Difference between revisions of "StringIsNum"

Latest revision as of 19:06, 24 January 2015

Due to my need of wanting a nice clean function to test an input and check if it consists entirely of numbers, I decided to write one myself, and share with the community.

This snippet is a fully working User Made Function. It is designed to be inserted into existing scripts to check if an input consists entirely of numbers, and will reject inputs that contain letters or symbols.

Note: This is a very inefficient technique. See later better examples.

// this function will return TRUE if the entire string consists of number characters only
integer string_is_num(string input)
{
    list numberCharacters = ["0", "1", "2", "3", "4", "5", "6", "7", "8", "9"];
    integer stringLength = llStringLength(input);

    integer index;
    do
    {
        string character = llGetSubString(input, index, index);

        if (llListFindList(numberCharacters, [character]) == -1)
            return FALSE;

        ++index;
    }
    while (index < stringLength);

    return TRUE;
}

default
{
    state_entry()
    {
        key owner = llGetOwner();
        llListen(0, "", owner, "");
    }

    listen(integer channel, string name, key id, string message)
    {
        //Respond if the string is a number
        if( StringIsNum(message) )
            llOwnerSay("'" + message + "' consists of numbers only.");
        else
            llOwnerSay("'" + message + "' does not consist of numbers only.");
    }
}

Better Methods

Here's a simpler solution for strings containing integer values from −2147483648 and 2147483647 written without + sign, leading zeros, or thousands separators ',' (Omei Qunhua)

    if ( (string) ( (integer) data) == data)
        llOwnerSay("'" + data + "' contains a valid integer");

The following examples will validate that a string contains only the characters 0 though 9. (Omei Qunhua)

a) Example for a string of length 5

    StringOf5Dec(string test)
    {
        return ( (integer) ("1" + test) >= 100000);
    }

b) Example for a string of length 1 through 9

    VarStringIsDecimal(string test)
    {
        integer limit = (integer) llPow(10.0, llStringLength(test) );
        return ( (integer) ("1" + test) >= limit);
    }

Difference between revisions of "StringIsNum"

Latest revision as of 19:06, 24 January 2015

Better Methods

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@@ Line 5: / Line 5: @@
 This snippet is a fully working User Made Function. It is designed to be inserted into existing scripts to check if an input consists entirely of numbers, and will reject inputs that contain letters or symbols.
-<lsl>
+Note: This is a very inefficient technique. See later better examples.
-// This function returns TRUE or FALSE depending on if the input string consists entirely of numbers.
-// It will return TRUE if the entire string is an integer number (whole number).
+<source lang="lsl2">
-// It will return FALSE if the entire string is not an integer. Floating points, letters, symbols, and spaces will make it return FALSE.
+// this function will return TRUE if the entire string consists of number characters only
-integer StringIsNum(string input) {
+integer string_is_num(string input)
-     integer length = llStringLength(input);  integer i;  integer verify;
+{
+     list numberCharacters = ["0", "1", "2", "3", "4", "5", "6", "7", "8", "9"];
-    for(i = 0; i < length; i++) {
+    integer stringLength = llStringLength(input);
-        string char = llGetSubString(input, i, i);
-        if(char == "0" || char == "1" || char == "2" || char == "3" || char == "4" ||
+    integer index;
-           char == "5" || char == "6" || char == "7" || char == "8" || char == "9")
+    do
-                //Do something. You can do whatever you like here, the variable is just a placeholder to keep the compiler happy.
+    {
-                verify = TRUE;
+        string character = llGetSubString(input, index, index);
-         //Exit with FALSE at the first sign of a non numerical character
+         if (llListFindList(numberCharacters, [character]) == -1)
-        else return FALSE;
+            return FALSE;
+        ++index;
      }
+     while (index < stringLength);
-    //Exit with TRUE if all characters are a number
      return TRUE;
 }
@@ Line 31: / Line 33: @@
      state_entry()
      {
-         llListen(0, "", llGetOwner(), "");
+        key owner = llGetOwner();
+         llListen(0, "", owner, "");
      }
      listen(integer channel, string name, key id, string message)
      {
-         if(StringIsNum(message)) llOwnerSay(message + " consists of numbers only.");
+        //Respond if the string is a number
-         if(!StringIsNum(message)) llOwnerSay(message + " has other characters in it!");
+         if( StringIsNum(message) )
+            llOwnerSay("'" + message + "' consists of numbers only.");
+         else
+            llOwnerSay("'" + message + "' does not consist of numbers only.");
      }
 }
-</lsl>
+</source>
+==Better Methods==
+Here's a simpler solution for strings containing integer values from −2147483648 and 2147483647 written without + sign, leading zeros, or thousands separators ','  (Omei Qunhua)
+<source lang="lsl2">
+    if ( (string) ( (integer) data) == data)
+        llOwnerSay("'" + data + "' contains a valid integer");
+</source>
+The following examples will validate that a string contains only the characters 0 though 9. (Omei Qunhua)
+a) Example for a string of length 5
+<source lang="lsl2">
+    StringOf5Dec(string test)
+    {
+        return ( (integer) ("1" + test) >= 100000);
+    }
+</source>
+b) Example for a string of length 1 through 9
+<source lang="lsl2">
+    VarStringIsDecimal(string test)
+    {
+        integer limit = (integer) llPow(10.0, llStringLength(test) );
+        return ( (integer) ("1" + test) >= limit);
+    }
+</source>