public Array<K> toArray (Array array) { array.addAll(map.keys, index, map.size - index); return array; } }
public Array<V> toArray (Array array) { array.addAll(map.values, index, map.size - index); return array; } }
public Array<V> toArray (Array array) { array.addAll(map.values, index, map.size - index); return array; } }
@Override public void flush () { freeMeshes.addAll(usedMeshes); usedMeshes.clear(); }
@Override public void flush () { freeMeshes.addAll(usedMeshes); usedMeshes.clear(); }
@Override public void read (Json json, JsonValue jsonData) { velocities.addAll(json.readValue("velocities", Array.class, DynamicsModifier.class, jsonData)); } }
public OrderedSet (OrderedSet set) { super(set); items = new Array(capacity); items.addAll(set.items); }
@Override public void read (Json json, JsonValue jsonData) { velocities.addAll(json.readValue("velocities", Array.class, DynamicsModifier.class, jsonData)); } }
public void clearSelection(){ unselectedRegions.addAll(selectedRegions); selectedRegions.clear(); repaint(); }
public void setRegions(Array<TextureRegion> regions){ unselectedRegions.clear(); selectedRegions.clear(); unselectedRegions.addAll(regions); }
public void selectAll () { selectedRegions.addAll(unselectedRegions); unselectedRegions.clear(); repaint(); }
@Override public void read (Json json, JsonValue jsonData) { regions.clear(); regions.addAll(json.readValue("regions", Array.class, AspectTextureRegion.class, jsonData)); } }
public void clearSelection(){ unselectedRegions.addAll(selectedRegions); selectedRegions.clear(); repaint(); }
@Override public void read (Json json, JsonValue jsonData) { regions.clear(); regions.addAll(json.readValue("regions", Array.class, AspectTextureRegion.class, jsonData)); } }
public boolean executeRunnables () { synchronized (runnables) { for (int i = runnables.size - 1; i >= 0; i--) executedRunnables.addAll(runnables.get(i)); runnables.clear(); } if (executedRunnables.size == 0) return false; do executedRunnables.pop().run(); while (executedRunnables.size > 0); return true; }
@Override public void read (Json json, JsonValue jsonMap) { name = json.readValue("name", String.class, jsonMap); emitter = json.readValue("emitter", Emitter.class, jsonMap); influencers.addAll(json.readValue("influencers", Array.class, Influencer.class, jsonMap)); renderer = json.readValue("renderer", ParticleControllerRenderer.class, jsonMap); }
@Override public void read (Json json, JsonValue jsonMap) { name = json.readValue("name", String.class, jsonMap); emitter = json.readValue("emitter", Emitter.class, jsonMap); influencers.addAll(json.readValue("influencers", Array.class, Influencer.class, jsonMap)); renderer = json.readValue("renderer", ParticleControllerRenderer.class, jsonMap); }
/** Set the backing Array that makes up the choices available in the SelectBox */ public void setItems (T... newItems) { if (newItems == null) throw new IllegalArgumentException("newItems cannot be null."); float oldPrefWidth = getPrefWidth(); items.clear(); items.addAll(newItems); selection.validate(); selectBoxList.list.setItems(items); invalidate(); if (oldPrefWidth != getPrefWidth()) invalidateHierarchy(); }
public Bezier set (final Array<T> points, final int offset, final int length) { if (length < 2 || length > 4) throw new GdxRuntimeException("Only first, second and third degree Bezier curves are supported."); if (tmp == null) tmp = points.get(0).cpy(); if (tmp2 == null) tmp2 = points.get(0).cpy(); if (tmp3 == null) tmp3 = points.get(0).cpy(); this.points.clear(); this.points.addAll(points, offset, length); return this; }
public Bezier set (final Array<T> points, final int offset, final int length) { if (length < 2 || length > 4) throw new GdxRuntimeException("Only first, second and third degree Bezier curves are supported."); if (tmp == null) tmp = points.get(0).cpy(); if (tmp2 == null) tmp2 = points.get(0).cpy(); if (tmp3 == null) tmp3 = points.get(0).cpy(); this.points.clear(); this.points.addAll(points, offset, length); return this; }