网络通信中通常需要用到byte的通用操作方式
功能大概
- 写入int16,int32,int64,byte
- 读取int16,int32,int64,byte
我这里主要做了这些,如果后面需要在进行添加吧
package mynet
import (
"bytes"
"encoding/binary"
"errors"
)
type NetStream struct {
Data []byte
Rpos int
Wpos int
Capacity int
}
func NewNetStream(capacity int) *NetStream {
a := &NetStream{
Rpos: 0,
Wpos: 0,
Capacity: capacity,
}
a.Data = make([]byte, capacity)
return a
}
func (self *NetStream) ReadInt16() (int16, error) {
var p int16
if self.Rpos+2 > self.Wpos {
return p, errors.New("not enough read")
}
binary.Read(bytes.NewBuffer(self.Data[self.Rpos:]), binary.BigEndian, &p)
self.Rpos += 2
return p, nil
}
func (self *NetStream) ReadInt32() (int32, error) {
var p int32
if self.Rpos+4 > self.Wpos {
return p, errors.New("not enough read")
}
binary.Read(bytes.NewBuffer(self.Data[self.Rpos:]), binary.BigEndian, &p)
self.Rpos += 4
return p, nil
}
func (self *NetStream) GetInt16() (int16, error) {
var p int16
if self.Rpos+2 > self.Wpos {
return p, errors.New("not enough read")
}
binary.Read(bytes.NewBuffer(self.Data[self.Rpos:]), binary.BigEndian, &p)
return p, nil
}
func (self *NetStream) GetInt32() (int32, error) {
var p int32
if self.Rpos+4 > self.Wpos {
return p, errors.New("not enough read")
}
binary.Read(bytes.NewBuffer(self.Data[self.Rpos:]), binary.BigEndian, &p)
return p, nil
}
func (self *NetStream) ReadInt64() (int64, error) {
var p int64
if self.Rpos+8 > self.Wpos {
return p, errors.New("not enough read")
}
binary.Read(bytes.NewBuffer(self.Data[self.Rpos:]), binary.BigEndian, &p)
self.Rpos += 8
return p, nil
}
func (self *NetStream) ReadBytes(p []byte, offset int, len int) error {
if self.Rpos+len > self.Wpos {
return errors.New("not enough read")
}
copy(p[offset:offset+len], self.Data[self.Rpos:self.Rpos+len])
self.Rpos += len
return nil
}
func (self *NetStream) WriteInt16(p int16) error {
if self.Wpos+2 > self.Capacity {
return errors.New("not cap to write")
}
buff := bytes.NewBuffer([]byte{})
binary.Write(buff, binary.BigEndian, p)
self.WriteByte(buff.Bytes())
return nil
}
func (self *NetStream) WriteInt32(p int32) error {
if self.Wpos+4 > self.Capacity {
return errors.New("not cap to write")
}
buff := bytes.NewBuffer([]byte{})
binary.Write(buff, binary.BigEndian, p)
self.WriteByte(buff.Bytes())
return nil
}
func (self *NetStream) WriteInt64(p int64) error {
if self.Wpos+8 > self.Capacity {
return errors.New("not cap to write")
}
buff := bytes.NewBuffer([]byte{})
binary.Write(buff, binary.BigEndian, p)
self.WriteByte(buff.Bytes())
return nil
}
func (self *NetStream) WriteBytes(p []byte, offset int, len int) error {
if self.Wpos+len > self.Capacity {
return errors.New("not cap to write")
}
copy(self.Data[self.Wpos:], p[offset:offset+len])
self.Wpos += len
return nil
}
func (self *NetStream) WriteByte(p []byte) error {
if self.Wpos+len(p) > self.Capacity {
return errors.New("not cap to write")
}
copy(self.Data[self.Wpos:], p)
self.Wpos += len(p)
return nil
}
func (self *NetStream) ClearRead() {
if self.Rpos > 0 {
copy(self.Data[0:], self.Data[self.Rpos:self.Wpos])
self.Rpos = 0
self.Wpos = self.Wpos - self.Rpos
}
}
func (self *NetStream) AvailableNum() int {
return self.Wpos - self.Rpos
}
func (self *NetStream) PrefixedDataAvailable(len int) bool {
if self.AvailableNum() < len {
return false
}
var b1 int16
var b2 int32
var err error
if len == 2 {
b1, err = self.GetInt16()
} else if len == 4 {
b2, err = self.GetInt32()
}
if err == nil {
if self.AvailableNum() >= int(b1)+len || self.AvailableNum() >= int(b2)+len {
return true
}
}
return false
}
func (self *NetStream) PrefixedDataAvailableShort() bool {
return self.PrefixedDataAvailable(2)
}
func (self *NetStream) PrefixedDataAvailableInt() bool {
return self.PrefixedDataAvailable(4)
}
本文介绍了一种用于网络通信的数据封装与解析方法,通过自定义的NetStream结构体实现数据的读写操作。该方法支持不同大小的数据类型如int16、int32和int64等的高效读写,并采用BigEndian字节序进行数据交换。
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