Expression<E> elem, final Expression<C> collection); @Override Predicate isNotMember(final E elem, final Expression<C> collection); @Override Expression<Collection<V>> values(final M map); @Override Expression<Set<K>> keys(final M map); @Override Predicate like(final Expression<String> x, final Expression<String> pattern, final Expression<Character> escapeChar); @Override Predicate like(final Expression<String> x, final Expression<String> pattern, final char escapeChar); @Override Predicate like(final Expression<String> x, final String pattern, final Expression<Character> escapeChar); @Override Predicate like(final Expression<String> x, final String pattern, final char escapeChar); @Override Predicate notLike(final Expression<String> x, final Expression<String> pattern); @Override Predicate notLike(final Expression<String> x, final String pattern); @Override Predicate notLike(final Expression<String> x, final Expression<String> pattern, final Expression<Character> escapeChar); @Override Predicate notLike(final Expression<String> x, final Expression<String> pattern, final char escapeChar); @Override Predicate notLike(final Expression<String> x, final String pattern, final Expression<Character> escapeChar); @Override Predicate notLike(final Expression<String> x, final String pattern, final char escapeChar); @Override Expression<String> concat(final Expression<String> x, final Expression<String> y); @Override Expression<String> concat(final Expression<String> x, final String y); @Override Expression<String> concat(final String x, final Expression<String> y); @Override Expression<String> substring(final Expression<String> x, final Expression<Integer> from); @Override Expression<String> substring(final Expression<String> x, final int from); @Override Expression<String> substring(final Expression<String> x, final Expression<Integer> from, final Expression<Integer> len); @Override Expression<String> substring(final Expression<String> x, final int from, final int len); @Override Expression<String> trim(final Expression<String> x); @Override Expression<String> trim(final Trimspec ts, final Expression<String> x); @Override Expression<String> trim(final Expression<Character> t, final Expression<String> x); @Override Expression<String> trim(final Trimspec ts, final Expression<Character> t, final Expression<String> x); @Override Expression<String> trim(final char t, final Expression<String> x); @Override Expression<String> trim(final Trimspec ts, final char t, final Expression<String> x); @Override Expression<Integer> length(final Expression<String> x); @Override Expression<Integer> locate(final Expression<String> x, final Expression<String> pattern); @Override Expression<Integer> locate(final Expression<String> x, final String pattern); @Override Expression<Integer> locate(final Expression<String> x, final Expression<String> pattern, final Expression<Integer> from); @Override Expression<Integer> locate(final Expression<String> x, final String pattern, final int from); @Override Expression<Date> currentDate(); @Override Expression<Timestamp> currentTimestamp(); @Override Expression<Time> currentTime(); @Override Coalesce<T> coalesce(); @Override Expression<Y> coalesce(final Expression<? extends Y> x, final Expression<? extends Y> y); @Override Expression<Y> coalesce(final Expression<? extends Y> x, final Y y); @Override Expression<Y> nullif(final Expression<Y> x, final Expression<?> y); @Override Expression<Y> nullif(final Expression<Y> x, final Y y); @Override SimpleCase<C, R> selectCase(final Expression<? extends C> expression); @Override Case<R> selectCase(); @Override Expression<T> function(final String name, final Class<T> type, final Expression<?>... args); @Override Join<X, V> treat(final Join<X, T> join, final Class<V> type); @Override CollectionJoin<X, E> treat(final CollectionJoin<X, T> join, final Class<E> type); @Override SetJoin<X, E> treat(final SetJoin<X, T> join, final Class<E> type); @Override ListJoin<X, E> treat(final ListJoin<X, T> join, final Class<E> type); @Override MapJoin<X, K, V> treat(final MapJoin<X, K, T> join, final Class<V> type); @Override Path<T> treat(final Path<X> path, final Class<T> type); @Override Root<T> treat(final Root<X> root, final Class<T> type); }
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@Test(expected = UnsupportedOperationException.class) public void testConcat1() { cb.concat((Expression<String>) null, (Expression<String>) null); }
@Test(expected = UnsupportedOperationException.class) public void testConcat2() { cb.concat((Expression<String>) null, (String) null); }
@Test(expected = UnsupportedOperationException.class) public void testConcat3() { cb.concat((String) null, (Expression<String>) null); }
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MinijaxCriteriaBuilder implements javax.persistence.criteria.CriteriaBuilder { @Override public Expression<String> substring(final Expression<String> x, final Expression<Integer> from) { throw new UnsupportedOperationException(); } MinijaxCriteriaBuilder(final MinijaxMetamodel metamodel); MinijaxMetamodel getMetamodel(); @Override MinijaxCriteriaQuery<T> createQuery(final Class<T> resultClass); @Override MinijaxCriteriaQuery<Object> createQuery(); @Override MinijaxCriteriaQuery<Tuple> createTupleQuery(); @Override MinijaxCompoundSelection<Tuple> tuple(final Selection<?>... selections); @Override @SuppressWarnings({ "rawtypes", "unchecked", "java:S1221" }) // Ignore Sonar warning about confusing "equal" method MinijaxComparison equal(final Expression<?> x, final Object y); @Override @SuppressWarnings({ "rawtypes", "unchecked", "java:S1221" }) // Ignore Sonar warning about confusing "equal" method MinijaxComparison equal(final Expression<?> x, final Expression<?> y); @Override @SuppressWarnings("unchecked") MinijaxIn<T> in(final Expression<? extends T> expression); @Override @SuppressWarnings({ "rawtypes", "unchecked" }) MinijaxComparison isNull(final Expression<?> x); @Override @SuppressWarnings({ "rawtypes", "unchecked" }) MinijaxComparison isNotNull(final Expression<?> x); @Override @SuppressWarnings("unchecked") MinijaxPredicate like(final Expression<String> x, final Expression<String> pattern); @Override MinijaxPredicate like(final Expression<String> x, final String pattern); @Override @SuppressWarnings({ "unchecked", "rawtypes" }) MinijaxFunctionExpression<String> lower(final Expression<String> x); @Override @SuppressWarnings({ "unchecked", "rawtypes" }) Expression<String> upper(final Expression<String> x); @Override MinijaxConjunction and(final Expression<Boolean> x, final Expression<Boolean> y); @Override MinijaxConjunction and(final Predicate... restrictions); @Override MinijaxConjunction or(final Expression<Boolean> x, final Expression<Boolean> y); @Override MinijaxConjunction or(final Predicate... restrictions); @Override MinijaxOrder asc(final Expression<?> x); @Override MinijaxOrder desc(final Expression<?> x); @Override CriteriaUpdate<T> createCriteriaUpdate(final Class<T> targetEntity); @Override CriteriaDelete<T> createCriteriaDelete(final Class<T> targetEntity); @Override CompoundSelection<Y> construct(final Class<Y> resultClass, final Selection<?>... selections); @Override CompoundSelection<Object[]> array(final Selection<?>... selections); @Override Expression<Double> avg(final Expression<N> x); @Override Expression<N> max(final Expression<N> x); @Override Expression<N> min(final Expression<N> x); @Override Expression<X> greatest(final Expression<X> x); @Override Expression<X> least(final Expression<X> x); @Override Expression<Long> count(final Expression<?> x); @Override Expression<Long> countDistinct(final Expression<?> x); @Override Predicate exists(final Subquery<?> subquery); @Override Expression<Y> all(final Subquery<Y> subquery); @Override Expression<Y> some(final Subquery<Y> subquery); @Override Expression<Y> any(final Subquery<Y> subquery); @Override Predicate not(final Expression<Boolean> restriction); @Override Predicate conjunction(); @Override Predicate disjunction(); @Override Predicate isTrue(final Expression<Boolean> x); @Override Predicate isFalse(final Expression<Boolean> x); @Override Predicate notEqual(final Expression<?> x, final Expression<?> y); @Override Predicate notEqual(final Expression<?> x, final Object y); @Override Predicate greaterThan(final Expression<? extends Y> x,
final Expression<? extends Y> y); @Override Predicate greaterThan(final Expression<? extends Y> x, final Y y); @Override Predicate greaterThanOrEqualTo(final Expression<? extends Y> x,
final Expression<? extends Y> y); @Override Predicate greaterThanOrEqualTo(final Expression<? extends Y> x, final Y y); @Override Predicate lessThan(final Expression<? extends Y> x, final Expression<? extends Y> y); @Override Predicate lessThan(final Expression<? extends Y> x, final Y y); @Override Predicate lessThanOrEqualTo(final Expression<? extends Y> x,
final Expression<? extends Y> y); @Override Predicate lessThanOrEqualTo(final Expression<? extends Y> x, final Y y); @Override Predicate between(final Expression<? extends Y> v, final Expression<? extends Y> x,
final Expression<? extends Y> y); @Override Predicate between(final Expression<? extends Y> v, final Y x, final Y y); @Override Predicate gt(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Predicate gt(final Expression<? extends Number> x, final Number y); @Override Predicate ge(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Predicate ge(final Expression<? extends Number> x, final Number y); @Override Predicate lt(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Predicate lt(final Expression<? extends Number> x, final Number y); @Override Predicate le(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Predicate le(final Expression<? extends Number> x, final Number y); @Override Expression<N> neg(final Expression<N> x); @Override Expression<N> abs(final Expression<N> x); @Override Expression<N> sum(final Expression<? extends N> x, final Expression<? extends N> y); @Override Expression<N> sum(final Expression<? extends N> x, final N y); @Override Expression<N> sum(final N x, final Expression<? extends N> y); @Override Expression<N> sum(final Expression<N> x); @Override Expression<Long> sumAsLong(final Expression<Integer> x); @Override Expression<Double> sumAsDouble(final Expression<Float> x); @Override Expression<N> prod(final Expression<? extends N> x, final Expression<? extends N> y); @Override Expression<N> prod(final Expression<? extends N> x, final N y); @Override Expression<N> prod(final N x, final Expression<? extends N> y); @Override Expression<N> diff(final Expression<? extends N> x, final Expression<? extends N> y); @Override Expression<N> diff(final Expression<? extends N> x, final N y); @Override Expression<N> diff(final N x, final Expression<? extends N> y); @Override Expression<Number> quot(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Expression<Number> quot(final Expression<? extends Number> x, final Number y); @Override Expression<Number> quot(final Number x, final Expression<? extends Number> y); @Override Expression<Integer> mod(final Expression<Integer> x, final Expression<Integer> y); @Override Expression<Integer> mod(final Expression<Integer> x, final Integer y); @Override Expression<Integer> mod(final Integer x, final Expression<Integer> y); @Override Expression<Double> sqrt(final Expression<? extends Number> x); @Override Expression<Long> toLong(final Expression<? extends Number> number); @Override Expression<Integer> toInteger(final Expression<? extends Number> number); @Override Expression<Float> toFloat(final Expression<? extends Number> number); @Override Expression<Double> toDouble(final Expression<? extends Number> number); @Override Expression<BigDecimal> toBigDecimal(final Expression<? extends Number> number); @Override Expression<BigInteger> toBigInteger(final Expression<? extends Number> number); @Override Expression<String> toString(final Expression<Character> character); @Override Expression<T> literal(final T value); @Override Expression<T> nullLiteral(final Class<T> resultClass); @Override ParameterExpression<T> parameter(final Class<T> paramClass); @Override ParameterExpression<T> parameter(final Class<T> paramClass, final String name); @Override Predicate isEmpty(final Expression<C> collection); @Override Predicate isNotEmpty(final Expression<C> collection); @Override Expression<Integer> size(final Expression<C> collection); @Override Expression<Integer> size(final C collection); @Override Predicate isMember(final Expression<E> elem, final Expression<C> collection); @Override Predicate isMember(final E elem, final Expression<C> collection); @Override Predicate isNotMember(final Expression<E> elem, final Expression<C> collection); @Override Predicate isNotMember(final E elem, final Expression<C> collection); @Override Expression<Collection<V>> values(final M map); @Override Expression<Set<K>> keys(final M map); @Override Predicate like(final Expression<String> x, final Expression<String> pattern, final Expression<Character> escapeChar); @Override Predicate like(final Expression<String> x, final Expression<String> pattern, final char escapeChar); @Override Predicate like(final Expression<String> x, final String pattern, final Expression<Character> escapeChar); @Override Predicate like(final Expression<String> x, final String pattern, final char escapeChar); @Override Predicate notLike(final Expression<String> x, final Expression<String> pattern); @Override Predicate notLike(final Expression<String> x, final String pattern); @Override Predicate notLike(final Expression<String> x, final Expression<String> pattern, final Expression<Character> escapeChar); @Override Predicate notLike(final Expression<String> x, final Expression<String> pattern, final char escapeChar); @Override Predicate notLike(final Expression<String> x, final String pattern, final Expression<Character> escapeChar); @Override Predicate notLike(final Expression<String> x, final String pattern, final char escapeChar); @Override Expression<String> concat(final Expression<String> x, final Expression<String> y); @Override Expression<String> concat(final Expression<String> x, final String y); @Override Expression<String> concat(final String x, final Expression<String> y); @Override Expression<String> substring(final Expression<String> x, final Expression<Integer> from); @Override Expression<String> substring(final Expression<String> x, final int from); @Override Expression<String> substring(final Expression<String> x, final Expression<Integer> from, final Expression<Integer> len); @Override Expression<String> substring(final Expression<String> x, final int from, final int len); @Override Expression<String> trim(final Expression<String> x); @Override Expression<String> trim(final Trimspec ts, final Expression<String> x); @Override Expression<String> trim(final Expression<Character> t, final Expression<String> x); @Override Expression<String> trim(final Trimspec ts, final Expression<Character> t, final Expression<String> x); @Override Expression<String> trim(final char t, final Expression<String> x); @Override Expression<String> trim(final Trimspec ts, final char t, final Expression<String> x); @Override Expression<Integer> length(final Expression<String> x); @Override Expression<Integer> locate(final Expression<String> x, final Expression<String> pattern); @Override Expression<Integer> locate(final Expression<String> x, final String pattern); @Override Expression<Integer> locate(final Expression<String> x, final Expression<String> pattern, final Expression<Integer> from); @Override Expression<Integer> locate(final Expression<String> x, final String pattern, final int from); @Override Expression<Date> currentDate(); @Override Expression<Timestamp> currentTimestamp(); @Override Expression<Time> currentTime(); @Override Coalesce<T> coalesce(); @Override Expression<Y> coalesce(final Expression<? extends Y> x, final Expression<? extends Y> y); @Override Expression<Y> coalesce(final Expression<? extends Y> x, final Y y); @Override Expression<Y> nullif(final Expression<Y> x, final Expression<?> y); @Override Expression<Y> nullif(final Expression<Y> x, final Y y); @Override SimpleCase<C, R> selectCase(final Expression<? extends C> expression); @Override Case<R> selectCase(); @Override Expression<T> function(final String name, final Class<T> type, final Expression<?>... args); @Override Join<X, V> treat(final Join<X, T> join, final Class<V> type); @Override CollectionJoin<X, E> treat(final CollectionJoin<X, T> join, final Class<E> type); @Override SetJoin<X, E> treat(final SetJoin<X, T> join, final Class<E> type); @Override ListJoin<X, E> treat(final ListJoin<X, T> join, final Class<E> type); @Override MapJoin<X, K, V> treat(final MapJoin<X, K, T> join, final Class<V> type); @Override Path<T> treat(final Path<X> path, final Class<T> type); @Override Root<T> treat(final Root<X> root, final Class<T> type); }
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@Test(expected = UnsupportedOperationException.class) public void testSubstring1() { cb.substring((Expression<String>) null, (Expression<Integer>) null); }
@Test(expected = UnsupportedOperationException.class) public void testSubstring2() { cb.substring((Expression<String>) null, 0); }
@Test(expected = UnsupportedOperationException.class) public void testSubstring3() { cb.substring((Expression<String>) null, (Expression<Integer>) null, (Expression<Integer>) null); }
@Test(expected = UnsupportedOperationException.class) public void testSubstring4() { cb.substring((Expression<String>) null, 0, 0); }
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MinijaxCriteriaBuilder implements javax.persistence.criteria.CriteriaBuilder { @Override public Expression<String> trim(final Expression<String> x) { throw new UnsupportedOperationException(); } MinijaxCriteriaBuilder(final MinijaxMetamodel metamodel); MinijaxMetamodel getMetamodel(); @Override MinijaxCriteriaQuery<T> createQuery(final Class<T> resultClass); @Override MinijaxCriteriaQuery<Object> createQuery(); @Override MinijaxCriteriaQuery<Tuple> createTupleQuery(); @Override MinijaxCompoundSelection<Tuple> tuple(final Selection<?>... selections); @Override @SuppressWarnings({ "rawtypes", "unchecked", "java:S1221" }) // Ignore Sonar warning about confusing "equal" method MinijaxComparison equal(final Expression<?> x, final Object y); @Override @SuppressWarnings({ "rawtypes", "unchecked", "java:S1221" }) // Ignore Sonar warning about confusing "equal" method MinijaxComparison equal(final Expression<?> x, final Expression<?> y); @Override @SuppressWarnings("unchecked") MinijaxIn<T> in(final Expression<? extends T> expression); @Override @SuppressWarnings({ "rawtypes", "unchecked" }) MinijaxComparison isNull(final Expression<?> x); @Override @SuppressWarnings({ "rawtypes", "unchecked" }) MinijaxComparison isNotNull(final Expression<?> x); @Override @SuppressWarnings("unchecked") MinijaxPredicate like(final Expression<String> x, final Expression<String> pattern); @Override MinijaxPredicate like(final Expression<String> x, final String pattern); @Override @SuppressWarnings({ "unchecked", "rawtypes" }) MinijaxFunctionExpression<String> lower(final Expression<String> x); @Override @SuppressWarnings({ "unchecked", "rawtypes" }) Expression<String> upper(final Expression<String> x); @Override MinijaxConjunction and(final Expression<Boolean> x, final Expression<Boolean> y); @Override MinijaxConjunction and(final Predicate... restrictions); @Override MinijaxConjunction or(final Expression<Boolean> x, final Expression<Boolean> y); @Override MinijaxConjunction or(final Predicate... restrictions); @Override MinijaxOrder asc(final Expression<?> x); @Override MinijaxOrder desc(final Expression<?> x); @Override CriteriaUpdate<T> createCriteriaUpdate(final Class<T> targetEntity); @Override CriteriaDelete<T> createCriteriaDelete(final Class<T> targetEntity); @Override CompoundSelection<Y> construct(final Class<Y> resultClass, final Selection<?>... selections); @Override CompoundSelection<Object[]> array(final Selection<?>... selections); @Override Expression<Double> avg(final Expression<N> x); @Override Expression<N> max(final Expression<N> x); @Override Expression<N> min(final Expression<N> x); @Override Expression<X> greatest(final Expression<X> x); @Override Expression<X> least(final Expression<X> x); @Override Expression<Long> count(final Expression<?> x); @Override Expression<Long> countDistinct(final Expression<?> x); @Override Predicate exists(final Subquery<?> subquery); @Override Expression<Y> all(final Subquery<Y> subquery); @Override Expression<Y> some(final Subquery<Y> subquery); @Override Expression<Y> any(final Subquery<Y> subquery); @Override Predicate not(final Expression<Boolean> restriction); @Override Predicate conjunction(); @Override Predicate disjunction(); @Override Predicate isTrue(final Expression<Boolean> x); @Override Predicate isFalse(final Expression<Boolean> x); @Override Predicate notEqual(final Expression<?> x, final Expression<?> y); @Override Predicate notEqual(final Expression<?> x, final Object y); @Override Predicate greaterThan(final Expression<? extends Y> x,
final Expression<? extends Y> y); @Override Predicate greaterThan(final Expression<? extends Y> x, final Y y); @Override Predicate greaterThanOrEqualTo(final Expression<? extends Y> x,
final Expression<? extends Y> y); @Override Predicate greaterThanOrEqualTo(final Expression<? extends Y> x, final Y y); @Override Predicate lessThan(final Expression<? extends Y> x, final Expression<? extends Y> y); @Override Predicate lessThan(final Expression<? extends Y> x, final Y y); @Override Predicate lessThanOrEqualTo(final Expression<? extends Y> x,
final Expression<? extends Y> y); @Override Predicate lessThanOrEqualTo(final Expression<? extends Y> x, final Y y); @Override Predicate between(final Expression<? extends Y> v, final Expression<? extends Y> x,
final Expression<? extends Y> y); @Override Predicate between(final Expression<? extends Y> v, final Y x, final Y y); @Override Predicate gt(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Predicate gt(final Expression<? extends Number> x, final Number y); @Override Predicate ge(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Predicate ge(final Expression<? extends Number> x, final Number y); @Override Predicate lt(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Predicate lt(final Expression<? extends Number> x, final Number y); @Override Predicate le(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Predicate le(final Expression<? extends Number> x, final Number y); @Override Expression<N> neg(final Expression<N> x); @Override Expression<N> abs(final Expression<N> x); @Override Expression<N> sum(final Expression<? extends N> x, final Expression<? extends N> y); @Override Expression<N> sum(final Expression<? extends N> x, final N y); @Override Expression<N> sum(final N x, final Expression<? extends N> y); @Override Expression<N> sum(final Expression<N> x); @Override Expression<Long> sumAsLong(final Expression<Integer> x); @Override Expression<Double> sumAsDouble(final Expression<Float> x); @Override Expression<N> prod(final Expression<? extends N> x, final Expression<? extends N> y); @Override Expression<N> prod(final Expression<? extends N> x, final N y); @Override Expression<N> prod(final N x, final Expression<? extends N> y); @Override Expression<N> diff(final Expression<? extends N> x, final Expression<? extends N> y); @Override Expression<N> diff(final Expression<? extends N> x, final N y); @Override Expression<N> diff(final N x, final Expression<? extends N> y); @Override Expression<Number> quot(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Expression<Number> quot(final Expression<? extends Number> x, final Number y); @Override Expression<Number> quot(final Number x, final Expression<? extends Number> y); @Override Expression<Integer> mod(final Expression<Integer> x, final Expression<Integer> y); @Override Expression<Integer> mod(final Expression<Integer> x, final Integer y); @Override Expression<Integer> mod(final Integer x, final Expression<Integer> y); @Override Expression<Double> sqrt(final Expression<? extends Number> x); @Override Expression<Long> toLong(final Expression<? extends Number> number); @Override Expression<Integer> toInteger(final Expression<? extends Number> number); @Override Expression<Float> toFloat(final Expression<? extends Number> number); @Override Expression<Double> toDouble(final Expression<? extends Number> number); @Override Expression<BigDecimal> toBigDecimal(final Expression<? extends Number> number); @Override Expression<BigInteger> toBigInteger(final Expression<? extends Number> number); @Override Expression<String> toString(final Expression<Character> character); @Override Expression<T> literal(final T value); @Override Expression<T> nullLiteral(final Class<T> resultClass); @Override ParameterExpression<T> parameter(final Class<T> paramClass); @Override ParameterExpression<T> parameter(final Class<T> paramClass, final String name); @Override Predicate isEmpty(final Expression<C> collection); @Override Predicate isNotEmpty(final Expression<C> collection); @Override Expression<Integer> size(final Expression<C> collection); @Override Expression<Integer> size(final C collection); @Override Predicate isMember(final Expression<E> elem, final Expression<C> collection); @Override Predicate isMember(final E elem, final Expression<C> collection); @Override Predicate isNotMember(final Expression<E> elem, final Expression<C> collection); @Override Predicate isNotMember(final E elem, final Expression<C> collection); @Override Expression<Collection<V>> values(final M map); @Override Expression<Set<K>> keys(final M map); @Override Predicate like(final Expression<String> x, final Expression<String> pattern, final Expression<Character> escapeChar); @Override Predicate like(final Expression<String> x, final Expression<String> pattern, final char escapeChar); @Override Predicate like(final Expression<String> x, final String pattern, final Expression<Character> escapeChar); @Override Predicate like(final Expression<String> x, final String pattern, final char escapeChar); @Override Predicate notLike(final Expression<String> x, final Expression<String> pattern); @Override Predicate notLike(final Expression<String> x, final String pattern); @Override Predicate notLike(final Expression<String> x, final Expression<String> pattern, final Expression<Character> escapeChar); @Override Predicate notLike(final Expression<String> x, final Expression<String> pattern, final char escapeChar); @Override Predicate notLike(final Expression<String> x, final String pattern, final Expression<Character> escapeChar); @Override Predicate notLike(final Expression<String> x, final String pattern, final char escapeChar); @Override Expression<String> concat(final Expression<String> x, final Expression<String> y); @Override Expression<String> concat(final Expression<String> x, final String y); @Override Expression<String> concat(final String x, final Expression<String> y); @Override Expression<String> substring(final Expression<String> x, final Expression<Integer> from); @Override Expression<String> substring(final Expression<String> x, final int from); @Override Expression<String> substring(final Expression<String> x, final Expression<Integer> from, final Expression<Integer> len); @Override Expression<String> substring(final Expression<String> x, final int from, final int len); @Override Expression<String> trim(final Expression<String> x); @Override Expression<String> trim(final Trimspec ts, final Expression<String> x); @Override Expression<String> trim(final Expression<Character> t, final Expression<String> x); @Override Expression<String> trim(final Trimspec ts, final Expression<Character> t, final Expression<String> x); @Override Expression<String> trim(final char t, final Expression<String> x); @Override Expression<String> trim(final Trimspec ts, final char t, final Expression<String> x); @Override Expression<Integer> length(final Expression<String> x); @Override Expression<Integer> locate(final Expression<String> x, final Expression<String> pattern); @Override Expression<Integer> locate(final Expression<String> x, final String pattern); @Override Expression<Integer> locate(final Expression<String> x, final Expression<String> pattern, final Expression<Integer> from); @Override Expression<Integer> locate(final Expression<String> x, final String pattern, final int from); @Override Expression<Date> currentDate(); @Override Expression<Timestamp> currentTimestamp(); @Override Expression<Time> currentTime(); @Override Coalesce<T> coalesce(); @Override Expression<Y> coalesce(final Expression<? extends Y> x, final Expression<? extends Y> y); @Override Expression<Y> coalesce(final Expression<? extends Y> x, final Y y); @Override Expression<Y> nullif(final Expression<Y> x, final Expression<?> y); @Override Expression<Y> nullif(final Expression<Y> x, final Y y); @Override SimpleCase<C, R> selectCase(final Expression<? extends C> expression); @Override Case<R> selectCase(); @Override Expression<T> function(final String name, final Class<T> type, final Expression<?>... args); @Override Join<X, V> treat(final Join<X, T> join, final Class<V> type); @Override CollectionJoin<X, E> treat(final CollectionJoin<X, T> join, final Class<E> type); @Override SetJoin<X, E> treat(final SetJoin<X, T> join, final Class<E> type); @Override ListJoin<X, E> treat(final ListJoin<X, T> join, final Class<E> type); @Override MapJoin<X, K, V> treat(final MapJoin<X, K, T> join, final Class<V> type); @Override Path<T> treat(final Path<X> path, final Class<T> type); @Override Root<T> treat(final Root<X> root, final Class<T> type); }
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@Test(expected = UnsupportedOperationException.class) public void testTrim1() { cb.trim(null); }
@Test(expected = UnsupportedOperationException.class) public void testTrim2() { cb.trim((Trimspec) null, (Expression<String>) null); }
@Test(expected = UnsupportedOperationException.class) public void testTrim3() { cb.trim((Expression<Character>) null, (Expression<String>) null); }
@Test(expected = UnsupportedOperationException.class) public void testTrim4() { cb.trim((Trimspec) null, (Expression<Character>) null, (Expression<String>) null); }
@Test(expected = UnsupportedOperationException.class) public void testTrim5() { cb.trim(' ', (Expression<String>) null); }
@Test(expected = UnsupportedOperationException.class) public void testTrim6() { cb.trim((Trimspec) null, ' ', (Expression<String>) null); }
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MinijaxCriteriaBuilder implements javax.persistence.criteria.CriteriaBuilder { @Override public Expression<Integer> length(final Expression<String> x) { throw new UnsupportedOperationException(); } MinijaxCriteriaBuilder(final MinijaxMetamodel metamodel); MinijaxMetamodel getMetamodel(); @Override MinijaxCriteriaQuery<T> createQuery(final Class<T> resultClass); @Override MinijaxCriteriaQuery<Object> createQuery(); @Override MinijaxCriteriaQuery<Tuple> createTupleQuery(); @Override MinijaxCompoundSelection<Tuple> tuple(final Selection<?>... selections); @Override @SuppressWarnings({ "rawtypes", "unchecked", "java:S1221" }) // Ignore Sonar warning about confusing "equal" method MinijaxComparison equal(final Expression<?> x, final Object y); @Override @SuppressWarnings({ "rawtypes", "unchecked", "java:S1221" }) // Ignore Sonar warning about confusing "equal" method MinijaxComparison equal(final Expression<?> x, final Expression<?> y); @Override @SuppressWarnings("unchecked") MinijaxIn<T> in(final Expression<? extends T> expression); @Override @SuppressWarnings({ "rawtypes", "unchecked" }) MinijaxComparison isNull(final Expression<?> x); @Override @SuppressWarnings({ "rawtypes", "unchecked" }) MinijaxComparison isNotNull(final Expression<?> x); @Override @SuppressWarnings("unchecked") MinijaxPredicate like(final Expression<String> x, final Expression<String> pattern); @Override MinijaxPredicate like(final Expression<String> x, final String pattern); @Override @SuppressWarnings({ "unchecked", "rawtypes" }) MinijaxFunctionExpression<String> lower(final Expression<String> x); @Override @SuppressWarnings({ "unchecked", "rawtypes" }) Expression<String> upper(final Expression<String> x); @Override MinijaxConjunction and(final Expression<Boolean> x, final Expression<Boolean> y); @Override MinijaxConjunction and(final Predicate... restrictions); @Override MinijaxConjunction or(final Expression<Boolean> x, final Expression<Boolean> y); @Override MinijaxConjunction or(final Predicate... restrictions); @Override MinijaxOrder asc(final Expression<?> x); @Override MinijaxOrder desc(final Expression<?> x); @Override CriteriaUpdate<T> createCriteriaUpdate(final Class<T> targetEntity); @Override CriteriaDelete<T> createCriteriaDelete(final Class<T> targetEntity); @Override CompoundSelection<Y> construct(final Class<Y> resultClass, final Selection<?>... selections); @Override CompoundSelection<Object[]> array(final Selection<?>... selections); @Override Expression<Double> avg(final Expression<N> x); @Override Expression<N> max(final Expression<N> x); @Override Expression<N> min(final Expression<N> x); @Override Expression<X> greatest(final Expression<X> x); @Override Expression<X> least(final Expression<X> x); @Override Expression<Long> count(final Expression<?> x); @Override Expression<Long> countDistinct(final Expression<?> x); @Override Predicate exists(final Subquery<?> subquery); @Override Expression<Y> all(final Subquery<Y> subquery); @Override Expression<Y> some(final Subquery<Y> subquery); @Override Expression<Y> any(final Subquery<Y> subquery); @Override Predicate not(final Expression<Boolean> restriction); @Override Predicate conjunction(); @Override Predicate disjunction(); @Override Predicate isTrue(final Expression<Boolean> x); @Override Predicate isFalse(final Expression<Boolean> x); @Override Predicate notEqual(final Expression<?> x, final Expression<?> y); @Override Predicate notEqual(final Expression<?> x, final Object y); @Override Predicate greaterThan(final Expression<? extends Y> x,
final Expression<? extends Y> y); @Override Predicate greaterThan(final Expression<? extends Y> x, final Y y); @Override Predicate greaterThanOrEqualTo(final Expression<? extends Y> x,
final Expression<? extends Y> y); @Override Predicate greaterThanOrEqualTo(final Expression<? extends Y> x, final Y y); @Override Predicate lessThan(final Expression<? extends Y> x, final Expression<? extends Y> y); @Override Predicate lessThan(final Expression<? extends Y> x, final Y y); @Override Predicate lessThanOrEqualTo(final Expression<? extends Y> x,
final Expression<? extends Y> y); @Override Predicate lessThanOrEqualTo(final Expression<? extends Y> x, final Y y); @Override Predicate between(final Expression<? extends Y> v, final Expression<? extends Y> x,
final Expression<? extends Y> y); @Override Predicate between(final Expression<? extends Y> v, final Y x, final Y y); @Override Predicate gt(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Predicate gt(final Expression<? extends Number> x, final Number y); @Override Predicate ge(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Predicate ge(final Expression<? extends Number> x, final Number y); @Override Predicate lt(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Predicate lt(final Expression<? extends Number> x, final Number y); @Override Predicate le(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Predicate le(final Expression<? extends Number> x, final Number y); @Override Expression<N> neg(final Expression<N> x); @Override Expression<N> abs(final Expression<N> x); @Override Expression<N> sum(final Expression<? extends N> x, final Expression<? extends N> y); @Override Expression<N> sum(final Expression<? extends N> x, final N y); @Override Expression<N> sum(final N x, final Expression<? extends N> y); @Override Expression<N> sum(final Expression<N> x); @Override Expression<Long> sumAsLong(final Expression<Integer> x); @Override Expression<Double> sumAsDouble(final Expression<Float> x); @Override Expression<N> prod(final Expression<? extends N> x, final Expression<? extends N> y); @Override Expression<N> prod(final Expression<? extends N> x, final N y); @Override Expression<N> prod(final N x, final Expression<? extends N> y); @Override Expression<N> diff(final Expression<? extends N> x, final Expression<? extends N> y); @Override Expression<N> diff(final Expression<? extends N> x, final N y); @Override Expression<N> diff(final N x, final Expression<? extends N> y); @Override Expression<Number> quot(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Expression<Number> quot(final Expression<? extends Number> x, final Number y); @Override Expression<Number> quot(final Number x, final Expression<? extends Number> y); @Override Expression<Integer> mod(final Expression<Integer> x, final Expression<Integer> y); @Override Expression<Integer> mod(final Expression<Integer> x, final Integer y); @Override Expression<Integer> mod(final Integer x, final Expression<Integer> y); @Override Expression<Double> sqrt(final Expression<? extends Number> x); @Override Expression<Long> toLong(final Expression<? extends Number> number); @Override Expression<Integer> toInteger(final Expression<? extends Number> number); @Override Expression<Float> toFloat(final Expression<? extends Number> number); @Override Expression<Double> toDouble(final Expression<? extends Number> number); @Override Expression<BigDecimal> toBigDecimal(final Expression<? extends Number> number); @Override Expression<BigInteger> toBigInteger(final Expression<? extends Number> number); @Override Expression<String> toString(final Expression<Character> character); @Override Expression<T> literal(final T value); @Override Expression<T> nullLiteral(final Class<T> resultClass); @Override ParameterExpression<T> parameter(final Class<T> paramClass); @Override ParameterExpression<T> parameter(final Class<T> paramClass, final String name); @Override Predicate isEmpty(final Expression<C> collection); @Override Predicate isNotEmpty(final Expression<C> collection); @Override Expression<Integer> size(final Expression<C> collection); @Override Expression<Integer> size(final C collection); @Override Predicate isMember(final Expression<E> elem, final Expression<C> collection); @Override Predicate isMember(final E elem, final Expression<C> collection); @Override Predicate isNotMember(final Expression<E> elem, final Expression<C> collection); @Override Predicate isNotMember(final E elem, final Expression<C> collection); @Override Expression<Collection<V>> values(final M map); @Override Expression<Set<K>> keys(final M map); @Override Predicate like(final Expression<String> x, final Expression<String> pattern, final Expression<Character> escapeChar); @Override Predicate like(final Expression<String> x, final Expression<String> pattern, final char escapeChar); @Override Predicate like(final Expression<String> x, final String pattern, final Expression<Character> escapeChar); @Override Predicate like(final Expression<String> x, final String pattern, final char escapeChar); @Override Predicate notLike(final Expression<String> x, final Expression<String> pattern); @Override Predicate notLike(final Expression<String> x, final String pattern); @Override Predicate notLike(final Expression<String> x, final Expression<String> pattern, final Expression<Character> escapeChar); @Override Predicate notLike(final Expression<String> x, final Expression<String> pattern, final char escapeChar); @Override Predicate notLike(final Expression<String> x, final String pattern, final Expression<Character> escapeChar); @Override Predicate notLike(final Expression<String> x, final String pattern, final char escapeChar); @Override Expression<String> concat(final Expression<String> x, final Expression<String> y); @Override Expression<String> concat(final Expression<String> x, final String y); @Override Expression<String> concat(final String x, final Expression<String> y); @Override Expression<String> substring(final Expression<String> x, final Expression<Integer> from); @Override Expression<String> substring(final Expression<String> x, final int from); @Override Expression<String> substring(final Expression<String> x, final Expression<Integer> from, final Expression<Integer> len); @Override Expression<String> substring(final Expression<String> x, final int from, final int len); @Override Expression<String> trim(final Expression<String> x); @Override Expression<String> trim(final Trimspec ts, final Expression<String> x); @Override Expression<String> trim(final Expression<Character> t, final Expression<String> x); @Override Expression<String> trim(final Trimspec ts, final Expression<Character> t, final Expression<String> x); @Override Expression<String> trim(final char t, final Expression<String> x); @Override Expression<String> trim(final Trimspec ts, final char t, final Expression<String> x); @Override Expression<Integer> length(final Expression<String> x); @Override Expression<Integer> locate(final Expression<String> x, final Expression<String> pattern); @Override Expression<Integer> locate(final Expression<String> x, final String pattern); @Override Expression<Integer> locate(final Expression<String> x, final Expression<String> pattern, final Expression<Integer> from); @Override Expression<Integer> locate(final Expression<String> x, final String pattern, final int from); @Override Expression<Date> currentDate(); @Override Expression<Timestamp> currentTimestamp(); @Override Expression<Time> currentTime(); @Override Coalesce<T> coalesce(); @Override Expression<Y> coalesce(final Expression<? extends Y> x, final Expression<? extends Y> y); @Override Expression<Y> coalesce(final Expression<? extends Y> x, final Y y); @Override Expression<Y> nullif(final Expression<Y> x, final Expression<?> y); @Override Expression<Y> nullif(final Expression<Y> x, final Y y); @Override SimpleCase<C, R> selectCase(final Expression<? extends C> expression); @Override Case<R> selectCase(); @Override Expression<T> function(final String name, final Class<T> type, final Expression<?>... args); @Override Join<X, V> treat(final Join<X, T> join, final Class<V> type); @Override CollectionJoin<X, E> treat(final CollectionJoin<X, T> join, final Class<E> type); @Override SetJoin<X, E> treat(final SetJoin<X, T> join, final Class<E> type); @Override ListJoin<X, E> treat(final ListJoin<X, T> join, final Class<E> type); @Override MapJoin<X, K, V> treat(final MapJoin<X, K, T> join, final Class<V> type); @Override Path<T> treat(final Path<X> path, final Class<T> type); @Override Root<T> treat(final Root<X> root, final Class<T> type); }
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@Test(expected = UnsupportedOperationException.class) public void testLength() { cb.length(null); }
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MinijaxCriteriaBuilder implements javax.persistence.criteria.CriteriaBuilder { @Override public Expression<Integer> locate(final Expression<String> x, final Expression<String> pattern) { throw new UnsupportedOperationException(); } MinijaxCriteriaBuilder(final MinijaxMetamodel metamodel); MinijaxMetamodel getMetamodel(); @Override MinijaxCriteriaQuery<T> createQuery(final Class<T> resultClass); @Override MinijaxCriteriaQuery<Object> createQuery(); @Override MinijaxCriteriaQuery<Tuple> createTupleQuery(); @Override MinijaxCompoundSelection<Tuple> tuple(final Selection<?>... selections); @Override @SuppressWarnings({ "rawtypes", "unchecked", "java:S1221" }) // Ignore Sonar warning about confusing "equal" method MinijaxComparison equal(final Expression<?> x, final Object y); @Override @SuppressWarnings({ "rawtypes", "unchecked", "java:S1221" }) // Ignore Sonar warning about confusing "equal" method MinijaxComparison equal(final Expression<?> x, final Expression<?> y); @Override @SuppressWarnings("unchecked") MinijaxIn<T> in(final Expression<? extends T> expression); @Override @SuppressWarnings({ "rawtypes", "unchecked" }) MinijaxComparison isNull(final Expression<?> x); @Override @SuppressWarnings({ "rawtypes", "unchecked" }) MinijaxComparison isNotNull(final Expression<?> x); @Override @SuppressWarnings("unchecked") MinijaxPredicate like(final Expression<String> x, final Expression<String> pattern); @Override MinijaxPredicate like(final Expression<String> x, final String pattern); @Override @SuppressWarnings({ "unchecked", "rawtypes" }) MinijaxFunctionExpression<String> lower(final Expression<String> x); @Override @SuppressWarnings({ "unchecked", "rawtypes" }) Expression<String> upper(final Expression<String> x); @Override MinijaxConjunction and(final Expression<Boolean> x, final Expression<Boolean> y); @Override MinijaxConjunction and(final Predicate... restrictions); @Override MinijaxConjunction or(final Expression<Boolean> x, final Expression<Boolean> y); @Override MinijaxConjunction or(final Predicate... restrictions); @Override MinijaxOrder asc(final Expression<?> x); @Override MinijaxOrder desc(final Expression<?> x); @Override CriteriaUpdate<T> createCriteriaUpdate(final Class<T> targetEntity); @Override CriteriaDelete<T> createCriteriaDelete(final Class<T> targetEntity); @Override CompoundSelection<Y> construct(final Class<Y> resultClass, final Selection<?>... selections); @Override CompoundSelection<Object[]> array(final Selection<?>... selections); @Override Expression<Double> avg(final Expression<N> x); @Override Expression<N> max(final Expression<N> x); @Override Expression<N> min(final Expression<N> x); @Override Expression<X> greatest(final Expression<X> x); @Override Expression<X> least(final Expression<X> x); @Override Expression<Long> count(final Expression<?> x); @Override Expression<Long> countDistinct(final Expression<?> x); @Override Predicate exists(final Subquery<?> subquery); @Override Expression<Y> all(final Subquery<Y> subquery); @Override Expression<Y> some(final Subquery<Y> subquery); @Override Expression<Y> any(final Subquery<Y> subquery); @Override Predicate not(final Expression<Boolean> restriction); @Override Predicate conjunction(); @Override Predicate disjunction(); @Override Predicate isTrue(final Expression<Boolean> x); @Override Predicate isFalse(final Expression<Boolean> x); @Override Predicate notEqual(final Expression<?> x, final Expression<?> y); @Override Predicate notEqual(final Expression<?> x, final Object y); @Override Predicate greaterThan(final Expression<? extends Y> x,
final Expression<? extends Y> y); @Override Predicate greaterThan(final Expression<? extends Y> x, final Y y); @Override Predicate greaterThanOrEqualTo(final Expression<? extends Y> x,
final Expression<? extends Y> y); @Override Predicate greaterThanOrEqualTo(final Expression<? extends Y> x, final Y y); @Override Predicate lessThan(final Expression<? extends Y> x, final Expression<? extends Y> y); @Override Predicate lessThan(final Expression<? extends Y> x, final Y y); @Override Predicate lessThanOrEqualTo(final Expression<? extends Y> x,
final Expression<? extends Y> y); @Override Predicate lessThanOrEqualTo(final Expression<? extends Y> x, final Y y); @Override Predicate between(final Expression<? extends Y> v, final Expression<? extends Y> x,
final Expression<? extends Y> y); @Override Predicate between(final Expression<? extends Y> v, final Y x, final Y y); @Override Predicate gt(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Predicate gt(final Expression<? extends Number> x, final Number y); @Override Predicate ge(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Predicate ge(final Expression<? extends Number> x, final Number y); @Override Predicate lt(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Predicate lt(final Expression<? extends Number> x, final Number y); @Override Predicate le(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Predicate le(final Expression<? extends Number> x, final Number y); @Override Expression<N> neg(final Expression<N> x); @Override Expression<N> abs(final Expression<N> x); @Override Expression<N> sum(final Expression<? extends N> x, final Expression<? extends N> y); @Override Expression<N> sum(final Expression<? extends N> x, final N y); @Override Expression<N> sum(final N x, final Expression<? extends N> y); @Override Expression<N> sum(final Expression<N> x); @Override Expression<Long> sumAsLong(final Expression<Integer> x); @Override Expression<Double> sumAsDouble(final Expression<Float> x); @Override Expression<N> prod(final Expression<? extends N> x, final Expression<? extends N> y); @Override Expression<N> prod(final Expression<? extends N> x, final N y); @Override Expression<N> prod(final N x, final Expression<? extends N> y); @Override Expression<N> diff(final Expression<? extends N> x, final Expression<? extends N> y); @Override Expression<N> diff(final Expression<? extends N> x, final N y); @Override Expression<N> diff(final N x, final Expression<? extends N> y); @Override Expression<Number> quot(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Expression<Number> quot(final Expression<? extends Number> x, final Number y); @Override Expression<Number> quot(final Number x, final Expression<? extends Number> y); @Override Expression<Integer> mod(final Expression<Integer> x, final Expression<Integer> y); @Override Expression<Integer> mod(final Expression<Integer> x, final Integer y); @Override Expression<Integer> mod(final Integer x, final Expression<Integer> y); @Override Expression<Double> sqrt(final Expression<? extends Number> x); @Override Expression<Long> toLong(final Expression<? extends Number> number); @Override Expression<Integer> toInteger(final Expression<? extends Number> number); @Override Expression<Float> toFloat(final Expression<? extends Number> number); @Override Expression<Double> toDouble(final Expression<? extends Number> number); @Override Expression<BigDecimal> toBigDecimal(final Expression<? extends Number> number); @Override Expression<BigInteger> toBigInteger(final Expression<? extends Number> number); @Override Expression<String> toString(final Expression<Character> character); @Override Expression<T> literal(final T value); @Override Expression<T> nullLiteral(final Class<T> resultClass); @Override ParameterExpression<T> parameter(final Class<T> paramClass); @Override ParameterExpression<T> parameter(final Class<T> paramClass, final String name); @Override Predicate isEmpty(final Expression<C> collection); @Override Predicate isNotEmpty(final Expression<C> collection); @Override Expression<Integer> size(final Expression<C> collection); @Override Expression<Integer> size(final C collection); @Override Predicate isMember(final Expression<E> elem, final Expression<C> collection); @Override Predicate isMember(final E elem, final Expression<C> collection); @Override Predicate isNotMember(final Expression<E> elem, final Expression<C> collection); @Override Predicate isNotMember(final E elem, final Expression<C> collection); @Override Expression<Collection<V>> values(final M map); @Override Expression<Set<K>> keys(final M map); @Override Predicate like(final Expression<String> x, final Expression<String> pattern, final Expression<Character> escapeChar); @Override Predicate like(final Expression<String> x, final Expression<String> pattern, final char escapeChar); @Override Predicate like(final Expression<String> x, final String pattern, final Expression<Character> escapeChar); @Override Predicate like(final Expression<String> x, final String pattern, final char escapeChar); @Override Predicate notLike(final Expression<String> x, final Expression<String> pattern); @Override Predicate notLike(final Expression<String> x, final String pattern); @Override Predicate notLike(final Expression<String> x, final Expression<String> pattern, final Expression<Character> escapeChar); @Override Predicate notLike(final Expression<String> x, final Expression<String> pattern, final char escapeChar); @Override Predicate notLike(final Expression<String> x, final String pattern, final Expression<Character> escapeChar); @Override Predicate notLike(final Expression<String> x, final String pattern, final char escapeChar); @Override Expression<String> concat(final Expression<String> x, final Expression<String> y); @Override Expression<String> concat(final Expression<String> x, final String y); @Override Expression<String> concat(final String x, final Expression<String> y); @Override Expression<String> substring(final Expression<String> x, final Expression<Integer> from); @Override Expression<String> substring(final Expression<String> x, final int from); @Override Expression<String> substring(final Expression<String> x, final Expression<Integer> from, final Expression<Integer> len); @Override Expression<String> substring(final Expression<String> x, final int from, final int len); @Override Expression<String> trim(final Expression<String> x); @Override Expression<String> trim(final Trimspec ts, final Expression<String> x); @Override Expression<String> trim(final Expression<Character> t, final Expression<String> x); @Override Expression<String> trim(final Trimspec ts, final Expression<Character> t, final Expression<String> x); @Override Expression<String> trim(final char t, final Expression<String> x); @Override Expression<String> trim(final Trimspec ts, final char t, final Expression<String> x); @Override Expression<Integer> length(final Expression<String> x); @Override Expression<Integer> locate(final Expression<String> x, final Expression<String> pattern); @Override Expression<Integer> locate(final Expression<String> x, final String pattern); @Override Expression<Integer> locate(final Expression<String> x, final Expression<String> pattern, final Expression<Integer> from); @Override Expression<Integer> locate(final Expression<String> x, final String pattern, final int from); @Override Expression<Date> currentDate(); @Override Expression<Timestamp> currentTimestamp(); @Override Expression<Time> currentTime(); @Override Coalesce<T> coalesce(); @Override Expression<Y> coalesce(final Expression<? extends Y> x, final Expression<? extends Y> y); @Override Expression<Y> coalesce(final Expression<? extends Y> x, final Y y); @Override Expression<Y> nullif(final Expression<Y> x, final Expression<?> y); @Override Expression<Y> nullif(final Expression<Y> x, final Y y); @Override SimpleCase<C, R> selectCase(final Expression<? extends C> expression); @Override Case<R> selectCase(); @Override Expression<T> function(final String name, final Class<T> type, final Expression<?>... args); @Override Join<X, V> treat(final Join<X, T> join, final Class<V> type); @Override CollectionJoin<X, E> treat(final CollectionJoin<X, T> join, final Class<E> type); @Override SetJoin<X, E> treat(final SetJoin<X, T> join, final Class<E> type); @Override ListJoin<X, E> treat(final ListJoin<X, T> join, final Class<E> type); @Override MapJoin<X, K, V> treat(final MapJoin<X, K, T> join, final Class<V> type); @Override Path<T> treat(final Path<X> path, final Class<T> type); @Override Root<T> treat(final Root<X> root, final Class<T> type); }
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@Test(expected = UnsupportedOperationException.class) public void testLocate1() { cb.locate((Expression<String>) null, (Expression<String>) null); }
@Test(expected = UnsupportedOperationException.class) public void testLocate2() { cb.locate((Expression<String>) null, (String) null); }
@Test(expected = UnsupportedOperationException.class) public void testLocate3() { cb.locate((Expression<String>) null, (Expression<String>) null, (Expression<Integer>) null); }
@Test(expected = UnsupportedOperationException.class) public void testLocate4() { cb.locate((Expression<String>) null, (String) null, 0); }
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MinijaxCriteriaBuilder implements javax.persistence.criteria.CriteriaBuilder { @Override public Expression<Date> currentDate() { throw new UnsupportedOperationException(); } MinijaxCriteriaBuilder(final MinijaxMetamodel metamodel); MinijaxMetamodel getMetamodel(); @Override MinijaxCriteriaQuery<T> createQuery(final Class<T> resultClass); @Override MinijaxCriteriaQuery<Object> createQuery(); @Override MinijaxCriteriaQuery<Tuple> createTupleQuery(); @Override MinijaxCompoundSelection<Tuple> tuple(final Selection<?>... selections); @Override @SuppressWarnings({ "rawtypes", "unchecked", "java:S1221" }) // Ignore Sonar warning about confusing "equal" method MinijaxComparison equal(final Expression<?> x, final Object y); @Override @SuppressWarnings({ "rawtypes", "unchecked", "java:S1221" }) // Ignore Sonar warning about confusing "equal" method MinijaxComparison equal(final Expression<?> x, final Expression<?> y); @Override @SuppressWarnings("unchecked") MinijaxIn<T> in(final Expression<? extends T> expression); @Override @SuppressWarnings({ "rawtypes", "unchecked" }) MinijaxComparison isNull(final Expression<?> x); @Override @SuppressWarnings({ "rawtypes", "unchecked" }) MinijaxComparison isNotNull(final Expression<?> x); @Override @SuppressWarnings("unchecked") MinijaxPredicate like(final Expression<String> x, final Expression<String> pattern); @Override MinijaxPredicate like(final Expression<String> x, final String pattern); @Override @SuppressWarnings({ "unchecked", "rawtypes" }) MinijaxFunctionExpression<String> lower(final Expression<String> x); @Override @SuppressWarnings({ "unchecked", "rawtypes" }) Expression<String> upper(final Expression<String> x); @Override MinijaxConjunction and(final Expression<Boolean> x, final Expression<Boolean> y); @Override MinijaxConjunction and(final Predicate... restrictions); @Override MinijaxConjunction or(final Expression<Boolean> x, final Expression<Boolean> y); @Override MinijaxConjunction or(final Predicate... restrictions); @Override MinijaxOrder asc(final Expression<?> x); @Override MinijaxOrder desc(final Expression<?> x); @Override CriteriaUpdate<T> createCriteriaUpdate(final Class<T> targetEntity); @Override CriteriaDelete<T> createCriteriaDelete(final Class<T> targetEntity); @Override CompoundSelection<Y> construct(final Class<Y> resultClass, final Selection<?>... selections); @Override CompoundSelection<Object[]> array(final Selection<?>... selections); @Override Expression<Double> avg(final Expression<N> x); @Override Expression<N> max(final Expression<N> x); @Override Expression<N> min(final Expression<N> x); @Override Expression<X> greatest(final Expression<X> x); @Override Expression<X> least(final Expression<X> x); @Override Expression<Long> count(final Expression<?> x); @Override Expression<Long> countDistinct(final Expression<?> x); @Override Predicate exists(final Subquery<?> subquery); @Override Expression<Y> all(final Subquery<Y> subquery); @Override Expression<Y> some(final Subquery<Y> subquery); @Override Expression<Y> any(final Subquery<Y> subquery); @Override Predicate not(final Expression<Boolean> restriction); @Override Predicate conjunction(); @Override Predicate disjunction(); @Override Predicate isTrue(final Expression<Boolean> x); @Override Predicate isFalse(final Expression<Boolean> x); @Override Predicate notEqual(final Expression<?> x, final Expression<?> y); @Override Predicate notEqual(final Expression<?> x, final Object y); @Override Predicate greaterThan(final Expression<? extends Y> x,
final Expression<? extends Y> y); @Override Predicate greaterThan(final Expression<? extends Y> x, final Y y); @Override Predicate greaterThanOrEqualTo(final Expression<? extends Y> x,
final Expression<? extends Y> y); @Override Predicate greaterThanOrEqualTo(final Expression<? extends Y> x, final Y y); @Override Predicate lessThan(final Expression<? extends Y> x, final Expression<? extends Y> y); @Override Predicate lessThan(final Expression<? extends Y> x, final Y y); @Override Predicate lessThanOrEqualTo(final Expression<? extends Y> x,
final Expression<? extends Y> y); @Override Predicate lessThanOrEqualTo(final Expression<? extends Y> x, final Y y); @Override Predicate between(final Expression<? extends Y> v, final Expression<? extends Y> x,
final Expression<? extends Y> y); @Override Predicate between(final Expression<? extends Y> v, final Y x, final Y y); @Override Predicate gt(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Predicate gt(final Expression<? extends Number> x, final Number y); @Override Predicate ge(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Predicate ge(final Expression<? extends Number> x, final Number y); @Override Predicate lt(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Predicate lt(final Expression<? extends Number> x, final Number y); @Override Predicate le(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Predicate le(final Expression<? extends Number> x, final Number y); @Override Expression<N> neg(final Expression<N> x); @Override Expression<N> abs(final Expression<N> x); @Override Expression<N> sum(final Expression<? extends N> x, final Expression<? extends N> y); @Override Expression<N> sum(final Expression<? extends N> x, final N y); @Override Expression<N> sum(final N x, final Expression<? extends N> y); @Override Expression<N> sum(final Expression<N> x); @Override Expression<Long> sumAsLong(final Expression<Integer> x); @Override Expression<Double> sumAsDouble(final Expression<Float> x); @Override Expression<N> prod(final Expression<? extends N> x, final Expression<? extends N> y); @Override Expression<N> prod(final Expression<? extends N> x, final N y); @Override Expression<N> prod(final N x, final Expression<? extends N> y); @Override Expression<N> diff(final Expression<? extends N> x, final Expression<? extends N> y); @Override Expression<N> diff(final Expression<? extends N> x, final N y); @Override Expression<N> diff(final N x, final Expression<? extends N> y); @Override Expression<Number> quot(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Expression<Number> quot(final Expression<? extends Number> x, final Number y); @Override Expression<Number> quot(final Number x, final Expression<? extends Number> y); @Override Expression<Integer> mod(final Expression<Integer> x, final Expression<Integer> y); @Override Expression<Integer> mod(final Expression<Integer> x, final Integer y); @Override Expression<Integer> mod(final Integer x, final Expression<Integer> y); @Override Expression<Double> sqrt(final Expression<? extends Number> x); @Override Expression<Long> toLong(final Expression<? extends Number> number); @Override Expression<Integer> toInteger(final Expression<? extends Number> number); @Override Expression<Float> toFloat(final Expression<? extends Number> number); @Override Expression<Double> toDouble(final Expression<? extends Number> number); @Override Expression<BigDecimal> toBigDecimal(final Expression<? extends Number> number); @Override Expression<BigInteger> toBigInteger(final Expression<? extends Number> number); @Override Expression<String> toString(final Expression<Character> character); @Override Expression<T> literal(final T value); @Override Expression<T> nullLiteral(final Class<T> resultClass); @Override ParameterExpression<T> parameter(final Class<T> paramClass); @Override ParameterExpression<T> parameter(final Class<T> paramClass, final String name); @Override Predicate isEmpty(final Expression<C> collection); @Override Predicate isNotEmpty(final Expression<C> collection); @Override Expression<Integer> size(final Expression<C> collection); @Override Expression<Integer> size(final C collection); @Override Predicate isMember(final Expression<E> elem, final Expression<C> collection); @Override Predicate isMember(final E elem, final Expression<C> collection); @Override Predicate isNotMember(final Expression<E> elem, final Expression<C> collection); @Override Predicate isNotMember(final E elem, final Expression<C> collection); @Override Expression<Collection<V>> values(final M map); @Override Expression<Set<K>> keys(final M map); @Override Predicate like(final Expression<String> x, final Expression<String> pattern, final Expression<Character> escapeChar); @Override Predicate like(final Expression<String> x, final Expression<String> pattern, final char escapeChar); @Override Predicate like(final Expression<String> x, final String pattern, final Expression<Character> escapeChar); @Override Predicate like(final Expression<String> x, final String pattern, final char escapeChar); @Override Predicate notLike(final Expression<String> x, final Expression<String> pattern); @Override Predicate notLike(final Expression<String> x, final String pattern); @Override Predicate notLike(final Expression<String> x, final Expression<String> pattern, final Expression<Character> escapeChar); @Override Predicate notLike(final Expression<String> x, final Expression<String> pattern, final char escapeChar); @Override Predicate notLike(final Expression<String> x, final String pattern, final Expression<Character> escapeChar); @Override Predicate notLike(final Expression<String> x, final String pattern, final char escapeChar); @Override Expression<String> concat(final Expression<String> x, final Expression<String> y); @Override Expression<String> concat(final Expression<String> x, final String y); @Override Expression<String> concat(final String x, final Expression<String> y); @Override Expression<String> substring(final Expression<String> x, final Expression<Integer> from); @Override Expression<String> substring(final Expression<String> x, final int from); @Override Expression<String> substring(final Expression<String> x, final Expression<Integer> from, final Expression<Integer> len); @Override Expression<String> substring(final Expression<String> x, final int from, final int len); @Override Expression<String> trim(final Expression<String> x); @Override Expression<String> trim(final Trimspec ts, final Expression<String> x); @Override Expression<String> trim(final Expression<Character> t, final Expression<String> x); @Override Expression<String> trim(final Trimspec ts, final Expression<Character> t, final Expression<String> x); @Override Expression<String> trim(final char t, final Expression<String> x); @Override Expression<String> trim(final Trimspec ts, final char t, final Expression<String> x); @Override Expression<Integer> length(final Expression<String> x); @Override Expression<Integer> locate(final Expression<String> x, final Expression<String> pattern); @Override Expression<Integer> locate(final Expression<String> x, final String pattern); @Override Expression<Integer> locate(final Expression<String> x, final Expression<String> pattern, final Expression<Integer> from); @Override Expression<Integer> locate(final Expression<String> x, final String pattern, final int from); @Override Expression<Date> currentDate(); @Override Expression<Timestamp> currentTimestamp(); @Override Expression<Time> currentTime(); @Override Coalesce<T> coalesce(); @Override Expression<Y> coalesce(final Expression<? extends Y> x, final Expression<? extends Y> y); @Override Expression<Y> coalesce(final Expression<? extends Y> x, final Y y); @Override Expression<Y> nullif(final Expression<Y> x, final Expression<?> y); @Override Expression<Y> nullif(final Expression<Y> x, final Y y); @Override SimpleCase<C, R> selectCase(final Expression<? extends C> expression); @Override Case<R> selectCase(); @Override Expression<T> function(final String name, final Class<T> type, final Expression<?>... args); @Override Join<X, V> treat(final Join<X, T> join, final Class<V> type); @Override CollectionJoin<X, E> treat(final CollectionJoin<X, T> join, final Class<E> type); @Override SetJoin<X, E> treat(final SetJoin<X, T> join, final Class<E> type); @Override ListJoin<X, E> treat(final ListJoin<X, T> join, final Class<E> type); @Override MapJoin<X, K, V> treat(final MapJoin<X, K, T> join, final Class<V> type); @Override Path<T> treat(final Path<X> path, final Class<T> type); @Override Root<T> treat(final Root<X> root, final Class<T> type); }
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@Test(expected = UnsupportedOperationException.class) public void testCurrentDate() { cb.currentDate(); }
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MinijaxCriteriaBuilder implements javax.persistence.criteria.CriteriaBuilder { @Override public Expression<Timestamp> currentTimestamp() { throw new UnsupportedOperationException(); } MinijaxCriteriaBuilder(final MinijaxMetamodel metamodel); MinijaxMetamodel getMetamodel(); @Override MinijaxCriteriaQuery<T> createQuery(final Class<T> resultClass); @Override MinijaxCriteriaQuery<Object> createQuery(); @Override MinijaxCriteriaQuery<Tuple> createTupleQuery(); @Override MinijaxCompoundSelection<Tuple> tuple(final Selection<?>... selections); @Override @SuppressWarnings({ "rawtypes", "unchecked", "java:S1221" }) // Ignore Sonar warning about confusing "equal" method MinijaxComparison equal(final Expression<?> x, final Object y); @Override @SuppressWarnings({ "rawtypes", "unchecked", "java:S1221" }) // Ignore Sonar warning about confusing "equal" method MinijaxComparison equal(final Expression<?> x, final Expression<?> y); @Override @SuppressWarnings("unchecked") MinijaxIn<T> in(final Expression<? extends T> expression); @Override @SuppressWarnings({ "rawtypes", "unchecked" }) MinijaxComparison isNull(final Expression<?> x); @Override @SuppressWarnings({ "rawtypes", "unchecked" }) MinijaxComparison isNotNull(final Expression<?> x); @Override @SuppressWarnings("unchecked") MinijaxPredicate like(final Expression<String> x, final Expression<String> pattern); @Override MinijaxPredicate like(final Expression<String> x, final String pattern); @Override @SuppressWarnings({ "unchecked", "rawtypes" }) MinijaxFunctionExpression<String> lower(final Expression<String> x); @Override @SuppressWarnings({ "unchecked", "rawtypes" }) Expression<String> upper(final Expression<String> x); @Override MinijaxConjunction and(final Expression<Boolean> x, final Expression<Boolean> y); @Override MinijaxConjunction and(final Predicate... restrictions); @Override MinijaxConjunction or(final Expression<Boolean> x, final Expression<Boolean> y); @Override MinijaxConjunction or(final Predicate... restrictions); @Override MinijaxOrder asc(final Expression<?> x); @Override MinijaxOrder desc(final Expression<?> x); @Override CriteriaUpdate<T> createCriteriaUpdate(final Class<T> targetEntity); @Override CriteriaDelete<T> createCriteriaDelete(final Class<T> targetEntity); @Override CompoundSelection<Y> construct(final Class<Y> resultClass, final Selection<?>... selections); @Override CompoundSelection<Object[]> array(final Selection<?>... selections); @Override Expression<Double> avg(final Expression<N> x); @Override Expression<N> max(final Expression<N> x); @Override Expression<N> min(final Expression<N> x); @Override Expression<X> greatest(final Expression<X> x); @Override Expression<X> least(final Expression<X> x); @Override Expression<Long> count(final Expression<?> x); @Override Expression<Long> countDistinct(final Expression<?> x); @Override Predicate exists(final Subquery<?> subquery); @Override Expression<Y> all(final Subquery<Y> subquery); @Override Expression<Y> some(final Subquery<Y> subquery); @Override Expression<Y> any(final Subquery<Y> subquery); @Override Predicate not(final Expression<Boolean> restriction); @Override Predicate conjunction(); @Override Predicate disjunction(); @Override Predicate isTrue(final Expression<Boolean> x); @Override Predicate isFalse(final Expression<Boolean> x); @Override Predicate notEqual(final Expression<?> x, final Expression<?> y); @Override Predicate notEqual(final Expression<?> x, final Object y); @Override Predicate greaterThan(final Expression<? extends Y> x,
final Expression<? extends Y> y); @Override Predicate greaterThan(final Expression<? extends Y> x, final Y y); @Override Predicate greaterThanOrEqualTo(final Expression<? extends Y> x,
final Expression<? extends Y> y); @Override Predicate greaterThanOrEqualTo(final Expression<? extends Y> x, final Y y); @Override Predicate lessThan(final Expression<? extends Y> x, final Expression<? extends Y> y); @Override Predicate lessThan(final Expression<? extends Y> x, final Y y); @Override Predicate lessThanOrEqualTo(final Expression<? extends Y> x,
final Expression<? extends Y> y); @Override Predicate lessThanOrEqualTo(final Expression<? extends Y> x, final Y y); @Override Predicate between(final Expression<? extends Y> v, final Expression<? extends Y> x,
final Expression<? extends Y> y); @Override Predicate between(final Expression<? extends Y> v, final Y x, final Y y); @Override Predicate gt(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Predicate gt(final Expression<? extends Number> x, final Number y); @Override Predicate ge(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Predicate ge(final Expression<? extends Number> x, final Number y); @Override Predicate lt(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Predicate lt(final Expression<? extends Number> x, final Number y); @Override Predicate le(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Predicate le(final Expression<? extends Number> x, final Number y); @Override Expression<N> neg(final Expression<N> x); @Override Expression<N> abs(final Expression<N> x); @Override Expression<N> sum(final Expression<? extends N> x, final Expression<? extends N> y); @Override Expression<N> sum(final Expression<? extends N> x, final N y); @Override Expression<N> sum(final N x, final Expression<? extends N> y); @Override Expression<N> sum(final Expression<N> x); @Override Expression<Long> sumAsLong(final Expression<Integer> x); @Override Expression<Double> sumAsDouble(final Expression<Float> x); @Override Expression<N> prod(final Expression<? extends N> x, final Expression<? extends N> y); @Override Expression<N> prod(final Expression<? extends N> x, final N y); @Override Expression<N> prod(final N x, final Expression<? extends N> y); @Override Expression<N> diff(final Expression<? extends N> x, final Expression<? extends N> y); @Override Expression<N> diff(final Expression<? extends N> x, final N y); @Override Expression<N> diff(final N x, final Expression<? extends N> y); @Override Expression<Number> quot(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Expression<Number> quot(final Expression<? extends Number> x, final Number y); @Override Expression<Number> quot(final Number x, final Expression<? extends Number> y); @Override Expression<Integer> mod(final Expression<Integer> x, final Expression<Integer> y); @Override Expression<Integer> mod(final Expression<Integer> x, final Integer y); @Override Expression<Integer> mod(final Integer x, final Expression<Integer> y); @Override Expression<Double> sqrt(final Expression<? extends Number> x); @Override Expression<Long> toLong(final Expression<? extends Number> number); @Override Expression<Integer> toInteger(final Expression<? extends Number> number); @Override Expression<Float> toFloat(final Expression<? extends Number> number); @Override Expression<Double> toDouble(final Expression<? extends Number> number); @Override Expression<BigDecimal> toBigDecimal(final Expression<? extends Number> number); @Override Expression<BigInteger> toBigInteger(final Expression<? extends Number> number); @Override Expression<String> toString(final Expression<Character> character); @Override Expression<T> literal(final T value); @Override Expression<T> nullLiteral(final Class<T> resultClass); @Override ParameterExpression<T> parameter(final Class<T> paramClass); @Override ParameterExpression<T> parameter(final Class<T> paramClass, final String name); @Override Predicate isEmpty(final Expression<C> collection); @Override Predicate isNotEmpty(final Expression<C> collection); @Override Expression<Integer> size(final Expression<C> collection); @Override Expression<Integer> size(final C collection); @Override Predicate isMember(final Expression<E> elem, final Expression<C> collection); @Override Predicate isMember(final E elem, final Expression<C> collection); @Override Predicate isNotMember(final Expression<E> elem, final Expression<C> collection); @Override Predicate isNotMember(final E elem, final Expression<C> collection); @Override Expression<Collection<V>> values(final M map); @Override Expression<Set<K>> keys(final M map); @Override Predicate like(final Expression<String> x, final Expression<String> pattern, final Expression<Character> escapeChar); @Override Predicate like(final Expression<String> x, final Expression<String> pattern, final char escapeChar); @Override Predicate like(final Expression<String> x, final String pattern, final Expression<Character> escapeChar); @Override Predicate like(final Expression<String> x, final String pattern, final char escapeChar); @Override Predicate notLike(final Expression<String> x, final Expression<String> pattern); @Override Predicate notLike(final Expression<String> x, final String pattern); @Override Predicate notLike(final Expression<String> x, final Expression<String> pattern, final Expression<Character> escapeChar); @Override Predicate notLike(final Expression<String> x, final Expression<String> pattern, final char escapeChar); @Override Predicate notLike(final Expression<String> x, final String pattern, final Expression<Character> escapeChar); @Override Predicate notLike(final Expression<String> x, final String pattern, final char escapeChar); @Override Expression<String> concat(final Expression<String> x, final Expression<String> y); @Override Expression<String> concat(final Expression<String> x, final String y); @Override Expression<String> concat(final String x, final Expression<String> y); @Override Expression<String> substring(final Expression<String> x, final Expression<Integer> from); @Override Expression<String> substring(final Expression<String> x, final int from); @Override Expression<String> substring(final Expression<String> x, final Expression<Integer> from, final Expression<Integer> len); @Override Expression<String> substring(final Expression<String> x, final int from, final int len); @Override Expression<String> trim(final Expression<String> x); @Override Expression<String> trim(final Trimspec ts, final Expression<String> x); @Override Expression<String> trim(final Expression<Character> t, final Expression<String> x); @Override Expression<String> trim(final Trimspec ts, final Expression<Character> t, final Expression<String> x); @Override Expression<String> trim(final char t, final Expression<String> x); @Override Expression<String> trim(final Trimspec ts, final char t, final Expression<String> x); @Override Expression<Integer> length(final Expression<String> x); @Override Expression<Integer> locate(final Expression<String> x, final Expression<String> pattern); @Override Expression<Integer> locate(final Expression<String> x, final String pattern); @Override Expression<Integer> locate(final Expression<String> x, final Expression<String> pattern, final Expression<Integer> from); @Override Expression<Integer> locate(final Expression<String> x, final String pattern, final int from); @Override Expression<Date> currentDate(); @Override Expression<Timestamp> currentTimestamp(); @Override Expression<Time> currentTime(); @Override Coalesce<T> coalesce(); @Override Expression<Y> coalesce(final Expression<? extends Y> x, final Expression<? extends Y> y); @Override Expression<Y> coalesce(final Expression<? extends Y> x, final Y y); @Override Expression<Y> nullif(final Expression<Y> x, final Expression<?> y); @Override Expression<Y> nullif(final Expression<Y> x, final Y y); @Override SimpleCase<C, R> selectCase(final Expression<? extends C> expression); @Override Case<R> selectCase(); @Override Expression<T> function(final String name, final Class<T> type, final Expression<?>... args); @Override Join<X, V> treat(final Join<X, T> join, final Class<V> type); @Override CollectionJoin<X, E> treat(final CollectionJoin<X, T> join, final Class<E> type); @Override SetJoin<X, E> treat(final SetJoin<X, T> join, final Class<E> type); @Override ListJoin<X, E> treat(final ListJoin<X, T> join, final Class<E> type); @Override MapJoin<X, K, V> treat(final MapJoin<X, K, T> join, final Class<V> type); @Override Path<T> treat(final Path<X> path, final Class<T> type); @Override Root<T> treat(final Root<X> root, final Class<T> type); }
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@Test(expected = UnsupportedOperationException.class) public void testCurrentTimestamp() { cb.currentTimestamp(); }
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MinijaxCriteriaBuilder implements javax.persistence.criteria.CriteriaBuilder { @Override public Expression<Time> currentTime() { throw new UnsupportedOperationException(); } MinijaxCriteriaBuilder(final MinijaxMetamodel metamodel); MinijaxMetamodel getMetamodel(); @Override MinijaxCriteriaQuery<T> createQuery(final Class<T> resultClass); @Override MinijaxCriteriaQuery<Object> createQuery(); @Override MinijaxCriteriaQuery<Tuple> createTupleQuery(); @Override MinijaxCompoundSelection<Tuple> tuple(final Selection<?>... selections); @Override @SuppressWarnings({ "rawtypes", "unchecked", "java:S1221" }) // Ignore Sonar warning about confusing "equal" method MinijaxComparison equal(final Expression<?> x, final Object y); @Override @SuppressWarnings({ "rawtypes", "unchecked", "java:S1221" }) // Ignore Sonar warning about confusing "equal" method MinijaxComparison equal(final Expression<?> x, final Expression<?> y); @Override @SuppressWarnings("unchecked") MinijaxIn<T> in(final Expression<? extends T> expression); @Override @SuppressWarnings({ "rawtypes", "unchecked" }) MinijaxComparison isNull(final Expression<?> x); @Override @SuppressWarnings({ "rawtypes", "unchecked" }) MinijaxComparison isNotNull(final Expression<?> x); @Override @SuppressWarnings("unchecked") MinijaxPredicate like(final Expression<String> x, final Expression<String> pattern); @Override MinijaxPredicate like(final Expression<String> x, final String pattern); @Override @SuppressWarnings({ "unchecked", "rawtypes" }) MinijaxFunctionExpression<String> lower(final Expression<String> x); @Override @SuppressWarnings({ "unchecked", "rawtypes" }) Expression<String> upper(final Expression<String> x); @Override MinijaxConjunction and(final Expression<Boolean> x, final Expression<Boolean> y); @Override MinijaxConjunction and(final Predicate... restrictions); @Override MinijaxConjunction or(final Expression<Boolean> x, final Expression<Boolean> y); @Override MinijaxConjunction or(final Predicate... restrictions); @Override MinijaxOrder asc(final Expression<?> x); @Override MinijaxOrder desc(final Expression<?> x); @Override CriteriaUpdate<T> createCriteriaUpdate(final Class<T> targetEntity); @Override CriteriaDelete<T> createCriteriaDelete(final Class<T> targetEntity); @Override CompoundSelection<Y> construct(final Class<Y> resultClass, final Selection<?>... selections); @Override CompoundSelection<Object[]> array(final Selection<?>... selections); @Override Expression<Double> avg(final Expression<N> x); @Override Expression<N> max(final Expression<N> x); @Override Expression<N> min(final Expression<N> x); @Override Expression<X> greatest(final Expression<X> x); @Override Expression<X> least(final Expression<X> x); @Override Expression<Long> count(final Expression<?> x); @Override Expression<Long> countDistinct(final Expression<?> x); @Override Predicate exists(final Subquery<?> subquery); @Override Expression<Y> all(final Subquery<Y> subquery); @Override Expression<Y> some(final Subquery<Y> subquery); @Override Expression<Y> any(final Subquery<Y> subquery); @Override Predicate not(final Expression<Boolean> restriction); @Override Predicate conjunction(); @Override Predicate disjunction(); @Override Predicate isTrue(final Expression<Boolean> x); @Override Predicate isFalse(final Expression<Boolean> x); @Override Predicate notEqual(final Expression<?> x, final Expression<?> y); @Override Predicate notEqual(final Expression<?> x, final Object y); @Override Predicate greaterThan(final Expression<? extends Y> x,
final Expression<? extends Y> y); @Override Predicate greaterThan(final Expression<? extends Y> x, final Y y); @Override Predicate greaterThanOrEqualTo(final Expression<? extends Y> x,
final Expression<? extends Y> y); @Override Predicate greaterThanOrEqualTo(final Expression<? extends Y> x, final Y y); @Override Predicate lessThan(final Expression<? extends Y> x, final Expression<? extends Y> y); @Override Predicate lessThan(final Expression<? extends Y> x, final Y y); @Override Predicate lessThanOrEqualTo(final Expression<? extends Y> x,
final Expression<? extends Y> y); @Override Predicate lessThanOrEqualTo(final Expression<? extends Y> x, final Y y); @Override Predicate between(final Expression<? extends Y> v, final Expression<? extends Y> x,
final Expression<? extends Y> y); @Override Predicate between(final Expression<? extends Y> v, final Y x, final Y y); @Override Predicate gt(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Predicate gt(final Expression<? extends Number> x, final Number y); @Override Predicate ge(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Predicate ge(final Expression<? extends Number> x, final Number y); @Override Predicate lt(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Predicate lt(final Expression<? extends Number> x, final Number y); @Override Predicate le(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Predicate le(final Expression<? extends Number> x, final Number y); @Override Expression<N> neg(final Expression<N> x); @Override Expression<N> abs(final Expression<N> x); @Override Expression<N> sum(final Expression<? extends N> x, final Expression<? extends N> y); @Override Expression<N> sum(final Expression<? extends N> x, final N y); @Override Expression<N> sum(final N x, final Expression<? extends N> y); @Override Expression<N> sum(final Expression<N> x); @Override Expression<Long> sumAsLong(final Expression<Integer> x); @Override Expression<Double> sumAsDouble(final Expression<Float> x); @Override Expression<N> prod(final Expression<? extends N> x, final Expression<? extends N> y); @Override Expression<N> prod(final Expression<? extends N> x, final N y); @Override Expression<N> prod(final N x, final Expression<? extends N> y); @Override Expression<N> diff(final Expression<? extends N> x, final Expression<? extends N> y); @Override Expression<N> diff(final Expression<? extends N> x, final N y); @Override Expression<N> diff(final N x, final Expression<? extends N> y); @Override Expression<Number> quot(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Expression<Number> quot(final Expression<? extends Number> x, final Number y); @Override Expression<Number> quot(final Number x, final Expression<? extends Number> y); @Override Expression<Integer> mod(final Expression<Integer> x, final Expression<Integer> y); @Override Expression<Integer> mod(final Expression<Integer> x, final Integer y); @Override Expression<Integer> mod(final Integer x, final Expression<Integer> y); @Override Expression<Double> sqrt(final Expression<? extends Number> x); @Override Expression<Long> toLong(final Expression<? extends Number> number); @Override Expression<Integer> toInteger(final Expression<? extends Number> number); @Override Expression<Float> toFloat(final Expression<? extends Number> number); @Override Expression<Double> toDouble(final Expression<? extends Number> number); @Override Expression<BigDecimal> toBigDecimal(final Expression<? extends Number> number); @Override Expression<BigInteger> toBigInteger(final Expression<? extends Number> number); @Override Expression<String> toString(final Expression<Character> character); @Override Expression<T> literal(final T value); @Override Expression<T> nullLiteral(final Class<T> resultClass); @Override ParameterExpression<T> parameter(final Class<T> paramClass); @Override ParameterExpression<T> parameter(final Class<T> paramClass, final String name); @Override Predicate isEmpty(final Expression<C> collection); @Override Predicate isNotEmpty(final Expression<C> collection); @Override Expression<Integer> size(final Expression<C> collection); @Override Expression<Integer> size(final C collection); @Override Predicate isMember(final Expression<E> elem, final Expression<C> collection); @Override Predicate isMember(final E elem, final Expression<C> collection); @Override Predicate isNotMember(final Expression<E> elem, final Expression<C> collection); @Override Predicate isNotMember(final E elem, final Expression<C> collection); @Override Expression<Collection<V>> values(final M map); @Override Expression<Set<K>> keys(final M map); @Override Predicate like(final Expression<String> x, final Expression<String> pattern, final Expression<Character> escapeChar); @Override Predicate like(final Expression<String> x, final Expression<String> pattern, final char escapeChar); @Override Predicate like(final Expression<String> x, final String pattern, final Expression<Character> escapeChar); @Override Predicate like(final Expression<String> x, final String pattern, final char escapeChar); @Override Predicate notLike(final Expression<String> x, final Expression<String> pattern); @Override Predicate notLike(final Expression<String> x, final String pattern); @Override Predicate notLike(final Expression<String> x, final Expression<String> pattern, final Expression<Character> escapeChar); @Override Predicate notLike(final Expression<String> x, final Expression<String> pattern, final char escapeChar); @Override Predicate notLike(final Expression<String> x, final String pattern, final Expression<Character> escapeChar); @Override Predicate notLike(final Expression<String> x, final String pattern, final char escapeChar); @Override Expression<String> concat(final Expression<String> x, final Expression<String> y); @Override Expression<String> concat(final Expression<String> x, final String y); @Override Expression<String> concat(final String x, final Expression<String> y); @Override Expression<String> substring(final Expression<String> x, final Expression<Integer> from); @Override Expression<String> substring(final Expression<String> x, final int from); @Override Expression<String> substring(final Expression<String> x, final Expression<Integer> from, final Expression<Integer> len); @Override Expression<String> substring(final Expression<String> x, final int from, final int len); @Override Expression<String> trim(final Expression<String> x); @Override Expression<String> trim(final Trimspec ts, final Expression<String> x); @Override Expression<String> trim(final Expression<Character> t, final Expression<String> x); @Override Expression<String> trim(final Trimspec ts, final Expression<Character> t, final Expression<String> x); @Override Expression<String> trim(final char t, final Expression<String> x); @Override Expression<String> trim(final Trimspec ts, final char t, final Expression<String> x); @Override Expression<Integer> length(final Expression<String> x); @Override Expression<Integer> locate(final Expression<String> x, final Expression<String> pattern); @Override Expression<Integer> locate(final Expression<String> x, final String pattern); @Override Expression<Integer> locate(final Expression<String> x, final Expression<String> pattern, final Expression<Integer> from); @Override Expression<Integer> locate(final Expression<String> x, final String pattern, final int from); @Override Expression<Date> currentDate(); @Override Expression<Timestamp> currentTimestamp(); @Override Expression<Time> currentTime(); @Override Coalesce<T> coalesce(); @Override Expression<Y> coalesce(final Expression<? extends Y> x, final Expression<? extends Y> y); @Override Expression<Y> coalesce(final Expression<? extends Y> x, final Y y); @Override Expression<Y> nullif(final Expression<Y> x, final Expression<?> y); @Override Expression<Y> nullif(final Expression<Y> x, final Y y); @Override SimpleCase<C, R> selectCase(final Expression<? extends C> expression); @Override Case<R> selectCase(); @Override Expression<T> function(final String name, final Class<T> type, final Expression<?>... args); @Override Join<X, V> treat(final Join<X, T> join, final Class<V> type); @Override CollectionJoin<X, E> treat(final CollectionJoin<X, T> join, final Class<E> type); @Override SetJoin<X, E> treat(final SetJoin<X, T> join, final Class<E> type); @Override ListJoin<X, E> treat(final ListJoin<X, T> join, final Class<E> type); @Override MapJoin<X, K, V> treat(final MapJoin<X, K, T> join, final Class<V> type); @Override Path<T> treat(final Path<X> path, final Class<T> type); @Override Root<T> treat(final Root<X> root, final Class<T> type); }
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@Test(expected = UnsupportedOperationException.class) public void testCurrentTime() { cb.currentTime(); }
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MinijaxCriteriaBuilder implements javax.persistence.criteria.CriteriaBuilder { @Override public <T> Coalesce<T> coalesce() { throw new UnsupportedOperationException(); } MinijaxCriteriaBuilder(final MinijaxMetamodel metamodel); MinijaxMetamodel getMetamodel(); @Override MinijaxCriteriaQuery<T> createQuery(final Class<T> resultClass); @Override MinijaxCriteriaQuery<Object> createQuery(); @Override MinijaxCriteriaQuery<Tuple> createTupleQuery(); @Override MinijaxCompoundSelection<Tuple> tuple(final Selection<?>... selections); @Override @SuppressWarnings({ "rawtypes", "unchecked", "java:S1221" }) // Ignore Sonar warning about confusing "equal" method MinijaxComparison equal(final Expression<?> x, final Object y); @Override @SuppressWarnings({ "rawtypes", "unchecked", "java:S1221" }) // Ignore Sonar warning about confusing "equal" method MinijaxComparison equal(final Expression<?> x, final Expression<?> y); @Override @SuppressWarnings("unchecked") MinijaxIn<T> in(final Expression<? extends T> expression); @Override @SuppressWarnings({ "rawtypes", "unchecked" }) MinijaxComparison isNull(final Expression<?> x); @Override @SuppressWarnings({ "rawtypes", "unchecked" }) MinijaxComparison isNotNull(final Expression<?> x); @Override @SuppressWarnings("unchecked") MinijaxPredicate like(final Expression<String> x, final Expression<String> pattern); @Override MinijaxPredicate like(final Expression<String> x, final String pattern); @Override @SuppressWarnings({ "unchecked", "rawtypes" }) MinijaxFunctionExpression<String> lower(final Expression<String> x); @Override @SuppressWarnings({ "unchecked", "rawtypes" }) Expression<String> upper(final Expression<String> x); @Override MinijaxConjunction and(final Expression<Boolean> x, final Expression<Boolean> y); @Override MinijaxConjunction and(final Predicate... restrictions); @Override MinijaxConjunction or(final Expression<Boolean> x, final Expression<Boolean> y); @Override MinijaxConjunction or(final Predicate... restrictions); @Override MinijaxOrder asc(final Expression<?> x); @Override MinijaxOrder desc(final Expression<?> x); @Override CriteriaUpdate<T> createCriteriaUpdate(final Class<T> targetEntity); @Override CriteriaDelete<T> createCriteriaDelete(final Class<T> targetEntity); @Override CompoundSelection<Y> construct(final Class<Y> resultClass, final Selection<?>... selections); @Override CompoundSelection<Object[]> array(final Selection<?>... selections); @Override Expression<Double> avg(final Expression<N> x); @Override Expression<N> max(final Expression<N> x); @Override Expression<N> min(final Expression<N> x); @Override Expression<X> greatest(final Expression<X> x); @Override Expression<X> least(final Expression<X> x); @Override Expression<Long> count(final Expression<?> x); @Override Expression<Long> countDistinct(final Expression<?> x); @Override Predicate exists(final Subquery<?> subquery); @Override Expression<Y> all(final Subquery<Y> subquery); @Override Expression<Y> some(final Subquery<Y> subquery); @Override Expression<Y> any(final Subquery<Y> subquery); @Override Predicate not(final Expression<Boolean> restriction); @Override Predicate conjunction(); @Override Predicate disjunction(); @Override Predicate isTrue(final Expression<Boolean> x); @Override Predicate isFalse(final Expression<Boolean> x); @Override Predicate notEqual(final Expression<?> x, final Expression<?> y); @Override Predicate notEqual(final Expression<?> x, final Object y); @Override Predicate greaterThan(final Expression<? extends Y> x,
final Expression<? extends Y> y); @Override Predicate greaterThan(final Expression<? extends Y> x, final Y y); @Override Predicate greaterThanOrEqualTo(final Expression<? extends Y> x,
final Expression<? extends Y> y); @Override Predicate greaterThanOrEqualTo(final Expression<? extends Y> x, final Y y); @Override Predicate lessThan(final Expression<? extends Y> x, final Expression<? extends Y> y); @Override Predicate lessThan(final Expression<? extends Y> x, final Y y); @Override Predicate lessThanOrEqualTo(final Expression<? extends Y> x,
final Expression<? extends Y> y); @Override Predicate lessThanOrEqualTo(final Expression<? extends Y> x, final Y y); @Override Predicate between(final Expression<? extends Y> v, final Expression<? extends Y> x,
final Expression<? extends Y> y); @Override Predicate between(final Expression<? extends Y> v, final Y x, final Y y); @Override Predicate gt(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Predicate gt(final Expression<? extends Number> x, final Number y); @Override Predicate ge(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Predicate ge(final Expression<? extends Number> x, final Number y); @Override Predicate lt(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Predicate lt(final Expression<? extends Number> x, final Number y); @Override Predicate le(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Predicate le(final Expression<? extends Number> x, final Number y); @Override Expression<N> neg(final Expression<N> x); @Override Expression<N> abs(final Expression<N> x); @Override Expression<N> sum(final Expression<? extends N> x, final Expression<? extends N> y); @Override Expression<N> sum(final Expression<? extends N> x, final N y); @Override Expression<N> sum(final N x, final Expression<? extends N> y); @Override Expression<N> sum(final Expression<N> x); @Override Expression<Long> sumAsLong(final Expression<Integer> x); @Override Expression<Double> sumAsDouble(final Expression<Float> x); @Override Expression<N> prod(final Expression<? extends N> x, final Expression<? extends N> y); @Override Expression<N> prod(final Expression<? extends N> x, final N y); @Override Expression<N> prod(final N x, final Expression<? extends N> y); @Override Expression<N> diff(final Expression<? extends N> x, final Expression<? extends N> y); @Override Expression<N> diff(final Expression<? extends N> x, final N y); @Override Expression<N> diff(final N x, final Expression<? extends N> y); @Override Expression<Number> quot(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Expression<Number> quot(final Expression<? extends Number> x, final Number y); @Override Expression<Number> quot(final Number x, final Expression<? extends Number> y); @Override Expression<Integer> mod(final Expression<Integer> x, final Expression<Integer> y); @Override Expression<Integer> mod(final Expression<Integer> x, final Integer y); @Override Expression<Integer> mod(final Integer x, final Expression<Integer> y); @Override Expression<Double> sqrt(final Expression<? extends Number> x); @Override Expression<Long> toLong(final Expression<? extends Number> number); @Override Expression<Integer> toInteger(final Expression<? extends Number> number); @Override Expression<Float> toFloat(final Expression<? extends Number> number); @Override Expression<Double> toDouble(final Expression<? extends Number> number); @Override Expression<BigDecimal> toBigDecimal(final Expression<? extends Number> number); @Override Expression<BigInteger> toBigInteger(final Expression<? extends Number> number); @Override Expression<String> toString(final Expression<Character> character); @Override Expression<T> literal(final T value); @Override Expression<T> nullLiteral(final Class<T> resultClass); @Override ParameterExpression<T> parameter(final Class<T> paramClass); @Override ParameterExpression<T> parameter(final Class<T> paramClass, final String name); @Override Predicate isEmpty(final Expression<C> collection); @Override Predicate isNotEmpty(final Expression<C> collection); @Override Expression<Integer> size(final Expression<C> collection); @Override Expression<Integer> size(final C collection); @Override Predicate isMember(final Expression<E> elem, final Expression<C> collection); @Override Predicate isMember(final E elem, final Expression<C> collection); @Override Predicate isNotMember(final Expression<E> elem, final Expression<C> collection); @Override Predicate isNotMember(final E elem, final Expression<C> collection); @Override Expression<Collection<V>> values(final M map); @Override Expression<Set<K>> keys(final M map); @Override Predicate like(final Expression<String> x, final Expression<String> pattern, final Expression<Character> escapeChar); @Override Predicate like(final Expression<String> x, final Expression<String> pattern, final char escapeChar); @Override Predicate like(final Expression<String> x, final String pattern, final Expression<Character> escapeChar); @Override Predicate like(final Expression<String> x, final String pattern, final char escapeChar); @Override Predicate notLike(final Expression<String> x, final Expression<String> pattern); @Override Predicate notLike(final Expression<String> x, final String pattern); @Override Predicate notLike(final Expression<String> x, final Expression<String> pattern, final Expression<Character> escapeChar); @Override Predicate notLike(final Expression<String> x, final Expression<String> pattern, final char escapeChar); @Override Predicate notLike(final Expression<String> x, final String pattern, final Expression<Character> escapeChar); @Override Predicate notLike(final Expression<String> x, final String pattern, final char escapeChar); @Override Expression<String> concat(final Expression<String> x, final Expression<String> y); @Override Expression<String> concat(final Expression<String> x, final String y); @Override Expression<String> concat(final String x, final Expression<String> y); @Override Expression<String> substring(final Expression<String> x, final Expression<Integer> from); @Override Expression<String> substring(final Expression<String> x, final int from); @Override Expression<String> substring(final Expression<String> x, final Expression<Integer> from, final Expression<Integer> len); @Override Expression<String> substring(final Expression<String> x, final int from, final int len); @Override Expression<String> trim(final Expression<String> x); @Override Expression<String> trim(final Trimspec ts, final Expression<String> x); @Override Expression<String> trim(final Expression<Character> t, final Expression<String> x); @Override Expression<String> trim(final Trimspec ts, final Expression<Character> t, final Expression<String> x); @Override Expression<String> trim(final char t, final Expression<String> x); @Override Expression<String> trim(final Trimspec ts, final char t, final Expression<String> x); @Override Expression<Integer> length(final Expression<String> x); @Override Expression<Integer> locate(final Expression<String> x, final Expression<String> pattern); @Override Expression<Integer> locate(final Expression<String> x, final String pattern); @Override Expression<Integer> locate(final Expression<String> x, final Expression<String> pattern, final Expression<Integer> from); @Override Expression<Integer> locate(final Expression<String> x, final String pattern, final int from); @Override Expression<Date> currentDate(); @Override Expression<Timestamp> currentTimestamp(); @Override Expression<Time> currentTime(); @Override Coalesce<T> coalesce(); @Override Expression<Y> coalesce(final Expression<? extends Y> x, final Expression<? extends Y> y); @Override Expression<Y> coalesce(final Expression<? extends Y> x, final Y y); @Override Expression<Y> nullif(final Expression<Y> x, final Expression<?> y); @Override Expression<Y> nullif(final Expression<Y> x, final Y y); @Override SimpleCase<C, R> selectCase(final Expression<? extends C> expression); @Override Case<R> selectCase(); @Override Expression<T> function(final String name, final Class<T> type, final Expression<?>... args); @Override Join<X, V> treat(final Join<X, T> join, final Class<V> type); @Override CollectionJoin<X, E> treat(final CollectionJoin<X, T> join, final Class<E> type); @Override SetJoin<X, E> treat(final SetJoin<X, T> join, final Class<E> type); @Override ListJoin<X, E> treat(final ListJoin<X, T> join, final Class<E> type); @Override MapJoin<X, K, V> treat(final MapJoin<X, K, T> join, final Class<V> type); @Override Path<T> treat(final Path<X> path, final Class<T> type); @Override Root<T> treat(final Root<X> root, final Class<T> type); }
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@Test(expected = UnsupportedOperationException.class) public void testCoalesce1() { cb.coalesce(); }
@Test(expected = UnsupportedOperationException.class) public void testCoalesce2() { cb.coalesce((Expression<Widget>) null, (Expression<Widget>) null); }
@Test(expected = UnsupportedOperationException.class) public void testCoalesce3() { cb.coalesce((Expression<Widget>) null, (Widget) null); }
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MinijaxCriteriaBuilder implements javax.persistence.criteria.CriteriaBuilder { @Override public <Y> Expression<Y> nullif(final Expression<Y> x, final Expression<?> y) { throw new UnsupportedOperationException(); } MinijaxCriteriaBuilder(final MinijaxMetamodel metamodel); MinijaxMetamodel getMetamodel(); @Override MinijaxCriteriaQuery<T> createQuery(final Class<T> resultClass); @Override MinijaxCriteriaQuery<Object> createQuery(); @Override MinijaxCriteriaQuery<Tuple> createTupleQuery(); @Override MinijaxCompoundSelection<Tuple> tuple(final Selection<?>... selections); @Override @SuppressWarnings({ "rawtypes", "unchecked", "java:S1221" }) // Ignore Sonar warning about confusing "equal" method MinijaxComparison equal(final Expression<?> x, final Object y); @Override @SuppressWarnings({ "rawtypes", "unchecked", "java:S1221" }) // Ignore Sonar warning about confusing "equal" method MinijaxComparison equal(final Expression<?> x, final Expression<?> y); @Override @SuppressWarnings("unchecked") MinijaxIn<T> in(final Expression<? extends T> expression); @Override @SuppressWarnings({ "rawtypes", "unchecked" }) MinijaxComparison isNull(final Expression<?> x); @Override @SuppressWarnings({ "rawtypes", "unchecked" }) MinijaxComparison isNotNull(final Expression<?> x); @Override @SuppressWarnings("unchecked") MinijaxPredicate like(final Expression<String> x, final Expression<String> pattern); @Override MinijaxPredicate like(final Expression<String> x, final String pattern); @Override @SuppressWarnings({ "unchecked", "rawtypes" }) MinijaxFunctionExpression<String> lower(final Expression<String> x); @Override @SuppressWarnings({ "unchecked", "rawtypes" }) Expression<String> upper(final Expression<String> x); @Override MinijaxConjunction and(final Expression<Boolean> x, final Expression<Boolean> y); @Override MinijaxConjunction and(final Predicate... restrictions); @Override MinijaxConjunction or(final Expression<Boolean> x, final Expression<Boolean> y); @Override MinijaxConjunction or(final Predicate... restrictions); @Override MinijaxOrder asc(final Expression<?> x); @Override MinijaxOrder desc(final Expression<?> x); @Override CriteriaUpdate<T> createCriteriaUpdate(final Class<T> targetEntity); @Override CriteriaDelete<T> createCriteriaDelete(final Class<T> targetEntity); @Override CompoundSelection<Y> construct(final Class<Y> resultClass, final Selection<?>... selections); @Override CompoundSelection<Object[]> array(final Selection<?>... selections); @Override Expression<Double> avg(final Expression<N> x); @Override Expression<N> max(final Expression<N> x); @Override Expression<N> min(final Expression<N> x); @Override Expression<X> greatest(final Expression<X> x); @Override Expression<X> least(final Expression<X> x); @Override Expression<Long> count(final Expression<?> x); @Override Expression<Long> countDistinct(final Expression<?> x); @Override Predicate exists(final Subquery<?> subquery); @Override Expression<Y> all(final Subquery<Y> subquery); @Override Expression<Y> some(final Subquery<Y> subquery); @Override Expression<Y> any(final Subquery<Y> subquery); @Override Predicate not(final Expression<Boolean> restriction); @Override Predicate conjunction(); @Override Predicate disjunction(); @Override Predicate isTrue(final Expression<Boolean> x); @Override Predicate isFalse(final Expression<Boolean> x); @Override Predicate notEqual(final Expression<?> x, final Expression<?> y); @Override Predicate notEqual(final Expression<?> x, final Object y); @Override Predicate greaterThan(final Expression<? extends Y> x,
final Expression<? extends Y> y); @Override Predicate greaterThan(final Expression<? extends Y> x, final Y y); @Override Predicate greaterThanOrEqualTo(final Expression<? extends Y> x,
final Expression<? extends Y> y); @Override Predicate greaterThanOrEqualTo(final Expression<? extends Y> x, final Y y); @Override Predicate lessThan(final Expression<? extends Y> x, final Expression<? extends Y> y); @Override Predicate lessThan(final Expression<? extends Y> x, final Y y); @Override Predicate lessThanOrEqualTo(final Expression<? extends Y> x,
final Expression<? extends Y> y); @Override Predicate lessThanOrEqualTo(final Expression<? extends Y> x, final Y y); @Override Predicate between(final Expression<? extends Y> v, final Expression<? extends Y> x,
final Expression<? extends Y> y); @Override Predicate between(final Expression<? extends Y> v, final Y x, final Y y); @Override Predicate gt(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Predicate gt(final Expression<? extends Number> x, final Number y); @Override Predicate ge(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Predicate ge(final Expression<? extends Number> x, final Number y); @Override Predicate lt(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Predicate lt(final Expression<? extends Number> x, final Number y); @Override Predicate le(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Predicate le(final Expression<? extends Number> x, final Number y); @Override Expression<N> neg(final Expression<N> x); @Override Expression<N> abs(final Expression<N> x); @Override Expression<N> sum(final Expression<? extends N> x, final Expression<? extends N> y); @Override Expression<N> sum(final Expression<? extends N> x, final N y); @Override Expression<N> sum(final N x, final Expression<? extends N> y); @Override Expression<N> sum(final Expression<N> x); @Override Expression<Long> sumAsLong(final Expression<Integer> x); @Override Expression<Double> sumAsDouble(final Expression<Float> x); @Override Expression<N> prod(final Expression<? extends N> x, final Expression<? extends N> y); @Override Expression<N> prod(final Expression<? extends N> x, final N y); @Override Expression<N> prod(final N x, final Expression<? extends N> y); @Override Expression<N> diff(final Expression<? extends N> x, final Expression<? extends N> y); @Override Expression<N> diff(final Expression<? extends N> x, final N y); @Override Expression<N> diff(final N x, final Expression<? extends N> y); @Override Expression<Number> quot(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Expression<Number> quot(final Expression<? extends Number> x, final Number y); @Override Expression<Number> quot(final Number x, final Expression<? extends Number> y); @Override Expression<Integer> mod(final Expression<Integer> x, final Expression<Integer> y); @Override Expression<Integer> mod(final Expression<Integer> x, final Integer y); @Override Expression<Integer> mod(final Integer x, final Expression<Integer> y); @Override Expression<Double> sqrt(final Expression<? extends Number> x); @Override Expression<Long> toLong(final Expression<? extends Number> number); @Override Expression<Integer> toInteger(final Expression<? extends Number> number); @Override Expression<Float> toFloat(final Expression<? extends Number> number); @Override Expression<Double> toDouble(final Expression<? extends Number> number); @Override Expression<BigDecimal> toBigDecimal(final Expression<? extends Number> number); @Override Expression<BigInteger> toBigInteger(final Expression<? extends Number> number); @Override Expression<String> toString(final Expression<Character> character); @Override Expression<T> literal(final T value); @Override Expression<T> nullLiteral(final Class<T> resultClass); @Override ParameterExpression<T> parameter(final Class<T> paramClass); @Override ParameterExpression<T> parameter(final Class<T> paramClass, final String name); @Override Predicate isEmpty(final Expression<C> collection); @Override Predicate isNotEmpty(final Expression<C> collection); @Override Expression<Integer> size(final Expression<C> collection); @Override Expression<Integer> size(final C collection); @Override Predicate isMember(final Expression<E> elem, final Expression<C> collection); @Override Predicate isMember(final E elem, final Expression<C> collection); @Override Predicate isNotMember(final Expression<E> elem, final Expression<C> collection); @Override Predicate isNotMember(final E elem, final Expression<C> collection); @Override Expression<Collection<V>> values(final M map); @Override Expression<Set<K>> keys(final M map); @Override Predicate like(final Expression<String> x, final Expression<String> pattern, final Expression<Character> escapeChar); @Override Predicate like(final Expression<String> x, final Expression<String> pattern, final char escapeChar); @Override Predicate like(final Expression<String> x, final String pattern, final Expression<Character> escapeChar); @Override Predicate like(final Expression<String> x, final String pattern, final char escapeChar); @Override Predicate notLike(final Expression<String> x, final Expression<String> pattern); @Override Predicate notLike(final Expression<String> x, final String pattern); @Override Predicate notLike(final Expression<String> x, final Expression<String> pattern, final Expression<Character> escapeChar); @Override Predicate notLike(final Expression<String> x, final Expression<String> pattern, final char escapeChar); @Override Predicate notLike(final Expression<String> x, final String pattern, final Expression<Character> escapeChar); @Override Predicate notLike(final Expression<String> x, final String pattern, final char escapeChar); @Override Expression<String> concat(final Expression<String> x, final Expression<String> y); @Override Expression<String> concat(final Expression<String> x, final String y); @Override Expression<String> concat(final String x, final Expression<String> y); @Override Expression<String> substring(final Expression<String> x, final Expression<Integer> from); @Override Expression<String> substring(final Expression<String> x, final int from); @Override Expression<String> substring(final Expression<String> x, final Expression<Integer> from, final Expression<Integer> len); @Override Expression<String> substring(final Expression<String> x, final int from, final int len); @Override Expression<String> trim(final Expression<String> x); @Override Expression<String> trim(final Trimspec ts, final Expression<String> x); @Override Expression<String> trim(final Expression<Character> t, final Expression<String> x); @Override Expression<String> trim(final Trimspec ts, final Expression<Character> t, final Expression<String> x); @Override Expression<String> trim(final char t, final Expression<String> x); @Override Expression<String> trim(final Trimspec ts, final char t, final Expression<String> x); @Override Expression<Integer> length(final Expression<String> x); @Override Expression<Integer> locate(final Expression<String> x, final Expression<String> pattern); @Override Expression<Integer> locate(final Expression<String> x, final String pattern); @Override Expression<Integer> locate(final Expression<String> x, final Expression<String> pattern, final Expression<Integer> from); @Override Expression<Integer> locate(final Expression<String> x, final String pattern, final int from); @Override Expression<Date> currentDate(); @Override Expression<Timestamp> currentTimestamp(); @Override Expression<Time> currentTime(); @Override Coalesce<T> coalesce(); @Override Expression<Y> coalesce(final Expression<? extends Y> x, final Expression<? extends Y> y); @Override Expression<Y> coalesce(final Expression<? extends Y> x, final Y y); @Override Expression<Y> nullif(final Expression<Y> x, final Expression<?> y); @Override Expression<Y> nullif(final Expression<Y> x, final Y y); @Override SimpleCase<C, R> selectCase(final Expression<? extends C> expression); @Override Case<R> selectCase(); @Override Expression<T> function(final String name, final Class<T> type, final Expression<?>... args); @Override Join<X, V> treat(final Join<X, T> join, final Class<V> type); @Override CollectionJoin<X, E> treat(final CollectionJoin<X, T> join, final Class<E> type); @Override SetJoin<X, E> treat(final SetJoin<X, T> join, final Class<E> type); @Override ListJoin<X, E> treat(final ListJoin<X, T> join, final Class<E> type); @Override MapJoin<X, K, V> treat(final MapJoin<X, K, T> join, final Class<V> type); @Override Path<T> treat(final Path<X> path, final Class<T> type); @Override Root<T> treat(final Root<X> root, final Class<T> type); }
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@Test(expected = UnsupportedOperationException.class) public void testNullif1() { cb.<Widget>nullif((Expression<Widget>) null, (Expression<?>) null); }
@Test(expected = UnsupportedOperationException.class) public void testNullif2() { cb.<Widget>nullif((Expression<Widget>) null, (Widget) null); }
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MinijaxCriteriaBuilder implements javax.persistence.criteria.CriteriaBuilder { @Override public <C, R> SimpleCase<C, R> selectCase(final Expression<? extends C> expression) { throw new UnsupportedOperationException(); } MinijaxCriteriaBuilder(final MinijaxMetamodel metamodel); MinijaxMetamodel getMetamodel(); @Override MinijaxCriteriaQuery<T> createQuery(final Class<T> resultClass); @Override MinijaxCriteriaQuery<Object> createQuery(); @Override MinijaxCriteriaQuery<Tuple> createTupleQuery(); @Override MinijaxCompoundSelection<Tuple> tuple(final Selection<?>... selections); @Override @SuppressWarnings({ "rawtypes", "unchecked", "java:S1221" }) // Ignore Sonar warning about confusing "equal" method MinijaxComparison equal(final Expression<?> x, final Object y); @Override @SuppressWarnings({ "rawtypes", "unchecked", "java:S1221" }) // Ignore Sonar warning about confusing "equal" method MinijaxComparison equal(final Expression<?> x, final Expression<?> y); @Override @SuppressWarnings("unchecked") MinijaxIn<T> in(final Expression<? extends T> expression); @Override @SuppressWarnings({ "rawtypes", "unchecked" }) MinijaxComparison isNull(final Expression<?> x); @Override @SuppressWarnings({ "rawtypes", "unchecked" }) MinijaxComparison isNotNull(final Expression<?> x); @Override @SuppressWarnings("unchecked") MinijaxPredicate like(final Expression<String> x, final Expression<String> pattern); @Override MinijaxPredicate like(final Expression<String> x, final String pattern); @Override @SuppressWarnings({ "unchecked", "rawtypes" }) MinijaxFunctionExpression<String> lower(final Expression<String> x); @Override @SuppressWarnings({ "unchecked", "rawtypes" }) Expression<String> upper(final Expression<String> x); @Override MinijaxConjunction and(final Expression<Boolean> x, final Expression<Boolean> y); @Override MinijaxConjunction and(final Predicate... restrictions); @Override MinijaxConjunction or(final Expression<Boolean> x, final Expression<Boolean> y); @Override MinijaxConjunction or(final Predicate... restrictions); @Override MinijaxOrder asc(final Expression<?> x); @Override MinijaxOrder desc(final Expression<?> x); @Override CriteriaUpdate<T> createCriteriaUpdate(final Class<T> targetEntity); @Override CriteriaDelete<T> createCriteriaDelete(final Class<T> targetEntity); @Override CompoundSelection<Y> construct(final Class<Y> resultClass, final Selection<?>... selections); @Override CompoundSelection<Object[]> array(final Selection<?>... selections); @Override Expression<Double> avg(final Expression<N> x); @Override Expression<N> max(final Expression<N> x); @Override Expression<N> min(final Expression<N> x); @Override Expression<X> greatest(final Expression<X> x); @Override Expression<X> least(final Expression<X> x); @Override Expression<Long> count(final Expression<?> x); @Override Expression<Long> countDistinct(final Expression<?> x); @Override Predicate exists(final Subquery<?> subquery); @Override Expression<Y> all(final Subquery<Y> subquery); @Override Expression<Y> some(final Subquery<Y> subquery); @Override Expression<Y> any(final Subquery<Y> subquery); @Override Predicate not(final Expression<Boolean> restriction); @Override Predicate conjunction(); @Override Predicate disjunction(); @Override Predicate isTrue(final Expression<Boolean> x); @Override Predicate isFalse(final Expression<Boolean> x); @Override Predicate notEqual(final Expression<?> x, final Expression<?> y); @Override Predicate notEqual(final Expression<?> x, final Object y); @Override Predicate greaterThan(final Expression<? extends Y> x,
final Expression<? extends Y> y); @Override Predicate greaterThan(final Expression<? extends Y> x, final Y y); @Override Predicate greaterThanOrEqualTo(final Expression<? extends Y> x,
final Expression<? extends Y> y); @Override Predicate greaterThanOrEqualTo(final Expression<? extends Y> x, final Y y); @Override Predicate lessThan(final Expression<? extends Y> x, final Expression<? extends Y> y); @Override Predicate lessThan(final Expression<? extends Y> x, final Y y); @Override Predicate lessThanOrEqualTo(final Expression<? extends Y> x,
final Expression<? extends Y> y); @Override Predicate lessThanOrEqualTo(final Expression<? extends Y> x, final Y y); @Override Predicate between(final Expression<? extends Y> v, final Expression<? extends Y> x,
final Expression<? extends Y> y); @Override Predicate between(final Expression<? extends Y> v, final Y x, final Y y); @Override Predicate gt(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Predicate gt(final Expression<? extends Number> x, final Number y); @Override Predicate ge(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Predicate ge(final Expression<? extends Number> x, final Number y); @Override Predicate lt(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Predicate lt(final Expression<? extends Number> x, final Number y); @Override Predicate le(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Predicate le(final Expression<? extends Number> x, final Number y); @Override Expression<N> neg(final Expression<N> x); @Override Expression<N> abs(final Expression<N> x); @Override Expression<N> sum(final Expression<? extends N> x, final Expression<? extends N> y); @Override Expression<N> sum(final Expression<? extends N> x, final N y); @Override Expression<N> sum(final N x, final Expression<? extends N> y); @Override Expression<N> sum(final Expression<N> x); @Override Expression<Long> sumAsLong(final Expression<Integer> x); @Override Expression<Double> sumAsDouble(final Expression<Float> x); @Override Expression<N> prod(final Expression<? extends N> x, final Expression<? extends N> y); @Override Expression<N> prod(final Expression<? extends N> x, final N y); @Override Expression<N> prod(final N x, final Expression<? extends N> y); @Override Expression<N> diff(final Expression<? extends N> x, final Expression<? extends N> y); @Override Expression<N> diff(final Expression<? extends N> x, final N y); @Override Expression<N> diff(final N x, final Expression<? extends N> y); @Override Expression<Number> quot(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Expression<Number> quot(final Expression<? extends Number> x, final Number y); @Override Expression<Number> quot(final Number x, final Expression<? extends Number> y); @Override Expression<Integer> mod(final Expression<Integer> x, final Expression<Integer> y); @Override Expression<Integer> mod(final Expression<Integer> x, final Integer y); @Override Expression<Integer> mod(final Integer x, final Expression<Integer> y); @Override Expression<Double> sqrt(final Expression<? extends Number> x); @Override Expression<Long> toLong(final Expression<? extends Number> number); @Override Expression<Integer> toInteger(final Expression<? extends Number> number); @Override Expression<Float> toFloat(final Expression<? extends Number> number); @Override Expression<Double> toDouble(final Expression<? extends Number> number); @Override Expression<BigDecimal> toBigDecimal(final Expression<? extends Number> number); @Override Expression<BigInteger> toBigInteger(final Expression<? extends Number> number); @Override Expression<String> toString(final Expression<Character> character); @Override Expression<T> literal(final T value); @Override Expression<T> nullLiteral(final Class<T> resultClass); @Override ParameterExpression<T> parameter(final Class<T> paramClass); @Override ParameterExpression<T> parameter(final Class<T> paramClass, final String name); @Override Predicate isEmpty(final Expression<C> collection); @Override Predicate isNotEmpty(final Expression<C> collection); @Override Expression<Integer> size(final Expression<C> collection); @Override Expression<Integer> size(final C collection); @Override Predicate isMember(final Expression<E> elem, final Expression<C> collection); @Override Predicate isMember(final E elem, final Expression<C> collection); @Override Predicate isNotMember(final Expression<E> elem, final Expression<C> collection); @Override Predicate isNotMember(final E elem, final Expression<C> collection); @Override Expression<Collection<V>> values(final M map); @Override Expression<Set<K>> keys(final M map); @Override Predicate like(final Expression<String> x, final Expression<String> pattern, final Expression<Character> escapeChar); @Override Predicate like(final Expression<String> x, final Expression<String> pattern, final char escapeChar); @Override Predicate like(final Expression<String> x, final String pattern, final Expression<Character> escapeChar); @Override Predicate like(final Expression<String> x, final String pattern, final char escapeChar); @Override Predicate notLike(final Expression<String> x, final Expression<String> pattern); @Override Predicate notLike(final Expression<String> x, final String pattern); @Override Predicate notLike(final Expression<String> x, final Expression<String> pattern, final Expression<Character> escapeChar); @Override Predicate notLike(final Expression<String> x, final Expression<String> pattern, final char escapeChar); @Override Predicate notLike(final Expression<String> x, final String pattern, final Expression<Character> escapeChar); @Override Predicate notLike(final Expression<String> x, final String pattern, final char escapeChar); @Override Expression<String> concat(final Expression<String> x, final Expression<String> y); @Override Expression<String> concat(final Expression<String> x, final String y); @Override Expression<String> concat(final String x, final Expression<String> y); @Override Expression<String> substring(final Expression<String> x, final Expression<Integer> from); @Override Expression<String> substring(final Expression<String> x, final int from); @Override Expression<String> substring(final Expression<String> x, final Expression<Integer> from, final Expression<Integer> len); @Override Expression<String> substring(final Expression<String> x, final int from, final int len); @Override Expression<String> trim(final Expression<String> x); @Override Expression<String> trim(final Trimspec ts, final Expression<String> x); @Override Expression<String> trim(final Expression<Character> t, final Expression<String> x); @Override Expression<String> trim(final Trimspec ts, final Expression<Character> t, final Expression<String> x); @Override Expression<String> trim(final char t, final Expression<String> x); @Override Expression<String> trim(final Trimspec ts, final char t, final Expression<String> x); @Override Expression<Integer> length(final Expression<String> x); @Override Expression<Integer> locate(final Expression<String> x, final Expression<String> pattern); @Override Expression<Integer> locate(final Expression<String> x, final String pattern); @Override Expression<Integer> locate(final Expression<String> x, final Expression<String> pattern, final Expression<Integer> from); @Override Expression<Integer> locate(final Expression<String> x, final String pattern, final int from); @Override Expression<Date> currentDate(); @Override Expression<Timestamp> currentTimestamp(); @Override Expression<Time> currentTime(); @Override Coalesce<T> coalesce(); @Override Expression<Y> coalesce(final Expression<? extends Y> x, final Expression<? extends Y> y); @Override Expression<Y> coalesce(final Expression<? extends Y> x, final Y y); @Override Expression<Y> nullif(final Expression<Y> x, final Expression<?> y); @Override Expression<Y> nullif(final Expression<Y> x, final Y y); @Override SimpleCase<C, R> selectCase(final Expression<? extends C> expression); @Override Case<R> selectCase(); @Override Expression<T> function(final String name, final Class<T> type, final Expression<?>... args); @Override Join<X, V> treat(final Join<X, T> join, final Class<V> type); @Override CollectionJoin<X, E> treat(final CollectionJoin<X, T> join, final Class<E> type); @Override SetJoin<X, E> treat(final SetJoin<X, T> join, final Class<E> type); @Override ListJoin<X, E> treat(final ListJoin<X, T> join, final Class<E> type); @Override MapJoin<X, K, V> treat(final MapJoin<X, K, T> join, final Class<V> type); @Override Path<T> treat(final Path<X> path, final Class<T> type); @Override Root<T> treat(final Root<X> root, final Class<T> type); }
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@Test(expected = UnsupportedOperationException.class) public void testSelectCase1() { cb.selectCase(null); }
@Test(expected = UnsupportedOperationException.class) public void testSelectCase2() { cb.selectCase(); }
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MinijaxCriteriaBuilder implements javax.persistence.criteria.CriteriaBuilder { @Override public <T> Expression<T> function(final String name, final Class<T> type, final Expression<?>... args) { throw new UnsupportedOperationException(); } MinijaxCriteriaBuilder(final MinijaxMetamodel metamodel); MinijaxMetamodel getMetamodel(); @Override MinijaxCriteriaQuery<T> createQuery(final Class<T> resultClass); @Override MinijaxCriteriaQuery<Object> createQuery(); @Override MinijaxCriteriaQuery<Tuple> createTupleQuery(); @Override MinijaxCompoundSelection<Tuple> tuple(final Selection<?>... selections); @Override @SuppressWarnings({ "rawtypes", "unchecked", "java:S1221" }) // Ignore Sonar warning about confusing "equal" method MinijaxComparison equal(final Expression<?> x, final Object y); @Override @SuppressWarnings({ "rawtypes", "unchecked", "java:S1221" }) // Ignore Sonar warning about confusing "equal" method MinijaxComparison equal(final Expression<?> x, final Expression<?> y); @Override @SuppressWarnings("unchecked") MinijaxIn<T> in(final Expression<? extends T> expression); @Override @SuppressWarnings({ "rawtypes", "unchecked" }) MinijaxComparison isNull(final Expression<?> x); @Override @SuppressWarnings({ "rawtypes", "unchecked" }) MinijaxComparison isNotNull(final Expression<?> x); @Override @SuppressWarnings("unchecked") MinijaxPredicate like(final Expression<String> x, final Expression<String> pattern); @Override MinijaxPredicate like(final Expression<String> x, final String pattern); @Override @SuppressWarnings({ "unchecked", "rawtypes" }) MinijaxFunctionExpression<String> lower(final Expression<String> x); @Override @SuppressWarnings({ "unchecked", "rawtypes" }) Expression<String> upper(final Expression<String> x); @Override MinijaxConjunction and(final Expression<Boolean> x, final Expression<Boolean> y); @Override MinijaxConjunction and(final Predicate... restrictions); @Override MinijaxConjunction or(final Expression<Boolean> x, final Expression<Boolean> y); @Override MinijaxConjunction or(final Predicate... restrictions); @Override MinijaxOrder asc(final Expression<?> x); @Override MinijaxOrder desc(final Expression<?> x); @Override CriteriaUpdate<T> createCriteriaUpdate(final Class<T> targetEntity); @Override CriteriaDelete<T> createCriteriaDelete(final Class<T> targetEntity); @Override CompoundSelection<Y> construct(final Class<Y> resultClass, final Selection<?>... selections); @Override CompoundSelection<Object[]> array(final Selection<?>... selections); @Override Expression<Double> avg(final Expression<N> x); @Override Expression<N> max(final Expression<N> x); @Override Expression<N> min(final Expression<N> x); @Override Expression<X> greatest(final Expression<X> x); @Override Expression<X> least(final Expression<X> x); @Override Expression<Long> count(final Expression<?> x); @Override Expression<Long> countDistinct(final Expression<?> x); @Override Predicate exists(final Subquery<?> subquery); @Override Expression<Y> all(final Subquery<Y> subquery); @Override Expression<Y> some(final Subquery<Y> subquery); @Override Expression<Y> any(final Subquery<Y> subquery); @Override Predicate not(final Expression<Boolean> restriction); @Override Predicate conjunction(); @Override Predicate disjunction(); @Override Predicate isTrue(final Expression<Boolean> x); @Override Predicate isFalse(final Expression<Boolean> x); @Override Predicate notEqual(final Expression<?> x, final Expression<?> y); @Override Predicate notEqual(final Expression<?> x, final Object y); @Override Predicate greaterThan(final Expression<? extends Y> x,
final Expression<? extends Y> y); @Override Predicate greaterThan(final Expression<? extends Y> x, final Y y); @Override Predicate greaterThanOrEqualTo(final Expression<? extends Y> x,
final Expression<? extends Y> y); @Override Predicate greaterThanOrEqualTo(final Expression<? extends Y> x, final Y y); @Override Predicate lessThan(final Expression<? extends Y> x, final Expression<? extends Y> y); @Override Predicate lessThan(final Expression<? extends Y> x, final Y y); @Override Predicate lessThanOrEqualTo(final Expression<? extends Y> x,
final Expression<? extends Y> y); @Override Predicate lessThanOrEqualTo(final Expression<? extends Y> x, final Y y); @Override Predicate between(final Expression<? extends Y> v, final Expression<? extends Y> x,
final Expression<? extends Y> y); @Override Predicate between(final Expression<? extends Y> v, final Y x, final Y y); @Override Predicate gt(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Predicate gt(final Expression<? extends Number> x, final Number y); @Override Predicate ge(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Predicate ge(final Expression<? extends Number> x, final Number y); @Override Predicate lt(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Predicate lt(final Expression<? extends Number> x, final Number y); @Override Predicate le(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Predicate le(final Expression<? extends Number> x, final Number y); @Override Expression<N> neg(final Expression<N> x); @Override Expression<N> abs(final Expression<N> x); @Override Expression<N> sum(final Expression<? extends N> x, final Expression<? extends N> y); @Override Expression<N> sum(final Expression<? extends N> x, final N y); @Override Expression<N> sum(final N x, final Expression<? extends N> y); @Override Expression<N> sum(final Expression<N> x); @Override Expression<Long> sumAsLong(final Expression<Integer> x); @Override Expression<Double> sumAsDouble(final Expression<Float> x); @Override Expression<N> prod(final Expression<? extends N> x, final Expression<? extends N> y); @Override Expression<N> prod(final Expression<? extends N> x, final N y); @Override Expression<N> prod(final N x, final Expression<? extends N> y); @Override Expression<N> diff(final Expression<? extends N> x, final Expression<? extends N> y); @Override Expression<N> diff(final Expression<? extends N> x, final N y); @Override Expression<N> diff(final N x, final Expression<? extends N> y); @Override Expression<Number> quot(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Expression<Number> quot(final Expression<? extends Number> x, final Number y); @Override Expression<Number> quot(final Number x, final Expression<? extends Number> y); @Override Expression<Integer> mod(final Expression<Integer> x, final Expression<Integer> y); @Override Expression<Integer> mod(final Expression<Integer> x, final Integer y); @Override Expression<Integer> mod(final Integer x, final Expression<Integer> y); @Override Expression<Double> sqrt(final Expression<? extends Number> x); @Override Expression<Long> toLong(final Expression<? extends Number> number); @Override Expression<Integer> toInteger(final Expression<? extends Number> number); @Override Expression<Float> toFloat(final Expression<? extends Number> number); @Override Expression<Double> toDouble(final Expression<? extends Number> number); @Override Expression<BigDecimal> toBigDecimal(final Expression<? extends Number> number); @Override Expression<BigInteger> toBigInteger(final Expression<? extends Number> number); @Override Expression<String> toString(final Expression<Character> character); @Override Expression<T> literal(final T value); @Override Expression<T> nullLiteral(final Class<T> resultClass); @Override ParameterExpression<T> parameter(final Class<T> paramClass); @Override ParameterExpression<T> parameter(final Class<T> paramClass, final String name); @Override Predicate isEmpty(final Expression<C> collection); @Override Predicate isNotEmpty(final Expression<C> collection); @Override Expression<Integer> size(final Expression<C> collection); @Override Expression<Integer> size(final C collection); @Override Predicate isMember(final Expression<E> elem, final Expression<C> collection); @Override Predicate isMember(final E elem, final Expression<C> collection); @Override Predicate isNotMember(final Expression<E> elem, final Expression<C> collection); @Override Predicate isNotMember(final E elem, final Expression<C> collection); @Override Expression<Collection<V>> values(final M map); @Override Expression<Set<K>> keys(final M map); @Override Predicate like(final Expression<String> x, final Expression<String> pattern, final Expression<Character> escapeChar); @Override Predicate like(final Expression<String> x, final Expression<String> pattern, final char escapeChar); @Override Predicate like(final Expression<String> x, final String pattern, final Expression<Character> escapeChar); @Override Predicate like(final Expression<String> x, final String pattern, final char escapeChar); @Override Predicate notLike(final Expression<String> x, final Expression<String> pattern); @Override Predicate notLike(final Expression<String> x, final String pattern); @Override Predicate notLike(final Expression<String> x, final Expression<String> pattern, final Expression<Character> escapeChar); @Override Predicate notLike(final Expression<String> x, final Expression<String> pattern, final char escapeChar); @Override Predicate notLike(final Expression<String> x, final String pattern, final Expression<Character> escapeChar); @Override Predicate notLike(final Expression<String> x, final String pattern, final char escapeChar); @Override Expression<String> concat(final Expression<String> x, final Expression<String> y); @Override Expression<String> concat(final Expression<String> x, final String y); @Override Expression<String> concat(final String x, final Expression<String> y); @Override Expression<String> substring(final Expression<String> x, final Expression<Integer> from); @Override Expression<String> substring(final Expression<String> x, final int from); @Override Expression<String> substring(final Expression<String> x, final Expression<Integer> from, final Expression<Integer> len); @Override Expression<String> substring(final Expression<String> x, final int from, final int len); @Override Expression<String> trim(final Expression<String> x); @Override Expression<String> trim(final Trimspec ts, final Expression<String> x); @Override Expression<String> trim(final Expression<Character> t, final Expression<String> x); @Override Expression<String> trim(final Trimspec ts, final Expression<Character> t, final Expression<String> x); @Override Expression<String> trim(final char t, final Expression<String> x); @Override Expression<String> trim(final Trimspec ts, final char t, final Expression<String> x); @Override Expression<Integer> length(final Expression<String> x); @Override Expression<Integer> locate(final Expression<String> x, final Expression<String> pattern); @Override Expression<Integer> locate(final Expression<String> x, final String pattern); @Override Expression<Integer> locate(final Expression<String> x, final Expression<String> pattern, final Expression<Integer> from); @Override Expression<Integer> locate(final Expression<String> x, final String pattern, final int from); @Override Expression<Date> currentDate(); @Override Expression<Timestamp> currentTimestamp(); @Override Expression<Time> currentTime(); @Override Coalesce<T> coalesce(); @Override Expression<Y> coalesce(final Expression<? extends Y> x, final Expression<? extends Y> y); @Override Expression<Y> coalesce(final Expression<? extends Y> x, final Y y); @Override Expression<Y> nullif(final Expression<Y> x, final Expression<?> y); @Override Expression<Y> nullif(final Expression<Y> x, final Y y); @Override SimpleCase<C, R> selectCase(final Expression<? extends C> expression); @Override Case<R> selectCase(); @Override Expression<T> function(final String name, final Class<T> type, final Expression<?>... args); @Override Join<X, V> treat(final Join<X, T> join, final Class<V> type); @Override CollectionJoin<X, E> treat(final CollectionJoin<X, T> join, final Class<E> type); @Override SetJoin<X, E> treat(final SetJoin<X, T> join, final Class<E> type); @Override ListJoin<X, E> treat(final ListJoin<X, T> join, final Class<E> type); @Override MapJoin<X, K, V> treat(final MapJoin<X, K, T> join, final Class<V> type); @Override Path<T> treat(final Path<X> path, final Class<T> type); @Override Root<T> treat(final Root<X> root, final Class<T> type); }
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@Test(expected = UnsupportedOperationException.class) public void testFunction() { cb.function(null, null); }
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MinijaxCriteriaBuilder implements javax.persistence.criteria.CriteriaBuilder { @Override public <X, T, V extends T> Join<X, V> treat(final Join<X, T> join, final Class<V> type) { throw new UnsupportedOperationException(); } MinijaxCriteriaBuilder(final MinijaxMetamodel metamodel); MinijaxMetamodel getMetamodel(); @Override MinijaxCriteriaQuery<T> createQuery(final Class<T> resultClass); @Override MinijaxCriteriaQuery<Object> createQuery(); @Override MinijaxCriteriaQuery<Tuple> createTupleQuery(); @Override MinijaxCompoundSelection<Tuple> tuple(final Selection<?>... selections); @Override @SuppressWarnings({ "rawtypes", "unchecked", "java:S1221" }) // Ignore Sonar warning about confusing "equal" method MinijaxComparison equal(final Expression<?> x, final Object y); @Override @SuppressWarnings({ "rawtypes", "unchecked", "java:S1221" }) // Ignore Sonar warning about confusing "equal" method MinijaxComparison equal(final Expression<?> x, final Expression<?> y); @Override @SuppressWarnings("unchecked") MinijaxIn<T> in(final Expression<? extends T> expression); @Override @SuppressWarnings({ "rawtypes", "unchecked" }) MinijaxComparison isNull(final Expression<?> x); @Override @SuppressWarnings({ "rawtypes", "unchecked" }) MinijaxComparison isNotNull(final Expression<?> x); @Override @SuppressWarnings("unchecked") MinijaxPredicate like(final Expression<String> x, final Expression<String> pattern); @Override MinijaxPredicate like(final Expression<String> x, final String pattern); @Override @SuppressWarnings({ "unchecked", "rawtypes" }) MinijaxFunctionExpression<String> lower(final Expression<String> x); @Override @SuppressWarnings({ "unchecked", "rawtypes" }) Expression<String> upper(final Expression<String> x); @Override MinijaxConjunction and(final Expression<Boolean> x, final Expression<Boolean> y); @Override MinijaxConjunction and(final Predicate... restrictions); @Override MinijaxConjunction or(final Expression<Boolean> x, final Expression<Boolean> y); @Override MinijaxConjunction or(final Predicate... restrictions); @Override MinijaxOrder asc(final Expression<?> x); @Override MinijaxOrder desc(final Expression<?> x); @Override CriteriaUpdate<T> createCriteriaUpdate(final Class<T> targetEntity); @Override CriteriaDelete<T> createCriteriaDelete(final Class<T> targetEntity); @Override CompoundSelection<Y> construct(final Class<Y> resultClass, final Selection<?>... selections); @Override CompoundSelection<Object[]> array(final Selection<?>... selections); @Override Expression<Double> avg(final Expression<N> x); @Override Expression<N> max(final Expression<N> x); @Override Expression<N> min(final Expression<N> x); @Override Expression<X> greatest(final Expression<X> x); @Override Expression<X> least(final Expression<X> x); @Override Expression<Long> count(final Expression<?> x); @Override Expression<Long> countDistinct(final Expression<?> x); @Override Predicate exists(final Subquery<?> subquery); @Override Expression<Y> all(final Subquery<Y> subquery); @Override Expression<Y> some(final Subquery<Y> subquery); @Override Expression<Y> any(final Subquery<Y> subquery); @Override Predicate not(final Expression<Boolean> restriction); @Override Predicate conjunction(); @Override Predicate disjunction(); @Override Predicate isTrue(final Expression<Boolean> x); @Override Predicate isFalse(final Expression<Boolean> x); @Override Predicate notEqual(final Expression<?> x, final Expression<?> y); @Override Predicate notEqual(final Expression<?> x, final Object y); @Override Predicate greaterThan(final Expression<? extends Y> x,
final Expression<? extends Y> y); @Override Predicate greaterThan(final Expression<? extends Y> x, final Y y); @Override Predicate greaterThanOrEqualTo(final Expression<? extends Y> x,
final Expression<? extends Y> y); @Override Predicate greaterThanOrEqualTo(final Expression<? extends Y> x, final Y y); @Override Predicate lessThan(final Expression<? extends Y> x, final Expression<? extends Y> y); @Override Predicate lessThan(final Expression<? extends Y> x, final Y y); @Override Predicate lessThanOrEqualTo(final Expression<? extends Y> x,
final Expression<? extends Y> y); @Override Predicate lessThanOrEqualTo(final Expression<? extends Y> x, final Y y); @Override Predicate between(final Expression<? extends Y> v, final Expression<? extends Y> x,
final Expression<? extends Y> y); @Override Predicate between(final Expression<? extends Y> v, final Y x, final Y y); @Override Predicate gt(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Predicate gt(final Expression<? extends Number> x, final Number y); @Override Predicate ge(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Predicate ge(final Expression<? extends Number> x, final Number y); @Override Predicate lt(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Predicate lt(final Expression<? extends Number> x, final Number y); @Override Predicate le(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Predicate le(final Expression<? extends Number> x, final Number y); @Override Expression<N> neg(final Expression<N> x); @Override Expression<N> abs(final Expression<N> x); @Override Expression<N> sum(final Expression<? extends N> x, final Expression<? extends N> y); @Override Expression<N> sum(final Expression<? extends N> x, final N y); @Override Expression<N> sum(final N x, final Expression<? extends N> y); @Override Expression<N> sum(final Expression<N> x); @Override Expression<Long> sumAsLong(final Expression<Integer> x); @Override Expression<Double> sumAsDouble(final Expression<Float> x); @Override Expression<N> prod(final Expression<? extends N> x, final Expression<? extends N> y); @Override Expression<N> prod(final Expression<? extends N> x, final N y); @Override Expression<N> prod(final N x, final Expression<? extends N> y); @Override Expression<N> diff(final Expression<? extends N> x, final Expression<? extends N> y); @Override Expression<N> diff(final Expression<? extends N> x, final N y); @Override Expression<N> diff(final N x, final Expression<? extends N> y); @Override Expression<Number> quot(final Expression<? extends Number> x, final Expression<? extends Number> y); @Override Expression<Number> quot(final Expression<? extends Number> x, final Number y); @Override Expression<Number> quot(final Number x, final Expression<? extends Number> y); @Override Expression<Integer> mod(final Expression<Integer> x, final Expression<Integer> y); @Override Expression<Integer> mod(final Expression<Integer> x, final Integer y); @Override Expression<Integer> mod(final Integer x, final Expression<Integer> y); @Override Expression<Double> sqrt(final Expression<? extends Number> x); @Override Expression<Long> toLong(final Expression<? extends Number> number); @Override Expression<Integer> toInteger(final Expression<? extends Number> number); @Override Expression<Float> toFloat(final Expression<? extends Number> number); @Override Expression<Double> toDouble(final Expression<? extends Number> number); @Override Expression<BigDecimal> toBigDecimal(final Expression<? extends Number> number); @Override Expression<BigInteger> toBigInteger(final Expression<? extends Number> number); @Override Expression<String> toString(final Expression<Character> character); @Override Expression<T> literal(final T value); @Override Expression<T> nullLiteral(final Class<T> resultClass); @Override ParameterExpression<T> parameter(final Class<T> paramClass); @Override ParameterExpression<T> parameter(final Class<T> paramClass, final String name); @Override Predicate isEmpty(final Expression<C> collection); @Override Predicate isNotEmpty(final Expression<C> collection); @Override Expression<Integer> size(final Expression<C> collection); @Override Expression<Integer> size(final C collection); @Override Predicate isMember(final Expression<E> elem, final Expression<C> collection); @Override Predicate isMember(final E elem, final Expression<C> collection); @Override Predicate isNotMember(final Expression<E> elem, final Expression<C> collection); @Override Predicate isNotMember(final E elem, final Expression<C> collection); @Override Expression<Collection<V>> values(final M map); @Override Expression<Set<K>> keys(final M map); @Override Predicate like(final Expression<String> x, final Expression<String> pattern, final Expression<Character> escapeChar); @Override Predicate like(final Expression<String> x, final Expression<String> pattern, final char escapeChar); @Override Predicate like(final Expression<String> x, final String pattern, final Expression<Character> escapeChar); @Override Predicate like(final Expression<String> x, final String pattern, final char escapeChar); @Override Predicate notLike(final Expression<String> x, final Expression<String> pattern); @Override Predicate notLike(final Expression<String> x, final String pattern); @Override Predicate notLike(final Expression<String> x, final Expression<String> pattern, final Expression<Character> escapeChar); @Override Predicate notLike(final Expression<String> x, final Expression<String> pattern, final char escapeChar); @Override Predicate notLike(final Expression<String> x, final String pattern, final Expression<Character> escapeChar); @Override Predicate notLike(final Expression<String> x, final String pattern, final char escapeChar); @Override Expression<String> concat(final Expression<String> x, final Expression<String> y); @Override Expression<String> concat(final Expression<String> x, final String y); @Override Expression<String> concat(final String x, final Expression<String> y); @Override Expression<String> substring(final Expression<String> x, final Expression<Integer> from); @Override Expression<String> substring(final Expression<String> x, final int from); @Override Expression<String> substring(final Expression<String> x, final Expression<Integer> from, final Expression<Integer> len); @Override Expression<String> substring(final Expression<String> x, final int from, final int len); @Override Expression<String> trim(final Expression<String> x); @Override Expression<String> trim(final Trimspec ts, final Expression<String> x); @Override Expression<String> trim(final Expression<Character> t, final Expression<String> x); @Override Expression<String> trim(final Trimspec ts, final Expression<Character> t, final Expression<String> x); @Override Expression<String> trim(final char t, final Expression<String> x); @Override Expression<String> trim(final Trimspec ts, final char t, final Expression<String> x); @Override Expression<Integer> length(final Expression<String> x); @Override Expression<Integer> locate(final Expression<String> x, final Expression<String> pattern); @Override Expression<Integer> locate(final Expression<String> x, final String pattern); @Override Expression<Integer> locate(final Expression<String> x, final Expression<String> pattern, final Expression<Integer> from); @Override Expression<Integer> locate(final Expression<String> x, final String pattern, final int from); @Override Expression<Date> currentDate(); @Override Expression<Timestamp> currentTimestamp(); @Override Expression<Time> currentTime(); @Override Coalesce<T> coalesce(); @Override Expression<Y> coalesce(final Expression<? extends Y> x, final Expression<? extends Y> y); @Override Expression<Y> coalesce(final Expression<? extends Y> x, final Y y); @Override Expression<Y> nullif(final Expression<Y> x, final Expression<?> y); @Override Expression<Y> nullif(final Expression<Y> x, final Y y); @Override SimpleCase<C, R> selectCase(final Expression<? extends C> expression); @Override Case<R> selectCase(); @Override Expression<T> function(final String name, final Class<T> type, final Expression<?>... args); @Override Join<X, V> treat(final Join<X, T> join, final Class<V> type); @Override CollectionJoin<X, E> treat(final CollectionJoin<X, T> join, final Class<E> type); @Override SetJoin<X, E> treat(final SetJoin<X, T> join, final Class<E> type); @Override ListJoin<X, E> treat(final ListJoin<X, T> join, final Class<E> type); @Override MapJoin<X, K, V> treat(final MapJoin<X, K, T> join, final Class<V> type); @Override Path<T> treat(final Path<X> path, final Class<T> type); @Override Root<T> treat(final Root<X> root, final Class<T> type); }
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@Test(expected = UnsupportedOperationException.class) public void testTreat1() { cb.treat((Join<User, Message>) null, (Class<Message>) null); }
@Test(expected = UnsupportedOperationException.class) public void testTreat2() { cb.treat((CollectionJoin<User, Message>) null, (Class<Message>) null); }
@Test(expected = UnsupportedOperationException.class) public void testTreat3() { cb.treat((SetJoin<User, Message>) null, (Class<Message>) null); }
@Test(expected = UnsupportedOperationException.class) public void testTreat4() { cb.treat((ListJoin<User, Message>) null, (Class<Message>) null); }
@Test(expected = UnsupportedOperationException.class) public void testTreat5() { cb.treat((MapJoin<String, User, Message>) null, (Class<Message>) null); }
@Test(expected = UnsupportedOperationException.class) public void testTreat6() { cb.treat((Path<Object>) null, null); }
@Test(expected = UnsupportedOperationException.class) public void testTreat7() { cb.treat((Root<Object>) null, null); }
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MinijaxRoot extends MinijaxPath<T> implements javax.persistence.criteria.Root<T> { @Override public Set<Join<T, ?>> getJoins() { throw new UnsupportedOperationException(); } MinijaxRoot(final MinijaxEntityType<T> entityType); @Override @SuppressWarnings("unchecked") MinijaxPath<Y> get(final String attributeName); @Override Set<Join<T, ?>> getJoins(); @Override boolean isCorrelated(); @Override From<T, T> getCorrelationParent(); @Override Join<T, Y> join(final SingularAttribute<? super T, Y> attribute); @Override Join<T, Y> join(final SingularAttribute<? super T, Y> attribute, final JoinType jt); @Override CollectionJoin<T, Y> join(final CollectionAttribute<? super T, Y> collection); @Override SetJoin<T, Y> join(final SetAttribute<? super T, Y> set); @Override ListJoin<T, Y> join(final ListAttribute<? super T, Y> list); @Override MapJoin<T, K, V> join(final MapAttribute<? super T, K, V> map); @Override CollectionJoin<T, Y> join(final CollectionAttribute<? super T, Y> collection, final JoinType jt); @Override SetJoin<T, Y> join(final SetAttribute<? super T, Y> set, final JoinType jt); @Override ListJoin<T, Y> join(final ListAttribute<? super T, Y> list, final JoinType jt); @Override MapJoin<T, K, V> join(final MapAttribute<? super T, K, V> map, final JoinType jt); @Override Join<X, Y> join(final String attributeName); @Override CollectionJoin<X, Y> joinCollection(final String attributeName); @Override SetJoin<X, Y> joinSet(final String attributeName); @Override ListJoin<X, Y> joinList(final String attributeName); @Override MapJoin<X, K, V> joinMap(final String attributeName); @Override Join<X, Y> join(final String attributeName, final JoinType jt); @Override CollectionJoin<X, Y> joinCollection(final String attributeName, final JoinType jt); @Override SetJoin<X, Y> joinSet(final String attributeName, final JoinType jt); @Override ListJoin<X, Y> joinList(final String attributeName, final JoinType jt); @Override MapJoin<X, K, V> joinMap(final String attributeName, final JoinType jt); @Override Set<Fetch<T, ?>> getFetches(); @Override Fetch<T, Y> fetch(final SingularAttribute<? super T, Y> attribute); @Override Fetch<T, Y> fetch(final SingularAttribute<? super T, Y> attribute, final JoinType jt); @Override Fetch<T, Y> fetch(final PluralAttribute<? super T, ?, Y> attribute); @Override Fetch<T, Y> fetch(final PluralAttribute<? super T, ?, Y> attribute, final JoinType jt); @Override Fetch<X, Y> fetch(final String attributeName); @Override Fetch<X, Y> fetch(final String attributeName, final JoinType jt); @Override EntityType<T> getModel(); }
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@Test(expected = UnsupportedOperationException.class) public void testgetJoins() { root.getJoins(); }
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MinijaxRoot extends MinijaxPath<T> implements javax.persistence.criteria.Root<T> { @Override public boolean isCorrelated() { throw new UnsupportedOperationException(); } MinijaxRoot(final MinijaxEntityType<T> entityType); @Override @SuppressWarnings("unchecked") MinijaxPath<Y> get(final String attributeName); @Override Set<Join<T, ?>> getJoins(); @Override boolean isCorrelated(); @Override From<T, T> getCorrelationParent(); @Override Join<T, Y> join(final SingularAttribute<? super T, Y> attribute); @Override Join<T, Y> join(final SingularAttribute<? super T, Y> attribute, final JoinType jt); @Override CollectionJoin<T, Y> join(final CollectionAttribute<? super T, Y> collection); @Override SetJoin<T, Y> join(final SetAttribute<? super T, Y> set); @Override ListJoin<T, Y> join(final ListAttribute<? super T, Y> list); @Override MapJoin<T, K, V> join(final MapAttribute<? super T, K, V> map); @Override CollectionJoin<T, Y> join(final CollectionAttribute<? super T, Y> collection, final JoinType jt); @Override SetJoin<T, Y> join(final SetAttribute<? super T, Y> set, final JoinType jt); @Override ListJoin<T, Y> join(final ListAttribute<? super T, Y> list, final JoinType jt); @Override MapJoin<T, K, V> join(final MapAttribute<? super T, K, V> map, final JoinType jt); @Override Join<X, Y> join(final String attributeName); @Override CollectionJoin<X, Y> joinCollection(final String attributeName); @Override SetJoin<X, Y> joinSet(final String attributeName); @Override ListJoin<X, Y> joinList(final String attributeName); @Override MapJoin<X, K, V> joinMap(final String attributeName); @Override Join<X, Y> join(final String attributeName, final JoinType jt); @Override CollectionJoin<X, Y> joinCollection(final String attributeName, final JoinType jt); @Override SetJoin<X, Y> joinSet(final String attributeName, final JoinType jt); @Override ListJoin<X, Y> joinList(final String attributeName, final JoinType jt); @Override MapJoin<X, K, V> joinMap(final String attributeName, final JoinType jt); @Override Set<Fetch<T, ?>> getFetches(); @Override Fetch<T, Y> fetch(final SingularAttribute<? super T, Y> attribute); @Override Fetch<T, Y> fetch(final SingularAttribute<? super T, Y> attribute, final JoinType jt); @Override Fetch<T, Y> fetch(final PluralAttribute<? super T, ?, Y> attribute); @Override Fetch<T, Y> fetch(final PluralAttribute<? super T, ?, Y> attribute, final JoinType jt); @Override Fetch<X, Y> fetch(final String attributeName); @Override Fetch<X, Y> fetch(final String attributeName, final JoinType jt); @Override EntityType<T> getModel(); }
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@Test(expected = UnsupportedOperationException.class) public void testisCorrelated() { root.isCorrelated(); }
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MinijaxRoot extends MinijaxPath<T> implements javax.persistence.criteria.Root<T> { @Override public From<T, T> getCorrelationParent() { throw new UnsupportedOperationException(); } MinijaxRoot(final MinijaxEntityType<T> entityType); @Override @SuppressWarnings("unchecked") MinijaxPath<Y> get(final String attributeName); @Override Set<Join<T, ?>> getJoins(); @Override boolean isCorrelated(); @Override From<T, T> getCorrelationParent(); @Override Join<T, Y> join(final SingularAttribute<? super T, Y> attribute); @Override Join<T, Y> join(final SingularAttribute<? super T, Y> attribute, final JoinType jt); @Override CollectionJoin<T, Y> join(final CollectionAttribute<? super T, Y> collection); @Override SetJoin<T, Y> join(final SetAttribute<? super T, Y> set); @Override ListJoin<T, Y> join(final ListAttribute<? super T, Y> list); @Override MapJoin<T, K, V> join(final MapAttribute<? super T, K, V> map); @Override CollectionJoin<T, Y> join(final CollectionAttribute<? super T, Y> collection, final JoinType jt); @Override SetJoin<T, Y> join(final SetAttribute<? super T, Y> set, final JoinType jt); @Override ListJoin<T, Y> join(final ListAttribute<? super T, Y> list, final JoinType jt); @Override MapJoin<T, K, V> join(final MapAttribute<? super T, K, V> map, final JoinType jt); @Override Join<X, Y> join(final String attributeName); @Override CollectionJoin<X, Y> joinCollection(final String attributeName); @Override SetJoin<X, Y> joinSet(final String attributeName); @Override ListJoin<X, Y> joinList(final String attributeName); @Override MapJoin<X, K, V> joinMap(final String attributeName); @Override Join<X, Y> join(final String attributeName, final JoinType jt); @Override CollectionJoin<X, Y> joinCollection(final String attributeName, final JoinType jt); @Override SetJoin<X, Y> joinSet(final String attributeName, final JoinType jt); @Override ListJoin<X, Y> joinList(final String attributeName, final JoinType jt); @Override MapJoin<X, K, V> joinMap(final String attributeName, final JoinType jt); @Override Set<Fetch<T, ?>> getFetches(); @Override Fetch<T, Y> fetch(final SingularAttribute<? super T, Y> attribute); @Override Fetch<T, Y> fetch(final SingularAttribute<? super T, Y> attribute, final JoinType jt); @Override Fetch<T, Y> fetch(final PluralAttribute<? super T, ?, Y> attribute); @Override Fetch<T, Y> fetch(final PluralAttribute<? super T, ?, Y> attribute, final JoinType jt); @Override Fetch<X, Y> fetch(final String attributeName); @Override Fetch<X, Y> fetch(final String attributeName, final JoinType jt); @Override EntityType<T> getModel(); }
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@Test(expected = UnsupportedOperationException.class) public void testgetCorrelationParent() { root.getCorrelationParent(); }
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MinijaxRoot extends MinijaxPath<T> implements javax.persistence.criteria.Root<T> { @Override public <Y> Join<T, Y> join(final SingularAttribute<? super T, Y> attribute) { throw new UnsupportedOperationException(); } MinijaxRoot(final MinijaxEntityType<T> entityType); @Override @SuppressWarnings("unchecked") MinijaxPath<Y> get(final String attributeName); @Override Set<Join<T, ?>> getJoins(); @Override boolean isCorrelated(); @Override From<T, T> getCorrelationParent(); @Override Join<T, Y> join(final SingularAttribute<? super T, Y> attribute); @Override Join<T, Y> join(final SingularAttribute<? super T, Y> attribute, final JoinType jt); @Override CollectionJoin<T, Y> join(final CollectionAttribute<? super T, Y> collection); @Override SetJoin<T, Y> join(final SetAttribute<? super T, Y> set); @Override ListJoin<T, Y> join(final ListAttribute<? super T, Y> list); @Override MapJoin<T, K, V> join(final MapAttribute<? super T, K, V> map); @Override CollectionJoin<T, Y> join(final CollectionAttribute<? super T, Y> collection, final JoinType jt); @Override SetJoin<T, Y> join(final SetAttribute<? super T, Y> set, final JoinType jt); @Override ListJoin<T, Y> join(final ListAttribute<? super T, Y> list, final JoinType jt); @Override MapJoin<T, K, V> join(final MapAttribute<? super T, K, V> map, final JoinType jt); @Override Join<X, Y> join(final String attributeName); @Override CollectionJoin<X, Y> joinCollection(final String attributeName); @Override SetJoin<X, Y> joinSet(final String attributeName); @Override ListJoin<X, Y> joinList(final String attributeName); @Override MapJoin<X, K, V> joinMap(final String attributeName); @Override Join<X, Y> join(final String attributeName, final JoinType jt); @Override CollectionJoin<X, Y> joinCollection(final String attributeName, final JoinType jt); @Override SetJoin<X, Y> joinSet(final String attributeName, final JoinType jt); @Override ListJoin<X, Y> joinList(final String attributeName, final JoinType jt); @Override MapJoin<X, K, V> joinMap(final String attributeName, final JoinType jt); @Override Set<Fetch<T, ?>> getFetches(); @Override Fetch<T, Y> fetch(final SingularAttribute<? super T, Y> attribute); @Override Fetch<T, Y> fetch(final SingularAttribute<? super T, Y> attribute, final JoinType jt); @Override Fetch<T, Y> fetch(final PluralAttribute<? super T, ?, Y> attribute); @Override Fetch<T, Y> fetch(final PluralAttribute<? super T, ?, Y> attribute, final JoinType jt); @Override Fetch<X, Y> fetch(final String attributeName); @Override Fetch<X, Y> fetch(final String attributeName, final JoinType jt); @Override EntityType<T> getModel(); }
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@Test(expected = UnsupportedOperationException.class) @SuppressWarnings({ "rawtypes", "unchecked" }) public void testjoin1() { root.join((SingularAttribute) null); }
@Test(expected = UnsupportedOperationException.class) @SuppressWarnings({ "rawtypes", "unchecked" }) public void testjoin2() { root.join((SingularAttribute) null, (JoinType) null); }
@Test(expected = UnsupportedOperationException.class) @SuppressWarnings({ "rawtypes", "unchecked" }) public void testjoin3() { root.join((CollectionAttribute) null); }
@Test(expected = UnsupportedOperationException.class) @SuppressWarnings({ "rawtypes", "unchecked" }) public void testjoin4() { root.join((SetAttribute) null); }
@Test(expected = UnsupportedOperationException.class) @SuppressWarnings({ "rawtypes", "unchecked" }) public void testjoin5() { root.join((ListAttribute) null); }
@Test(expected = UnsupportedOperationException.class) @SuppressWarnings({ "rawtypes", "unchecked" }) public void testjoin6() { root.join((MapAttribute) null); }
@Test(expected = UnsupportedOperationException.class) @SuppressWarnings({ "rawtypes", "unchecked" }) public void testjoin7() { root.join((CollectionAttribute) null, (JoinType) null); }
@Test(expected = UnsupportedOperationException.class) @SuppressWarnings({ "rawtypes", "unchecked" }) public void testjoin8() { root.join((SetAttribute) null, (JoinType) null); }
@Test(expected = UnsupportedOperationException.class) @SuppressWarnings({ "rawtypes", "unchecked" }) public void testjoin9() { root.join((ListAttribute) null, (JoinType) null); }
@Test(expected = UnsupportedOperationException.class) @SuppressWarnings({ "rawtypes", "unchecked" }) public void testjoin10() { root.join((MapAttribute) null, (JoinType) null); }
@Test(expected = UnsupportedOperationException.class) public void testjoin11() { root.join((String) null); }
@Test(expected = UnsupportedOperationException.class) public void testjoin12() { root.join((String) null, (JoinType) null); }
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EntityUtils { @SuppressWarnings("unchecked") public static <T> T readEntity( final Class<T> entityClass, final Type genericType, final Annotation[] annotations, final MediaType mediaType, final MinijaxRequestContext context, final InputStream entityStream) throws IOException { if (entityClass == InputStream.class) { return (T) entityStream; } if (entityClass == String.class) { return (T) IOUtils.toString(entityStream, StandardCharsets.UTF_8); } if (context != null) { final MinijaxApplicationContext appCtx = context.getApplicationContext(); final MessageBodyReader<T> reader = appCtx.getProviders().getMessageBodyReader( entityClass, genericType, annotations, mediaType); if (reader != null) { return reader.readFrom( entityClass, genericType, annotations, mediaType, context.getHeaders(), entityStream); } } throw new MinijaxException("Unknown entity type (" + entityClass + ")"); } EntityUtils(); @SuppressWarnings("unchecked") static T readEntity(
final Class<T> entityClass,
final Type genericType,
final Annotation[] annotations,
final MediaType mediaType,
final MinijaxRequestContext context,
final InputStream entityStream); @SuppressWarnings({ "rawtypes", "unchecked" }) static void writeEntity(
final Object entity,
final MediaType mediaType,
final MinijaxApplicationContext context,
final OutputStream outputStream); static InputStream writeEntity(
final Entity<T> entity,
final MinijaxApplicationContext context); }
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@Test(expected = MinijaxException.class) public void testReadUnknownType() throws IOException { final InputStream input = new ByteArrayInputStream("hello".getBytes()); EntityUtils.readEntity(Minijax.class, null, null, null, null, input); }
@Test public void testReadInputStream() throws IOException { final InputStream input = new ByteArrayInputStream(new byte[1]); final InputStream result = EntityUtils.readEntity(InputStream.class, null, null, null, null, input); assertEquals(input, result); }
@Test public void testReadCustomType() throws IOException { final InputStream input = new ByteArrayInputStream(new byte[1]); final InputStream result = EntityUtils.readEntity(InputStream.class, null, null, null, null, input); assertEquals(input, result); }
@Test public void testReadString() throws IOException { final InputStream input = new ByteArrayInputStream("hello".getBytes()); final String result = EntityUtils.readEntity(String.class, null, null, null, null, input); assertEquals("hello", result); }
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MinijaxRoot extends MinijaxPath<T> implements javax.persistence.criteria.Root<T> { @Override public <X, Y> CollectionJoin<X, Y> joinCollection(final String attributeName) { throw new UnsupportedOperationException(); } MinijaxRoot(final MinijaxEntityType<T> entityType); @Override @SuppressWarnings("unchecked") MinijaxPath<Y> get(final String attributeName); @Override Set<Join<T, ?>> getJoins(); @Override boolean isCorrelated(); @Override From<T, T> getCorrelationParent(); @Override Join<T, Y> join(final SingularAttribute<? super T, Y> attribute); @Override Join<T, Y> join(final SingularAttribute<? super T, Y> attribute, final JoinType jt); @Override CollectionJoin<T, Y> join(final CollectionAttribute<? super T, Y> collection); @Override SetJoin<T, Y> join(final SetAttribute<? super T, Y> set); @Override ListJoin<T, Y> join(final ListAttribute<? super T, Y> list); @Override MapJoin<T, K, V> join(final MapAttribute<? super T, K, V> map); @Override CollectionJoin<T, Y> join(final CollectionAttribute<? super T, Y> collection, final JoinType jt); @Override SetJoin<T, Y> join(final SetAttribute<? super T, Y> set, final JoinType jt); @Override ListJoin<T, Y> join(final ListAttribute<? super T, Y> list, final JoinType jt); @Override MapJoin<T, K, V> join(final MapAttribute<? super T, K, V> map, final JoinType jt); @Override Join<X, Y> join(final String attributeName); @Override CollectionJoin<X, Y> joinCollection(final String attributeName); @Override SetJoin<X, Y> joinSet(final String attributeName); @Override ListJoin<X, Y> joinList(final String attributeName); @Override MapJoin<X, K, V> joinMap(final String attributeName); @Override Join<X, Y> join(final String attributeName, final JoinType jt); @Override CollectionJoin<X, Y> joinCollection(final String attributeName, final JoinType jt); @Override SetJoin<X, Y> joinSet(final String attributeName, final JoinType jt); @Override ListJoin<X, Y> joinList(final String attributeName, final JoinType jt); @Override MapJoin<X, K, V> joinMap(final String attributeName, final JoinType jt); @Override Set<Fetch<T, ?>> getFetches(); @Override Fetch<T, Y> fetch(final SingularAttribute<? super T, Y> attribute); @Override Fetch<T, Y> fetch(final SingularAttribute<? super T, Y> attribute, final JoinType jt); @Override Fetch<T, Y> fetch(final PluralAttribute<? super T, ?, Y> attribute); @Override Fetch<T, Y> fetch(final PluralAttribute<? super T, ?, Y> attribute, final JoinType jt); @Override Fetch<X, Y> fetch(final String attributeName); @Override Fetch<X, Y> fetch(final String attributeName, final JoinType jt); @Override EntityType<T> getModel(); }
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@Test(expected = UnsupportedOperationException.class) public void testjoinCollection1() { root.joinCollection(null); }
@Test(expected = UnsupportedOperationException.class) public void testjoinCollection2() { root.joinCollection((String) null, (JoinType) null); }
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MinijaxRoot extends MinijaxPath<T> implements javax.persistence.criteria.Root<T> { @Override public <X, Y> SetJoin<X, Y> joinSet(final String attributeName) { throw new UnsupportedOperationException(); } MinijaxRoot(final MinijaxEntityType<T> entityType); @Override @SuppressWarnings("unchecked") MinijaxPath<Y> get(final String attributeName); @Override Set<Join<T, ?>> getJoins(); @Override boolean isCorrelated(); @Override From<T, T> getCorrelationParent(); @Override Join<T, Y> join(final SingularAttribute<? super T, Y> attribute); @Override Join<T, Y> join(final SingularAttribute<? super T, Y> attribute, final JoinType jt); @Override CollectionJoin<T, Y> join(final CollectionAttribute<? super T, Y> collection); @Override SetJoin<T, Y> join(final SetAttribute<? super T, Y> set); @Override ListJoin<T, Y> join(final ListAttribute<? super T, Y> list); @Override MapJoin<T, K, V> join(final MapAttribute<? super T, K, V> map); @Override CollectionJoin<T, Y> join(final CollectionAttribute<? super T, Y> collection, final JoinType jt); @Override SetJoin<T, Y> join(final SetAttribute<? super T, Y> set, final JoinType jt); @Override ListJoin<T, Y> join(final ListAttribute<? super T, Y> list, final JoinType jt); @Override MapJoin<T, K, V> join(final MapAttribute<? super T, K, V> map, final JoinType jt); @Override Join<X, Y> join(final String attributeName); @Override CollectionJoin<X, Y> joinCollection(final String attributeName); @Override SetJoin<X, Y> joinSet(final String attributeName); @Override ListJoin<X, Y> joinList(final String attributeName); @Override MapJoin<X, K, V> joinMap(final String attributeName); @Override Join<X, Y> join(final String attributeName, final JoinType jt); @Override CollectionJoin<X, Y> joinCollection(final String attributeName, final JoinType jt); @Override SetJoin<X, Y> joinSet(final String attributeName, final JoinType jt); @Override ListJoin<X, Y> joinList(final String attributeName, final JoinType jt); @Override MapJoin<X, K, V> joinMap(final String attributeName, final JoinType jt); @Override Set<Fetch<T, ?>> getFetches(); @Override Fetch<T, Y> fetch(final SingularAttribute<? super T, Y> attribute); @Override Fetch<T, Y> fetch(final SingularAttribute<? super T, Y> attribute, final JoinType jt); @Override Fetch<T, Y> fetch(final PluralAttribute<? super T, ?, Y> attribute); @Override Fetch<T, Y> fetch(final PluralAttribute<? super T, ?, Y> attribute, final JoinType jt); @Override Fetch<X, Y> fetch(final String attributeName); @Override Fetch<X, Y> fetch(final String attributeName, final JoinType jt); @Override EntityType<T> getModel(); }
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@Test(expected = UnsupportedOperationException.class) public void testjoinSet1() { root.joinSet(null); }
@Test(expected = UnsupportedOperationException.class) public void testjoinSet2() { root.joinSet((String) null, (JoinType) null); }
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MinijaxRoot extends MinijaxPath<T> implements javax.persistence.criteria.Root<T> { @Override public <X, Y> ListJoin<X, Y> joinList(final String attributeName) { throw new UnsupportedOperationException(); } MinijaxRoot(final MinijaxEntityType<T> entityType); @Override @SuppressWarnings("unchecked") MinijaxPath<Y> get(final String attributeName); @Override Set<Join<T, ?>> getJoins(); @Override boolean isCorrelated(); @Override From<T, T> getCorrelationParent(); @Override Join<T, Y> join(final SingularAttribute<? super T, Y> attribute); @Override Join<T, Y> join(final SingularAttribute<? super T, Y> attribute, final JoinType jt); @Override CollectionJoin<T, Y> join(final CollectionAttribute<? super T, Y> collection); @Override SetJoin<T, Y> join(final SetAttribute<? super T, Y> set); @Override ListJoin<T, Y> join(final ListAttribute<? super T, Y> list); @Override MapJoin<T, K, V> join(final MapAttribute<? super T, K, V> map); @Override CollectionJoin<T, Y> join(final CollectionAttribute<? super T, Y> collection, final JoinType jt); @Override SetJoin<T, Y> join(final SetAttribute<? super T, Y> set, final JoinType jt); @Override ListJoin<T, Y> join(final ListAttribute<? super T, Y> list, final JoinType jt); @Override MapJoin<T, K, V> join(final MapAttribute<? super T, K, V> map, final JoinType jt); @Override Join<X, Y> join(final String attributeName); @Override CollectionJoin<X, Y> joinCollection(final String attributeName); @Override SetJoin<X, Y> joinSet(final String attributeName); @Override ListJoin<X, Y> joinList(final String attributeName); @Override MapJoin<X, K, V> joinMap(final String attributeName); @Override Join<X, Y> join(final String attributeName, final JoinType jt); @Override CollectionJoin<X, Y> joinCollection(final String attributeName, final JoinType jt); @Override SetJoin<X, Y> joinSet(final String attributeName, final JoinType jt); @Override ListJoin<X, Y> joinList(final String attributeName, final JoinType jt); @Override MapJoin<X, K, V> joinMap(final String attributeName, final JoinType jt); @Override Set<Fetch<T, ?>> getFetches(); @Override Fetch<T, Y> fetch(final SingularAttribute<? super T, Y> attribute); @Override Fetch<T, Y> fetch(final SingularAttribute<? super T, Y> attribute, final JoinType jt); @Override Fetch<T, Y> fetch(final PluralAttribute<? super T, ?, Y> attribute); @Override Fetch<T, Y> fetch(final PluralAttribute<? super T, ?, Y> attribute, final JoinType jt); @Override Fetch<X, Y> fetch(final String attributeName); @Override Fetch<X, Y> fetch(final String attributeName, final JoinType jt); @Override EntityType<T> getModel(); }
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@Test(expected = UnsupportedOperationException.class) public void testjoinList1() { root.joinList(null); }
@Test(expected = UnsupportedOperationException.class) public void testjoinList2() { root.joinList((String) null, (JoinType) null); }
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MinijaxRoot extends MinijaxPath<T> implements javax.persistence.criteria.Root<T> { @Override public <X, K, V> MapJoin<X, K, V> joinMap(final String attributeName) { throw new UnsupportedOperationException(); } MinijaxRoot(final MinijaxEntityType<T> entityType); @Override @SuppressWarnings("unchecked") MinijaxPath<Y> get(final String attributeName); @Override Set<Join<T, ?>> getJoins(); @Override boolean isCorrelated(); @Override From<T, T> getCorrelationParent(); @Override Join<T, Y> join(final SingularAttribute<? super T, Y> attribute); @Override Join<T, Y> join(final SingularAttribute<? super T, Y> attribute, final JoinType jt); @Override CollectionJoin<T, Y> join(final CollectionAttribute<? super T, Y> collection); @Override SetJoin<T, Y> join(final SetAttribute<? super T, Y> set); @Override ListJoin<T, Y> join(final ListAttribute<? super T, Y> list); @Override MapJoin<T, K, V> join(final MapAttribute<? super T, K, V> map); @Override CollectionJoin<T, Y> join(final CollectionAttribute<? super T, Y> collection, final JoinType jt); @Override SetJoin<T, Y> join(final SetAttribute<? super T, Y> set, final JoinType jt); @Override ListJoin<T, Y> join(final ListAttribute<? super T, Y> list, final JoinType jt); @Override MapJoin<T, K, V> join(final MapAttribute<? super T, K, V> map, final JoinType jt); @Override Join<X, Y> join(final String attributeName); @Override CollectionJoin<X, Y> joinCollection(final String attributeName); @Override SetJoin<X, Y> joinSet(final String attributeName); @Override ListJoin<X, Y> joinList(final String attributeName); @Override MapJoin<X, K, V> joinMap(final String attributeName); @Override Join<X, Y> join(final String attributeName, final JoinType jt); @Override CollectionJoin<X, Y> joinCollection(final String attributeName, final JoinType jt); @Override SetJoin<X, Y> joinSet(final String attributeName, final JoinType jt); @Override ListJoin<X, Y> joinList(final String attributeName, final JoinType jt); @Override MapJoin<X, K, V> joinMap(final String attributeName, final JoinType jt); @Override Set<Fetch<T, ?>> getFetches(); @Override Fetch<T, Y> fetch(final SingularAttribute<? super T, Y> attribute); @Override Fetch<T, Y> fetch(final SingularAttribute<? super T, Y> attribute, final JoinType jt); @Override Fetch<T, Y> fetch(final PluralAttribute<? super T, ?, Y> attribute); @Override Fetch<T, Y> fetch(final PluralAttribute<? super T, ?, Y> attribute, final JoinType jt); @Override Fetch<X, Y> fetch(final String attributeName); @Override Fetch<X, Y> fetch(final String attributeName, final JoinType jt); @Override EntityType<T> getModel(); }
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@Test(expected = UnsupportedOperationException.class) public void testjoinMap1() { root.joinMap(null); }
@Test(expected = UnsupportedOperationException.class) public void testjoinMap2() { root.joinMap((String) null, (JoinType) null); }
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MinijaxRoot extends MinijaxPath<T> implements javax.persistence.criteria.Root<T> { @Override public Set<Fetch<T, ?>> getFetches() { throw new UnsupportedOperationException(); } MinijaxRoot(final MinijaxEntityType<T> entityType); @Override @SuppressWarnings("unchecked") MinijaxPath<Y> get(final String attributeName); @Override Set<Join<T, ?>> getJoins(); @Override boolean isCorrelated(); @Override From<T, T> getCorrelationParent(); @Override Join<T, Y> join(final SingularAttribute<? super T, Y> attribute); @Override Join<T, Y> join(final SingularAttribute<? super T, Y> attribute, final JoinType jt); @Override CollectionJoin<T, Y> join(final CollectionAttribute<? super T, Y> collection); @Override SetJoin<T, Y> join(final SetAttribute<? super T, Y> set); @Override ListJoin<T, Y> join(final ListAttribute<? super T, Y> list); @Override MapJoin<T, K, V> join(final MapAttribute<? super T, K, V> map); @Override CollectionJoin<T, Y> join(final CollectionAttribute<? super T, Y> collection, final JoinType jt); @Override SetJoin<T, Y> join(final SetAttribute<? super T, Y> set, final JoinType jt); @Override ListJoin<T, Y> join(final ListAttribute<? super T, Y> list, final JoinType jt); @Override MapJoin<T, K, V> join(final MapAttribute<? super T, K, V> map, final JoinType jt); @Override Join<X, Y> join(final String attributeName); @Override CollectionJoin<X, Y> joinCollection(final String attributeName); @Override SetJoin<X, Y> joinSet(final String attributeName); @Override ListJoin<X, Y> joinList(final String attributeName); @Override MapJoin<X, K, V> joinMap(final String attributeName); @Override Join<X, Y> join(final String attributeName, final JoinType jt); @Override CollectionJoin<X, Y> joinCollection(final String attributeName, final JoinType jt); @Override SetJoin<X, Y> joinSet(final String attributeName, final JoinType jt); @Override ListJoin<X, Y> joinList(final String attributeName, final JoinType jt); @Override MapJoin<X, K, V> joinMap(final String attributeName, final JoinType jt); @Override Set<Fetch<T, ?>> getFetches(); @Override Fetch<T, Y> fetch(final SingularAttribute<? super T, Y> attribute); @Override Fetch<T, Y> fetch(final SingularAttribute<? super T, Y> attribute, final JoinType jt); @Override Fetch<T, Y> fetch(final PluralAttribute<? super T, ?, Y> attribute); @Override Fetch<T, Y> fetch(final PluralAttribute<? super T, ?, Y> attribute, final JoinType jt); @Override Fetch<X, Y> fetch(final String attributeName); @Override Fetch<X, Y> fetch(final String attributeName, final JoinType jt); @Override EntityType<T> getModel(); }
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@Test(expected = UnsupportedOperationException.class) public void testgetFetches() { root.getFetches(); }
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MinijaxRoot extends MinijaxPath<T> implements javax.persistence.criteria.Root<T> { @Override public <Y> Fetch<T, Y> fetch(final SingularAttribute<? super T, Y> attribute) { throw new UnsupportedOperationException(); } MinijaxRoot(final MinijaxEntityType<T> entityType); @Override @SuppressWarnings("unchecked") MinijaxPath<Y> get(final String attributeName); @Override Set<Join<T, ?>> getJoins(); @Override boolean isCorrelated(); @Override From<T, T> getCorrelationParent(); @Override Join<T, Y> join(final SingularAttribute<? super T, Y> attribute); @Override Join<T, Y> join(final SingularAttribute<? super T, Y> attribute, final JoinType jt); @Override CollectionJoin<T, Y> join(final CollectionAttribute<? super T, Y> collection); @Override SetJoin<T, Y> join(final SetAttribute<? super T, Y> set); @Override ListJoin<T, Y> join(final ListAttribute<? super T, Y> list); @Override MapJoin<T, K, V> join(final MapAttribute<? super T, K, V> map); @Override CollectionJoin<T, Y> join(final CollectionAttribute<? super T, Y> collection, final JoinType jt); @Override SetJoin<T, Y> join(final SetAttribute<? super T, Y> set, final JoinType jt); @Override ListJoin<T, Y> join(final ListAttribute<? super T, Y> list, final JoinType jt); @Override MapJoin<T, K, V> join(final MapAttribute<? super T, K, V> map, final JoinType jt); @Override Join<X, Y> join(final String attributeName); @Override CollectionJoin<X, Y> joinCollection(final String attributeName); @Override SetJoin<X, Y> joinSet(final String attributeName); @Override ListJoin<X, Y> joinList(final String attributeName); @Override MapJoin<X, K, V> joinMap(final String attributeName); @Override Join<X, Y> join(final String attributeName, final JoinType jt); @Override CollectionJoin<X, Y> joinCollection(final String attributeName, final JoinType jt); @Override SetJoin<X, Y> joinSet(final String attributeName, final JoinType jt); @Override ListJoin<X, Y> joinList(final String attributeName, final JoinType jt); @Override MapJoin<X, K, V> joinMap(final String attributeName, final JoinType jt); @Override Set<Fetch<T, ?>> getFetches(); @Override Fetch<T, Y> fetch(final SingularAttribute<? super T, Y> attribute); @Override Fetch<T, Y> fetch(final SingularAttribute<? super T, Y> attribute, final JoinType jt); @Override Fetch<T, Y> fetch(final PluralAttribute<? super T, ?, Y> attribute); @Override Fetch<T, Y> fetch(final PluralAttribute<? super T, ?, Y> attribute, final JoinType jt); @Override Fetch<X, Y> fetch(final String attributeName); @Override Fetch<X, Y> fetch(final String attributeName, final JoinType jt); @Override EntityType<T> getModel(); }
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@Test(expected = UnsupportedOperationException.class) @SuppressWarnings({ "rawtypes", "unchecked" }) public void testfetch1() { root.fetch((SingularAttribute) null); }
@Test(expected = UnsupportedOperationException.class) @SuppressWarnings({ "rawtypes", "unchecked" }) public void testfetch2() { root.fetch((SingularAttribute) null, (JoinType) null); }
@Test(expected = UnsupportedOperationException.class) @SuppressWarnings({ "rawtypes", "unchecked" }) public void testfetch3() { root.fetch((PluralAttribute) null); }
@Test(expected = UnsupportedOperationException.class) @SuppressWarnings({ "rawtypes", "unchecked" }) public void testfetch4() { root.fetch((PluralAttribute) null, (JoinType) null); }
@Test(expected = UnsupportedOperationException.class) public void testfetch5() { root.fetch((String) null); }
@Test(expected = UnsupportedOperationException.class) public void testfetch6() { root.fetch((String) null, (JoinType) null); }
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MinijaxRoot extends MinijaxPath<T> implements javax.persistence.criteria.Root<T> { @Override public EntityType<T> getModel() { throw new UnsupportedOperationException(); } MinijaxRoot(final MinijaxEntityType<T> entityType); @Override @SuppressWarnings("unchecked") MinijaxPath<Y> get(final String attributeName); @Override Set<Join<T, ?>> getJoins(); @Override boolean isCorrelated(); @Override From<T, T> getCorrelationParent(); @Override Join<T, Y> join(final SingularAttribute<? super T, Y> attribute); @Override Join<T, Y> join(final SingularAttribute<? super T, Y> attribute, final JoinType jt); @Override CollectionJoin<T, Y> join(final CollectionAttribute<? super T, Y> collection); @Override SetJoin<T, Y> join(final SetAttribute<? super T, Y> set); @Override ListJoin<T, Y> join(final ListAttribute<? super T, Y> list); @Override MapJoin<T, K, V> join(final MapAttribute<? super T, K, V> map); @Override CollectionJoin<T, Y> join(final CollectionAttribute<? super T, Y> collection, final JoinType jt); @Override SetJoin<T, Y> join(final SetAttribute<? super T, Y> set, final JoinType jt); @Override ListJoin<T, Y> join(final ListAttribute<? super T, Y> list, final JoinType jt); @Override MapJoin<T, K, V> join(final MapAttribute<? super T, K, V> map, final JoinType jt); @Override Join<X, Y> join(final String attributeName); @Override CollectionJoin<X, Y> joinCollection(final String attributeName); @Override SetJoin<X, Y> joinSet(final String attributeName); @Override ListJoin<X, Y> joinList(final String attributeName); @Override MapJoin<X, K, V> joinMap(final String attributeName); @Override Join<X, Y> join(final String attributeName, final JoinType jt); @Override CollectionJoin<X, Y> joinCollection(final String attributeName, final JoinType jt); @Override SetJoin<X, Y> joinSet(final String attributeName, final JoinType jt); @Override ListJoin<X, Y> joinList(final String attributeName, final JoinType jt); @Override MapJoin<X, K, V> joinMap(final String attributeName, final JoinType jt); @Override Set<Fetch<T, ?>> getFetches(); @Override Fetch<T, Y> fetch(final SingularAttribute<? super T, Y> attribute); @Override Fetch<T, Y> fetch(final SingularAttribute<? super T, Y> attribute, final JoinType jt); @Override Fetch<T, Y> fetch(final PluralAttribute<? super T, ?, Y> attribute); @Override Fetch<T, Y> fetch(final PluralAttribute<? super T, ?, Y> attribute, final JoinType jt); @Override Fetch<X, Y> fetch(final String attributeName); @Override Fetch<X, Y> fetch(final String attributeName, final JoinType jt); @Override EntityType<T> getModel(); }
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@Test(expected = UnsupportedOperationException.class) public void testgetModel() { root.getModel(); }
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MinijaxASAdmin { @GET public static String hello() { return "Hello world!"; } @GET static String hello(); static void main(final String[] args); }
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@Test public void testHello() { assertEquals("Hello world!", target("/").request().get(String.class)); }
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JsonMapConverter implements AttributeConverter<Map<String, Object>, String> { @Override @SuppressWarnings("unchecked") public Map<String, Object> convertToEntityAttribute(final String str) { if (str == null || str.isEmpty()) { return null; } try { return Json.getObjectMapper().readValue(str, Map.class); } catch (final IOException ex) { throw new MinijaxException(ex.getMessage(), ex); } } @Override String convertToDatabaseColumn(final Map<String, Object> map); @Override @SuppressWarnings("unchecked") Map<String, Object> convertToEntityAttribute(final String str); }
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@Test public void testEmptyString() { final JsonMapConverter c = new JsonMapConverter(); assertNull(c.convertToEntityAttribute("")); }
@Test(expected = MinijaxException.class) public void testInvalidJsonParse() { final JsonMapConverter c = new JsonMapConverter(); c.convertToEntityAttribute("{"); }
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JsonMapConverter implements AttributeConverter<Map<String, Object>, String> { @Override public String convertToDatabaseColumn(final Map<String, Object> map) { if (map == null) { return null; } try { return Json.getObjectMapper().writeValueAsString(map); } catch (final JsonProcessingException ex) { throw new MinijaxException(ex.getMessage(), ex); } } @Override String convertToDatabaseColumn(final Map<String, Object> map); @Override @SuppressWarnings("unchecked") Map<String, Object> convertToEntityAttribute(final String str); }
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@Test(expected = MinijaxException.class) public void testInvalidJsonWrite() { final JsonMapConverter c = new JsonMapConverter(); final Map<String, Object> m1 = new HashMap<>(); m1.put("a", new Object()); c.convertToDatabaseColumn(m1); }
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UrlConverter implements AttributeConverter<URL, String> { @Override public URL convertToEntityAttribute(final String str) { if (str == null) { return null; } try { return new URL(str); } catch (final MalformedURLException ex) { throw new MinijaxException(ex.getMessage(), ex); } } @Override String convertToDatabaseColumn(final URL url); @Override URL convertToEntityAttribute(final String str); }
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@Test(expected = MinijaxException.class) public void testMalformedUrl() throws MalformedURLException { final UrlConverter c = new UrlConverter(); final String str = "! bad url !"; c.convertToEntityAttribute(str); }
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PasswordChangeRequest extends DefaultBaseEntity { public void setCode(final String code) { this.code = code; } UUID getUserId(); void setUser(final SecurityUser user); String getCode(); void setCode(final String code); }
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@Test public void testValidateNullCode() { final PasswordChangeRequest pcr = new PasswordChangeRequest(); pcr.setCode(null); assertEquals(1, validator.validate(pcr).size()); }
@Test public void testValidateEmptyCode() { final PasswordChangeRequest pcr = new PasswordChangeRequest(); pcr.setCode(""); assertEquals(2, validator.validate(pcr).size()); }
@Test public void testValidateTooShortCode() { final PasswordChangeRequest pcr = new PasswordChangeRequest(); pcr.setCode("01234567890123456789"); assertEquals(2, validator.validate(pcr).size()); }
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UserSession extends DefaultBaseEntity { public void setUser(final SecurityUser user) { userId = user.getId(); this.user = user; } UUID getUserId(); SecurityUser getUser(); void setUser(final SecurityUser user); }
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@Test public void testValidate() { final UserSession s = new UserSession(); s.setUser(new User()); assertTrue(validator.validate(s).isEmpty()); }
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ApiKey extends DefaultBaseEntity { public void setValue(final String value) { this.value = value; } UUID getUserId(); void setUser(final SecurityUser user); String getName(); void setName(final String name); String getValue(); void setValue(final String value); }
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@Test public void testValidateNullCode() { final ApiKey apiKey = new ApiKey(); apiKey.setValue(null); assertEquals(1, validator.validate(apiKey).size()); }
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Security implements SecurityContext { public void requireLogin() { if (!isLoggedIn()) { throw new NotAuthorizedException(Response.status(Status.UNAUTHORIZED).build()); } } @Inject @SuppressWarnings("unchecked") Security(
final SecurityDao dao,
@Context final Configuration configuration,
@HeaderParam(AUTHORIZATION) final String authorization,
@CookieParam(COOKIE_NAME) final String cookie); Class<SecurityUser> getUserClass(); @Override @SuppressWarnings("unchecked") T getUserPrincipal(); boolean isLoggedIn(); void requireLogin(); String getSessionToken(); LoginResult login(final String email, final String password); NewCookie loginAs(final SecurityUser candidate); NewCookie logout(); ChangePasswordResult changePassword(final String oldPassword, final String newPassword, final String confirmNewPassword); String forgotPassword(final SecurityUser user); ResetPasswordResult resetPassword(final String resetId, final String newPassword, final String confirmNewPassword); @Override boolean isUserInRole(final String role); @Override boolean isSecure(); @Override String getAuthenticationScheme(); static final int MINIMUM_PASSWORD_LENGTH; static final String COOKIE_NAME; }
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@Test(expected = NotAuthorizedException.class) public void testAnonymousRequireLogin() { final SecurityDao dao = mock(SecurityDao.class); final Configuration config = mock(Configuration.class); final Security<User> security = new Security<>(dao, config, null, null); security.requireLogin(); }
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Security implements SecurityContext { void validateSession(final String token) { if (!Objects.equals(token, getSessionToken())) { throw new BadRequestException("Invalid session ID"); } } @Inject @SuppressWarnings("unchecked") Security(
final SecurityDao dao,
@Context final Configuration configuration,
@HeaderParam(AUTHORIZATION) final String authorization,
@CookieParam(COOKIE_NAME) final String cookie); Class<SecurityUser> getUserClass(); @Override @SuppressWarnings("unchecked") T getUserPrincipal(); boolean isLoggedIn(); void requireLogin(); String getSessionToken(); LoginResult login(final String email, final String password); NewCookie loginAs(final SecurityUser candidate); NewCookie logout(); ChangePasswordResult changePassword(final String oldPassword, final String newPassword, final String confirmNewPassword); String forgotPassword(final SecurityUser user); ResetPasswordResult resetPassword(final String resetId, final String newPassword, final String confirmNewPassword); @Override boolean isUserInRole(final String role); @Override boolean isSecure(); @Override String getAuthenticationScheme(); static final int MINIMUM_PASSWORD_LENGTH; static final String COOKIE_NAME; }
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@Test(expected = NotAuthorizedException.class) public void testAnonymousValidateSession() { final SecurityDao dao = mock(SecurityDao.class); final Configuration config = mock(Configuration.class); final Security<User> security = new Security<>(dao, config, null, null); security.validateSession("foo"); }
@Test(expected = BadRequestException.class) public void testInvalidSessionToken() { final User user = new User(); final UserSession session = new UserSession(); session.setUser(user); final String cookie = session.getId().toString(); final SecurityDao dao = mock(SecurityDao.class); when(dao.read(eq(UserSession.class), eq(session.getId()))).thenReturn(session); when(dao.read(eq(User.class), eq(user.getId()))).thenReturn(user); final Configuration config = mock(Configuration.class); when(config.getProperty(eq(MinijaxProperties.SECURITY_USER_CLASS))).thenReturn(User.class); final Security<User> security = new Security<>(dao, config, null, cookie); security.validateSession("not-the-right-token"); }
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Security implements SecurityContext { public LoginResult login(final String email, final String password) { final SecurityUser candidate = dao.findUserByEmail(userClass, email); if (candidate == null) { return LoginResult.NOT_FOUND; } if (candidate.getPasswordHash() == null) { return LoginResult.INVALID; } if (!BCrypt.checkpw(password, candidate.getPasswordHash())) { return LoginResult.INCORRECT; } return new LoginResult(loginAs(candidate)); } @Inject @SuppressWarnings("unchecked") Security(
final SecurityDao dao,
@Context final Configuration configuration,
@HeaderParam(AUTHORIZATION) final String authorization,
@CookieParam(COOKIE_NAME) final String cookie); Class<SecurityUser> getUserClass(); @Override @SuppressWarnings("unchecked") T getUserPrincipal(); boolean isLoggedIn(); void requireLogin(); String getSessionToken(); LoginResult login(final String email, final String password); NewCookie loginAs(final SecurityUser candidate); NewCookie logout(); ChangePasswordResult changePassword(final String oldPassword, final String newPassword, final String confirmNewPassword); String forgotPassword(final SecurityUser user); ResetPasswordResult resetPassword(final String resetId, final String newPassword, final String confirmNewPassword); @Override boolean isUserInRole(final String role); @Override boolean isSecure(); @Override String getAuthenticationScheme(); static final int MINIMUM_PASSWORD_LENGTH; static final String COOKIE_NAME; }
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@Test public void testLogin() { final User user = new User(); user.setPassword("testtest"); final SecurityDao dao = mock(SecurityDao.class); when(dao.findUserByEmail(eq(User.class), eq("user@example.com"))).thenReturn(user); final Configuration config = mock(Configuration.class); when(config.getProperty(eq(MinijaxProperties.SECURITY_USER_CLASS))).thenReturn(User.class); final Security<User> security = new Security<>(dao, config, null, null); final LoginResult result = security.login("user@example.com", "testtest"); final NewCookie cookie = result.getCookie(); assertNotNull(cookie); }
@Test public void testLoginUserNotFound() { final SecurityDao dao = mock(SecurityDao.class); when(dao.findUserByEmail(any(), any())).thenReturn(null); final Configuration config = mock(Configuration.class); when(config.getProperty(eq(MinijaxProperties.SECURITY_USER_CLASS))).thenReturn(User.class); final Security<User> security = new Security<>(dao, config, null, null); final LoginResult result = security.login("user@example.com", "testtest"); assertEquals(LoginResult.Status.NOT_FOUND, result.getStatus()); }
@Test public void testLoginPasswordNotSet() { final User user = new User(); final SecurityDao dao = mock(SecurityDao.class); when(dao.findUserByEmail(eq(User.class), eq("user@example.com"))).thenReturn(user); final Configuration config = mock(Configuration.class); when(config.getProperty(eq(MinijaxProperties.SECURITY_USER_CLASS))).thenReturn(User.class); final Security<User> security = new Security<>(dao, config, null, null); final LoginResult result = security.login("user@example.com", "testtest"); assertEquals(LoginResult.Status.INVALID, result.getStatus()); }
@Test public void testLoginIncorrectPassword() { final User user = new User(); user.setPassword("testtest"); final SecurityDao dao = mock(SecurityDao.class); when(dao.findUserByEmail(eq(User.class), eq("user@example.com"))).thenReturn(user); final Configuration config = mock(Configuration.class); when(config.getProperty(eq(MinijaxProperties.SECURITY_USER_CLASS))).thenReturn(User.class); final Security<User> security = new Security<>(dao, config, null, null); final LoginResult result = security.login("user@example.com", "wrong-password"); assertEquals(LoginResult.Status.INCORRECT, result.getStatus()); }
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EntityUtils { @SuppressWarnings({ "rawtypes", "unchecked" }) public static void writeEntity( final Object entity, final MediaType mediaType, final MinijaxApplicationContext context, final OutputStream outputStream) throws IOException { if (entity == null) { return; } if (entity instanceof byte[]) { outputStream.write((byte[]) entity); return; } if (entity instanceof InputStream) { IOUtils.copy((InputStream) entity, outputStream); return; } if (entity instanceof String) { outputStream.write(((String) entity).getBytes(StandardCharsets.UTF_8)); return; } if (entity instanceof Form) { final String str = UrlUtils.urlEncodeMultivaluedParams(((Form) entity).asMap()); outputStream.write(str.getBytes(StandardCharsets.UTF_8)); return; } if (entity instanceof Multipart) { MultipartUtils.serializeMultipartForm((Multipart) entity, outputStream); return; } if (context != null) { final MinijaxProviders providers = context.getProviders(); final MessageBodyWriter writer = providers.getMessageBodyWriter(entity.getClass(), null, null, mediaType); if (writer != null) { writer.writeTo(entity, entity.getClass(), null, null, mediaType, null, outputStream); return; } } throw new MinijaxException("No writer found for " + entity.getClass() + " and " + mediaType); } EntityUtils(); @SuppressWarnings("unchecked") static T readEntity(
final Class<T> entityClass,
final Type genericType,
final Annotation[] annotations,
final MediaType mediaType,
final MinijaxRequestContext context,
final InputStream entityStream); @SuppressWarnings({ "rawtypes", "unchecked" }) static void writeEntity(
final Object entity,
final MediaType mediaType,
final MinijaxApplicationContext context,
final OutputStream outputStream); static InputStream writeEntity(
final Entity<T> entity,
final MinijaxApplicationContext context); }
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@Test public void testWriteNull() throws IOException { assertNull(EntityUtils.writeEntity(null, null)); assertNull(EntityUtils.writeEntity(Entity.entity(null, "text/plain"), null)); }
@Test public void testWriteInputStream() throws IOException { final InputStream input = new ByteArrayInputStream(new byte[1]); assertEquals(input, EntityUtils.writeEntity(Entity.entity(input, "text/plain"), null)); }
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HelloSsl { @GET @Path("/") public static String hello() { return "Hello world!"; } @GET @Path("/") static String hello(); static void main(final String[] args); }
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@Test public void testHello() { assertEquals("Hello world!", target("/").request().get(String.class)); }
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Security implements SecurityContext { public NewCookie logout() { if (session != null) { dao.purge(session); } return createCookie("", 0); } @Inject @SuppressWarnings("unchecked") Security(
final SecurityDao dao,
@Context final Configuration configuration,
@HeaderParam(AUTHORIZATION) final String authorization,
@CookieParam(COOKIE_NAME) final String cookie); Class<SecurityUser> getUserClass(); @Override @SuppressWarnings("unchecked") T getUserPrincipal(); boolean isLoggedIn(); void requireLogin(); String getSessionToken(); LoginResult login(final String email, final String password); NewCookie loginAs(final SecurityUser candidate); NewCookie logout(); ChangePasswordResult changePassword(final String oldPassword, final String newPassword, final String confirmNewPassword); String forgotPassword(final SecurityUser user); ResetPasswordResult resetPassword(final String resetId, final String newPassword, final String confirmNewPassword); @Override boolean isUserInRole(final String role); @Override boolean isSecure(); @Override String getAuthenticationScheme(); static final int MINIMUM_PASSWORD_LENGTH; static final String COOKIE_NAME; }
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@Test public void testAnonymousLogout() { final SecurityDao dao = mock(SecurityDao.class); final Configuration config = mock(Configuration.class); final Security<User> security = new Security<>(dao, config, null, null); final NewCookie cookie = security.logout(); assertNotNull(cookie); assertEquals("", cookie.getValue()); }
@Test public void testLogout() { final User user = new User(); final UserSession session = new UserSession(); session.setUser(user); final String cookie = session.getId().toString(); final SecurityDao dao = mock(SecurityDao.class); when(dao.read(eq(UserSession.class), eq(session.getId()))).thenReturn(session); when(dao.read(eq(User.class), eq(user.getId()))).thenReturn(user); final Configuration config = mock(Configuration.class); when(config.getProperty(eq(MinijaxProperties.SECURITY_USER_CLASS))).thenReturn(User.class); final Security<User> security = new Security<>(dao, config, null, cookie); final NewCookie newCookie = security.logout(); assertNotNull(newCookie); assertEquals("", newCookie.getValue()); verify(dao).purge(eq(session)); }
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LiquibaseHelper { static boolean isIgnoredChangeSet(final ChangeSet changeSet) { final List<Change> changes = changeSet.getChanges(); if (changes.size() != 1) { return false; } final Change change = changes.get(0); if (!(change instanceof DropTableChange)) { return false; } return ((DropTableChange) change).getTableName().equals("JGROUPSPING"); } LiquibaseHelper(final Map<String, String> props); LiquibaseHelper(
final Map<String, String> props,
final ResourceAccessor resourceAccessor,
final File resourcesDir,
final String masterChangeLogName); File getResourcesDir(); File getMasterChangeLogFile(); void migrate(); File generateMigrations(); }
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@Test public void testNotIgnoreEmptyChangeSet() { final ChangeSet changeSet = new ChangeSet(null); assertFalse(LiquibaseHelper.isIgnoredChangeSet(changeSet)); }
@Test public void testNotIgnoreAddColumn() { final AddColumnChange change = new AddColumnChange(); final ChangeSet changeSet = new ChangeSet(null); changeSet.addChange(change); assertFalse(LiquibaseHelper.isIgnoredChangeSet(changeSet)); }
@Test public void testNotIgnoreDropOtherTable() { final DropTableChange change = new DropTableChange(); change.setTableName("foo"); final ChangeSet changeSet = new ChangeSet(null); changeSet.addChange(change); assertFalse(LiquibaseHelper.isIgnoredChangeSet(changeSet)); }
@Test public void testIgnoreChangeSet() { final DropTableChange change = new DropTableChange(); change.setTableName("JGROUPSPING"); final ChangeSet changeSet = new ChangeSet(null); changeSet.addChange(change); assertTrue(LiquibaseHelper.isIgnoredChangeSet(changeSet)); }
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LiquibaseHelper { static List<ChangeSet> filterChangeSets(final List<ChangeSet> changeSets) { final List<ChangeSet> result = new ArrayList<>(); for (final ChangeSet changeSet : changeSets) { if (!isIgnoredChangeSet(changeSet)) { result.add(changeSet); } } return result; } LiquibaseHelper(final Map<String, String> props); LiquibaseHelper(
final Map<String, String> props,
final ResourceAccessor resourceAccessor,
final File resourcesDir,
final String masterChangeLogName); File getResourcesDir(); File getMasterChangeLogFile(); void migrate(); File generateMigrations(); }
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@Test public void testFilterChangeSets() { final DropTableChange c1 = new DropTableChange(); c1.setTableName("foo"); final ChangeSet cs1 = new ChangeSet(null); cs1.addChange(c1); final DropTableChange c2 = new DropTableChange(); c2.setTableName("JGROUPSPING"); final ChangeSet cs2 = new ChangeSet(null); cs2.addChange(c2); final List<ChangeSet> original = Arrays.asList(cs1, cs2); final List<ChangeSet> filtered = LiquibaseHelper.filterChangeSets(original); assertEquals(1, filtered.size()); assertEquals(c1, filtered.get(0).getChanges().get(0)); }
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LiquibaseHelper { static void closeQuietly(final EntityManagerFactory emf) { if (emf != null) { try { emf.close(); } catch (final Exception ex) { LOG.warn("Error closing entity manager factory: {}", ex.getMessage(), ex); } } } LiquibaseHelper(final Map<String, String> props); LiquibaseHelper(
final Map<String, String> props,
final ResourceAccessor resourceAccessor,
final File resourcesDir,
final String masterChangeLogName); File getResourcesDir(); File getMasterChangeLogFile(); void migrate(); File generateMigrations(); }
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@Test public void testCloseEntityManagerFactoryNull() { LiquibaseHelper.closeQuietly((EntityManagerFactory) null); }
@Test public void testCloseEntityManagerFactoryException() throws Exception { final EntityManagerFactory emf = mock(EntityManagerFactory.class); doThrow(new RuntimeException("Boom")).when(emf).close(); LiquibaseHelper.closeQuietly(emf); verify(emf).close(); }
@Test public void testCloseDatabaseNull() { LiquibaseHelper.closeQuietly((Database) null); }
@Test public void testCloseDatabaseException() throws Exception { final Database database = mock(Database.class); doThrow(new RuntimeException("Boom")).when(database).close(); LiquibaseHelper.closeQuietly(database); verify(database).close(); }
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LocaleUtils { public static List<Locale> parseAcceptLanguage(final String header) { if (header == null || header.isEmpty()) { return Collections.emptyList(); } final List<Locale> result = new ArrayList<>(); for (final String str : header.split(",")) { final String[] arr = str.trim().replace("-", "_").split(";"); final Locale locale; final String[] l = arr[0].split("_"); switch (l.length) { case 2: locale = new Locale(l[0], l[1]); break; case 3: locale = new Locale(l[0], l[1], l[2]); break; default: locale = new Locale(l[0]); break; } result.add(locale); } return result; } LocaleUtils(); static List<Locale> parseAcceptLanguage(final String header); }
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@Test public void testNull() { final List<Locale> list = LocaleUtils.parseAcceptLanguage(null); assertTrue(list.isEmpty()); }
@Test public void testEmpty() { final List<Locale> list = LocaleUtils.parseAcceptLanguage(""); assertTrue(list.isEmpty()); }
@Test public void testWild() { final List<Locale> list = LocaleUtils.parseAcceptLanguage("*"); assertEquals(1, list.size()); assertEquals("*", list.get(0).getLanguage()); }
@Test public void testMultiple() { final List<Locale> list = LocaleUtils.parseAcceptLanguage("en, fr"); assertEquals(2, list.size()); assertEquals("en", list.get(0).getLanguage()); assertEquals("fr", list.get(1).getLanguage()); }
@Test public void testMultipleWithCountry() { final List<Locale> list = LocaleUtils.parseAcceptLanguage("en-US, fr"); assertEquals(2, list.size()); assertEquals("en", list.get(0).getLanguage()); assertEquals("US", list.get(0).getCountry()); assertEquals("fr", list.get(1).getLanguage()); }
@Test public void testVariant() { final List<Locale> list = LocaleUtils.parseAcceptLanguage("de-DE-1996"); assertEquals(1, list.size()); assertEquals("de", list.get(0).getLanguage()); assertEquals("DE", list.get(0).getCountry()); assertEquals("1996", list.get(0).getVariant()); }
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UrlUtils { public static String concatUrlPaths(final String base, final String path) { if (base == null && path == null) { return "/"; } String result; if (base == null) { result = path; } else if (path == null) { result = base; } else { result = base + "/" + path; } result = result.replaceAll("/+", "/"); if (result.endsWith("/")) { result = result.substring(0, result.length() - 1); } if (!result.startsWith("/")) { result = "/" + result; } return result; } UrlUtils(); static String concatUrlPaths(final String base, final String path); static Map<String, String> urlDecodeParams(final String str); static MultivaluedMap<String, String> urlDecodeMultivaluedParams(final String str); static String urlEncodeParams(final Map<String, String> params); static String urlEncodeMultivaluedParams(final MultivaluedMap<String, String> params); static String urlEncode(final String str); static String urlDecode(final String str); static String urlEncode(final String str, final boolean ignoreTemplates, final boolean ignoreSlashes); }
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@Test public void testConcatUrls() { assertEquals("/", UrlUtils.concatUrlPaths(null, null)); assertEquals("/", UrlUtils.concatUrlPaths(null, "")); assertEquals("/", UrlUtils.concatUrlPaths("", null)); assertEquals("/", UrlUtils.concatUrlPaths("", "")); assertEquals("/a/b", UrlUtils.concatUrlPaths("a", "b")); assertEquals("/a/b", UrlUtils.concatUrlPaths("/a", "/b")); }
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UrlUtils { public static String urlEncode(final String str) { if (str == null) { return ""; } return new UrlEncoder(str, false, false).encode(); } UrlUtils(); static String concatUrlPaths(final String base, final String path); static Map<String, String> urlDecodeParams(final String str); static MultivaluedMap<String, String> urlDecodeMultivaluedParams(final String str); static String urlEncodeParams(final Map<String, String> params); static String urlEncodeMultivaluedParams(final MultivaluedMap<String, String> params); static String urlEncode(final String str); static String urlDecode(final String str); static String urlEncode(final String str, final boolean ignoreTemplates, final boolean ignoreSlashes); }
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@Test public void testUrlEncodeIgnoreTemplates() { assertEquals("foo", UrlUtils.urlEncode("foo", true, false)); assertEquals("123", UrlUtils.urlEncode("123", true, false)); assertEquals("a%20b", UrlUtils.urlEncode("a b", true, false)); assertEquals("foo{bar}", UrlUtils.urlEncode("foo{bar}", true, false)); assertEquals("foo{bar:[a-z]{1-3}}", UrlUtils.urlEncode("foo{bar:[a-z]{1-3}}", true, false)); assertEquals("%f0%9f%98%81", UrlUtils.urlEncode(new String( new byte[] { (byte) 0xF0, (byte) 0x9F, (byte) 0x98, (byte) 0x81 }, StandardCharsets.UTF_8), true, false)); }
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MultipartUtils { public static InputStream serializeMultipartForm(final Multipart form) throws IOException { try (final ByteArrayOutputStream outputStream = new ByteArrayOutputStream()) { serializeMultipartForm(form, outputStream); return new ByteArrayInputStream(outputStream.toByteArray()); } } MultipartUtils(); static InputStream serializeMultipartForm(final Multipart form); static void serializeMultipartForm(final Multipart form, final OutputStream outputStream); }
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@Test public void testEmpty() throws IOException { final Multipart form = new Multipart(); final InputStream inputStream = MultipartUtils.serializeMultipartForm(form); final Collection<Part> parts = Multipart.read(form.getContentType(), -1, inputStream).getParts(); assertTrue(parts.isEmpty()); }
@Test public void testSimple() throws IOException { final Multipart form = new Multipart(); form.param("a", "b"); final InputStream inputStream = MultipartUtils.serializeMultipartForm(form); final List<Part> parts = new ArrayList<>(Multipart.read(form.getContentType(), -1, inputStream).getParts()); assertEquals(1, parts.size()); assertEquals("a", parts.get(0).getName()); assertEquals("b", IOUtils.toString(parts.get(0).getInputStream(), StandardCharsets.UTF_8)); }
@Test public void testFileUpload() throws IOException { final Multipart form = new Multipart(); form.param("a", "b"); form.param("myfile", "config.properties", new FileInputStream("src/test/resources/config.properties")); final InputStream inputStream = MultipartUtils.serializeMultipartForm(form); final List<Part> parts = new ArrayList<>(Multipart.read(form.getContentType(), -1, inputStream).getParts()); assertEquals(2, parts.size()); assertEquals("a", parts.get(0).getName()); assertEquals("b", IOUtils.toString(parts.get(0).getInputStream(), StandardCharsets.UTF_8)); assertEquals("myfile", parts.get(1).getName()); assertEquals("a=b\n", IOUtils.toString(parts.get(1).getInputStream(), StandardCharsets.UTF_8)); }
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Owner extends DefaultBaseEntity { @Override public boolean equals(final Object obj) { return EqualsBuilder.reflectionEquals(this, obj); } String getName(); void setName(final String name); String getAddress(); void setAddress(final String address); String getCity(); void setCity(final String city); String getTelephone(); void setTelephone(final String telephone); List<Pet> getPets(); void setPets(final List<Pet> pets); String getUrl(); @Override boolean equals(final Object obj); @Override int hashCode(); }
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@Test public void testEquals() { final Owner o1 = new Owner(); final Owner o2 = new Owner(); final Owner o3 = new Owner(); o2.setId(o1.getId()); assertEquals(o1, o2); assertNotEquals(o1, null); assertNotEquals(o1, new Object()); assertNotEquals(o1, o3); }
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ImplicitTemplateMap extends HashMap<String, Object> { @Override public Object get(final Object key) { Object result = super.get(key); if (result == null) { result = templateValues[index++]; super.put(key.toString(), result); } return result; } ImplicitTemplateMap(final Object[] templateValues); @Override Object get(final Object key); @Override int hashCode(); @Override boolean equals(final Object obj); }
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@Test public void testSimple() { final ImplicitTemplateMap map = new ImplicitTemplateMap(new Object[] {"a", "b"}); assertEquals("a", map.get("foo")); assertEquals("a", map.get("foo")); }
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ImplicitTemplateMap extends HashMap<String, Object> { @Override public boolean equals(final Object obj) { if (!(obj instanceof ImplicitTemplateMap)) { return false; } final ImplicitTemplateMap other = (ImplicitTemplateMap) obj; return super.equals(other) && Arrays.equals(templateValues, other.templateValues); } ImplicitTemplateMap(final Object[] templateValues); @Override Object get(final Object key); @Override int hashCode(); @Override boolean equals(final Object obj); }
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@Test public void testEquals() { final ImplicitTemplateMap m1 = new ImplicitTemplateMap(new Object[] {"a", "b"}); final ImplicitTemplateMap m2 = new ImplicitTemplateMap(new Object[] {"a", "b"}); final ImplicitTemplateMap m3 = new ImplicitTemplateMap(new Object[] {"c", "d"}); final ImplicitTemplateMap m4 = new ImplicitTemplateMap(new Object[] {"c", "d"}); assertEquals(m1, m1); assertEquals(m1.hashCode(), m2.hashCode()); assertEquals(m1, m2); assertEquals(m3, m4); assertNotEquals(m1, m3); assertNotEquals(m1, null); assertNotEquals(m1, new Object()); m4.get("foo"); assertNotEquals(m3, m4); }
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PersistenceContextAnnotationProcessor implements FieldAnnotationProcessor<EntityManager> { @Override @SuppressWarnings("unchecked") public MinijaxProvider<EntityManager> buildProvider( final MinijaxInjectorState state, final Class<EntityManager> type, final Annotation[] annotations) { final PersistenceContext persistenceContext = getPersistenceContextAnnotation(annotations); final EntityManagerFactory emf = factories.get(persistenceContext.name()); if (emf == null) { throw new InjectionException("Persistence context \"" + persistenceContext.name() + "\" not found"); } return new EntityManagerProvider(emf); } PersistenceContextAnnotationProcessor(final Map<String, EntityManagerFactory> factories); @Override @SuppressWarnings("unchecked") MinijaxProvider<EntityManager> buildProvider(
final MinijaxInjectorState state,
final Class<EntityManager> type,
final Annotation[] annotations); }
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@Test public void testSimple() { final Map<String, EntityManagerFactory> factories = createFactories(""); final PersistenceContextAnnotationProcessor p = new PersistenceContextAnnotationProcessor(factories); final PersistenceContext annotation = createAnnotation(""); final Provider<EntityManager> provider = p.buildProvider(null, EntityManager.class, new Annotation[] { annotation }); assertNotNull(provider); }
@Test(expected = InjectionException.class) public void testNotFound() { final Map<String, EntityManagerFactory> factories = createFactories("foo", "bar"); final PersistenceContextAnnotationProcessor p = new PersistenceContextAnnotationProcessor(factories); final PersistenceContext annotation = createAnnotation("baz"); p.buildProvider(null, EntityManager.class, new Annotation[] { annotation }); }
@Test public void testOtherAnnotations() { final Map<String, EntityManagerFactory> factories = createFactories(""); final PersistenceContextAnnotationProcessor p = new PersistenceContextAnnotationProcessor(factories); final Provider<EntityManager> provider = p.buildProvider(null, EntityManager.class, new Annotation[] { new Deprecated() { @Override public Class<? extends Annotation> annotationType() { return Deprecated.class; }}, createAnnotation(""), }); assertNotNull(provider); }
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PersistenceContextAnnotationProcessor implements FieldAnnotationProcessor<EntityManager> { PersistenceContext getPersistenceContextAnnotation(final Annotation[] annotations) { for (final Annotation annotation : annotations) { if (annotation.annotationType() == PersistenceContext.class) { return (PersistenceContext) annotation; } } throw new InjectionException("Missing @PersistenceContext annotation"); } PersistenceContextAnnotationProcessor(final Map<String, EntityManagerFactory> factories); @Override @SuppressWarnings("unchecked") MinijaxProvider<EntityManager> buildProvider(
final MinijaxInjectorState state,
final Class<EntityManager> type,
final Annotation[] annotations); }
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@Test(expected = InjectionException.class) public void testMissingAnnotation() { final Map<String, EntityManagerFactory> factories = createFactories("foo", "bar"); final PersistenceContextAnnotationProcessor p = new PersistenceContextAnnotationProcessor(factories); p.getPersistenceContextAnnotation(new Annotation[0]); }
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PersistenceUtils { public static List<String> getNames(final String fileName) { try (final InputStream in = PersistenceUtils.class.getClassLoader().getResourceAsStream(fileName)) { if (in == null) { return Collections.emptyList(); } return scanPersistenceXml(in); } catch (final Exception ex) { LOG.warn("Error reading persistence.xml: {}", ex.getMessage(), ex); return Collections.emptyList(); } } PersistenceUtils(); static List<String> getNames(final String fileName); }
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@Test public void testNotFound() { assertEquals(Collections.emptyList(), PersistenceUtils.getNames("not-found.xml")); }
@Test public void testNotXml() { assertEquals(Collections.emptyList(), PersistenceUtils.getNames("not-xml.txt")); }
@Test public void testOne() { assertEquals(Collections.singletonList("testdb"), PersistenceUtils.getNames("test-persistence1.xml")); }
@Test public void testMultiple() { assertEquals(Arrays.asList("test1", "test2"), PersistenceUtils.getNames("test-persistence2.xml")); }
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TodoBackend { @DELETE public Response delete() { posts.clear(); return Response.ok().build(); } @GET Collection<Post> read(); @POST @Consumes(APPLICATION_JSON) Response create(@Context final UriInfo uriInfo, final Post post); @DELETE Response delete(); @GET @Path("/{id}") Post read(@PathParam("id") final int id); @PATCH @Path("/{id}") @Consumes(APPLICATION_JSON) Post update(@PathParam("id") final int id, final Post updated); @DELETE @Path("/{id}") Response delete(@PathParam("id") final int id); static void main(final String[] args); }
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@Test public void testDeletePost() { final Response r1 = target("/").request().post(Entity.entity("{\"title\":\"blah\"}", APPLICATION_JSON)); final Post post = (Post) r1.getEntity(); target(post.url).request().delete(); final Response r3 = target(post.url).request().get(); assertEquals(404, r3.getStatus()); }
@Test @SuppressWarnings("rawtypes") public void testDeleteAll() { final Response r1 = target("/").request().delete(); assertNotNull(r1); final Response r2 = target("/").request().get(); assertNotNull(r2); assertTrue(((Collection) r2.getEntity()).isEmpty()); }
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PersistenceFeature implements Feature { @Override public boolean configure(final FeatureContext context) { if (!(context instanceof MinijaxApplicationContext)) { throw new IllegalArgumentException("Minijax PersistenceFeature only compatible with MinijaxApplication"); } final MinijaxApplicationContext app = (MinijaxApplicationContext) context; registerPersistence(app); return true; } @Override boolean configure(final FeatureContext context); void registerPersistence(final MinijaxApplicationContext app); }
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@Test(expected = IllegalArgumentException.class) public void testNotMinijax() { final PersistenceFeature feature = new PersistenceFeature(); feature.configure(mock(FeatureContext.class)); }
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CloseUtils { @SuppressWarnings("rawtypes") public static void closeQuietly(final Collection objs) { for (final Object obj : objs) { closeQuietly(obj); } } CloseUtils(); @SuppressWarnings("rawtypes") static void closeQuietly(final Collection objs); static void closeQuietly(final Object obj); }
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@Test @SuppressWarnings("squid:S2699") public void testCloseNull() { CloseUtils.closeQuietly((Object) null); }
@Test public void testAutoCloseable() { final MyAutoCloseable obj = new MyAutoCloseable(); CloseUtils.closeQuietly(obj); assertTrue(obj.closed); }
@Test public void testAutoCloseableCollection() { final List<MyAutoCloseable> list = Arrays.asList(new MyAutoCloseable(), new MyAutoCloseable()); CloseUtils.closeQuietly(list); assertTrue(list.get(0).closed); assertTrue(list.get(1).closed); }
@Test @SuppressWarnings("squid:S2699") public void testExplodingAutoCloseable() { final ExplodingAutoCloseable obj = new ExplodingAutoCloseable(); CloseUtils.closeQuietly(obj); }
@Test public void testCloseable() { final MyCloseable obj = new MyCloseable(); CloseUtils.closeQuietly(obj); assertTrue(obj.closed); }
@Test public void testEntityManagerFactoryOpen() { final EntityManagerFactory emf = mock(EntityManagerFactory.class); when(emf.isOpen()).thenReturn(true); CloseUtils.closeQuietly(emf); verify(emf, times(1)).isOpen(); verify(emf, times(1)).close(); }
@Test public void testEntityManagerFactoryClosed() { final EntityManagerFactory emf = mock(EntityManagerFactory.class); when(emf.isOpen()).thenReturn(false); CloseUtils.closeQuietly(emf); verify(emf, times(1)).isOpen(); verify(emf, never()).close(); }
@Test public void testEntityManagerOpen() { final EntityManager em = mock(EntityManager.class); when(em.isOpen()).thenReturn(true); CloseUtils.closeQuietly(em); verify(em, times(1)).isOpen(); verify(em, times(1)).close(); }
@Test public void testEntityManagerClosed() { final EntityManager em = mock(EntityManager.class); when(em.isOpen()).thenReturn(false); CloseUtils.closeQuietly(em); verify(em, times(1)).isOpen(); verify(em, never()).close(); }
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CopyOnWriteMap implements ConcurrentMap<K, V> { @Override public synchronized void putAll(final Map<? extends K, ? extends V> m) { final Map<K, V> newDelegate = new HashMap<>(this.delegate); for (final Entry<? extends K, ? extends V> e : m.entrySet()) { newDelegate.put(e.getKey(), e.getValue()); } this.delegate = newDelegate; } CopyOnWriteMap(); CopyOnWriteMap(final Map<K, V> existing); @Override synchronized V putIfAbsent(final K key, final V value); @Override synchronized boolean remove(final Object key, final Object value); @Override synchronized boolean replace(final K key, final V oldValue, final V newValue); @Override synchronized V replace(final K key, final V value); @Override int size(); @Override boolean isEmpty(); @Override boolean containsKey(final Object key); @Override boolean containsValue(final Object value); @Override V get(final Object key); @Override synchronized V put(final K key, final V value); @Override synchronized V remove(final Object key); @Override synchronized void putAll(final Map<? extends K, ? extends V> m); @Override synchronized void clear(); @Override Set<K> keySet(); @Override Collection<V> values(); @Override Set<Entry<K, V>> entrySet(); V removeInternal(final Object key); }
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@Test public void testPutAll() { final HashMap<String, String> prev = new HashMap<>(); prev.put("a", "b"); final CopyOnWriteMap<String, String> map = new CopyOnWriteMap<>(); map.putAll(prev); assertEquals("b", map.get("a")); }
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CopyOnWriteMap implements ConcurrentMap<K, V> { @Override public synchronized V putIfAbsent(final K key, final V value) { final Map<K, V> oldDelegate = this.delegate; final V existing = oldDelegate.get(key); if (existing != null) { return existing; } putInternal(key, value); return null; } CopyOnWriteMap(); CopyOnWriteMap(final Map<K, V> existing); @Override synchronized V putIfAbsent(final K key, final V value); @Override synchronized boolean remove(final Object key, final Object value); @Override synchronized boolean replace(final K key, final V oldValue, final V newValue); @Override synchronized V replace(final K key, final V value); @Override int size(); @Override boolean isEmpty(); @Override boolean containsKey(final Object key); @Override boolean containsValue(final Object value); @Override V get(final Object key); @Override synchronized V put(final K key, final V value); @Override synchronized V remove(final Object key); @Override synchronized void putAll(final Map<? extends K, ? extends V> m); @Override synchronized void clear(); @Override Set<K> keySet(); @Override Collection<V> values(); @Override Set<Entry<K, V>> entrySet(); V removeInternal(final Object key); }
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@Test public void testPutIfAbsent() { final CopyOnWriteMap<String, String> map = new CopyOnWriteMap<>(); map.putIfAbsent("a", "b"); map.putIfAbsent("a", "c"); assertEquals("b", map.get("a")); }
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CopyOnWriteMap implements ConcurrentMap<K, V> { @Override public synchronized boolean remove(final Object key, final Object value) { final Map<K, V> oldDelegate = this.delegate; final V existing = oldDelegate.get(key); if (existing.equals(value)) { removeInternal(key); return true; } return false; } CopyOnWriteMap(); CopyOnWriteMap(final Map<K, V> existing); @Override synchronized V putIfAbsent(final K key, final V value); @Override synchronized boolean remove(final Object key, final Object value); @Override synchronized boolean replace(final K key, final V oldValue, final V newValue); @Override synchronized V replace(final K key, final V value); @Override int size(); @Override boolean isEmpty(); @Override boolean containsKey(final Object key); @Override boolean containsValue(final Object value); @Override V get(final Object key); @Override synchronized V put(final K key, final V value); @Override synchronized V remove(final Object key); @Override synchronized void putAll(final Map<? extends K, ? extends V> m); @Override synchronized void clear(); @Override Set<K> keySet(); @Override Collection<V> values(); @Override Set<Entry<K, V>> entrySet(); V removeInternal(final Object key); }
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@Test public void testRemove() { final CopyOnWriteMap<String, String> map = new CopyOnWriteMap<>(); map.put("a", "b"); map.remove("a"); assertNull(map.get("a")); }
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CopyOnWriteMap implements ConcurrentMap<K, V> { @Override public synchronized boolean replace(final K key, final V oldValue, final V newValue) { final Map<K, V> oldDelegate = this.delegate; final V existing = oldDelegate.get(key); if (existing.equals(oldValue)) { putInternal(key, newValue); return true; } return false; } CopyOnWriteMap(); CopyOnWriteMap(final Map<K, V> existing); @Override synchronized V putIfAbsent(final K key, final V value); @Override synchronized boolean remove(final Object key, final Object value); @Override synchronized boolean replace(final K key, final V oldValue, final V newValue); @Override synchronized V replace(final K key, final V value); @Override int size(); @Override boolean isEmpty(); @Override boolean containsKey(final Object key); @Override boolean containsValue(final Object value); @Override V get(final Object key); @Override synchronized V put(final K key, final V value); @Override synchronized V remove(final Object key); @Override synchronized void putAll(final Map<? extends K, ? extends V> m); @Override synchronized void clear(); @Override Set<K> keySet(); @Override Collection<V> values(); @Override Set<Entry<K, V>> entrySet(); V removeInternal(final Object key); }
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@Test public void testReplace() { final CopyOnWriteMap<String, String> map = new CopyOnWriteMap<>(); map.put("a", "b"); assertEquals("b", map.get("a")); map.replace("b", "c"); assertEquals("b", map.get("a")); map.replace("a", "c"); assertEquals("c", map.get("a")); }
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CopyOnWriteMap implements ConcurrentMap<K, V> { @Override public synchronized void clear() { delegate = Collections.emptyMap(); } CopyOnWriteMap(); CopyOnWriteMap(final Map<K, V> existing); @Override synchronized V putIfAbsent(final K key, final V value); @Override synchronized boolean remove(final Object key, final Object value); @Override synchronized boolean replace(final K key, final V oldValue, final V newValue); @Override synchronized V replace(final K key, final V value); @Override int size(); @Override boolean isEmpty(); @Override boolean containsKey(final Object key); @Override boolean containsValue(final Object value); @Override V get(final Object key); @Override synchronized V put(final K key, final V value); @Override synchronized V remove(final Object key); @Override synchronized void putAll(final Map<? extends K, ? extends V> m); @Override synchronized void clear(); @Override Set<K> keySet(); @Override Collection<V> values(); @Override Set<Entry<K, V>> entrySet(); V removeInternal(final Object key); }
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@Test public void testClear() { final CopyOnWriteMap<String, String> map = new CopyOnWriteMap<>(); map.put("a", "b"); map.clear(); assertNull(map.get("a")); assertTrue(map.isEmpty()); }
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CopyOnWriteMap implements ConcurrentMap<K, V> { @Override public boolean containsKey(final Object key) { return delegate.containsKey(key); } CopyOnWriteMap(); CopyOnWriteMap(final Map<K, V> existing); @Override synchronized V putIfAbsent(final K key, final V value); @Override synchronized boolean remove(final Object key, final Object value); @Override synchronized boolean replace(final K key, final V oldValue, final V newValue); @Override synchronized V replace(final K key, final V value); @Override int size(); @Override boolean isEmpty(); @Override boolean containsKey(final Object key); @Override boolean containsValue(final Object value); @Override V get(final Object key); @Override synchronized V put(final K key, final V value); @Override synchronized V remove(final Object key); @Override synchronized void putAll(final Map<? extends K, ? extends V> m); @Override synchronized void clear(); @Override Set<K> keySet(); @Override Collection<V> values(); @Override Set<Entry<K, V>> entrySet(); V removeInternal(final Object key); }
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@Test public void testContainsKey() { final CopyOnWriteMap<String, String> map = new CopyOnWriteMap<>(); map.put("a", "b"); assertTrue(map.containsKey("a")); assertFalse(map.containsKey("b")); }
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CopyOnWriteMap implements ConcurrentMap<K, V> { @Override public boolean containsValue(final Object value) { return delegate.containsValue(value); } CopyOnWriteMap(); CopyOnWriteMap(final Map<K, V> existing); @Override synchronized V putIfAbsent(final K key, final V value); @Override synchronized boolean remove(final Object key, final Object value); @Override synchronized boolean replace(final K key, final V oldValue, final V newValue); @Override synchronized V replace(final K key, final V value); @Override int size(); @Override boolean isEmpty(); @Override boolean containsKey(final Object key); @Override boolean containsValue(final Object value); @Override V get(final Object key); @Override synchronized V put(final K key, final V value); @Override synchronized V remove(final Object key); @Override synchronized void putAll(final Map<? extends K, ? extends V> m); @Override synchronized void clear(); @Override Set<K> keySet(); @Override Collection<V> values(); @Override Set<Entry<K, V>> entrySet(); V removeInternal(final Object key); }
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@Test public void testContainsValue() { final CopyOnWriteMap<String, String> map = new CopyOnWriteMap<>(); map.put("a", "b"); assertFalse(map.containsValue("a")); assertTrue(map.containsValue("b")); }
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CopyOnWriteMap implements ConcurrentMap<K, V> { @Override public Set<Entry<K, V>> entrySet() { return delegate.entrySet(); } CopyOnWriteMap(); CopyOnWriteMap(final Map<K, V> existing); @Override synchronized V putIfAbsent(final K key, final V value); @Override synchronized boolean remove(final Object key, final Object value); @Override synchronized boolean replace(final K key, final V oldValue, final V newValue); @Override synchronized V replace(final K key, final V value); @Override int size(); @Override boolean isEmpty(); @Override boolean containsKey(final Object key); @Override boolean containsValue(final Object value); @Override V get(final Object key); @Override synchronized V put(final K key, final V value); @Override synchronized V remove(final Object key); @Override synchronized void putAll(final Map<? extends K, ? extends V> m); @Override synchronized void clear(); @Override Set<K> keySet(); @Override Collection<V> values(); @Override Set<Entry<K, V>> entrySet(); V removeInternal(final Object key); }
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@Test public void testEntrySet() { final HashMap<String, String> prev = new HashMap<>(); prev.put("a", "b"); final CopyOnWriteMap<String, String> map = new CopyOnWriteMap<>(prev); assertEquals(prev.entrySet(), map.entrySet()); }
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HelloSecurity { @GET @Path("/") @PermitAll public static String hello() { return "Hello world!"; } @GET @Path("/") @PermitAll static String hello(); @GET @Path("/secret") @RolesAllowed("user") static String secret(); @GET @Path("/admin") @RolesAllowed("admin") static String admin(); static void main(final String[] args); }
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@Test public void testHello() { assertEquals("Hello world!", target("/").request().get(String.class)); }
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IdUtils { public static UUID create() { final byte[] bytes = new byte[16]; RANDOM.nextBytes(bytes); final long time = System.currentTimeMillis(); for (int i = 0; i < 6; i++) { bytes[i] = (byte) ((time >> (40 - i * 8)) & 0xFF); } return fromBytes(bytes); } IdUtils(); static UUID create(); static UUID tryParse(final String str); static byte[] toBytes(final UUID id); static UUID fromBytes(final byte[] b); }
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@Test public void testCreate() { final UUID id = IdUtils.create(); assertNotNull(id); }
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IdUtils { public static UUID tryParse(final String str) { if (str == null) { return null; } if (!PATTERN.matcher(str).matches()) { return null; } final String clean = str.replace("-", ""); if (clean.length() != 32) { return null; } final long msb = Long.parseUnsignedLong(clean.substring(0, 16), 16); final long lsb = Long.parseUnsignedLong(clean.substring(16), 16); return new UUID(msb, lsb); } IdUtils(); static UUID create(); static UUID tryParse(final String str); static byte[] toBytes(final UUID id); static UUID fromBytes(final byte[] b); }
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@Test public void testParseNull() { assertNull(IdUtils.tryParse(null)); }
@Test public void testParseEmpty() { assertNull(IdUtils.tryParse("")); }
@Test public void testParseBadCharacters() { assertNull(IdUtils.tryParse("!@#")); }
@Test public void testParseTooShort() { assertNull(IdUtils.tryParse("1234567890")); }
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IdUtils { public static byte[] toBytes(final UUID id) { if (id == null) { return null; } final byte[] buffer = new byte[16]; final ByteBuffer bb = ByteBuffer.wrap(buffer); bb.putLong(id.getMostSignificantBits()); bb.putLong(id.getLeastSignificantBits()); return buffer; } IdUtils(); static UUID create(); static UUID tryParse(final String str); static byte[] toBytes(final UUID id); static UUID fromBytes(final byte[] b); }
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@Test public void testToBytesNull() { assertNull(IdUtils.toBytes(null)); }
@Test public void testToBytes() { final UUID id = IdUtils.create(); final byte[] b1 = IdUtils.toBytes(id); final byte[] b2 = IdUtils.toBytes(id); assertNotNull(b1); assertEquals(16, b1.length); assertArrayEquals(b1, b2); }
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IdUtils { public static UUID fromBytes(final byte[] b) { if (b == null || b.length != 16) { return null; } final ByteBuffer bb = ByteBuffer.wrap(b); return new UUID(bb.getLong(), bb.getLong()); } IdUtils(); static UUID create(); static UUID tryParse(final String str); static byte[] toBytes(final UUID id); static UUID fromBytes(final byte[] b); }
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@Test public void testFromBytesNull() { assertNull(IdUtils.fromBytes(null)); }
@Test public void testFromBytesTooShort() { assertNull(IdUtils.fromBytes(new byte[] { 1, 2, 3 })); }
@Test public void testFromBytesTooLong() { assertNull(IdUtils.fromBytes(new byte[] { 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17 })); }
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Minitwit { @GET @Path("/public") public Response publicTimeline() { List<Message> messages = dao.getEntityManager() .createQuery("SELECT m FROM Message m ORDER BY m.id DESC", Message.class) .getResultList(); return renderTimeline(messages); } @GET Response timeline(); @GET @Path("/public") Response publicTimeline(); @GET @Path("/{handle}") Response userTimeline(@PathParam("handle") String handle); @GET @Path("/{handle}/follow") @RolesAllowed("user") Response followUser(@PathParam("handle") String handle); @POST @Path("/addmessage") @Consumes(MediaType.APPLICATION_FORM_URLENCODED) @RolesAllowed("user") Response addMessage(@FormParam("text") String text); @GET @Path("/login") View login(); @POST @Path("/login") @Consumes(MediaType.APPLICATION_FORM_URLENCODED) Response login(
@FormParam("email") String email,
@FormParam("password") String password); @GET @Path("/logout") Response logout(); @GET @Path("/register") View register(); @POST @Path("/register") @Consumes(MediaType.APPLICATION_FORM_URLENCODED) Response register(
@FormParam("handle") String handle,
@FormParam("email") String email,
@FormParam("password") String password); static void main(String[] args); }
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@Test public void testPublicTimeline() { final Response response = target("/public").request().get(); assertNotNull(response); assertEquals(200, response.getStatus()); final View view = (View) response.getEntity(); assertNotNull(view); assertEquals("timeline", view.getTemplateName()); assertNotNull(view.getModel().get("messages")); }
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IOUtils { public static byte[] toByteArray(final InputStream input) throws IOException { final ByteArrayOutputStream output = new ByteArrayOutputStream(); copy(input, output); return output.toByteArray(); } IOUtils(); static byte[] toByteArray(final InputStream input); static InputStream toInputStream(final String str, final Charset charset); static String toString(final InputStream input, final Charset charset); static void copy(final InputStream input, final OutputStream output); }
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@Test public void testToByteArray() throws IOException { final InputStream input = new ByteArrayInputStream("test".getBytes(StandardCharsets.UTF_8)); final byte[] output = IOUtils.toByteArray(input); assertEquals(4, output.length); }
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IOUtils { public static InputStream toInputStream(final String str, final Charset charset) { return new ByteArrayInputStream(str.getBytes(charset)); } IOUtils(); static byte[] toByteArray(final InputStream input); static InputStream toInputStream(final String str, final Charset charset); static String toString(final InputStream input, final Charset charset); static void copy(final InputStream input, final OutputStream output); }
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@Test public void testToInputStream() throws IOException { final InputStream input = IOUtils.toInputStream("test", StandardCharsets.UTF_8); assertEquals("test", IOUtils.toString(input, StandardCharsets.UTF_8)); }
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OptionalClasses { OptionalClasses() { throw new UnsupportedOperationException(); } OptionalClasses(); static final Class<Annotation> SERVER_ENDPOINT; static final Class<?> ENTITY_MANAGER_FACTORY; static final Class<?> ENTITY_MANAGER; }
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@Test public void testOptionalClasses() { assertNotNull(OptionalClasses.ENTITY_MANAGER); assertNull(OptionalClasses.SERVER_ENDPOINT); }
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MinijaxPersistenceUnitInfo implements javax.persistence.spi.PersistenceUnitInfo { @Override public PersistenceUnitTransactionType getTransactionType() { throw new UnsupportedOperationException(); } MinijaxPersistenceUnitInfo(final String name, final String providerClassName); @Override String getPersistenceUnitName(); @Override String getPersistenceProviderClassName(); @Override List<String> getManagedClassNames(); @Override Properties getProperties(); @Override PersistenceUnitTransactionType getTransactionType(); @Override DataSource getJtaDataSource(); @Override DataSource getNonJtaDataSource(); @Override List<String> getMappingFileNames(); @Override List<URL> getJarFileUrls(); @Override URL getPersistenceUnitRootUrl(); @Override boolean excludeUnlistedClasses(); @Override SharedCacheMode getSharedCacheMode(); @Override ValidationMode getValidationMode(); @Override String getPersistenceXMLSchemaVersion(); @Override ClassLoader getClassLoader(); @Override void addTransformer(final ClassTransformer transformer); @Override ClassLoader getNewTempClassLoader(); }
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@Test(expected = UnsupportedOperationException.class) public void testGetTransactionType() { pui.getTransactionType(); }
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MinijaxPersistenceUnitInfo implements javax.persistence.spi.PersistenceUnitInfo { @Override public DataSource getJtaDataSource() { throw new UnsupportedOperationException(); } MinijaxPersistenceUnitInfo(final String name, final String providerClassName); @Override String getPersistenceUnitName(); @Override String getPersistenceProviderClassName(); @Override List<String> getManagedClassNames(); @Override Properties getProperties(); @Override PersistenceUnitTransactionType getTransactionType(); @Override DataSource getJtaDataSource(); @Override DataSource getNonJtaDataSource(); @Override List<String> getMappingFileNames(); @Override List<URL> getJarFileUrls(); @Override URL getPersistenceUnitRootUrl(); @Override boolean excludeUnlistedClasses(); @Override SharedCacheMode getSharedCacheMode(); @Override ValidationMode getValidationMode(); @Override String getPersistenceXMLSchemaVersion(); @Override ClassLoader getClassLoader(); @Override void addTransformer(final ClassTransformer transformer); @Override ClassLoader getNewTempClassLoader(); }
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@Test(expected = UnsupportedOperationException.class) public void testGetJtaDataSource() { pui.getJtaDataSource(); }
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MinijaxPersistenceUnitInfo implements javax.persistence.spi.PersistenceUnitInfo { @Override public DataSource getNonJtaDataSource() { throw new UnsupportedOperationException(); } MinijaxPersistenceUnitInfo(final String name, final String providerClassName); @Override String getPersistenceUnitName(); @Override String getPersistenceProviderClassName(); @Override List<String> getManagedClassNames(); @Override Properties getProperties(); @Override PersistenceUnitTransactionType getTransactionType(); @Override DataSource getJtaDataSource(); @Override DataSource getNonJtaDataSource(); @Override List<String> getMappingFileNames(); @Override List<URL> getJarFileUrls(); @Override URL getPersistenceUnitRootUrl(); @Override boolean excludeUnlistedClasses(); @Override SharedCacheMode getSharedCacheMode(); @Override ValidationMode getValidationMode(); @Override String getPersistenceXMLSchemaVersion(); @Override ClassLoader getClassLoader(); @Override void addTransformer(final ClassTransformer transformer); @Override ClassLoader getNewTempClassLoader(); }
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@Test(expected = UnsupportedOperationException.class) public void testGetNonJtaDataSource() { pui.getNonJtaDataSource(); }
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MinijaxPersistenceUnitInfo implements javax.persistence.spi.PersistenceUnitInfo { @Override public List<String> getMappingFileNames() { throw new UnsupportedOperationException(); } MinijaxPersistenceUnitInfo(final String name, final String providerClassName); @Override String getPersistenceUnitName(); @Override String getPersistenceProviderClassName(); @Override List<String> getManagedClassNames(); @Override Properties getProperties(); @Override PersistenceUnitTransactionType getTransactionType(); @Override DataSource getJtaDataSource(); @Override DataSource getNonJtaDataSource(); @Override List<String> getMappingFileNames(); @Override List<URL> getJarFileUrls(); @Override URL getPersistenceUnitRootUrl(); @Override boolean excludeUnlistedClasses(); @Override SharedCacheMode getSharedCacheMode(); @Override ValidationMode getValidationMode(); @Override String getPersistenceXMLSchemaVersion(); @Override ClassLoader getClassLoader(); @Override void addTransformer(final ClassTransformer transformer); @Override ClassLoader getNewTempClassLoader(); }
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@Test(expected = UnsupportedOperationException.class) public void testGetMappingFileNames() { pui.getMappingFileNames(); }
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MinijaxPersistenceUnitInfo implements javax.persistence.spi.PersistenceUnitInfo { @Override public List<URL> getJarFileUrls() { throw new UnsupportedOperationException(); } MinijaxPersistenceUnitInfo(final String name, final String providerClassName); @Override String getPersistenceUnitName(); @Override String getPersistenceProviderClassName(); @Override List<String> getManagedClassNames(); @Override Properties getProperties(); @Override PersistenceUnitTransactionType getTransactionType(); @Override DataSource getJtaDataSource(); @Override DataSource getNonJtaDataSource(); @Override List<String> getMappingFileNames(); @Override List<URL> getJarFileUrls(); @Override URL getPersistenceUnitRootUrl(); @Override boolean excludeUnlistedClasses(); @Override SharedCacheMode getSharedCacheMode(); @Override ValidationMode getValidationMode(); @Override String getPersistenceXMLSchemaVersion(); @Override ClassLoader getClassLoader(); @Override void addTransformer(final ClassTransformer transformer); @Override ClassLoader getNewTempClassLoader(); }
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@Test(expected = UnsupportedOperationException.class) public void testGetJarFileUrls() { pui.getJarFileUrls(); }
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MinijaxPersistenceUnitInfo implements javax.persistence.spi.PersistenceUnitInfo { @Override public URL getPersistenceUnitRootUrl() { throw new UnsupportedOperationException(); } MinijaxPersistenceUnitInfo(final String name, final String providerClassName); @Override String getPersistenceUnitName(); @Override String getPersistenceProviderClassName(); @Override List<String> getManagedClassNames(); @Override Properties getProperties(); @Override PersistenceUnitTransactionType getTransactionType(); @Override DataSource getJtaDataSource(); @Override DataSource getNonJtaDataSource(); @Override List<String> getMappingFileNames(); @Override List<URL> getJarFileUrls(); @Override URL getPersistenceUnitRootUrl(); @Override boolean excludeUnlistedClasses(); @Override SharedCacheMode getSharedCacheMode(); @Override ValidationMode getValidationMode(); @Override String getPersistenceXMLSchemaVersion(); @Override ClassLoader getClassLoader(); @Override void addTransformer(final ClassTransformer transformer); @Override ClassLoader getNewTempClassLoader(); }
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@Test(expected = UnsupportedOperationException.class) public void testGetPersistenceUnitRootUrl() { pui.getPersistenceUnitRootUrl(); }
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MinijaxPersistenceUnitInfo implements javax.persistence.spi.PersistenceUnitInfo { @Override public boolean excludeUnlistedClasses() { throw new UnsupportedOperationException(); } MinijaxPersistenceUnitInfo(final String name, final String providerClassName); @Override String getPersistenceUnitName(); @Override String getPersistenceProviderClassName(); @Override List<String> getManagedClassNames(); @Override Properties getProperties(); @Override PersistenceUnitTransactionType getTransactionType(); @Override DataSource getJtaDataSource(); @Override DataSource getNonJtaDataSource(); @Override List<String> getMappingFileNames(); @Override List<URL> getJarFileUrls(); @Override URL getPersistenceUnitRootUrl(); @Override boolean excludeUnlistedClasses(); @Override SharedCacheMode getSharedCacheMode(); @Override ValidationMode getValidationMode(); @Override String getPersistenceXMLSchemaVersion(); @Override ClassLoader getClassLoader(); @Override void addTransformer(final ClassTransformer transformer); @Override ClassLoader getNewTempClassLoader(); }
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@Test(expected = UnsupportedOperationException.class) public void testExcludeUnlistedClasses() { pui.excludeUnlistedClasses(); }
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Minitwit { @GET @Path("/{handle}/follow") @RolesAllowed("user") public Response followUser(@PathParam("handle") String handle) { security.getUserPrincipal().following.add(dao.readByHandle(User.class, handle)); dao.update(security.getUserPrincipal()); return Response.seeOther(URI.create("/")).build(); } @GET Response timeline(); @GET @Path("/public") Response publicTimeline(); @GET @Path("/{handle}") Response userTimeline(@PathParam("handle") String handle); @GET @Path("/{handle}/follow") @RolesAllowed("user") Response followUser(@PathParam("handle") String handle); @POST @Path("/addmessage") @Consumes(MediaType.APPLICATION_FORM_URLENCODED) @RolesAllowed("user") Response addMessage(@FormParam("text") String text); @GET @Path("/login") View login(); @POST @Path("/login") @Consumes(MediaType.APPLICATION_FORM_URLENCODED) Response login(
@FormParam("email") String email,
@FormParam("password") String password); @GET @Path("/logout") Response logout(); @GET @Path("/register") View register(); @POST @Path("/register") @Consumes(MediaType.APPLICATION_FORM_URLENCODED) Response register(
@FormParam("handle") String handle,
@FormParam("email") String email,
@FormParam("password") String password); static void main(String[] args); }
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@Test public void testFollowUser() throws Exception { assertFalse(alice.following.contains(bob)); final Response response = target("/bob/follow").request().cookie(aliceCookie).get(); assertNotNull(response); assertEquals(303, response.getStatus()); try (final MinijaxRequestContext ctx = createRequestContext()) { final Dao dao = ctx.getResource(Dao.class); assertTrue(dao.read(User.class, alice.getId()).following.contains(bob)); } }
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CharEscapeUtil { public static String escape(String s) { StringBuilder sb = new StringBuilder(); for (int i = 0; i < s.length(); i++) { char c = s.charAt(i); if (c == '=' || c == '\\' || c == '+' || c == '-' || c == '!' || c == '(' || c == ')' || c == ':' || c == '^' || c == '[' || c == ']' || c == '\"' || c == '{' || c == '}' || c == '~' || c == '*' || c == '?' || c == '|' || c == '&' || c == '/') { sb.append('\\'); } sb.append(c); } return sb.toString(); } CharEscapeUtil( Writer w,int features); CharEscapeUtil( ); CharEscapeUtil( Writer w); Object getOutputTarget(); int getOutputBuffered(); boolean canWriteFormattedNumbers(); void writeString(String text,boolean flush); String toString(); void _writeString(String text); void _writeString2(final int len); static String escape(String s); }
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@Test public void escape(){ StringWriter writer = new StringWriter(); CharEscapeUtil charEscapeUtil = new CustomCharEscapeUtil(writer); charEscapeUtil.writeString("/+\"\\", true); System.out.println(writer.toString()); }
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ManageHousekeepingService implements ChannelEventListener { @Override public void onChannelClose(String remoteAddr, Channel channel) { this.namesrvController.getRouteInfoManager().onChannelDestroy(remoteAddr, channel); } ManageHousekeepingService(NameSrvController namesrvController); @Override void onChannelConnect(String remoteAddr, Channel channel); @Override void onChannelClose(String remoteAddr, Channel channel); @Override void onChannelException(String remoteAddr, Channel channel); @Override void onChannelIdle(String remoteAddr, Channel channel); }
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@Test public void testOnChannelClose() { brokerHousekeepingService.onChannelClose("127.0.0.1:9876", null); }
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ManageHousekeepingService implements ChannelEventListener { @Override public void onChannelException(String remoteAddr, Channel channel) { this.namesrvController.getRouteInfoManager().onChannelDestroy(remoteAddr, channel); } ManageHousekeepingService(NameSrvController namesrvController); @Override void onChannelConnect(String remoteAddr, Channel channel); @Override void onChannelClose(String remoteAddr, Channel channel); @Override void onChannelException(String remoteAddr, Channel channel); @Override void onChannelIdle(String remoteAddr, Channel channel); }
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@Test public void testOnChannelException() { brokerHousekeepingService.onChannelException("127.0.0.1:9876", null); }
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ManageHousekeepingService implements ChannelEventListener { @Override public void onChannelIdle(String remoteAddr, Channel channel) { this.namesrvController.getRouteInfoManager().onChannelDestroy(remoteAddr, channel); } ManageHousekeepingService(NameSrvController namesrvController); @Override void onChannelConnect(String remoteAddr, Channel channel); @Override void onChannelClose(String remoteAddr, Channel channel); @Override void onChannelException(String remoteAddr, Channel channel); @Override void onChannelIdle(String remoteAddr, Channel channel); }
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@Test public void testOnChannelIdle() { brokerHousekeepingService.onChannelException("127.0.0.1:9876", null); }
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RouteInfoManager { public byte[] getGtsManagerInfo() { LiveManageInfo liveManageInfo = new LiveManageInfo(); List<GtsManageLiveAddr> brokerLiveAddrs=this.liveTable.values().stream(). filter(item->Objects.nonNull(item)). map(item-> new GtsManageLiveAddr(item.getGtsManageId(), item.getLastUpdateTimestamp(),item.getGtsManageName(), item.getGtsManageAddr())). collect(Collectors.toList()); liveManageInfo.setGtsManageLiveAddrs(brokerLiveAddrs); return liveManageInfo.encode(); } RouteInfoManager(); byte[] getGtsManagerInfo(); RegisterBrokerResult registerBroker( String brokerAddr, String brokerName, long brokerId, TopicConfigSerializeWrapper topicConfigWrapper, Channel channel); void unregisterBroker( String brokerAddr, String brokerName, long brokerId); void scanNotActiveBroker(); void onChannelDestroy(String remoteAddr, Channel channel); }
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@Test public void testGetAllClusterInfo() { byte[] clusterInfo = routeInfoManager.getGtsManagerInfo(); assertThat(clusterInfo).isNotNull(); }
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DefaultRequestProcessor implements NettyRequestProcessor { @Override public RemotingCommand processRequest(ChannelHandlerContext ctx,RemotingCommand request) throws RemotingCommandException { if (log.isDebugEnabled()) { log.debug("receive request, {} {} {}", request.getCode(), RemotingHelper.parseChannelRemoteAddr(ctx.channel()), request); } switch (request.getCode()) { case RequestCode.REGISTER_MANAGE: return this.registerBrokerWithFilterServer(ctx, request); case RequestCode.UNREGISTER_MANAGE: return this.unregisterBroker(ctx, request); case RequestCode.GET_MANAGE_CLUSTER_INFO: return this.getBrokerClusterInfo(ctx, request); default: break; } return null; } DefaultRequestProcessor(NameSrvController namesrvController); @Override RemotingCommand processRequest(ChannelHandlerContext ctx,RemotingCommand request); @Override boolean rejectRequest(); RemotingCommand registerBrokerWithFilterServer(ChannelHandlerContext ctx, RemotingCommand request); RemotingCommand unregisterBroker(ChannelHandlerContext ctx,RemotingCommand request); }
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@Test public void testProcessRequest_UnregisterBroker() throws RemotingCommandException, NoSuchFieldException, IllegalAccessException { ChannelHandlerContext ctx = mock(ChannelHandlerContext.class); when(ctx.channel()).thenReturn(null); RemotingCommand regRequest = genSampleRegisterCmd(true); defaultRequestProcessor.processRequest(ctx, regRequest); RemotingCommand unregRequest = genSampleRegisterCmd(false); RemotingCommand unregResponse = defaultRequestProcessor.processRequest(ctx, unregRequest); assertThat(unregResponse.getCode()).isEqualTo(ResponseCode.SUCCESS); assertThat(unregResponse.getRemark()).isNull(); RouteInfoManager routes = namesrvController.getRouteInfoManager(); Field brokerAddrTable = RouteInfoManager.class.getDeclaredField("brokerAddrTable"); brokerAddrTable.setAccessible(true); assertThat((Map) brokerAddrTable.get(routes)).isNotEmpty(); }
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FrequentlyRelatedContentRequestParameterValidator implements SearchRequestParameterValidator { @Override public ValidationMessage validateParameters(Map<String, String> requestParameters) { String id = requestParameters.get(idParameter); if(id == null || id.length()==0) return INVALID_ID_MESSAGE; else return VALID_ID_MESSAGE; } FrequentlyRelatedContentRequestParameterValidator(Configuration configuration); @Override ValidationMessage validateParameters(Map<String, String> requestParameters); final ValidationMessage VALID_ID_MESSAGE; final ValidationMessage INVALID_ID_MESSAGE; }
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@Test public void testMissingIdParameterReturnsInvalidMessage() { ValidationMessage message = validator.validateParameters(new HashMap<String, String>()); assertSame(message,validator.INVALID_ID_MESSAGE); }
@Test public void testIdParameterReturnsValidMessage() { ValidationMessage message = validator.validateParameters(new HashMap<String, String>(){{ put(configuration.getKeyForFrequencyResultId(),"11111");}}); assertSame(message,validator.VALID_ID_MESSAGE); }
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DisruptorBasedRelatedItemIndexRequestProcessor implements RelatedItemIndexRequestProcessor { @Override public IndexRequestPublishingStatus processRequest(Configuration config, ByteBuffer data) { if(canIndex) { try { boolean published = ringBuffer.tryPublishEvent(requestConverter.createConverter(config,data)); return published ? IndexRequestPublishingStatus.PUBLISHED : IndexRequestPublishingStatus.NO_SPACE_AVALIABLE; } catch(InvalidIndexingRequestException e) { log.warn("Invalid json content, unable to process request: {}", e.getMessage()); if(log.isDebugEnabled()) { if(canOutputRequestData && data.hasArray()) { log.debug("content requested to be indexed: {}", Arrays.toString(data.array())); } } return IndexRequestPublishingStatus.FAILED; } } else { log.error("The indexing processor has been shutdown, and cannot accept requests."); return IndexRequestPublishingStatus.PUBLISHER_SHUTDOWN; } } DisruptorBasedRelatedItemIndexRequestProcessor(Configuration configuration,
IndexingRequestConverterFactory requestConverter,
EventFactory<RelatedItemIndexingMessage> indexingMessageFactory,
RelatedItemIndexingMessageEventHandler eventHandler
); @Override IndexRequestPublishingStatus processRequest(Configuration config, ByteBuffer data); @PreDestroy void shutdown(); }
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@Test public void testHandlerIsNotExecutedWithIndexingRequestWithTooManyProducts() { String json = "{" + " \"channel\" : 1.0," + " \"site\" : \"amazon\"," + " \"items\" : [ \"1\",\"2\",\"3\",\"4\",\"5\" ]"+ "}"; processor.processRequest(configuation, ByteBuffer.wrap(json.getBytes())); assertEquals(0,handler.getNumberOfCalls()); }
@Test public void testHandlerIsNotExecutedWithIndexingRequestWithNoProducts() { String json = "{" + " \"channel\" : 1.0," + " \"site\" : \"amazon\"," + " \"items\" : [ ]"+ "}"; processor.processRequest(configuation, ByteBuffer.wrap(json.getBytes())); assertEquals(0,handler.getNumberOfCalls()); }
@Test public void testHandlerIsCalled() { String json = "{" + " \"channel\" : 1.0," + " \"site\" : \"amazon\"," + " \"items\" : [ \"1\" ]"+ "}"; processor.processRequest(configuation, ByteBuffer.wrap(json.getBytes())); try { handler.getLatch().await(5000, TimeUnit.MILLISECONDS); } catch(Exception e) { fail("Failed waiting for disruptor to call the handler"); } assertEquals(1,handler.getNumberOfCalls()); }
@Test public void testHandlerIsNotExecutedWithEmptyRequestData() { processor.processRequest(configuation, ByteBuffer.wrap(new byte[0])); assertEquals(0,handler.getNumberOfCalls()); }
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SystemPropertiesConfiguration implements Configuration { public int getSizeOfRelatedItemSearchRequestHandlerQueue() { return SIZE_OF_RELATED_CONTENT_SEARCH_REQUEST_HANDLER_QUEUE; } SystemPropertiesConfiguration(); protected SystemPropertiesConfiguration(Map<String,Object> properties); static Map<String,Object> mergeProperties(Map<String,Object> defaultProperties,
Map<String,Object> overrides); static Map<String,Object> replaceProperties(Map<String,Object> defaultProperties,
Map<String,Object> overrides); static Map<String,Object> parseSystemProperties(); static Map<String,Object> parseProperties(Map<String,String> propertiesToConvert); WaitStrategyFactory getWaitStrategyFactory(); int getMaxNumberOfSearchCriteriaForRelatedContent(); int getSizeOfRelatedItemSearchRequestHandlerQueue(); int getSizeOfRelatedItemSearchRequestQueue(); @Override int getSizeOfRelatedItemSearchRequestAndResponseQueue(); @Override int getSizeOfResponseProcessingQueue(); @Override int getNumberOfSearchingRequestProcessors(); @Override int getNumberOfExpectedLikeForLikeRequests(); @Override String getKeyForFrequencyResultOccurrence(); @Override String getKeyForFrequencyResultId(); @Override String getKeyForFrequencyResults(); @Override String getKeyForFrequencyResultOverallResultsSize(); @Override String getKeyForFrequencyResultSource(); @Override String getKeyForIndexRequestRelatedWithAttr(); @Override String getKeyForIndexRequestDateAttr(); @Override String getKeyForIndexRequestIdAttr(); @Override String getKeyForIndexRequestProductArrayAttr(); @Override String getRequestParameterForSize(); @Override String getRequestParameterForId(); @Override int getDefaultNumberOfResults(); @Override String getStorageIndexNamePrefix(); @Override String getStorageIndexNameAlias(); @Override String getStorageContentTypeName(); @Override String getStorageClusterName(); @Override String getStorageFrequentlyRelatedItemsFacetResultsFacetName(); @Override String getElasticSearchClientDefaultNodeSettingFileName(); @Override String getElasticSearchClientDefaultTransportSettingFileName(); @Override String getElasticSearchClientOverrideSettingFileName(); @Override String getStorageLocationMapper(); @Override long getFrequentlyRelatedItemsSearchTimeoutInMillis(); @Override int getResponseCode(SearchResultsOutcome type); @Override int getTimedOutSearchRequestStatusCode(); @Override int getFailedSearchRequestStatusCode(); @Override int getNoFoundSearchResultsStatusCode(); @Override int getFoundSearchResultsStatusCode(); @Override int getMissingSearchResultsHandlerStatusCode(); @Override int getNumberOfIndexingRequestProcessors(); @Override int getMaxNumberOfRelatedItemProperties(); @Override int getMaxNumberOfRelatedItemsPerItem(); @Override int getRelatedItemIdLength(); @Override int getMaxRelatedItemPostDataSizeInBytes(); @Override int getMinRelatedItemPostDataSizeInBytes(); @Override int getRelatedItemAdditionalPropertyKeyLength(); @Override int getRelatedItemAdditionalPropertyValueLength(); @Override boolean isSearchResponseDebugOutputEnabled(); @Override int getIndexBatchSize(); @Override int getSizeOfBatchIndexingRequestQueue(); @Override int getSizeOfIncomingMessageQueue(); @Override String getPropertyEncoding(); @Override boolean isIndexNameDateCachingEnabled(); @Override int getNumberOfIndexNamesToCache(); @Override boolean getShouldReplaceOldContentIfExists(); @Override boolean getShouldUseSeparateIndexStorageThread(); @Override boolean shouldDiscardIndexRequestWithTooManyRelations(); @Override ElasticeSearchClientType getElasticSearchClientType(); @Override String getElasticSearchTransportHosts(); @Override int getDefaultElasticSearchPort(); @Override String getElasticSearchHttpHosts(); @Override int getElasticSearchHttpPort(); @Override String getKeyForStorageResponseTime(); @Override String getKeyForStorageGetResponseTime(); @Override String getKeyForSearchProcessingResponseTime(); @Override boolean useSharedSearchRepository(); @Override boolean isSafeToOutputRequestData(); @Override String getStorageFacetExecutionHint(); int getElasticSearchHttpRequestTimeoutMs(); int getElasticSearchHttpConnectionTimeoutMs(); int getElasticSearchHttpNoOfRetries(); boolean getElasticSearchHttpFollowRedirects(); boolean getElasticSearchHttpConnectionPoolingEnabled(); boolean getElasticSearchHttpCompressionEnabled(); int getElasticSearchNodeSniffingHttpRequestTimeoutMs(); int getElasticSearchNodeSniffingHttpConnectionTimeoutMs(); int getElasticSearchNodeSniffingHttpNoOfRetries(); @Override String getElasticSearchNodesSniffingHttpAdminEndpoint(); @Override int getElasticSearchNodesSniffingHttpRetryInterval(); @Override TimeUnit getElasticSearchNodesSniffingRetryIntervalUnit(); @Override boolean getElasticSearchNodesSniffingEnabled(); @Override int getHttpAsyncIndexingRequestTimeout(); @Override int getHttpAsyncSearchingRequestTimeout(); @Override String getRelatedItemsDocumentIndexName(); @Override String getRelatedItemsDocumentTypeName(); @Override String getRelatedItemsDocumentMergingScriptName(); @Override boolean getRelatedItemsDocumentIndexingEnabled(); @Override String getRelatedItemsDocumentComparisonKeyName(); @Override boolean getRemoveRelatedItemsDocumentDateAttribute(); String getElasticSearchMultiSearchEndpoint(); String getElasticSearchMultiGetEndpoint(); }
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@Test public void testSearchHandlerSize() { System.setProperty(ConfigurationConstants.PROPNAME_SIZE_OF_RELATED_CONTENT_SEARCH_REQUEST_QUEUE, "32768"); SystemPropertiesConfiguration config = new SystemPropertiesConfiguration(); System.out.println(Util.ceilingNextPowerOfTwo(config.getSizeOfRelatedItemSearchRequestHandlerQueue())); }
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RelatedItemSearch { public RelatedItemSearch copy(Configuration config) { RelatedItemSearch newCopy = new RelatedItemSearch(config,this.getAdditionalSearchCriteria().getNumberOfProperties()); newCopy.setRelatedItemId(this.relatedItemId); newCopy.setMaxResults(this.maxResults); newCopy.setRelatedItemSearchType(this.searchType); newCopy.setLookupKey(this.getLookupKey()); newCopy.setStartOfRequestNanos(this.getStartOfRequestNanos()); this.additionalSearchCriteria.copyTo(newCopy.additionalSearchCriteria); return newCopy; } RelatedItemSearch(Configuration config); RelatedItemSearch(Configuration config,int numberOfAdditionalSearchCriteria); void setMaxResults(int maxResults); int getMaxResults(); RelatedItemAdditionalProperties getAdditionalSearchCriteria(); void setRelatedItemId(String id); String getRelatedItemId(); RelatedItemInfoIdentifier getRelatedContentIdentifier(); RelatedItemSearchType getRelatedItemSearchType(); void setRelatedItemSearchType(RelatedItemSearchType searchType); RelatedItemSearch copy(Configuration config); void setLookupKey(SearchRequestLookupKey key); SearchRequestLookupKey getLookupKey(); long getStartOfRequestNanos(); void setStartOfRequestNanos(long startOfRequestNanos); static final String RESULTS_SET_SIZE_KEY; static final String ID_KEY; static final int RESULTS_SET_SIZE_KEY_LENGTH; static final int ID_KEY_LENGTH; }
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@Test public void testCopy() { Configuration c = new SystemPropertiesConfiguration(); RelatedItemSearch searchObject = new RelatedItemSearch(new SystemPropertiesConfiguration()); searchObject.getAdditionalSearchCriteria().addProperty("key","value"); searchObject.getAdditionalSearchCriteria().addProperty("request","response"); searchObject.setRelatedItemId("I am a unique identifier"); searchObject.setMaxResults(1); searchObject.setRelatedItemSearchType(RelatedItemSearchType.FREQUENTLY_RELATED_WITH); RelatedItemSearchLookupKeyGenerator factory = new KeyFactoryBasedRelatedItemSearchLookupKeyGenerator(c,new SipHashSearchRequestLookupKeyFactory()); factory.setSearchRequestLookupKeyOn(searchObject); RelatedItemSearch copy = searchObject.copy(c); assertNotSame(copy,searchObject); assertEquals(copy.getMaxResults(),searchObject.getMaxResults()); assertEquals(copy.getRelatedItemId(),searchObject.getRelatedItemId()); assertEquals(copy.getRelatedItemSearchType(),searchObject.getRelatedItemSearchType()); assertEquals(copy.getLookupKey(),searchObject.getLookupKey()); assertEquals(copy.getAdditionalSearchCriteria().getNumberOfProperties(),searchObject.getAdditionalSearchCriteria().getNumberOfProperties()); assertEquals(copy.getAdditionalSearchCriteria().getPropertyName(0),searchObject.getAdditionalSearchCriteria().getPropertyName(0)); assertEquals(copy.getAdditionalSearchCriteria().getPropertyName(1),searchObject.getAdditionalSearchCriteria().getPropertyName(1)); assertEquals(copy.getAdditionalSearchCriteria().getPropertyValue(0),searchObject.getAdditionalSearchCriteria().getPropertyValue(0)); assertEquals(copy.getAdditionalSearchCriteria().getPropertyValue(1),searchObject.getAdditionalSearchCriteria().getPropertyValue(1)); assertNotSame(copy.getRelatedContentIdentifier(),searchObject.getRelatedContentIdentifier()); assertEquals(copy.getRelatedContentIdentifier().toString(),searchObject.getRelatedContentIdentifier().toString()); }
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