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source: orxonox.OLD/orxonox/trunk/src/track_manager.cc @ 3543

Last change on this file since 3543 was 3543, checked in by bensch, 20 years ago

orxonox/trunk: some more classes now destroy themselves via virtual-destructors and call to predecessing destroy-function
also made
#include "stdincl.h" out of unnecessary h-files, so we got faster compile time.

File size: 23.5 KB
Line 
1/*
2   orxonox - the future of 3D-vertical-scrollers
3
4   Copyright (C) 2004 orx
5
6   This program is free software; you can redistribute it and/or modify
7   it under the terms of the GNU General Public License as published by
8   the Free Software Foundation; either version 2, or (at your option)
9   any later version.
10
11   ### File Specific:
12   main-programmer: Benjamin Grauer
13   co-programmer: ...
14*/
15
16
17#include "track_manager.h"
18
19#include "p_node.h"
20
21#include "track_node.h"
22
23#include <stdarg.h>
24
25using namespace std;
26
27/**
28   \brief initializes a TrackElement (sets the default values)
29*/
30TrackElement::TrackElement(void)
31{
32  this->isFresh = true;
33  this->isHotPoint = false;
34  this->isSavePoint = false;
35  this->isFork = false;
36  this->isJoined = false;
37  this->mainJoin = false;
38  this->ID = -1;
39  this->startingTime = 0; //!< \todo eventually set this to the max time of TrackManager.
40  this->duration = 1;
41  this->endTime = 1;
42  this->jumpTime = 0;
43  this->curveType = BEZIERCURVE;
44  this->nodeCount = 0;
45  this->childCount = 0;
46  this->name = NULL;
47  this->curve = NULL;
48  this->children = NULL;
49
50  this->history = NULL;
51
52  this->condFunc = &TrackElement::random;
53}
54
55/**
56    \brief destroys all alocated memory)
57    \todo eventually when deleting a TrackElement you would not like to delete all its preceding TrackElements
58*/
59TrackElement::~TrackElement(void)
60{
61  if (this->name)
62    delete []name;
63  if (this->curve)
64    delete this->curve;
65  if ((!this->isJoined &&this->childCount > 0) || (this->isJoined && this->mainJoin))
66    {
67      for (int i=0; i < this->childCount; i++)
68        delete this->children[i];
69      delete this->children;
70    }
71}
72
73/**
74   \brief Searches through all the TrackElements for trackID.
75   \param trackID The ID to search for.
76   \returns The TrackElement if Found, NULL otherwise.
77   
78   \todo make this more modular, to search for different things
79*/
80TrackElement* TrackElement::findByID(unsigned int trackID)
81{
82  // return if Found.
83  if (this->ID == trackID)
84    return this;
85  // search on.
86  if (this->childCount > 0)
87    for (int i=0; i < this->childCount; i++)
88      {
89        TrackElement* tmpElem;
90        if ((tmpElem = this->children[i]->findByID(trackID)))
91          return tmpElem;
92      }
93  else return NULL;
94}
95
96
97/**
98   \brief checks if there are any BackLoops in the Track
99   \param trackElem the trackElement to check about
100   it simply does this by looking if the current trackElem is found again somewhere else in the Track
101*/
102bool TrackElement::backLoopCheck(TrackElement* trackElem)
103{
104  if (this->childCount == 0)
105    return true;
106  else
107    {
108      for (int i = 0; i < this->childCount; i++)
109        if(!this->children[i]->backLoopCheck(trackElem))
110          return false;
111     
112      return true;
113    }
114}
115
116/**
117   \brief CONDITION that chooses the first child for the decision (static)
118   \param nothing Nothing in this function
119   \returns the chosen child
120*/
121int TrackElement::lowest(void* nothing)
122{
123  return 0;
124}
125
126/**
127   \brief CONDITION that chooses the last child for the decision (static)
128   \param nothing Nothing in this function
129   \returns the chosen child
130*/
131int TrackElement::highest(void* nothing)
132{ 
133  return this->childCount-1;
134}
135
136/**
137   \brief CONDITION that chooses a random child for the decision (static)
138   \param nothing Nothing in this function
139   \returns the chosen child
140*/
141int TrackElement::random(void* nothing)
142{
143  int i = (int)floor ((float)rand()/(float)RAND_MAX * (float)this->childCount);
144  if (i >= this->childCount)
145    return this->childCount-1;
146  else 
147    return i;
148}
149
150/**
151   \brief CONDITION that chooses child 0, if the node(probably Player)
152   is left of its parent (z<0)) and 1/right otherwise.
153   \param node The node to act upon.
154   \returns the chosen child
155*/
156int TrackElement::leftRight(void* node)
157{
158  PNode* tmpNode = (PNode*)node;
159
160  if (tmpNode->getRelCoor().z < 0)
161    return 0;
162  else 
163    return 1;
164}
165
166
167/**
168   \brief CONDITION that chooses the child, that has the nearest distance to the node (probably player).
169   \param node The node to act upon.
170   \returns the chosen child
171
172   This is rather dangerous, because one must carefully set the points on the curve.
173   The best Way is to set the nodes as wide away of each other as possible,
174   but take into consideration, that if the nodes are to far from a center node, the center will be chosen.
175   (play with this!!).
176*/
177int TrackElement::nearest(void* node)
178{
179  PNode* tmpNode = (PNode*)node;
180
181  Vector nodeRelCoord = tmpNode->getRelCoor();
182  float minDist = 100000000;
183  int nodeNumber = 0;
184  for (int i = 0; i < this->childCount; i++)
185    {
186      float dist = (nodeRelCoord - this->children[i]->curve->getNode(4)).len();
187      if (dist < minDist)
188        {
189          minDist = dist;
190          nodeNumber = i;
191        }
192    }
193  PRINTF(3)("PathDecision with nearest algorithm: %d\n", nodeNumber);
194  return nodeNumber;
195}
196
197
198
199/////////////////////////////////////
200///// TRACKMANAGER //////////////////
201/////////////////////////////////////
202/**
203   \brief standard constructor
204
205*/
206TrackManager::TrackManager(void)
207{
208  this->setClassName ("TrackManager");
209 
210  singletonRef = this;
211
212  PRINTF(3)("Initializing the TrackManager\n");
213  this->firstTrackElem = new TrackElement();
214  this->firstTrackElem->ID = 1;
215  this->currentTrackElem = firstTrackElem;
216  this->localTime = 0;
217  this->maxTime = 0;
218  this->trackElemCount = 1;
219  this->bindSlave = TrackNode::getInstance();
220}
221
222
223/**
224   \brief standard destructor
225*/
226TrackManager::~TrackManager(void)
227{
228  this->destroy();
229}
230
231/**
232   \brief deletes all alocated Memory and also deletes everything from the Class this one is erived from
233*/
234void TrackManager::destroy(void)
235{
236  PRINTF(3)("Destruct TrackManager\n");
237
238  PRINTF(3)("Deleting all the TrackElements\n");
239  delete this->firstTrackElem;
240
241  // we do not have a TrackManager anymore
242  singletonRef = NULL;
243 
244  static_cast<BaseObject*>(this)->destroy();
245}
246
247//! Singleton Reference to TrackManager
248TrackManager* TrackManager::singletonRef = NULL;
249
250/**
251   \returns The reference on the TrackManager.
252
253   If the TrackManager does not exist, it will be created.
254*/
255TrackManager* TrackManager::getInstance(void) 
256{
257  if (!singletonRef)
258    singletonRef = new TrackManager();
259  return singletonRef;
260}
261
262/**
263   \brief reserves Space for childCount children
264   \param childCount The Count of children to make space for.
265*/
266void TrackManager::initChildren(unsigned int childCount)
267{
268  this->currentTrackElem->childCount = childCount;
269  this->currentTrackElem->mainJoin = true;
270  this->currentTrackElem->children = new TrackElement*[childCount];
271  for (int i=0; i<childCount; i++)
272    {
273      this->currentTrackElem->children[i] = new TrackElement();
274      this->currentTrackElem->children[i]->ID = ++trackElemCount;
275      this->currentTrackElem->children[i]->startingTime = this->currentTrackElem->endTime + this->currentTrackElem->jumpTime;
276      this->addPoint(this->currentTrackElem->curve->getNode(this->currentTrackElem->curve->getNodeCount()), this->currentTrackElem->children[i]);
277    }
278}
279
280/**
281   \brief Searches for a given trackID.
282   \param trackID the trackID to search for.
283   \returns The TrackElement #trackID if found, NULL otherwise.
284*/
285TrackElement* TrackManager::findTrackElementByID(unsigned int trackID) const
286{
287  return firstTrackElem->findByID(trackID);
288}
289
290// INITIALIZE //
291
292/**
293   \brief Sets the trackID we are working on.
294   \param trackID the trackID we are working on
295*/
296void TrackManager::workOn(unsigned int trackID)
297{
298  TrackElement* tmpElem = findTrackElementByID(trackID);
299  if (tmpElem)
300    this->currentTrackElem = tmpElem;
301  else
302    printf("TrackElement not Found, leaving unchanged\n");
303  printf("now Working on %d\n", this->currentTrackElem->ID);
304
305}
306
307/**
308   \brief Sets the Type of the Curve
309   \param curveType The Type to set
310   \param trackElem the TrackElement that should get a new Curve.
311*/
312void TrackManager::setCurveType(CurveType curveType, TrackElement* trackElem)
313{
314  if (!trackElem->isFresh)
315    {
316      PRINTF(2)("It is not possible to change the type of a Curve after you have have appended some points to it\n");
317      return;
318    }
319  trackElem->curveType = curveType;
320  switch (curveType)
321    {
322    case BEZIERCURVE:
323      trackElem->curve = new BezierCurve();
324      break;
325    case UPOINTCURVE:
326      trackElem->curve = new UPointCurve();
327      break;
328    }
329}
330
331/**
332   \brief Sets the duration of the current path in seconds.
333   \param time The duration in seconds.
334*/
335
336void TrackManager::setDuration(float time)
337{
338  this->currentTrackElem->duration = time;
339  this->currentTrackElem->endTime = this->currentTrackElem->startingTime + time;
340}
341
342/**
343   \brief adds a point to the current TrackElement
344   \param newPoint The point to add.
345*/
346bool TrackManager::addPoint(Vector newPoint)
347{
348  return this->addPoint(newPoint, this->currentTrackElem);
349}
350
351/**
352   \brief adds a point to trackElem
353   \param newPoint The point to add.
354   \param trackElem The TrackElement to add the Point to
355*/
356bool TrackManager::addPoint(Vector newPoint, TrackElement* trackElem)
357{
358  if (trackElem->isFresh)
359    {
360      this->setCurveType(BEZIERCURVE, trackElem);
361      trackElem->isFresh = false;
362    }
363  trackElem->curve->addNode(newPoint);
364  trackElem->nodeCount++;
365}
366
367/**
368   \brief adds save/splitpoint.
369   \param newPoint The point to add.
370   \returns A Pointer to a newly appended Curve
371*/
372int TrackManager::addHotPoint(Vector newPoint)
373{
374  printf("setting up a HotPoint\n");
375  if (this->currentTrackElem->isFresh)
376    {
377      this->setCurveType(BEZIERCURVE);
378      this->currentTrackElem->isFresh = false;
379    }
380
381  // \todo HotPoint Handling.
382  this->currentTrackElem->curve->addNode(newPoint);
383  this->currentTrackElem->nodeCount++;
384  this->initChildren(1);
385  this->currentTrackElem = this->currentTrackElem->children[0];
386}
387
388/**
389   \brief Sets the last HotPoint into a savePoint.
390   \returns A Pointer to a newly appended Curve
391   
392   If no HotPoint was defined the last added Point will be rendered into a savePoint. \n
393   If the HotPoint was defined as a fork the Point will \b not be set into a savePoint.
394*/
395int TrackManager::setSavePoint(void)
396{
397  printf("setting up a SavePoint.\n");
398  if (this->currentTrackElem->isFork || this->currentTrackElem->isSavePoint)
399    return this->currentTrackElem->children[1]->ID;
400  this->currentTrackElem->isSavePoint = true;
401  this->currentTrackElem->isHotPoint = true;
402
403  this->initChildren(1);
404  this->currentTrackElem = this->currentTrackElem->children[0];
405}
406
407/**
408   \brief adds some interessting non-linear movments through the level.
409   \param count The Count of childrens the current HotPoint will have.
410
411   If no HotPoint was defined the last added Point will be rendered into a fork. \n
412   If the HotPoint was defined as a savePoint the Point will \b not be set into a fork.
413*/
414void TrackManager::fork(unsigned int count, ...)
415{
416  int* trackIDs = new int[count];
417  this->forkV(count, trackIDs);
418  va_list ID;
419  va_start (ID, count);
420  for(int i = 0; i < count; i++)
421    {
422      *va_arg (ID, int*) = trackIDs[i];
423    }
424  va_end(ID); 
425  delete []trackIDs;
426}
427
428/**
429   \brief adds some interessting non-linear movments through the level.
430   \param count The Count of childrens the current HotPoint will have.
431   \param trackIDs A Pointer to an Array of ints which will hold the trackID's (the user will have to reserve space for this).
432
433   \see void TrackManager::fork(int count, ...)
434
435   \todo initialisation is wrong!! also in setSavePoint.
436*/
437void TrackManager::forkV(unsigned int count, int* trackIDs)
438{
439  printf("Forking with %d children\n", count);
440  if (this->currentTrackElem->isSavePoint)
441    return;
442  this->currentTrackElem->isFork = true;
443  this->currentTrackElem->isHotPoint = true;
444  for(int i = 0; i < count; i++)
445    trackIDs[i]=this->trackElemCount+1+i;
446  this->initChildren(count);
447}
448
449/**
450   \brief decides under what condition a certain Path will be chosen.
451   \param cond the CONDITION of the decision
452   \param subject the Subject that will be decided upon with CONDITION cond.
453*/
454void TrackManager::condition(CONDITION cond, void* subject)
455{
456  this->condition(this->currentTrackElem->ID, cond, subject);
457}
458/**
459   \brief decides under what condition a certain Path will be chosen.
460   \param groupID the ID on which to choose the preceding move
461   \param cond the CONDITION of the decision
462   \param subject the Subject that will be decided upon with CONDITION cond.
463*/
464void TrackManager::condition(unsigned int groupID, CONDITION cond, void* subject)
465{
466  TrackElement* tmpElem = this->findTrackElementByID(groupID);
467 
468  switch (cond)
469    {
470    case LOWEST:
471      tmpElem->condFunc = &TrackElement::lowest;
472      break;
473    case HIGHEST:
474      tmpElem->condFunc = &TrackElement::highest;
475      break;
476    case RANDOM: 
477      tmpElem->condFunc = &TrackElement::random;
478      break;
479    case LEFTRIGHT:
480      tmpElem->condFunc = &TrackElement::leftRight;
481      break;
482    case NEAREST:
483      tmpElem->condFunc = &TrackElement::nearest;
484      break;
485    case ENEMYKILLED:
486      break;
487    }
488  tmpElem->subject=subject;
489}
490
491
492/**
493   \brief joins some tracks together again.
494   \param count The count of Paths to join.
495
496   Join will set the localTime to the longest time a Path has to get to this Point. \n
497   Join will join all curves to the first curve, meaning that all the tangents will be matched.
498*/
499void TrackManager::join(unsigned int count, ...)
500{
501  int* trackIDs = new int [count];
502  va_list ID;
503  va_start (ID, count);
504  for(int i = 0; i < count; i++)
505    {
506      trackIDs[i] = va_arg (ID, int);
507    }
508  va_end(ID);
509  this->joinV(count, trackIDs);
510  delete []trackIDs;
511}
512
513/**
514   \brief joins some tracks together again.
515   \param count The count of Paths to join.
516   \param trackIDs an Array with the trackID's to join
517
518   \see void TrackManager::join(int count, ...)
519*/
520void TrackManager::joinV(unsigned int count, int* trackIDs)
521{
522  printf("Joining %d tracks and merging to Track %d\n", count, trackIDs[0]);
523
524  // checking if there is a back-loop-connection and ERROR if it is.
525  TrackElement* tmpTrackElem = this->findTrackElementByID(trackIDs[0]);
526  if (!tmpTrackElem->backLoopCheck(tmpTrackElem))
527    PRINTF(1)("Backloop connection detected at joining trackElements\n");
528
529  // chanching work-on to temporary value. going back at the end.
530  int tmpCurrentWorkingID = this->currentTrackElem->ID;
531  this->workOn(trackIDs[0]);
532  TrackElement* firstJoint = this->currentTrackElem;
533  float tmpLatestTime = firstJoint->endTime;
534
535  Vector tmpEndPoint = firstJoint->curve->getNode(firstJoint->curve->getNodeCount());
536  Vector tmpTangentPoint = firstJoint->curve->getNode(firstJoint->curve->getNodeCount()-1);
537  Vector tmpc2Point = firstJoint->curve->getNode(firstJoint->curve->getNodeCount()-2);
538  firstJoint->isJoined = true;
539  //  firstJoint->mainJoin = true;
540  if(!firstJoint->isHotPoint)
541    this->setSavePoint();
542  // Timing:
543  for (int i = 0; i < count; i++)
544    {
545      TrackElement* tmpJoinElem = this->findTrackElementByID(trackIDs[i]);
546      if (tmpJoinElem->childCount == 0
547          && tmpJoinElem->endTime > tmpLatestTime)
548        tmpLatestTime = tmpJoinElem->endTime;
549    }
550  // time the main Join.
551  firstJoint->jumpTime = tmpLatestTime - firstJoint->endTime;
552 
553  // Joining:
554  for (int i = 1; i < count; i++)
555    {
556      TrackElement* tmpJoinElem = this->findTrackElementByID(trackIDs[i]);
557      if (tmpJoinElem->childCount > 0)
558        printf("!!This Curve has children, and as such will not be joined!!\n You can try joining other childless TrackElements to this one!");
559      else
560        {
561          this->addPoint(tmpc2Point, tmpJoinElem);
562          this->addPoint(tmpTangentPoint, tmpJoinElem);
563          this->addPoint(tmpEndPoint, tmpJoinElem);
564          // time all other Joins
565          tmpJoinElem->jumpTime = tmpLatestTime - tmpJoinElem->endTime;
566         
567          //Copying Joint-Info
568          tmpJoinElem->children = firstJoint->children;
569          tmpJoinElem->childCount = firstJoint->childCount;
570          tmpJoinElem->isSavePoint = firstJoint->isSavePoint;
571          tmpJoinElem->isFork = firstJoint->isFork;
572
573          tmpJoinElem->isJoined = true;
574        }
575    }
576  if(firstJoint->childCount > 0)
577    for(int i = 0; i < firstJoint->childCount; i++)
578      {
579        printf("Setting startingTime of %d to %f.\n", firstJoint->children[i]->ID, tmpLatestTime);
580        firstJoint->children[i]->startingTime = tmpLatestTime;
581        firstJoint->children[i]->endTime = tmpLatestTime+firstJoint->children[i]->duration;
582      } 
583
584  // returning to the TrackElement we were working on.
585  this->workOn(tmpCurrentWorkingID);
586}
587
588/**
589   \brief finalizes the TrackSystem. after this it will not be editable anymore
590
591   \todo check for any inconsistencies, output errors
592*/
593void TrackManager::finalize(void)
594{
595  for (int i = 1; i<= trackElemCount ;i++)
596    {
597      TrackElement* tmpElem = findTrackElementByID(i);
598      if (tmpElem->childCount>0 && tmpElem->mainJoin)
599        {
600          for (int j = 0; j < tmpElem->childCount; j++)
601            {
602             
603              // c1-continuity
604              tmpElem->children[j]->curve->addNode(tmpElem->children[j]->curve->getNode(0) +
605                                                   ((tmpElem->children[j]->curve->getNode(0) - 
606                                                    tmpElem->curve->getNode(tmpElem->curve->getNodeCount()-1))
607                                                    ),2);
608              tmpElem->children[j]->nodeCount++;
609              // c2-continuity
610              tmpElem->children[j]->curve->addNode((tmpElem->curve->getNode(tmpElem->curve->getNodeCount())-
611                                                    tmpElem->curve->getNode(tmpElem->curve->getNodeCount()-1)) * 4 +
612                                                   tmpElem->curve->getNode(tmpElem->curve->getNodeCount()-2), 3);
613              tmpElem->children[j]->nodeCount++;                                                   
614              printf("accelerations: %d-in: count: %d, %f, %f, %f\n                  %d-out: count: %d %f, %f, %f\n",
615                     tmpElem->ID, tmpElem->nodeCount,
616                     tmpElem->curve->calcAcc(0.999).x, tmpElem->curve->calcAcc(0.999).y, tmpElem->curve->calcAcc(0.999).z,
617                     tmpElem->children[j]->ID, tmpElem->children[j]->nodeCount,
618                     tmpElem->children[j]->curve->calcAcc(0).x, tmpElem->children[j]->curve->calcAcc(0).y, tmpElem->children[j]->curve->calcAcc(0).z);
619            }
620        }
621    }
622}
623
624
625// RUNTIME //
626
627/**
628   \brief calculates the Position for the localTime of the Track.
629   \returns the calculated Position
630*/
631Vector TrackManager::calcPos() const
632{
633  //  PRINTF(0)("TrackElement:%d, localTime: %f\n",this->currentTrackElem->ID, this->localTime);
634  return this->currentTrackElem->curve->calcPos((this->localTime-this->currentTrackElem->startingTime)/this->currentTrackElem->duration);
635}
636
637/**
638   \brief calculates the Rotation for the localTime of the Track.
639   \returns the calculated Rotation
640*/
641Vector TrackManager::calcDir() const
642{
643  return this->currentTrackElem->curve->calcDir((this->localTime - this->currentTrackElem->startingTime)/this->currentTrackElem->duration);
644}
645
646/**
647   \brief Advances the local-time of the Track around dt
648   \param dt The time about which to advance.
649
650   This function also checks, if the TrackElement has to be changed.
651*/
652void TrackManager::tick(float dt)
653{
654  dt /= 1000;
655  printf("CurrentTrackID: %d, LocalTime is: %f, timestep is: %f\n", this->currentTrackElem->ID, this->localTime, dt);
656  if (this->localTime <= this->firstTrackElem->duration)
657    this->jumpTo(this->localTime);
658  this->localTime += dt;
659  if (this->localTime > this->currentTrackElem->endTime
660      && this->currentTrackElem->children)
661    {
662      if (this->currentTrackElem->jumpTime != 0.0)
663        this->jumpTo(this->localTime + this->currentTrackElem->jumpTime);
664      // jump to the next TrackElement and also set the history of the new Element to the old one.
665      TrackElement* tmpHistoryElem = this->currentTrackElem;
666      this->currentTrackElem = this->currentTrackElem->children[this->choosePath(this->currentTrackElem)];
667      this->currentTrackElem->history = tmpHistoryElem;
668    }
669  if (this->bindSlave)
670    {
671      Vector tmp = this->calcPos();
672      Quaternion quat = Quaternion(this->calcDir(), Vector(this->currentTrackElem->curve->calcAcc((localTime-this->currentTrackElem->startingTime)/this->currentTrackElem->duration).x,1,this->currentTrackElem->curve->calcAcc((localTime-this->currentTrackElem->startingTime)/this->currentTrackElem->duration).z)); 
673
674      Vector v(0.0, 1.0, 0.0);
675      Quaternion q(-PI/2, v);
676      //this->relDirection = this->relDirection * q;
677      quat = quat * q;
678
679      this->bindSlave->setAbsCoor(&tmp);
680      this->bindSlave->setAbsDir(&quat);
681    }
682}
683
684/**
685   \brief Jumps to a certain point on the Track.
686   \param time The time on the Track to jump to.
687
688   This should be used to Jump backwards on a Track, because moving forward means to change between the Path. (it then tries to choose the default.)
689   Max is trackLengthMax.
690*/
691void TrackManager::jumpTo(float time)
692{
693  if (time == 0)
694    this->currentTrackElem = this->firstTrackElem;
695  this->localTime = time;
696}
697
698/**
699   \brief a Function that decides which Path we should follow.
700   \param trackElem The Path to choose.
701   
702*/
703int TrackManager::choosePath(TrackElement* trackElem)
704{
705  return (trackElem->*(trackElem->condFunc))(trackElem->subject);
706}
707
708/**
709   \brief Sets the PNode, that should be moved along the Tack
710   \param bindSlave the PNode to set
711*/
712void TrackManager::setBindSlave(PNode* bindSlave)
713{
714  if (this->bindSlave == TrackNode::getInstance() || bindSlave == TrackNode::getInstance())
715    this->bindSlave = bindSlave;
716  else
717    PRINTF(2)("Already a Bindslave set that is not the TrackNode itself. Not updating\n");
718}
719
720
721// DEBUG //
722
723/**
724   \brief Imports a model of the Graph into the OpenGL-environment.
725   \param dt The Iterator used in seconds for Painting the Graph.
726
727   This is for testing facility only. Do this if you want to see the Path inside the Level.
728   eventually this will all be packed into a gl-list.
729*/
730void TrackManager::drawGraph(float dt) const
731{
732
733  for (int i = 1; i <= trackElemCount; i++)
734    {
735      glBegin(GL_LINE_STRIP);
736      TrackElement* tmpElem = this->findTrackElementByID(i);
737      if (tmpElem->curve)
738        for(float f = 0.0; f < 1.0; f+=dt)
739          {
740            //      printf("%f, %f, %f\n",trackManager->calcPos().x, trackManager->calcPos().y, trackManager->calcPos().z);
741            Vector tmpVector = tmpElem->curve->calcPos(f);
742            glVertex3f(tmpVector.x, tmpVector.y, tmpVector.z);
743          }
744  glEnd();
745    }
746}
747
748/**
749   \brief outputs debug information about the trackManager
750   \param level how much debug
751*/
752void TrackManager::debug(unsigned int level) const
753{
754  PRINT(0)("=========================================\n");
755  PRINT(0)("= CLASS TRACKMANAGER::debug information =\n");
756  PRINT(0)("=========================================\n");
757  //  PRINT(0)("Status is: %
758  PRINT(0)(" Consists of %d elements\n", this->trackElemCount);
759  PRINT(0)(" localTime is: %f\n", this->localTime);
760  if (level >= 2)
761    {
762      for (int i = 1; i <= trackElemCount; i++)
763        {
764          TrackElement* tmpElem = this->findTrackElementByID(i);
765          PRINT(0)("--== TrackElement:%i ==--", tmpElem->ID);
766          if(tmpElem->name)
767            PRINT(0)("Name: %s::", tmpElem->name);
768          if(tmpElem->isFresh)
769            PRINT(0)("  -- has not jet eddited in any way --\n");
770          PRINT(0)("\n   TimeTable: startingTime=%f; endTime=%f; duration=%f; jumpTime=%f\n", tmpElem->startingTime, tmpElem->endTime, tmpElem->duration, tmpElem->jumpTime);
771          PRINT(0)("   consists of %d Points\n", tmpElem->nodeCount);
772          if (tmpElem->childCount == 0)
773            PRINT(0)("   has no child\n");
774          else if (tmpElem->childCount == 1)
775            PRINT(0)("   has 1 child: =%d=\n", tmpElem->children[0]->ID);
776          else if (tmpElem->childCount > 1)
777            {
778              PRINT(0)("   has %d children: ", tmpElem->childCount);
779              for(int i = 0; i < tmpElem->childCount; i++)
780                PRINT(0)("=%d= ", tmpElem->children[i]->ID);
781              PRINT(0)("\n");
782            }
783
784          if(tmpElem->isHotPoint)
785            PRINT(0)("   is a special Point:\n");
786          if(tmpElem->isSavePoint)
787            PRINT(0)("    is a SavePoint\n");
788          if(tmpElem->isFork)
789            {
790              PRINT(0)("    is A Fork with with %d children.\n", tmpElem->childCount);
791            }
792          if(tmpElem->isJoined)
793            PRINT(0)("   is Joined at the End\n");
794
795          if(!tmpElem->backLoopCheck(tmpElem)) /* this should not happen */
796            PRINT(2)(" THERE IS A BACKLOOP TO THIS ELEMENT\n");
797        }
798    }
799  PRINT(0)("-----------------------------------------\n");
800}
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