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/*
* Licensed to the Apache Software Foundation (ASF) under one or more
* contributor license agreements. See the NOTICE file distributed with
* this work for additional information regarding copyright ownership.
* The ASF licenses this file to You under the Apache License, Version 2.0
* (the "License"); you may not use this file except in compliance with
* the License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package java.nio;
import com.google.gwt.typedarrays.shared.ArrayBufferView;
import com.google.gwt.typedarrays.shared.Int32Array;
import com.google.gwt.typedarrays.shared.TypedArrays;
/** A buffer of ints.
*
* A int buffer can be created in either of the following ways:
*
*
* - {@link #allocate(int) Allocate} a new int array and create a buffer based on it;
* - {@link #wrap(int[]) Wrap} an existing int array to create a new buffer;
* - Use {@link java.nio.ByteBuffer#asIntBuffer() ByteBuffer.asIntBuffer} to create a int buffer
* based on a byte buffer.
*
*/
public final class IntBuffer extends Buffer
implements Comparable, playn.html.HasArrayBufferView {
/** Sliced version of the underlying byte buffer, not the underlying byte buffer directly */
private final ByteBuffer byteBuffer;
private final Int32Array intArray;
static IntBuffer wrap (ByteBuffer byteBuffer) {
return new IntBuffer(byteBuffer.slice());
}
/** Creates an int buffer based on a newly allocated int array.
*
* @param capacity the capacity of the new buffer.
* @return the created int buffer.
* @throws IllegalArgumentException if {@code capacity} is less than zero.
*/
public static IntBuffer allocate (int capacity) {
if (capacity < 0) {
throw new IllegalArgumentException();
}
ByteBuffer bb = ByteBuffer.allocateDirect(capacity * 4);
bb.order(ByteOrder.nativeOrder());
return bb.asIntBuffer();
}
IntBuffer(ByteBuffer byteBuffer) {
super((byteBuffer.capacity() >> 2));
this.byteBuffer = byteBuffer;
this.byteBuffer.clear();
this.intArray = TypedArrays.createInt32Array(
byteBuffer.byteArray.buffer(),
byteBuffer.byteArray.byteOffset(), capacity);
}
/** Compacts this int buffer.
* The remaining ints will be moved to the head of the buffer, starting from position zero.
* Then the position is set to {@code remaining()}; the limit is set to capacity; the mark is
* cleared.
*
* @return this buffer.
* @exception ReadOnlyBufferException if no changes may be made to the contents of this buffer.
*/
public IntBuffer compact () {
byteBuffer.limit(limit << 2);
byteBuffer.position(position << 2);
byteBuffer.compact();
byteBuffer.clear();
position = limit - position;
limit = capacity;
mark = UNSET_MARK;
return this;
}
/** Compares the remaining ints of this buffer to another int buffer's remaining ints.
*
* @param otherBuffer another int buffer.
* @return a negative value if this is less than {@code other}; 0 if this equals to {@code
* other}; a positive value if this is greater than {@code other}.
* @exception ClassCastException if {@code other} is not an int buffer.
*/
public int compareTo (IntBuffer otherBuffer) {
int compareRemaining = (remaining() < otherBuffer.remaining()) ?
remaining() : otherBuffer.remaining();
int thisPos = position;
int otherPos = otherBuffer.position;
// BEGIN android-changed
int thisInt, otherInt;
while (compareRemaining > 0) {
thisInt = get(thisPos);
otherInt = otherBuffer.get(otherPos);
if (thisInt != otherInt) {
return thisInt < otherInt ? -1 : 1;
}
thisPos++;
otherPos++;
compareRemaining--;
}
// END android-changed
return remaining() - otherBuffer.remaining();
}
/** Returns a duplicated buffer that shares its content with this buffer.
* The duplicated buffer's position, limit, capacity and mark are the same as this buffer.
* The duplicated buffer's read-only property and byte order are the same as this buffer's.
*
* The new buffer shares its content with this buffer, which means either buffer's change
* of content will be visible to the other. The two buffer's position, limit and mark are
* independent.
*
* @return a duplicated buffer that shares its content with this buffer.
*/
public IntBuffer duplicate () {
IntBuffer buf = new IntBuffer(
(ByteBuffer)byteBuffer.duplicate());
buf.limit = limit;
buf.position = position;
buf.mark = mark;
return buf;
}
/** Checks whether this int buffer is equal to another object.
* If {@code other} is not a int buffer then {@code false} is returned. Two int buffers are
* equal if and only if their remaining ints are exactly the same. Position, limit, capacity
* and mark are not considered.
*
* @param other the object to compare with this int buffer.
* @return {@code true} if this int buffer is equal to {@code other}, {@code false} otherwise.
*/
public boolean equals (Object other) {
if (!(other instanceof IntBuffer)) {
return false;
}
IntBuffer otherBuffer = (IntBuffer)other;
if (remaining() != otherBuffer.remaining()) {
return false;
}
int myPosition = position;
int otherPosition = otherBuffer.position;
boolean equalSoFar = true;
while (equalSoFar && (myPosition < limit)) {
equalSoFar = get(myPosition++) == otherBuffer.get(otherPosition++);
}
return equalSoFar;
}
/** Returns the int at the current position and increases the position by 1.
*
* @return the int at the current position.
* @exception BufferUnderflowException if the position is equal or greater than limit.
*/
public int get () {
// if (position == limit) {
// throw new BufferUnderflowException();
// }
return intArray.get(position++);
}
/** Reads ints from the current position into the specified int array and increases the
* position by the number of ints read.
*
* Calling this method has the same effect as {@code get(dest, 0, dest.length)}.
*
*
* @param dest the destination int array.
* @return this buffer.
* @exception BufferUnderflowException if {@code dest.length} is greater than {@code remaining()}.
*/
public IntBuffer get(int[] dest) {
return get(dest, 0, dest.length);
}
/** Reads ints from the current position into the specified int array, starting from the
* specified offset, and increases the position by the number of ints read.
*
* @param dest the target int array.
* @param off the offset of the int array, must not be negative and not greater than {@code
* dest.length}.
* @param len the number of ints to read, must be no less than zero and not greater than {@code
* dest.length - off}.
* @return this buffer.
* @exception IndexOutOfBoundsException if either {@code off} or {@code len} is invalid.
* @exception BufferUnderflowException if {@code len} is greater than {@code remaining()}.
*/
public IntBuffer get (int[] dest, int off, int len) {
int length = dest.length;
if (off < 0 || len < 0 || (long)len + (long)off > length) {
throw new IndexOutOfBoundsException();
}
if (len > remaining()) {
throw new BufferUnderflowException();
}
for (int i = off; i < off + len; i++) {
dest[i] = get();
}
return this;
}
/** Returns an int at the specified index; the position is not changed.
*
* @param index the index, must not be negative and less than limit.
* @return an int at the specified index.
* @exception IndexOutOfBoundsException if index is invalid.
*/
public int get (int index) {
// if (index < 0 || index >= limit) {
// throw new IndexOutOfBoundsException();
// }
return intArray.get(index);
}
/** Indicates whether this buffer is based on a int array and is read/write.
*
* @return {@code true} if this buffer is based on a int array and provides read/write access,
* {@code false} otherwise.
*/
public final boolean hasArray () {
return false;
}
/** Calculates this buffer's hash code from the remaining chars. The position, limit, capacity
* and mark don't affect the hash code.
*
* @return the hash code calculated from the remaining ints.
*/
public int hashCode () {
int myPosition = position;
int hash = 0;
while (myPosition < limit) {
hash = hash + get(myPosition++);
}
return hash;
}
/** Indicates whether this buffer is direct. A direct buffer will try its best to take
* advantage of native memory APIs and it may not stay in the Java heap, so it is not affected
* by garbage collection.
*
* An int buffer is direct if it is based on a byte buffer and the byte buffer is direct.
*
*
* @return {@code true} if this buffer is direct, {@code false} otherwise.
*/
public boolean isDirect () {
return true;
}
/** Returns the byte order used by this buffer when converting ints from/to bytes.
* If this buffer is not based on a byte buffer, then always return the platform's native
* byte order.
*
* @return the byte order used by this buffer when converting ints from/to bytes.
*/
public ByteOrder order () {
return ByteOrder.nativeOrder();
}
/** Writes the given int to the current position and increases the position by 1.
*
* @param i the int to write.
* @return this buffer.
* @exception BufferOverflowException if position is equal or greater than limit.
* @exception ReadOnlyBufferException if no changes may be made to the contents of this buffer.
*/
public IntBuffer put (int c) {
// if (position == limit) {
// throw new BufferOverflowException();
// }
intArray.set(position++, c);
return this;
}
/** Writes ints from the given int array to the current position and increases the position by
* the number of ints written.
* Calling this method has the same effect as {@code put(src, 0, src.length)}.
*
* @param src the source int array.
* @return this buffer.
* @exception BufferOverflowException if {@code remaining()} is less than {@code src.length}.
* @exception ReadOnlyBufferException if no changes may be made to the contents of this buffer.
*/
public final IntBuffer put (int[] src) {
return put(src, 0, src.length);
}
/** Writes ints from the given int array, starting from the specified offset, to the current
* position and increases the position by the number of ints written.
*
* @param src the source int array.
* @param off the offset of int array, must not be negative and not greater than {@code src.length}.
* @param len the number of ints to write, must be no less than zero and not greater than
* {@code src.length - off}.
* @return this buffer.
* @exception BufferOverflowException if {@code remaining()} is less than {@code len}.
* @exception IndexOutOfBoundsException if either {@code off} or {@code len} is invalid.
* @exception ReadOnlyBufferException if no changes may be made to the contents of this buffer.
*/
public IntBuffer put (int[] src, int off, int len) {
int length = src.length;
if (off < 0 || len < 0 || (long)len + (long)off > length) {
throw new IndexOutOfBoundsException();
}
if (len > remaining()) {
throw new BufferOverflowException();
}
for (int i = off; i < off + len; i++) {
put(src[i]);
}
return this;
}
/** Writes all the remaining ints of the {@code src} int buffer to this buffer's current
* position, and increases both buffers' position by the number of ints copied.
*
* @param src the source int buffer.
* @return this buffer.
* @exception BufferOverflowException if {@code src.remaining()} is greater than this buffer's
* {@code remaining()}.
* @exception IllegalArgumentException if {@code src} is this buffer.
* @exception ReadOnlyBufferException if no changes may be made to the contents of this buffer.
*/
public IntBuffer put (IntBuffer src) {
if (src == this) {
throw new IllegalArgumentException();
}
if (src.remaining() > remaining()) {
throw new BufferOverflowException();
}
int[] contents = new int[src.remaining()];
src.get(contents);
put(contents);
return this;
}
/** Write a int to the specified index of this buffer; the position is not changed.
*
* @param index the index, must not be negative and less than the limit.
* @param i the int to write.
* @return this buffer.
* @exception IndexOutOfBoundsException if index is invalid.
* @exception ReadOnlyBufferException if no changes may be made to the contents of this buffer.
*/
public IntBuffer put (int index, int c) {
// if (index < 0 || index >= limit) {
// throw new IndexOutOfBoundsException();
// }
intArray.set(index, c);
return this;
}
/** Returns a sliced buffer that shares its content with this buffer.
* The sliced buffer's capacity will be this buffer's {@code remaining()}, and its zero
* position will correspond to this buffer's current position. The new buffer's position will
* be 0, limit will be its capacity, and its mark is cleared. The new buffer's read-only
* property and byte order are same as this buffer's.
* The new buffer shares its content with this buffer, which means either buffer's change
* of content will be visible to the other. The two buffer's position, limit and mark are
* independent.
*
* @return a sliced buffer that shares its content with this buffer.
*/
public IntBuffer slice () {
byteBuffer.limit(limit << 2);
byteBuffer.position(position << 2);
IntBuffer result = new IntBuffer(byteBuffer.slice());
byteBuffer.clear();
return result;
}
/** Returns a string represents of the state of this int buffer.
*
* @return a string represents of the state of this int buffer.
*/
public String toString () {
StringBuffer buf = new StringBuffer();
buf.append(getClass().getName());
buf.append(", status: capacity="); //$NON-NLS-1$
buf.append(capacity());
buf.append(" position="); //$NON-NLS-1$
buf.append(position());
buf.append(" limit="); //$NON-NLS-1$
buf.append(limit());
return buf.toString();
}
public ArrayBufferView getTypedArray () {
return intArray;
}
public int getElementSize () {
return 4;
}
public int getElementType() {
return 0x1404; // GL_INT
}
public boolean isReadOnly() {
return false;
}
}