Context Navigation

source: osgVisual/trunk/src/sky_Silverlining/visual_skySilverLining.cpp @ 247

Last change on this file since 247 was 247, checked in by Torben Dannhauer, 13 years ago
typo fix, clean up
File size: 28.4 KB

Line
1	/* --c++-- osgVisual - Copyright (C) 2009-2011 Torben Dannhauer
2	*
3	* This library is based on OpenSceneGraph, open source and may be redistributed and/or modified under
4	* the terms of the OpenSceneGraph Public License (OSGPL) version 0.0 or
5	* (at your option) any later version. The full license is in LICENSE file
6	* included with this distribution, and on the openscenegraph.org website.
7	*
8	* osgVisual requires for some proprietary modules a license from the correspondig manufacturer.
9	* You have to aquire licenses for all used proprietary modules.
10	*
11	* This library is distributed in the hope that it will be useful,
12	* but WITHOUT ANY WARRANTY; without even the implied warranty of
13	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
14	* OpenSceneGraph Public License for more details.
15	*/
16
17	#include <visual_skySilverLining.h>
18
19	using namespace osgVisual;
20
21	visual_skySilverLining::visual_skySilverLining(osgViewer::Viewer* viewer_, std::string configFileName, bool& disabled)
22	{
23	OSG_NOTIFY( osg::ALWAYS ) << "Initialize visual_skySilverlining..." << std::endl;
24
25	atmosphereInitialized = false;
26	postInitialized = false;
27	atmosphere = NULL;
28	viewer = viewer_;
29	lat = 0;
30	lon = 0;
31
32	for( int i=0; i<MAX_CLOUDLAYER_SLOTS; i++ )
33	{
34	cloudLayerSlots.push_back( cloudLayerSlot() );
35	cloudLayerSlots.back().slot_id = i;
36	}
37
38	// Check if the module is en- or diabled by XML configuration.
39	xmlDoc* tmpDoc;
40	xmlNode* config = util::getModuleXMLConfig( configFileName, "sky_silverlining", tmpDoc, disabled );
41	if( disabled)
42	OSG_NOTIFY( osg::ALWAYS ) << "..disabled by XML configuration file." << std::endl;
43
44	if(config)
45	xmlFreeDoc(tmpDoc); xmlCleanupParser();
46
47	}
48
49	visual_skySilverLining::~visual_skySilverLining(void)
50	{
51	this->removeUpdateCallback( updateCallback );
52	if ( atmosphere != NULL )
53	delete atmosphere;
54	}
55
56	void visual_skySilverLining::skyUpdateCallback::operator()(osg::Node* node, osg::NodeVisitor* nv)
57	{
58	//std::cout << "Sky silverlining update callback" << std::endl;
59	// Check if atmosphere is initialized.
60	if (!sky->isInitialized())
61	return;
62
63	// on first time: perform Post-Init.
64	sky->postInit();
65
66	// Update sky
67	double lat, lon, height;
68	util::getWGS84ofCamera( sceneCamera, csn, lat, lon, height );
69	//std::cout << "lat: " << osg::RadiansToDegrees(lat) << ", lon: " << osg::RadiansToDegrees(lon) << ", height: " << height << std::endl;
70	sky->setLocation( lat, lon, height );
71	}
72
73	void visual_skySilverLining::setDateTime( int year_, int month_, int day_, int hour_, int minute_, int second_, bool daylightSaving_, double timezoneOffset_ )
74	{
75	// Check if atmosphere is initialized.
76	if (!isInitialized())
77	return;
78
79	SilverLining::LocalTime t = atmosphere->GetConditions()->GetTime();
80	t.SetYear( year_ );
81	t.SetMonth( month_ );
82	t.SetDay( day_ );
83	t.SetHour( hour_ );
84	t.SetMinutes( minute_ );
85	t.SetSeconds( second_ );
86	t.SetObservingDaylightSavingsTime( daylightSaving_ );
87	t.SetTimeZone( timezoneOffset_ );
88	}
89
90	void visual_skySilverLining::setTime( int hour_, int minute_, int second_ )
91	{
92	// Check if atmosphere is initialized.
93	if (!isInitialized())
94	return;
95
96	SilverLining::LocalTime t = atmosphere->GetConditions()->GetTime();
97	if(hour_) t.SetHour( hour_ );
98	if(minute_) t.SetMinutes( minute_ );
99	if(second_) t.SetSeconds( second_ );
100	atmosphere->GetConditions()->SetTime( t );
101	}
102
103	void visual_skySilverLining::setDate( int year_, int month_, int day_ )
104	{
105	// Check if atmosphere is initialized.
106	if (!isInitialized())
107	return;
108
109	SilverLining::LocalTime t = atmosphere->GetConditions()->GetTime();
110	if(year_) t.SetYear( year_ );
111	if(month_) t.SetMonth( month_ );
112	if(day_) t.SetDay( day_ );
113	}
114
115	void visual_skySilverLining::setDateByEpoch( int secondsSince1970_ )
116	{
117	// Check if atmosphere is initialized.
118	if (!isInitialized())
119	return;
120
121	SilverLining::LocalTime t = atmosphere->GetConditions()->GetTime();
122	t.SetFromEpochSeconds( secondsSince1970_ );
123	}
124
125	void visual_skySilverLining::setLocation(double lat_, double lon_, double alt_)
126	{
127	// Check if atmosphere is initialized.
128	if (!isInitialized())
129	return;
130
131	lat = lat_;
132	lon = lon_;
133	height = alt_;
134
135	SilverLining::Location loc = atmosphere->GetConditions()->GetLocation();
136	loc.SetAltitude(alt_);
137	loc.SetLatitude(lat_);
138	loc.SetLongitude(lon_);
139	atmosphere->GetConditions()->SetLocation( loc );
140
141	updateUpVector();
142	}
143
144
145	bool visual_skySilverLining::isInitialized()
146	{
147	// Check if atmosphere is initialized. If not: make a deep lookup. If initialized, perform. Otherwise return
148	if (!atmosphereInitialized)
149	{
150	skySilverLining_atmosphereReference ar = dynamic_cast<skySilverLining_atmosphereReference >(viewer->getCamera()->getUserData());
151	if (ar != NULL )
152	{
153	if (ar->atmosphereInitialized)
154	atmosphereInitialized = true;
155	}
156	}
157	return(atmosphereInitialized);
158	}
159
160	void visual_skySilverLining::init(osg::Group distortedRoot, osg::CoordinateSystemNode sceneGraphRoot)
161	{
162	sceneRoot = sceneGraphRoot;
163
164	// Use projection matrix callback oder fixed Cullsettings?
165	bool useProjMatrixCallback = true;
166
167	// add Sky to SceneGraphRoot
168	sceneGraphRoot->addChild( this );
169
170	// Deactivate culling for the sky node (required by the silverlining sky framework)
171	this->setCullingActive(false);
172
173	// Instantiate an Atmosphere and associate it with this camera. If you have multiple cameras
174	// in multiple contexts, be sure to instantiate seperate Atmosphere objects for each.
175	// *IMPORTANT!** Check that the path to the resources folder for SilverLining in SkyDrawable.cpp
176	// SkyDrawable::initializeSilverLining matches with where you installed SilverLining.
177	atmosphere = new SilverLining::Atmosphere(SILVERLINING_LICENSEE, SILVERLINING_LICENSE);
178
179	// Add the sky (calls Atmosphere::BeginFrame and handles initialization once you're in
180	// the rendering thread)
181	skyDrawable = new skySilverLining_skyDrawable(viewer, sceneRoot);
182
183	if(distortedRoot) // if distortion used:
184	{
185	int rootKids = distortedRoot->getNumChildren();
186	for (int i = 0; i < rootKids; i++)
187	{
188	osg::Node *n = distortedRoot->getChild(i);
189	osg::Camera cam = dynamic_cast<osg::Camera>(n);
190	if (cam && cam->getRenderOrder() == osg::Camera::PRE_RENDER)
191	sceneCamera = cam;
192	}
193	}
194	else // if no distortion used:
195	sceneCamera = viewer->getCamera();
196
197	osg::Camera *mainCamera = viewer->getCamera();
198	if (!useProjMatrixCallback)
199	{
200	mainCamera->setClearMask(0);
201	mainCamera->setComputeNearFarMode(osg::CullSettings::DO_NOT_COMPUTE_NEAR_FAR);
202	double fovy, aspect, zNear, zFar;
203	mainCamera->getProjectionMatrixAsPerspective(fovy, aspect, zNear, zFar);
204	mainCamera->setProjectionMatrixAsPerspective(fovy, aspect, 2, 125000);
205	}
206	else
207	{
208	cb = new skySilverLining_projectionMatrixCallback( atmosphere, viewer->getCamera(), sceneRoot);
209	sceneCamera->setClampProjectionMatrixCallback(cb);
210	cb->setSkyDrawable(skyDrawable);
211	}
212
213	// append atmosphere pointer to the cameras.
214	sceneCamera->setClearMask(0);
215	osg::ref_ptr<skySilverLining_atmosphereReference> ar = new skySilverLining_atmosphereReference;
216	ar->atmosphere = atmosphere;
217	sceneCamera->setUserData(ar);
218	mainCamera->setUserData(ar);
219
220	// Create and install updateCallback (for position etc.)
221	updateCallback = new skyUpdateCallback( sceneGraphRoot, sceneCamera, this );
222	this->setUpdateCallback( updateCallback );
223
224	// Use a RenderBin to enforce that the sky gets drawn first, then the scene, then the clouds
225	skyDrawable->getOrCreateStateSet()->setRenderBinDetails(-1, "RenderBin");
226
227	// Add the models
228	sceneGraphRoot->getOrCreateStateSet()->setRenderBinDetails(1, "RenderBin");
229
230	// Add the clouds (note, you need this even if you don't want clouds - it calls
231	// Atmosphere::EndFrame() )
232	cloudsDrawable = new skySilverLining_cloudsDrawable(viewer);
233	cloudsDrawable->getOrCreateStateSet()->setRenderBinDetails(99, "RenderBin");
234
235	// Add drawable to this geode to get rendered
236	this->addDrawable(skyDrawable);
237	this->addDrawable(cloudsDrawable);
238
239	//SilverLining::Atmosphere::EnableHDR( true );
240	}
241
242	void visual_skySilverLining::postInit()
243	{
244	// Only allow one execution
245	//if(postInitialized)
246	// return;
247	//else postInitialized = true;
248
249	// Execute Updatecallback once before adding Clouds.
250	//updateCallback->operator ()(this, NULL);
251
252	//atmosphere->GetConditions()->SetFog( 0.8, 1, 1, 1); // use this for simulation real fog.
253
254	//Todo: secure memory-manager of timer*. oder remove paragraph
255	//MyMillisecondTimer *timer = new MyMillisecondTimer();
256	// atmosphere->GetConditions()->SetMillisecondTimer(timer);
257	//atmosphere->GetConditions()->EnableTimePassage(true, -1);
258	}
259
260	void visual_skySilverLining::updateUpVector()
261	{
262	double x,y,z;
263	util::getXYZofCamera(sceneCamera, x, y, z);
264
265	osg::Vec3d up(x, y, z);
266
267	up.normalize();
268	osg::Vec3d north(0, 0, 1); // Z is north
269	osg::Vec3d east = north ^ up; // Cross product
270	east.normalize();
271
272	atmosphere->SetUpVector(up.x(), up.y(), up.z());
273	atmosphere->SetRightVector(east.x(), east.y(), east.z());
274
275	osg::Matrixd proj = sceneCamera->getProjectionMatrix();
276	double dProj[16];
277
278	int i = 0;
279	for (int row = 0; row < 4; row++)
280	{
281	for (int col = 0; col < 4; col++)
282	{
283	dProj[i] = proj(row, col);
284	i++;
285	}
286	}
287	//atmosphere->SetProjectionMatrix(dProj);
288	}
289
290	void visual_skySilverLining::shutdown()
291	{
292	if (isInitialized())
293	{
294	// Remove this Node from scenegraph
295	sceneRoot->removeChild( this );
296
297	// Remove updatecallback
298	this->removeUpdateCallback( updateCallback );
299	updateCallback = NULL;
300
301	// delete drawables
302	skyDrawable->shutdown();
303	this->removeDrawable(skyDrawable);
304	this->removeDrawable(cloudsDrawable);
305	}
306	}
307
308	void visual_skySilverLining::setVisibility(double visibility_)
309	{
310	if (isInitialized())
311	{
312	atmosphere->GetConditions()->SetVisibility( visibility_ );
313	}
314
315	}
316
317	double visual_skySilverLining::getVisibility()
318	{
319	if (isInitialized())
320	{
321	return atmosphere->GetConditions()->GetVisibility();
322	}
323	else
324	return -1;
325	}
326
327	void visual_skySilverLining::setTurbidity(double turbidity_)
328	{
329	if (isInitialized())
330	{
331	atmosphere->GetConditions()->SetTurbidity( turbidity_ );
332	}
333	}
334
335	double visual_skySilverLining::getTurbidity()
336	{
337	if (isInitialized())
338	{
339	return atmosphere->GetConditions()->GetTurbidity();
340	}
341	else
342	return -1;
343	}
344
345	void visual_skySilverLining::clearAllWindVolumes()
346	{
347	if (isInitialized())
348	{
349	atmosphere->GetConditions()->ClearWindVolumes();
350	}
351	}
352
353	bool visual_skySilverLining::insideWind(double height_, double& bottom_, double& top_, double& speed_, double& direction_)
354	{
355	if (isInitialized())
356	{
357	// Calculation earth radius on the wind positionl approximated through the now used position.
358	double radius;
359	if ( util::calculateEarthRadiusAtWGS84Coordinate(lat, lon, sceneRoot, radius) )
360	{
361	// go through all wind volumes an check them for inside()
362	//std::map<int, SilverLining::WindVolume> windvolumes = atmosphere->GetConditions()->GetWindVolumes();
363	SL_MAP(int, SilverLining::WindVolume) windvolumes = atmosphere->GetConditions()->GetWindVolumes();
364	for(unsigned int i=0; i<windvolumes.size(); i++)
365	{
366	if( windvolumes[i].Inside(radius + height_) )
367	{
368	// save wind data
369	bottom_ = windvolumes[i].GetMinAltitude();
370	top_ = windvolumes[i].GetMaxAltitude() - radius;
371	speed_ = windvolumes[i].GetWindSpeed() - radius;
372	direction_ = windvolumes[i].GetDirection();
373	// return that wind was found
374	return true;
375	}
376	} // For END
377	} // If valid radius END
378	} // If initialized() END
379	bottom_ = -1;
380	top_ = -1;
381	speed_ = -1;
382	direction_ = -1;
383	return false;
384	}
385
386	void visual_skySilverLining::addWindVolume(double bottom_, double top_, double speed_, int direction_)
387	{
388	if (isInitialized())
389	{
390	// Calculation earth radius on current lat lon position
391	double radius;
392	if ( util::calculateEarthRadiusAtWGS84Coordinate(lat, lon, sceneRoot, radius) )
393	{
394	// correct wind value:
395	if ( direction_ < 180 )
396	direction_ += 180;
397	else direction_ -= 180;
398
399	// Setting up Wind
400	SilverLining::WindVolume wv;
401	wv.SetDirection( direction_ );
402	wv.SetMinAltitude( radius + bottom_ );
403	wv.SetMaxAltitude( radius + top_ );
404	wv.SetWindSpeed( speed_ );
405	atmosphere->GetConditions()->SetWind(wv);
406	}
407	}
408	}
409
410	void visual_skySilverLining::setLightPollution(double lightPollution_)
411	{
412	if (isInitialized())
413	{
414	return atmosphere->GetConditions()->SetLightPollution( lightPollution_ );
415	}
416	}
417
418	double visual_skySilverLining::getLightPollution()
419	{
420	if (isInitialized())
421	{
422	return atmosphere->GetConditions()->GetLightPollution();
423	}
424	else
425	return -1;
426
427	}
428
429	void visual_skySilverLining::addCloudLayer(int slot_, double baseLength_, double baseWidth_, double thickness_, double baseHeight_, double density_, CloudTypes cloudtype_ )
430	{
431	if (isInitialized() && slot_ >= 0 && slot_ < MAX_CLOUDLAYER_SLOTS)
432	{
433	// create cloudlayer order and pass to skyDrawable to instantiate.
434	cloudlayerOrder newCL;
435	newCL.slot = slot_;
436	newCL.lat = lat;
437	newCL.lon = lon;
438	newCL.baseLength = baseLength_;
439	newCL.baseWidth = baseWidth_;
440	newCL.thickness = thickness_;
441	newCL.baseHeight = baseHeight_;
442	newCL.density = density_;
443	newCL.cloudtype = cloudtype_;
444	newCL.assocCloudLayerSlot = &cloudLayerSlots[slot_];
445
446	skyDrawable->addCloudLayerOrder( newCL );
447
448	} // If isInitialized() END
449	}
450
451	void visual_skySilverLining::removeCloudLayer( int slot_ )
452	{
453	if (isInitialized() && slot_ >= 0 && slot_ < MAX_CLOUDLAYER_SLOTS)
454	{
455	atmosphere->GetConditions()->RemoveCloudLayer( cloudLayerSlots[slot_].cloudLayerHandle );
456	cloudLayerSlots[slot_].used = false;
457	cloudLayerSlots[slot_].cloudLayerHandle = -1;
458	cloudLayerSlots[slot_].cloudLayerPointer = NULL;
459	cloudLayerSlots[slot_].enabled = false;
460	}
461	}
462
463	void visual_skySilverLining::clearAllSlots()
464	{
465	if (isInitialized())
466	{
467	atmosphere->GetConditions()->RemoveAllCloudLayers();
468	for( int i=0; i<MAX_CLOUDLAYER_SLOTS; i++ )
469	{
470	cloudLayerSlots[i].used = false;
471	cloudLayerSlots[i].cloudLayerHandle = -1;
472	cloudLayerSlots[i].cloudLayerPointer = NULL;
473	cloudLayerSlots[i].enabled = false;
474	}
475	}
476	}
477
478	SilverLining::CloudLayer* visual_skySilverLining::getCloudLayer( int slot_ )
479	{
480	if (isInitialized() && slot_ >= 0 && slot_ < MAX_CLOUDLAYER_SLOTS)
481	{
482	if ( cloudLayerSlots[slot_].used )
483	return cloudLayerSlots[slot_].cloudLayerPointer;
484	}
485
486	return NULL;
487	}
488
489	void visual_skySilverLining::setEnabled(int slot_, bool enabled_ )
490	{
491	if (isInitialized() && slot_ >= 0 && slot_ < MAX_CLOUDLAYER_SLOTS)
492	{
493	cloudLayerSlots[slot_].enabled = enabled_;
494	}
495	}
496
497	bool visual_skySilverLining::isEnabled( int slot_ )
498	{
499	if (isInitialized() && slot_ >= 0 && slot_ < MAX_CLOUDLAYER_SLOTS)
500	{
501	return cloudLayerSlots[slot_].enabled;
502	}
503	return false;
504	}
505
506	void visual_skySilverLining::fadeVisibility( int slot_, int fadetimeMS_ )
507	{
508	if (isInitialized() && slot_ >= 0 && slot_ < MAX_CLOUDLAYER_SLOTS)
509	{
510	if (cloudLayerSlots[slot_].enabled)
511	{
512	cloudLayerSlots[slot_].enabled = false;
513	cloudLayerSlots[slot_].cloudLayerPointer->SetEnabled( false, fadetimeMS_ );
514	}
515	else
516	{
517	cloudLayerSlots[slot_].enabled = true;
518	cloudLayerSlots[slot_].cloudLayerPointer->SetEnabled( true, fadetimeMS_ );
519	}
520	}
521	}
522
523	std::string visual_skySilverLining::getCloudLayerTypeName( int slot_ )
524	{
525	if (isInitialized() && slot_ >= 0 && slot_ < MAX_CLOUDLAYER_SLOTS)
526	{
527	return cloudLayerSlots[slot_].typeName;
528	}
529	return "";
530	}
531
532	void visual_skySilverLining::clearGlobalPrecipitation()
533	{
534	if (isInitialized())
535	{
536	atmosphere->GetConditions()->SetPrecipitation( SilverLining::CloudLayer::NONE, 0.0 );
537	}
538	}
539
540	void visual_skySilverLining::setGlobalPrecipitation( double rate_mmPerHour_rain_, double rate_mmPerHour_drySnow_, double rate_mmPerHour_wetSnow_, double rate_mmPerHour_sleet_ )
541	{
542	if ( isInitialized() )
543	{
544	// Delete old Precipitation
545	atmosphere->GetConditions()->SetPrecipitation( SilverLining::CloudLayer::NONE, 0.0 );
546
547	// Set new Precipitation
548	atmosphere->GetConditions()->SetPrecipitation( SilverLining::CloudLayer::RAIN, rate_mmPerHour_rain_ );
549	atmosphere->GetConditions()->SetPrecipitation( SilverLining::CloudLayer::WET_SNOW, rate_mmPerHour_drySnow_ );
550	atmosphere->GetConditions()->SetPrecipitation( SilverLining::CloudLayer::DRY_SNOW, rate_mmPerHour_wetSnow_ );
551	atmosphere->GetConditions()->SetPrecipitation( SilverLining::CloudLayer::SLEET, rate_mmPerHour_sleet_ );
552	}
553	}
554
555	bool visual_skySilverLining::getOverallPrecipitationAtLocation( double& rate_mmPerHour_rain, double& rate_mmPerHour_drySnow, double& rate_mmPerHour_wetSnow, double& rate_mmPerHour_sleet, double lat_, double lon_, double height_ )
556	{
557	if (isInitialized())
558	{
559	// Init
560	bool hasPrecipitation = false;
561	double x = 0;
562	double y = 0;
563	double z = 0;
564	//// If -1 : Use sky internal values
565	if ( lat_ == -1 )
566	lat_ = lat;
567	if ( lon_ == -1 )
568	lon_ = lon;
569	if ( height_ == -1 )
570	height_ = height;
571
572	// Set precipitation to zero;
573	rate_mmPerHour_rain = 0;
574	rate_mmPerHour_drySnow = 0;
575	rate_mmPerHour_wetSnow = 0;
576	rate_mmPerHour_sleet = 0;
577
578	// Get global position
579	util::calculateXYZAtWGS84Coordinate(lat_, lon_, height_, sceneRoot, x, y, z);
580
581	// Look up every cloud layer for it's precipitation.
582	for( int i=0; i<MAX_CLOUDLAYER_SLOTS; i++ )
583	{
584	if ( cloudLayerSlots[i].used ) // IF used, Pointer should be valid
585	{
586	if( cloudLayerSlots[i].cloudLayerPointer->HasPrecipitationAtPosition(x, y, z) )
587	{
588	hasPrecipitation = true;
589	SL_MAP (int, double) precipitationMap = cloudLayerSlots[i].cloudLayerPointer->GetPrecipitation();
590	for( SL_MAP (int, double)::iterator it = precipitationMap.begin(); it != precipitationMap.end(); it++ )
591	{
592	switch(it->first)
593	{
594	case SilverLining::CloudLayer::RAIN : rate_mmPerHour_rain += it->second;
595	break;
596	case SilverLining::CloudLayer::DRY_SNOW : rate_mmPerHour_drySnow += it->second;
597	break;
598	case SilverLining::CloudLayer::WET_SNOW : rate_mmPerHour_wetSnow += it->second;
599	break;
600	case SilverLining::CloudLayer::SLEET : rate_mmPerHour_sleet += it->second;
601	break;
602	default: OSG_NOTIFY( osg::FATAL ) << "ERROR: visual_skySilverLining::getOverallPrecipitationAtLocation() : Wrong precipitation type in map!" << std::endl;
603	break;
604	};
605	}
606	} // If slot has Precipitation END
607	} // If used END
608	} // For all slots END
609
610	OSG_NOTIFY( osg::ALWAYS ) << "Rain: " << rate_mmPerHour_rain << ", dry snow: " << rate_mmPerHour_drySnow << ", wet snow: " << rate_mmPerHour_wetSnow << ", sleet: " << rate_mmPerHour_sleet << std::endl;
611	return hasPrecipitation;
612
613	} // If initialized END
614	return false;
615	}
616
617
618	bool visual_skySilverLining::getSlotPrecipitationAtLocation( int slot_, double& rate_mmPerHour_rain, double& rate_mmPerHour_drySnow, double& rate_mmPerHour_wetSnow, double& rate_mmPerHour_sleet, double lat_, double lon_, double height_ )
619	{
620	if (isInitialized() && slot_ >= 0 && slot_ < MAX_CLOUDLAYER_SLOTS)
621	{
622	if( cloudLayerSlots[slot_].used ) // IF used, Pointer should be valid
623	{
624	double x = 0;
625	double y = 0;
626	double z = 0;
627	rate_mmPerHour_rain = 0;
628	rate_mmPerHour_drySnow = 0;
629	rate_mmPerHour_wetSnow = 0;
630	rate_mmPerHour_sleet = 0;
631	//// If -1 : Use sky internal values
632	if ( lat_ == -1 )
633	lat_ = lat;
634	if ( lon_ == -1 )
635	lon_ = lon;
636	if ( height_ == -1 )
637	height_ = height;
638
639	// Get global position
640	util::calculateXYZAtWGS84Coordinate(lat_, lon_, height_, sceneRoot, x, y, z);
641
642	// Check for precipitation
643	if( cloudLayerSlots[slot_].cloudLayerPointer->HasPrecipitationAtPosition(x, y, z) )
644	{
645	SL_MAP (int, double) precipitationMap = cloudLayerSlots[slot_].cloudLayerPointer->GetPrecipitation();
646	for( SL_MAP (int, double)::iterator it = precipitationMap.begin(); it != precipitationMap.end(); it++ )
647	{
648	switch(it->first)
649	{
650	case SilverLining::CloudLayer::RAIN : rate_mmPerHour_rain = it->second;
651	break;
652	case SilverLining::CloudLayer::DRY_SNOW : rate_mmPerHour_drySnow = it->second;
653	break;
654	case SilverLining::CloudLayer::WET_SNOW : rate_mmPerHour_wetSnow = it->second;
655	break;
656	case SilverLining::CloudLayer::SLEET : rate_mmPerHour_sleet = it->second;
657	break;
658	default: OSG_NOTIFY( osg::FATAL ) << "ERROR: visual_skySilverLining::getSlotPrecipitationAtLocation() : Wrong precipitation type in map!" << std::endl;
659	break;
660	};
661	} // FOR END
662	OSG_NOTIFY( osg::ALWAYS ) << "Rain: " << rate_mmPerHour_rain << ", dry snow: " << rate_mmPerHour_drySnow << ", wet snow: " << rate_mmPerHour_wetSnow << ", sleet: " << rate_mmPerHour_sleet << std::endl;
663	return true;
664	} // If slot has Precipitation END
665	else
666	return false;
667	} // If used END
668	else
669	return false;
670	} // If initialized END
671	return false;
672	}
673
674	bool visual_skySilverLining::getSlotPrecipitation( int slot_, double& rate_mmPerHour_rain, double& rate_mmPerHour_drySnow, double& rate_mmPerHour_wetSnow, double& rate_mmPerHour_sleet )
675	{
676	if (isInitialized() && slot_ >= 0 && slot_ < MAX_CLOUDLAYER_SLOTS)
677	{
678	if( cloudLayerSlots[slot_].used ) // IF used, Pointer should be valid
679	{
680	rate_mmPerHour_rain = 0;
681	rate_mmPerHour_drySnow = 0;
682	rate_mmPerHour_wetSnow = 0;
683	rate_mmPerHour_sleet = 0;
684
685	// Check for precipitation
686
687	SL_MAP (int, double) precipitationMap = cloudLayerSlots[slot_].cloudLayerPointer->GetPrecipitation();
688	for( SL_MAP (int, double)::iterator it = precipitationMap.begin(); it != precipitationMap.end(); it++ )
689	{
690	switch(it->first)
691	{
692	case SilverLining::CloudLayer::RAIN : rate_mmPerHour_rain = it->second;
693	break;
694	case SilverLining::CloudLayer::DRY_SNOW : rate_mmPerHour_drySnow = it->second;
695	break;
696	case SilverLining::CloudLayer::WET_SNOW : rate_mmPerHour_wetSnow = it->second;
697	break;
698	case SilverLining::CloudLayer::SLEET : rate_mmPerHour_sleet = it->second;
699	break;
700	default: OSG_NOTIFY( osg::FATAL ) << "ERROR: visual_skySilverLining::getSlotPrecipitation() : Wrong precipitation type in map!" << std::endl;
701	break;
702	};
703	} // FOR END
704
705	if ( rate_mmPerHour_rain>0 \|\| rate_mmPerHour_drySnow>0 \|\| rate_mmPerHour_wetSnow>0 \|\| rate_mmPerHour_sleet>0)
706	{
707	OSG_NOTIFY( osg::ALWAYS ) << "Rain: " << rate_mmPerHour_rain << ", dry snow: " << rate_mmPerHour_drySnow << ", wet snow: " << rate_mmPerHour_wetSnow << ", sleet: " << rate_mmPerHour_sleet << std::endl;
708	return true;
709	}
710	else
711	return false;
712	} // If used END
713	else
714	return false;
715	} // If initialized END
716	return false;
717	}
718
719	void visual_skySilverLining::clearAllPrecipitation( int slot_ )
720	{
721	if (isInitialized() && slot_ >= 0 && slot_ < MAX_CLOUDLAYER_SLOTS)
722	{
723	if( cloudLayerSlots[slot_].used ) // IF used, Pointer should be valid
724	{
725	cloudLayerSlots[slot_].cloudLayerPointer->SetPrecipitation( SilverLining::CloudLayer::NONE, 0.0 );
726	cloudLayerSlots[slot_].cloudLayerPointer->SetPrecipitation( SilverLining::CloudLayer::NONE, 0.0 ); // Second Call to clear precipitation rate.
727	}
728	}
729	}
730
731	void visual_skySilverLining::setSlotPrecipitation( int slot_, double rate_mmPerHour_rain_, double rate_mmPerHour_drySnow_, double rate_mmPerHour_wetSnow_, double rate_mmPerHour_sleet_ )
732	{
733	if (isInitialized() && slot_ >= 0 && slot_ < MAX_CLOUDLAYER_SLOTS)
734	{
735	if( cloudLayerSlots[slot_].used ) // IF used, Pointer should be valid
736	{
737	cloudLayerSlots[slot_].cloudLayerPointer->SetPrecipitation( SilverLining::CloudLayer::RAIN, rate_mmPerHour_rain_ );
738	cloudLayerSlots[slot_].cloudLayerPointer->SetPrecipitation( SilverLining::CloudLayer::DRY_SNOW, rate_mmPerHour_drySnow_ );
739	cloudLayerSlots[slot_].cloudLayerPointer->SetPrecipitation( SilverLining::CloudLayer::WET_SNOW, rate_mmPerHour_wetSnow_ );
740	cloudLayerSlots[slot_].cloudLayerPointer->SetPrecipitation( SilverLining::CloudLayer::SLEET, rate_mmPerHour_sleet_ );
741	}
742	}
743	}
744
745	void visual_skySilverLining::configureCloudlayerbyXML( xmlNode* cloudlayerNode_ )
746	{
747	std::string node_name=reinterpret_cast<const char*>(cloudlayerNode_->name);
748	if(cloudlayerNode_->type == XML_ELEMENT_NODE && node_name == "clouds")
749	{
750	for (cloudlayerNode_= cloudlayerNode_->children; cloudlayerNode_; cloudlayerNode_ = cloudlayerNode_->next)
751	{
752	node_name=reinterpret_cast<const char*>(cloudlayerNode_->name);
753	if(cloudlayerNode_->type == XML_ELEMENT_NODE && node_name == "cloudlayer")
754	{
755	int slot = -1;
756	bool enabled;
757	int fadetime = -1, baselength = -1, basewidth = -1, thickness = -1, baseHeight = -1 ;
758	float density = -1.0, rate_mmPerHour_rain = -1.0, rate_mmPerHour_drySnow = -1.0, rate_mmPerHour_wetSnow = -1.0, rate_mmPerHour_sleet = -1.0;
759	CloudTypes ctype = CUMULUS_CONGESTUS;
760
761	xmlAttr *attr = cloudlayerNode_->properties;
762	while ( attr )
763	{
764	std::string attr_name=reinterpret_cast<const char*>(attr->name);
765	std::string attr_value=reinterpret_cast<const char*>(attr->children->content);
766	if( attr_name == "slot" ) slot = util::strToInt(attr_value);
767	if( attr_name == "enabled" ) enabled = util::strToBool(attr_value);
768	if( attr_name == "fadetime" ) fadetime = util::strToInt(attr_value);
769	if( attr_name == "type" )
770	{
771	if(attr_value=="CIRROCUMULUS")
772	ctype = CIRROCUMULUS;
773	if(attr_value=="CIRRUS_FIBRATUS")
774	ctype = CIRRUS_FIBRATUS;
775	if(attr_value=="STRATUS")
776	ctype = STRATUS;
777	if(attr_value=="CUMULUS_MEDIOCRIS")
778	ctype = CUMULUS_MEDIOCRIS;
779	if(attr_value=="CUMULUS_CONGESTUS")
780	ctype = CUMULUS_CONGESTUS;
781	if(attr_value=="CUMULONIMBUS_CAPPILATUS")
782	ctype = CUMULONIMBUS_CAPPILATUS;
783	if(attr_value=="STRATOCUMULUS")
784	ctype = STRATOCUMULUS;
785	}
786	attr = attr->next;
787	}
788
789	if(!cloudlayerNode_->children)
790	{
791	OSG_NOTIFY( osg::ALWAYS ) << "ERROR - visual_skySilverLining::configureCloudlayerbyXML: Missing geometry specification for a cloudlayer." << std::endl;
792	return;
793	}
794
795	for (xmlNode *cur_node = cloudlayerNode_->children; cur_node; cur_node = cur_node->next)
796	{
797	node_name=reinterpret_cast<const char*>(cur_node->name);
798	if(cur_node->type == XML_ELEMENT_NODE && node_name == "geometry")
799	{
800	xmlAttr *attr = cur_node->properties;
801	while ( attr )
802	{
803	std::string attr_name=reinterpret_cast<const char*>(attr->name);
804	std::string attr_value=reinterpret_cast<const char*>(attr->children->content);
805	if( attr_name == "baselength" ) baselength = util::strToInt(attr_value);
806	if( attr_name == "basewidth" ) basewidth = util::strToInt(attr_value);
807	if( attr_name == "thickness" ) thickness = util::strToInt(attr_value);
808	if( attr_name == "baseHeight" ) baseHeight = util::strToInt(attr_value);
809	if( attr_name == "density" ) density = util::strToDouble(attr_value);
810
811	attr = attr->next;
812	}
813	}
814
815	if(cur_node->type == XML_ELEMENT_NODE && node_name == "precipitation")
816	{
817	xmlAttr *attr = cur_node->properties;
818	while ( attr )
819	{
820	std::string attr_name=reinterpret_cast<const char*>(attr->name);
821	std::string attr_value=reinterpret_cast<const char*>(attr->children->content);
822	if( attr_name == "rate_mmPerHour_rain" ) rate_mmPerHour_rain = util::strToDouble(attr_value);
823	if( attr_name == "rate_mmPerHour_drySnow" ) rate_mmPerHour_drySnow = util::strToDouble(attr_value);
824	if( attr_name == "rate_mmPerHour_wetSnow" ) rate_mmPerHour_wetSnow = util::strToDouble(attr_value);
825	if( attr_name == "rate_mmPerHour_sleet" ) rate_mmPerHour_sleet = util::strToDouble(attr_value);
826
827	attr = attr->next;
828	}
829	}
830	}
831
832	if(slot!=-1 && baselength!=-1 && basewidth!=-1 && thickness!=-1 && baseHeight!=-1 && density!=-1 )
833	addCloudLayer( slot, baselength, basewidth, thickness, baseHeight, density, ctype );
834
835	if(slot!=-1 && rate_mmPerHour_rain!=-1 && rate_mmPerHour_drySnow!=-1 && thickness!=-1 && baseHeight!=-1 && density!=-1 )
836	setSlotPrecipitation( slot, rate_mmPerHour_rain, rate_mmPerHour_drySnow, rate_mmPerHour_wetSnow, rate_mmPerHour_sleet );
837	} // If Node = cloudlayer END
838	} // FOR-loop end
839	} // If Clouds END
840	else
841	OSG_NOTIFY( osg::ALWAYS ) << "ERROR - visual_skySilverLining::configureCloudlayerbyXML: Node is not a <clouds> node." << std::endl;
842	}

Note: See TracBrowser for help on using the repository browser.

Download in other formats: