Enumerations: Difference between revisions

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==Using Boolean enumerations==
==Using Boolean enumerations==
The system <var>Boolean</var> enumeration values (shared
The system <var>Boolean</var> enumeration values are:
properties) are:
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<li><b>True</b>
<li><b>True</b>
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<td>A <var>Boolean</var> enumeration variable or an expression that results in a <var>Boolean</var> enumeration.
<td>A <var>Boolean</var> enumeration variable or an expression that results in a <var>Boolean</var> enumeration.
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==User Language enumerations==
==User Language enumerations==
While there are a wide variety of system enumerations that can be useful in
While there are a wide variety of system enumerations that can be useful in

Revision as of 02:51, 22 May 2011


Objects may have properties that can have relatively few values, such as True or False; Yes, No, or Maybe; Red, Green, or Blue; or Small, Medium, Large, SuperSize. These properties could be defined with a string datatype, in which case they would be set to values like 'True' or 'False'. Or they could be defined with a numeric datatype like Float, in which case they would be set to values like 0 or 1. Both of these options are unappealing:

  • Using strings ties you to a particular case-sensitive representation of the values.
  • Using numbers makes the code unclear, as the meaning of, say, 2 is not readily apparent.
  • Neither strings nor numbers provide any compile-time validation of values. That is, if the value of a property can be either 'True' or 'False', the compiler will allow the property to be set to 'True', or 'False', or anything else, for that matter.

The special type of class called enumerations solves these problems. An enumeration class doesn't actually describe a set of objects but a set of values or, more specifically, names for a set of values. Since values are syntactically nouns, as are objects, enumeration handling is very similar to object handling. Sirius Mods version 7.1 introduced support for User Language enumerations, that is, enumerations that are defined in User Language. Before that release, only system enumerations (those defined in the Model 204 nucleus) were supported.

Declaring enumeration variables

Enumeration variables are declared very much like objects:

variable [Is] Enumeration className [Initial(value)]

The Boolean enumeration is so heavily used that, as of Sirius Mods 7.0, the keyword Enumeration is optional for Boolean enumeration variables:

variable [Is] Boolean [Initial(value)]

For example:

%myAim is boolean

An Enumeration variable, like an Object variable can be null; in fact this the the default initial value for all enumeration variables. This means that certain operations on enumeration variables can result in null-pointer reference errors. It also means that, in some sense, all enumerations contain a special value of Null (though Null behaves somewhat differently from other values). This means that caution should be used for inequality tests on enumeration variables as a null will satisfy an inequality test.

As of Sirius Mods 7.1, enumeration variables, including Booleans, can have a compile-time initial value as specified by an Initial clause:

%myAim is boolean initial(true)

Such a clause can also be placed on variables in a class Public, Private, or Shared block:

class alison public variable myaim is boolean initial(true) ... end public ... end class

As with other variable types, an Initial clause in a Public or Private block sets the initial value for the variable when the containing object is instantiated.

The sections that follow describe how to use enumerations, including the methods that may be applied to them. Most of the individual enumeration classes are documented elsewhere: in the context of the (typically one) system class method that uses the enumeration.

Using enumerations

An explicit New method is not allowed for enumeration variables. Instead, they must be set from the possible values for the enumeration:

%well is enumeration boolean ... %well = %(boolean):true ... %well = %(boolean):false

Enumeration values are similar to shared properties of an object class and, as with other shared properties, an enumeration variable can be used instead of the class name to reference the shared properties:

%well is enumeration boolean ... %well = %well:true ... %well = %well:false

Or, because the class can be inferred from the target, enumerations can be set using just the value name:

%well is enumeration boolean ... %well = true ... %well = false

You can also use just the value name when a method parameter is an enumeration:

class customer public subroutine setActive(%active is enumeration boolean) ... end public ... end class ... %myCustomer is object customer ... %myCustomer:setActive(false)

Often, though, an enumeration will be a property rather than a parameter. The previous example would probably be recast as:

class customer public property active is enumeration boolean ... end public ... end class ... %myCustomer is object customer ... %myCustomer:active = false

System enumerations can be declared with an explicit "system" on their declaration:

%active is enumeration system:boolean

Enumerations have a ToString method that returns the string form of a value:

%active is enumeration boolean %active = true print %active:toString

Note: Prior to Sirius Mods version 7.3, explicitly calling the ToString method was required to display the string form of an enumeration value, and simply specifying print %active in the example above was an error, because %active is an object, not a string.

However, as of Sirius Mods 7.3, explicitly specifying ToString is optional, and a statement like print %active automatically implies print %active:toString. This is described further in "ToString property".

Enumerations can also have other methods. One class of such methods are “Is” methods that return 0 or 1 depending on whether the method has a particular value.

For example, the following method tests if the value of %active is True:

%active is enumeration boolean ... if %active:isTrue then

This is almost exactly equivalent to the following:

%active is enumeration boolean ... if %active eq true then

The one difference between the two forms is that the former would cause a null-pointer-reference request cancellation if %active had never been set, while the latter would simply evaluate %active eq true as false, since a Null value is not equal to True.
Note: There is an alternative to using these Is methods for Boolean enumerations in the context of an If statement: automatic conversion of a Boolean True to a 1, and of a False to a 0. See "Using Boolean enumerations".

It is possible to use enumerations without ever declaring a variable with that enumeration. For example, one can set the UseDefault property of a NamedArraylist by just using the enumeration value:

%description is collection NamedArraylist of string len 64 ... %description:useDefault = true

Common enumeration methods

The methods described in this section are available to all system enumerations.

The versatile Boolean enumeration has additional methods available.

Copy function

This function returns an exact copy of the method object. It is identical to the DeepCopy method. Since enumeration variables simply have values, a Copy or DeepCopy is no different from an assignment, so enumerations are always copyable and deep copyable, as described in "Copying objects". As such, there is no real reason to do a Copy or DeepCopy of an enumeration variable, and the presence of these methods simply makes the copyability of enumeration variables explicit.

Copy syntax

%cop = enum:Copy

Syntax terms

%cop An enumeration variable to contain the copy of enum. %cop does not have to be empty.
enum An enumeration variable or an expression that results in an enumeration.

The method object (enum) may be Null. The output of a copy of a Null object is a Null object.

DeepCopy function

This function returns an exact copy of the method object. It is identical to the Copy method. Since enumeration variables simply have values, a Copy or DeepCopy is no different from an assignment, so enumerations are always copyable and deep copyable, as described in "Copying objects". As such, there is no real reason to do a Copy or DeepCopy of an enumeration variable, and the presence of these methods simply makes the copyability of enumeration variables explicit.

DeepCopy syntax

%dcop = enum:DeepCopy

Syntax terms

%dcop An enumeration variable to contain the deep copy of enum. %dcop does not have to be empty.
enum An enumeration variable or an expression that results in an enumeration.

The method object (enum) may be Null. The output of a deep copy of a Null object is a Null object.

ToString property

This non-shared non-settable property examines an enumeration and returns a printable or testable string representation of its value.

ToString syntax

%ls = enum:ToString

Syntax terms

%ls If specified, a longstring variable that is assigned the current string value of enum.
enum An enumeration variable or an expression that results in an enumeration.

Usage Notes

  • Prior to Sirius Mods version 7.3, the ToString method was the only way to return a string representation of the value of a Janus SOAP ULI enumeration. As of Sirius Mods 7.3, however, you no longer need to explicitly specify ToString to print the value of a system or user-defined enumeration. You can simply print (or audit) the value of an enumeration, and ToString is implied, as shown in the following example:

    begin enumeration color public value red value white value blue value green end public end enumeration %x is boolean initial(true) %z is enumeration color initial(blue) %daem is object daemon %daem = new print %x with ' ' %z printText {~} = {%x}, {~} = {%z} print %daem:haveDaemon printText {~} = {%daem:haveDaemon} end

    The Print and PrintText statements above produce these results:

    True blue %x = True, %z = blue True %daem:haveDaemon = True

    Note: In addition, the implicit ToString feature extends beyond enumerations: upon any attempt to print or audit any object value, Janus SOAP ULI will try to apply a ToString method to the object. If the object is an enumeration (as shown above) or is an instance of a system or user-defined class that has a ToString method, a ToString is implicitly applied and the result is a successful print or audit of the object value.

    For example, the user-defined class in the following request includes a ToString method. The request's printText statement prints %x = a=11, b=22.

    begin class mumble public variable a is float variable b is float constructor new(%a is float nameRequired, %b is float) function tostring is longstring end public constructor new(%a is float nameRequired, %b is float) %this:a = %a %this:b = %b end constructor function tostring is longstring return 'a=' with %a with ', b=' with %b end function end class %x is object mumble %x = new(a=11, b=22) printText {~} = {%x} end

    If the object you try to print or audit directly is not an enumeration or is an instance of a class that does not have a ToString method (system or user-written), you receive a compilation error. For example, if %sl is a Stringlist object, no user ToString method exists, and your request contains a Print %sl statement, you get a message like the following:

    *** 1 MSIR.0733: Member TOSTRING not found in class STRINGLIST print %sl (FILE = JALWORK, PROCEDURE = FOO, LINE = 28) *** M204.1042: COMPILATION ERRORS

    Finally, if the object you try to print directly is a Unicode variable under Sirius Mods 7.6 and higher, the implicit ToString method returns an EBCDIC character-encoded value for Unicode characters that do not translate to EBCDIC. This is described further in "Implicit Unicode conversions".

Using Boolean enumerations

The system Boolean enumeration values are:

  • True
  • False

Many methods, for example the Exists function, return a Boolean enumeration.

Unlike other Janus SOAP ULI enumerations, Boolean enumeration values are usable as the condition in an If statement:

%recset is object recordSet in file sirfiled ... find records to %recset rectype = 'FILE' end find ... if %recset:isEmpty then print 'No records found!' end if

In the above example, the IsEmpty method returns a Boolean enumeration value. Strictly speaking, the If clause expects a numeric zero or non-zero value as its operand, but in this context Janus SOAP ULI automatically converts a True to a 1 and a False to a 0.

Other places where a Boolean value can be used, that is, where it is automatically converted to the 0 or 1 that User Language expects are:

  • As a Repeat statement operand.
  • As an operand for a logical operator such as Not, And, or Or. This would usually be in an If or Repeat statement.

You can also use Boolean literals in these contexts, but they must be completely qualified as Booleans: otherwise there is a syntactic ambiguity between the values True or False and fields by the name of True or False. The following is syntactically valid:

if %(boolean):true then print 'Truth be told' end if

Besides the common enumeration methods, the system Boolean enumeration has additional methods available, which are described in the following sections.

IsFalse function

This function examines a Boolean enumeration and returns an integer (0 or 1) according to the Boolean value (True or False).

IsFalse syntax

%num = bool:IsFalse

Syntax terms

%num If specified, a number variable that is assigned the value 0 if the value of bool is True, and 1 if bool is False.
bool A Boolean enumeration variable or an expression that results in a Boolean enumeration.

IsTrue function

This function examines a Boolean enumeration and returns an integer (1 or 0) according to the Boolean value (True or False).

IsTrue syntax

%num = bool:IsTrue

Syntax terms

%num If specified, a number variable that is assigned the value 1 if the value of bool is True, and 0 if bool is False.
bool A Boolean enumeration variable or an expression that results in a Boolean enumeration.

User Language enumerations

While there are a wide variety of system enumerations that can be useful in many contexts (especially the Boolean enumeration), as of Sirius Mods 7.1, it is also possible to define enumerations in User Language. This is done via the Enumeration statement/block, which is very similar to the Class statement/block (as in "Classes and objects").

The Enumeration block

The Enumeration block can contain Public, Private, Public Shared, and Private Shared blocks, just like any other class. However, because enumeration classes don't really describe objects, there can be no instance variables. That is, the Public and Private blocks cannot contain Variable declarations.

Instead, the Public block must contain one or more Value declarations whose syntax is:

Value value

Each value declared by a Value declaration becomes one of the values of the enumeration. No values are allowed in the Private or Shared blocks.
Note: The value in a value clause is unusual in that the case (lower or upper) of the characters in its value are saved and used in the implicit ToString method.

The following is an example of a simple enumeration:

enumeration shape public value triangle value square value rhombus value rectangle value quadrilateral value pentagon value circle end public end enumeration


Note: Just as for Class blocks as of Sirius Mods version 7.3, an Enumeration block you declare inside a method or complex subroutine must be preceded by the keyword Local. For more information about locally-scoped classes and enumerations, see "Local classes, enumerations, and structures".

Using User Language enumerations

You can use User Language defined enumerations just like system enumerations. That is, variables are declared with the Enumeration keyword and class name:

%cookieShape is enumeration shape

Enumeration values may be assigned to an enumeration variable:

%cookieShape = circle

More commonly, enumerations may be used as method parameters:

class cookie ... subroutine cut(%shape is enumeration shape) ... end class

And, typically, literal values are used as the arguments when invoking such a method:

%biscuit is object cookie ... %biscuit:cut(pentagon)

Enumeration values are not strings, so they are case insensitive. While the class of an enumeration value can almost always be determined from context, the class name can always be explicitly specified for a value:

%cookieShape = %(shape):circle ... %biscuit:cut(%(shape):pentagon)

Like system enumerations, User Language enumeration variables can be in a state where they have no value, that is, they can be null. In fact, that is the initial value of any enumeration variable.

As with system enumerations (as of Sirius Mods 7.1), you can change the default initial value with the Initial clause on the variable declaration:

variable [Is] Enumeration enumerationName - [Initial(value)]

You can set the default initial value for local variables:

%cutout is enumeration shape initial(square)

And you can set it for variables in class blocks:

class cookie public variable shape is enumeration shape initial(round) ... end public ... end class

Of course, instance-specific (non-Shared) initial values are set for each instance of the class when it is created.

Enumeration methods

Enumeration classes can also contain methods that operate on or are related to the enumeration values. For example, the Shape enumeration can have a method that returns the number of sides in a shape:

enumeration shape public ... function sides is float end public function sides is float if %this eq circle then return 0 end if if %this eq triangle then return 3 end if ... end function end enumeration

As this example illustrates, the implicit %this variable for enumeration methods contains not an object reference but an enumeration value.

Enumeration methods can be applied to enumeration values as well as enumeration variables. This is one case, however, where the enumeration value must be qualified with the class name, because it appears in a context where the class cannot be determined otherwise:

print %(shape):rhombus:sides

And, as with objects, an enumeration method could be applied to the output of another method that returns an enumeration value. For example, if the PickCookie method of the Jar class returns a Cookie object, and the Shape method of the Cookie class returns a Shape enumeration value, the following prints the number of sides of a picked cookie:

%jar is object jar ... print %jar:pickCookie:shape:sides

Automatic methods

Several methods are automatically provided for User Language enumeration classes. Some of these are identical to common methods available in most system enumerations. These methods are:

Copy
Performs a “copy” of the enumeration value. Since enumeration variables simply have values, a Copy or DeepCopy is no different from an assignment, so enumerations are always copyable and deep copyable, as described in "Copying objects". As such, there is no real reason to do a Copy or DeepCopy of an enumeration variable, and the presence of these methods simply makes the copyability of enumeration variables explicit.
DeepCopy
Performs a “copy” of the enumeration value. Since enumeration variables simply have values, a Copy or DeepCopy is no different from an assignment, so enumerations are always copyable and deep copyable, as described in "Copying objects". As such, there is no real reason to do a Copy Or DeepCopy of an enumeration variable, and the presence of these methods simply makes the copyability of enumeration variables explicit.
Ordinal
Returns the ordinal position of the Value clause associated with the value of the enumeration. For example, if an enumeration was declared as

enumeration shot public value rock value paper value scissors end public end enumeration

the ordinal for a value of Rock is 1, for Paper 2, and Scissors 3. By default, the Ordinal Method behaves as if it is a private method. That is, it can only be accessed inside the class. This can be overridden by specifying Allow Ordinal in the Public block.

ToString
Returns a string representation of the enumeration value. The value returned uses the same case for the characters as was used on the Value declaration.

The Ordinal method, especially, bears a bit more discussion. It can be very useful in writing enumeration methods, especially in conjunction with the Jump statement. For example, the Sides method in the Shape enumeration above could have been written like:

function sides is float jump to (three, four, four, four, four, five, none) - %this:ordinal three: return 3 four: return 4 five: return 5 none: return 0 end function

While this might justifiably be disparaged as questionable programming technique, it is very efficient and simple.

One disadvantage of such a technique is that the code is now highly dependent on the order of the value declarations. This means that it becomes difficult to rearrange the value declarations, or to insert one into the list after there is code that uses the Ordinal method on an enumeration class. For this reason, the Ordinal method behaves like a private method, by default. That is, it is only available to methods inside the Enumeration class block.

One use of the Ordinal method that you might want to make public occurs when the enumeration values have a natural ordering. Consider, for example, the following enumeration:

enumeration volume public value low value medium value high value deafening end public end enumeration

With such an enumeration, one might want to use an enumeration value's ordinality in comparisons. To allow this to be done, the Allow Ordinal directive must be placed in the Public block of the enumeration definition:

enumeration volume public allow ordinal value low value medium value high value deafening end public end enumeration

Then, code like the following can be used outside the class:

%leftSpeakerVolume is enumeration volume %rightSpeakerVolume is enumeration volume ... if %leftSpeakerVolume:ordinal gt - %rightSpeakerVolume:ordinal then ... end if

Of course, the same effect could be achieved by adding a different method to the enumeration, called perhaps Level, that returned a non-ordinal value that could still be used for comparisons:

%leftSpeakerVolume is enumeration volume %rightSpeakerVolume is enumeration volume ... if %leftSpeakerVolume:level gt - %rightSpeakerVolume:level then ... end if

The advantage of this approach is that a non-ordinal value is less likely to be misused for computed jumps, and the levels leave space to add values associated with new enumeration values. Another approach that avoids exposing the ordinal values of an enumeration is to provide a comparison method to compare two enumeration values.