Visual Basic Concepts
Often you'll find that your code contains constant values that reappear over and over. Or you may find that the code depends on certain numbers that are difficult to remember — numbers that, in and of themselves, have no obvious meaning.
In these cases, you can greatly improve the readability of your code — and make it easier to maintain — by using constants. A constant is a meaningful name that takes the place of a number or string that does not change. Although a constant somewhat resembles a variable, you can't modify a constant or assign a new value to it as you can to a variable. There are two sources for constants:
In Visual Basic, constant names are in a mixed-case format, with a prefix indicating the object library that defines the constant. Constants from the Visual Basic and Visual Basic for applications object libraries are prefaced with "vb" — for instance, vbTileHorizontal.
The prefixes are intended to prevent accidental collisions in cases where constants have identical names and represent different values. Even with prefixes, it's still possible that two object libraries may contain identical constants representing different values. Which constant is referenced in this case depends on which object library has the higher priority. For information on changing the priority of object libraries, see the "References Dialog Box."
To be absolutely sure you avoid constant name collisions, you can qualify references to constants with the following syntax:
[libname.][modulename.]constname
Libname is usually the class name of the control or library. Modulename is the name of the module that defines the constant. Constname is the name of the constant. Each of these elements is defined in the object library, and can be viewed in the Object Browser.
The syntax for declaring a constant is:
[Public|Private] Const constantname[As type] = expression
The argument constantname is a valid symbolic name (the rules are the same as those for creating variable names), and expression is composed of numeric or string constants and operators; however, you can't use function calls in expression.
A Const statement can represent a mathematical or date/time quantity:
Const conPi = 3.14159265358979
Public Const conMaxPlanets As Integer = 9
Const conReleaseDate = #1/1/95#
The Const statement can also be used to define string constants:
Public Const conVersion = "07.10.A"
Const conCodeName = "Enigma"
You can place more than one constant declaration on a single line if you separate them with commas:
Public Const conPi = 3.14, conMaxPlanets = 9, _
conWorldPop = 6E+09
The expression on the right side of the equal sign ( = ) is often a number or literal string, but it can also be an expression that results in a number or string (although that expression can't contain calls to functions). You can even define constants in terms of previously defined constants:
Const conPi2 = conPi * 2
Once you define constants, you can place them in your code to make it more readable. For example:
Static SolarSystem(1 To conMaxPlanets)
If numPeople > conWorldPop Then Exit Sub
A Const statement has scope like a variable declaration, and the same rules apply:
For More Information For more information regarding scope, see "Understanding the Scope of Variables" earlier in this chapter.
Because constants can be defined in terms of other constants, you must be careful not to set up a cycle, or circular reference between two or more constants. A cycle occurs when you have two or more public constants, each of which is defined in terms of the other.
For example:
' In Module 1:
Public Const conA = conB * 2 ' Available throughout
' application.
' In Module 2:
Public Const conB = conA / 2 ' Available throughout
' application.
If a cycle occurs, Visual Basic generates an error when you attempt to run your application. You cannot run your code until you resolve the circular reference. To avoid creating a cycle, restrict all your public constants to a single module or, at most, a small number of modules.