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build6/epsilon-master/poincare/src/arc_tangent.cpp 1.51 KB
6663b6c9   adorian   projet complet av...
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  #include <poincare/arc_tangent.h>
  #include <poincare/trigonometry.h>
  #include <poincare/simplification_engine.h>
  extern "C" {
  #include <assert.h>
  }
  #include <cmath>
  
  namespace Poincare {
  
  Expression::Type ArcTangent::type() const {
    return Type::ArcTangent;
  }
  
  Expression * ArcTangent::clone() const {
    ArcTangent * a = new ArcTangent(m_operands, true);
    return a;
  }
  
  Expression * ArcTangent::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
    return Trigonometry::shallowReduceInverseFunction(this, context, angleUnit);
  }
  
  template<typename T>
  std::complex<T> ArcTangent::computeOnComplex(const std::complex<T> c, AngleUnit angleUnit) {
    std::complex<T> result = std::atan(c);
    /* atan has a branch cut on ]-inf*i, -i[U]i, +inf*i[: it is then multivalued
     * on this cut. We followed the convention chosen by the lib c++ of llvm on
     * ]-i+0, -i*inf+0[ (warning: atan takes the other side of the cut values on
     * ]-i+0, -i*inf+0[) and choose the values on ]-inf*i, -i[ to comply with
     * atan(-x) = -atan(x) and sin(arctan(x)) = x/sqrt(1+x^2). */
    if (c.real() == 0 && c.imag() < -1) {
      result.real(-result.real()); // other side of the cut
    }
    result = Trigonometry::RoundToMeaningfulDigits(result);
    return Trigonometry::ConvertRadianToAngleUnit(result, angleUnit);
  }
  
  }