#include #include #include #include extern "C" { #include #include } #include #include namespace Poincare { Expression::Type NaperianLogarithm::type() const { return Type::NaperianLogarithm; } Expression * NaperianLogarithm::clone() const { NaperianLogarithm * a = new NaperianLogarithm(m_operands, true); return a; } Expression * NaperianLogarithm::shallowReduce(Context& context, AngleUnit angleUnit) { Expression * e = Expression::shallowReduce(context, angleUnit); if (e != this) { return e; } #if MATRIX_EXACT_REDUCING if (operand(0)->type() == Type::Matrix) { return SimplificationEngine::map(this, context, angleUnit); } #endif const Expression * logOperands[2] = {operand(0)->clone(), new Symbol(Ion::Charset::Exponential)}; Logarithm * l = new Logarithm(logOperands, 2, false); replaceWith(l, true); return l->shallowReduce(context, angleUnit); } template std::complex NaperianLogarithm::computeOnComplex(const std::complex c, AngleUnit angleUnit) { /* ln has a branch cut on ]-inf, 0]: it is then multivalued on this cut. We * followed the convention chosen by the lib c++ of llvm on ]-inf+0i, 0+0i] * (warning: ln takes the other side of the cut values on ]-inf-0i, 0-0i]). */ return std::log(c); } }