double CurveQuadratic_Impl::evaluate(const std::vector<double>& x) const {
OS_ASSERT(x.size() == 1u);
double result = coefficient1Constant();
result += coefficient2x() * x[0];
result += coefficient3xPOW2() * pow(x[0],2);
return result;
}
double CurveQuartic_Impl::evaluate(const std::vector<double>& x) const {
BOOST_ASSERT(x.size() == 1u);
double result = coefficient1Constant();
result += coefficient2x() * x[0];
result += coefficient3xPOW2() * pow(x[0],2);
result += coefficient4xPOW3() * pow(x[0],3);
result += coefficient5xPOW4() * pow(x[0],4);
return result;
}
double CurveQuadraticLinear_Impl::evaluate(const std::vector<double>& x) const {
OS_ASSERT(x.size() == 2u);
double x2 = pow(x[0],2);
double result = coefficient1Constant();
result += coefficient2x() * x[0];
result += coefficient3xPOW2() * x2;
double temp = coefficient4y();
temp += coefficient5xTIMESY() * x[0];
temp += coefficient6xPOW2TIMESY() * x2;
result += temp * x[1];
return result;
}
double CurveBicubic_Impl::evaluate(const std::vector<double>& x) const {
OS_ASSERT(x.size() == 2u);
double result = coefficient1Constant();
double x2 = pow(x[0],2);
double y2 = pow(x[1],2);
result += coefficient2x() * x[0];
result += coefficient3xPOW2() * x2;
result += coefficient4y() * x[1];
result += coefficient5yPOW2() * y2;
result += coefficient6xTIMESY() * x[0] * x[1];
result += coefficient7xPOW3() * pow(x[0],3);
result += coefficient8yPOW3() * pow(x[1],3);
result += coefficient9xPOW2TIMESY() * x2 * x[1];
result += coefficient10xTIMESYPOW2() * x[0] * y2;
return result;
}
