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source: cpp/frams/model/model.cpp @ 522

Last change on this file since 522 was 522, checked in by Maciej Komosinski, 8 years ago
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Rev	Line
[286]	1	// This file is a part of Framsticks SDK. http://www.framsticks.com/
	2	// Copyright (C) 1999-2015 Maciej Komosinski and Szymon Ulatowski.
	3	// See LICENSE.txt for details.
[109]	4
	5	#include <common/nonstd_math.h>
	6	#include "model.h"
[375]	7	#include <common/log.h>
[109]	8	#include <frams/util/multimap.h>
[391]	9	#include <common/loggers/loggers.h>
[109]	10
	11	Model::Model()
	12	{
[522]	13	autobuildmaps = false;
	14	init();
[109]	15	}
	16
	17	void Model::init()
	18	{
[522]	19	partmappingchanged = 0;
	20	buildstatus = empty;
	21	modelfromgenotype = 0;
	22	startenergy = 1.0;
	23	checklevel = 1;
[109]	24	#ifdef MODEL_V1_COMPATIBLE
[522]	25	oldneurocount=-1; // == unknown
	26	oldconnections=0;
[109]	27	#endif
[522]	28	map = 0;
	29	f0map = 0;
	30	f0genoknown = 1;
	31	shape = SHAPE_UNKNOWN;
[109]	32	}
	33
	34	void Model::moveElementsFrom(Model &source)
	35	{
[522]	36	int i;
	37	open();
	38	for (i = 0; i < source.getPartCount(); i++)
	39	addPart(source.getPart(i));
	40	for (i = 0; i < source.getJointCount(); i++)
	41	addJoint(source.getJoint(i));
	42	for (i = 0; i < source.getNeuroCount(); i++)
	43	addNeuro(source.getNeuro(i));
	44	source.parts.clear(); source.joints.clear(); source.neurons.clear();
	45	source.clear();
[109]	46	}
	47
	48	void Model::internalCopy(const Model &mod)
	49	{
[522]	50	geno = mod.geno;
	51	f0genoknown = 0;
	52	startenergy = mod.startenergy;
	53	if (mod.getStatus() == valid)
[109]	54	{
[522]	55	modelfromgenotype = mod.modelfromgenotype;
	56	{for (int i = 0; i < mod.getPartCount(); i++)
	57	addPart(new Part(*mod.getPart(i))); }
	58	{for (int i = 0; i < mod.getJointCount(); i++)
	59	{
	60	Joint *oldj = mod.getJoint(i);
	61	Joint j = new Joint(oldj);
[109]	62	addJoint(j);
[522]	63	j->attachToParts(oldj->part1->refno, oldj->part2->refno);
	64	}}
	65	{for (int i = 0; i < mod.getNeuroCount(); i++)
	66	{
	67	Neuro *oldn = mod.getNeuro(i);
	68	Neuro n = new Neuro(oldn);
[109]	69	addNeuro(n);
[522]	70	if (oldn->part_refno >= 0) n->attachToPart(oldn->part_refno);
[109]	71	else n->attachToJoint(oldn->joint_refno);
[522]	72	}}
	73	for (int i = 0; i < mod.getNeuroCount(); i++)
[109]	74	{
[522]	75	Neuro *oldn = mod.getNeuro(i);
	76	Neuro *n = getNeuro(i);
	77	for (int ni = 0; ni < oldn->getInputCount(); ni++)
[109]	78	{
[522]	79	double w;
	80	Neuro *oldinput = oldn->getInput(ni, w);
	81	SString info = n->getInputInfo(ni);
	82	n->addInput(getNeuro(oldinput->refno), w, &info);
[109]	83	}
	84	}
	85	}
	86	}
	87
	88
[522]	89	Model::Model(const Geno &src, bool buildmaps)
[109]	90	:autobuildmaps(buildmaps)
[522]	91	{
	92	init(src);
	93	}
[109]	94
	95	void Model::operator=(const Model &mod)
	96	{
[522]	97	clear();
	98	open();
	99	internalCopy(mod);
	100	buildstatus = mod.buildstatus;
[109]	101	}
	102
[522]	103	Model::Model(const Model &mod, bool buildmaps)
[109]	104	:autobuildmaps(buildmaps)
	105	{
[522]	106	init();
	107	open();
	108	internalCopy(mod);
	109	buildstatus = mod.buildstatus;
[109]	110	}
	111
	112	void Model::init(const Geno &src)
	113	{
[522]	114	init();
	115	modelfromgenotype = 1;
	116	geno = src;
	117	build();
[109]	118	}
	119
	120	void Model::resetAllDelta()
	121	{
[522]	122	for (int i = 0; i < getJointCount(); i++)
	123	getJoint(i)->resetDelta();
[109]	124	}
	125
	126	void Model::useAllDelta(bool yesno)
	127	{
[522]	128	for (int i = 0; i < getJointCount(); i++)
	129	getJoint(i)->useDelta(yesno);
[109]	130	}
	131
	132	Model::~Model()
	133	{
[522]	134	delmodel_list.action((intptr_t)this);
	135	clear();
[109]	136	}
	137
	138	void Model::clear()
	139	{
[522]	140	FOREACH(Part*, p, parts)
	141	delete p;
	142	FOREACH(Joint*, j, joints)
	143	delete j;
	144	FOREACH(Neuro*, n, neurons)
	145	delete n;
	146	parts.clear(); joints.clear(); neurons.clear();
	147	delMap();
	148	delF0Map();
	149	init();
	150	geno = Geno();
	151	f0geno = Geno();
[109]	152	}
	153
	154	Part Model::addPart(Part p)
	155	{
[522]	156	p->owner = this;
	157	p->refno = parts.size();
	158	parts += p;
	159	return p;
[109]	160	}
	161
	162	Joint Model::addJoint(Joint j)
	163	{
[522]	164	j->owner = this;
	165	j->refno = joints.size();
	166	joints += j;
	167	return j;
[109]	168	}
	169
	170	Neuro Model::addNeuro(Neuro n)
	171	{
[522]	172	n->owner = this;
	173	n->refno = neurons.size();
	174	neurons += n;
	175	return n;
[109]	176	}
	177
	178	void Model::removeNeuros(SList &nlist)
	179	{
[522]	180	FOREACH(Neuro*, nu, nlist)
[109]	181	{
[522]	182	int i = findNeuro(nu);
	183	if (i >= 0) removeNeuro(i);
[109]	184	}
	185	}
	186
[522]	187	void Model::removePart(int partindex, int removeattachedjoints, int removeattachedneurons)
[109]	188	{
[522]	189	Part *p = getPart(partindex);
	190	if (removeattachedjoints)
[109]	191	{
[522]	192	SList jlist;
	193	findJoints(jlist, p);
	194	FOREACH(Joint*, j, jlist)
[109]	195	{
[522]	196	int i = findJoint(j);
	197	if (i >= 0) removeJoint(i, removeattachedneurons);
[109]	198	}
	199	}
[522]	200	if (removeattachedneurons)
[109]	201	{
[522]	202	SList nlist;
	203	findNeuros(nlist, 0, p);
	204	removeNeuros(nlist);
[109]	205	}
[522]	206	parts -= partindex;
	207	delete p;
[109]	208	}
	209
[522]	210	void Model::removeJoint(int jointindex, int removeattachedneurons)
[109]	211	{
[522]	212	Joint *j = getJoint(jointindex);
	213	if (removeattachedneurons)
[109]	214	{
[522]	215	SList nlist;
	216	findNeuros(nlist, 0, 0, j);
	217	removeNeuros(nlist);
[109]	218	}
[522]	219	joints -= jointindex;
	220	delete j;
[109]	221	}
	222
[522]	223	void Model::removeNeuro(int neuroindex, bool removereferences)
[109]	224	{
[522]	225	Neuro* thisN = getNeuro(neuroindex);
[109]	226
[522]	227	if (removereferences)
[109]	228	{
[522]	229	Neuro* n;
	230	// remove all references to thisN
	231	for (int i = 0; n = (Neuro*)neurons(i); i++)
[109]	232	{
[522]	233	Neuro *inp;
	234	for (int j = 0; inp = n->getInput(j); j++)
	235	if (inp == thisN)
[109]	236	{
	237	n->removeInput(j);
	238	j--;
	239	}
	240	}
	241	}
	242
[522]	243	neurons -= neuroindex;
	244	delete thisN;
[109]	245	}
	246
	247	MultiMap& Model::getMap()
	248	{
[522]	249	if (!map) map = new MultiMap();
	250	return *map;
[109]	251	}
	252
	253	void Model::delMap()
	254	{
[522]	255	if (map) { delete map; map = 0; }
[109]	256	}
	257	void Model::delF0Map()
	258	{
[522]	259	if (f0map) { delete f0map; f0map = 0; }
[109]	260	}
	261
[522]	262	void Model::makeGenToGenMap(MultiMap& result, const MultiMap& gen1tomodel, const MultiMap& gen2tomodel)
[109]	263	{
[522]	264	result.clear();
	265	MultiMap m;
	266	m.addReversed(gen2tomodel);
	267	result.addCombined(gen1tomodel, m);
[109]	268	}
	269
	270	void Model::getCurrentToF0Map(MultiMap& result)
	271	{
[522]	272	result.clear();
	273	if (!map) return;
	274	const MultiMap& f0m = getF0Map();
	275	makeGenToGenMap(result, *map, f0m);
[109]	276	}
	277
	278	void Model::rebuild(bool buildm)
	279	{
[522]	280	autobuildmaps = buildm;
	281	clear();
	282	build();
[109]	283	}
	284
	285	void Model::initMap()
	286	{
[522]	287	if (!map) map = new MultiMap();
	288	else map->clear();
[109]	289	}
	290
	291	void Model::initF0Map()
	292	{
[522]	293	if (!f0map) f0map = new MultiMap();
	294	else f0map->clear();
[109]	295	}
	296
	297	void Model::build()
	298	{
[522]	299	f0errorposition = -1;
	300	f0warnposition = -1;
	301	MultiMap *convmap = autobuildmaps ? new MultiMap() : NULL;
	302	f0geno = (geno.getFormat() == '0') ? geno : geno.getConverted('0', convmap);
	303	f0genoknown = 1;
	304	if (f0geno.isInvalid())
[109]	305	{
[522]	306	buildstatus = invalid;
	307	if (convmap) delete convmap;
	308	return;
[109]	309	}
[522]	310	SString f0txt = f0geno.getGene();
	311	buildstatus = building; // was: open();
	312	if (autobuildmaps)
[109]	313	{
[522]	314	partmappingchanged = 0;
	315	initMap();
	316	initF0Map();
[109]	317	}
[522]	318	int pos = 0, lnum = 1, lastpos = 0;
	319	SString line;
	320	MultiRange frommap;
	321	LoggerToMemory mh(LoggerBase::Enable \| LoggerBase::DontBlock);
	322	for (; f0txt.getNextToken(pos, line, '\n'); lnum++)
[109]	323	{
[522]	324	if (autobuildmaps)
[109]	325	{
[522]	326	frommap.clear();
	327	frommap.add(lastpos, pos - 1);
[109]	328	}
[522]	329	mh.reset();
	330	if (singleStepBuild(line, lnum, autobuildmaps ? (&frommap) : 0) == -1)
[109]	331	{
[522]	332	buildstatus = invalid;
	333	f0errorposition = lastpos;
	334	if (convmap) delete convmap;
	335	return;
[109]	336	}
[522]	337	if (mh.getWarningCount())
	338	{
	339	if (f0warnposition < 0) f0warnposition = lastpos;
	340	}
	341	lastpos = pos;
[109]	342	}
[522]	343	mh.disable();
	344	close();
	345	if (convmap)
[109]	346	{
[522]	347	f0map = map;
	348	if (geno.getFormat() != '0')
[109]	349	{
[522]	350	MultiMap tmp;
	351	tmp.addCombined(*convmap, getMap());
	352	*map = tmp;
[109]	353	}
[522]	354	delete convmap;
[109]	355	}
	356	}
	357
	358	const MultiMap& Model::getF0Map()
	359	{
[522]	360	if (!f0map)
[109]	361	{
[522]	362	f0map = new MultiMap();
	363	makeGeno(f0geno, f0map);
	364	f0genoknown = 1;
[109]	365	}
[522]	366	return *f0map;
[109]	367	}
	368
	369	Geno Model::rawGeno()
	370	{
[522]	371	Geno tmpgen;
	372	makeGeno(tmpgen);
	373	return tmpgen;
[109]	374	}
	375
[522]	376	void Model::makeGeno(Geno &g, MultiMap *map, bool handle_defaults)
[109]	377	{
[522]	378	if ((buildstatus != valid) && (buildstatus != building))
[109]	379	{
[522]	380	g = Geno(0, 0, 0, "invalid model");
	381	return;
[109]	382	}
	383
[522]	384	SString gen;
[109]	385
[522]	386	Param modelparam(f0_model_paramtab);
	387	Param partparam(f0_part_paramtab);
	388	Param jointparam(f0_joint_paramtab);
	389	Param neuroparam(f0_neuro_paramtab);
	390	Param connparam(f0_neuroconn_paramtab);
[109]	391
[522]	392	static Part defaultpart;
	393	static Joint defaultjoint;
	394	static Neuro defaultneuro;
	395	static Model defaultmodel;
	396	static NeuroConn defaultconn;
	397	//static NeuroItem defaultneuroitem;
[109]	398
[522]	399	Part *p;
	400	Joint *j;
	401	Neuro *n;
	402	int i;
	403	int len;
	404	int a, b;
	405	//NeuroItem *ni;
[109]	406
[522]	407	SString mod_props;
	408	modelparam.select(this);
	409	modelparam.save2(mod_props, handle_defaults ? &defaultmodel : NULL, true, !handle_defaults);
	410	if (mod_props.len() > 1) //are there any non-default values? ("\n" is empty)
[109]	411	{
[522]	412	gen += "m:";
	413	gen += mod_props;
[109]	414	}
	415
[522]	416	for (i = 0; p = (Part*)parts(i); i++)
[109]	417	{
[522]	418	partparam.select(p);
	419	len = gen.len();
	420	gen += "p:";
	421	partparam.save2(gen, handle_defaults ? &defaultpart : NULL, true, !handle_defaults);
	422	if (map)
	423	map->add(len, gen.len() - 1, partToMap(i));
[109]	424	}
[522]	425	for (i = 0; j = (Joint*)joints(i); i++)
[109]	426	{
[522]	427	jointparam.select(j);
	428	len = gen.len();
	429	jointparam.setParamTab(j->usedelta ? f0_joint_paramtab : f0_nodeltajoint_paramtab);
	430	gen += "j:";
	431	jointparam.save2(gen, handle_defaults ? &defaultjoint : NULL, true, !handle_defaults);
	432	if (map)
	433	map->add(len, gen.len() - 1, jointToMap(i));
[109]	434	}
[522]	435	for (i = 0; n = (Neuro*)neurons(i); i++)
[109]	436	{
[522]	437	neuroparam.select(n);
	438	len = gen.len();
	439	gen += "n:";
	440	neuroparam.save2(gen, handle_defaults ? &defaultneuro : NULL, true, !handle_defaults);
	441	if (map)
	442	map->add(len, gen.len() - 1, neuroToMap(i));
[109]	443	}
[522]	444	for (a = 0; a < neurons.size(); a++)
[109]	445	{ // inputs
[522]	446	n = (Neuro*)neurons(a);
	447	// if ((n->getInputCount()==1)&&(n->getInput(0).refno <= n->refno))
	448	// continue; // already done with Neuro::conn_refno
[109]	449
[522]	450	for (b = 0; b < n->getInputCount(); b++)
[109]	451	{
[522]	452	double w;
	453	NeuroConn nc;
	454	Neuro* n2 = n->getInput(b, w);
	455	// if (((n2.parentcount==1)&&(n2.parent)&&(n2.parent->refno < n2.refno)) ^
	456	// (n2.neuro_refno>=0))
	457	// printf("!!!! bad Neuro::neuro_refno ?!\n");
[109]	458
[522]	459	// if ((n2.parentcount==1)&&(n2.parent)&&(n2.parent->refno < n2.refno))
	460	// if (n2.neuro_refno>=0)
	461	// continue; // already done with Neuro::neuro_refno
[109]	462
[522]	463	nc.n1_refno = n->refno; nc.n2_refno = n2->refno;
	464	nc.weight = w;
	465	SString **s = n->inputInfo(b);
	466	if ((s) && (*s))
	467	nc.info = **s;
	468	connparam.select(&nc);
	469	len = gen.len();
	470	gen += "c:";
	471	connparam.save2(gen, handle_defaults ? &defaultconn : NULL, true, !handle_defaults);
	472	if (map)
	473	map->add(len, gen.len() - 1, neuroToMap(n->refno));
[109]	474	}
	475	}
[522]	476	g = Geno(gen.c_str(), '0');
[109]	477	}
	478
	479	//////////////
	480
	481	void Model::open()
	482	{
[522]	483	if (buildstatus == building) return;
	484	buildstatus = building;
	485	modelfromgenotype = 0;
	486	partmappingchanged = 0;
	487	f0genoknown = 0;
	488	delMap();
[109]	489	}
	490
	491	void Model::checkpoint()
	492	{}
	493
	494	void Model::setGeno(const Geno& newgeno)
	495	{
[522]	496	geno = newgeno;
[109]	497	}
	498
	499	void Model::clearMap()
	500	{
[522]	501	Part p; Joint j; Neuro *n;
	502	int i;
	503	delMap();
	504	delF0Map();
	505	for (i = 0; p = (Part*)parts(i); i++)
	506	p->clearMapping();
	507	for (i = 0; j = (Joint*)joints(i); i++)
	508	j->clearMapping();
	509	for (i = 0; n = (Neuro*)neurons(i); i++)
	510	n->clearMapping();
[109]	511	}
	512
	513	int Model::close()
	514	{
[522]	515	if (buildstatus != building)
	516	logPrintf("Model", "close", LOG_WARN, "Unexpected close() - no open()");
	517	if (internalcheck(1) > 0)
[109]	518	{
[522]	519	buildstatus = valid;
[109]	520
[522]	521	if (partmappingchanged)
[109]	522	{
[522]	523	getMap();
	524	Part p; Joint j; Neuro *n;
	525	int i;
	526	for (i = 0; p = (Part*)parts(i); i++)
	527	if (p->getMapping())
	528	map->add(*p->getMapping(), partToMap(i));
	529	for (i = 0; j = (Joint*)joints(i); i++)
	530	if (j->getMapping())
	531	map->add(*j->getMapping(), jointToMap(i));
	532	for (i = 0; n = (Neuro*)neurons(i); i++)
	533	if (n->getMapping())
	534	map->add(*n->getMapping(), neuroToMap(i));
[109]	535	}
	536	}
[522]	537	else
	538	buildstatus = invalid;
[109]	539
[522]	540	return (buildstatus == valid);
[109]	541	}
	542
	543	int Model::validate()
	544	{
[522]	545	return internalcheck(0);
[109]	546	}
	547
[522]	548	Pt3D Model::whereDelta(const Part& start, const Pt3D& rot, const Pt3D& delta)
[109]	549	{
[522]	550	Orient roto;
	551	roto = rot;
	552	Orient o;
	553	roto.transform(o, start.o);
	554	//o.x=start.o/roto.x;
	555	//o.y=start.o/roto.y;
	556	//o.z=start.o/roto.z;
	557	return o.transform(delta) + start.p;
[109]	558	}
	559
[522]	560	int Model::singleStepBuild(const SString &singleline, const MultiRange* srcrange)
[109]	561	{
[522]	562	return singleStepBuild(singleline, 0, srcrange);
[495]	563	}
	564
[522]	565	int Model::singleStepBuild(const SString &singleline, int line_num, const MultiRange* srcrange)
[495]	566	{
[522]	567	SString error_message;
	568	int result = singleStepBuildNoLog(singleline, error_message, srcrange);
	569	if (result < 0)
[495]	570	{
[522]	571	if (error_message.len() == 0) // generic error when no detailed message is available
	572	error_message = "Invalid f0 code";
	573	if (line_num>0)
	574	error_message += SString::sprintf(", line #%d", line_num);
	575	error_message += nameForErrors();
	576	logPrintf("Model", "build", LOG_ERROR, "%s", error_message.c_str());
[495]	577	}
[522]	578	return result;
[495]	579	}
	580
[522]	581	int Model::singleStepBuildNoLog(const SString &line, SString& error_message, const MultiRange* srcrange)
[495]	582	{
[522]	583	error_message = SString::empty();
	584	int pos = 0; const char*t = line.c_str();
	585	for (; *t; t++, pos++)
	586	if (!strchr(" \r\t", *t)) break;
	587	if (*t == '#') return 0;
	588	if (!*t) return 0;
	589	if (!strncmp(t, "p:", 2))
[109]	590	{
[522]	591	Param partparam(f0_part_paramtab);
	592	Part *p = new Part();
	593	partparam.select(p);
	594	pos += 2;
	595	if (partparam.load2(line, pos) & ParamInterface::LOAD2_PARSE_FAILED) { delete p; error_message = "Invalid 'p:'"; return -1; }
	596	p->o.rotate(p->rot);
	597	parts += p;
	598	p->owner = this;
	599	if (srcrange) p->setMapping(*srcrange);
	600	return getPartCount() - 1;
[109]	601	}
[522]	602	if (!strncmp(t, "m:", 2))
[109]	603	{
[522]	604	Param modelparam(f0_model_paramtab);
	605	modelparam.select(this);
	606	pos += 2;
	607	if (modelparam.load2(line, pos) & ParamInterface::LOAD2_PARSE_FAILED) { error_message = "Invalid 'm:'"; return -1; }
	608	return 0;
[109]	609	}
[522]	610	else if (!strncmp(t, "j:", 2))
[109]	611	{
[522]	612	Param jointparam(f0_joint_paramtab);
	613	Joint *j = new Joint();
	614	jointparam.select(j);
	615	pos += 2;
	616	j->owner = this;
	617	if (jointparam.load2(line, pos) & ParamInterface::LOAD2_PARSE_FAILED) { delete j; error_message = "Invalid 'j:'"; return -1; }
	618	bool p1_ok = false, p2_ok = false;
	619	if ((p1_ok = ((j->p1_refno >= 0) && (j->p1_refno < getPartCount()))) &&
	620	(p2_ok = ((j->p2_refno >= 0) && (j->p2_refno < getPartCount()))))
[109]	621	{
[522]	622	addJoint(j);
	623	if ((j->d.x != JOINT_DELTA_MARKER) \|\| (j->d.y != JOINT_DELTA_MARKER) \|\| (j->d.z != JOINT_DELTA_MARKER))
[114]	624	{
[522]	625	j->useDelta(1);
	626	j->resetDeltaMarkers();
[114]	627	}
[522]	628	j->attachToParts(j->p1_refno, j->p2_refno);
	629	if (srcrange) j->setMapping(*srcrange);
	630	return j->refno;
[109]	631	}
[522]	632	else
[109]	633	{
[522]	634	error_message = SString::sprintf("Invalid reference to Part #%d", p1_ok ? j->p1_refno : j->p2_refno);
	635	delete j;
	636	return -1;
[109]	637	}
	638	}
[522]	639	else if (!strncmp(t, "n:", 2)) // neuro (or the old neuro object as the special case)
[109]	640	{
[522]	641	Param neuroparam(f0_neuro_paramtab);
	642	Neuro *nu = new Neuro();
	643	neuroparam.select(nu);
	644	pos += 2;
	645	if (neuroparam.load2(line, pos) & ParamInterface::LOAD2_PARSE_FAILED) { delete nu; error_message = "Invalid 'n:'"; return -1; }
[109]	646	#ifdef MODEL_V1_COMPATIBLE
[522]	647	if (nu->neuro_refno>=0) // parent specified...
[109]	648	{
[522]	649	if (nu->neuro_refno >= getNeuroCount()) // and it's illegal
[109]	650	{
[522]	651	delete nu;
	652	return -1;
[109]	653	}
[522]	654	Neuro *parentNU=getNeuro(nu->neuro_refno);
	655	parentNU->addInput(nu,nu->weight);
	656	// default class for parented units: n-n link
	657	//if (nu->moredata.len()==0) nu->moredata="-";
[109]	658	}
[522]	659	else
[109]	660	#endif
	661	{
[522]	662	// default class for unparented units: standard neuron
	663	if (nu->getClassName().len() == 0) nu->setClassName("N");
[109]	664	}
[522]	665	/*
	666	if (nu->conn_refno>=0) // input specified...
[109]	667	{
[522]	668	if (nu->conn_refno >= getNeuroCount()) // and it's illegal
	669	{
[109]	670	delete nu;
	671	return -1;
	672	}
[522]	673	Neuro *inputNU=getNeuro(nu->conn_refno);
	674	nu->addInput(inputNU,nu->weight);
	675	}
	676	*/
[109]	677	#ifdef MODEL_V1_COMPATIBLE
[522]	678	nu->weight=1.0;
[109]	679	#endif
[522]	680	nu->owner = this;
	681	// attach to part/joint
	682	if (nu->part_refno >= 0)
	683	nu->attachToPart(nu->part_refno);
	684	if (nu->joint_refno >= 0)
	685	nu->attachToJoint(nu->joint_refno);
	686	if (srcrange) nu->setMapping(*srcrange);
	687	// todo: check part/joint ref#
[109]	688	#ifdef MODEL_V1_COMPATIBLE
[522]	689	if (hasOldNeuroLayout())
[109]	690	{
[522]	691	int count=old_getNeuroCount();
	692	neurons.insert(count,nu);
	693	oldneurocount=count+1;
	694	return oldneurocount-1;
[109]	695	}
[522]	696	else
[109]	697	#endif
	698	{
[522]	699	neurons += nu;
	700	return neurons.size() - 1;
[109]	701	}
	702	}
[522]	703	else if (!strncmp(t, "c:", 2)) // add input
[109]	704	{
[522]	705	Param ncparam(f0_neuroconn_paramtab);
	706	NeuroConn c;
	707	ncparam.select(&c);
	708	pos += 2;
	709	if (ncparam.load2(line, pos) & ParamInterface::LOAD2_PARSE_FAILED) { error_message = "Invalid 'c:'"; return -1; }
	710	bool n1_ok = false, n2_ok = false;
	711	if ((n1_ok = ((c.n1_refno >= 0) && (c.n1_refno < getNeuroCount())))
	712	&& (n2_ok = ((c.n2_refno >= 0) && (c.n2_refno < getNeuroCount()))))
[109]	713	{
[522]	714	Neuro *na = getNeuro(c.n1_refno);
	715	Neuro *nb = getNeuro(c.n2_refno);
	716	na->addInput(nb, c.weight, &c.info);
	717	if (srcrange)
	718	na->addMapping(*srcrange);
	719	return 0;
[109]	720	}
[522]	721	error_message = SString::sprintf("Invalid reference to Neuro #%d", n1_ok ? c.n2_refno : c.n1_refno);
	722	return -1;
[109]	723	}
	724	#ifdef MODEL_V1_COMPATIBLE
[522]	725	else if (!strncmp(t,"ni:",3)) // old neuroitem
[109]	726	{
[522]	727	// we always use old layout for "ni:"
	728	Param neuroitemparam(f0_neuroitem_paramtab);
	729	Neuro *nu=new Neuro();
	730	neuroitemparam.select(nu);
	731	pos+=3;
	732	if (neuroitemparam.load2(line,pos) & ParamInterface::LOAD2_PARSE_FAILED) {delete nu; return -1;}
	733	// illegal parent?
	734	if ((nu->neuro_refno<0)\|\|(nu->neuro_refno>=old_getNeuroCount()))
[109]	735	{
[522]	736	delete nu;
	737	return -1;
[109]	738	}
[522]	739	Neuro *parentN=getNeuro(nu->neuro_refno);
	740	// copy part/joint refno from parent, if possible
	741	if ((nu->part_refno<0)&&(parentN->part_refno>=0))
	742	nu->part_refno=parentN->part_refno;
	743	if ((nu->joint_refno<0)&&(parentN->joint_refno>=0))
	744	nu->joint_refno=parentN->joint_refno;
	745	nu->owner=this;
	746	// attach to part/joint
	747	if (nu->part_refno>=0)
	748	nu->attachToPart(nu->part_refno);
	749	if (nu->joint_refno>=0)
	750	nu->attachToJoint(nu->joint_refno);
	751	if (srcrange)
	752	nu->setMapping(*srcrange);
	753	// special case: old muscles
	754	// PARENT neuron will be set up to be the CHILD of the current one (!)
	755	if (nu->isOldEffector())
[109]	756	{
[522]	757	nu->neuro_refno=parentN->refno;
	758	neurons+=nu;
	759	nu->owner=this;
	760	nu->addInput(parentN,nu->weight); // (!)
	761	nu->weight=1.0;
	762	parentN->invalidateOldItems();
	763	return 0; // !!! -> ...getItemCount()-1;
	764	}
	765	parentN->addInput(nu,nu->weight);
[109]	766	neurons+=nu;
	767	parentN->invalidateOldItems();
[522]	768	if (nu->getClassName().len()==0)
[109]	769	{
[522]	770	nu->setClassName("-");
	771	// for compatibility, "ni" can define a n-n connection
	772	// referring to non-existent neuron (which will be hopefully defined later)
	773	// internal check will add the proper input to this unit
	774	// if conn_refno >=0 and input count==0
	775	oldconnections=1;
	776	if (srcrange)
	777	parentN->addMapping(*srcrange);
[109]	778	}
[522]	779	else
	780	nu->weight=1.0;
	781	return 0; // !!! -> ...getItemCount()-1;
[109]	782	}
	783	#endif
[522]	784	else return -1;
[109]	785	}
	786
	787	#ifdef MODEL_V1_COMPATIBLE
	788	int Model::addOldConnectionsInputs()
	789	{
[522]	790	if (!oldconnections) return 1;
	791	Neuro* n;
	792	for (int i=0;i<neurons.size();i++)
[109]	793	{
[522]	794	n=(Neuro*)neurons(i);
	795	if (n->conn_refno>=0)
	796	if (n->isNNConnection())
	797	if (n->conn_refno < old_getNeuroCount())
[109]	798	{ // good reference
[522]	799	Neuro* parent=n->parent; // nn connection has exactly one parent
	800	int inp=parent->findInput(n);
	801	Neuro* target=getNeuro(n->conn_refno);
	802	parent->setInput(inp,target,n->weight);
	803	removeNeuro(i,0); // no need to remove references
	804	i--;
[109]	805	}
[522]	806	else
[109]	807	{
[522]	808	logPrintf("Model","internalCheck",LOG_ERROR,
	809	"illegal N-N connection #%d (reference to #%d)%s",
	810	i,n->conn_refno,nameForErrors().c_str());
	811	return 0;
[109]	812	}
	813	}
[522]	814	oldconnections=0;
	815	return 1;
[109]	816	}
	817	#endif
	818
	819	/////////////
	820
[522]	821	/** change the sequence of neuro units
	822	and fix references in "-" objects (n-n connections) */
	823	void Model::moveNeuro(int oldpos, int newpos)
[109]	824	{
[522]	825	if (oldpos == newpos) return; // nop!
	826	Neuro *n = getNeuro(oldpos);
	827	neurons -= oldpos;
	828	neurons.insert(newpos, n);
	829	// conn_refno could be broken -> fix it
[109]	830	#ifdef MODEL_V1_COMPATIBLE
[522]	831	for (int i=0;i<neurons.size();i++)
[109]	832	{
[522]	833	Neuro *n2=getNeuro(i);
	834	if (n2->isNNConnection())
	835	if (n2->conn_refno == oldpos) n2->conn_refno=newpos;
	836	else
	837	{ if (n2->conn_refno > oldpos) n2->conn_refno--;
	838	if (n2->conn_refno >= newpos) n2->conn_refno++; }
[109]	839	}
[522]	840	invalidateOldNeuroCount();
[109]	841	#endif
	842	}
	843
	844	#ifdef MODEL_V1_COMPATIBLE
	845	/** move all old neurons (class "N") to the front of the neurons list.
[522]	846	@return number of old neurons
	847	*/
[109]	848	int Model::reorderToOldLayout()
	849	{
[522]	850	Neuro *n;
	851	int neurocount=0;
	852	for (int i=0;i<neurons.size();i++)
[109]	853	{
[522]	854	n=(Neuro*)neurons(i);
	855	if (n->isOldNeuron())
[109]	856	{
[522]	857	moveNeuro(i,neurocount);
	858	neurocount++;
	859	i=neurocount-1;
[109]	860	}
	861	}
[522]	862	return neurocount;
[109]	863	}
	864	#endif
	865	////////////
	866
	867	void Model::updateNeuroRefno()
	868	{
[522]	869	for (int i = 0; i < neurons.size(); i++)
[109]	870	{
[522]	871	Neuro* n = (Neuro*)neurons(i);
	872	n->refno = i;
[109]	873	}
	874	}
	875
	876	#define VALIDMINMAX(var,template,field) \
	877	if (var -> field < getMin ## template () . field) \
	878	{ var->field= getMin ## template () . field; \
[495]	879	logPrintf("Model","internalCheck",LOG_WARN,# field " too small in " # template " #%d (adjusted)",i);} \
[109]	880	else if (var -> field > getMax ## template () . field) \
	881	{ var->field= getMax ## template () . field; \
[495]	882	logPrintf("Model","internalCheck",LOG_WARN,# field " too big in " # template " #%d (adjusted)",i);}
[109]	883
	884	#define LINKFLAG 0x8000000
	885
	886	void Model::updateRefno()
	887	{
[522]	888	int i;
	889	for (i = 0; i < getPartCount(); i++) getPart(i)->refno = i;
	890	for (i = 0; i < getJointCount(); i++) getJoint(i)->refno = i;
	891	for (i = 0; i < getNeuroCount(); i++) getNeuro(i)->refno = i;
[109]	892	}
	893
[495]	894	SString Model::nameForErrors() const
	895	{
[522]	896	if (geno.getName().len()>0)
	897	return SString::sprintf(" in '%s'", geno.getName().c_str());
	898	return SString::empty();
[495]	899	}
	900
[109]	901	int Model::internalcheck(int final)
	902	{
[522]	903	Part *p;
	904	Joint *j;
	905	Neuro *n;
	906	int i, k;
	907	int ret = 1;
	908	shape = SHAPE_UNKNOWN;
	909	if ((parts.size() == 0) && (neurons.size() == 0)) return 0;
	910	if (parts.size() == 0)
	911	size = Pt3D_0;
	912	else
[109]	913	{
[522]	914	Pt3D bbmin = ((Part*)parts(0))->p, bbmax = bbmin;
	915	for (i = 0; i < parts.size(); i++)
[165]	916	{
[522]	917	p = (Part*)parts(i);
	918	p->owner = this;
	919	p->refno = i;
	920	if (p->shape == 0)
[269]	921	{
[522]	922	if (checklevel > 0)
	923	p->mass = 0.0;
[269]	924	}
[522]	925	// VALIDMINMAX(p,part,mass);
	926	VALIDMINMAX(p, Part, size);
	927	VALIDMINMAX(p, Part, density);
	928	VALIDMINMAX(p, Part, friction);
	929	VALIDMINMAX(p, Part, ingest);
	930	VALIDMINMAX(p, Part, assim);
	931	p->flags &= ~LINKFLAG; // for delta joint cycle detection
	932	if (p->p.x - p->size < bbmin.x) bbmin.x = p->p.x - p->size;
	933	if (p->p.y - p->size < bbmin.y) bbmin.y = p->p.y - p->size;
	934	if (p->p.z - p->size < bbmin.z) bbmin.z = p->p.z - p->size;
	935	if (p->p.x + p->size > bbmax.x) bbmax.x = p->p.x + p->size;
	936	if (p->p.y + p->size > bbmax.y) bbmax.y = p->p.y + p->size;
	937	if (p->p.z + p->size > bbmax.z) bbmax.z = p->p.z + p->size;
	938	if (shape == SHAPE_UNKNOWN)
	939	shape = (p->shape == Part::SHAPE_DEFAULT) ? SHAPE_OLD : SHAPE_NEW;
	940	else if (shape != SHAPE_ILLEGAL)
	941	{
	942	if ((p->shape == Part::SHAPE_DEFAULT) ^ (shape == SHAPE_OLD))
	943	{
	944	shape = SHAPE_ILLEGAL;
	945	logPrintf("Model", "internalCheck", LOG_WARN, "Inconsistent part shapes (mixed old and new shapes)%s", nameForErrors().c_str());
	946	}
	947	}
[269]	948	}
[522]	949	size = bbmax - bbmin;
	950	for (i = 0; i < joints.size(); i++)
[109]	951	{
[522]	952	j = (Joint*)joints(i);
	953	VALIDMINMAX(j, Joint, stamina);
	954	VALIDMINMAX(j, Joint, stif);
	955	VALIDMINMAX(j, Joint, rotstif);
	956	j->refno = i;
	957	j->owner = this;
	958	if (j->part1 && j->part2 && (j->part1 != j->part2))
[109]	959	{
[522]	960	j->p1_refno = j->part1->refno;
	961	j->p2_refno = j->part2->refno;
	962	if (checklevel > 0)
[109]	963	{
[522]	964	if (j->part1->shape == 0)
	965	j->part1->mass += 1.0;
	966	if (j->part2->shape == 0)
	967	j->part2->mass += 1.0;
[109]	968	}
[522]	969	if ((j->usedelta) && ((j->d.x != JOINT_DELTA_MARKER) \|\| (j->d.y != JOINT_DELTA_MARKER) \|\| (j->d.z != JOINT_DELTA_MARKER)))
	970	{ // delta positioning -> calc. orient.
	971	if (j->part2->flags & LINKFLAG)
	972	{
	973	ret = 0;
	974	logPrintf("Model", "internalCheck", LOG_ERROR,
	975	"Delta joint cycle detected at Joint #%d%s",
	976	i, nameForErrors().c_str());
	977	}
	978	j->resetDeltaMarkers();
	979	j->o = j->rot;
	980	j->part1->o.transform(j->part2->o, j->o);
	981	// j->part2->o.x=j->part1->o/j->o.x;
	982	// j->part2->o.y=j->part1->o/j->o.y;
	983	// j->part2->o.z=j->part1->o/j->o.z;
	984	j->part2->p = j->part2->o.transform(j->d) + j->part1->p;
	985	j->part2->flags \|= LINKFLAG; j->part1->flags \|= LINKFLAG; // for delta joint cycle detection
	986	}
	987	else
	988	{ // abs.positioning -> calc. delta
	989	if (final)
	990	{
	991	// calc orient delta
	992	// Orient tmpo(j->part2->o);
	993	// tmpo*=j->part1->o;
	994	Orient tmpo;
	995	j->part1->o.revTransform(tmpo, j->part2->o);
	996	tmpo.getAngles(j->rot);
	997	j->o = j->rot;
	998	// calc position delta
	999	Pt3D tmpp(j->part2->p);
	1000	tmpp -= j->part1->p;
	1001	j->d = j->part2->o.revTransform(tmpp);
	1002	}
	1003	}
	1004	if (final)
	1005	{
	1006	if (j->shape != Joint::SHAPE_SOLID)
	1007	{
	1008	if (j->d() > getMaxJoint().d.x)
	1009	{
	1010	ret = 0;
	1011	logPrintf("Model", "internalCheck", LOG_ERROR, "Joint #%d too long%s", i, nameForErrors().c_str());
	1012	}
	1013	}
	1014	}
[109]	1015	}
[522]	1016	else
[109]	1017	{
[522]	1018	logPrintf("Model", "internalCheck", LOG_ERROR, "Illegal part references in Joint #%d%s", i, nameForErrors().c_str());
	1019	ret = 0;
[109]	1020	}
[522]	1021	if (shape != SHAPE_ILLEGAL)
[109]	1022	{
[522]	1023	if ((j->shape == Joint::SHAPE_DEFAULT) ^ (shape == SHAPE_OLD))
[109]	1024	{
[522]	1025	shape = SHAPE_ILLEGAL;
	1026	logPrintf("Model", "internalCheck", LOG_WARN, "Inconsistent joint shapes (mixed old and new shapes)%s", nameForErrors().c_str());
[109]	1027	}
	1028	}
	1029	}
	1030	}
	1031	#ifdef MODEL_V1_COMPATIBLE
[522]	1032	if (!addOldConnectionsInputs())
	1033	return 0;
[109]	1034	#endif
	1035
[522]	1036	updateNeuroRefno(); // valid refno is important for n-n connections check (later)
[109]	1037
[522]	1038	for (i = 0; i < neurons.size(); i++)
[109]	1039	{
[522]	1040	n = (Neuro*)neurons(i);
	1041	VALIDMINMAX(n, Neuro, state);
[109]	1042	#ifdef MODEL_V1_COMPATIBLE
[522]	1043	VALIDMINMAX(n,Neuro,inertia);
	1044	VALIDMINMAX(n,Neuro,force);
	1045	VALIDMINMAX(n,Neuro,sigmo);
	1046	n->conn_refno=-1;
	1047	n->weight=1.0;
	1048	n->neuro_refno=-1;
[109]	1049	#endif
[522]	1050	n->part_refno = (n->part) ? n->part->refno : -1;
	1051	n->joint_refno = (n->joint) ? n->joint->refno : -1;
[109]	1052	}
	1053
[522]	1054	if (parts.size() && (checklevel > 0))
[109]	1055	{
[522]	1056	for (i = 0; i < parts.size(); i++)
[109]	1057	{
[522]	1058	p = (Part*)parts(i);
	1059	if (p->shape == 0)
	1060	if (p->mass <= 0.001)
	1061	p->mass = 1.0;
	1062	p->flags &= ~LINKFLAG;
[109]	1063	}
[522]	1064	getPart(0)->flags \|= LINKFLAG;
	1065	int change = 1;
	1066	while (change)
[109]	1067	{
[522]	1068	change = 0;
	1069	for (i = 0; i < joints.size(); i++)
[109]	1070	{
[522]	1071	j = (Joint*)joints(i);
	1072	if (j->part1->flags&LINKFLAG)
[109]	1073	{
[522]	1074	if (!(j->part2->flags&LINKFLAG))
[109]	1075	{
[522]	1076	change = 1;
	1077	j->part2->flags \|= LINKFLAG;
[109]	1078	}
	1079	}
[522]	1080	else
	1081	if (j->part2->flags&LINKFLAG)
[109]	1082	{
[522]	1083	if (!(j->part1->flags&LINKFLAG))
	1084	{
	1085	change = 1;
	1086	j->part1->flags \|= LINKFLAG;
[109]	1087	}
[522]	1088	}
[109]	1089	}
	1090	}
[522]	1091	for (i = 0; i < parts.size(); i++)
[109]	1092	{
[522]	1093	p = (Part*)parts(i);
	1094	if (!(p->flags&LINKFLAG))
[109]	1095	{
[522]	1096	logPrintf("Model", "internalCheck", LOG_ERROR, "Not all parts connected (eg. Part #0 and Part #%d)%s", i, nameForErrors().c_str());
	1097	ret = 0;
	1098	break;
[109]	1099	}
	1100	}
	1101	}
	1102
[522]	1103	for (i = 0; i < joints.size(); i++)
[109]	1104	{
[522]	1105	j = (Joint*)joints(i);
	1106	if (j->p1_refno == j->p2_refno)
[109]	1107	{
[522]	1108	logPrintf("Model", "internalCheck", LOG_ERROR, "Illegal self connection, Joint #%d%s", i, nameForErrors().c_str());
	1109	ret = 0;
	1110	break;
[109]	1111	}
[522]	1112	for (k = i + 1; k < joints.size(); k++)
[109]	1113	{
[522]	1114	Joint* j2 = (Joint*)joints(k);
	1115	if (((j->p1_refno == j2->p1_refno) && (j->p2_refno == j2->p2_refno))
	1116	\|\| ((j->p1_refno == j2->p2_refno) && (j->p2_refno == j2->p1_refno)))
[109]	1117	{
[522]	1118	logPrintf("Model", "internalCheck", LOG_ERROR, "Illegal duplicate Joint #%d and Joint #%d%s", i, k, nameForErrors().c_str());
	1119	ret = 0;
	1120	break;
[109]	1121	}
	1122	}
	1123	}
[522]	1124	if (shape == SHAPE_ILLEGAL)
	1125	ret = 0;
	1126	return ret;
[109]	1127	}
	1128
	1129	/////////////
	1130
	1131	int Model::getErrorPosition(bool includingwarnings)
	1132	{
[522]	1133	return includingwarnings ?
	1134	((f0errorposition >= 0) ? f0errorposition : f0warnposition)
	1135	:
	1136	f0errorposition;
[109]	1137	}
	1138
	1139	const Geno& Model::getGeno() const
	1140	{
[522]	1141	return geno;
[109]	1142	}
	1143
	1144	const Geno Model::getF0Geno()
	1145	{
[522]	1146	if (buildstatus == building)
	1147	logPrintf("Model", "getGeno", LOG_WARN, "Model was not completed - missing close()");
	1148	if (buildstatus != valid)
	1149	return Geno("", '0', "", "invalid");
	1150	if (!f0genoknown)
[109]	1151	{
[522]	1152	if (autobuildmaps)
[109]	1153	{
[522]	1154	initF0Map();
	1155	makeGeno(f0geno, f0map);
[109]	1156	}
[522]	1157	else
[109]	1158	{
[522]	1159	delF0Map();
	1160	makeGeno(f0geno);
[109]	1161	}
[522]	1162	f0genoknown = 1;
[109]	1163	}
[522]	1164	return f0geno;
[109]	1165	}
	1166
	1167	int Model::getPartCount() const
	1168	{
[522]	1169	return parts.size();
[109]	1170	}
	1171
	1172	Part* Model::getPart(int i) const
	1173	{
[522]	1174	return ((Part*)parts(i));
[109]	1175	}
	1176
	1177	int Model::getJointCount() const
	1178	{
[522]	1179	return joints.size();
[109]	1180	}
	1181
	1182	Joint* Model::getJoint(int i) const
	1183	{
[522]	1184	return ((Joint*)joints(i));
[109]	1185	}
	1186
[522]	1187	int Model::findJoints(SList& result, const Part* part)
[109]	1188	{
[522]	1189	Joint *j;
	1190	int n0 = result.size();
	1191	if (part)
	1192	for (int i = 0; j = (Joint*)joints(i); i++)
	1193	if ((j->part1 == part) \|\| (j->part2 == part)) result += (void*)j;
	1194	return result.size() - n0;
[109]	1195	}
	1196
	1197	int Model::findNeuro(Neuro* n)
[522]	1198	{
	1199	return neurons.find(n);
	1200	}
[109]	1201
	1202	int Model::findPart(Part* p)
[522]	1203	{
	1204	return parts.find(p);
	1205	}
[109]	1206
	1207	int Model::findJoint(Joint* j)
[522]	1208	{
	1209	return joints.find(j);
	1210	}
[109]	1211
	1212	int Model::findJoint(Part p1, Part p2)
	1213	{
[522]	1214	Joint* j;
	1215	for (int i = 0; j = getJoint(i); i++)
	1216	if ((j->part1 == p1) && (j->part2 == p2)) return i;
	1217	return -1;
[109]	1218	}
	1219
	1220
	1221	////////////////////
	1222
	1223	#ifdef MODEL_V1_COMPATIBLE
	1224	void Model::calcOldNeuroCount()
	1225	{
[522]	1226	if (oldneurocount>=0) return;
	1227	oldneurocount=reorderToOldLayout();
[109]	1228	}
	1229
	1230	int Model::old_getNeuroCount()
	1231	{ calcOldNeuroCount();
[522]	1232	return oldneurocount;}
[109]	1233
	1234	Neuro* Model::old_getNeuro(int i)
	1235	{calcOldNeuroCount();
	1236	return (i<oldneurocount)? (Neuro)getNeuro(i) : (Neuro)0;
	1237	}
	1238
	1239	int Model::old_findNeuro(Neuro* n)
	1240	{calcOldNeuroCount();
	1241	return findNeuro(n);}
	1242
	1243	Neuro *Model::old_addNewNeuro()
	1244	{
[522]	1245	int count=old_getNeuroCount();
	1246	Neuro *nu=addNewNeuro();
	1247	nu->setClassName("N");
	1248	moveNeuro(nu->refno,oldneurocount);
	1249	oldneurocount=count+1;
	1250	return (Neuro*)nu;
[109]	1251	}
	1252	#endif
	1253
	1254	///////////////////////
	1255
	1256	int Model::getNeuroCount() const
[522]	1257	{
	1258	return neurons.size();
	1259	}
[109]	1260
	1261	Neuro* Model::getNeuro(int i) const
[522]	1262	{
	1263	return (Neuro*)neurons(i);
	1264	}
[109]	1265
	1266	int Model::getConnectionCount() const
	1267	{
[522]	1268	int n = 0;
	1269	for (int i = 0; i < getNeuroCount(); i++)
	1270	n += getNeuro(i)->getInputCount();
	1271	return n;
[109]	1272	}
	1273
	1274	int Model::findNeuros(SList& result,
[522]	1275	const char* classname, const Part* part, const Joint* joint)
[109]	1276	{
[522]	1277	Neuro *nu;
	1278	SString cn(classname);
	1279	int n0 = result.size();
	1280	for (int i = 0; nu = (Neuro*)neurons(i); i++)
[109]	1281	{
[522]	1282	if (part)
	1283	if (nu->part != part) continue;
	1284	if (joint)
	1285	if (nu->joint != joint) continue;
	1286	if (classname)
	1287	if (nu->getClassName() != cn) continue;
	1288	result += (void*)nu;
[109]	1289	}
[522]	1290	return result.size() - n0;
[109]	1291	}
	1292
	1293	///////////////////
	1294
	1295	void Model::disturb(double amount)
	1296	{
[522]	1297	int i;
	1298	if (amount <= 0) return;
	1299	for (i = 0; i < parts.size(); i++)
[109]	1300	{
[522]	1301	Part *p = getPart(i);
	1302	p->p.x += (rnd01 - 0.5)*amount;
	1303	p->p.y += (rnd01 - 0.5)*amount;
	1304	p->p.z += (rnd01 - 0.5)*amount;
[109]	1305	}
[522]	1306	for (i = 0; i < joints.size(); i++)
[109]	1307	{
[522]	1308	Joint *j = getJoint(i);
	1309	Pt3D tmpp(j->part2->p);
	1310	tmpp -= j->part1->p;
	1311	j->d = j->part2->o.revTransform(tmpp);
[109]	1312	}
	1313	}
	1314
[274]	1315	void Model::move(const Pt3D& shift)
	1316	{
[522]	1317	FOREACH(Part*, p, parts)
	1318	p->p += shift;
[274]	1319	}
	1320
	1321	void Model::rotate(const Orient& rotation)
	1322	{
[522]	1323	FOREACH(Part*, p, parts)
[274]	1324	{
[522]	1325	p->p = rotation.transform(p->p);
	1326	p->setOrient(rotation.transform(p->o));
[274]	1327	}
	1328	}
	1329
[269]	1330	void Model::buildUsingNewShapes(const Model& old, Part::Shape default_shape, float thickness)
	1331	{
[522]	1332	for (int i = 0; i < old.getJointCount(); i++)
[269]	1333	{
[522]	1334	Joint *oj = old.getJoint(i);
	1335	Part *p = addNewPart(default_shape);
	1336	p->p = (oj->part1->p + oj->part2->p) / 2;
	1337	Orient o;
	1338	o.lookAt(oj->part1->p - oj->part2->p);
	1339	p->rot = o.getAngles();
	1340	p->scale.x = oj->part1->p.distanceTo(oj->part2->p) / 2;
	1341	p->scale.y = thickness;
	1342	p->scale.z = thickness;
[269]	1343	}
[522]	1344	for (int i = 0; i < old.getPartCount(); i++)
[269]	1345	{
[522]	1346	Part *op = old.getPart(i);
	1347	for (int j = 0; j < old.getJointCount(); j++)
[269]	1348	{
[522]	1349	Joint *oj = old.getJoint(j);
	1350	if ((oj->part1 == op) \|\| (oj->part2 == op))
[269]	1351	{
[522]	1352	for (int j2 = j + 1; j2 < old.getJointCount(); j2++)
[269]	1353	{
[522]	1354	Joint *oj2 = old.getJoint(j2);
	1355	if ((oj2->part1 == op) \|\| (oj2->part2 == op))
[269]	1356	{
[522]	1357	addNewJoint(getPart(j), getPart(j2), Joint::SHAPE_SOLID);
[269]	1358	}
	1359	}
[522]	1360	break;
[269]	1361	}
	1362	}
	1363	}
	1364	}
	1365
[109]	1366	//////////////////////
	1367
[522]	1368	class MinPart : public Part { public: MinPart() { Param par(f0_part_paramtab, this); par.setMin(); } };
	1369	class MaxPart : public Part { public: MaxPart() { Param par(f0_part_paramtab, this); par.setMax(); } };
	1370	class MinJoint : public Joint { public: MinJoint() { Param par(f0_joint_paramtab, this); par.setMin(); } };
	1371	class MaxJoint : public Joint { public: MaxJoint() { Param par(f0_joint_paramtab, this); par.setMax(); } };
	1372	class MinNeuro : public Neuro { public: MinNeuro() { Param par(f0_neuro_paramtab, this); par.setMin(); } };
	1373	class MaxNeuro : public Neuro { public: MaxNeuro() { Param par(f0_neuro_paramtab, this); par.setMax(); } };
[109]	1374
[522]	1375	Part& Model::getMinPart() { static MinPart part; return part; }
	1376	Part& Model::getMaxPart() { static MaxPart part; return part; }
	1377	Part& Model::getDefPart() { static Part part; return part; }
	1378	Joint& Model::getMinJoint() { static MinJoint joint; return joint; }
	1379	Joint& Model::getMaxJoint() { static MaxJoint joint; return joint; }
	1380	Joint& Model::getDefJoint() { static Joint joint; return joint; }
	1381	Neuro& Model::getMinNeuro() { static MinNeuro neuro; return neuro; }
	1382	Neuro& Model::getMaxNeuro() { static MaxNeuro neuro; return neuro; }
	1383	Neuro& Model::getDefNeuro() { static Neuro neuro; return neuro; }

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