标签:code 数据 protocol tin main string ESS 依次 fms
protobuf语言的基础字段类型相当于C++语言的基础类型
$ ls proto/
TFixed.proto TInt.proto TScalar.proto TStr.proto
$ cat TScalar.proto
syntax = "proto3";
//导入其他message
import "TInt.proto";
import "TFixed.proto";
import "TStr.proto";
//使用其他message作为字段类型,如果message使用了package则需要使用package.的方式引用
message TScalar {
scalar.TInt int_val = 1;
TFixed fixed_val = 2;
TStr str_val = 3;
};
$ cat TInt.proto
syntax = "proto3";
// 设置包名,在生成的C++源码中将变成namespace
package scalar;
message TInt {
double ddouble_val = 1;
float float_val = 2;
int32 int32_val = 3;
uint32 uint32_val = 4;
sint32 sint32_val = 5;
bool bool_val = 6;
};
$ cat TFixed.proto
syntax = "proto3";
message TFixed {
fixed32 fixed32_val = 1;
fixed64 fixed64_val = 2;
sfixed32 sfixed32_val = 3;
sfixed64 sfixed64_val = 4;
};
$ cat TStr.proto
syntax = "proto3";
message TStr {
string string_val = 1;
bytes bytes_val = 2;
};
$ cat writer.cpp
#include <fstream>
#include <iostream>
#include "TScalar.pb.h"
using namespace std;
int main(int argc, char *argv[])
{
TScalar msg;
scalar::TInt* iMsg = new scalar::TInt();
TFixed* fMsg = new TFixed();
TStr* sMsg = new TStr();
// 使用protobuf自己的内存管理
msg.set_allocated_int_val(iMsg);
msg.set_allocated_fixed_val(fMsg);
msg.set_allocated_str_val(sMsg);
iMsg->set_ddouble_val(11.01);
iMsg->set_float_val(11.01);
iMsg->set_int32_val(-1);
iMsg->set_uint32_val(1);
iMsg->set_sint32_val(-1);
iMsg->set_bool_val(true);
fMsg->set_fixed32_val(1);
fMsg->set_fixed64_val(1);
fMsg->set_sfixed32_val(-1);
fMsg->set_sfixed64_val(-1);
sMsg->set_string_val("中");
sMsg->set_bytes_val("文");
fstream output("./log", ios::out | ios::trunc | ios::binary);
cout << "Serialize start." << endl;
if (!msg.SerializeToOstream(&output))
{
cout << "Serialize failed." << endl;
return -1;
}
output.close();
cout << "Serialize end." << endl;
return 0;
}
$ cat reader.cpp
#include <fstream>
#include <iostream>
#include "TScalar.pb.h"
using namespace std;
int main(int argc, char *argv[])
{
fstream input("./log", ios::in | ios::binary);
cout << "Deserialize start." << endl;
TScalar msg;
//如果writer依次写入TInt、TFixed、TStr,然后在reader依次读取TInt、TFixed、TStr,这时只有第一个message能正常解析,后两条message解析失败,因为ParseFromIstream会一次性把input流内容读完,导致后面的message解析时读取的输入流已经为空,所以表面上看起来就好像protocol buffer只能序列化和反序列化一条message
if (!msg.ParseFromIstream(&input))
{
cout << "Deserialize failed." << endl;
return -1;
}
msg.int_val().PrintDebugString();
msg.fixed_val().PrintDebugString();
msg.str_val().PrintDebugString();
cout << "Deserialize end." << endl;
input.close();
return 0;
}
标签:code 数据 protocol tin main string ESS 依次 fms
原文地址:https://www.cnblogs.com/silvermagic/p/9087607.html