calculator 1.3 [adding curly brakets]

Bjarne Stroustrup “Programming Principles and Practice Using C++”
Chapter 6 Exercise 2
Using std_lib_facilities.h by Bjarne Stroustrup.

//	Philipp Siedler
//	Bjarne Stroustrup's PP
//	Chapter 6 Exercise 2

//input: {4 + 3} / 3;

#include "std_lib_facilities.h" //ERROR: "#include "../std_lib_facilities.h", instead #include "std_lib_facilities.h"

//------------------------------------------------------------------------------

class Token { //ERROR 1/5: "lass Token{", missing c for class
public:
	char kind;        // what kind of token
	double value;     // for numbers: a value 
	Token(char ch)    // make a Token from a char
		:kind(ch), value(0) { }
	Token(char ch, double val)     // make a Token from a char and a double
		:kind(ch), value(val) { }
};

//------------------------------------------------------------------------------

class Token_stream {
public:
	Token_stream();   // make a Token_stream that reads from cin
	Token get();      // get a Token (get() is defined elsewhere)
	void putback(Token t);    // put a Token back
private:
	bool full;        // is there a Token in the buffer?
	Token buffer;     // here is where we keep a Token put back using putback()
};

//------------------------------------------------------------------------------

// The constructor just sets full to indicate that the buffer is empty:
Token_stream::Token_stream()
	:full(false), buffer(0)    // no Token in buffer
{
}

//------------------------------------------------------------------------------

// The putback() member function puts its argument back into the Token_stream's buffer:
void Token_stream::putback(Token t)
{
	if (full) error("putback() into a full buffer");
	buffer = t;       // copy t to buffer
	full = true;      // buffer is now full
}

//------------------------------------------------------------------------------

Token Token_stream::get() //ERROR 2/5: "Token get()", instead Token Token_stream::get()
{
	if (full) {       // do we already have a Token ready?
					  // remove token from buffer
		full = false;
		return buffer;
	}

	char ch;
	cin >> ch;    // note that >> skips whitespace (space, newline, tab, etc.)

	switch (ch) {
	case '=':    // for "print"
	case 'x':    // for "quit"
	case '(': case ')': case '{': case '}': case '+': case '-': case '*': case '/':
		return Token(ch);        // let each character represent itself
	case '.':
	case '0': case '1': case '2': case '3': case '4':
	case '5': case '6': case '7': case '8': case '9': //ERROR 1/3: "case'8':", missing
	{
		cin.putback(ch);         // put digit back into the input stream
		double val;
		cin >> val;              // read a floating-point number
		return Token('8', val);   // let '8' represent "a number"
	}
	default:
		error("Bad token");
	}
}

//------------------------------------------------------------------------------

Token_stream ts;        // provides get() and putback() 

						//------------------------------------------------------------------------------

double expression();    // declaration so that primary() can call expression()

						//------------------------------------------------------------------------------

						// deal with numbers and parentheses
double primary()
{
	Token t = ts.get();
	switch (t.kind) {

	case '(':     // handle '(' expression ')'
	{
		double d = expression();
		t = ts.get();
		if (t.kind != ')') error("')' expected)"); //ERROR 3/5: "if (t.kind != ')') error("')' expected)", missing );
		return d;
	}

	case '{':     // handle '(' expression ')'
	{
		double d = expression();
		t = ts.get();
		if (t.kind != '}') error("'}' expected)"); //ERROR 3/5: "if (t.kind != ')') error("')' expected)", missing );
		return d;
	}

	case '8':            // we use '8' to represent a number
		return t.value;  // return the number's value

	default:
		error("primary expected");
	}
}

//------------------------------------------------------------------------------

// deal with *, /, and %
double term()
{
	double left = primary();
	Token t = ts.get();        // get the next token from token stream

	while (true) {
		switch (t.kind) {
		case '*':
			left *= primary();
			t = ts.get();
			break;
		case '/':
		{
			double d = primary();
			if (d == 0) error("divide by zero");
			left /= d;
			t = ts.get();
			break;
		}
		default:
			ts.putback(t);     // put t back into the token stream
			return left;
		}
	}
}

//------------------------------------------------------------------------------

// deal with + and -
double expression()
{
	double left = term();      // read and evaluate a Term //ERROR 4/5: "double left = term(;" mssing )
	Token t = ts.get();        // get the next token from token stream

	while (true) {
		switch (t.kind) {
		case '+':
			left += term();    // evaluate Term and add
			t = ts.get();
			break; //ERROR 2/3: "break;", missing
		case '-':
			left -= term();    // evaluate Term and subtract //ERROR 3/3: "left += term();" plus instead of minus
			t = ts.get();
			break;
		default:
			ts.putback(t);     // put t back into the token stream
			return left;       // finally: no more + or -: return the answer
		}
	}
}

//------------------------------------------------------------------------------

int main()
try
{
	cout << "Welcome to our simple calculator.\n";
	cout << "Please enter expressions using floating-point numbers.\n";
	cout << "Currently available operators are: '(', ')', '*', '/', '+' and '-'.\n";
	cout << "Use '=' to get result or 'x' to quit the program.\n";

	double val = 0; //ERROR 5/5: val not initialized

	while (cin) {
		Token t = ts.get();

		if (t.kind == 'x') break; // 'x' for quit
		if (t.kind == '=')        // ';' for "print now"
			cout << "=" << val << '\n';
		else
			ts.putback(t);
		val = expression();
	}
	keep_window_open();
}
catch (exception& e) {
	cerr << "error: " << e.what() << '\n';
	keep_window_open();
	return 1;
}
catch (...) {
	cerr << "Oops: unknown exception!\n";
	keep_window_open();
	return 2;
}

//------------------------------------------------------------------------------
Output:
{4 + 3} / 3;
=2.33333

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