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Giac_maj/epsilon-giac/poincare/src/logarithm.cpp 2.6 KB
6663b6c9   adorian   projet complet av...
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  #include <poincare/logarithm.h>
  #include <poincare/fraction.h>
  #include <cmath>
  extern "C" {
  #include <assert.h>
  #include <stdlib.h>
  }
  #include "layout/baseline_relative_layout.h"
  #include "layout/horizontal_layout.h"
  #include "layout/parenthesis_layout.h"
  #include "layout/string_layout.h"
  
  namespace Poincare {
  
  Logarithm::Logarithm() :
    Function("log", 2)
  {
  }
  
  bool Logarithm::hasValidNumberOfArguments() const {
    if (m_numberOfArguments != 1 && m_numberOfArguments != 2) {
      return false;
    }
    for (int i = 0; i < m_numberOfArguments; i++) {
      if (!m_args[i]->hasValidNumberOfArguments()) {
        return false;
      }
    }
    return true;
  }
  
  Expression::Type Logarithm::type() const {
    return Type::Logarithm;
  }
  
  Expression * Logarithm::cloneWithDifferentOperands(Expression** newOperands,
          int numberOfOperands, bool cloneOperands) const {
    assert(newOperands != nullptr);
    Logarithm * l = new Logarithm();
    l->setArgument(newOperands, numberOfOperands, cloneOperands);
    return l;
  }
  
  template<typename T>
  Complex<T> Logarithm::templatedComputeComplex(const Complex<T> c) const {
    if (c.b() != 0) {
      return Complex<T>::Float(NAN);
    }
    return Complex<T>::Float(std::log10(c.a()));
  }
  
  template<typename T>
  Evaluation<T> * Logarithm::templatedEvaluate(Context& context, AngleUnit angleUnit) const {
    if (m_numberOfArguments == 1) {
      return Function::templatedEvaluate<T>(context, angleUnit);
    }
    Evaluation<T> * x = m_args[0]->evaluate<T>(context, angleUnit);
    Evaluation<T> * n = m_args[1]->evaluate<T>(context, angleUnit);
    if (x->numberOfRows() != 1 || x->numberOfColumns() != 1 || n->numberOfRows() != 1 || n->numberOfColumns() != 1) {
      return new Complex<T>(Complex<T>::Float(NAN));
    }
    Complex<T> result = Fraction::compute<T>(templatedComputeComplex(*(n->complexOperand(0))), templatedComputeComplex(*(x->complexOperand(0))));
    delete x;
    delete n;
    return new Complex<T>(result);
  }
  
  ExpressionLayout * Logarithm::privateCreateLayout(FloatDisplayMode floatDisplayMode, ComplexFormat complexFormat) const {
    assert(floatDisplayMode != FloatDisplayMode::Default);
    assert(complexFormat != ComplexFormat::Default);
    if (m_numberOfArguments == 1) {
      return Function::privateCreateLayout(floatDisplayMode, complexFormat);
    }
    ExpressionLayout * childrenLayouts[2];
    childrenLayouts[0] = new BaselineRelativeLayout(new StringLayout(m_name, strlen(m_name)), m_args[0]->createLayout(floatDisplayMode, complexFormat), BaselineRelativeLayout::Type::Subscript);
    childrenLayouts[1] = new ParenthesisLayout(m_args[1]->createLayout(floatDisplayMode, complexFormat));
    return new HorizontalLayout(childrenLayouts, 2);
  }
  
  }