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I'm making a class system for dealing with mathematical expressions, that will take the expression and evaluate it or differentiate it (this is probably a basic exercise most people do when learning c++).

So there is a main class expression, and sub classes addition, multiplication, constant, variable and power. Each has 2 functions evaluate() and differentiate(), which deal with the flow of variables/pointers.

#include <memory>
#include <iostream>
#include <algorithm>
#include <cmath>
#include <sstream>

namespace course {

class expression;
typedef shared_ptr<expression> exptr;
using std::pow;
static exptr pow(exptr b, double e);

class power: public expression {
public:
    power(exptr b, double e): m_b(b), m_e(e) {}
    double evaluate(double x) const final {
        return pow(m_b->evaluate(x), m_e);
    }
    exptr derivative() const final {
        return pow(m_b, m_e - 1) * m_b->derivative() * con(m_e);
    }
private:
    exptr m_b;
    double m_e;
};

static exptr pow(exptr b, double e) {
    auto c = dynamic_pointer_cast<constant>(b);
    if(c) return con(pow(c->value(), e));
    if(e == 0) return con(1);
    if(e == 1) return b;
    return make_shared<power>(b, e); }

.... etc
}

Now this works fine (along with all the other classes) but I want to introduce an exponential class and and the corresponding functions, which seems like a simple generalization of power:

using std::exp;
static exptr exp(exptr e);

class epower: public expression {
public:
    epower(exptr e): m_e(e) {}
    double evaluate(double x) const final {
        return exp(m_e->evaluate(x));
    }
    exptr derivative() const final {
        return exp(m_e) * m_e->derivative();
    }
private:
    exptr m_e;
};

static exptr exp(exptr e) {
    auto c = dynamic_pointer_cast<constant>(e);
    if(c) return con(exp(c->value()));
    if(c->value() == 0) return con(1);
    return make_shared<epower>(e); 
}

So these classes and functions are inside namespace course. However, the compiler will complain that exptr exp(exptr) does not exist in the namespace, but exptr pow(exptr,double) does. Is there some basic difference between the functions pow() and exp() I am missing here, or have I messed up the namespace? The relevant code in main looks like:

int main() {

    using namespace std;
    using namespace course;

    exptr e1 = pow(con(3.0),2.0); //This is fine
    exptr e2 = exp(con(3.0)); //This is not fine

    return 0;
}

Any help welcome!

EDIT: So it seems you guys would like some code to compile for yourselves.

#include "DFT.h"
int main() {
using namespace std;
using namespace course;

exptr e, de;
int nvf = 1;
double yy =2.0*M_PI/3.0;
double fv = pow(1.5,3);

if (nvf==1) {
e = con(1.0);
de = e->derivative();
};
if (nvf==2) {
e = con(1.0) + var() * con(-fv);
de = e->derivative();
};
if (nvf==3) {
e = pow(con(1.0) + var() * con(-fv), yy );
de = e->derivative();
};
if (nvf==4) {
//Here is the offending function
//            e = exp(con(3.0));
    de = e->derivative();
};
double x = 1.0;
cout << e->evaluate(x) << endl;
cout << de->evaluate(x) << endl;
return 0;
}

Header file:

#include <iostream>
#include <fstream>
#include <vector>
#include <string>
#include <memory>
#include <cmath>
#include <stdlib.h>

namespace course
{
using std::pow;
using std::shared_ptr;
using std::make_shared;
using std::dynamic_pointer_cast;
using std::exp;

class expression;
typedef shared_ptr<expression> exptr;
static exptr operator+(exptr e1, exptr e2);
static exptr operator*(exptr e1, exptr e2);
static exptr pow(exptr b,double e);
static exptr exp(exptr e);

class expression {
public:
virtual ~expression() {};
virtual double evaluate(double x) const = 0;
virtual exptr derivative() const = 0;
};

class constant: public expression {
public:
constant (double c) : m_con(c) {}
double evaluate(double x) const final {return m_con;}
exptr derivative() const final {return make_shared<constant>(0);}  
double value() const { return m_con; }
private:
double m_con;
};

static inline exptr con(double c) {
return make_shared<constant>(c); }

class variable: public expression {
public:
double evaluate(double x) const final {return x;}
exptr derivative() const final {return con(1);}  
};

static inline exptr var() {
return make_shared<variable>(); }

class addition: public expression {
public:
addition(exptr e1,exptr e2) :m_e1(e1), m_e2(e2) {}
double evaluate(double x) const final {
return m_e1->evaluate(x)+m_e2->evaluate(x);}
exptr derivative() const final {
return m_e1->derivative() + m_e2->derivative();}
private:
exptr m_e1, m_e2;
};

static exptr operator+(exptr e1, exptr e2) {
auto c1 = dynamic_pointer_cast<constant>(e1);
auto c2 = dynamic_pointer_cast<constant>(e2);
if(c1) {
    if(c2) return con(c1->value() + c2->value());
    if(!c1->value()) return e2; }
if(c2 && !c2->value()) return e1;
return make_shared<addition>(e1, e2); }

class multiplication: public expression {
public:
multiplication(exptr e1,exptr e2) :m_e1(e1), m_e2(e2) {}
double evaluate(double x) const final {
return m_e1->evaluate(x)*m_e2->evaluate(x);}
exptr derivative() const final {
return m_e1->derivative()*m_e2 + m_e1*m_e2->derivative();}
private:
exptr m_e1, m_e2;
};   

static exptr operator*(exptr e1, exptr e2) {
auto c1 = dynamic_pointer_cast<constant>(e1);
auto c2 = dynamic_pointer_cast<constant>(e2);
if(c1) {
    if(c2) return con(c1->value() * c2->value());
    if(c1->value() == 0) return e1;
    if(c1->value() == 1) return e2; }
if(c2) {
    if(c2->value() == 0) return e2;
    if(c2->value() == 1) return e1; }
if(e1 == e2) return pow(e1, 2);
return make_shared<multiplication>(e1, e2); }

class power: public expression {
public:
    power(exptr b, double e): m_b(b), m_e(e) {}
double evaluate(double x) const final {
    return pow(m_b->evaluate(x), m_e);}
exptr derivative() const final {
    return pow(m_b, m_e - 1) * m_b->derivative() * con(m_e);}
private:
exptr m_b;
double m_e;
};

static exptr pow(exptr b, double e) {
auto c = dynamic_pointer_cast<constant>(b);
if(c) return con(pow(c->value(), e));
if(e == 0) return con(1);
if(e == 1) return b;
return make_shared<power>(b, e); }

class epower: public expression {
public:
    epower(exptr e): m_e(e) {}
double evaluate(double x) const final {
  return exp(m_e->evaluate(x));}
exptr derivative() const final {
    return exp(m_e) * m_e->derivative();}
private:
exptr m_e;
};

static exptr exp(exptr e) {
auto c = dynamic_pointer_cast<constant>(e);
if(c) return con(exp(c->value()));
if(c->value() == 0) return con(1);
return make_shared<epower>(e); }

}

So if you compile and run this, you will see it works fine. When you take away the comment from main it will start complaining about the exp function.

share|improve this question
    
In your example above, it's difficult to tell if the static method exp is in the course namespace or not. –  FodderZone Jul 17 at 14:11
    
@FodderZone it is not a static method, it is a static function. –  Slava Jul 17 at 14:23
    
It is, somewhere in the '....etc' with the other classes and their functions –  ryan Jul 17 at 14:24
2  
@ryan your code is a mess. Why do you make pow and exp static? Is pow() defined inside namespace course and exp() not? You should make minimum compilable sample that show our problem. –  Slava Jul 17 at 14:39
    
@ryan Yes it is extremely difficult to help you out if we cannot reproduce what you are seeing. Please put code that we can compile ourselves in your question. –  Austin Moore Jul 17 at 14:45

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