source: cpp/f8-to-f1/conv_f8tof1.h @ 57

Last change on this file since 57 was 36, checked in by Maciej Komosinski, 15 years ago

adding the only f8 converter parameter to the list of simulator parameters

File size: 8.0 KB
Line 
1/*
2 *  conv_f8tof1.h
3 *  L-systemToF1
4 *
5 *  Created by Maciej Wajcht on 08-03-21.
6 *  Copyright 2008 __MyCompanyName__. All rights reserved.
7 *
8 */
9
10#ifndef _CONV_F8_TO_F1_H
11#define _CONV_F8_TO_F1_H
12
13#include <map>
14#include <vector>
15#include <string>
16#include <list>
17#include <iostream>
18#include "genoconv.h"
19#include "model.h"
20
21using std::ostream;
22using std::vector;
23using std::list;
24using std::string;
25using std::map;
26
27enum RelationType {
28        r_greater,
29        r_greaterEqual,
30        r_less,
31        r_lessEqual,
32        r_equal,
33        r_different
34};
35
36class Condition {
37public:
38        RelationType relation;
39        SString parameter;
40        double value;
41       
42        friend ostream& operator<<(ostream& os, const Condition& c);
43};
44
45class ActionP; //only declaration
46
47/// superclass of all actions, e.g. Production, PrimitiveProduction etc.
48class Action {
49public:
50        /// action's name
51        SString name;
52        /// if true action should ignore params passed to it
53        bool ignoreParams;
54        /// gets string representaion of this action in f1 format
55        virtual const SString getF1Genotype(vector<double> params) = 0;
56        /// gets list of actions with double parameters to each of them
57        /// @param params parameters passed to this action
58        virtual const list<ActionP> getActionList(const vector<double> params) = 0;
59        /// gets string representaion of this action in f8 format
60        virtual const SString getF8Representation() = 0;
61        virtual ~Action() {}
62};
63
64/// this class consists of pointer to some action and a list of parameters to that action;
65/// parameters are kept as strings
66class ActionStrP {
67public:
68        Action *action;
69        vector<SString> params;
70};
71
72/// this class consists of pointer to some action and a list of parameters to that action;
73/// parameters are kept as doubles
74class ActionP {
75public:
76        Action *action;
77        vector<double> params;
78};
79
80/// part of production which is used in translation only if all the conditions are met
81class SubProduction {
82public:
83        /// list of conditions necessary to be met
84        vector<Condition> conditions;
85        /// actions with params (as strings)
86        vector<ActionStrP> actions;
87};
88
89/// primitive production; it's directly translated to its f1 equivalent
90/// e.g. X, r, R etc.
91class PrimitiveProduction : public Action {
92public:
93        PrimitiveProduction(const SString command);
94        const SString getF1Genotype(const vector<double> params);
95        const list<ActionP> getActionList(const vector<double> params);
96        const SString getF8Representation();
97protected:
98        SString f1command;
99        SString f8command;
100};
101
102/// param production; all param productions during translation are replaced with the current value of parameter
103/// pointed by this production
104class ParamProduction : public Action {
105public:
106        ParamProduction(const SString paramName);
107        const SString getF1Genotype(const vector<double> params);
108        const list<ActionP> getActionList(const vector<double> params);
109        const SString getF8Representation();
110protected:
111        SString paramName;
112};
113
114/// neuron production; it is directly translated to f1 without any change
115class NeuronProduction : public Action {
116public:
117        NeuronProduction(SString body);
118        const SString getF1Genotype(const vector<double> params);
119        const list<ActionP> getActionList(const vector<double> params);
120        const SString getF8Representation();
121protected:
122        SString body;
123};
124
125/// class which keeps all parameters of a production and enables to access them in convenient way
126/// IMPORTANT! All indices (positions) begins with 1 (not 0)!
127class ParameterCollection {
128public:
129        /// returns parameter's value
130        /// @param position parameter's position (first parameter has an index 1!)
131        const double getValue(int position);
132        /// returns parameter's value
133        /// @param name parameter's name
134        const double getValue(SString name);
135        /// returns parameter's name
136        /// @param position parameter's position (first parameter has an index 1!)
137        const SString getParameterName(int position);
138        /// returns parameter's position (first parameter has an index 1!)
139        /// @param name parameter's name
140        const int getParameterPosition(SString name);
141        /// sets parameter's value
142        /// @param position parameter's position
143        /// @param value parameter's new value
144        void setValue(int position, double value);
145        /// sets parameter's value
146        /// @param name parameter's name
147        /// @param value parameter's new value
148        void setValue(SString name, double value);
149        /// adds parameter
150        /// @param name parameter's name
151        /// @param position desired parameter's position; defualts to -1 which means it will have first available position
152        /// @param value parameter's value; defaults to 0.0
153        void addParameter(SString name, int position = -1, double value = 0.0);
154        /// returns the number of parameters kept in this class
155        const int size();
156        /// removes a parameter
157        /// @param position position of parameter to be deleted
158        void removeParameter(int position);
159        /// removes a parameter
160        /// @param name name of parameter to be deleted
161        void removeParameter(SString name);
162        /// returns true if parameter with given name exists
163        /// @param name parameter's name
164        bool paramExist(SString name);
165protected:
166        vector<string> parameters;
167        map<string, double> paramValues;
168};
169
170/// represents a general rule in L-systems
171/// only "calls" to Production in genotype are replaced in translation procedure
172class Production : public Action {
173public:
174        /// parameters of this production
175        ParameterCollection parameters;
176        /// list of subproductions
177        vector<SubProduction> subproductions;
178       
179        Production();
180        ~Production() {};
181        const SString getF1Genotype(const vector<double> params);
182        const list<ActionP> getActionList(const vector<double> params);
183        const SString getF8Representation();
184};
185
186/// Main class that represents a genotype in f8 format
187class Lsystem {
188public:
189        /// number of iterations in f8->f1 translation procedure
190        int iterations;
191        /// map of parameters of start production; key - parameter's name, value - parameter's value
192        map<string, double> startParams;
193        /// map of productions of L-system; key - productions's name, value - pointer to production
194        map<string, Production*> productions;
195        /// collection of neuron productions held in L-system
196        vector<NeuronProduction*> neuronProductions;
197        /// first production's name
198        string firstProductionName;
199       
200        Lsystem();
201        ~Lsystem();
202        /// returns a primitive production of a given name
203        /// @param name primitive production's name
204        PrimitiveProduction* getPrimitiveProduction(SString name);
205        /// returns a param production of a given name
206        /// @param name param production's name
207        ParamProduction* getParamProduction(SString name);
208        /// gets string representation of this L-system (f8 genotype)
209        SString toString();
210        /// returns all actions
211        /// @param normal if true all normal actions will be included
212        /// @param primitives if true all primitive actions will be included
213        /// @param params if true all param actions will be included
214        /// @param neurons if true all neuron actions will be included
215        vector<Action*> getAllActions(bool normal, bool primitives, bool params, bool neurons);
216protected:
217        map<string, PrimitiveProduction*> primitiveProductions;
218        map<string, ParamProduction*> paramProductions;
219
220        void removeEmptySubproductionsAndProductions();
221};
222
223
224
225
226
227/// Converter between f8 and f1 format
228class GenoConv_F8ToF1 : public GenoConverter {
229public:
230        Param par;
231        static Param staticpar; //needed to add 'par' to the list of simulator params (this field is initialized externally)
232 
233        GenoConv_F8ToF1();
234        ~GenoConv_F8ToF1() {}
235
236        SString convert(SString &in, MultiMap *map);
237
238        /// check syntax of given f8 genotype
239        /// @param geno f8 genotype to be checked
240        bool checkSyntax(const char *geno);
241
242        /// returns names of productions in a given genotype
243        /// @param in f8 genotype
244        vector<SString> readProductionNames(const SString &in);
245        //Lsystem* createLsystem(const SString &in);
246
247        /// creates Lsystem object based on input genotype
248        /// @param f8 genotype
249        Lsystem* createLsystem(SString in);
250
251        int maxF1Length;
252        static const char* simpleprods;
253
254protected:
255        bool parseInput(const char* src, Lsystem* lsys);
256};
257
258#endif
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