C++ generalizing exp using classes

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;
}
``````

``````#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>(); }

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;

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.

-
In your example above, it's difficult to tell if the static method exp is in the course namespace or not. –  FodderZone Jul 17 '14 at 14:11
@FodderZone it is not a static method, it is a static function. –  Slava Jul 17 '14 at 14:23
It is, somewhere in the '....etc' with the other classes and their functions –  ryan Jul 17 '14 at 14:24
@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 '14 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 '14 at 14:45