/////////////////////////////////////////////////////////////////////////////// // Copyright (c) 2009, Rob Eden All Rights Reserved. // Copyright (c) 2009, Jeff Randall All Rights Reserved. // // This library is free software; you can redistribute it and/or // modify it under the terms of the GNU Lesser General Public // License as published by the Free Software Foundation; either // version 2.1 of the License, or (at your option) any later version. // // This library is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU General Public License for more details. // // You should have received a copy of the GNU Lesser General Public // License along with this program; if not, write to the Free Software // Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. /////////////////////////////////////////////////////////////////////////////// package gnu.trove.list; ////////////////////////////////////////////////// // THIS IS A GENERATED CLASS. DO NOT HAND EDIT! // ////////////////////////////////////////////////// import gnu.trove.function.*; import gnu.trove.procedure.*; import gnu.trove.TFloatCollection; import java.io.Serializable; import java.util.Random; /** * Interface for Trove list implementations. */ public interface TFloatList extends TFloatCollection { /** * Returns the value that is used to represent null. The default * value is generally zero, but can be changed during construction * of the collection. * * @return the value that represents null */ public float getNoEntryValue(); /** * Returns the number of values in the list. * * @return the number of values in the list. */ public int size(); /** * Tests whether this list contains any values. * * @return true if the list is empty. */ public boolean isEmpty(); /** * Adds <tt>val</tt> to the end of the list, growing as needed. * * @param val an <code>float</code> value * @return true if the list was modified by the add operation */ public boolean add(float val); /** * Adds the values in the array <tt>vals</tt> to the end of the * list, in order. * * @param vals an <code>float[]</code> value */ public void add( float[] vals ); /** * Adds a subset of the values in the array <tt>vals</tt> to the * end of the list, in order. * * @param vals an <code>float[]</code> value * @param offset the offset at which to start copying * @param length the number of values to copy. */ public void add( float[] vals, int offset, int length ); /** * Inserts <tt>value</tt> into the list at <tt>offset</tt>. All * values including and to the right of <tt>offset</tt> are shifted * to the right. * * @param offset an <code>int</code> value * @param value an <code>float</code> value */ public void insert( int offset, float value ); /** * Inserts the array of <tt>values</tt> into the list at * <tt>offset</tt>. All values including and to the right of * <tt>offset</tt> are shifted to the right. * * @param offset an <code>int</code> value * @param values an <code>float[]</code> value */ public void insert( int offset, float[] values ); /** * Inserts a slice of the array of <tt>values</tt> into the list * at <tt>offset</tt>. All values including and to the right of * <tt>offset</tt> are shifted to the right. * * @param offset an <code>int</code> value * @param values an <code>float[]</code> value * @param valOffset the offset in the values array at which to * start copying. * @param len the number of values to copy from the values array */ public void insert( int offset, float[] values, int valOffset, int len ); /** * Returns the value at the specified offset. * * @param offset an <code>int</code> value * @return an <code>float</code> value */ public float get( int offset ); /** * Sets the value at the specified offset. * * @param offset an <code>int</code> value * @param val an <code>float</code> value * * @return The value previously at the given index. */ public float set( int offset, float val ); /** * Replace the values in the list starting at <tt>offset</tt> with * the contents of the <tt>values</tt> array. * * @param offset the first offset to replace * @param values the source of the new values */ public void set( int offset, float[] values ); /** * Replace the values in the list starting at <tt>offset</tt> with * <tt>length</tt> values from the <tt>values</tt> array, starting * at valOffset. * * @param offset the first offset to replace * @param values the source of the new values * @param valOffset the first value to copy from the values array * @param length the number of values to copy */ public void set( int offset, float[] values, int valOffset, int length ); /** * Sets the value at the specified offset and returns the * previously stored value. * * @param offset an <code>int</code> value * @param val an <code>float</code> value * @return the value previously stored at offset. */ public float replace( int offset, float val ); /** * Flushes the internal state of the list, resetting the capacity * to the default. */ public void clear(); /** * Removes <tt>value</tt> from the list. * * @param value an <code>float</code> value * @return true if the list was modified by the remove operation. */ public boolean remove( float value ); /** * Removes <tt>value</tt> at a given offset from the list. * * @param offset an <code>int</code> value that represents * the offset to the element to be removed * @return an <tt>float</tt> that is the value removed. */ public float removeAt( int offset ); /** * Removes <tt>length</tt> values from the list, starting at * <tt>offset</tt> * * @param offset an <code>int</code> value * @param length an <code>int</code> value */ public void remove( int offset, int length ); /** * Transform each value in the list using the specified function. * * @param function a <code>TFloatFunction</code> value */ public void transformValues( TFloatFunction function ); /** * Reverse the order of the elements in the list. */ public void reverse(); /** * Reverse the order of the elements in the range of the list. * * @param from the inclusive index at which to start reversing * @param to the exclusive index at which to stop reversing */ public void reverse( int from, int to ); /** * Shuffle the elements of the list using the specified random * number generator. * * @param rand a <code>Random</code> value */ public void shuffle( Random rand ); /** * Returns a sublist of this list. * * @param begin low endpoint (inclusive) of the subList. * @param end high endpoint (exclusive) of the subList. * @return sublist of this list from begin, inclusive to end, exclusive. * @throws IndexOutOfBoundsException - endpoint out of range * @throws IllegalArgumentException - endpoints out of order (end > begin) */ public TFloatList subList( int begin, int end ); /** * Copies the contents of the list into a native array. * * @return an <code>float[]</code> value */ public float[] toArray(); /** * Copies a slice of the list into a native array. * * @param offset the offset at which to start copying * @param len the number of values to copy. * @return an <code>float[]</code> value */ public float[] toArray( int offset, int len ); /** * Copies a slice of the list into a native array. * * <p>If the list fits in the specified array with room to spare (i.e., * the array has more elements than the list), the element in the array * immediately following the end of the list is set to * <tt>{@link #getNoEntryValue()}</tt>. * (This is useful in determining the length of the list <i>only</i> if * the caller knows that the list does not contain any "null" elements.) * * <p>NOTE: Trove does not allocate a new array if the array passed in is * not large enough to hold all of the data elements. It will instead fill * the array passed in. * * @param dest the array to copy into. * @return the array passed in. */ public float[] toArray( float[] dest ); /** * Copies a slice of the list into a native array. * * @param dest the array to copy into. * @param offset the offset where the first value should be copied * @param len the number of values to copy. * @return the array passed in. */ public float[] toArray( float[] dest, int offset, int len ); /** * Copies a slice of the list into a native array. * * @param dest the array to copy into. * @param source_pos the offset of the first value to copy * @param dest_pos the offset where the first value should be copied * @param len the number of values to copy. * @return the array passed in. */ public float[] toArray( float[] dest, int source_pos, int dest_pos, int len ); /** * Applies the procedure to each value in the list in ascending * (front to back) order. * * @param procedure a <code>TFloatProcedure</code> value * @return true if the procedure did not terminate prematurely. */ public boolean forEach( TFloatProcedure procedure ); /** * Applies the procedure to each value in the list in descending * (back to front) order. * * @param procedure a <code>TFloatProcedure</code> value * @return true if the procedure did not terminate prematurely. */ public boolean forEachDescending( TFloatProcedure procedure ); /** * Sort the values in the list (ascending) using the Sun quicksort * implementation. * * @see java.util.Arrays#sort */ public void sort(); /** * Sort a slice of the list (ascending) using the Sun quicksort * implementation. * * @param fromIndex the index at which to start sorting (inclusive) * @param toIndex the index at which to stop sorting (exclusive) * @see java.util.Arrays#sort */ public void sort( int fromIndex, int toIndex ); /** * Fills every slot in the list with the specified value. * * @param val the value to use when filling */ public void fill( float val ); /** * Fills a range in the list with the specified value. * * @param fromIndex the offset at which to start filling (inclusive) * @param toIndex the offset at which to stop filling (exclusive) * @param val the value to use when filling */ public void fill( int fromIndex, int toIndex, float val ); /** * Performs a binary search for <tt>value</tt> in the entire list. * Note that you <b>must</b> @{link #sort sort} the list before * doing a search. * * @param value the value to search for * @return the absolute offset in the list of the value, or its * negative insertion point into the sorted list. */ public int binarySearch( float value ); /** * Performs a binary search for <tt>value</tt> in the specified * range. Note that you <b>must</b> @{link #sort sort} the list * or the range before doing a search. * * @param value the value to search for * @param fromIndex the lower boundary of the range (inclusive) * @param toIndex the upper boundary of the range (exclusive) * @return the absolute offset in the list of the value, or its * negative insertion point into the sorted list. */ public int binarySearch( float value, int fromIndex, int toIndex ); /** * Searches the list front to back for the index of * <tt>value</tt>. * * @param value an <code>float</code> value * @return the first offset of the value, or -1 if it is not in * the list. * @see #binarySearch for faster searches on sorted lists */ public int indexOf( float value ); /** * Searches the list front to back for the index of * <tt>value</tt>, starting at <tt>offset</tt>. * * @param offset the offset at which to start the linear search * (inclusive) * @param value an <code>float</code> value * @return the first offset of the value, or -1 if it is not in * the list. * @see #binarySearch for faster searches on sorted lists */ public int indexOf( int offset, float value ); /** * Searches the list back to front for the last index of * <tt>value</tt>. * * @param value an <code>float</code> value * @return the last offset of the value, or -1 if it is not in * the list. * @see #binarySearch for faster searches on sorted lists */ public int lastIndexOf( float value ); /** * Searches the list back to front for the last index of * <tt>value</tt>, starting at <tt>offset</tt>. * * @param offset the offset at which to start the linear search * (exclusive) * @param value an <code>float</code> value * @return the last offset of the value, or -1 if it is not in * the list. * @see #binarySearch for faster searches on sorted lists */ public int lastIndexOf( int offset, float value ); /** * Searches the list for <tt>value</tt> * * @param value an <code>float</code> value * @return true if value is in the list. */ public boolean contains( float value ); /** * Searches the list for values satisfying <tt>condition</tt> in * the manner of the *nix <tt>grep</tt> utility. * * @param condition a condition to apply to each element in the list * @return a list of values which match the condition. */ public TFloatList grep( TFloatProcedure condition ); /** * Searches the list for values which do <b>not</b> satisfy * <tt>condition</tt>. This is akin to *nix <code>grep -v</code>. * * @param condition a condition to apply to each element in the list * @return a list of values which do not match the condition. */ public TFloatList inverseGrep( TFloatProcedure condition ); /** * Finds the maximum value in the list. * * @return the largest value in the list. * @exception IllegalStateException if the list is empty */ public float max(); /** * Finds the minimum value in the list. * * @return the smallest value in the list. * @exception IllegalStateException if the list is empty */ public float min(); }