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validating numerical user input

I am creating a simple CLI calculator tool as an exercise. I need to make sure n1 and n2 are numeric in order for the functions to work; consequently, I would like to make the program quit upon coming across a predetermined non-numeric value.

Can anyone give me some direction?

Additionally, if anyone can offer any general tips as to how I could have done this better, I would appreciate it. I'm just learning c++.

Thank you!

The complete code is included below.

``````#include <iostream>
#include <new>

using namespace std;

double factorial(double n) { return(n <= 1) ? 1 : n * factorial(n - 1); }

double add(double n1, double n2) { return(n1 + n2); }

double subtract(double n1, double n2) { return(n1 - n2); }

double multiply(double n1, double n2) { return(n1 * n2); }

double divide(double n1, double n2) { return(n1 / n2); }

int modulo(int n1, int n2) { return(n1 % n2); }

double power(double n1, double n2) {
double n = n1;
for(int i = 1 ; i < n2 ; i++) {
n *= n1;
}
return(n);
}

void print_problem(double n1, double n2, char operatr) {
cout<<n1<<flush;
if(operatr != '!') {
cout<<" "<<operatr<<" "<<n2<<flush;
} else {
cout<<operatr<<flush;
}
cout<<" = "<<flush;
}

int main(void) {

double* n1, * n2, * result = NULL;
char* operatr = NULL;

n1 = new (nothrow) double;
n2 = new (nothrow) double;
result = new (nothrow) double;
operatr = new (nothrow) char;

if(n1 == NULL || n2 == NULL || operatr == NULL || result == NULL) {
cerr<<"\nMemory allocation failure.\n"<<endl;
} else {

cout<<"\nTo use this calculator, type an expression\n\tex: 3*7 or 7! or \nThen press the return key.\nAvailable operations: (+, -, *, /, %, ^, !)\n"<<endl;

do {
cout<<"calculator>> "<<flush;
cin>>*n1;

cin>>*operatr;

if(*operatr == '!') {
print_problem(*n1, *n2, *operatr);
cout<<factorial(*n1)<<endl;
} else {

cin>>*n2;

switch(*operatr) {
case '+':
print_problem(*n1, *n2, *operatr);
break;
case '-':
print_problem(*n1, *n2, *operatr);
cout<<subtract(*n1, *n2)<<endl;
break;
case '*':
print_problem(*n1, *n2, *operatr);
cout<<multiply(*n1, *n2)<<endl;
break;
case '/':
if(*n2 > 0) {
print_problem(*n1, *n2, *operatr);
cout<<divide(*n1, *n2)<<endl;
} else {
print_problem(*n1, *n2, *operatr);
cout<<" cannot be computed."<<endl;
}
break;
case '%':
if(*n1 >= 0 && *n2 >= 1) {
print_problem(*n1, *n2, *operatr);
cout<<modulo(*n1, *n2)<<endl;
} else {
print_problem(*n1, *n2, *operatr);
cout<<" cannot be computed."<<endl;
}
break;
case '^':
print_problem(*n1, *n2, *operatr);
cout<<power(*n1, *n2)<<endl;
break;
default:
cout<<"Invalid Operator"<<endl;
}
}
} while(true);
delete n1, n2, operatr, result;
}
return(0);
}
``````
-
Is there a reason you're new'ing your variables isntead of just making them on the stack? Your code isn't safe anymore; it succumbs to exceptions, and is much harder to read. – GManNickG Feb 6 '10 at 1:51
Related question: stackoverflow.com/questions/2156467/… – Manuel Feb 6 '10 at 6:47

No need for Boost or writing your own template or forcing yourself to use exceptions vs error codes. `cin` alone does everything you're asking for.

You can test `if ( cin )` or `if ( ! cin )` to determine success or failure. One failure (eg, a letter in numeric input) will stop `cin` from accepting any more input. Then call `cin.clear()` to clear the error and resume getting input, starting with whatever text caused the error. Also, you can request that a stream throw exceptions on conversion errors: `cin.exceptions( ios::failbit )`.

So, you can do this:

``````for (;;) try {
double lhs, rhs;
char oper;
cin.exceptions( 0 ); // handle errors with "if ( ! cin )"
cin >> lhs >> oper; // attempt to do "the normal thing"
if ( ! cin ) { // something went wrong, cin is in error mode
string command; // did user enter command instead of problem?
cin.clear(); // tell cin it's again OK to return data,
cin >> command; // get the command,
if ( command == "quit" ) break; // handle it.
else cin.setstate( ios::failbit ); // if command was invalid,
}
cin.exceptions( ios::failbit ); // now errors jump directly to "catch"
// note that enabling exceptions works retroactively
// if cin was in error mode, the above line jumps immediately to catch
if ( oper != '!' ) cin >> rhs;
// do stuff
} catch ( ios::failure & ) {
cin.clear();
cin.ignore( INT_MAX, '\n' ); // skip the rest of the line and continue
}
``````

This is meant as a demonstration of error handling with iostreams. You can choose to use exceptions or manual testing or both.

-

What you want to do is read a line of input, or a string, then attempt to convert that line to your numeric form. Boost wraps this in `lexical_cast`, but you don't need that at all. I've answered a question similar to yours twice, here and here. Read those posts to understand what's going on.

Here's the final result:

``````template <typename T>
T lexical_cast(const std::string& s)
{
std::stringstream ss(s);

T result;
if ((ss >> result).fail() || !(ss >> std::ws).eof())
{
}

return result;
}
``````

Use it how I outlined in those posts:

``````int main(void)
{
std::string s;
std::cin >> s;

try
{
int i = lexical_cast<int>(s);

/* ... */
}
catch(...)
{
/* ... */
// conversion failed
}
}
``````

This uses exceptions. You can make this no-throw like outlined in the links above, by catching the `bad_cast` exception:

``````template <typename T>
bool lexical_cast(const std::string& s, T& t)
{
try
{
t = lexical_cast<T>(s);

return true;
}
{
return false;
}
}

int main(void)
{
std::string s;
std::cin >> s;

int i;
if (!lexical_cast(s, i))
{
std::cout << "Bad cast." << std::endl;
}
}
``````

This is good for making Boost's `lexical_cast` no-throw, but if you're implementing it yourself, there's no reason to waste time throwing and catching an exception. Implement them in terms of each other, where the throwing version uses the no-throw version:

``````// doesn't throw, only returns true or false indicating success
template <typename T>
const bool lexical_cast(const std::string& s, T& result)
{
std::stringstream ss(s);

return (ss >> result).fail() || !(ss >> std::ws).eof();
}

// throws
template <typename T>
T lexical_cast(const std::string& s)
{
T result;
if (!lexical_cast(s, result))
{
}

return result;
}
``````

There is more trouble in your code: you're `new`ing everything! Is there a reason for that? Consider if any part of your code throws an exception: now you jump out of main and leak everything. If you stack allocate your variables, they will be guaranteed to destruct.

-
It's hard to be one-size-fits-all. For a calculator program, you want to accept input like `1+1`. `cin >> temp_string` makes that difficult. Shouldn't input like `123nan` be rejected once the letters are encountered, not greedily early? – Potatoswatter Feb 8 '10 at 21:25

You can use input stream object itself to perform simple validation:

Another interesting approach could be to construct a parser with Boost.Spirit library, though it is an advanced technique heavily exploiting C++ metaprogramming features. If you'd like to try it, check the quick start examples

-

Probably a lot of C++ guys will hate me for this, but even while C++ has all these new shiny strings and I try to stay with C++ strings as long as possible to feel clean, in this case the simplest and considerably also cleanest thing is to stick with good ol' C:

``````if (sscanf(input, "%d", &integer) != 1) {
}
// happily continue and process
``````
-
The profanity wasn't needed. – GManNickG Feb 8 '10 at 21:39
Haha, somebody seems to take this personally. Sorry for the f-word, GMan. Thought is valid on a site for programmers. – ypnos Feb 10 '10 at 6:45