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#ifndef OPERATOR_HPP
#define OPERATOR_HPP
#include <cassert>
#include <vector>
template<typename Domain>
struct Operator {
virtual ~Operator() { }
virtual Domain eval(const std::vector<Domain>&) const = 0;
virtual void print(std::ostream&) const = 0;
};
template<typename Domain>
struct Maximum : public Operator<Domain> {
virtual Domain eval(const std::vector<Domain>& arguments) const {
Domain result = -infinity<Domain>();
for (typename std::vector<Domain>::const_iterator it = arguments.begin();
it != arguments.end();
++it) {
result = (result < *it ? *it : result);
}
return result;
}
void print(std::ostream& cout) const {
cout << "max";
}
};
template<typename Domain>
struct Minimum : public Operator<Domain> {
virtual Domain eval(const std::vector<Domain>& arguments) const {
Domain result = infinity<Domain>();
for (typename std::vector<Domain>::const_iterator it = arguments.begin();
it != arguments.end();
++it) {
result = (*it < result ? *it : result);
}
return result;
}
void print(std::ostream& cout) const {
cout << "min";
}
};
template<typename Domain>
struct Negation : public Operator<Domain> {
virtual Domain eval(const std::vector<Domain>& arguments) const {
assert(arguments.size() == 1);
return -arguments[0];
}
void print(std::ostream& cout) const {
cout << "-";
}
};
template<typename Domain>
struct Addition : public Operator<Domain> {
virtual Domain eval(const std::vector<Domain>& arguments) const {
Domain result = 0;
for (typename std::vector<Domain>::const_iterator it = arguments.begin();
it != arguments.end();
++it) {
result += *it;
}
return result;
}
void print(std::ostream& cout) const {
cout << "add";
}
};
template<typename Domain>
struct Subtraction : public Operator<Domain> {
virtual Domain eval(const std::vector<Domain>& arguments) const {
Domain result = 0;
for (typename std::vector<Domain>::const_iterator it = arguments.begin();
it != arguments.end();
++it) {
if (it == arguments.begin())
result = *it;
else
result -= *it;
}
return result;
}
void print(std::ostream& cout) const {
cout << "sub";
}
};
template<typename Domain>
struct Multiplication : public Operator<Domain> {
virtual Domain eval(const std::vector<Domain>& arguments) const {
Domain result = 1;
for (typename std::vector<Domain>::const_iterator it = arguments.begin(),
end = arguments.end();
it != end;
++it) {
result *= *it;
}
return result;
}
void print(std::ostream& cout) const {
cout << "mult";
}
};
template<typename Domain>
struct Comma : public Operator<Domain> {
virtual Domain eval(const std::vector<Domain>& arguments) const {
if (arguments[0] == -infinity<Domain>()) {
return -infinity<Domain>();
}
return arguments[1];
}
void print(std::ostream& cout) const {
cout << "comma";
}
};
template<typename Domain>
struct Guard : public Operator<Domain> {
virtual Domain eval(const std::vector<Domain>& arguments) const {
Domain result = arguments[2];
if (arguments[0] < arguments[1]) {
result = -infinity<Domain>();
}
return result;
}
void print(std::ostream& cout) const {
cout << "guard";
}
};
/*#include "TemplateConstraintMatrix.hpp"
template<typename Domain>
struct MinimumCostFlow : public Operator<Domain> {
MinimumCostFlow() {
}
Domain solve(const Domain& d) const {
}
virtual Domain eval(const std::vector<Domain>& arguments) const {
if (arguments.size() != 1)
throw "Incorrect number of arguments.";
return solve(arguments[0]);
}
void print(std::ostream& cout) const {
cout << "minCostFlow";
}
private:
TemplateConstraintMatrix& constraint; // T
std::vector<Domain> guard; // c
std::vector<std::vector<Domain>> multiplication; //A
unsigned int row;
};*/
template<typename T>
std::ostream& operator<<(std::ostream& cout, const Operator<T>& op) {
op.print(cout);
return cout;
}
#endif
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