📜  Java中的 FloatBuffer rewind() 方法及示例

📅  最后修改于: 2022-05-13 01:54:42.601000             🧑  作者: Mango

Java中的 FloatBuffer rewind() 方法及示例

Java.nio.FloatBuffer 类的rewind()方法用于回退这个缓冲区。此方法将位置设置为零,限制不受影响,如果有任何先前标记的位置,将被丢弃。当需要进行通道写入或获取操作的序列时,应调用此方法。这意味着如果缓冲区数据已经写入,则需要将其复制到另一个数组中。例如:

out.write(buf);   // Writes the remaining data
buf.rewind();     // Rewind the buffer
buf.get(array);   // Copy data into array

句法:

public final FloatBuffer rewind()

参数:该方法不带任何参数。

返回值:该方法返回此缓冲区。

以下是说明 rewind() 方法的示例:

示例 1:

// Java program to demonstrate
// rewind() method
  
import java.nio.*;
import java.util.*;
  
public class GFG {
    public static void main(String[] args)
    {
        // defining and allocating FloatBuffer
        // using allocate() method
        FloatBuffer floatBuffer = FloatBuffer.allocate(4);
  
        // put char value in FloatBuffer
        // using put() method
        floatBuffer.put(10.5f);
        floatBuffer.put(20.5f);
  
        // print the float buffer
        System.out.println("Buffer before operation: "
                           + Arrays.toString(
                                 floatBuffer.array())
                           + "\nPosition: "
                           + floatBuffer.position()
                           + "\nLimit: "
                           + floatBuffer.limit());
  
        // rewind the Buffer
        // using rewind() method
        floatBuffer.rewind();
  
        // print the floatbuffer
        System.out.println("\nBuffer after operation: "
                           + Arrays.toString(
                                 floatBuffer.array())
                           + "\nPosition: "
                           + floatBuffer.position()
                           + "\nLimit: "
                           + floatBuffer.limit());
    }
}
输出:
Buffer before operation: [10.5, 20.5, 0.0, 0.0]
Position: 2
Limit: 4

Buffer after operation: [10.5, 20.5, 0.0, 0.0]
Position: 0
Limit: 4

示例 2:

// Java program to demonstrate
// rewind() method
  
import java.nio.*;
import java.util.*;
  
public class GFG {
    public static void main(String[] args)
    {
        // defining and allocating FloatBuffer
        // using allocate() method
        FloatBuffer floatBuffer
            = FloatBuffer.allocate(5);
  
        // put float value in floatBuffer
        // using put() method
        floatBuffer.put(10.5f);
        floatBuffer.put(20.5f);
        floatBuffer.put(30.5f);
  
        // mark will be going to discarded by rewind()
        floatBuffer.mark();
  
        // print the buffer
        System.out.println("Buffer before operation: "
                           + Arrays.toString(
                                 floatBuffer.array())
                           + "\nPosition: "
                           + floatBuffer.position()
                           + "\nLimit: "
                           + floatBuffer.limit());
  
        // Rewind the Buffer
        // using rewind() method
        floatBuffer.rewind();
  
        // print the buffer
        System.out.println("\nBuffer after operation: "
                           + Arrays.toString(
                                 floatBuffer.array())
                           + "\nPosition: "
                           + floatBuffer.position()
                           + "\nLimit: "
                           + floatBuffer.limit());
    }
}
输出:
Buffer before operation: [10.5, 20.5, 30.5, 0.0, 0.0]
Position: 3
Limit: 5

Buffer after operation: [10.5, 20.5, 30.5, 0.0, 0.0]
Position: 0
Limit: 5

参考: https://docs.oracle.com/javase/9/docs/api/ Java/nio/FloatBuffer.html#rewind–