I'm trying to convert mathematical expressions to RPN and then perform symbolic differentiation on them however I'm stuck with some functions like sin() cos() tan()... ln() sqrt() etc. My expression parser only works for more simple cases, like one from the RPN wiki:
3+4*2/(1-5)^2^3
produces the following:
342*15-23^^/+
However when it comes to a more complex formula, like:
sin(2*x^2+6)-(cos(x)/(1-x))
I can't really create the RPN by hand either. My currently working minimalist solution is again implemented according ot the algorithm defined on the Wiki of Shunting-Yard algorithm.
std::string ParseExpression(const std::string &expr) {
std::string ops = "-+/*^";
std::stringstream output;
std::stack<int> stack;
typedef std::string::const_iterator StringIterator;
for (StringIterator TOKEN = expr.cbegin(), END = expr.cend(); TOKEN != END; ++TOKEN) {
const char c = *TOKEN;
size_t idx = ops.find(c);
if (idx != std::string::npos) {
if (stack.empty()) {
stack.push(idx);
}
else {
while (!stack.empty()) {
int prec2 = stack.top() / 2;
int prec1 = idx / 2;
if (prec2 > prec1 || (prec2 == prec1 && c != '^')) {
output << ops[stack.top()];
stack.pop();
}
else {
break;
}
}
stack.push(idx);
}
} else if (c == '(') {
stack.push(-2);
} else if (c == ')') {
while (stack.top() != -2) {
char op = stack.top();
stack.pop();
output << ops[op];
}
stack.pop();
} else {
output << c;
}
}
while (!stack.empty()) {
output << ops[stack.top()];
stack.pop();
}
return output.str();
}
How can I actually include trigonometric and other functions in the RPN formula and process them correctly?