📜  Java中的LongBuffer slice()方法

📅  最后修改于: 2022-05-13 01:55:21.889000             🧑  作者: Mango

Java中的LongBuffer slice()方法

Java.nio.LongBuffer类的slice()方法用于创建一个新的 Long 缓冲区,其内容是给定缓冲区内容的共享子序列。

新缓冲区的内容将从该缓冲区的当前位置开始。对此缓冲区内容的更改将在新缓冲区中可见,反之亦然。两个缓冲区的位置、限制和标记值将是独立的。

新缓冲区的位置将为零,其容量和限制将是该缓冲区中剩余的 Longegers 的数量,其标记将是未定义的。当且仅当此缓冲区是直接的时,新缓冲区将是直接的,并且当且仅当此缓冲区是只读的时,它将是只读的。

句法 :

public abstract LongBuffer slice()

返回值:此方法返回新的 Long 缓冲区。

以下是说明 slice() 方法的示例:

示例 1:

Java
// Java program to demonstrate
// slice() method
 
import java.nio.*;
import java.util.*;
 
public class GFG {
 
    public static void main(String[] args)
    {
 
        // Declaring the capacity of the LongBuffer
        int capacity = 10;
 
        // Creating the LongBuffer
        try {
 
            // creating object of Longbuffer
            // and allocating size capacity
            LongBuffer ib1 = LongBuffer.allocate(capacity);
 
            // putting the value in Longbuffer
            ib1.put(8);
            ib1.put(9);
 
            // prLong the LongBuffer
            System.out.println("Original LongBuffer: "
                               + Arrays.toString(ib1.array()));
 
            // prLong the LongBuffer position
            System.out.println("position: " + ib1.position());
 
            // prLong the LongBuffer capacity
            System.out.println("capacity: " + ib1.capacity());
 
            // Creating a shared subsequence buffer of given LongBuffer
            // using slice() method
            LongBuffer ib2 = ib1.slice();
 
            // prLong the shared subsequence buffer
            System.out.println("shared subsequence LongBuffer: "
                               + Arrays.toString(ib2.array()));
 
            // prLong the LongBuffer position
            System.out.println("position: " + ib2.position());
 
            // prLong the LongBuffer capacity
            System.out.println("capacity: " + ib2.capacity());
        }
 
        catch (IllegalArgumentException e) {
 
            System.out.println("IllegalArgumentException catched");
        }
 
        catch (ReadOnlyBufferException e) {
 
            System.out.println("ReadOnlyBufferException catched");
        }
    }
}


Java
// Java program to demonstrate
// slice() method
 
import java.nio.*;
import java.util.*;
 
public class GFG {
 
    public static void main(String[] args)
    {
 
        // Declaring the capacity of the LongBuffer
        int capacity = 10;
 
        // Creating the LongBuffer
        try {
 
            // creating object of Longbuffer
            // and allocating size capacity
            LongBuffer ib1 = LongBuffer.allocate(capacity);
 
            // putting the value in floatbuffer
            ib1.put(8);
            ib1.put(9);
            ib1.put(5);
            ib1.put(3);
 
            // prLong the LongBuffer
            System.out.println("Original LongBuffer: "
                               + Arrays.toString(ib1.array()));
 
            // prLong the LongBuffer position
            System.out.println("position: " + ib1.position());
 
            // prLong the LongBuffer capacity
            System.out.println("capacity: " + ib1.capacity());
 
            // Creating a shared subsequence buffer of given LongBuffer
            // using slice() method
            LongBuffer ib2 = ib1.slice();
            ib2.put(2);
            ib2.put(6);
 
            // prLong the shared subsequence buffer
            System.out.println("shared subsequence LongBuffer: "
                               + Arrays.toString(ib2.array()));
 
            // prLong the LongBuffer position
            System.out.println("position: " + ib2.position());
 
            // prLong the LongBuffer capacity
            System.out.println("capacity: " + ib2.capacity());
        }
 
        catch (IllegalArgumentException e) {
 
            System.out.println("IllegalArgumentException catched");
        }
 
        catch (ReadOnlyBufferException e) {
 
            System.out.println("ReadOnlyBufferException catched");
        }
    }
}


输出
Original LongBuffer: [8, 9, 0, 0, 0, 0, 0, 0, 0, 0]
position: 2
capacity: 10
shared subsequence LongBuffer: [8, 9, 0, 0, 0, 0, 0, 0, 0, 0]
position: 0
capacity: 8

示例 2:

Java

// Java program to demonstrate
// slice() method
 
import java.nio.*;
import java.util.*;
 
public class GFG {
 
    public static void main(String[] args)
    {
 
        // Declaring the capacity of the LongBuffer
        int capacity = 10;
 
        // Creating the LongBuffer
        try {
 
            // creating object of Longbuffer
            // and allocating size capacity
            LongBuffer ib1 = LongBuffer.allocate(capacity);
 
            // putting the value in floatbuffer
            ib1.put(8);
            ib1.put(9);
            ib1.put(5);
            ib1.put(3);
 
            // prLong the LongBuffer
            System.out.println("Original LongBuffer: "
                               + Arrays.toString(ib1.array()));
 
            // prLong the LongBuffer position
            System.out.println("position: " + ib1.position());
 
            // prLong the LongBuffer capacity
            System.out.println("capacity: " + ib1.capacity());
 
            // Creating a shared subsequence buffer of given LongBuffer
            // using slice() method
            LongBuffer ib2 = ib1.slice();
            ib2.put(2);
            ib2.put(6);
 
            // prLong the shared subsequence buffer
            System.out.println("shared subsequence LongBuffer: "
                               + Arrays.toString(ib2.array()));
 
            // prLong the LongBuffer position
            System.out.println("position: " + ib2.position());
 
            // prLong the LongBuffer capacity
            System.out.println("capacity: " + ib2.capacity());
        }
 
        catch (IllegalArgumentException e) {
 
            System.out.println("IllegalArgumentException catched");
        }
 
        catch (ReadOnlyBufferException e) {
 
            System.out.println("ReadOnlyBufferException catched");
        }
    }
}
输出
Original LongBuffer: [8, 9, 5, 3, 0, 0, 0, 0, 0, 0]
position: 4
capacity: 10
shared subsequence LongBuffer: [8, 9, 5, 3, 2, 6, 0, 0, 0, 0]
position: 2
capacity: 6