This page has been translated automatically.
视频教程
界面
要领
高级
实用建议
基础
专业(SIM)
UnigineEditor
界面概述
资源工作流程
Version Control
设置和首选项
项目开发
调整节点参数
Setting Up Materials
设置属性
照明
Sandworm
使用编辑器工具执行特定任务
如何擴展編輯器功能
嵌入式节点类型
Nodes
Objects
Effects
Decals
光源
Geodetics
World Nodes
Sound Objects
Pathfinding Objects
Players
编程
基本原理
搭建开发环境
使用范例
C++
C#
UnigineScript
统一的Unigine着色器语言 UUSL (Unified UNIGINE Shader Language)
Plugins
File Formats
材质和着色器
Rebuilding the Engine Tools
GUI
双精度坐标
应用程序接口
Animations-Related Classes
Containers
Common Functionality
Controls-Related Classes
Engine-Related Classes
Filesystem Functionality
GUI-Related Classes
Math Functionality
Node-Related Classes
Objects-Related Classes
Pathfinding-Related Classes
Physics-Related Classes
Plugins-Related Classes
IG Plugin
CIGIConnector Plugin
Rendering-Related Classes
VR-Related Classes
创建内容
内容优化
材质
Material Nodes Library
Miscellaneous
Input
Math
Matrix
Textures
Art Samples
Tutorials

Unigine::Socket Class

Header: #include <UnigineStreams.h>
Inherits from: Stream

This class provides basic functionality for network interaction using stream sockets.

Usage Example#

In this example we create UDP sockets: server and five clients.

  • The server sends broadcast packets containing the ID of the receiving client.
  • Each client processes only the messages, that were addressed to it.
  • In the world's update() method the server sends messages addressed to clients 2 and 5.

In the AppWorldLogic.h header file we describe our client and server and declare server and array of clients.

Source code (C++)
#ifndef __APP_WORLD_LOGIC_H__
#define __APP_WORLD_LOGIC_H__

#include <UnigineLogic.h>
#include <UnigineStreams.h>
 
 // UDP port to be used
const int UDP_PORT = 8889;

// UDP receive buffer size 
const int RECV_SIZE = 7;

// UDP send buffer size
const int SEND_SIZE = 7;

/* ... */

/// Class representing the Server Socket
class ServerSocket
{
public:
	/// Server constructor
	ServerSocket()
	{
		// creating a UDP socket
		socket = Unigine::Socket::create(Unigine::Socket::SOCKET_TYPE_DGRAM);

		// opening a socket on the specified port with a specified broadcast address
		socket->open("127.255.255.255", UDP_PORT);

		// setting the size of the sending buffer
		socket->send(SEND_SIZE);

		// setting the socket as a broadcasting one
		socket->broadcast();

		// setting the socket as a non-blocking one
		socket->nonblock();
	}

	/// Server destructor
	~ServerSocket()
	{
		// closing the socket
		socket->close();

		// destroying the socket
		socket.deleteLater();
	}

	/// method sending a message to a certain client
	void send_message(int client_num, const char* message)
	{
		// preparing a message to be received by a client with a given client_id
		Unigine::BlobPtr blob = Unigine::Blob::create();
		blob->clear();
		blob->writeShort(client_num);
		blob->write(message, strlen(message));
		int size = blob->getSize();

		// sending the message
		socket->write(blob->getData(), size);
		blob.clear();
	}

private:
	// socket pointer
	Unigine::SocketPtr socket;
};

/// Class representing the Client Socket
class ClientSocket {

public:

	/// Client constructor
	ClientSocket()
	{
		// creating a UDP socket
		socket = Unigine::Socket::create(Unigine::Socket::SOCKET_TYPE_DGRAM);

		// opening a socket on the specified port 

		socket->open(UDP_PORT);

		// setting the size of the receiving buffer
		socket->recv(RECV_SIZE);

		// binding the socket to an address figured out from the host used for socket initialization
		socket->bind();

		// setting the socket as a non-blocking one
		socket->nonblock();
	}

	/// Client destructor
	~ClientSocket()
	{
		// closing the socket
		socket->close();

		// destroying the socket
		socket.deleteLater();
	}

	void setID(int num)
	{
		// setting client's ID
		id = num;
	}

	/// method checking for received packes from the server
	int update()
	{
		// preparing a blob to read the message into
		Unigine::BlobPtr temp_blob = Unigine::Blob::create();
		temp_blob->clear();

		// reading data from the socket
		socket->readStream(temp_blob, RECV_SIZE);

		if (temp_blob->getSize() > 0) {

			// setting current position to start
			temp_blob->seekSet(0);

			// getting client's ID
			int num_client = temp_blob->readShort();

			// checking if the received message is addressed to this particular client and processing it
			if (num_client == id) {
				Unigine::Log::message("\nClient[%d] - OPERATION_CODE: %s", id, temp_blob->readLine().get());
			}
		}
		return 1;
	}
private:
	// socket pointer
	Unigine::SocketPtr socket;

	// client ID
	int id = 0;
};

class AppWorldLogic : public Unigine::WorldLogic
{

public:
	AppWorldLogic();
	virtual ~AppWorldLogic();

	int init() override;

	int update() override;
	int postUpdate() override;
	int updatePhysics() override;

	int shutdown() override;

	int save(const Unigine::StreamPtr &stream) override;
	int restore(const Unigine::StreamPtr &stream) override;
private:

	// declaring client and server sockets
	ServerSocket server_socket;
	ClientSocket clients[5];
};

#endif // __APP_WORLD_LOGIC_H__

In the AppWorldLogic.cpp implementation file we do the following:

  • In the AppWorldLogic::init() method we initialize our clients.
  • In the AppWorldLogic::update() we check which keys were pressed and send messages to corresponding clients:
    • Client 2 - on ENTER key
    • Client 5 - on WASD keys
    Here we also call update() method for all clients to process server's messages.

Here are the AppWorldLogic::init() and AppWorldLogic::update() methods:

Source code (C++)
// AppWorldLogic.cpp
#include <UnigineControls.h>
#include <UnigineGame.h>

using namespace Unigine;

/* ... */

int AppWorldLogic::init() 
{
	//initializing clients IDs
	for (int i = 0; i < 5; i++)
		clients[i].setID(i+1);

	return 1;
}

int AppWorldLogic::update() 
{
	// getting player's controls
	ControlsPtr controls = Game::getPlayer()->getControls();

	// sending messages on keys pressed to clients 2 and 5
	if (controls->clearState(Controls::STATE_USE))
		server_socket.send_message(2, "SWT");
	else if (controls->clearState(Controls::STATE_FORWARD))
		server_socket.send_message(5, "F");
	else if (controls->clearState(Controls::STATE_BACKWARD))
		server_socket.send_message(5, "B");
	else if (controls->clearState(Controls::STATE_MOVE_LEFT))
		server_socket.send_message(5, "L");
	else if (controls->clearState(Controls::STATE_MOVE_RIGHT))
		server_socket.send_message(5, "R");

	// updating clients
	for (int i = 0; i < 5; i++)
		clients[i].update();

	return 1;
}
/* ... */

See Also#

A set of UnigineScript API samples located in the <UnigineSDK>/data/samples/systems/ folder:

  • socket_00
  • socket_01
  • socket_02
  • socket_03
  • socket_04

Socket Class

枚举

SOCKET_TYPE#

Name描述
SOCKET_TYPE_STREAM = 0Socket for TCP packets.
SOCKET_TYPE_DGRAM = 1Socket for UDP packets.

Members


static SocketPtr create ( Socket::SOCKET_TYPE type ) #

Creates a socket of the specified type. When the socket receives data, packets from all network interfaces will be received. When the socket sends data, the default IP address will be used.

Arguments

static SocketPtr create ( Socket::SOCKET_TYPE type, int port ) #

Creates a socket for TCP or UDP connections and opens it on a given port. When the socket receives data, packets from all network interfaces will be received. When the socket sends data, the default IP address will be used.

Arguments

  • Socket::SOCKET_TYPE type - Socket type for TCP or UDP connections.
  • int port - Port, on which the socket will be opened.

static SocketPtr create ( Socket::SOCKET_TYPE type, const char * host, int port ) #

Creates a socket for TCP or UDP connections and opens it on a given host and a given port. The host specifies the address, from and to which data will be sent.

Arguments

  • Socket::SOCKET_TYPE type - Socket type for TCP or UDP connections.
  • const char * host - Host, on which the socket will be opened.
  • int port - Port, on which the socket will be opened.

int getFD ( ) const#

Returns the socket file descriptor.

Return value

Socket file descriptor.

const char * getHost ( ) const#

Returns the host name on which the socket is opened.

Return value

Host name.

int getPort ( ) const#

Returns the port number on which the socket is opened.

Return value

Port number.

bool accept ( const Ptr<Socket> & socket ) #

Accepts a connection on the socket.

Arguments

  • const Ptr<Socket> & socket - Socket that is bound to an address and listens to connections.

Return value

1 if the connection is accepted; otherwise, 0.

bool bind ( ) #

Binds the socket to an address figured out from the host used for socket initialization.

Return value

true if the address is bound; otherwise, false.

bool block ( ) #

Sets up a blocking socket.

Return value

true if the socket is opened; otherwise, false.

bool broadcast ( ) #

Sets up a broadcast socket. To create a broadcast socket, you need to create it with a broadcast host address first and then use this function.

Return value

true if the socket is set up successfully; otherwise, false is returned.

void close ( ) #

Closes the socket.

bool connect ( ) #

Initiates a connection on the socket.

Return value

true if the connection is initialized; otherwise, false.

bool listen ( int num ) #

Makes the socket listen to connections.

Arguments

  • int num - Maximum number of pending connections.

Return value

true if the socket has started listening; otherwise, false.

bool listenMulticastGroup ( ) #

Joins the socket to a multicast group. Available for UDP sockets only.
Notice
The socket class doesn't allow creating a multicast server.
Source code (C++)
const int PORT = 8888;
SocketPtr socket = Socket::create(Socket::SOCKET_TYPE_DGRAM, PORT);
socket->listenMulticastGroup();

Return value

true if the sockect has been joined successfully; otherwise, false.

bool nodelay ( ) #

Enables Nagle's algorithm.

Return value

true if the algorithm has been enabled successfully; otherwise, false.

bool nonblock ( ) #

Makes the socket a non-blocking one.

Return value

true if the has become non-blocking; otherwise, false.

bool open ( int port ) #

Opens the socket on a given port. When the socket receives data, packets from all network interfaces will be received. When the socket sends data, the default IP address will be used.

Arguments

  • int port - Port number, on which the socket will be opened.

Return value

true if the socket is opened successfully; otherwise, false.

bool open ( const char * host, int port ) #

Opens the socket on a given port. When the socket receives data, packets from all network interfaces will be received. When the socket sends data, the default IP address will be used.

Arguments

  • const char * host - Host name, on which the socket will be opened.
  • int port - Port number, on which the socket will be opened.

Return value

true if the socket is opened successfully; otherwise, false.

bool recv ( int size ) #

Resizes an internal receiving buffer for a socket.

Arguments

  • int size - Receive buffer size in bytes.

Return value

true if the buffer is resized successfully; otherwise, false.

bool send ( int size ) #

Resizes an internal sending buffer for a socket.

Arguments

  • int size - Send buffer size in bytes.

Return value

true if the buffer is resized successfully; otherwise, false.

bool isReadyToRead ( int timeout_usec = 0 ) const#

Returns a value indicating whether the socked is ready for reading data, waiting if necessary, to perform synchronous I/O.

Arguments

  • int timeout_usec - The maximum time for to wait for the socket's response, in microseconds. By default, the timeout is 0

Return value

true if the socket is ready for reading data; otherwise, false.

bool isReadyToWrite ( int timeout_usec = 0 ) const#

Returns a value indicating whether the socked is ready for writing data, waiting if necessary, to perform synchronous I/O.

Arguments

  • int timeout_usec - The maximum time for to wait for the socket's response, in microseconds. By default, the timeout is 0

Return value

true if the socket is ready for writing data; otherwise, false.
Last update: 2024-08-16
Build: ()