WebSVN - public iLand - Blame - Rev 904

Rev	Author	Line No.	Line
		1
671	werner	2	/********************************************************************************************
		3	** iLand - an individual based forest landscape and disturbance model
		4	** http://iland.boku.ac.at
		5	** Copyright (C) 2009- Werner Rammer, Rupert Seidl
		6	**
		7	** This program is free software: you can redistribute it and/or modify
		8	** it under the terms of the GNU General Public License as published by
		9	** the Free Software Foundation, either version 3 of the License, or
		10	** (at your option) any later version.
		11	**
		12	** This program is distributed in the hope that it will be useful,
		13	** but WITHOUT ANY WARRANTY; without even the implied warranty of
		14	** MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
		15	** GNU General Public License for more details.
		16	**
		17	** You should have received a copy of the GNU General Public License
		18	** along with this program. If not, see <http://www.gnu.org/licenses/>.
		19	********************************************************************************************/
		20
92	Werner	21	/** @class Model
247	werner	22	Main object of the iLand model composited of various sub models / sub components.
697	werner	23	@ingroup core
		24	The class Model is the top level container of iLand. The Model holds a collection of ResourceUnits, links to SpeciesSet and Climate.
		25	ResourceUnit are grid cells with (currently) a size of 1 ha (100x100m). Many stand level processes (NPP produciton, WaterCycle) operate on this
		26	level.
		27	The Model also contain the landscape-wide 2m LIF-grid (http://iland.boku.ac.at/competition+for+light).
		28
92	Werner	29	*/
		30	#include "global.h"
		31	#include "model.h"
286	werner	32	#include "sqlhelper.h"
92	Werner	33
105	Werner	34	#include "xmlhelper.h"
808	werner	35	#include "debugtimer.h"
281	werner	36	#include "environment.h"
340	werner	37	#include "timeevents.h"
106	Werner	38	#include "helper.h"
189	iland	39	#include "resourceunit.h"
208	werner	40	#include "climate.h"
92	Werner	41	#include "speciesset.h"
106	Werner	42	#include "standloader.h"
		43	#include "tree.h"
185	werner	44	#include "management.h"
200	werner	45	#include "modelsettings.h"
615	werner	46	#include "standstatistics.h"
543	werner	47	#include "mapgrid.h"
632	werner	48	#include "modelcontroller.h"
641	werner	49	#include "modules.h"
654	werner	50	#include "dem.h"
92	Werner	51
202	werner	52	#include "outputmanager.h"
176	werner	53
890	werner	54	#include "forestmanagementengine.h"
		55
105	Werner	56	#include <QtCore>
		57	#include <QtXml>
		58
107	Werner	59	/** iterate over all trees of the model. return NULL if all trees processed.
		60	Usage:
		61	@code
		62	AllTreeIterator trees(model);
		63	while (Tree *tree = trees.next()) { // returns NULL when finished.
		64	tree->something(); // do something
		65	}
281	werner	66	@endcode */
107	Werner	67	Tree *AllTreeIterator::next()
		68	{
143	Werner	69
107	Werner	70	if (!mTreeEnd) {
		71	// initialize to first ressource unit
		72	mRUIterator = mModel->ruList().constBegin();
314	werner	73	// fast forward to the first RU with trees
		74	while (mRUIterator!=mModel->ruList().constEnd()) {
		75	if ((*mRUIterator)->trees().count()>0)
		76	break;
753	werner	77	++mRUIterator;
314	werner	78	}
		79	// finished if all RU processed
		80	if (mRUIterator == mModel->ruList().constEnd())
		81	return NULL;
143	Werner	82	mTreeEnd = &((*mRUIterator)->trees().back()) + 1; // let end point to "1 after end" (STL-style)
107	Werner	83	mCurrent = &((*mRUIterator)->trees().front());
		84	}
		85	if (mCurrent==mTreeEnd) {
753	werner	86	++mRUIterator; // switch to next RU (loop until RU with trees is found)
314	werner	87	while (mRUIterator!=mModel->ruList().constEnd()) {
		88	if ((*mRUIterator)->trees().count()>0) {
		89	break;
		90	}
753	werner	91	++mRUIterator;
314	werner	92	}
107	Werner	93	if (mRUIterator == mModel->ruList().constEnd()) {
143	Werner	94	mCurrent = NULL;
		95	return NULL; // finished!!
107	Werner	96	}else {
143	Werner	97	mTreeEnd = &((*mRUIterator)->trees().back()) + 1;
107	Werner	98	mCurrent = &((*mRUIterator)->trees().front());
		99	}
		100	}
143	Werner	101
		102	return mCurrent++;
107	Werner	103	}
157	werner	104	Tree *AllTreeIterator::nextLiving()
		105	{
		106	while (Tree *t = next())
158	werner	107	if (!t->isDead()) return t;
157	werner	108	return NULL;
		109	}
		110	Tree *AllTreeIterator::current() const
		111	{
		112	return mCurrent?mCurrent-1:NULL;
		113	}
107	Werner	114
		115
200	werner	116	ModelSettings Model::mSettings;
92	Werner	117	Model::Model()
		118	{
		119	initialize();
137	Werner	120	GlobalSettings::instance()->setModel(this);
767	werner	121	GlobalSettings::instance()->resetScriptEngine(); // clear the script
130	Werner	122	QString dbg="running in release mode.";
442	werner	123	DBGMODE( dbg="running in debug mode."; );
130	Werner	124	qDebug() << dbg;
92	Werner	125	}
		126
		127	Model::~Model()
		128	{
		129	clear();
137	Werner	130	GlobalSettings::instance()->setModel(NULL);
92	Werner	131	}
		132
		133	/** Initial setup of the Model.
		134	*/
		135	void Model::initialize()
		136	{
151	iland	137	mSetup = false;
162	werner	138	GlobalSettings::instance()->setCurrentYear(0);
151	iland	139	mGrid = 0;
		140	mHeightGrid = 0;
185	werner	141	mManagement = 0;
904	werner	142	mAMIEManagement = 0;
281	werner	143	mEnvironment = 0;
340	werner	144	mTimeEvents = 0;
549	werner	145	mStandGrid = 0;
641	werner	146	mModules = 0;
654	werner	147	mDEM = 0;
92	Werner	148	}
		149
261	werner	150	/** sets up the simulation space.
		151	*/
103	Werner	152	void Model::setupSpace()
		153	{
194	werner	154	XmlHelper xml(GlobalSettings::instance()->settings().node("model.world"));
192	werner	155	double cellSize = xml.value("cellSize", "2").toDouble();
		156	double width = xml.value("width", "100").toDouble();
		157	double height = xml.value("height", "100").toDouble();
549	werner	158	double buffer = xml.value("buffer", "60").toDouble();
		159	mModelRect = QRectF(0., 0., width, height);
		160
103	Werner	161	qDebug() << QString("setup of the world: %1x%2m with cell-size=%3m and %4m buffer").arg(width).arg(height).arg(cellSize).arg(buffer);
		162
		163	QRectF total_grid(QPointF(-buffer, -buffer), QPointF(width+buffer, height+buffer));
		164	qDebug() << "setup grid rectangle:" << total_grid;
		165
151	iland	166	if (mGrid)
		167	delete mGrid;
103	Werner	168	mGrid = new FloatGrid(total_grid, cellSize);
156	werner	169	mGrid->initialize(1.f);
151	iland	170	if (mHeightGrid)
		171	delete mHeightGrid;
		172	mHeightGrid = new HeightGrid(total_grid, cellSize*5);
285	werner	173	mHeightGrid->wipe(); // set all to zero
156	werner	174	Tree::setGrid(mGrid, mHeightGrid);
105	Werner	175
569	werner	176	// setup the spatial location of the project area
		177	if (xml.hasNode("location")) {
		178	// setup of spatial location
		179	double loc_x = xml.valueDouble("location.x");
		180	double loc_y = xml.valueDouble("location.y");
		181	double loc_z = xml.valueDouble("location.z");
		182	double loc_rot = xml.valueDouble("location.rotation");
		183	setupGISTransformation(loc_x, loc_y, loc_z, loc_rot);
		184	qDebug() << "setup of spatial location: x/y/z" << loc_x << loc_y << loc_z << "rotation:" << loc_rot;
		185	} else {
		186	setupGISTransformation(0., 0., 0., 0.);
		187	}
		188
567	werner	189	// load environment (multiple climates, speciesSets, ...
		190	if (mEnvironment)
		191	delete mEnvironment;
		192	mEnvironment = new Environment();
281	werner	193
567	werner	194	if (xml.valueBool("environmentEnabled", false)) {
		195	QString env_file = GlobalSettings::instance()->path(xml.value("environmentFile"));
		196	bool grid_mode = (xml.value("environmentMode")=="grid");
		197	QString grid_file = GlobalSettings::instance()->path(xml.value("environmentGrid"));
893	werner	198	if (grid_mode) {
		199	if (QFile::exists(grid_file))
		200	mEnvironment->setGridMode(grid_file);
		201	else
		202	throw IException(QString("File '%1' specified in key 'environmentGrid' does not exit ('environmentMode' is 'grid').").arg(grid_file) );
		203	}
567	werner	204
		205	if (!mEnvironment->loadFromFile(env_file))
		206	return;
		207	// retrieve species sets and climates:
		208	mSpeciesSets << mEnvironment->speciesSetList();
		209	mClimates << mEnvironment->climateList();
		210	} else {
		211	// load and prepare default values
		212	// (2) SpeciesSets: currently only one a global species set.
		213	SpeciesSet *speciesSet = new SpeciesSet();
		214	mSpeciesSets.push_back(speciesSet);
		215	speciesSet->setup();
		216	// Climate...
		217	Climate *c = new Climate();
		218	mClimates.push_back(c);
		219	mEnvironment->setDefaultValues(c, speciesSet);
		220	} // environment?
		221
		222	// time series data
		223	if (xml.valueBool(".timeEventsEnabled", false)) {
		224	mTimeEvents = new TimeEvents();
584	werner	225	mTimeEvents->loadFromFile(GlobalSettings::instance()->path(xml.value("timeEventsFile"), "script"));
567	werner	226	}
		227
646	werner	228
105	Werner	229	// simple case: create ressource units in a regular grid.
194	werner	230	if (xml.valueBool("resourceUnitsAsGrid")) {
881	werner	231
281	werner	232	mRUmap.setup(QRectF(0., 0., width, height),100.); // Grid, that holds positions of resource units
881	werner	233	mRUmap.wipe();
646	werner	234
539	werner	235	bool mask_is_setup = false;
		236	if (xml.valueBool("standGrid.enabled")) {
		237	QString fileName = GlobalSettings::instance()->path(xml.value("standGrid.fileName"));
882	werner	238	mStandGrid = new MapGrid(fileName,false); // create stand grid index later
543	werner	239
549	werner	240	if (mStandGrid->isValid()) {
714	werner	241	for (int i=0;i<mStandGrid->grid().count();i++) {
		242	const int &grid_value = mStandGrid->grid().constValueAtIndex(i);
		243	mHeightGrid->valueAtIndex(i).setValid( grid_value > -1 );
881	werner	244	if (grid_value>-1)
		245	mRUmap.valueAt(mStandGrid->grid().cellCenterPoint(i)) = (ResourceUnit*)1;
714	werner	246	if (grid_value < -1)
718	werner	247	mHeightGrid->valueAtIndex(i).setForestOutside(true);
714	werner	248	}
539	werner	249	}
		250	mask_is_setup = true;
802	werner	251	} else {
		252	if (!GlobalSettings::instance()->settings().paramValueBool("torus")) {
		253	// in the case we have no stand grid but only a large rectangle (without the torus option)
		254	// we assume a forest outside
		255	for (int i=0;i<mHeightGrid->count();++i) {
		256	const QPointF &p = mHeightGrid->cellCenterPoint(mHeightGrid->indexOf(i));
		257	if (p.x() < 0. \|\| p.x()>width \|\| p.y()<0. \|\| p.y()>height) {
		258	mHeightGrid->valueAtIndex(i).setForestOutside(true);
		259	mHeightGrid->valueAtIndex(i).setValid(false);
		260	}
		261	}
		262
		263	}
539	werner	264	}
		265
881	werner	266	ResourceUnit **p; // ptr to ptr!
		267	ResourceUnit *new_ru;
		268
		269	int ru_index = 0;
		270	for (p=mRUmap.begin(); p!=mRUmap.end(); ++p) {
		271	QRectF r = mRUmap.cellRect(mRUmap.indexOf(p));
		272	mEnvironment->setPosition( r.center() ); // if environment is 'disabled' default values from the project file are used.
889	werner	273	if (!mStandGrid \|\| !mStandGrid->isValid() \|\| *p>0) {
881	werner	274	// create resource units for valid positions only
		275	new_ru = new ResourceUnit(ru_index++); // create resource unit
		276	new_ru->setClimate( mEnvironment->climate() );
		277	new_ru->setSpeciesSet( mEnvironment->speciesSet() );
		278	new_ru->setup();
		279	new_ru->setID( mEnvironment->currentID() ); // set id of resource unit in grid mode
		280	new_ru->setBoundingBox(r);
		281	mRU.append(new_ru);
889	werner	282	*p = new_ru; // save in the RUmap grid
881	werner	283	}
		284	}
		285
889	werner	286	if (mStandGrid && mStandGrid->isValid())
882	werner	287	mStandGrid->createIndex();
881	werner	288	// now store the pointers in the grid.
		289	// Important: This has to be done after the mRU-QList is complete - otherwise pointers would
		290	// point to invalid memory when QList's memory is reorganized (expanding)
		291	// ru_index = 0;
		292	// for (p=mRUmap.begin();p!=mRUmap.end(); ++p) {
		293	// *p = mRU.value(ru_index++);
		294	// }
		295	qDebug() << "created a grid of ResourceUnits: count=" << mRU.count() << "number of RU-map-cells:" << mRUmap.count();
		296
		297
574	werner	298	calculateStockableArea();
		299
285	werner	300	// setup of the project area mask
539	werner	301	if (!mask_is_setup && xml.valueBool("areaMask.enabled", false) && xml.hasNode("areaMask.imageFile")) {
285	werner	302	// to be extended!!! e.g. to load ESRI-style text files....
		303	// setup a grid with the same size as the height grid...
		304	FloatGrid tempgrid((int)mHeightGrid->cellsize(), mHeightGrid->sizeX(), mHeightGrid->sizeY());
		305	QString fileName = GlobalSettings::instance()->path(xml.value("areaMask.imageFile"));
		306	loadGridFromImage(fileName, tempgrid); // fetch from image
		307	for (int i=0;i<tempgrid.count(); i++)
		308	mHeightGrid->valueAtIndex(i).setValid( tempgrid.valueAtIndex(i)>0.99 );
		309	qDebug() << "loaded project area mask from" << fileName;
		310	}
		311
590	werner	312	// list of "valid" resource units
		313	QList<ResourceUnit*> valid_rus;
		314	foreach(ResourceUnit* ru, mRU)
		315	if (ru->id()!=-1)
		316	valid_rus.append(ru);
		317
654	werner	318	// setup of the digital elevation map (if present)
		319	QString dem_file = xml.value("DEM");
		320	if (!dem_file.isEmpty()) {
656	werner	321	mDEM = new DEM(GlobalSettings::instance()->path(dem_file));
		322	// add them to the visuals...
		323	GlobalSettings::instance()->controller()->addGrid(mDEM, "DEM height", GridViewRainbow, 0, 1000);
		324	GlobalSettings::instance()->controller()->addGrid(mDEM->slopeGrid(), "DEM slope", GridViewRainbow, 0, 3);
		325	GlobalSettings::instance()->controller()->addGrid(mDEM->aspectGrid(), "DEM aspect", GridViewRainbow, 0, 360);
		326	GlobalSettings::instance()->controller()->addGrid(mDEM->viewGrid(), "DEM view", GridViewGray, 0, 1);
		327
654	werner	328	}
		329
646	werner	330	// setup of external modules
		331	mModules->setup();
		332	if (mModules->hasSetupResourceUnits()) {
		333	for (ResourceUnit **p=mRUmap.begin(); p!=mRUmap.end(); ++p) {
		334	QRectF r = mRUmap.cellRect(mRUmap.indexOf(p));
		335	mEnvironment->setPosition( r.center() ); // if environment is 'disabled' default values from the project file are used.
		336	mModules->setupResourceUnit( *p );
		337	}
		338	}
		339
767	werner	340	// setup of scripting environment
		341	ScriptGlobal::setupGlobalScripting();
		342
123	Werner	343	// setup the helper that does the multithreading
590	werner	344	threadRunner.setup(valid_rus);
194	werner	345	threadRunner.setMultithreading(GlobalSettings::instance()->settings().valueBool("system.settings.multithreading"));
123	Werner	346	threadRunner.print();
105	Werner	347
194	werner	348	} else {
		349	throw IException("resourceUnitsAsGrid MUST be set to true - at least currently :)");
105	Werner	350	}
120	Werner	351	mSetup = true;
103	Werner	352	}
		353
		354
92	Werner	355	/** clear() frees all ressources allocated with the run of a simulation.
		356
		357	*/
		358	void Model::clear()
		359	{
143	Werner	360	mSetup = false;
151	iland	361	qDebug() << "Model clear: attempting to clear" << mRU.count() << "RU, " << mSpeciesSets.count() << "SpeciesSets.";
92	Werner	362	// clear ressource units
103	Werner	363	qDeleteAll(mRU); // delete ressource units (and trees)
92	Werner	364	mRU.clear();
103	Werner	365
		366	qDeleteAll(mSpeciesSets); // delete species sets
92	Werner	367	mSpeciesSets.clear();
103	Werner	368
208	werner	369	// delete climate data
		370	qDeleteAll(mClimates);
		371
151	iland	372	// delete the grids
		373	if (mGrid)
		374	delete mGrid;
		375	if (mHeightGrid)
		376	delete mHeightGrid;
185	werner	377	if (mManagement)
		378	delete mManagement;
281	werner	379	if (mEnvironment)
		380	delete mEnvironment;
340	werner	381	if (mTimeEvents)
		382	delete mTimeEvents;
549	werner	383	if (mStandGrid)
		384	delete mStandGrid;
641	werner	385	if (mModules)
		386	delete mModules;
654	werner	387	if (mDEM)
		388	delete mDEM;
904	werner	389	if (mAMIEManagement)
		390	delete mAMIEManagement;
103	Werner	391
185	werner	392	mGrid = 0;
		393	mHeightGrid = 0;
		394	mManagement = 0;
281	werner	395	mEnvironment = 0;
340	werner	396	mTimeEvents = 0;
549	werner	397	mStandGrid = 0;
641	werner	398	mModules = 0;
654	werner	399	mDEM = 0;
904	werner	400	mAMIEManagement = 0;
185	werner	401
583	werner	402	GlobalSettings::instance()->outputManager()->close();
		403
92	Werner	404	qDebug() << "Model ressources freed.";
		405	}
		406
		407	/** Setup of the Simulation.
		408	This really creates the simulation environment and does the setup of various aspects.
		409	*/
102	Werner	410	void Model::loadProject()
92	Werner	411	{
109	Werner	412	DebugTimer dt("load project");
93	Werner	413	GlobalSettings *g = GlobalSettings::instance();
679	werner	414	g->printDirecories();
102	Werner	415	const XmlHelper &xml = g->settings();
189	iland	416
93	Werner	417	g->clearDatabaseConnections();
92	Werner	418	// database connections: reset
94	Werner	419	GlobalSettings::instance()->clearDatabaseConnections();
286	werner	420	// input and climate connection
		421	// see initOutputDatabase() for output database
191	werner	422	QString dbPath = g->path( xml.value("system.database.in"), "database");
194	werner	423	GlobalSettings::instance()->setupDatabaseConnection("in", dbPath, true);
193	werner	424	dbPath = g->path( xml.value("system.database.climate"), "database");
194	werner	425	GlobalSettings::instance()->setupDatabaseConnection("climate", dbPath, true);
92	Werner	426
200	werner	427	mSettings.loadModelSettings();
		428	mSettings.print();
416	werner	429	// random seed: if stored value is <> 0, use this as the random seed (and produce hence always an equal sequence of random numbers)
		430	uint seed = xml.value("system.settings.randomSeed","0").toUInt();
708	werner	431	RandomGenerator::setup(RandomGenerator::ergMersenneTwister, seed); // use the MersenneTwister as default
428	werner	432	// linearization of expressions: if true and linearize() is explicitely called, then
		433	// function results will be cached over a defined range of values.
		434	bool do_linearization = xml.valueBool("system.settings.expressionLinearizationEnabled", false);
		435	Expression::setLinearizationEnabled(do_linearization);
431	werner	436	if (do_linearization)
		437	qDebug() << "The linearization of certains expressions is enabled (performance optimization).";
		438
		439	// log level
		440	QString log_level = xml.value("system.settings.logLevel", "debug").toLower();
		441	if (log_level=="debug") setLogLevel(0);
		442	if (log_level=="info") setLogLevel(1);
		443	if (log_level=="warning") setLogLevel(2);
		444	if (log_level=="error") setLogLevel(3);
		445
475	werner	446	// snag dynamics / soil model enabled? (info used during setup of world)
		447	changeSettings().carbonCycleEnabled = xml.valueBool("model.settings.carbonCycleEnabled", false);
528	werner	448	// class size of snag classes
		449	Snag::setupThresholds(xml.valueDouble("model.settings.soil.swdDBHClass12"),
		450	xml.valueDouble("model.settings.soil.swdDBHClass23"));
475	werner	451
646	werner	452	// setup of modules
		453	if (mModules)
		454	delete mModules;
		455	mModules = new Modules();
		456
103	Werner	457	setupSpace();
281	werner	458	if (mRU.isEmpty())
		459	throw IException("Setup of Model: no resource units present!");
185	werner	460
		461	// (3) additional issues
837	werner	462	// (3.1) load javascript code into the engine
		463	ScriptGlobal::loadScript(g->path(xml.value("system.javascript.fileName"),"script"));
		464
		465	// (3.2) setup of regeneration
391	werner	466	changeSettings().regenerationEnabled = xml.valueBool("model.settings.regenerationEnabled", false);
		467	if (settings().regenerationEnabled) {
		468	foreach(SpeciesSet *ss, mSpeciesSets)
		469	ss->setupRegeneration();
387	werner	470	}
493	werner	471	Sapling::setRecruitmentVariation(xml.valueDouble("model.settings.seedDispersal.recruitmentDimensionVariation",0.1));
468	werner	472
837	werner	473	// (3.3) management
890	werner	474	bool use_abe = xml.valueBool("model.management.abeEnabled");
		475	if (use_abe) {
		476	// use the agent based forest management engine
904	werner	477	mAMIEManagement = new AMIE::ForestManagementEngine();
890	werner	478	// setup of ABE after loading of trees.
		479
		480	} else {
		481	// use the standard management
		482	QString mgmtFile = xml.value("model.management.file");
		483	if (!mgmtFile.isEmpty() && xml.valueBool("model.management.enabled")) {
		484	mManagement = new Management();
		485	QString path = GlobalSettings::instance()->path(mgmtFile, "script");
		486	mManagement->loadScript(path);
		487	qDebug() << "setup management using script" << path;
		488	}
185	werner	489	}
468	werner	490
		491
92	Werner	492	}
105	Werner	493
		494
543	werner	495	ResourceUnit *Model::ru(QPointF coord)
105	Werner	496	{
106	Werner	497	if (!mRUmap.isEmpty() && mRUmap.coordValid(coord))
		498	return mRUmap.valueAt(coord);
281	werner	499	return ru(); // default RU if there is only one
105	Werner	500	}
		501
286	werner	502	void Model::initOutputDatabase()
		503	{
		504	GlobalSettings *g = GlobalSettings::instance();
		505	QString dbPath = g->path(g->settings().value("system.database.out"), "output");
		506	// create run-metadata
		507	int maxid = SqlHelper::queryValue("select max(id) from runs", g->dbin()).toInt();
		508
		509	maxid++;
		510	QString timestamp = QDateTime::currentDateTime().toString("yyyyMMdd_hhmmss");
287	werner	511	SqlHelper::executeSql(QString("insert into runs (id, timestamp) values (%1, '%2')").arg(maxid).arg(timestamp), g->dbin());
286	werner	512	// replace path information
		513	dbPath.replace("$id$", QString::number(maxid));
		514	dbPath.replace("$date$", timestamp);
		515	// setup final path
		516	g->setupDatabaseConnection("out", dbPath, false);
		517
		518	}
		519
903	werner	520	void Model::yearBegin()
		521	{
		522	// reset the removed volume counter in the height grid
		523	HeightGridValue *end = heightGrid()->end();
		524	for (HeightGridValue *p = heightGrid()->begin(); p!=end; ++p)
		525	p->removed_volume = 0.f;
		526
		527	}
		528
824	werner	529	/// multithreaded running function for the resource unit level establishment
		530	ResourceUnit nc_sapling_growth_establishment(ResourceUnit unit)
440	werner	531	{
632	werner	532	try {
824	werner	533	// define a height map for the current resource unit on the stack
632	werner	534	float sapling_map[cPxPerRU*cPxPerRU];
824	werner	535	// set the map and initialize it:
632	werner	536	unit->setSaplingHeightMap(sapling_map);
444	werner	537
450	werner	538
451	werner	539	// (1) calculate the growth of (already established) saplings (populate sapling map)
824	werner	540	QList<ResourceUnitSpecies*>::const_iterator rus;
		541	for (rus=unit->ruSpecies().cbegin(); rus!=unit->ruSpecies().cend(); ++rus)
		542	(*rus)->calclulateSaplingGrowth();
615	werner	543
824	werner	544	// (2) calculate the establishment probabilities of new saplings
		545	for (rus=unit->ruSpecies().cbegin(); rus!=unit->ruSpecies().cend(); ++rus)
864	werner	546	(*rus)->calculateEstablishment();
615	werner	547
		548
440	werner	549	} catch (const IException& e) {
632	werner	550	GlobalSettings::instance()->controller()->throwError(e.message());
440	werner	551	}
632	werner	552
824	werner	553	unit->setSaplingHeightMap(0); // invalidate again
440	werner	554	return unit;
824	werner	555
440	werner	556	}
		557
824	werner	558
475	werner	559	/// multithreaded execution of the carbon cycle routine
		560	ResourceUnit nc_carbonCycle(ResourceUnit unit)
		561	{
611	werner	562	try {
632	werner	563	// (1) do calculations on snag dynamics for the resource unit
		564	unit->calculateCarbonCycle();
		565	// (2) do the soil carbon and nitrogen dynamics calculations (ICBM/2N)
		566	} catch (const IException& e) {
		567	GlobalSettings::instance()->controller()->throwError(e.message());
611	werner	568	}
		569
475	werner	570	return unit;
		571	}
		572
440	werner	573	/// beforeRun performs several steps before the models starts running.
		574	/// inter alia: * setup of the stands
		575	/// * setup of the climates
105	Werner	576	void Model::beforeRun()
		577	{
395	werner	578	// setup outputs
		579	// setup output database
539	werner	580	if (GlobalSettings::instance()->dbout().isOpen())
		581	GlobalSettings::instance()->dbout().close();
395	werner	582	initOutputDatabase();
		583	GlobalSettings::instance()->outputManager()->setup();
		584	GlobalSettings::instance()->clearDebugLists();
		585
105	Werner	586	// initialize stands
251	werner	587	{
106	Werner	588	DebugTimer loadtrees("load trees");
		589	StandLoader loader(this);
		590	loader.processInit();
251	werner	591	}
106	Werner	592
214	werner	593	// load climate
251	werner	594	{
734	werner	595	if (logLevelDebug()) qDebug() << "attempting to load climate..." ;
251	werner	596	DebugTimer loadclim("load climate");
214	werner	597	foreach(Climate *c, mClimates)
280	werner	598	if (!c->isSetup())
		599	c->setup();
214	werner	600
251	werner	601	}
		602
		603	{ DebugTimer loadinit("load standstatistics");
734	werner	604	if (logLevelDebug()) qDebug() << "attempting to calculate initial stand statistics (incl. apply and read pattern)..." ;
135	Werner	605	Tree::setGrid(mGrid, mHeightGrid);
737	werner	606	// debugCheckAllTrees(); // introduced for debugging session (2012-04-06)
135	Werner	607	applyPattern();
		608	readPattern();
106	Werner	609
376	werner	610	// force the compilation of initial stand statistics
241	werner	611	createStandStatistics();
251	werner	612	}
286	werner	613
890	werner	614	// initalization of ABE
904	werner	615	if (mAMIEManagement) {
		616	mAMIEManagement->setup();
890	werner	617	}
		618
		619
264	werner	620	// outputs to create with inital state (without any growth) are called here:
257	werner	621	GlobalSettings::instance()->outputManager()->execute("stand"); // year=0
837	werner	622	GlobalSettings::instance()->outputManager()->execute("landscape"); // year=0
504	werner	623	GlobalSettings::instance()->outputManager()->execute("sapling"); // year=0
264	werner	624	GlobalSettings::instance()->outputManager()->execute("tree"); // year=0
395	werner	625	GlobalSettings::instance()->outputManager()->execute("dynamicstand"); // year=0
264	werner	626
257	werner	627	GlobalSettings::instance()->setCurrentYear(1); // set to first year
105	Werner	628	}
		629
331	werner	630	/** Main model runner.
		631	The sequence of actions is as follows:
		632	(1) Load the climate of the new year
		633	(2) Reset statistics for resource unit as well as for dead/managed trees
714	werner	634	(3) Invoke Management.
331	werner	635	(4) after that, calculate Light patterns
		636	(5) 3PG on stand level, tree growth. Clear stand-statistcs before they are filled by single-tree-growth. calculate water cycle (with LAIs before management)
440	werner	637	(6) execute Regeneration
714	werner	638	(7) invoke disturbance modules
		639	(8) calculate statistics for the year
		640	(9) write database outputs
331	werner	641	*/
105	Werner	642	void Model::runYear()
		643	{
223	werner	644	DebugTimer t("Model::runYear()");
615	werner	645	GlobalSettings::instance()->systemStatistics()->reset();
707	werner	646	RandomGenerator::checkGenerator(); // see if we need to generate new numbers...
649	werner	647	// initalization at start of year for external modules
		648	mModules->yearBegin();
903	werner	649
		650	// other resets at the beginning of the year.
		651	yearBegin();
		652
341	werner	653	// execute scheduled events for the current year
		654	if (mTimeEvents)
		655	mTimeEvents->run();
		656
		657	// load the next year of the climate database
214	werner	658	foreach(Climate *c, mClimates)
		659	c->nextYear();
		660
278	werner	661	// reset statistics
		662	foreach(ResourceUnit *ru, mRU)
		663	ru->newYear();
		664
391	werner	665	foreach(SpeciesSet *set, mSpeciesSets)
		666	set->newYear();
890	werner	667	// management classic
615	werner	668	if (mManagement) {
		669	DebugTimer t("management");
278	werner	670	mManagement->run();
615	werner	671	GlobalSettings::instance()->systemStatistics()->tManagement+=t.elapsed();
		672	}
904	werner	673	// ... or AMIE (the agent based variant)
		674	if (mAMIEManagement) {
902	werner	675	DebugTimer t("AMIE:run");
904	werner	676	mAMIEManagement->run();
890	werner	677	GlobalSettings::instance()->systemStatistics()->tManagement+=t.elapsed();
		678	}
278	werner	679
214	werner	680	// process a cycle of individual growth
277	werner	681	applyPattern(); // create Light Influence Patterns
		682	readPattern(); // readout light state of individual trees
		683	grow(); // let the trees grow (growth on stand-level, tree-level, mortality)
106	Werner	684
391	werner	685	// regeneration
		686	if (settings().regenerationEnabled) {
440	werner	687	// seed dispersal
483	werner	688	DebugTimer tseed("Regeneration and Establishment");
391	werner	689	foreach(SpeciesSet *set, mSpeciesSets)
475	werner	690	set->regeneration(); // parallel execution for each species set
440	werner	691
615	werner	692	GlobalSettings::instance()->systemStatistics()->tSeedDistribution+=tseed.elapsed();
440	werner	693	// establishment
824	werner	694	{ DebugTimer t("saplingGrowthEstablishment");
		695	executePerResourceUnit( nc_sapling_growth_establishment, false /* true: force single thraeded operation */);
864	werner	696	GlobalSettings::instance()->systemStatistics()->tSaplingAndEstablishment+=t.elapsed();
615	werner	697	}
824	werner	698
615	werner	699	}
440	werner	700
468	werner	701	// calculate soil / snag dynamics
475	werner	702	if (settings().carbonCycleEnabled) {
		703	DebugTimer ccycle("carbon cylce");
		704	executePerResourceUnit( nc_carbonCycle, false /* true: force single thraeded operation */);
615	werner	705	GlobalSettings::instance()->systemStatistics()->tCarbonCycle+=ccycle.elapsed();
		706
475	werner	707	}
649	werner	708
		709	// external modules/disturbances
		710	mModules->run();
		711
664	werner	712	foreach(ResourceUnit *ru, mRU) {
720	werner	713	// remove trees that died during disturbances.
		714	if (ru->hasDiedTrees()) {
		715	ru->cleanTreeList(); // clean up the died trees
		716	ru->recreateStandStatistics(); // re-evaluate the stand statistics for this resource unit
		717	}
664	werner	718	}
		719
615	werner	720	DebugTimer toutput("outputs");
278	werner	721	// calculate statistics
		722	foreach(ResourceUnit *ru, mRU)
		723	ru->yearEnd();
124	Werner	724
277	werner	725	// create outputs
184	werner	726	OutputManager *om = GlobalSettings::instance()->outputManager();
285	werner	727	om->execute("tree"); // single tree output
278	werner	728	om->execute("stand"); //resource unit level x species
837	werner	729	om->execute("landscape"); //landscape x species
504	werner	730	om->execute("sapling"); // sapling layer per RU x species
278	werner	731	om->execute("production_month"); // 3pg responses growth per species x RU x month
285	werner	732	om->execute("dynamicstand"); // output with user-defined columns (based on species x RU)
278	werner	733	om->execute("standdead"); // resource unit level x species
		734	om->execute("management"); // resource unit level x species
587	werner	735	om->execute("carbon"); // resource unit level, carbon pools above and belowground
609	werner	736	om->execute("carbonflow"); // resource unit level, GPP, NPP and total carbon flows (atmosphere, harvest, ...)
185	werner	737
615	werner	738	GlobalSettings::instance()->systemStatistics()->tWriteOutput+=toutput.elapsed();
		739	GlobalSettings::instance()->systemStatistics()->tTotalYear+=t.elapsed();
		740	GlobalSettings::instance()->systemStatistics()->writeOutput();
		741
162	werner	742	GlobalSettings::instance()->setCurrentYear(GlobalSettings::instance()->currentYear()+1);
105	Werner	743	}
		744
278	werner	745
		746
105	Werner	747	void Model::afterStop()
		748	{
		749	// do some cleanup
		750	}
106	Werner	751
369	werner	752	/// multithreaded running function for LIP printing
187	iland	753	ResourceUnit* nc_applyPattern(ResourceUnit *unit)
106	Werner	754	{
		755
		756	QVector<Tree>::iterator tit;
118	Werner	757	QVector<Tree>::iterator tend = unit->trees().end();
107	Werner	758
632	werner	759	try {
107	Werner	760
632	werner	761	// light concurrence influence
		762	if (!GlobalSettings::instance()->settings().paramValueBool("torus")) {
		763	// height dominance grid
		764	for (tit=unit->trees().begin(); tit!=tend; ++tit)
		765	(*tit).heightGrid(); // just do it ;)
155	werner	766
632	werner	767	for (tit=unit->trees().begin(); tit!=tend; ++tit)
		768	(*tit).applyLIP(); // just do it ;)
155	werner	769
632	werner	770	} else {
		771	// height dominance grid
		772	for (tit=unit->trees().begin(); tit!=tend; ++tit)
		773	(*tit).heightGrid_torus(); // just do it ;)
155	werner	774
632	werner	775	for (tit=unit->trees().begin(); tit!=tend; ++tit)
		776	(*tit).applyLIP_torus(); // do it the wraparound way
		777	}
		778	return unit;
		779	} catch (const IException &e) {
		780	GlobalSettings::instance()->controller()->throwError(e.message());
118	Werner	781	}
		782	return unit;
		783	}
106	Werner	784
369	werner	785	/// multithreaded running function for LIP value extraction
187	iland	786	ResourceUnit nc_readPattern(ResourceUnit unit)
118	Werner	787	{
		788	QVector<Tree>::iterator tit;
		789	QVector<Tree>::iterator tend = unit->trees().end();
632	werner	790	try {
		791	if (!GlobalSettings::instance()->settings().paramValueBool("torus")) {
		792	for (tit=unit->trees().begin(); tit!=tend; ++tit)
		793	(*tit).readLIF(); // multipliactive approach
		794	} else {
		795	for (tit=unit->trees().begin(); tit!=tend; ++tit)
		796	(*tit).readLIF_torus(); // do it the wraparound way
		797	}
		798	} catch (const IException &e) {
		799	GlobalSettings::instance()->controller()->throwError(e.message());
118	Werner	800	}
		801	return unit;
106	Werner	802	}
		803
369	werner	804	/// multithreaded running function for the growth of individual trees
187	iland	805	ResourceUnit nc_grow(ResourceUnit unit)
118	Werner	806	{
		807	QVector<Tree>::iterator tit;
		808	QVector<Tree>::iterator tend = unit->trees().end();
632	werner	809	try {
		810	unit->beforeGrow(); // reset statistics
		811	// calculate light responses
		812	// responses are based on modified values for LightResourceIndex
		813	for (tit=unit->trees().begin(); tit!=tend; ++tit) {
		814	(*tit).calcLightResponse();
		815	}
118	Werner	816
632	werner	817	unit->calculateInterceptedArea();
251	werner	818
632	werner	819	for (tit=unit->trees().begin(); tit!=tend; ++tit) {
		820	(*tit).grow(); // actual growth of individual trees
		821	}
		822	} catch (const IException &e) {
		823	GlobalSettings::instance()->controller()->throwError(e.message());
118	Werner	824	}
615	werner	825
		826	GlobalSettings::instance()->systemStatistics()->treeCount+=unit->trees().count();
118	Werner	827	return unit;
		828	}
		829
369	werner	830	/// multithreaded running function for the resource level production
		831	ResourceUnit nc_production(ResourceUnit unit)
		832	{
632	werner	833	try {
		834	unit->production();
		835	} catch (const IException &e) {
		836	GlobalSettings::instance()->controller()->throwError(e.message());
		837	}
369	werner	838	return unit;
		839	}
		840
440	werner	841
124	Werner	842	void Model::test()
		843	{
		844	// Test-funktion: braucht 1/3 time von readGrid()
		845	DebugTimer t("test");
		846	FloatGrid averaged = mGrid->averaged(10);
		847	int count = 0;
		848	float *end = averaged.end();
		849	for (float *p=averaged.begin(); p!=end; ++p)
		850	if (*p > 0.9)
		851	count++;
		852	qDebug() << count << "LIF>0.9 of " << averaged.count();
		853	}
		854
734	werner	855	void Model::debugCheckAllTrees()
		856	{
		857	AllTreeIterator at(this);
		858	bool has_errors = false; double dummy=0.;
		859	while (Tree *t = at.next()) {
		860	// plausibility
		861	if (t->dbh()<0 \|\| t->dbh()>10000. \|\| t->biomassFoliage()<0. \|\| t->height()>1000. \|\| t->height() < 0.
		862	\|\| t->biomassFoliage() <0.)
		863	has_errors = true;
		864	// check for objects....
		865	dummy = t->stamp()->offset() + t->ru()->ruSpecies()[1]->statistics().count();
		866	}
		867	if (has_errors)
		868	qDebug() << "model: debugCheckAllTrees found problems" << dummy;
		869	}
		870
118	Werner	871	void Model::applyPattern()
		872	{
		873
		874	DebugTimer t("applyPattern()");
		875	// intialize grids...
720	werner	876	initializeGrid();
551	werner	877
406	werner	878	// initialize height grid with a value of 4m. This is the height of the regeneration layer
551	werner	879	for (HeightGridValue *h=mHeightGrid->begin();h!=mHeightGrid->end();++h) {
		880	h->resetCount(); // set count = 0, but do not touch the flags
		881	h->height = 4.f;
		882	}
118	Werner	883
123	Werner	884	threadRunner.run(nc_applyPattern);
615	werner	885	GlobalSettings::instance()->systemStatistics()->tApplyPattern+=t.elapsed();
118	Werner	886	}
		887
106	Werner	888	void Model::readPattern()
		889	{
		890	DebugTimer t("readPattern()");
123	Werner	891	threadRunner.run(nc_readPattern);
615	werner	892	GlobalSettings::instance()->systemStatistics()->tReadPattern+=t.elapsed();
		893
106	Werner	894	}
		895
331	werner	896	/** Main function for the growth of stands and trees.
		897	This includes several steps.
		898	(1) calculate the stocked area (i.e. count pixels in height grid)
		899	(2) 3PG production (including response calculation, water cycle)
		900	(3) single tree growth (including mortality)
		901	(4) cleanup of tree lists (remove dead trees)
		902	*/
106	Werner	903	void Model::grow()
		904	{
151	iland	905
369	werner	906	if (!settings().growthEnabled)
		907	return;
		908	{ DebugTimer t("growRU()");
		909	calculateStockedArea();
113	Werner	910
374	werner	911	// multithreaded: mutex for the message handler in mainwindow solved the crashes.
		912	threadRunner.run(nc_production);
370	werner	913	}
		914
		915	DebugTimer t("growTrees()");
251	werner	916	threadRunner.run(nc_grow); // actual growth of individual trees
159	werner	917
187	iland	918	foreach(ResourceUnit *ru, mRU) {
159	werner	919	ru->cleanTreeList();
376	werner	920	ru->afterGrow();
168	werner	921	//qDebug() << (b-n) << "trees died (of" << b << ").";
159	werner	922	}
615	werner	923	GlobalSettings::instance()->systemStatistics()->tTreeGrowth+=t.elapsed();
123	Werner	924	}
151	iland	925
240	werner	926	/** calculate for each resource unit the fraction of area which is stocked.
		927	This is done by checking the pixels of the global height grid.
151	iland	928	*/
		929	void Model::calculateStockedArea()
		930	{
		931	// iterate over the whole heightgrid and count pixels for each ressource unit
		932	HeightGridValue *end = mHeightGrid->end();
		933	QPointF cp;
187	iland	934	ResourceUnit *ru;
151	iland	935	for (HeightGridValue *i=mHeightGrid->begin(); i!=end; ++i) {
		936	cp = mHeightGrid->cellCenterPoint(mHeightGrid->indexOf(i));
		937	if (mRUmap.coordValid(cp)) {
		938	ru = mRUmap.valueAt(cp);
		939	if (ru) {
285	werner	940	ru->countStockedPixel( (*i).count()>0 );
151	iland	941	}
		942	}
		943
		944	}
		945	}
240	werner	946
664	werner	947	/** calculate for each resource unit the stockable area.
574	werner	948	"stockability" is determined by the isValid flag of resource units which in turn
		949	is derived from stand grid values.
		950	*/
		951	void Model::calculateStockableArea()
		952	{
		953
		954	foreach(ResourceUnit *ru, mRU) {
720	werner	955	// //
		956	// if (ru->id()==-1) {
		957	// ru->setStockableArea(0.);
		958	// continue;
		959	// }
574	werner	960	GridRunner<HeightGridValue> runner(*mHeightGrid, ru->boundingBox());
		961	int valid=0, total=0;
		962	while (runner.next()) {
		963	if ( runner.current()->isValid() )
		964	valid++;
		965	total++;
		966	}
575	werner	967	if (total) {
574	werner	968	ru->setStockableArea( cHeightPixelArea * valid);
734	werner	969	if (valid==0 && ru->id()>-1) {
		970	// invalidate this resource unit
		971	ru->setID(-1);
		972	}
575	werner	973	if (valid>0 && ru->id()==-1) {
		974	qDebug() << "Warning: a resource unit has id=-1 but stockable area (id was set to 0)!!! ru: " << ru->boundingBox() << "with index" << ru->index();
		975	ru->setID(0);
664	werner	976	// test-code
		977	//GridRunner<HeightGridValue> runner(*mHeightGrid, ru->boundingBox());
		978	//while (runner.next()) {
		979	// qDebug() << mHeightGrid->cellCenterPoint(mHeightGrid->indexOf( runner.current() )) << ": " << runner.current()->isValid();
		980	//}
585	werner	981
575	werner	982	}
		983	} else
574	werner	984	throw IException("calculateStockableArea: resource unit without pixels!");
		985
		986	}
720	werner	987	// mark those pixels that are at the edge of a "forest-out-of-area"
		988	GridRunner<HeightGridValue> runner(*mHeightGrid, mHeightGrid->metricRect());
		989	HeightGridValue* neighbors[8];
		990	while (runner.next()) {
		991	if (runner.current()->isForestOutside()) {
		992	// if the current pixel is a "radiating" border pixel,
		993	// then check the neighbors and set a flag if the pixel is a neighbor of a in-project-area pixel.
		994	runner.neighbors8(neighbors);
		995	for (int i=0;i<8;++i)
		996	if (neighbors[i] && neighbors[i]->isValid())
		997	runner.current()->setIsRadiating();
		998
		999	}
		1000	}
		1001
574	werner	1002	}
		1003
720	werner	1004	void Model::initializeGrid()
		1005	{
		1006	// fill the whole grid with a value of "1."
		1007	mGrid->initialize(1.f);
574	werner	1008
720	werner	1009	// apply special values for grid cells border regions where out-of-area cells
		1010	// radiate into the main LIF grid.
		1011	QPoint p;
		1012	int ix_min, ix_max, iy_min, iy_max, ix_center, iy_center;
		1013	const int px_offset = cPxPerHeight / 2; // for 5 px per height grid cell, the offset is 2
		1014	const int max_radiate_distance = 7;
		1015	const float step_width = 1.f / (float)max_radiate_distance;
		1016	int c_rad = 0;
		1017	for (HeightGridValue *hgv=mHeightGrid->begin(); hgv!=mHeightGrid->end(); ++hgv) {
		1018	if (hgv->isRadiating()) {
		1019	p=mHeightGrid->indexOf(hgv);
		1020	ix_min = p.x() * cPxPerHeight - max_radiate_distance + px_offset;
		1021	ix_max = ix_min + 2*max_radiate_distance + 1;
		1022	ix_center = ix_min + max_radiate_distance;
		1023	iy_min = p.y() * cPxPerHeight - max_radiate_distance + px_offset;
		1024	iy_max = iy_min + 2*max_radiate_distance + 1;
		1025	iy_center = iy_min + max_radiate_distance;
		1026	for (int y=iy_min; y<=iy_max; ++y) {
		1027	for (int x=ix_min; x<=ix_max; ++x) {
802	werner	1028	if (!mGrid->isIndexValid(x,y) \|\| !(*mHeightGrid)(x/cPxPerHeight, y/cPxPerHeight).isValid())
720	werner	1029	continue;
		1030	float value = qMax(qAbs(x-ix_center), qAbs(y-iy_center)) * step_width;
		1031	float &v = mGrid->valueAtIndex(x, y);
		1032	if (value>=0.f && v>value)
		1033	v = value;
		1034	}
		1035	}
		1036	c_rad++;
		1037	}
		1038	}
721	werner	1039	if (logLevelDebug())
		1040	qDebug() << "initialize grid:" << c_rad << "radiating pixels...";
720	werner	1041
		1042	}
		1043
		1044
241	werner	1045	/// Force the creation of stand statistics.
		1046	/// - stocked area (for resourceunit-areas)
		1047	/// - ru - statistics
240	werner	1048	void Model::createStandStatistics()
		1049	{
241	werner	1050	calculateStockedArea();
482	werner	1051	foreach(ResourceUnit *ru, mRU) {
		1052	ru->addTreeAgingForAllTrees();
240	werner	1053	ru->createStandStatistics();
482	werner	1054	}
240	werner	1055	}
584	werner	1056
		1057

Subversion Repositories public iLand

(root)/src/core/model.cpp @ 1222 - Rev 904