source: cpp/frams/genetics/fn/fn_oper.cpp @ 1304

Last change on this file since 1304 was 1186, checked in by Maciej Komosinski, 2 years ago

For consistency with other numerical types, unlimited string length is now indicated by "-1" as the second value of the definition of the "s" property

File size: 5.6 KB
RevLine 
[747]1// This file is a part of Framsticks SDK.  http://www.framsticks.com/
[974]2// Copyright (C) 1999-2020  Maciej Komosinski and Szymon Ulatowski.
[747]3// See LICENSE.txt for details.
4
[779]5#include "fn_oper.h"
6#include "fn_conv.h"
[899]7#include <common/nonstd.h> //rndUint, rndDouble
[747]8
9
[762]10/**
11\class GenoOper_fn
12
13This genetic representation only stores a vector of real numbers. A fitness function must be provided
14for the gene pool, for example the "Booth function" would be:
15
16var X = String.deserialize(this.geno.rawgenotype); //a vector of real values
17var result = Math.pow(X[0]+2*X[1]-7,2) + Math.pow(2*X[0]+X[1]-5,2);
18return -result; //negation because Framsticks assumes maximization, and the original function needs to be minimized
19*/
20
21
22
[747]23#define FIELDSTRUCT GenoOper_fn
[974]24static ParamEntry genooper_fn_paramtab[] =
[747]25{
[808]26        { "Genetics: fn", 1, 6, },
27        { "fn_xover", 0, 0, "Fraction inherited in linear mix crossover", "f 0.5 1.0 0.9", FIELD(xover_proportion), "0.5 => children are averaged parents.\n0.8 => children are only 20% different from parents.\n1.0 => each child is identical to one parent (no crossover).", },
28        { "fn_xover_random", 0, 0, "Random fraction inherited in crossover", "d 0 1 1", FIELD(xover_proportion_random), "If active, the amount of linear mix is random in each crossover operation, so the \"Fraction inherited in linear mix crossover\" parameter is ignored.", },
[1186]29        { "fn_mut_bound_low", 1, 0, "Lower bounds for mutation", "s 0 -1 [-10.0, -10.0]", FIELD(mut_bound_low), "A vector of lower bounds (one real value for each variable)", },
30        { "fn_mut_bound_high", 1, 0, "Higher bounds for mutation", "s 0 -1 [10.0, 10.0]", FIELD(mut_bound_high), "A vector of higher bounds (one real value for each variable)", },
31        { "fn_mut_stddev", 1, 0, "Standard deviations for mutation", "s 0 -1 [0.1, 0.1]", FIELD(mut_stddev), "A vector of standard deviations (one real value for each variable)", },
[808]32        { "fn_mut_single_var", 0, 0, "Mutate only a single variable", "d 0 1 0", FIELD(mut_single_var), "If active, only a single randomly selected variable will be mutated in each mutation operation. Otherwise all variables will be mutated.", },
[747]33        { 0, },
34};
35#undef FIELDSTRUCT
36
37
38
39GenoOper_fn::GenoOper_fn()
40{
[974]41        par.setParamTab(genooper_fn_paramtab);
[747]42        par.select(this);
43        par.setDefault();
44        supported_format = 'n';
45}
46
47int GenoOper_fn::checkValidity(const char* gene, const char *genoname)
48{
49        vector<double> values = GenoConv_fn0::stringToVector(gene);
50        return values.size() > 0 ? GENOPER_OK : 1;
51}
52
53int GenoOper_fn::validate(char *&gene, const char *genoname)
54{
55        vector<double> values = GenoConv_fn0::stringToVector(gene);
56        if (values.size() == 0)
57                values.push_back(0.0);
58        string validated = GenoConv_fn0::vectorToString(values);
59        free(gene);
60        gene = strdup(validated.c_str()); //reallocate
61        return GENOPER_OK;
62}
63
[809]64//Creep-mutate variable(s)
[747]65int GenoOper_fn::mutate(char *&gene, float &chg, int &method)
66{
67        method = 0;
68        vector<double> values = GenoConv_fn0::stringToVector(gene);
69        if (values.size() == 0)
70                return GENOPER_OPFAIL;
[752]71        vector<double> bound_low = GenoConv_fn0::stringToVector(mut_bound_low.c_str());
72        vector<double> bound_high = GenoConv_fn0::stringToVector(mut_bound_high.c_str());
73        vector<double> stddev = GenoConv_fn0::stringToVector(mut_stddev.c_str());
74        if (bound_low.size() != bound_high.size() || bound_high.size() != stddev.size() || stddev.size() != values.size())
75        {
76                logPrintf("GenoOper_fn", "mutate", LOG_ERROR, "The solution vector, bound vectors, and standard deviation vectors must all have the same number of values");
77                return GENOPER_OPFAIL;
78        }
79
[808]80        if (mut_single_var) //mutate only one, randomly selected variable
81        {
[896]82                int which = rndUint(values.size());
[808]83                values[which] = GenoOperators::mutateCreep('f', values[which], bound_low[which], bound_high[which], stddev[which], false);
84                chg = 1.0f / values.size();
85        }
86        else //mutate all variables
87        {
[809]88                for (int which = 0; which < (int)values.size(); which++)
[808]89                        values[which] = GenoOperators::mutateCreep('f', values[which], bound_low[which], bound_high[which], stddev[which], false);
90                chg = 1.0f;
91        }
[747]92        string saved = GenoConv_fn0::vectorToString(values);
93        free(gene);
94        gene = strdup(saved.c_str()); //reallocate
95        return GENOPER_OK;
96}
97
[809]98//Averaging crossover
[747]99int GenoOper_fn::crossOver(char *&g1, char *&g2, float& chg1, float& chg2)
100{
101        //g1 = strdup("[1,0.5,0.5,0.5,0.5,1,1]"); //testing...
102        //g2 = strdup("[4,1,  1,  1,  1,  2,2]"); //testing...
103        //xover_proportion = 0.1; //testing...
104
[896]105        double proportion = xover_proportion_random ? 0.5 + rndDouble(0.5) : xover_proportion;
[762]106
[808]107        chg1 = proportion;
108        chg2 = 1 - proportion;
109
[747]110        vector<double> v1 = GenoConv_fn0::stringToVector(g1);
111        vector<double> v2 = GenoConv_fn0::stringToVector(g2);
112
[762]113        if (v1.size() != v2.size())
114        {
115                logPrintf("GenoOper_fn", "crossOver", LOG_ERROR, "Tried to cross over solutions with a differing number of variables (%d and %d)", v1.size(), v2.size());
116                return GENOPER_OPFAIL;
117        }
[747]118
[808]119        GenoOperators::linearMix(v1, v2, proportion);
[747]120
121        string saved = GenoConv_fn0::vectorToString(v1);
122        free(g1);
123        g1 = strdup(saved.c_str()); //reallocate
124        saved = GenoConv_fn0::vectorToString(v2);
125        free(g2);
126        g2 = strdup(saved.c_str()); //reallocate
127        return GENOPER_OK;
128}
129
[809]130//Applying some colors and font styles...
[747]131uint32_t GenoOper_fn::style(const char *g, int pos)
132{
133        char ch = g[pos];
134        uint32_t style = GENSTYLE_CS(0, GENSTYLE_INVALID); //default, should be changed below
135        if (strchr("-.e 0123456789", ch) != NULL)
136                style = GENSTYLE_CS(GENCOLOR_NUMBER, GENSTYLE_NONE);
137        else if (strchr("[,]", ch) != NULL)
138                style = GENSTYLE_RGBS(0, 0, 0, GENSTYLE_BOLD);
139        return style;
140}
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