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source: cpp/f8-to-f1/conv_f8tof1.cpp @ 24

Last change on this file since 24 was 24, checked in by mwajcht, 16 years ago
Once again changed 'for' loops inside which vector's element is erased. This time it should be correct, I hope.
File size: 23.2 KB

Rev	Line
[1]	1	/*
	2	* conv_f8tof1.cpp
	3	* L-systemToF1
	4	*
	5	* Created by Maciej Wajcht on 08-03-21.
	6	* Copyright 2008 __MyCompanyName__. All rights reserved.
	7	*
	8	*/
	9
	10	#include "conv_f8tof1.h"
	11	#include "conv_f8_utils.h"
	12	#include <sstream>
	13	#include <string>
	14	#include <algorithm>
	15	#include "lexglobal.h"
	16	#include "conv_f8tof1_scanner.h"
	17	namespace prs {
	18	#include "conv_f8tof1_grammar.c"
	19	}
	20
	21	#if CONV_DEBUG > 0
	22	#include <iostream>
	23	#endif
	24
	25	#define CONV_DEBUG 0 //0 - off, 1 - minimal, 2 - full
	26
	27	using namespace std;
	28
	29	Lsystem::Lsystem() {
	30	PrimitiveProduction *pp1 = new PrimitiveProduction(SString("X"));
	31	this->primitiveProductions.insert(make_pair("X", pp1));
	32	PrimitiveProduction *pp2 = new PrimitiveProduction(SString("R"));
	33	this->primitiveProductions.insert(make_pair("R", pp2));
	34	PrimitiveProduction *pp3 = new PrimitiveProduction(SString("r"));
	35	this->primitiveProductions.insert(make_pair("r", pp3));
	36	PrimitiveProduction *pp4 = new PrimitiveProduction(SString("C"));
	37	this->primitiveProductions.insert(make_pair("C", pp4));
	38	PrimitiveProduction *pp5 = new PrimitiveProduction(SString("c"));
	39	this->primitiveProductions.insert(make_pair("c", pp5));
	40	PrimitiveProduction *pp6 = new PrimitiveProduction(SString("Q"));
	41	this->primitiveProductions.insert(make_pair("Q", pp6));
	42	PrimitiveProduction *pp7 = new PrimitiveProduction(SString("q"));
	43	this->primitiveProductions.insert(make_pair("q", pp7));
	44	PrimitiveProduction *pp8 = new PrimitiveProduction(SString("["));
	45	this->primitiveProductions.insert(make_pair("[", pp8));
	46	PrimitiveProduction *pp9 = new PrimitiveProduction(SString("]"));
	47	this->primitiveProductions.insert(make_pair("]", pp9));
	48	PrimitiveProduction *pp10 = new PrimitiveProduction(SString("^"));
	49	this->primitiveProductions.insert(make_pair("^", pp10));
	50
	51	}
	52
	53	Lsystem::~Lsystem() {
	54	for (map<string, Production*>::iterator iter = this->productions.begin();
	55	iter != this->productions.end(); iter++) {
	56	delete iter->second;
	57	}
	58	for (map<string, PrimitiveProduction*>::iterator iter = this->primitiveProductions.begin();
	59	iter != this->primitiveProductions.end(); iter++) {
	60	delete iter->second;
	61	}
	62	for (map<string, ParamProduction*>::iterator iter = this->paramProductions.begin();
	63	iter != this->paramProductions.end(); iter++) {
	64	delete iter->second;
	65	}
	66	for (vector<NeuronProduction*>::iterator iter = this->neuronProductions.begin();
	67	iter != this->neuronProductions.end(); iter++) {
	68	delete *iter;
	69	}
	70	}
	71
	72	PrimitiveProduction* Lsystem::getPrimitiveProduction(SString name) {
	73	string sname = sstringToString(name);
	74	if (this->primitiveProductions.find(sname) == this->primitiveProductions.end()) {
	75	PrimitiveProduction *pp = new PrimitiveProduction(name);
	76	this->primitiveProductions.insert(make_pair(sname, pp));
	77	}
	78	return this->primitiveProductions[sname];
	79	}
	80
	81	ParamProduction* Lsystem::getParamProduction(SString name) {
	82	string sname = sstringToString(name);
	83	if (this->paramProductions.find(sname) == this->paramProductions.end()) {
	84	ParamProduction *pp = new ParamProduction(name);
	85	this->paramProductions.insert(make_pair(sname, pp));
	86	}
	87	return this->paramProductions[sname];
	88	}
	89
	90	SString Lsystem::toString() {
	91	this->removeEmptySubproductionsAndProductions();
	92	SString result = "";
	93	result += SString::valueOf(this->iterations) + "\n";
	94	for (map<string, double>::iterator it = this->startParams.begin();
	95	it != this->startParams.end(); it++) {
	96	result += stringToSString(it->first) + "=" + SString::valueOf(it->second) + "\n";
	97	}
	98	result += SString("---") + "\n";
	99	result += stringToSString(this->firstProductionName) + "\n";
	100	for (map<string, Production*>::iterator prodIter = this->productions.begin();
	101	prodIter != this->productions.end(); prodIter++) {
	102	Production *p = prodIter->second;
	103	result += p->name + "(";
	104	for (int i = 1; i <= p->parameters.size(); i++) {
	105	result += p->parameters.getParameterName(i);
	106	if (i < p->parameters.size()) {
	107	result += ",";
	108	}
	109	}
	110	result += "):";
	111	for (int subprodIter = 0; subprodIter < p->subproductions.size(); subprodIter++) {
	112	SubProduction *sp = &(p->subproductions[subprodIter]);
	113	for (int condIter = 0; condIter < sp->conditions.size(); condIter++) {
	114	Condition *c = &(sp->conditions[condIter]);
	115	RelationType r = c->relation;
	116	SString op = (r == r_greater) ? ">" : (r == r_greaterEqual) ? ">=" : (r == r_less) ? "<" :
	117	(r == r_lessEqual) ? "<=" : (r == r_equal) ? "==" : (r == r_different) ? "!=" : "";
	118	result += c->parameter + op + SString::valueOf(c->value);
	119	if (condIter != sp->conditions.size() - 1) {
	120	result += ",";
	121	}
	122	}
	123	if (sp->conditions.size() > 0) {
	124	result += SString("\|");
	125	}
	126	for (vector<ActionStrP>::iterator actionIter = sp->actions.begin();
	127	actionIter != sp->actions.end(); actionIter++) {
	128	ActionStrP a = &(actionIter);
	129	if (a->action == NULL) {
	130	continue;
	131	}
	132	result += a->action->getF8Representation();
	133	if (!a->action->ignoreParams) {
	134	result += SString("(");
	135	for (int paramIter = 0; paramIter < a->params.size(); paramIter++) {
	136	result += convertReversePolishNotationToNatural(a->params[paramIter]);
	137	if (paramIter != a->params.size() - 1) {
	138	result += ",";
	139	}
	140	}
	141	result += SString(")");
	142	}
	143	}
	144	if (subprodIter != p->subproductions.size() - 1) {
	145	result += SString(":");
	146	}
	147	}
	148	result += SString("\n");
	149	}
	150	return result;
	151	}
	152
	153	vector<Action*> Lsystem::getAllActions(bool normal, bool primitives, bool params, bool neurons) {
	154	vector<Action*> actions;
	155	if (normal) {
	156	for (map<string, Production*>::iterator iter = this->productions.begin();
	157	iter != this->productions.end(); iter++) {
	158	actions.push_back(iter->second);
	159	}
	160	}
	161	if (primitives) {
	162	for (map<string, PrimitiveProduction*>::iterator iter = this->primitiveProductions.begin();
	163	iter != this->primitiveProductions.end(); iter++) {
	164	actions.push_back(iter->second);
	165	}
	166	}
	167	if (params) {
	168	for (map<string, ParamProduction*>::iterator iter = this->paramProductions.begin();
	169	iter != this->paramProductions.end(); iter++) {
	170	actions.push_back(iter->second);
	171	}
	172	}
	173	if (neurons) {
	174	for (vector<NeuronProduction*>::iterator iter = this->neuronProductions.begin();
	175	iter != this->neuronProductions.end(); iter++) {
	176	actions.push_back(*iter);
	177	}
	178	}
	179	return actions;
	180	}
	181
	182	void Lsystem::removeEmptySubproductionsAndProductions() {
	183	/* po wykonaniu moga pozostac puste subprodukcje (usuwanie wywolan do usunietych wczesniej produkcji
	184	* ale i tak znikna one przy kolejnym wywolaniu, tak wiec ilosc smieci nie powinna byc razaca
	185	*/
	186
	187	//delete empty subproductions
	188	for (map<string, Production*>::iterator prodIter = this->productions.begin();
	189	prodIter != this->productions.end(); prodIter++) {
	190	vector<SubProduction> *subproductions = &(prodIter->second->subproductions);
[24]	191	for (vector<SubProduction>::iterator i = subproductions->begin(); i != subproductions->end(); /nothing/) {
	192	if ((*i).actions.size() == 0) {
	193	i = subproductions->erase(i);
	194	} else {
	195	i++;
[1]	196	}
	197	}
	198	}
	199
	200	//find empty productions
	201	vector<SString> emptyProductionNames;
	202	for (map<string, Production*>::iterator prodIter = this->productions.begin();
	203	prodIter != this->productions.end(); prodIter++) {
	204	if (prodIter->second->subproductions.size() == 0 &&
	205	sstringToString(prodIter->second->name) != this->firstProductionName) {
	206	emptyProductionNames.push_back(prodIter->second->name);
	207	}
	208	}
	209
	210	//delete calls to empty productions
	211	for (map<string, Production*>::iterator prodIter = this->productions.begin();
	212	prodIter != this->productions.end(); prodIter++) {
	213	vector<SubProduction> *subproductions = &(prodIter->second->subproductions);
	214	for (vector<SubProduction>::iterator subProdIter = subproductions->begin();
	215	subProdIter != subproductions->end(); subProdIter++) {
	216	SubProduction sp = &(subProdIter);
[24]	217	for (vector<ActionStrP>::iterator actionIter = sp->actions.begin();
	218	actionIter != sp->actions.end(); /nothing/) {
	219	bool deleted = false;
	220	if ((*actionIter).action != NULL) {
[1]	221	vector<SString>::iterator result = find(emptyProductionNames.begin(), emptyProductionNames.end(),
[24]	222	(*actionIter).action->name);
[1]	223	if (result != emptyProductionNames.end()) { //emptyProductionNames contains the action name
[24]	224	actionIter = sp->actions.erase(actionIter);
	225	deleted = true;
[1]	226	}
	227	}
[24]	228	if (!deleted) {
	229	actionIter++;
	230	}
[1]	231	}
	232	}
	233	}
	234
	235	//delete empty productions
	236	for(int i = 0; i < emptyProductionNames.size(); i++) {
	237	this->productions.erase(sstringToString(emptyProductionNames[i]));
	238	}
	239	}
	240
	241	ostream& operator<<(ostream& os, const Condition& c) {
	242	RelationType r = c.relation;
	243	SString op = (r == r_greater) ? ">" : (r == r_greaterEqual) ? ">=" : (r == r_less) ? "<" :
	244	(r == r_lessEqual) ? "<=" : (r == r_equal) ? "==" : (r == r_different) ? "!=" : "";
	245	os << c.parameter << " " << op << " " << c.value;
	246	return os;
	247	}
	248
	249	const double ParameterCollection::getValue(int position) {
	250	string name = this->parameters[position - 1];
	251	return this->paramValues[name];
	252	}
	253
	254	const double ParameterCollection::getValue(SString name) {
	255	return this->paramValues[sstringToString(name)];
	256	}
	257
	258	const SString ParameterCollection::getParameterName(int position) {
	259	return stringToSString(this->parameters[position - 1]);
	260	}
	261
	262	const int ParameterCollection::getParameterPosition(SString name) {
	263	for (int i = 0; i < this->parameters.size(); i++) {
	264	string &s = this->parameters[i];
	265	if (s == sstringToString(name)) {
	266	return i + 1;
	267	}
	268	}
	269	return -1;
	270	}
	271
	272	void ParameterCollection::setValue(int position, double value) {
	273	string name = this->parameters[position - 1];
	274	this->paramValues[name] = value;
	275	}
	276
	277	void ParameterCollection::setValue(SString name, double value) {
	278	this->paramValues[sstringToString(name)] = value;
	279	}
	280
	281	void ParameterCollection::addParameter(SString name, int position, double value) {
	282	//TODO sprawdzenie czy position > 0
	283	string sname = sstringToString(name);
	284	if (position == -1) {
	285	this->parameters.push_back(sname);
	286	this->paramValues[sname] = value;
	287	} else {
	288	this->parameters.reserve(position);
	289	this->parameters.insert(this->parameters.begin() + (position -1), sname);
	290	this->paramValues[sname] = value;
	291	}
	292	//this->paramValues[name] = value;
	293	}
	294
	295	const int ParameterCollection::size() {
	296	return this->parameters.size();
	297	}
	298
	299	void ParameterCollection::removeParameter(int position) {
	300	string name = this->parameters[position - 1];
	301	vector<string>::iterator it = this->parameters.begin() + (position - 1);
	302	this->parameters.erase(it);
	303	this->paramValues.erase(name);
	304	}
	305
	306	void ParameterCollection::removeParameter(SString name) {
	307	int idx = getParameterPosition(name);
	308	this->removeParameter(idx);
	309	}
	310
	311	bool ParameterCollection::paramExist(SString name) {
	312	string sname = sstringToString(name);
	313	for (vector<string>::iterator it = this->parameters.begin(); it != this->parameters.end(); it++) {
	314	if ((*it) == sname) {
	315	return true;
	316	}
	317	}
	318	return false;
	319	}
	320
	321	PrimitiveProduction::PrimitiveProduction(const SString command) {
	322	this->f8command = command;
	323	this->ignoreParams = true;
	324	if (command == SString("[")) {
	325	this->f1command = SString("(");
	326	this->name = SString("_primitive production '[' => '('");
	327	} else if (command == SString("]")) {
	328	this->f1command = SString(")");
	329	this->name = SString("_primitive production ']' => ')'");
	330	} else if (command == SString("^")) {
	331	this->f1command = SString(",");
	332	this->name = SString("_primitive production '^' => ','");
	333	} else {
	334	this->f1command = command;
	335	this->name = SString("_primitive production '") + command + "'";
	336	}
	337	}
	338
	339	const SString PrimitiveProduction::getF1Genotype(const vector<double> params) {
	340	#if CONV_DEBUG > 1
	341	cout << "@@@@@ Prymityw: " << this->f1command << endl;
	342	#endif
	343	return SString(this->f1command);
	344	}
	345
	346	const list<ActionP> PrimitiveProduction::getActionList(const vector<double> param) {
	347	list<ActionP> l;
	348	ActionP ap;
	349	ap.action = this;
	350	ap.params = param;
	351	l.push_back(ap);
	352	return l;
	353	}
	354
	355	const SString PrimitiveProduction::getF8Representation() {
	356	return this->f8command;
	357	}
	358
	359	ParamProduction::ParamProduction(const SString paramName) {
	360	this->paramName = paramName;
	361	this->name = SString("_param production") + paramName;
	362	this->ignoreParams = true;
	363	}
	364
	365	const SString ParamProduction::getF1Genotype(const vector<double> params) {
	366	SString s = SString::valueOf(params[0]);
	367	#if CONV_DEBUG > 1
	368	cout << "@@@@@ Wartosc parametru: " << this->paramName << ": " << params[0] << endl;
	369	#endif
	370	return s;
	371
	372	}
	373
	374	const list<ActionP> ParamProduction::getActionList(const vector<double> param) {
	375	list<ActionP> l;
	376	ActionP ap;
	377	ap.action = this;
	378	ap.params = param;
	379	l.push_back(ap);
	380	return l;
	381
	382	}
	383
	384	const SString ParamProduction::getF8Representation() {
	385	return this->paramName;
	386	}
	387
	388	NeuronProduction::NeuronProduction(const SString body) {
	389	this->body = body;
	390	this->name = SString("_neuron production") + body;
	391	this->ignoreParams = true;
	392	}
	393
	394	const SString NeuronProduction::getF1Genotype(const vector<double> params) {
	395	return this->body;
	396	}
	397
	398	const list<ActionP> NeuronProduction::getActionList(const vector<double> param) {
	399	list<ActionP> l;
	400	ActionP ap;
	401	ap.action = this;
	402	ap.params = param;
	403	l.push_back(ap);
	404	return l;
	405
	406	}
	407
	408	const SString NeuronProduction::getF8Representation() {
	409	return this->body;
	410	}
	411
	412	Production::Production() {
	413	this->ignoreParams = false;
	414	}
	415
	416	/**
	417	* Zwracamy puste, bo co innego mamy zrobić?
	418	*/
	419	const SString Production::getF1Genotype(const vector<double> params) {
	420	return SString("");
	421	}
	422
	423	const list<ActionP> Production::getActionList(const vector<double> params) {
	424	list<ActionP> l;
	425	#if CONV_DEBUG > 1
	426	cout << "params.size(): " << params.size() << ", this->parameters.size(): " << this->parameters.size() << endl;
	427	#endif
	428	for (int i = 0; i < params.size() && i < this->parameters.size(); i++) {
	429	this->parameters.setValue(i + 1, params[i]);
	430	}
	431
	432	//jedziemy po podprodukcjach
	433	for (vector<SubProduction>::iterator subProdIter = this->subproductions.begin();
	434	subProdIter != this->subproductions.end(); subProdIter++) {
	435	#if CONV_DEBUG > 1
	436	cout << "this->subproductions.size(): " << this->subproductions.size() << endl;
	437	#endif
	438	SubProduction &sp = *subProdIter;
	439	bool conditionsOK = true;
	440	//sprawdzenie warunków dla danej podprodukcji
	441	for (vector<Condition>::iterator condIter = sp.conditions.begin();
	442	condIter != sp.conditions.end(); condIter++) {
	443	if (conditionsOK == false) {
	444	break; //bo dalsze sprawdzanie i tak nie ma sensu
	445	}
	446	Condition &c = *condIter;
	447	switch (c.relation) {
	448	case r_greater:
	449	if (this->parameters.getValue(c.parameter) <= c.value) {
	450	conditionsOK = false;
	451	}
	452	break;
	453	case r_greaterEqual:
	454	if (this->parameters.getValue(c.parameter) < c.value) {
	455	conditionsOK = false;
	456	}
	457	break;
	458	case r_less:
	459	if (this->parameters.getValue(c.parameter) >= c.value) {
	460	conditionsOK = false;
	461	}
	462	break;
	463	case r_lessEqual:
	464	if (this->parameters.getValue(c.parameter) > c.value) {
	465	conditionsOK = false;
	466	}
	467	break;
	468	case r_equal:
	469	if (this->parameters.getValue(c.parameter) != c.value) {
	470	conditionsOK = false;
	471	}
	472	break;
	473	case r_different:
	474	if (this->parameters.getValue(c.parameter) == c.value) {
	475	conditionsOK = false;
	476	}
	477	break;
	478	}
	479	}
	480	if (conditionsOK) {
	481	//jedziemy po każdej akcji w danej podprodukcji
	482	for (int i = 0; i < sp.actions.size(); i++) {
	483	#if CONV_DEBUG > 1
	484	cout << "sp.actions.size(): " << sp.actions.size() << endl;
	485	#endif
	486	Action *action = sp.actions[i].action;
	487	vector<SString> strParams = sp.actions[i].params;
	488	vector<double> params;
	489	//podmieniamy nazwy parametrów na ich wartości
	490	for (vector<SString>::iterator paramIter = strParams.begin();
	491	paramIter != strParams.end(); paramIter++) {
	492	SString parameter;
	493	SString element;
	494	int pos = 0;
	495	while ((*paramIter).getNextToken(pos, element, ';')) {
	496	if (element[0] == 'n') {
	497	double val = this->parameters.getValue(element);
	498	parameter += SString::valueOf(val) + ";";
	499	} else {
	500	parameter += element + ";";
	501	}
	502	}
	503	params.push_back(parseExpression(parameter));
	504	}
	505
	506	ActionP ap;
	507	ap.action = action;
	508	ap.params = params;
	509	l.push_back(ap);
	510	}
	511	}
	512	}
	513
	514	return l;
	515	}
	516
	517	const SString Production::getF8Representation() {
	518	return this->name;
	519	}
	520
	521	vector<SString> GenoConv_F8ToF1::readProductionNames(const SString &in) {
	522	vector<SString> names;
	523	SString line;
	524	int pos = 0;
	525	bool afterFirstProd = false;
	526	//ParsingStatus status = firstLine;
	527	while (in.getNextToken(pos, line, '\n')) {
	528	#if CONV_DEBUG > 1
	529	std::cout << "### Linia: " << line << std::endl;
	530	#endif
	531	if (line.startsWith("P") && line.indexOf('(', 0) == -1) {
	532	afterFirstProd = true;
	533	continue;
	534	}
	535	if (!afterFirstProd) {
	536	continue;
	537	}
	538	int lParenIndex = line.indexOf('(', 0);
	539	if (line.startsWith("P") && lParenIndex != -1) {
	540	SString prodName = line.substr(0, lParenIndex);
	541	#if CONV_DEBUG > 1
	542	std::cout << "###Produkcja: " << prodName << std::endl;
	543	#endif
	544	names.push_back(prodName);
	545	}
	546	}
	547	return names;
	548	}
	549
	550	bool GenoConv_F8ToF1::checkSyntax(const char *geno) {
	551	return this->parseInput(geno, NULL);
	552	}
	553
	554	SString GenoConv_F8ToF1::convert(SString &in, MultiMap *mmap) {
	555	#if CONV_DEBUG > 0
	556	cout << "convert() start" << endl;
	557	#endif
	558	SString dst = "";
	559	const char* src = in;
	560
	561	if (in.len() < 1 && !this->checkSyntax(src)) {
	562	return SString();
	563	}
	564
	565	Lsystem *lsystem = this->createLsystem(in);
	566	if (lsystem == NULL) {
	567	return SString();
	568	}
	569	if (lsystem->firstProductionName.empty()) {
	570	return SString();
	571	}
	572
	573	#if CONV_DEBUG > 0
	574	for (map<string, Production*>::iterator i1 = lsystem->productions.begin(); i1 != lsystem->productions.end(); i1++) {
	575	Production *p = i1->second;
	576	cout << "Production: " << p->name << endl;
	577	for (vector<SubProduction>::iterator i2 = p->subproductions.begin(); i2 != p->subproductions.end(); i2++) {
	578	SubProduction sp = *i2;
	579	cout << "\tConditions" << endl;
	580	for (vector<Condition>::iterator i3 = sp.conditions.begin(); i3 != sp.conditions.end(); i3++) {
	581	cout << "\t\t" << *i3 << endl;
	582	}
	583	cout << "\tAction : params" << endl;
	584	for (int i = 0; i < sp.actions.size(); i++) {
	585	Action *a = sp.actions[i].action;
	586	vector<SString> strParams = sp.actions[i].params;
	587	cout << "\t\t" << a->name << " : ";
	588	for (vector<SString>::iterator i4 = strParams.begin(); i4 != strParams.end(); i4++) {
	589	cout << *i4 << ", ";
	590	}
	591	cout << endl;
	592	}
	593	}
	594	}
	595	#endif
	596	#if CONV_DEBUG > 1
	597	cout << "&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&" << endl;
	598	#endif
	599
	600	//cout << "convert() 1" << endl;
	601	//ustawienie zmiennych dla początkowej produkcji
	602	Production *firstProduction = lsystem->productions[lsystem->firstProductionName];
	603	vector<double> params;
[9]	604	params.assign(lsystem->startParams.size(), 0.0);
[1]	605	//cout << "startParams->size: " << lsystem->startParams.size() << endl;
	606	for (map<string, double>::iterator iter = lsystem->startParams.begin();
	607	iter != lsystem->startParams.end(); iter++) {
	608	int position = firstProduction->parameters.getParameterPosition(stringToSString(iter->first));
	609	//cout << "position of " << iter->first << ": " << position << endl;
[7]	610	params.insert(params.begin() + (position - 1), iter->second);
	611	//params[position - 1] = iter->second;
[1]	612	}
	613
	614	//cout << "convert() 2" << endl;
	615
	616	ActionP ap;
	617	ap.action = firstProduction;
	618	ap.params = params;
	619
	620	list<ActionP> actionList;
	621	actionList.push_back(ap);
	622
	623	//cout << "iterations: " << lsystem->iterations << endl;
	624	for (int i = 0; i < lsystem->iterations; i++) {
	625	//cout << "convert() 2.1" << endl;
	626	list<ActionP> newList;
	627	for (list<ActionP>::iterator iter = actionList.begin(); iter != actionList.end(); iter++) {
	628	//cout << "convert() 2.1.1" << endl;
	629	Action a = (iter).action;
	630	vector<double> p = (*iter).params;
	631	if (a != NULL) {
	632	list<ActionP> tmpList = a->getActionList(p);
	633	newList.insert(newList.end(), tmpList.begin(), tmpList.end());
	634	}
	635	}
	636	actionList = newList;
	637	}
	638
	639	#if CONV_DEBUG > 1
	640	cout << "&&&&&&&&&&&&&&&&&&&&& ^ &&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&" << endl;
	641	for (list<ActionP>::iterator it = actionList.begin(); it != actionList.end(); it++) {
	642	cout << (*it).action->name << "(";
	643	for (vector<double>::iterator it2 = (it).params.begin(); it2 != (it).params.end(); it2++) {
	644	cout << *it2 << ", ";
	645	}
	646	cout << ")" << endl;
	647	}
	648	cout << "&&&&&&&&&&&&&&&&&&&&& ^ &&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&" << endl;
	649	#endif
	650	for (list<ActionP>::iterator iter = actionList.begin(); iter != actionList.end(); iter++) {
	651	Action a = (iter).action;
	652	vector<double> p = (*iter).params;
	653	if (a != NULL) {
	654	dst += a->getF1Genotype(p);
[7]	655	if (dst.len() > 1500) {
	656	return ""; //genotype becomes too long so we abort conversion
	657	}
[1]	658	}
	659	}
	660
	661	delete lsystem;
	662
	663	#if CONV_DEBUG > 0
	664	cout << "convert() end" << endl;
	665	#endif
	666	return dst;
	667	}
	668
	669	//Lsystem* GenoConv_F8ToF1::createLsystem(const SString &in) {
	670	Lsystem* GenoConv_F8ToF1::createLsystem(SString in) {
	671	#if CONV_DEBUG > 0
	672	cout << "createLsystem() start" << endl;
	673	#endif
	674	Lsystem *lsys = new Lsystem();
	675
	676	//wczytujemy nazwy produkcji i tworzymy wstępnie dla nich obiekty
	677	vector<SString> names = this->readProductionNames(in);
	678	for (vector<SString>::iterator nameIter = names.begin(); nameIter != names.end(); nameIter++) {
	679	Production *production = new Production();
	680	production->name = *nameIter;
	681	//lsystem->productions.insert(make_pair(*nameIter, production));
	682	lsys->productions[sstringToString(*nameIter)] = production;
	683	}
	684
	685	#if CONV_DEBUG > 1
	686	cout << "lsystemprodsize " << lsys->productions.size() << endl;
	687	for (map<string, Production*>::iterator iii = lsys->productions.begin(); iii != lsys->productions.end(); iii++) {
	688	cout << "PPP '" << iii->first << "' adr " << (long) &(iii->second) << endl;
	689	}
	690	#endif
	691
	692	const char* src = in;
	693	bool result = this->parseInput(src, lsys);
	694	if (!result) {
	695	delete lsys;
	696	return NULL;
	697	}
	698
	699	#if CONV_DEBUG > 1
	700
	701	cout << "@@@@@ Przeparsowane" << endl;
	702
	703	cout << "&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&" << endl;
	704	#endif
[11]	705	//final check
	706	for (map<string, Production*>::iterator prodIter = lsys->productions.begin();
	707	prodIter != lsys->productions.end(); prodIter++) {
	708	for (vector<SubProduction>::iterator subProdIter = prodIter->second->subproductions.begin();
	709	subProdIter != prodIter->second->subproductions.end(); subProdIter++) {
	710	SubProduction subProduction = *subProdIter;
[24]	711	for (vector<ActionStrP>::iterator i = subProduction.actions.begin();
	712	i != subProduction.actions.end(); /nothing/) {
	713	if ((*i).action == NULL) {
	714	i = subProduction.actions.erase(i);
	715	} else {
	716	i++;
[11]	717	}
	718	}
	719	}
	720	}
[1]	721	#if CONV_DEBUG > 0
	722	cout << "createLsystem() end" << endl;
	723	#endif
	724	return lsys;
	725	}
	726
	727	bool GenoConv_F8ToF1::parseInput(const char* src, Lsystem* lsys) {
	728	//inicjalizacja zmiennych parsera
	729	int yv;
	730	istringstream input;
	731	input.str(string(src));
	732	ostringstream output;
	733	yyFlexLexer scanner(&input, &output);
	734	bool syntaxOk = false;
	735	void* pParser = prs::ParseAlloc(malloc, lsys, (lsys == NULL), &syntaxOk);
	736	struct prs::Token t0;
	737	//t0.strValue = "";
	738	memset(t0.strArrValue, 0, 30);
	739	extern YYSTYPE yylval;
	740
	741	//parsowanie wejścia
	742	// on EOF yylex will return 0
	743	while((yv = scanner.yylex()) != 0) {
	744	#if CONV_DEBUG > 1
	745	cout << " yylex() " << yv << " yylval.strVal " << yylval.strVal << endl;
	746	#endif
	747	memset(t0.strArrValue, 0, 30);
	748	sprintf(t0.strArrValue, yylval.strVal);
	749	prs::Parse (pParser, yv, t0);
	750	}
	751	prs::Parse(pParser, 0, t0);
	752	prs::ParseFree(pParser, free);
	753
	754	return syntaxOk;
	755	}
	756	#undef CONV_DEBUG

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