/** * Trims the capacity of the receiver to be the receiver's current * size. Releases any superfluous internal memory. An application can use this operation to minimize the * storage of the receiver. */ public void trimToSize() { elements = cern.colt.Arrays.trimToCapacity(elements,size()); } }
/** * Trims the capacity of the receiver to be the receiver's current * size. An application can use this operation to minimize the * storage of the receiver. */ public void trimToSize() { elements = cern.colt.Arrays.trimToCapacity(elements,size()); } }
/** * Trims the capacity of the receiver to be the receiver's current * size. Releases any superfluous internal memory. An application can use this operation to minimize the * storage of the receiver. */ public void trimToSize() { elements = cern.colt.Arrays.trimToCapacity(elements,size()); } }
/** * Trims the capacity of the receiver to be the receiver's current size. * Releases any superfluous internal memory. An application can use this * operation to minimize the storage of the receiver. */ public void trimToSize() { elements = cern.colt.Arrays.trimToCapacity(elements, size()); } }
/** * Trims the capacity of the receiver to be the receiver's current size. * Releases any superfluos internal memory. An application can use this * operation to minimize the storage of the receiver. */ public void trimToSize() { elements = cern.colt.Arrays.trimToCapacity(elements, size()); } }
/** * Trims the capacity of the receiver to be the receiver's current * size. Releases any superfluos internal memory. An application can use this operation to minimize the * storage of the receiver. */ public void trimToSize() { elements = cern.colt.Arrays.trimToCapacity(elements,size()); } }
/** * Trims the capacity of the receiver to be the receiver's current * size. Releases any superfluos internal memory. An application can use this operation to minimize the * storage of the receiver. */ public void trimToSize() { elements = cern.colt.Arrays.trimToCapacity(elements,size()); } }
/** * Trims the capacity of the receiver to be the receiver's current * size. Releases any superfluos internal memory. An application can use this operation to minimize the * storage of the receiver. */ public void trimToSize() { elements = cern.colt.Arrays.trimToCapacity(elements,size()); } }
/** * Trims the capacity of the receiver to be the receiver's current * size. Releases any superfluos internal memory. An application can use this operation to minimize the * storage of the receiver. */ public void trimToSize() { elements = cern.colt.Arrays.trimToCapacity(elements,size()); } }
/** * Trims the capacity of the receiver to be the receiver's current * size. Releases any superfluous internal memory. An application can use this operation to minimize the * storage of the receiver. */ public void trimToSize() { elements = cern.colt.Arrays.trimToCapacity(elements,size()); } }
/** * Trims the capacity of the receiver to be the receiver's current * size. Releases any superfluos internal memory. An application can use this operation to minimize the * storage of the receiver. */ public void trimToSize() { elements = cern.colt.Arrays.trimToCapacity(elements,size()); } }
/** * Trims the capacity of the receiver to be the receiver's current size. * Releases any superfluous internal memory. An application can use this * operation to minimize the storage of the receiver. */ public void trimToSize() { elements = cern.colt.Arrays.trimToCapacity(elements, size()); } }
/** * Trims the capacity of the receiver to be the receiver's current * size. Releases any superfluos internal memory. An application can use this operation to minimize the * storage of the receiver. */ public void trimToSize() { elements = cern.colt.Arrays.trimToCapacity(elements,size()); } }
/** * Trims the capacity of the receiver to be the receiver's current * size. Releases any superfluous internal memory. An application can use this operation to minimize the * storage of the receiver. */ public void trimToSize() { elements = cern.colt.Arrays.trimToCapacity(elements,size()); } }
/** * Trims the capacity of the receiver to be the receiver's current size. * Releases any superfluos internal memory. An application can use this * operation to minimize the storage of the receiver. */ public void trimToSize() { elements = cern.colt.Arrays.trimToCapacity(elements, size()); } }
/** * Trims the capacity of the receiver to be the receiver's current size. An * application can use this operation to minimize the storage of the * receiver. */ public void trimToSize() { elements = cern.colt.Arrays.trimToCapacity(elements, size()); } }
/** * Trims the capacity of the receiver to be the receiver's current size. * Releases any superfluos internal memory. An application can use this * operation to minimize the storage of the receiver. */ public void trimToSize() { elements = cern.colt.Arrays.trimToCapacity(elements, size()); } }
/** * Trims the capacity of the receiver to be the receiver's current size. * Releases any superfluos internal memory. An application can use this * operation to minimize the storage of the receiver. */ public void trimToSize() { elements = cern.colt.Arrays.trimToCapacity(elements, size()); } }
/** * Trims the capacity of the receiver to be the receiver's current size. * Releases any superfluos internal memory. An application can use this * operation to minimize the storage of the receiver. */ public void trimToSize() { elements = cern.colt.Arrays.trimToCapacity(elements, size()); } }
/** * Trims the capacity of the receiver to be the receiver's current size. * Releases any superfluos internal memory. An application can use this * operation to minimize the storage of the receiver. */ public void trimToSize() { elements = cern.colt.Arrays.trimToCapacity(elements, size()); } }