/** * Constructs a new empty updatable map of the default expected size. * * <p>This method simply delegates to {@link #getDefaultFactory() * }<tt>.</tt>{@link HashIntFloatMapFactory#newUpdatableMap() newUpdatableMap()}. * * @return a new empty updatable map */ @Nonnull public static HashIntFloatMap newUpdatableMap() { return getDefaultFactory().newUpdatableMap(); }
/** * Constructs a new empty updatable map of the default expected size. * * <p>This method simply delegates to {@link #getDefaultFactory() * }<tt>.</tt>{@link HashIntFloatMapFactory#newUpdatableMap() newUpdatableMap()}. * * @return a new empty updatable map */ @Nonnull public static HashIntFloatMap newUpdatableMap() { return getDefaultFactory().newUpdatableMap(); }
/** * Constructs a new empty updatable map of the given expected size. * * <p>This method simply delegates to {@link #getDefaultFactory() * }<tt>.</tt>{@link HashIntFloatMapFactory#newUpdatableMap(int) newUpdatableMap(expectedSize)}. * * @param expectedSize the expected size of the returned map * @return a new empty updatable map of the given expected size */ @Nonnull public static HashIntFloatMap newUpdatableMap(int expectedSize) { return getDefaultFactory().newUpdatableMap(expectedSize); }
/** * Constructs a new empty updatable map of the given expected size. * * <p>This method simply delegates to {@link #getDefaultFactory() * }<tt>.</tt>{@link HashIntFloatMapFactory#newUpdatableMap(int) newUpdatableMap(expectedSize)}. * * @param expectedSize the expected size of the returned map * @return a new empty updatable map of the given expected size */ @Nonnull public static HashIntFloatMap newUpdatableMap(int expectedSize) { return getDefaultFactory().newUpdatableMap(expectedSize); }
/** * Constructs a new updatable map with the same mappings as the specified {@code map}. * * * * <p>This method simply delegates to {@link #getDefaultFactory() * }<tt>.</tt>{@link HashIntFloatMapFactory#newUpdatableMap( * Map) newUpdatableMap(map)}. * * @param map the map whose mappings are to be placed in the returned map * * @return a new updatable map with the same mappings as the specified {@code map} */ @Nonnull public static HashIntFloatMap newUpdatableMap( @Nonnull Map<Integer, Float> map) { return getDefaultFactory().newUpdatableMap(map); }
/** * Constructs a new updatable map with the same mappings as the specified {@code map}. * * * * <p>This method simply delegates to {@link #getDefaultFactory() * }<tt>.</tt>{@link HashIntFloatMapFactory#newUpdatableMap( * Map) newUpdatableMap(map)}. * * @param map the map whose mappings are to be placed in the returned map * * @return a new updatable map with the same mappings as the specified {@code map} */ @Nonnull public static HashIntFloatMap newUpdatableMap( @Nonnull Map<Integer, Float> map) { return getDefaultFactory().newUpdatableMap(map); }
/** * Constructs a new updatable map which merge the mappings of the specified maps. On conflict, * mappings from the {@code map2} have priority over mappings from the {@code map1} with * the same keys. * * <p>This method simply delegates to {@link #getDefaultFactory() * }<tt>.</tt>{@link HashIntFloatMapFactory#newUpdatableMap(Map, * Map) newUpdatableMap(map1, map2)}. * * @param map1 the first map to merge * @param map2 the second map to merge * * @return a new updatable map which merge the mappings of the specified maps */ @Nonnull public static HashIntFloatMap newUpdatableMap( @Nonnull Map<Integer, Float> map1, @Nonnull Map<Integer, Float> map2) { return getDefaultFactory().newUpdatableMap(map1, map2); }
/** * Constructs a new updatable map which merge the mappings of the specified maps. On conflict, * mappings from the {@code map2} have priority over mappings from the {@code map1} with * the same keys. * * <p>This method simply delegates to {@link #getDefaultFactory() * }<tt>.</tt>{@link HashIntFloatMapFactory#newUpdatableMap(Map, * Map, int) newUpdatableMap(map1, map2, expectedSize)}. * * @param map1 the first map to merge * @param map2 the second map to merge * @param expectedSize the expected size of the returned map * @return a new updatable map which merge the mappings of the specified maps */ @Nonnull public static HashIntFloatMap newUpdatableMap( @Nonnull Map<Integer, Float> map1, @Nonnull Map<Integer, Float> map2, int expectedSize) { return getDefaultFactory().newUpdatableMap(map1, map2, expectedSize); }
/** * Constructs a new updatable map which merge the mappings of the specified maps. On conflict, * mappings from the {@code map2} have priority over mappings from the {@code map1} with * the same keys. * * <p>This method simply delegates to {@link #getDefaultFactory() * }<tt>.</tt>{@link HashIntFloatMapFactory#newUpdatableMap(Map, * Map) newUpdatableMap(map1, map2)}. * * @param map1 the first map to merge * @param map2 the second map to merge * * @return a new updatable map which merge the mappings of the specified maps */ @Nonnull public static HashIntFloatMap newUpdatableMap( @Nonnull Map<Integer, Float> map1, @Nonnull Map<Integer, Float> map2) { return getDefaultFactory().newUpdatableMap(map1, map2); }
/** * Constructs a new updatable map filled with mappings consumed by the callback within the given * closure. Mappings supplied later within the closure have priority over the mappings * passed earlier with the same keys. * * <p>Example: TODO * * <p>This method simply delegates to {@link #getDefaultFactory() * }<tt>.</tt>{@link HashIntFloatMapFactory#newUpdatableMap( * Consumer, int) newUpdatableMap(entriesSupplier, expectedSize)}. * * @param entriesSupplier the function which supply mappings for the returned map via * the callback passed in * @param expectedSize the expected size of the returned map * @return a new updatable map with mappings consumed by the callback within the given closure */ @Nonnull public static HashIntFloatMap newUpdatableMap(@Nonnull Consumer<com.koloboke.function.IntFloatConsumer> entriesSupplier , int expectedSize) { return getDefaultFactory().newUpdatableMap(entriesSupplier, expectedSize); }
/** * Constructs a new updatable map filled with mappings consumed by the callback within the given * closure. Mappings supplied later within the closure have priority over the mappings * passed earlier with the same keys. * * <p>Example: TODO * * <p>This method simply delegates to {@link #getDefaultFactory() * }<tt>.</tt>{@link HashIntFloatMapFactory#newUpdatableMap( * Consumer) newUpdatableMap(entriesSupplier)}. * * @param entriesSupplier the function which supply mappings for the returned map via * the callback passed in * * @return a new updatable map with mappings consumed by the callback within the given closure */ @Nonnull public static HashIntFloatMap newUpdatableMap(@Nonnull Consumer<com.koloboke.function.IntFloatConsumer> entriesSupplier ) { return getDefaultFactory().newUpdatableMap(entriesSupplier); }
/** * Constructs a new updatable map which merge the mappings of the specified maps. On conflict, * mappings from the {@code map2} have priority over mappings from the {@code map1} with * the same keys. * * <p>This method simply delegates to {@link #getDefaultFactory() * }<tt>.</tt>{@link HashIntFloatMapFactory#newUpdatableMap(Map, * Map, int) newUpdatableMap(map1, map2, expectedSize)}. * * @param map1 the first map to merge * @param map2 the second map to merge * @param expectedSize the expected size of the returned map * @return a new updatable map which merge the mappings of the specified maps */ @Nonnull public static HashIntFloatMap newUpdatableMap( @Nonnull Map<Integer, Float> map1, @Nonnull Map<Integer, Float> map2, int expectedSize) { return getDefaultFactory().newUpdatableMap(map1, map2, expectedSize); }
/** * Constructs a new updatable map with the given mappings, i. e. pairs of elements from * the {@code keys} and {@code values} arrays at the same index. If {@code keys} array have * duplicate elements, value corresponding the key with the highest index is left * in the returned map. * * <p>This method simply delegates to {@link #getDefaultFactory() * }<tt>.</tt>{@link HashIntFloatMapFactory#newUpdatableMap(int[], float[], int * ) newUpdatableMap(keys, values, expectedSize)}. * * @param keys the keys of the returned map * @param values the values of the returned map, each value is associated with the element * of the {@code keys} array at the same index * @param expectedSize the expected size of the returned map * @return a new updatable map with the given mappings * @throws IllegalArgumentException if {@code keys} and {@code values} arrays have different * length */ @Nonnull public static HashIntFloatMap newUpdatableMap( @Nonnull int[] keys, @Nonnull float[] values, int expectedSize) { return getDefaultFactory().newUpdatableMap(keys, values, expectedSize); }
/** * Constructs a new updatable map with the given mappings, i. e. pairs of elements from * the {@code keys} and {@code values} iterables at the same iteration position. If {@code keys} * have duplicate elements, value corresponding the key appeared last in the iteration is left * in the returned map. * * <p>This method simply delegates to {@link #getDefaultFactory() * }<tt>.</tt>{@link HashIntFloatMapFactory#newUpdatableMap(Iterable, Iterable * ) newUpdatableMap(keys, values)}. * * @param keys the keys of the returned map * @param values the values of the returned map, each value is associated with the element * of the {@code keys} iterable at the same iteration position * * @return a new updatable map with the given mappings * @throws IllegalArgumentException if {@code keys} and {@code values} have different size */ @Nonnull public static HashIntFloatMap newUpdatableMap( @Nonnull Iterable<Integer> keys, @Nonnull Iterable<Float> values ) { return getDefaultFactory().newUpdatableMap(keys, values); }
/** * Constructs a new updatable map which merge the mappings of the specified maps. On conflict, * mappings from the maps passed later in the argument list have priority over mappings * from the maps passed earlier with the same keys. * * <p>This method simply delegates to {@link #getDefaultFactory() * }<tt>.</tt>{@link HashIntFloatMapFactory#newUpdatableMap(Map, Map, * Map) newUpdatableMap(map1, map2, map3)}. * * @param map1 the first map to merge * @param map2 the second map to merge * @param map3 the third map to merge * * @return a new updatable map which merge the mappings of the specified maps */ @Nonnull public static HashIntFloatMap newUpdatableMap( @Nonnull Map<Integer, Float> map1, @Nonnull Map<Integer, Float> map2, @Nonnull Map<Integer, Float> map3) { return getDefaultFactory().newUpdatableMap(map1, map2, map3); }
/** * Constructs a new updatable map which merge the mappings of the specified maps. On conflict, * mappings from the maps passed later in the argument list have priority over mappings * from the maps passed earlier with the same keys. * * <p>This method simply delegates to {@link #getDefaultFactory() * }<tt>.</tt>{@link HashIntFloatMapFactory#newUpdatableMap(Map, Map, * Map, int) newUpdatableMap(map1, map2, map3, expectedSize)}. * * @param map1 the first map to merge * @param map2 the second map to merge * @param map3 the third map to merge * @param expectedSize the expected size of the returned map * @return a new updatable map which merge the mappings of the specified maps */ @Nonnull public static HashIntFloatMap newUpdatableMap( @Nonnull Map<Integer, Float> map1, @Nonnull Map<Integer, Float> map2, @Nonnull Map<Integer, Float> map3, int expectedSize) { return getDefaultFactory().newUpdatableMap(map1, map2, map3, expectedSize); }
/** * Constructs a new updatable map which merge the mappings of the specified maps. On conflict, * mappings from the maps passed later in the argument list have priority over mappings * from the maps passed earlier with the same keys. * * <p>This method simply delegates to {@link #getDefaultFactory() * }<tt>.</tt>{@link HashIntFloatMapFactory#newUpdatableMap(Map, Map, * Map) newUpdatableMap(map1, map2, map3)}. * * @param map1 the first map to merge * @param map2 the second map to merge * @param map3 the third map to merge * * @return a new updatable map which merge the mappings of the specified maps */ @Nonnull public static HashIntFloatMap newUpdatableMap( @Nonnull Map<Integer, Float> map1, @Nonnull Map<Integer, Float> map2, @Nonnull Map<Integer, Float> map3) { return getDefaultFactory().newUpdatableMap(map1, map2, map3); }
/** * Constructs a new updatable map which merge the mappings of the specified maps. On conflict, * mappings from the maps passed later in the argument list have priority over mappings * from the maps passed earlier with the same keys. * * <p>This method simply delegates to {@link #getDefaultFactory() * }<tt>.</tt>{@link HashIntFloatMapFactory#newUpdatableMap(Map, Map, * Map, int) newUpdatableMap(map1, map2, map3, expectedSize)}. * * @param map1 the first map to merge * @param map2 the second map to merge * @param map3 the third map to merge * @param expectedSize the expected size of the returned map * @return a new updatable map which merge the mappings of the specified maps */ @Nonnull public static HashIntFloatMap newUpdatableMap( @Nonnull Map<Integer, Float> map1, @Nonnull Map<Integer, Float> map2, @Nonnull Map<Integer, Float> map3, int expectedSize) { return getDefaultFactory().newUpdatableMap(map1, map2, map3, expectedSize); }
/** * Constructs a new updatable map filled with mappings consumed by the callback within the given * closure. Mappings supplied later within the closure have priority over the mappings * passed earlier with the same keys. * * <p>Example: TODO * * <p>This method simply delegates to {@link #getDefaultFactory() * }<tt>.</tt>{@link HashIntFloatMapFactory#newUpdatableMap( * Consumer, int) newUpdatableMap(entriesSupplier, expectedSize)}. * * @param entriesSupplier the function which supply mappings for the returned map via * the callback passed in * @param expectedSize the expected size of the returned map * @return a new updatable map with mappings consumed by the callback within the given closure */ @Nonnull public static HashIntFloatMap newUpdatableMap(@Nonnull Consumer<com.koloboke.function.IntFloatConsumer> entriesSupplier , int expectedSize) { return getDefaultFactory().newUpdatableMap(entriesSupplier, expectedSize); }
/** * Constructs a new updatable map with the given mappings, i. e. pairs of elements from * the {@code keys} and {@code values} arrays at the same index. If {@code keys} array have * duplicate elements, value corresponding the key with the highest index is left * in the returned map. * * <p>This method simply delegates to {@link #getDefaultFactory() * }<tt>.</tt>{@link HashIntFloatMapFactory#newUpdatableMap(Integer[], * Float[]) newUpdatableMap(keys, values)}. * * @param keys the keys of the returned map * @param values the values of the returned map, each value is associated with the element * of the {@code keys} array at the same index * * @return a new updatable map with the given mappings * @throws IllegalArgumentException if {@code keys} and {@code values} arrays have different * length */ @Nonnull public static HashIntFloatMap newUpdatableMap( @Nonnull Integer[] keys, @Nonnull Float[] values) { return getDefaultFactory().newUpdatableMap(keys, values); }