I'm doing the exercises in Stroustrup's new book "Programming Principles and Practice Using C++" and was wondering if anyone on SO has done them and is willing to share the knowledge? Specifically about the calculator that's developed in Chap 6 and 7. Eg the questions about adding the ! operator and sqrt(), pow() etc. I have done these but I don't know if the solution I have is the "good" way of doing things, and there are no published solutions on Bjarne's website. I'd like to know if I am going down the right track. Maybe we can make a wiki for the exercises?

Basically I have a token parser. It reads a char at a time from cin. It's meant to tokenise expressions like 5*3+1 and it works great for that. One of the exercises is to add a sqrt() function. So I modified the tokenising code to detect "sqrt(" and then return a Token object representing sqrt. In this case I use the char 's'. Is this how others would do it? What if I need to implement sin()? The case statement would get messy.

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

switch (ch) {
    case ';':    // for "print"
    case 'q':    // for "quit"
    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':
            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"
    case 's': 
            char q, r, t, br;
            cin >> q >> r >> t >> br;
            if (q == 'q' && r == 'r' && t == 't' && br == '(') {
                cin.putback('(');   // put back the bracket
                return Token('s');  // let 's' represent sqrt


        error("Bad token");
  • Just post your code here, and plenty of people will be happy to tell you what can be improved. This site is all the wiki you need. :) – jalf May 16 '09 at 0:39
  • Ok I'll stick it up shortly! – PowerApp101 May 16 '09 at 0:41
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    If the input reads 'sin(2)', then your code will read the 'i', 'n', and '(' into q, r, t; it then decides that these are not collectively 'q', 'r', and 't', so ... it abandons everything. You need to look at the error recovery rather harder, I believe. – Jonathan Leffler May 16 '09 at 5:36
  • 14
    I do believe Bjarne Stroustrup himself has answered your question. – Michael Myers May 20 '09 at 14:32
  • 4
    @MichaelMyers: I don't think he answered the question at all. – Lightness Races in Orbit Feb 8 '14 at 13:12
up vote 212 down vote accepted
  • There are few solutions posted on Stroustrup - Programming and more will be coming over the time.

  • Try solving exercises only with the language features and the library facilities presented so far in the book -- real novice users can't do anything else. Then return later to see how a solution can be improved.

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    Yes I was kind of cheating with the map...it doesn't appear till later chapters. I am really enjoying the book by the way. I think the calculator might actually be useful in the real world, which is not something you can say about the samples presented in most introductory books. – PowerApp101 May 20 '09 at 14:35

I thought a map of strings to function pointers might be a concise way to represent things like sqrt, sin, cos etc that take a single double and return a double:

map<std::string, double (*)(double)> funcs;
funcs["sqrt"] = &sqrt;
funcs["sin"] = &sin;
funcs["cos"] = &cos;

Then when the parser detects a correct string (str) it can call the function with an argument (arg) like so:

double result = funcs[str](arg);

With this method a single call can handle all cases of functions (of that type).

Actually I'm not sure if that's the correct syntax, can anyone confirm?

Does this seem like a useable method?

  • 8
    It might, but Bjarne Stroustrup answered your question. Bow down. – user155407 May 3 '13 at 13:25

It is easier to work with derived classes and virtual functions: each specialized class reading its own input...

class base{public:
virtual double calc()=0;
class get_sqrt:public base{
int useless;
virtual double calc(){cin>>number;return sqrt(number);}

now we organize these in a map, we will only use their pointers:

map<string,base*> func;

there is also a specialized method witch only looks at the next character: peek();

char c=cin.peek();

you can get rid of the switch by using 1 if and putting ! + - ... in func; (they should operate on left_param for simplicity

 if (c>='0'&&c<='9') cin>>right_param; //get a number, you don't have to put the character back as it hasn't been removed
 else{string s; cin>>s;right_param=func[s]->calc();}

So basically some kind of function pointers but without the messy sintax and in witch you could store data between calculations.

edit: i thought about the whitespace problem; it can be added before it starts to compute, I also think there could be a way to set different separators, like numbers but I don't know how.

  • Nice. I knew there would be an OOP solution in there somewhere! But...the cin>>s wouldn't work because the expression could contain no whitespace i.e. 5+sqrt(144)/2. So still need to read a char at a time to check function name like sqrt, I think. – PowerApp101 May 19 '09 at 15:33
  • I think it should be peek, not peak! I wonder why Stroustrup didn't use this method, it seems more logical than get() and putback(). – PowerApp101 May 19 '09 at 15:37
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    I refrained from using peek() to avoid introducing yet another new facility this early and (more importantly) because "stream with putback()" is a very general idea that can be used in many places - peek() involves someone else doing some buffering for you. Also, think of whitespace and error handling - what if there isn't a next character to peek at? I see peek() more as a "clever trick" than as a general technique. – Bjarne Stroustrup May 21 '09 at 2:25
  • Good point. That makes sense. BTW thanks for taking time to check out this thread, I feel privileged to have the author himself providing input! – PowerApp101 May 21 '09 at 6:15

I would move the 'sqrt' detection into another method for function detection. Essentially, I would remove the 's' detection and add something inside the default case that would read the string up to a '('.

If no '(' is detected, then error.

If you successfully read a string, pass that to a function name parser that uses string compares to generate a token that represents a call to sqrt or sin or whatever function you like. The method that checks for the function names can also error if it reads a string that it doesn't recognize.

  • Ok I'll try and implement this. That would separate out the function stuff nicely. – PowerApp101 May 19 '09 at 0:27

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