source: OGRE/trunk/ogrenew/OgreMain/src/OgreProfiler.cpp @ 692

Revision 692, 28.8 KB checked in by mattausch, 19 years ago (diff)

adding ogre 1.2 and dependencies

RevLine 
[692]1/*
2-----------------------------------------------------------------------------
3This source file is part of OGRE
4    (Object-oriented Graphics Rendering Engine)
5For the latest info, see http://www.ogre3d.org/
6
7Copyright (c) 2000-2005 The OGRE Team
8Also see acknowledgements in Readme.html
9
10This program is free software; you can redistribute it and/or modify it under
11the terms of the GNU Lesser General Public License as published by the Free Software
12Foundation; either version 2 of the License, or (at your option) any later
13version.
14
15This program is distributed in the hope that it will be useful, but WITHOUT
16ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
17FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more details.
18
19You should have received a copy of the GNU Lesser General Public License along with
20this program; if not, write to the Free Software Foundation, Inc., 59 Temple
21Place - Suite 330, Boston, MA 02111-1307, USA, or go to
22http://www.gnu.org/copyleft/lesser.txt.
23-----------------------------------------------------------------------------
24*/
25#include "OgreStableHeaders.h"
26/*
27
28    Although the code is original, many of the ideas for the profiler were borrowed from
29"Real-Time In-Game Profiling" by Steve Rabin which can be found in Game Programming
30Gems 1.
31
32    This code can easily be adapted to your own non-Ogre project. The only code that is
33Ogre-dependent is in the visualization/logging routines and the use of the Timer class.
34
35    Enjoy!
36
37*/
38
39#include "OgreProfiler.h"
40#include "OgreTimer.h"
41#include "OgreLogManager.h"
42#include "OgreStringConverter.h"
43#include "OgreOverlayManager.h"
44#include "OgreOverlayElement.h"
45#include "OgreOverlayContainer.h"
46
47namespace Ogre {
48    //-----------------------------------------------------------------------
49    // PROFILE DEFINITIONS
50    //-----------------------------------------------------------------------
51    template<> Profiler* Singleton<Profiler>::ms_Singleton = 0;
52    Profiler* Profiler::getSingletonPtr(void)
53    {
54        return ms_Singleton;
55    }
56    Profiler& Profiler::getSingleton(void)
57    { 
58        assert( ms_Singleton );  return ( *ms_Singleton ); 
59    }
60    //-----------------------------------------------------------------------
61    Profile::Profile(const String& profileName) {
62
63        mName = profileName;
64
65        Ogre::Profiler::getSingleton().beginProfile(profileName);
66
67    }
68    //-----------------------------------------------------------------------
69    Profile::~Profile() {
70
71        Ogre::Profiler::getSingleton().endProfile(mName);
72
73    }
74    //-----------------------------------------------------------------------
75
76
77    //-----------------------------------------------------------------------
78    // PROFILER DEFINITIONS
79    //-----------------------------------------------------------------------
80    Profiler::Profiler() {
81
82        // init some variables
83        mTimer = 0;
84        mTotalFrameTime = 0;
85        mUpdateDisplayFrequency = 0;
86        mCurrentFrame = 0;
87        mEnabled = mNewEnableState = false; // the profiler starts out as disabled
88        mEnableStateChangePending = false;
89        mInitialized = false;
90        maxProfiles = 50;
91
92        // by default the display will be updated every 10 frames
93        mUpdateDisplayFrequency = 10;
94
95    }
96    //-----------------------------------------------------------------------
97    Profiler::~Profiler() {
98
99        if (!mProfileHistory.empty()) {
100            // log the results of our profiling before we quit
101            logResults();
102        }
103
104        // clear all our lists
105        mProfiles.clear();
106        mProfileFrame.clear();
107        mProfileHistoryMap.clear();
108        mProfileHistory.clear();
109        mDisabledProfiles.clear();
110        mProfileBars.clear();
111
112    }
113    //-----------------------------------------------------------------------
114    void Profiler::initialize() {
115
116        // init some gui characteristics
117        mBarHeight = 10; //0.02;
118        mGuiBorderWidth = 10; //0.02;
119        mGuiHeight = 25; //0.05;
120        mGuiWidth = 250; //0.15;
121        mBarIndent = mGuiWidth;
122        mBarLineWidth = 2;
123
124        // create a new overlay to hold our Profiler display
125        mOverlay = OverlayManager::getSingleton().create("Profiler");
126        mOverlay->setZOrder(500);
127
128        // this panel will be the main container for our profile bars
129        mProfileGui = createContainer();
130
131        OverlayElement* element;
132
133        // we create the little "ticks" above the profiles
134        for (uint k = 1; k < 10; ++k) { // we don't want a tick at 0% or 100%
135
136            if (k != 5) { // we don't want a tick at 50%
137                element = createTextArea("ProfileKeyLine" + StringConverter::toString(k), 20, 10, 2, mGuiWidth * (1 + k * .1), 9, "|");
138                mProfileGui->addChild(element);
139            }
140
141        }
142
143        // we create a 0% marker
144        element = createTextArea("ProfileKey0", 50, 10, 2, mGuiWidth * 0.99, 9, "0%");
145        mProfileGui->addChild(element);
146
147        // we create a 50% marker
148        element = createTextArea("ProfileyKey50", 50, 10, 2, mGuiWidth * 1.48, 9, "50%");
149        mProfileGui->addChild(element);
150
151        // we create a 100% marker
152        element = createTextArea("ProfileKey100", 50, 10, 2, mGuiWidth * 1.98, 9, "100%");
153        mProfileGui->addChild(element);
154
155        // we create an initial pool of 50 profile bars
156        for (uint i = 0; i < maxProfiles; ++i) {
157
158            // this is for the profile name and the number of times it was called in a frame
159            element = createTextArea("profileText" + StringConverter::toString(i), 90, mBarHeight, mGuiBorderWidth + (mBarHeight * 2) * i, 0, 14, "", false);
160            mProfileGui->addChild(element);
161            mProfileBars.push_back(element);
162
163            // this indicates the current frame time
164            element = createPanel("currBar" + StringConverter::toString(i), 0, mBarHeight, mGuiBorderWidth + (mBarHeight * 2) * i, mBarIndent, "Core/ProfilerCurrent", false);
165            mProfileGui->addChild(element);
166            mProfileBars.push_back(element);
167
168            // this indicates the minimum frame time
169            element = createPanel("minBar" + StringConverter::toString(i), mBarLineWidth, mBarHeight, mGuiBorderWidth + (mBarHeight * 2) * i, 0, "Core/ProfilerMin", false);
170            mProfileGui->addChild(element);
171            mProfileBars.push_back(element);
172
173            // this indicates the maximum frame time
174            element = createPanel("maxBar" + StringConverter::toString(i), mBarLineWidth, mBarHeight, mGuiBorderWidth + (mBarHeight * 2) * i, 0, "Core/ProfilerMax", false);
175            mProfileGui->addChild(element);
176            mProfileBars.push_back(element);
177
178            // this indicates the average frame time
179            element = createPanel("avgBar" + StringConverter::toString(i), mBarLineWidth, mBarHeight, mGuiBorderWidth + (mBarHeight * 2) * i, 0, "Core/ProfilerAvg", false);
180            mProfileGui->addChild(element);
181            mProfileBars.push_back(element);
182
183        }
184
185        // throw everything all the GUI stuff into the overlay and display it
186        mOverlay->add2D(mProfileGui);
187        mOverlay->show();
188
189    }
190    //-----------------------------------------------------------------------
191    void Profiler::setTimer(Timer* t) {
192
193        mTimer = t;
194
195    }
196    //-----------------------------------------------------------------------
197    Timer* Profiler::getTimer() {
198
199        assert(mTimer && "Timer not set!");
200        return mTimer;
201
202    }
203    //-----------------------------------------------------------------------
204    void Profiler::setEnabled(bool enabled) {
205
206        if (!mInitialized && enabled) {
207
208            // the user wants to enable the Profiler for the first time
209            // so we initialize the GUI stuff
210            initialize();
211            mInitialized = true;
212            mEnabled = true;
213
214        }
215        else {
216            // We store this enable/disable request until the frame ends
217            // (don't want to screw up any open profiles!)
218            mEnableStateChangePending = true;
219            mNewEnableState = enabled;
220        }
221
222    }
223    //-----------------------------------------------------------------------
224    bool Profiler::getEnabled() const {
225
226        return mEnabled;
227
228    }
229    //-----------------------------------------------------------------------
230    void Profiler::disableProfile(const String& profileName) {
231
232        // make sure the profile isn't already disabled
233        DisabledProfileMap::iterator iter;
234        iter = mDisabledProfiles.find(profileName);
235
236        // make sure you don't disable a profile in the middle of that profile
237        ProfileStack::iterator pIter;
238        for (pIter = mProfiles.begin(); pIter != mProfiles.end(); ++pIter) {
239
240            if (profileName == (*pIter).name)
241                break;
242
243        }
244
245        // if those two conditions are met, disable the profile
246        if ( (iter == mDisabledProfiles.end()) && (pIter == mProfiles.end()) ) {
247
248            mDisabledProfiles.insert(std::pair<String, bool>(profileName, true));
249
250        }
251
252    }
253    //-----------------------------------------------------------------------
254    void Profiler::enableProfile(const String& profileName) {
255
256        // make sure the profile is actually disabled
257        DisabledProfileMap::iterator iter;
258        iter = mDisabledProfiles.find(profileName);
259
260        // make sure you don't enable a profile in the middle of that profile
261        ProfileStack::iterator pIter;
262        for (pIter = mProfiles.begin(); pIter != mProfiles.end(); ++pIter) {
263
264            if (profileName == (*pIter).name)
265                break;
266
267        }
268
269        // if those two conditions are met, enable the profile by removing it from
270        // the disabled list
271        if ( (iter != mDisabledProfiles.end()) && (pIter == mProfiles.end()) ) {
272
273            mDisabledProfiles.erase(iter);
274
275        }
276
277    }
278    //-----------------------------------------------------------------------
279    void Profiler::beginProfile(const String& profileName) {
280
281        // if the profiler is enabled
282        if (!mEnabled) {
283
284            return;
285
286        }
287
288        // empty string is reserved for the root
289        assert ((profileName != "") && ("Profile name can't be an empty string"));
290
291        ProfileStack::iterator iter;
292        for (iter = mProfiles.begin(); iter != mProfiles.end(); ++iter) {
293
294            if ((*iter).name == profileName) {
295
296                break;
297
298            }
299
300        }
301
302        // make sure this profile isn't being used more than once
303        assert ((iter == mProfiles.end()) && ("This profile name is already being used"));
304
305        // we only process this profile if isn't disabled
306        DisabledProfileMap::iterator dIter;
307        dIter = mDisabledProfiles.find(profileName);
308        if ( dIter != mDisabledProfiles.end() ) {
309
310            return;
311
312        }
313
314        ProfileInstance p;
315
316        // this is the root, it has no parent
317        if (mProfiles.empty()) {
318
319            p.parent = "";
320
321        }
322        // otherwise peek at the stack and use the top as the parent
323        else {
324
325            ProfileInstance parent = mProfiles.back();
326            p.parent = parent.name;
327
328        }
329
330        // need a timer to profile!
331        assert (mTimer && "Timer not set!");
332
333        ProfileFrameList::iterator fIter;
334        ProfileHistoryList::iterator hIter;
335
336        // we check to see if this profile has been called in the frame before
337        for (fIter = mProfileFrame.begin(); fIter != mProfileFrame.end(); ++fIter) {
338
339            if ((*fIter).name == profileName)
340                break;
341
342        }
343        // if it hasn't been called before, set its position in the stack
344        if (fIter == mProfileFrame.end()) {
345
346            ProfileFrame f;
347            f.name = profileName;
348            f.frameTime = 0;
349            f.calls = 0;
350            f.hierarchicalLvl = (uint) mProfiles.size();
351            mProfileFrame.push_back(f);
352
353        }
354
355        // we check to see if this profile has been called in the app before
356        ProfileHistoryMap::iterator histMapIter;
357        histMapIter = mProfileHistoryMap.find(profileName);
358
359        // if not we add a profile with just the name into the history
360        if (histMapIter == mProfileHistoryMap.end()) {
361
362            ProfileHistory h;
363            h.name = profileName;
364            h.numCallsThisFrame = 0;
365            h.totalTime = 0;
366            h.totalCalls = 0;
367            h.maxTime = 0;
368            h.minTime = 1;
369            h.hierarchicalLvl = p.hierarchicalLvl;
370            h.currentTime = 0;
371
372            // we add this to the history
373            hIter = mProfileHistory.insert(mProfileHistory.end(), h);
374
375            // for quick look-ups, we'll add it to the history map as well
376            mProfileHistoryMap.insert(std::pair<String, ProfileHistoryList::iterator>(profileName, hIter));
377
378        }
379
380        // add the stats to this profile and push it on the stack
381        // we do this at the very end of the function to get the most
382        // accurate timing results
383        p.name = profileName;
384        p.currTime = mTimer->getMicroseconds();
385        p.accum = 0;
386        p.hierarchicalLvl = (uint) mProfiles.size();
387        mProfiles.push_back(p);
388
389    }
390    //-----------------------------------------------------------------------
391    void Profiler::endProfile(const String& profileName) {
392
393                // if the profiler received a request to be enabled or disabled
394                // we reached the end of the frame so we can safely do this
395                if (mEnableStateChangePending) {
396
397                        changeEnableState();
398
399                }
400
401     // if the profiler is enabled
402        if(!mEnabled) {
403
404            return;
405
406        }
407
408        // need a timer to profile!
409        assert (mTimer && "Timer not set!");
410
411        // get the end time of this profile
412        // we do this as close the beginning of this function as possible
413        // to get more accurate timing results
414        ulong endTime = mTimer->getMicroseconds();
415
416        // empty string is reserved for designating an empty parent
417        assert ((profileName != "") && ("Profile name can't be an empty string"));
418
419        // we only process this profile if isn't disabled
420        DisabledProfileMap::iterator dIter;
421        dIter = mDisabledProfiles.find(profileName);
422        if ( dIter != mDisabledProfiles.end() ) {
423
424            return;
425
426        }
427
428        // stack shouldnt be empty
429        assert (!mProfiles.empty());
430
431        // get the start of this profile
432        ProfileInstance bProfile;
433        bProfile = mProfiles.back();
434        mProfiles.pop_back();
435
436        // calculate the elapsed time of this profile
437        ulong timeElapsed = endTime - bProfile.currTime;
438
439        // update parent's accumalator if it isn't the root
440        if (bProfile.parent != "") {
441
442            // find the parent
443            ProfileStack::iterator iter;
444            for(iter = mProfiles.begin(); iter != mProfiles.end(); ++iter) {
445
446                if ((*iter).name == bProfile.parent)
447                    break;
448
449            }
450
451            // the parent should be found
452            assert(iter != mProfiles.end());
453
454            // add this profile's time to the parent's accumlator
455            (*iter).accum += timeElapsed;
456
457        }
458
459        // we find the profile in this frame
460        ProfileFrameList::iterator iter;
461        for (iter = mProfileFrame.begin(); iter != mProfileFrame.end(); ++iter) {
462
463            if ((*iter).name == bProfile.name)
464                break;
465
466        }
467
468        // we subtract the time the children profiles took from this profile
469        (*iter).frameTime += timeElapsed - bProfile.accum;
470        (*iter).calls++;
471
472        // the stack is empty and all the profiles have been completed
473        // we have reached the end of the frame so process the frame statistics
474        if (mProfiles.empty()) {
475
476            // we know that the time elapsed of the main loop is the total time the frame took
477            mTotalFrameTime = timeElapsed;
478
479            // we got all the information we need, so process the profiles
480            // for this frame
481            processFrameStats();
482
483            // clear the frame stats for next frame
484            mProfileFrame.clear();
485
486            // we display everything to the screen
487            displayResults();
488
489        }
490
491    }
492    //-----------------------------------------------------------------------
493    void Profiler::processFrameStats() {
494
495        ProfileFrameList::iterator frameIter;
496        ProfileHistoryList::iterator historyIter;
497
498        // we set the number of times each profile was called per frame to 0
499        // because not all profiles are called every frame
500        for (historyIter = mProfileHistory.begin(); historyIter != mProfileHistory.end(); ++historyIter) {
501
502            (*historyIter).numCallsThisFrame = 0;
503
504        }
505
506        // iterate through each of the profiles processed during this frame
507        for (frameIter = mProfileFrame.begin(); frameIter != mProfileFrame.end(); ++frameIter) {
508
509            String s = (*frameIter).name;
510
511            // use our map to find the appropriate profile in the history
512            historyIter = (*mProfileHistoryMap.find(s)).second;
513
514            // extract the frame stats
515            ulong frameTime = (*frameIter).frameTime;
516            uint calls = (*frameIter).calls;
517            uint lvl = (*frameIter).hierarchicalLvl;
518
519            // calculate what percentage of frame time this profile took
520            Real framePercentage = (Real) frameTime / (Real) mTotalFrameTime;
521
522            // update the profile stats
523            (*historyIter).currentTime = framePercentage;
524            (*historyIter).totalTime += framePercentage;
525            (*historyIter).totalCalls++;
526            (*historyIter).numCallsThisFrame = calls;
527            (*historyIter).hierarchicalLvl = lvl;
528
529            // if we find a new minimum for this profile, update it
530            if ((framePercentage) < ((*historyIter).minTime)) {
531
532                (*historyIter).minTime = framePercentage;
533
534            }
535
536            // if we find a new maximum for this profile, update it
537            if ((framePercentage) > ((*historyIter).maxTime)) {
538
539                (*historyIter).maxTime = framePercentage;
540
541            }
542
543        }
544
545    }
546    //-----------------------------------------------------------------------
547    void Profiler::displayResults() {
548
549        if (!mEnabled) {
550
551            return;
552
553        }
554
555        // if its time to update the display
556        if (mCurrentFrame >= mUpdateDisplayFrequency) {
557
558            mCurrentFrame = 0;
559
560            ProfileHistoryList::iterator iter;
561            ProfileBarList::iterator bIter;
562
563            OverlayElement* g;
564
565            Real newGuiHeight = mGuiHeight;
566
567            int temp = 0; // dummy variable for weird Ogre issue
568
569            // go through each profile and display it
570            for (iter = mProfileHistory.begin(), bIter = mProfileBars.begin();
571                                iter != mProfileHistory.end() && bIter != mProfileBars.end();
572                                ++iter, ++bIter)
573                        {
574
575                // display the profile's name and the number of times it was called in a frame
576                g = *bIter;
577                g->show();
578                g->setCaption((*iter).name + " (" + StringConverter::toString((*iter).numCallsThisFrame) + ")");
579                g->setLeft(10 + (*iter).hierarchicalLvl * 15);
580
581                // display the main bar that show the percentage of the frame time that this
582                // profile has taken
583                bIter++;
584                g = *bIter;
585                g->show();
586                // most of this junk has been set before, but we do this to get around a weird
587                // Ogre gui issue (bug?)
588                g->setMetricsMode(GMM_PIXELS);
589                g->setHeight(mBarHeight);
590                g->setWidth(((*iter).currentTime) * mGuiWidth);
591                g->setLeft(mGuiWidth);
592                g->setTop(mGuiBorderWidth + temp * mBarHeight * 2);
593
594                // display line to indicate the minimum frame time for this profile
595                bIter++;
596                g = *bIter;
597                g->show();
598                g->setLeft(mBarIndent + (*iter).minTime * mGuiWidth);
599
600                // display line to indicate the maximum frame time for this profile
601                bIter++;
602                g = *bIter;
603                g->show();
604                g->setLeft(mBarIndent + (*iter).maxTime * mGuiWidth);
605
606                // display line to indicate the average frame time for this profile
607                bIter++;
608                g = *bIter;
609                g->show();
610                if ((*iter).totalCalls != 0)
611                    g->setLeft(mBarIndent + ((*iter).totalTime / (*iter).totalCalls) * mGuiWidth);
612                else
613                    g->setLeft(mBarIndent);
614                // we set the height of the display with respect to the number of profiles displayed
615                newGuiHeight += mBarHeight * 2;
616
617                temp++;
618
619            }
620
621            // set the main display dimensions
622            mProfileGui->setMetricsMode(GMM_PIXELS);
623            mProfileGui->setHeight(newGuiHeight);
624            mProfileGui->setWidth(mGuiWidth * 2 + 15);
625            mProfileGui->setTop(5);
626            mProfileGui->setLeft(5);
627
628            // we hide all the remaining pre-created bars
629            for (; bIter != mProfileBars.end(); ++bIter) {
630
631                (*bIter)->hide();
632
633            }
634
635        }
636
637        // not time to update the display yet
638        else {
639
640            mCurrentFrame++;
641
642        }
643
644    }
645    //-----------------------------------------------------------------------
646    bool Profiler::watchForMax(const String& profileName) {
647
648        ProfileHistoryMap::iterator mapIter;
649        ProfileHistoryList::iterator iter;
650
651        mapIter = mProfileHistoryMap.find(profileName);
652
653        // if we don't find the profile, return false
654        if (mapIter == mProfileHistoryMap.end())
655            return false;
656
657        iter = (*mapIter).second;
658
659        return ((*iter).currentTime == (*iter).maxTime);
660
661    }
662    //-----------------------------------------------------------------------
663    bool Profiler::watchForMin(const String& profileName) {
664
665        ProfileHistoryMap::iterator mapIter;
666        ProfileHistoryList::iterator iter;
667
668        mapIter = mProfileHistoryMap.find(profileName);
669
670        // if we don't find the profile, return false
671        if (mapIter == mProfileHistoryMap.end())
672            return false;
673
674        iter = (*mapIter).second;
675
676        return ((*iter).currentTime == (*iter).minTime);
677
678    }
679    //-----------------------------------------------------------------------
680    bool Profiler::watchForLimit(const String& profileName, Real limit, bool greaterThan) {
681
682        ProfileHistoryMap::iterator mapIter;
683        ProfileHistoryList::iterator iter;
684
685        mapIter = mProfileHistoryMap.find(profileName);
686
687        // if we don't find the profile, return false
688        if (mapIter == mProfileHistoryMap.end())
689            return false;
690
691        iter = (*mapIter).second;
692
693        if (greaterThan)
694            return ((*iter).currentTime > limit);
695        else
696            return ((*iter).currentTime < limit);
697
698    }
699    //-----------------------------------------------------------------------
700    void Profiler::logResults() {
701
702        ProfileHistoryList::iterator iter;
703
704        LogManager::getSingleton().logMessage("----------------------Profiler Results----------------------");
705
706        for (iter = mProfileHistory.begin(); iter != mProfileHistory.end(); ++iter) {
707
708            // create an indent that represents the hierarchical order of the profile
709            String indent = "";
710            for (uint i = 0; i < (*iter).hierarchicalLvl; ++i) {
711
712                indent = indent + "   ";
713
714            }
715
716            LogManager::getSingleton().logMessage(indent + "Name " + (*iter).name + " | Min " + StringConverter::toString((*iter).minTime) + " | Max " + StringConverter::toString((*iter).maxTime) + " | Avg "+ StringConverter::toString((*iter).totalTime / (*iter).totalCalls));
717
718        }
719
720        LogManager::getSingleton().logMessage("------------------------------------------------------------");
721
722    }
723    //-----------------------------------------------------------------------
724    void Profiler::reset() {
725
726        ProfileHistoryList::iterator iter;
727        for (iter = mProfileHistory.begin(); iter != mProfileHistory.end(); ++iter) {
728       
729            (*iter).currentTime = (*iter).maxTime = (*iter).totalTime = 0;
730            (*iter).numCallsThisFrame = (*iter).totalCalls = 0;
731
732            (*iter).minTime = 1;
733
734        }
735
736    }
737    //-----------------------------------------------------------------------
738    void Profiler::setUpdateDisplayFrequency(uint freq) {
739
740        mUpdateDisplayFrequency = freq;
741
742    }
743    //-----------------------------------------------------------------------
744    uint Profiler::getUpdateDisplayFrequency() const {
745
746        return mUpdateDisplayFrequency;
747
748    }
749    //-----------------------------------------------------------------------
750    void Profiler::changeEnableState() {
751
752        if (mNewEnableState) {
753
754            mOverlay->show();
755
756        }
757        else {
758
759            mOverlay->hide();
760
761        }
762        mEnabled = mNewEnableState;
763        mEnableStateChangePending = false;
764
765    }
766    //-----------------------------------------------------------------------
767    OverlayContainer* Profiler::createContainer() {
768
769        OverlayContainer* container = (OverlayContainer*)
770                        OverlayManager::getSingleton().createOverlayElement(
771                                "BorderPanel", "profiler");
772        container->setMetricsMode(GMM_PIXELS);
773        container->setMaterialName("Core/StatsBlockCenter");
774        container->setHeight(mGuiHeight);
775        container->setWidth(mGuiWidth * 2 + 15);
776        container->setParameter("border_size", "1 1 1 1");
777        container->setParameter("border_material", "Core/StatsBlockBorder");
778        container->setParameter("border_topleft_uv", "0.0000 1.0000 0.0039 0.9961");
779        container->setParameter("border_top_uv", "0.0039 1.0000 0.9961 0.9961");
780        container->setParameter("border_topright_uv", "0.9961 1.0000 1.0000 0.9961");
781        container->setParameter("border_left_uv","0.0000 0.9961 0.0039 0.0039");
782        container->setParameter("border_right_uv","0.9961 0.9961 1.0000 0.0039");
783        container->setParameter("border_bottomleft_uv","0.0000 0.0039 0.0039 0.0000");
784        container->setParameter("border_bottom_uv","0.0039 0.0039 0.9961 0.0000");
785        container->setParameter("border_bottomright_uv","0.9961 0.0039 1.0000 0.0000");
786        container->setLeft(5);
787        container->setTop(5);
788
789        return container;
790
791    }
792    //-----------------------------------------------------------------------
793    OverlayElement* Profiler::createTextArea(const String& name, Real width, Real height, Real top, Real left,
794                                         uint fontSize, const String& caption, bool show) {
795
796
797        OverlayElement* textArea =
798                        OverlayManager::getSingleton().createOverlayElement("TextArea", name);
799        textArea->setMetricsMode(GMM_PIXELS);
800        textArea->setWidth(width);
801        textArea->setHeight(height);
802        textArea->setTop(top);
803        textArea->setLeft(left);
804        textArea->setParameter("font_name", "TrebuchetMSBold");
805        textArea->setParameter("char_height", StringConverter::toString(fontSize));
806        textArea->setCaption(caption);
807        textArea->setParameter("colour_top", "1 1 1");
808        textArea->setParameter("colour_bottom", "1 1 1");
809
810        if (show) {
811            textArea->show();
812        }
813        else {
814            textArea->hide();
815        }
816
817        return textArea;
818
819    }
820    //-----------------------------------------------------------------------
821    OverlayElement* Profiler::createPanel(const String& name, Real width, Real height, Real top, Real left,
822                                      const String& materialName, bool show) {
823
824        OverlayElement* panel =
825                        OverlayManager::getSingleton().createOverlayElement("Panel", name);
826        panel->setMetricsMode(GMM_PIXELS);
827        panel->setWidth(width);
828        panel->setHeight(height);
829        panel->setTop(top);
830        panel->setLeft(left);
831        panel->setMaterialName(materialName);
832
833        if (show) {
834            panel->show();
835        }
836        else {
837            panel->hide();
838        }
839
840        return panel;
841               
842    }
843    //-----------------------------------------------------------------------
844
845}
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