Difference between revisions of "NaviTrack Tutorial:Creating module:Module structure"

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= Three types of nodes =
+
= Classes for normal module =
 
+
== Module class ==
* Sink nodes  (XxxxSink.h, [XxxxSink.cxx])
 
** Leaves in the graph and receive their data values from external sources, such as Polaris optraciking system, and send put the data into NaviTrack data flow graph.
 
 
 
* Source nodes (XxxxSource.h, [XxxxSource.cxx])
 
** Leaves to propagate their data values received from other nodes to external outputs.
 
 
 
* Filter nodes (we don't use this in the tutorial)
 
** Intermediate nodes and modify the values received from other nodes.
 
 
 
 
 
= Classes for module "MyTutorialModule" =
 
== Module class (MyTutorialModule.h, MyTutorialModule.cxx) ==
 
  
 
This class is used to configure and manage source and sink nodes.
 
This class is used to configure and manage source and sink nodes.
Line 63: Line 51:
 
of the XML file, during starting up.
 
of the XML file, during starting up.
 
You can put codes to initialize the module into this function.
 
You can put codes to initialize the module into this function.
 +
void MyTutorialModule::init(StringTable& attributes, ConfigNode * localTree)
 +
{
 +
  std::cout << "MyTutorialModule::init() is called." << std::endl;
 +
 +
  std::string strName=attributes.get("name");
 +
  std::cout << "MyTutorialModule::init(): attribute \"name\" is "
 +
            << strName << std::endl;
 +
}
 +
 +
Also, you can get a parameter in configuration section of the XML file,
 +
by calling attributes.get(<parameter name>);
  
 
=== createNode() ===
 
=== createNode() ===
Line 73: Line 72:
 
   if( name.compare("MyTutorialSink") == 0 )
 
   if( name.compare("MyTutorialSink") == 0 )
 
     {
 
     {
 +
      std::string strName=attributes.get("name");
 +
      std::cout << "MyTutorialModule::createNode(): creating a MyTutorialSink node" << std::endl;       
 +
      std::cout << "MyTutorialModule::createNode(): attribute\"name\" is " << strName << std::endl;
 
       sink =  new MyTutorialSink();
 
       sink =  new MyTutorialSink();
 
       return sink;
 
       return sink;
Line 78: Line 80:
 
   if(name.compare("MyTutorialSource") == 0 )
 
   if(name.compare("MyTutorialSource") == 0 )
 
     {
 
     {
       std::string stationName=attributes.get("name");
+
       std::string strName=attributes.get("name");
       source = new MyTutorialSource(stationName);
+
      std::cout << "MyTutorialModule::createNode(): creating a MyTutorialSource node" << std::endl;
 +
      std::cout << "MyTutorialModule::createNode(): attribute\"name\" is " << strName << std::endl;
 +
       source = new MyTutorialSource(strName);
 
       return source;
 
       return source;
 
     }
 
     }
Line 88: Line 92:
 
But you can manage more than two nodes with same type, by using array or vector,
 
But you can manage more than two nodes with same type, by using array or vector,
 
since createNode is called each time the NaviTrack detects the corresponding type of node.
 
since createNode is called each time the NaviTrack detects the corresponding type of node.
 +
 +
You can get any parameters specified for a certain node in XML configuration file,
 +
by calling attribute.get(<parameter name>) function, as shown in above code.
  
 
=== pushEvent() and pullEvent() ===
 
=== pushEvent() and pullEvent() ===
Line 93: Line 100:
 
These are called whenever a push or pull event occurs.
 
These are called whenever a push or pull event occurs.
  
== Sink class (MyTutorialSink.h, MyTutorialSink.cxx) ==
+
== Sink class ==
This class is used to configure and manage source and sink nodes.
 
  
The following example class contains only essential functions for a NaviTrack module.
+
This class is for a Sink node itself.
 +
The following example class contains only essential functions for a Sink node.
  
 
MyTutorialSink.h:  
 
MyTutorialSink.h:  
This class is used to configure and manage source and sink nodes.
 
 
The following example class contains only essential functions for a NaviTrack module.
 
 
MyTutorialModule.h:
 
 
  #ifndef __MY_TUTORIAL_SINK_H__
 
  #ifndef __MY_TUTORIAL_SINK_H__
  #define __MY_TUTORIAL_SINK_H__
+
  #define __MY_TUTORIAL_SINK_H__  
 
   
 
   
  class MyTutorialSink : public ot::Node
+
  #include <OpenTracker/OpenTracker.h>
{
 
  public:
 
 
   
 
   
   MyTutorialSink() {};
+
namespace ot {
  ~MyTutorialSink() {};  
+
    
 +
  class MyTutorialSink : public ot::Node
 +
  {
 +
  public:
 +
   
 +
    MyTutorialSink();
 +
    ~MyTutorialSink();
 +
   
 +
  public:
 +
   
 +
    virtual int isEventGenerator() {return 1;};
 +
    virtual void onEventGenerated(Event&, Node&);
 +
   
 +
  };  
 
   
 
   
  public:
+
  } // end of namespace ot
   
 
  virtual int isEventGenerator() {return 1;};
 
  virtual void onEventGenerated( ot::Event& event, ot::Node& generator) {};
 
 
  protected:
 
 
  friend class MyTutorialSinkModule;
 
};
 
 
   
 
   
 
  #endif // end of __MY_TUTORIAL_SINK_H
 
  #endif // end of __MY_TUTORIAL_SINK_H
  
== Source class (MyTutorialSource.h, MyTutorialSource.cxx) ==
+
=== isEventGenerator() ===
 +
This function lets NaviTrack know whether the node is event generating node.
 +
 
 +
It returns 1, if the node has event generator.
 +
 
 +
=== onEventGenerated() ===
 +
This is an event handler for generated event.
  
 +
== Source class ==
 +
This class is a Source node itself. The following example class contains only essential functions for a Source node.
 +
 +
MyTutorialSource.h:
 
  #ifndef __MY_TUTORIAL_SOURCE_H__
 
  #ifndef __MY_TUTORIAL_SOURCE_H__
 
  #define __MY_TUTORIAL_SOURCE_H__
 
  #define __MY_TUTORIAL_SOURCE_H__
Line 134: Line 149:
 
  #include <string>
 
  #include <string>
 
   
 
   
 +
namespace ot {
 
   
 
   
class MyTutorialSource : public ot::Node
+
  class MyTutorialSource : public Node
{
+
  {
  public:
+
  private:
  std::string StationName;
+
   
+
  public:
  public:
+
   
  MyTutorialSource(std::string stationName) {};
+
    std::string StationName;
  virtual int isEventGenerator() {return 1;};
+
   
  int changed;
+
  public:
  ot::Event event;
+
    MyTutorialSource(std::string stationName) {};
  };
+
    virtual int isEventGenerator() {return 1;};
 +
    int changed;
 +
   
 +
    Event event;
 +
  };
 +
   
 +
  } // end of namespace ot
 
   
 
   
  #endif // __MY_TUTORIAL_SOURCE_H
+
  #endif // __MYTUTORIAL_SOURCE_H__
 
 
  
 +
=== isEventGenerator() ===
 +
This is same as isEventGenerator() in Sink class.
  
  
 
Go back to [[NaviTrack_Tutorial:Creating_module|Creating module]].
 
Go back to [[NaviTrack_Tutorial:Creating_module|Creating module]].

Latest revision as of 23:16, 15 May 2007

Home < NaviTrack Tutorial:Creating module:Module structure

Classes for normal module

Module class

This class is used to configure and manage source and sink nodes.

The following example class contains only essential functions for a NaviTrack module.

MyTutorialModule.h: 

#ifndef __MY_TUTORIAL_MODULE_H__
#define __MY_TUTORIAL_MODULE_H__

#include <OpenTracker/OpenTracker.h>
#include <OpenTracker/dllinclude.h>
#include <OpenTracker/input/SPLModules.h>
#include <OpenTracker/input/MyTutorialSink.h>
#include <OpenTracker/input/MyTutorialSource.h>
#include <string>

namespace ot {

class OPENTRACKER_API MyTutorialModule : public Module, public NodeFactory
{   
 public:
 
  // Constructor and destructor
  MyTutorialModule();
  virtual ~MyTutorialModule();
  
  Node* createNode( const std::string& name,  ot::StringTable& attributes);
  void  pushEvent();
  void  pullEvent() {};
  void  init(StringTable&, ConfigNode *);
 
 private:
  MyTutorialSink*   sink;
  MyTutorialSource* source;
  
  friend class  MyTutorialSink;
  friend class  MyTutorialSource;
};

OT_MODULE(MyTutorialModule);

} // end of namespace ot
#endif // __MY_TUTORIAL_MODULE_H__

init()

Function init() is called when the NaviTrack detects MyTutorialConfig in configuration section of the XML file, during starting up. You can put codes to initialize the module into this function. 

void MyTutorialModule::init(StringTable& attributes, ConfigNode * localTree)
{
  std::cout << "MyTutorialModule::init() is called." << std::endl; 

  std::string strName=attributes.get("name");
  std::cout << "MyTutorialModule::init(): attribute \"name\" is " 
            << strName << std::endl;
}

Also, you can get a parameter in configuration section of the XML file, by calling attributes.get(<parameter name>);

createNode()

When the NaviTrack detects either MyTutorialSource or MyTutorialSink in the XML file, function createNode is called. The code for this function might be as following: 

ot::Node * MyTutorialModule::createNode( const std::string& name,  ot::StringTable& attributes)
{
  if( name.compare("MyTutorialSink") == 0 )
    {
      std::string strName=attributes.get("name");
      std::cout << "MyTutorialModule::createNode(): creating a MyTutorialSink node" << std::endl;        
      std::cout << "MyTutorialModule::createNode(): attribute\"name\" is " << strName << std::endl;
      sink =  new MyTutorialSink();
      return sink;
    }
  if(name.compare("MyTutorialSource") == 0 )
    {
      std::string strName=attributes.get("name");
      std::cout << "MyTutorialModule::createNode(): creating a MyTutorialSource node" << std::endl;
      std::cout << "MyTutorialModule::createNode(): attribute\"name\" is " << strName << std::endl;
      source = new MyTutorialSource(strName);
      return source;
    }
  return NULL;
}

Note that the class in above example can have only one sink node and one source node. But you can manage more than two nodes with same type, by using array or vector, since createNode is called each time the NaviTrack detects the corresponding type of node.

You can get any parameters specified for a certain node in XML configuration file, by calling attribute.get(<parameter name>) function, as shown in above code.

pushEvent() and pullEvent()

These are a sort of event handling function. These are called whenever a push or pull event occurs.

Sink class

This class is for a Sink node itself. The following example class contains only essential functions for a Sink node.

MyTutorialSink.h: 

#ifndef __MY_TUTORIAL_SINK_H__
#define __MY_TUTORIAL_SINK_H__ 

#include <OpenTracker/OpenTracker.h>

namespace ot {
  
  class MyTutorialSink : public ot::Node
  {
  public:
    
    MyTutorialSink();
    ~MyTutorialSink();
    
  public:
    
    virtual int isEventGenerator() {return 1;};
    virtual void onEventGenerated(Event&, Node&);
    
  }; 

} // end of namespace ot

#endif // end of __MY_TUTORIAL_SINK_H

isEventGenerator()

This function lets NaviTrack know whether the node is event generating node.

It returns 1, if the node has event generator.

onEventGenerated()

This is an event handler for generated event.

Source class

This class is a Source node itself. The following example class contains only essential functions for a Source node.

MyTutorialSource.h: 

#ifndef __MY_TUTORIAL_SOURCE_H__
#define __MY_TUTORIAL_SOURCE_H__

#include <OpenTracker/OpenTracker.h>
#include <string>

namespace ot {

  class MyTutorialSource : public Node
  {
  private:
    
  public:
    
    std::string StationName;
    
  public:
    MyTutorialSource(std::string stationName) {};
    virtual int isEventGenerator() {return 1;};
    int changed;
    
    Event event;
  };
    
} // end of namespace ot

#endif // __MYTUTORIAL_SOURCE_H__

isEventGenerator()

This is same as isEventGenerator() in Sink class.


Go back to Creating module.

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