ef2gamesource/dlls/game/FollowPath.h
Walter Julius Hennecke 5bbf27cabd Initial code commit ...
2012-12-30 17:37:54 +01:00

267 lines
8.9 KiB
C++

//-----------------------------------------------------------------------------
//
// $Logfile:: /Code/DLLs/game/FollowPath.h $
// $Revision:: 20 $
// $Author:: Steven $
// $Date:: 10/13/03 8:53a $
//
// Copyright (C) 1998 by Ritual Entertainment, Inc.
// All rights reserved.
//
// This source may not be distributed and/or modified without
// expressly written permission by Ritual Entertainment, Inc.
//
//
//
// DESCRIPTION:
// Provides base functionality for path following with avoidance
//
#ifndef __FOLLOW_PATH_H__
#define __FOLLOW_PATH_H__
#include "g_local.h"
#include "entity.h"
#include "path.h"
#include "steering.h"
class Actor;
//------------------------- CLASS ------------------------------
//
// Name: FollowNode
// Base Class: Class
//
// Description: FollowNodes are a lightweight class meant to
// store translation information for the FollowNodePath class
//
// Method of Use: FollowNodes should only be created by
// FollowNodePaths but other classes my need access a node's
// translation.
//
//--------------------------------------------------------------
class FollowNode : public Class
{
public:
CLASS_PROTOTYPE( FollowNode );
FollowNode( void );
FollowNode( const Vector &position, const bool isTemporary=false, const bool isJumpNode=false, const float jumpAngle=45.0f );
Vector const & GetPosition( void ) const { return _position; }
const bool GetIsTemporary( void ) const { return _isTemporary; }
const bool GetIsJumpNode( void ) const { return _isJumpNode; }
void SetIsJumpNode( const bool isJumpNode ) { _isJumpNode = isJumpNode; }
const float GetJumpAngle( void ) const { return _jumpAngle; }
void SetJumpAngle( const float jumpAngle )
{
_jumpAngle = jumpAngle;
}
virtual void Archive( Archiver &arc );
private:
Vector _position;
bool _isTemporary;
bool _isJumpNode;
float _jumpAngle;
};
inline void FollowNode::Archive( Archiver &arc )
{
Class::Archive( arc );
arc.ArchiveVector( &_position );
arc.ArchiveBool( &_isTemporary );
arc.ArchiveBool( &_isJumpNode );
arc.ArchiveFloat( &_jumpAngle );
}
typedef SafePtr<FollowNode> FollowNodePtr;
//------------------------- CLASS ------------------------------
//
// Name: FollowNodePath
// Base Class: Class
//
// Description: FollowNodePaths are simple paths that support the
// concept of temporary path nodes (allowing temporary insertion
// nodes into the path).
//
// Method of Use: FollowNodePaths should primarily be used by
// FollowPath classes, although other classes may need access to
// most of the members of the class
//
//--------------------------------------------------------------
enum PathCreationReturnCodes
{
PATH_CREATION_SUCCESS,
PATH_CREATION_FAILED_DEGENERATE_PATH,
PATH_CREATION_FAILED_NODES_NOT_CONNECTED,
PATH_CREATION_FAILED_START_NODE_NOT_FOUND,
PATH_CREATION_FAILED_END_NODE_NOT_FOUND,
};
class FollowNodePath : public Class
{
public:
CLASS_PROTOTYPE( FollowNodePath );
FollowNodePath();
~FollowNodePath() { Clear(); }
void AddNode(FollowNodePtr node) { _nodes.AddObject(node); }
void RemoveNode(FollowNodePtr node);
void InsertNode(FollowNodePtr node, const int index);
FollowNodePtr GetPreviousNode(const FollowNodePtr node) const;
FollowNodePtr GetNextNode(const FollowNodePtr node) const;
const Steering::ReturnValue Evaluate( Actor &self, const Vector &goalPosition );
unsigned int const SetPath( Actor &self, const Vector &from, const Vector &to );
void Clear();
void Draw( void ) const;
void SetCurrentNode(FollowNodePtr node) { _currentNode = node; }
FollowNodePtr GetCurrentNode(void) const { return _currentNode; }
int GetCurrentNodeIndex(void) const { return GetNodeIndex( GetCurrentNode() ); }
FollowNodePtr GetNodeAt(const int index) const { return _nodes.ObjectAt(index); }
int const GetNodeIndex(const FollowNodePtr node) const { return _nodes.IndexOfObject(node); }
FollowNodePtr FirstNode(void) const { return _nodes.ObjectAt(1); }
FollowNodePtr LastNode(void) const { return _nodes.ObjectAt(NumNodes()); }
int const NumNodes(void) const { return _nodes.NumObjects(); }
virtual void Archive( Archiver &arc );
private:
void BuildFromPathNodes(Path *path, const Actor &self);
const bool FindNewCurrentNode( const Actor &self );
const Steering::ReturnValue AdvanceCurrentNode( const Actor &self );
const Steering::ReturnValue RetreatCurrentNode( Actor &self, const Vector &goalPosition );
Container<FollowNode *> _nodes;
FollowNodePtr _currentNode;
};
inline void FollowNodePath::Archive( Archiver &arc )
{
Class::Archive( arc );
int i;
int num;
FollowNode *followNode;
if ( arc.Saving() )
{
num = _nodes.NumObjects();
arc.ArchiveInteger( &num );
for( i = 1 ; i <= num ; i++ )
{
followNode = _nodes.ObjectAt( i );
arc.ArchiveObject( followNode );
}
}
else
{
arc.ArchiveInteger( &num );
_nodes.ClearObjectList();
_nodes.Resize( num );
for( i = 1 ; i <= num ; i++ )
{
followNode = new FollowNode;
_nodes.AddObject( followNode );
arc.ArchiveObject( followNode );
}
}
arc.ArchiveSafePointer( &_currentNode );
}
//------------------------- CLASS ------------------------------
//
// Name: FollowPath
// Base Class: Steering
//
// Description: FollowPath is the base class for and Steering
// classes that need to navigate any significant distance through
// the level.
//
// Method of Use: Never instantiate an object of type FollowPath.
// If the TikiEngine architecture allowed, this cless would be an
// interface class. If you need FollowPath behavior either use an
// existing FollowPath subclass or derive a new class from a
// FollowPath class.
//
//--------------------------------------------------------------
class FollowPath : public Steering
{
public:
CLASS_PROTOTYPE( FollowPath );
FollowPath();
virtual ~FollowPath() { DeleteTemporaryPathNodes(); }
virtual const Vector & GetGoalPosition(void) const { assert (false); return vec_zero; }
virtual const float GetGoalRadius(void) const { assert (false); return 0.0f; }
virtual FollowNodePath & GetPath(void) { return _path; }
virtual const float GetRadius (void) const { return _radius; }
virtual void SetRadius (const float radius) { _radius = radius; }
virtual const float GetAvoidanceDistance (void) const { return _avoidanceDistance; }
virtual void SetAvoidanceDistance (const float avoidanceDistance) { _avoidanceDistance = avoidanceDistance; }
virtual void SetSteeringForceAndDesiredHeading( Actor &self, const Vector &steeringForce );
virtual void Begin( Actor &self );
virtual const ReturnValue Evaluate( Actor &self );
virtual void ShowInfo( Actor &self );
virtual void Archive( Archiver &arc );
protected:
virtual void DeleteTemporaryPathNodes(void);
virtual const bool ClearTraceToGoal( Actor &self, const trace_t &traceToGoal, const float radius ) const;
virtual const bool DoneTurning( Actor &self ) const;
virtual const ReturnValue GotoCurrentNode( Actor &self );
virtual const ReturnValue GotoGoal( Actor &self );
virtual const bool BuildAvoidancePath(Actor &self, const bool passOnTheLeft, const Vector &obstaclePosition, const float avoidanceRadius, const bool pursueGoal );
virtual const ReturnValue AvoidObstacle( Actor &self, const trace_t & trace, const bool pursueGoal=false );
virtual const bool TraceBlockedByEntity(Actor &self, const trace_t & trace ) const;
virtual const bool CheckBlocked(Actor &self);
virtual const ReturnValue ReturnBlockingObject(const trace_t &trace) const;
virtual const bool AtDestination(Actor &self) const;
virtual void SteerToCurrentNode(Actor &self);
virtual void SteerToGoal( Actor &self );
virtual void FreePath( void ) { _path.Clear(); }
virtual void AddPathNode(FollowNodePtr node) { GetPath().AddNode( node ); }
virtual void InsertPathNode(FollowNodePtr node, const int index) { GetPath().InsertNode(node, index); SetCurrentNode(node); }
virtual FollowNodePtr GetCurrentNode(void) const { return _path.GetCurrentNode(); }
virtual void SetCurrentNode(FollowNodePtr node) { _path.SetCurrentNode(node); }
private:
float _radius;
FollowNodePath _path;
float _avoidanceDistance;
Vector _desiredHeading;
Jump _jump;
qboolean _jumping;
str _oldAnim;
};
inline void FollowPath::Archive
(
Archiver &arc
)
{
Steering::Archive( arc );
arc.ArchiveFloat( &_radius );
arc.ArchiveObject( &_path );
arc.ArchiveFloat( &_avoidanceDistance );
arc.ArchiveVector( &_desiredHeading );
arc.ArchiveObject( &_jump );
arc.ArchiveBoolean( &_jumping );
arc.ArchiveString( &_oldAnim );
}
#endif // FollowPath