#include int main(int argc, char** argv){ //Code automatically generated with fuzzylite 6.0. using namespace fl; Engine* engine = new Engine; engine->setName("cubic_approximator"); engine->setDescription(""); InputVariable* X = new InputVariable; X->setName("X"); X->setDescription(""); X->setEnabled(true); X->setRange(-5.000, 5.000); X->setLockValueInRange(false); X->addTerm(new Triangle("AboutNegFive", -6.000, -5.000, -4.000)); X->addTerm(new Triangle("AboutNegFour", -5.000, -4.000, -3.000)); X->addTerm(new Triangle("AboutNegThree", -4.000, -3.000, -2.000)); X->addTerm(new Triangle("AboutNegTwo", -3.000, -2.000, -1.000)); X->addTerm(new Triangle("AboutNegOne", -2.000, -1.000, 0.000)); X->addTerm(new Triangle("AboutZero", -1.000, 0.000, 1.000)); X->addTerm(new Triangle("AboutOne", 0.000, 1.000, 2.000)); X->addTerm(new Triangle("AboutTwo", 1.000, 2.000, 3.000)); X->addTerm(new Triangle("AboutThree", 2.000, 3.000, 4.000)); X->addTerm(new Triangle("AboutFour", 3.000, 4.000, 5.000)); X->addTerm(new Triangle("AboutFive", 4.000, 5.000, 6.000)); engine->addInputVariable(X); OutputVariable* ApproxXCubed = new OutputVariable; ApproxXCubed->setName("ApproxXCubed"); ApproxXCubed->setDescription(""); ApproxXCubed->setEnabled(true); ApproxXCubed->setRange(-5.000, 5.000); ApproxXCubed->setLockValueInRange(false); ApproxXCubed->setAggregation(fl::null); ApproxXCubed->setDefuzzifier(new WeightedAverage("TakagiSugeno")); ApproxXCubed->setDefaultValue(fl::nan); ApproxXCubed->setLockPreviousValue(false); ApproxXCubed->addTerm(Linear::create("TangentatNegFive", engine, 75.000, 250.000)); ApproxXCubed->addTerm(Linear::create("TangentatNegFour", engine, 48.000, 128.000)); ApproxXCubed->addTerm(Linear::create("TangentatNegThree", engine, 27.000, 54.000)); ApproxXCubed->addTerm(Linear::create("TangentatNegTwo", engine, 12.000, 16.000)); ApproxXCubed->addTerm(Linear::create("TangentatNegOne", engine, 3.000, 2.000)); ApproxXCubed->addTerm(Linear::create("TangentatZero", engine, 0.000, 0.000)); ApproxXCubed->addTerm(Linear::create("TangentatOne", engine, 3.000, -2.000)); ApproxXCubed->addTerm(Linear::create("TangentatTwo", engine, 12.000, -16.000)); ApproxXCubed->addTerm(Linear::create("TangentatThree", engine, 27.000, -54.000)); ApproxXCubed->addTerm(Linear::create("TangentatFour", engine, 48.000, -128.000)); ApproxXCubed->addTerm(Linear::create("TangentatFive", engine, 75.000, -250.000)); engine->addOutputVariable(ApproxXCubed); RuleBlock* ruleBlock = new RuleBlock; ruleBlock->setName(""); ruleBlock->setDescription(""); ruleBlock->setEnabled(true); ruleBlock->setConjunction(fl::null); ruleBlock->setDisjunction(fl::null); ruleBlock->setImplication(fl::null); ruleBlock->setActivation(new General); ruleBlock->addRule(Rule::parse("if X is AboutNegFive then ApproxXCubed is TangentatNegFive", engine)); ruleBlock->addRule(Rule::parse("if X is AboutNegFour then ApproxXCubed is TangentatNegFour", engine)); ruleBlock->addRule(Rule::parse("if X is AboutNegThree then ApproxXCubed is TangentatNegThree", engine)); ruleBlock->addRule(Rule::parse("if X is AboutNegTwo then ApproxXCubed is TangentatNegTwo", engine)); ruleBlock->addRule(Rule::parse("if X is AboutNegOne then ApproxXCubed is TangentatNegOne", engine)); ruleBlock->addRule(Rule::parse("if X is AboutZero then ApproxXCubed is TangentatZero", engine)); ruleBlock->addRule(Rule::parse("if X is AboutOne then ApproxXCubed is TangentatOne", engine)); ruleBlock->addRule(Rule::parse("if X is AboutTwo then ApproxXCubed is TangentatTwo", engine)); ruleBlock->addRule(Rule::parse("if X is AboutThree then ApproxXCubed is TangentatThree", engine)); ruleBlock->addRule(Rule::parse("if X is AboutFour then ApproxXCubed is TangentatFour", engine)); ruleBlock->addRule(Rule::parse("if X is AboutFive then ApproxXCubed is TangentatFive", engine)); engine->addRuleBlock(ruleBlock); }