#include "cubic_model.h" #include "../../shared/poincare_helpers.h" #include #include using namespace Poincare; using namespace Shared; namespace Regression { Layout CubicModel::layout() { if (m_layout.isUninitialized()) { const Layout layoutChildren[] = { CharLayout('a', KDText::FontSize::Small), CharLayout(Ion::Charset::MiddleDot, KDText::FontSize::Small), CharLayout('X', KDText::FontSize::Small), VerticalOffsetLayout( CharLayout('3', KDText::FontSize::Small), VerticalOffsetLayoutNode::Type::Superscript ), CharLayout('+', KDText::FontSize::Small), CharLayout('b', KDText::FontSize::Small), CharLayout(Ion::Charset::MiddleDot, KDText::FontSize::Small), CharLayout('X', KDText::FontSize::Small), VerticalOffsetLayout( CharLayout('2', KDText::FontSize::Small), VerticalOffsetLayoutNode::Type::Superscript ), CharLayout('+', KDText::FontSize::Small), CharLayout('c', KDText::FontSize::Small), CharLayout(Ion::Charset::MiddleDot, KDText::FontSize::Small), CharLayout('X', KDText::FontSize::Small), CharLayout('+', KDText::FontSize::Small), CharLayout('d', KDText::FontSize::Small), }; m_layout = HorizontalLayout(layoutChildren, 15); } return m_layout; } Expression CubicModel::simplifiedExpression(double * modelCoefficients, Poincare::Context * context) { double a = modelCoefficients[0]; double b = modelCoefficients[1]; double c = modelCoefficients[2]; double d = modelCoefficients[3]; Expression addChildren[] = { Multiplication( Number::DecimalNumber(a), Power( Symbol('x'), Decimal(3.0))), Multiplication( Number::DecimalNumber(b), Power( Symbol('x'), Decimal(2.0))), Multiplication( Number::DecimalNumber(c), Symbol('x')), Number::DecimalNumber(d) }; // a*x^3+b*x^2+c*x+d Expression result = Addition(addChildren, 4); PoincareHelpers::Simplify(&result, *context); return result; } double CubicModel::evaluate(double * modelCoefficients, double x) const { double a = modelCoefficients[0]; double b = modelCoefficients[1]; double c = modelCoefficients[2]; double d = modelCoefficients[3]; return a*x*x*x+b*x*x+c*x+d; } double CubicModel::partialDerivate(double * modelCoefficients, int derivateCoefficientIndex, double x) const { if (derivateCoefficientIndex == 0) { // Derivate: x^3 return x*x*x; } if (derivateCoefficientIndex == 1) { // Derivate: x^2 return x*x; } if (derivateCoefficientIndex == 2) { // Derivate: x return x; } if (derivateCoefficientIndex == 3) { // Derivate: 1 return 1; } assert(false); return 0.0; } }