Here's something playful that I did. And I believe there's zero risk running into an exception, because as you can see below you always safely parse `int`

to `String`

and not the other way around.

So:

You **check** if every slot of character in your string matches at least
one of the characters **{"0","1","2","3","4","5","6","7","8","9"}**.

```
if(aString.substring(j, j+1).equals(String.valueOf(i)))
```

You **sum** all the times that you encountered in the slots the above
characters.

```
digits++;
```

And finally you **check** if the times that you encountered integers as
characters equals with the length of the given string.

```
if(digits == aString.length())
```

And in practice we have:

```
String aString = "1234224245";
int digits = 0;//count how many digits you encountered
for(int j=0;j<aString.length();j++){
for(int i=0;i<=9;i++){
if(aString.substring(j, j+1).equals(String.valueOf(i)))
digits++;
}
}
if(digits == aString.length()){
System.out.println("It's an integer!!");
}
else{
System.out.println("It's not an integer!!");
}
String anotherString = "1234f22a4245";
int anotherDigits = 0;//count how many digits you encountered
for(int j=0;j<anotherString.length();j++){
for(int i=0;i<=9;i++){
if(anotherString.substring(j, j+1).equals(String.valueOf(i)))
anotherDigits++;
}
}
if(anotherDigits == anotherString.length()){
System.out.println("It's an integer!!");
}
else{
System.out.println("It's not an integer!!");
}
```

And the results are:

It's an integer!!

It's not an integer!!

Similarly, you can validate if a `String`

is a `float`

or a `double`

but in those cases you have to encounter **only one .** (dot) in the String and of course check if `digits == (aString.length()-1)`

Again, there's zero risk running into a parsing exception here, but if you plan on parsing a string that it is known that contains a number (let's say **int** data type) you must first check if it fits in the data type. Otherwise you must cast it.

I hope I helped