// Returns char identifying sign resulting from multiplication or division of two numbers
//
// Returns:
// char '+' or '-'
char Exponent::calcSign(tr1::shared_ptr<AbstractNumber> number){
if(sign == number->getSign()){
return '+';
}
else{
return '-';
}
}
// Adds number to this and returns the sum
//
// Parameters:
// shared_ptr<AbstractNumber> number number being added
//
// Returns:
// shared_ptr<AbstractNumber> resulting sum of addition
tr1::shared_ptr<AbstractNumber> Exponent::add(tr1::shared_ptr<AbstractNumber> number){
// Checks for cancellation
number = number->simplify();
if(abs(toDouble() - number->toDouble()) < 0.000001 &&
this->getSign() != number->getSign()){
tr1::shared_ptr<AbstractNumber> r(new SmartInteger(0));
return r;
}
// Checks for duplication/simplification
else if(abs(toDouble() - number->toDouble()) < 0.000001 &&
this->getSign() == number->getSign()){
vector< tr1::shared_ptr<AbstractNumber> > MultVector;
tr1::shared_ptr<AbstractNumber> i(new SmartInteger(2));
MultVector.push_back(i);
tr1::shared_ptr<AbstractNumber> me(new Exponent(base, power, sign));
MultVector.push_back(me);
tr1::shared_ptr<AbstractNumber> r(new MultExpression(MultVector, '+'));
return r;
}
//Can't tell if they add or not
else if(number->getName() == "SumExpression" ||
number->getName() == "MultExpression"){
return number->add(shared_from_this());
}
// Duplication necessary for simplification
// Assuming number is in simplest form
// No simplification possible
else{
vector< tr1::shared_ptr<AbstractNumber> > SumVector;
tr1::shared_ptr<AbstractNumber> me(new Exponent(base, power, sign));
SumVector.push_back(me);
SumVector.push_back(number);
tr1::shared_ptr<AbstractNumber> r(new SumExpression(SumVector));
return r;
}
}
tr1::shared_ptr<AbstractNumber> E::divide(tr1::shared_ptr<AbstractNumber>number){
char newSign = '-';
if (getSign() == number->getSign())
{
newSign = '+';
}
if (number -> getName() == "E")
{
if (newSign == '+')
{
tr1::shared_ptr<AbstractNumber> output(new SmartInteger(1));
return output;
}
else
{
tr1::shared_ptr<AbstractNumber> output(new SmartInteger(-1));
return output;
}
}
else if (number -> getName() == "Exponent")
{
tr1::shared_ptr<Exponent> numExp = tr1::static_pointer_cast<Exponent>(number);
if (numExp -> getValue("base") -> getName() == "E")
{
tr1::shared_ptr<AbstractNumber> num(new SmartInteger(1));
tr1::shared_ptr<AbstractNumber> exp = number->getValue("power");
tr1::shared_ptr<AbstractNumber> exp2(new SmartInteger(-1));
tr1::shared_ptr<AbstractNumber> me(new E());
tr1::shared_ptr<AbstractNumber> ans2(new Exponent(me, exp -> add(exp2), newSign));
tr1::shared_ptr<AbstractNumber> output2(new MultExpression(num, ans2, '+'));
return output2;
}
}
else if(number->getName() == "MultExpression")
{
tr1::shared_ptr<MultExpression> MultE = tr1::static_pointer_cast<MultExpression>(number);
vector<tr1::shared_ptr<AbstractNumber> > MultENum = MultE->getNumerator();
vector<tr1::shared_ptr<AbstractNumber> > MultEDem = MultE->getDenominator();
if (MultEDem.size() == 0)
{
tr1::shared_ptr<AbstractNumber> one(new SmartInteger(1));
MultEDem.push_back(one);
}
tr1::shared_ptr<AbstractNumber> reversedMultE(new MultExpression(MultEDem, MultENum, number->getSign()));
return reversedMultE->multiply(shared_from_this());
}
tr1::shared_ptr<AbstractNumber> output2(new MultExpression(shared_from_this(), number, newSign));
return output2;
}
tr1::shared_ptr<AbstractNumber> E::multiply(tr1::shared_ptr<AbstractNumber>number){
char newSign = '-';
if (getSign() == number->getSign())
{
newSign = '+';
}
if(number -> getName() == "E")
{
if (newSign == '+')
{
tr1::shared_ptr<AbstractNumber> exp(new SmartInteger(2));
tr1::shared_ptr<AbstractNumber> me(new E());
tr1::shared_ptr<AbstractNumber> ans(new Exponent(me, exp));
return ans;
}
else
{
tr1::shared_ptr<AbstractNumber> exp(new SmartInteger(-2));
tr1::shared_ptr<AbstractNumber> me(new E());
tr1::shared_ptr<AbstractNumber> ans(new Exponent(me, exp));
return ans;
}
}
else if (number -> getName() == "Exponent")
{
tr1::shared_ptr<Exponent> numExp = tr1::static_pointer_cast<Exponent>(number);
if (numExp -> getValue("base") -> getName() == "E")
{
tr1::shared_ptr<AbstractNumber> exp = numExp->getValue("power");
tr1::shared_ptr<AbstractNumber> exp2(new SmartInteger(1));
tr1::shared_ptr<AbstractNumber> me(new E());
tr1::shared_ptr<AbstractNumber> ans2(new Exponent(me, exp -> add(exp2), newSign));
return ans2;
}
}
else if (number->getName() == "Radical") {
if (abs(number->getValue("value")->toDouble() - toDouble()) < 0.000001 )
{
tr1::shared_ptr<AbstractNumber> one(new SmartInteger(1));
tr1::shared_ptr<AbstractNumber> invertedRoot(new MultExpression(one, number->getValue("root"), '+'));
tr1::shared_ptr<AbstractNumber> me(new E());
tr1::shared_ptr<AbstractNumber> output(new Exponent(me, invertedRoot->add(one), newSign));
return output;
}
else
{
vector<tr1::shared_ptr<AbstractNumber> > M;
M.push_back(number);
M.push_back(shared_from_this());
tr1::shared_ptr<AbstractNumber> ans3(new MultExpression(M, '+'));
return ans3;
}
}
else if(number->getName() == "MultExpression")
{
return number->multiply(shared_from_this());
}
vector<tr1::shared_ptr<AbstractNumber> > M;
M.push_back(number);
M.push_back(shared_from_this());
tr1::shared_ptr<AbstractNumber> ans3(new MultExpression(M, '+'));
return ans3;
}
