From 6ce553563bc795f389f639a3a8cdfe356de71441 Mon Sep 17 00:00:00 2001 From: Johannes 'josch' Schauer Date: Sun, 27 Jan 2019 13:56:24 +0100 Subject: new upstream version 6.0 --- examples/mamdani/SimpleDimmerInverse.cpp | 105 +++++++++++++++++-------------- 1 file changed, 57 insertions(+), 48 deletions(-) (limited to 'examples/mamdani/SimpleDimmerInverse.cpp') diff --git a/examples/mamdani/SimpleDimmerInverse.cpp b/examples/mamdani/SimpleDimmerInverse.cpp index cad1100..1c22275 100644 --- a/examples/mamdani/SimpleDimmerInverse.cpp +++ b/examples/mamdani/SimpleDimmerInverse.cpp @@ -1,60 +1,69 @@ #include int main(int argc, char** argv){ +//Code automatically generated with fuzzylite 6.0. + using namespace fl; Engine* engine = new Engine; -engine->setName("simple-dimmer"); - -InputVariable* inputVariable = new InputVariable; -inputVariable->setEnabled(true); -inputVariable->setName("Ambient"); -inputVariable->setRange(0.000, 1.000); -inputVariable->addTerm(new Triangle("DARK", 0.000, 0.250, 0.500)); -inputVariable->addTerm(new Triangle("MEDIUM", 0.250, 0.500, 0.750)); -inputVariable->addTerm(new Triangle("BRIGHT", 0.500, 0.750, 1.000)); -engine->addInputVariable(inputVariable); - -OutputVariable* outputVariable1 = new OutputVariable; -outputVariable1->setEnabled(true); -outputVariable1->setName("Power"); -outputVariable1->setRange(0.000, 1.000); -outputVariable1->fuzzyOutput()->setAccumulation(new Maximum); -outputVariable1->setDefuzzifier(new Centroid(200)); -outputVariable1->setDefaultValue(fl::nan); -outputVariable1->setLockPreviousOutputValue(false); -outputVariable1->setLockOutputValueInRange(false); -outputVariable1->addTerm(new Triangle("LOW", 0.000, 0.250, 0.500)); -outputVariable1->addTerm(new Triangle("MEDIUM", 0.250, 0.500, 0.750)); -outputVariable1->addTerm(new Triangle("HIGH", 0.500, 0.750, 1.000)); -engine->addOutputVariable(outputVariable1); - -OutputVariable* outputVariable2 = new OutputVariable; -outputVariable2->setEnabled(true); -outputVariable2->setName("InversePower"); -outputVariable2->setRange(0.000, 1.000); -outputVariable2->fuzzyOutput()->setAccumulation(new Maximum); -outputVariable2->setDefuzzifier(new Centroid(500)); -outputVariable2->setDefaultValue(fl::nan); -outputVariable2->setLockPreviousOutputValue(false); -outputVariable2->setLockOutputValueInRange(false); -outputVariable2->addTerm(new Cosine("LOW", 0.200, 0.500)); -outputVariable2->addTerm(new Cosine("MEDIUM", 0.500, 0.500)); -outputVariable2->addTerm(new Cosine("HIGH", 0.800, 0.500)); -engine->addOutputVariable(outputVariable2); +engine->setName("SimpleDimmerInverse"); +engine->setDescription(""); + +InputVariable* Ambient = new InputVariable; +Ambient->setName("Ambient"); +Ambient->setDescription(""); +Ambient->setEnabled(true); +Ambient->setRange(0.000, 1.000); +Ambient->setLockValueInRange(false); +Ambient->addTerm(new Triangle("DARK", 0.000, 0.250, 0.500)); +Ambient->addTerm(new Triangle("MEDIUM", 0.250, 0.500, 0.750)); +Ambient->addTerm(new Triangle("BRIGHT", 0.500, 0.750, 1.000)); +engine->addInputVariable(Ambient); + +OutputVariable* Power = new OutputVariable; +Power->setName("Power"); +Power->setDescription(""); +Power->setEnabled(true); +Power->setRange(0.000, 1.000); +Power->setLockValueInRange(false); +Power->setAggregation(new Maximum); +Power->setDefuzzifier(new Centroid(200)); +Power->setDefaultValue(fl::nan); +Power->setLockPreviousValue(false); +Power->addTerm(new Triangle("LOW", 0.000, 0.250, 0.500)); +Power->addTerm(new Triangle("MEDIUM", 0.250, 0.500, 0.750)); +Power->addTerm(new Triangle("HIGH", 0.500, 0.750, 1.000)); +engine->addOutputVariable(Power); + +OutputVariable* InversePower = new OutputVariable; +InversePower->setName("InversePower"); +InversePower->setDescription(""); +InversePower->setEnabled(true); +InversePower->setRange(0.000, 1.000); +InversePower->setLockValueInRange(false); +InversePower->setAggregation(new Maximum); +InversePower->setDefuzzifier(new Centroid(500)); +InversePower->setDefaultValue(fl::nan); +InversePower->setLockPreviousValue(false); +InversePower->addTerm(new Cosine("LOW", 0.200, 0.500)); +InversePower->addTerm(new Cosine("MEDIUM", 0.500, 0.500)); +InversePower->addTerm(new Cosine("HIGH", 0.800, 0.500)); +engine->addOutputVariable(InversePower); RuleBlock* ruleBlock = new RuleBlock; -ruleBlock->setEnabled(true); ruleBlock->setName(""); -ruleBlock->setConjunction(NULL); -ruleBlock->setDisjunction(NULL); -ruleBlock->setActivation(new Minimum); -ruleBlock->addRule(fl::Rule::parse("if Ambient is DARK then Power is HIGH", engine)); -ruleBlock->addRule(fl::Rule::parse("if Ambient is MEDIUM then Power is MEDIUM", engine)); -ruleBlock->addRule(fl::Rule::parse("if Ambient is BRIGHT then Power is LOW", engine)); -ruleBlock->addRule(fl::Rule::parse("if Power is LOW then InversePower is HIGH", engine)); -ruleBlock->addRule(fl::Rule::parse("if Power is MEDIUM then InversePower is MEDIUM", engine)); -ruleBlock->addRule(fl::Rule::parse("if Power is HIGH then InversePower is LOW", engine)); +ruleBlock->setDescription(""); +ruleBlock->setEnabled(true); +ruleBlock->setConjunction(fl::null); +ruleBlock->setDisjunction(fl::null); +ruleBlock->setImplication(new Minimum); +ruleBlock->setActivation(new General); +ruleBlock->addRule(Rule::parse("if Ambient is DARK then Power is HIGH", engine)); +ruleBlock->addRule(Rule::parse("if Ambient is MEDIUM then Power is MEDIUM", engine)); +ruleBlock->addRule(Rule::parse("if Ambient is BRIGHT then Power is LOW", engine)); +ruleBlock->addRule(Rule::parse("if Power is LOW then InversePower is HIGH", engine)); +ruleBlock->addRule(Rule::parse("if Power is MEDIUM then InversePower is MEDIUM", engine)); +ruleBlock->addRule(Rule::parse("if Power is HIGH then InversePower is LOW", engine)); engine->addRuleBlock(ruleBlock); -- cgit v1.2.3