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finalCalc.cpp
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//
// main.cpp
// Radians To Degrees
//
// Created by Kyra Thompson on 8/12/18.
// Copyright © 2018 Kyra Thompson. All rights reserved.
//
#include <iostream>
#include "std_lib_facilities.h"
#include "tokens.h"
#include "vars.h"
#include "function.h"
const string prompt = "> ";
const string result = "= ";
const double pi = 3.14;
const int degInRad = 180;
//Token_stream ts;
double expression(Token_stream& ts);
double term(Token_stream& ts);
double primary(Token_stream& ts);
double exponent(Token_stream& ts);
double statement(Token_stream& ts);
double degToRad(double num);
double radToDeg(double num);
double expression(Token_stream& ts) {
double left = term(ts);
Token t =ts.get();
while(true) {
switch(t.kind){
case '+':
left += term(ts);
t = ts.get();
break;
case '-':
left -= term(ts);
t = ts.get();
break;
default:
ts.putback(t);
return left;
}
}
}
double term(Token_stream& ts) {
double left = exponent(ts);
Token t =ts.get();
while(true) {
switch(t.kind){
case '*':{
left *= exponent(ts);
t = ts.get();
break;
}
case '/':{
double div = exponent(ts);
if (div == 0) {
error("can't divide by 0");
}
left /= div;
t = ts.get();
break;
}
case '%':{
double d = exponent(ts);
if(d == 0) error(" divide by zero ");
left = fmod(left,d);
t = ts.get();
break;
}
default:
ts.putback(t);
return left;
}
}
}
double primary(Token_stream& ts) {
Token t = ts.get();
switch(t.kind){
case '-':
return -primary(ts);
case '(':{
double d = expression(ts);
t = ts.get();
return d;
}
case number:
return t.value;
case '+':
return primary(ts);
case name:
{
Token next_t = ts.get();
if(next_t.kind =='('){
double d = expression(ts);
next_t = ts.get();
if(next_t.kind != ')') error(" ')' expected");
d = call_func(t.name, d);
return d;
}
else{
ts.putback(next_t);
return get_value(t.name);
}
}
case degree:{
Token next_t = ts.get();
if(next_t.kind =='('){
double d = expression(ts);
next_t = ts.get();
if(next_t.kind != ')') error(" ')' expected");
d = radToDeg(d);
return d;
}
}
case radian:{
Token next_t = ts.get();
if(next_t.kind =='('){
double d = expression(ts);
next_t = ts.get();
if(next_t.kind != ')') error(" ')' expected");
d = degToRad(d);
return d;
}
}
default:
error("Error: primary expected");
}
return t.value;
}
double statement(Token_stream& ts){
Token t = ts.get();
if (t.kind == name){
Token var = t;
t = ts.get();
if(t.kind == '=' ){
double d = expression(ts);
set_value(var.name,d);
return d;
}
else if(t.kind == print){
ts.putback(t);
return get_value(var.name);
}
ts.putback(t);
ts.putback(var);
return expression(ts);
}
ts.putback(t);
return expression(ts);
}
double exponent(Token_stream& ts){
double left = primary(ts);
Token t = ts.get();
if(t.kind == power){
double d = primary(ts);
return pow(left,d);
}
else {
ts.putback(t);
return left;
}
}
double degToRad(double num){
return ((pi/degInRad)*num);
};
double radToDeg(double num){
return ((degInRad/pi)*num);
};
vector<Token> tokens;
void print_token(Token t){
cout << "Got token of kind " << t.kind << " with value of " << t.value << endl;
}
void clean_up_mess(Token_stream& ts){
ts.ignore(print);
}
void calculate(Token_stream& ts){
while (cin){
try{
cout << prompt;
Token t = ts.get();
while(t.kind == print ) t = ts.get();
if(t.kind == quit) return;
ts.putback(t);
cout << result << setprecision(8) << statement(ts) << '\n';
}
catch(exception& e ){
cerr<< e.what()<< endl;
clean_up_mess(ts);
}
}
}
int main() {
Token_stream ts;
try{
calculate(ts);
return 0;
} catch(...){
cerr << "Unknown exception \n";
return 2;
}
}