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Difference between revisions of "Acceleo/OCL Operations Reference"
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=== oclIsTypeOf( typespec : Classifier ) : Boolean === | === oclIsTypeOf( typespec : Classifier ) : Boolean === | ||
− | Returns '''true''' if the type of '''self''' is the same as typespec, or | + | Returns '''true''' if the type of '''self''' is the same as typespec, or ''false'' otherwise. This operation allows users to check the exact class type of '''self'''. |
{| border="1" cellpadding="5" cellspacing="0" | {| border="1" cellpadding="5" cellspacing="0" | ||
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| false | | false | ||
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=== oclIsUndefined () : Boolean === | === oclIsUndefined () : Boolean === |
Revision as of 08:32, 17 August 2015
Contents
- 1 OCL operation reference
- 1.1 Ocl operations for type *Classifier*
- 1.2 Ocl operations for type *OclAny*
- 1.2.1 oclAsType ( typespec : Classifier ) : T
- 1.2.2 oclIsInvalid () : Boolean
- 1.2.3 oclIsKindOf( Classifier typespec ) : Boolean
- 1.2.4 oclIsTypeOf( typespec : Classifier ) : Boolean
- 1.2.5 oclIsUndefined () : Boolean
- 1.2.6 <> ( object : OclAny ) : Boolean
- 1.2.7 = ( object : OclAny) : Boolean
- 1.2.8 < ( object : T ) : Boolean
- 1.2.9 > ( object : T ) : Boolean
- 1.2.10 <= ( object : T ) : Boolean
- 1.2.11 >= ( object : T ) : Boolean
- 1.3 Ocl operations for type *String*
- 1.4 Ocl operations for type *Number*
- 1.5 Ocl operations for type *Collection*
- 1.5.1 any ( expr : OclExpression ) : T
- 1.5.2 asBag () : Bag(T)
- 1.5.3 asOrderedSet () : OrderedSet(T)
- 1.5.4 asSequence () : Boolean
- 1.5.5 asSet () : Set(T)
- 1.5.6 collect ( expr : OclExpression ) : Collection(T2)
- 1.5.7 collectNested ( expr : OclExpression ) : Collection(T2)
- 1.5.8 count ( object : T ) : Integer
- 1.5.9 excludes ( object : T ) : Boolean
- 1.5.10 excludesAll ( c2 : Collection(T) ) : Boolean
- 1.5.11 excluding ( object : T ) : Collection(T)
- 1.5.12 exists ( expr : OclExpression ) : Boolean
- 1.5.13 flatten () : Collection(T2)
- 1.5.14 forAll ( expr : OclExpression ) : Boolean
- 1.5.15 includes ( object : T ) : Boolean
- 1.5.16 includesAll ( c2 : Collection(T) ) : Boolean
- 1.5.17 including ( object : T ) : Collection(T)
- 1.5.18 isEmpty () : Boolean
- 1.5.19 isUnique ( expr : OclExpression ) : Boolean
- 1.5.20 notEmpty () : Boolean
- 1.5.21 one ( expr : OclExpression ) : Boolean
- 1.5.22 product ( c2 : Collection(T2) ) : Set(Tuple(first : T, second : T2))
- 1.5.23 reject ( expr : OclExpression ) : Collection(T)
- 1.5.24 select ( expr : OclExpression ) : Collection(T)
- 1.5.25 size () : Integer
- 1.5.26 sortedBy ( expr : OclExpression ) : Sequence(T)
- 1.5.27 sum () : Real
- 1.6 Ocl operations for type *Sequence*
- 1.6.1 = ( seq : Sequence(T) ) : Boolean
- 1.6.2 <> ( seq : Sequence(T) ) : Boolean
- 1.6.3 append ( object : T ) : Sequence(T)
- 1.6.4 at ( index : Integer ) : T
- 1.6.5 first () : T
- 1.6.6 indexOf ( object : T ) : Integer
- 1.6.7 insertAt ( index : Integer, object : T) : Sequence(T)
- 1.6.8 last () : T
- 1.6.9 prepend ( object : T ) : Sequence(T)
- 1.6.10 subSequence ( startIndex : Integer, endIndex : Integer ) : Sequence(T)
- 1.6.11 union ( seq : Sequence(T) ) : Sequence(T)
- 1.7 Ocl operations for type *Bag*
- 1.8 Ocl operations for type *OrderedSet*
- 1.8.1 = ( set : Set(T) ) : Boolean
- 1.8.2 = ( orderedset : OrderedSet(T) ) : Boolean
- 1.8.3 <> ( set : Set(T) ) : Boolean
- 1.8.4 <> ( orderedset : OrderedSet(T) ) : Boolean
- 1.8.5 `-` ( set : Set(T) ) : Set(T)
- 1.8.6 append ( object : T ) : OrderedSet(T)
- 1.8.7 at ( index : Integer ) : T
- 1.8.8 first () : T
- 1.8.9 indexOf ( object : T ) : Integer
- 1.8.10 insertAt ( index : Integer, object : T ) : OrderedSet(T)
- 1.8.11 intersection ( bag : Bag(T) ) : Set(T)
- 1.8.12 intersection ( set : Set(T) ) : Set(T)
- 1.8.13 last () : T
- 1.8.14 prepend ( object : T ) : OrderedSet(T)
- 1.8.15 subOrderedSet ( startIndex : Integer, endIndex : Integer ) : OrderedSet(T)
- 1.8.16 symmetricDifference ( set : Set(T) ) : Set(T)
- 1.8.17 union ( bag : Bag(T) ) : Bag(T)
- 1.8.18 union ( set : Set(T) ) : Set(T)
- 1.9 Ocl operations for type *Set*
- 1.9.1 = ( set : Set(T) ) : Boolean
- 1.9.2 <> ( set : Set(T) ) : Boolean
- 1.9.3 `-` ( set : Set(T) ) : Set(T)
- 1.9.4 intersection ( bag : Bag(T) ) : Set(T)
- 1.9.5 intersection ( set : Set(T) ) : Set(T)
- 1.9.6 symmetricDifference ( set : Set(T) ) : Set(T)
- 1.9.7 union ( bag : Bag(T) ) : Bag(T)
- 1.9.8 union ( set : Set(T) ) : Set(T)
- 1.10 Ocl operations for type *Boolean*
OCL operation reference
Ocl operations for type *Classifier*
allInstances () : Set{T}
Returns a Set containing all of the existing instances of the current classifier (along with instances of all its inherited classifiers).
Expression | Result |
---|---|
let a : String = 'a', b : String = 'b', c : Integer = 2 in String.allInstances() | Set{'a','b'} |
Ocl operations for type *OclAny*
oclAsType ( typespec : Classifier ) : T
Returns *self* statically typed as typespec if it is an instance of this type. *Note* that this does not alter the runtime value of *self*, it only enables access to subtype operations. This operation allows users to cast self to another type.
Expression | Result |
---|---|
aPerson.oclAsType(Employee) | an object of Employee type |
oclIsInvalid () : Boolean
Returns true if self is equal to *invalid*.
Expression | Result |
---|---|
let anObject : String = null in anObject.oclIsUndefined() | false |
let anObject : String = invalid in anObject.oclIsUndefined() | true |
let anObject : String = 'null' in anObject.oclIsUndefined() | false |
oclIsKindOf( Classifier typespec ) : Boolean
Returns **true** if the type of self corresponds to the type or supertype of typespec, false otherwise. This operation allows users to check the class hierarchy of self much like would an instanceof Java.
Expression | Result |
---|---|
anEmployee.oclIsKindOf(Employee) | true |
anEmployee.oclIsKindOf(Person) | true |
aCat.oclIsKindOf(Person) | false |
oclIsTypeOf( typespec : Classifier ) : Boolean
Returns true if the type of self is the same as typespec, or false otherwise. This operation allows users to check the exact class type of self.
Expression | Result |
---|---|
anEmployee.oclIsTypeOf(Employee) | true |
anEmployee.oclIsTypeOf(Person) | false |
aCat.oclIsTypeOf(Person) | false |
oclIsUndefined () : Boolean
Returns **true** if *self* is equal to *invalid* or *null*.
Expression | Result |
---|---|
let anObject : String = null in anObject.oclIsUndefined() | true |
let anObject : String = invalid in anObject.oclIsUndefined() | true |
let anObject : String = 'null' in anObject.oclIsUndefined() | false |
<> ( object : OclAny ) : Boolean
Returns **true** if *self* is a different object from *object*.
Expression | Result |
---|---|
let a : String = 'a', b : String = 'a' in a <> b | false |
let a : Integer = 2, b : Real = 2.0 in a <> b | false |
let a : Integer = -2, b : Integer = 2 in a <> b | true |
= ( object : OclAny) : Boolean
Returns **true** if *self* is equal to *object*.
Expression | Result |
---|---|
let a : String = 'a', b : String = 'a' in a = b | true |
let a : Integer = 2, b : Real = 2.0 in a = b | true |
let a : Integer = -2, b : Integer = 2 in a = b | false |
< ( object : T ) : Boolean
Returns **true** if *self* is comparable to *object* and less than *object*.
Expression | Result |
---|---|
let a : Integer = 1, b : Integer = 2 in a < b | true |
let a : Real = 1.5, b : Integer = 2 in a < b | true |
let a : String = 'Anteater', b : String = 'Aardvark' in a < b | false |
> ( object : T ) : Boolean
Returns **true** if *self* is comparable to *object* and greater than *object*.
Expression | Result |
---|---|
let a : Integer = 1, b : Integer = 2 in a > b | false |
let a : Real = 1.5, b : Integer = 2 in a > b | false |
let a : String = 'Anteater', b : String = 'Aardvark' in a > b | true |
<= ( object : T ) : Boolean
Returns **true** if *self* is comparable to *object* and less than or equal to *object*.
Expression | Result |
---|---|
let a : Integer = 1, b : Integer = 2 in a <= b | true |
let a : Real = 1.5, b : Integer = 2 in a <= b | true |
let a : String = 'Anteater', b : String = 'Aardvark' in a <= b | false |
>= ( object : T ) : Boolean
Returns **true** if *self* is comparable to *object* and greater than or equal to *object*.
Expression | Result |
---|---|
let a : Integer = 1, b : Integer = 2 in a >= b | false |
let a : Real = 1.5, b : Integer = 2 in a >= b | false |
let a : String = 'Anteater', b : String = 'Aardvark' in a >= b | true |
Ocl operations for type *String*
- A note on Strings** : OCL Strings begin at index *1*, not *0* as in most languages. Thus *'test'.at(0)* fails in
- invalid* whereas *'test'.at(1)* yields *'t'*. Likewise, *'test'.substring(2, 2)* returns *'e'*.
concat ( s : String ) : String
Returns a string containing *self* followed by *s*.
Expression | Result |
---|---|
'concat'.concat(' ').concat('operation') | 'concat operation' |
size () : Integer
Returns the number of characters composing *self*.
Expression | Result |
---|---|
'size operation'.size() | 14 |
substring ( lower : Integer, upper : Integer ) : String
Returns a string containing all characters from *self* starting from index *lower* up to index *upper* included. Both *lower* and *upper* parameters should be contained between *1* and *self.size()* included. *lower* cannot be greater than *upper*.
Expression | Result |
---|---|
'substring operation'.substring(11, 19) | 'operation' |
'substring operation'.substring(1, 1) | 's' |
'substring operation'.substring(0, 1) | invalid |
toInteger () : Integer
Returns an Integer of value equal to *self*, or |invalid| if *self* does not represent an integer.
Expression | Result |
---|---|
'3.0'.toInteger() | invalid |
'4'.toInteger() | 4 |
'toInteger'.toInteger() | invalid |
toLower () : String
Returns *self* with all characters converted to lowercase.
Expression | Result |
---|---|
'LoWeR OpErAtIoN'.toLower() | 'lower operation' |
toReal () : Real
Returns a Real of value equal to *self*, or |invalid| if *self* does not represent a real.
Expression | Result |
---|---|
'3.0'.toReal() | 3.0 |
'4'.toReal() | 4.0 |
'toReal'.toReal() | invalid |
toUpper () : String
Returns *self* with all characters converted to uppercase.
Expression | Result |
---|---|
'UpPeR OpErAtIoN'.toUpper() | 'UPPER OPERATION' |
Ocl operations for type *Number*
In addition to the basic math functions (+, -, /, \*) are a number of advanced functions. Take note that *Number* denotes both *Integer* and *Real*, and they're substitutive unless otherwise specified.
Number::abs () : Number
Returns the absolute value of *self*, *self* if it is already a positive number.
Expression | Result |
---|---|
(-2.3).abs() | 2.3 |
-5.abs() | 5 |
Number::floor () : Integer
Returns the integer part of *self* if it is a Real, *self* if it is an Integer.
Expression | Result |
---|---|
(2.3).floor() | 2 |
(2.8).floor() | 2 |
2.floor() | 2 |
Number::max ( r : Number ) : Number
Returns the greatest number between *self* and *r*.
Expression | Result |
---|---|
6.max(3) | 6 |
6.max(5.2) | 6.0 |
(2.3).max(3) | 3.0 |
(2.3).max(5.2) | 5.2 |
Number::min ( r : Number ) : Number
Returns the lowest number between *self* and *r*.
Expression | Result |
---|---|
6.min(3) | 3 |
6.min(5.2) | 5.2 |
(2.3).min(3) | 2.3 |
(2.3).min(5.2) | 2.3 |
Number::round () : Integer
Returns the nearest integer to *self* if it is a Real, *self* if it is an Integer.
Expression | Result |
---|---|
(2.3).round() | 2 |
(2.5).round() | 3 |
(2.8).round() | 3 |
2.round() | 2 |
Integer::div ( i : Integer ) : Integer
Returns the integer quotient of the division of *self* by *i*.
Expression | Result |
---|---|
3.div(2) | 1 |
11.div(3) | 3 |
Integer::mod ( i : Integer ) : Integer
Returns the integer remainder of the division of *self* by *i*.
Expression | Result |
---|---|
3.mod(2) | 1 |
11.mod(3) | 2 |
Ocl operations for type *Collection*
Please note that OCL collections can contain the *null* value (null) but not the *invalid* value (|invalid|). Trying to add |invalid| within a new or existing collection will yield |invalid| as a result. OCL proposes four distinct kinds of collections offering all possibilities of ordering/unicity.
Collection type | Ordered | Unique |
---|---|---|
Sequence | true | false |
OrderedSet | true | true |
Bag | false | false |
Set | false | true |
any ( expr : OclExpression ) : T
Returns any element contained in *self* that validates the condition *expr*, null otherwise. Evaluation is shortcut as soon as an element validating *expr* is found. Note that the result of this on unordered collections will be random if more than one element validates *expr*.
Expression | Result |
---|---|
Sequence{1.2, 2.3, 5.2, 0.9}->any(self < 1) | 0.9 |
Sequence{1.2, 2.3, 5.2, 0.9}->any(self < 2) | 1.2 |
asBag () : Bag(T)
Returns a Bag containing all elements of *self*.
Expression | Result |
---|---|
Sequence{'3', 1, 2.0, '3'}->asBag() | Bag{2.0, '3', 1, '3'} |
Bag{1, 2.0, '3'}->asBag() | Bag{2.0, 1, '3'} |
OrderedSet{1, 2.0, '3'}->asBag() | Bag{2.0, 1, '3'} |
OrderedSet{1, 1, 2.0, '3'}->asBag() | Bag{'3', 1, 2.0} |
Set{1, 2.0, '3'}->asBag() | Bag{2.0, 1, '3'} |
Set{1, 1, 2.0, '3'}->asBag() | Bag{2.0, '3', 1} |
asOrderedSet () : OrderedSet(T)
Returns an OrderedSet containing all elements of *self*. Element ordering is preserved when possible.
Expression | Result |
---|---|
Sequence{1, 2.0, '3'}->asOrderedSet() | OrderedSet{1, '3', 2.0} |
Sequence{1, 1, 2.0, '3'}->asOrderedSet() | OrderedSet{'3', 1, 2.0} |
Bag{1, 2.0, '3'}->asOrderedSet() | OrderedSet{2.0, 1, '3'} |
Bag{1, 1, 2.0, '3'}->asOrderedSet() | OrderedSet{1, '3', 2.0} |
OrderedSet{1, 2.0, '3'}->asOrderedSet() | OrderedSet{1, 2.0, '3'} |
Set{1, 2.0, '3'}->asOrderedSet() | OrderedSet{'3', 1, 2.0} |
asSequence () : Boolean
Returns a Sequence containing all elements of *self*. Element ordering is preserved when possible.
Expression | Result |
---|---|
Sequence{1, 2.0, '3'}->asSequence() | Sequence{1, 2.0, '3'} |
Bag{1, 2.0, '3'}->asSequence() | Sequence{2.0, 1, '3'} |
OrderedSet{1, 2.0, '3'}->asSequence() | Sequence{1, 2.0, '3'} |
Set{1, 2.0, '3'}->asSequence() | Sequence{'3', 1, 2.0} |
asSet () : Set(T)
Returns a Set containing all elements of *self*.
Expression | Result |
---|---|
Sequence{1, 2.0, '3'}->asSet() | Set{1, '3', 2.0} |
Sequence{1, 1, 2.0, '3'}->asSet() | Set{'3', 1, 2.0} |
Bag{1, 2.0, '3'}->asSet() | Set{2.0, 1, '3'} |
Bag{1, 1, 2.0, '3'}->asSet() | Set{1, '3', 2.0} |
OrderedSet{1, 2.0, '3'}->asSet() | Set{1, '3', 2.0} |
OrderedSet{1, 1, 2.0, '3'}->asSet() | Set{'3', 1, 2.0} |
Set{1, 2.0, '3'}->asSet() | Set{2.0, 1, '3'} |
Set{1, 1, 2.0, '3'}->asSet() | Set{'3', 1, 2.0} |
collect ( expr : OclExpression ) : Collection(T2)
Returns a collection containing the result of applying *expr* on all elements contained in *self*.
Expression | Result |
---|---|
Sequence{'first', 'second'}->collect(toUpper()) | Sequence{'FIRST', 'SECOND'} |
collectNested ( expr : OclExpression ) : Collection(T2)
Returns a collection containing all the elements contained in *self* on which we applied the OclExpression *expr*. The results won't be flattened. The type of the resulting collection depends on the type of *self*.
For the purpose of these examples we'll assume here that we have a Class *Person* with a reference *children*. Our model contains two persons such as *person1.children = {James, Jane}* and *person2.children = {John}*.
Expression | Result |
---|---|
self.persons->collectNested(children.firstname) | Sequence{Sequence{James, Jane}, Sequence{John}} |
count ( object : T ) : Integer
Returns how many times *object* is in the collection *self*.
Expression | Result |
---|---|
Sequence{2.3, 5.2}->count(5.2) | 1 |
Set{3, 'test', 4.0, 4, 4.0, 'test'}->count(null) | 0 |
Set{3, null, 4.0, null, 'test'}->count(null) | 1 |
Bag{3, null, 4.0, null, 'test'}->count(null) | 2 |
excludes ( object : T ) : Boolean
Returns **true** if *object* is not contained in *self*, **false** otherwise.
Expression | Result |
---|---|
Sequence{2.3}->excludes(2.1) | true |
Sequence{2.0}->excludes(2) | false |
excludesAll ( c2 : Collection(T) ) : Boolean
Returns **true** if no element of *c2* is contained in *self*, **false** otherwise.
Expression | Result |
---|---|
Sequence{2.3, 5.2, 'a', 3, null}->excludesAll(Set{4, null}) | false |
Sequence{2.3, 5.2, 'a', 3}->excludesAll(Set{4, null}) | true |
excluding ( object : T ) : Collection(T)
Returns a collection containing all elements of *self* minus all occurences of *object*. **Note** : at the time of writing, the OCL standard library sports a bug which changes *OrderedSets* in *Sets* when excluding elements.
Expression | Result |
---|---|
Sequence{'b', 'a', 'b', 'c'}->excluding('b') | Sequence{'a', 'c'} |
Bag{'b', 'a', 'b', 'c'}->excluding('b') | Bag{'c', 'a'} |
OrderedSet{'b', 'a', 'b', 'c'}->excluding('b') | Set{'c', 'a'} |
Set{'b', 'a', 'b', 'c'}->excluding('b') | Set{'c', 'a'} |
exists ( expr : OclExpression ) : Boolean
Returns **true** if at least one element in *self* validates the condition *expr*, **false** otherwise. The evaluation stops as soon as one element validating *expr* is found.
Expression | Result |
---|---|
Sequence{2.3, 5.2}->exists(self > 3) | true |
flatten () : Collection(T2)
Returns a collection containing all elements of *self* recursively flattened. **Note** : at the time of writing, the OCL standard library sports a bug which changes *OrderedSets* in *Sets* when flattening.
Expression | Result |
---|---|
Sequence{Set{1, 2, 3}, Sequence{2.0, 3.0}, Bag{'test'}}->flatten() | Sequence{1, 2, 3, 2.0, 3.0, 'test'} |
Bag{Set{Bag{'test', 2, 3.0}}, Sequence{OrderedSet{2.0, 3, 1}}}->flatten() | Bag{1, 2, 3, 2.0, 3.0, 'test'} |
OrderedSet{Set{Bag{'test', 2, 3.0}}, Sequence{Set{2.0, 3, 1}}}->flatten() | Set{3.0, 2, 1, 3, 'test', 2.0} |
Set{Set{Bag{'test', 2, 3.0}}, Sequence{OrderedSet{2.0, 3, 1}}}->flatten() | Set{3.0, 2, 1, 3, 'test', 2.0} |
forAll ( expr : OclExpression ) : Boolean
Returns **true** if the all the elements contained in *self* validate the condition *expr*, **false** otherwise.
Expression | Result |
---|---|
Sequence{2.3, 5.2}->forAll(self > 3) | false |
Sequence{2.3, 5.2}->forAll(self > 1.2) | true |
includes ( object : T ) : Boolean
Returns **true** if *object* is contained in *self*, **false** otherwise.
Expression | Result |
---|---|
Sequence{2.3}->includes(2.1) | false |
Sequence{2.0}->includes(2) | true |
includesAll ( c2 : Collection(T) ) : Boolean
Returns **true** if all element of *c2* are contained in *self*, **false** otherwise.
Expression | Result |
---|---|
Sequence{2.3, 5.2, 'a', 3, null}->includesAll(Set{3, null}) | true |
Sequence{2.3, 5.2, 'a', 3}->includesAll(Set{3, null}) | false |
including ( object : T ) : Collection(T)
Returns a collection containing all elements of *self* followed by *object*. **Note** : at the time of writing, the OCL standard library sports a bug which changes *OrderedSets* in *Sets* when including elements.
Expression | Result |
---|---|
Sequence{'a', 'b'}->including('c') | Sequence{'a', 'b', 'c'} |
Bag{'a', 'b'}->including('c') | Bag{'a', 'c', 'b'} |
OrderedSet{'a', 'b'}->including('c') | Set{'a', 'c', 'b'} |
Set{'a', 'b'}->including('c') | Set{'a', 'c', 'b'} |
isEmpty () : Boolean
Returns **true** if *self* is empty, **false** otherwise.
Expression | Result |
---|---|
Sequence{2, 'a'}->isEmpty() | false |
Sequence{null}->isEmpty() | false |
Sequence{}->isEmpty() | true |
isUnique ( expr : OclExpression ) : Boolean
Returns **true** if all elements contained in *self* evaluate to a distinct value for *expr*.
Expression | Result |
---|---|
Sequence{2.3, 5.2}->isUnique(self > 3) | true |
Sequence{2.3, 5.2}->isUnique(self > 1) | false |
notEmpty () : Boolean
Returns **true** if *self* contains at least one element, **false** otherwise.
Expression | Result |
---|---|
Sequence{2, 'a'}->notEmpty() | true |
Sequence{null}->notEmpty() | true |
Sequence{}->notEmpty() | false |
one ( expr : OclExpression ) : Boolean
Returns **true** if there is only one element contained in *self* that validates the condition *expr*, **false** otherwise.
Expression | Result |
---|---|
Sequence{1.2, 2.3, 5.2, 0.9}->one(self < 1) | true |
Sequence{1.2, 2.3, 5.2, 0.9}->one(self < 2) | false |
product ( c2 : Collection(T2) ) : Set(Tuple(first : T, second : T2))
Returns a Set of Tuples which represents the cartesian product of *self* with *c2*.
Expression | Result |
---|---|
Sequence{3, 4}->product(Bag{3.0, 4.0}) | Set{Tuple{3, 3.0}, Tuple{3, 4.0}, Tuple{4, 3.0}, Tuple{4, 4.0}} |
Set{3, 4}->product(OrderedSet{3.0, 4.0}) | Set{Tuple{3, 3.0}, Tuple{3, 4.0}, Tuple{4, 3.0}, Tuple{4, 4.0}} |
reject ( expr : OclExpression ) : Collection(T)
Returns a collection with all elements of *self* except for those who validate the OclExpression *expr*.
Expression | Result |
---|---|
i > 1 ) | Sequence{1} |
i > 1 ) | Bag{1} |
i > 1 ) | OrderedSet{1} |
i > 1 ) | Set{1} |
select ( expr : OclExpression ) : Collection(T)
Returns a collection with all elements of *self* that validate the OclExpression *expr*.
Expression | Result |
---|---|
i > 1) | Sequence{2, 3} |
i > 1 ) | Bag{3, 2} |
i > 1 ) | OrderedSet{2, 3} |
i > 1 ) | Set{3, 2} |
size () : Integer
Returns the number of elements contained in *self*.
Expression | Result |
---|---|
Sequence{2.3, 5}->size() | 2 |
Sequence{}->size() | 0 |
sortedBy ( expr : OclExpression ) : Sequence(T)
Returns a sorted collection containing all elements from *self* sorted in accordance with the OclExpression *expr*. This can be used on all kind of collections yet will always yield a Sequence-typed result except for OrderedSet which returns an OrderedSet.
For the purpose of these examples we'll assume here that we have a Class *Employee* with an attribute *age*. Our model contains two employees such as *employee1.age = 24* and *employee2.age = 27*.
Expression | Result |
---|---|
self.employees->sortedBy(age) | Sequence{employee1, employee2} |
sum () : Real
Returns the sum of all elements contained in *self* if they support the '+' operation.
Expression | Result |
---|---|
Sequence{2.3, 5.2} in c->sum() | 7.5 |
Sequence{2, 4} in c->sum() | 6 |
Sequence{2, '4'} in c->sum() | invalid |
Ocl operations for type *Sequence*
= ( seq : Sequence(T) ) : Boolean
Returns **true** if *self* contains the very same objects as *seq* in the very same order as they are in *seq*.
Expression | Result |
---|---|
Sequence{4, 5, 'test'} = Sequence{4, 5, 'test'} | true |
Sequence{4, 5, 'test'} = Sequence{4, 'test', 5} | false |
Sequence{4, 5, 'test', 5} = Sequence{4, 5, 'test'} | false |
<> ( seq : Sequence(T) ) : Boolean
Returns **true** if *self* does not contain the same objects as *seq*, or if these objects are not in the same order as they are in *seq*.
Expression | Result |
---|---|
Sequence{4, 5, 'test'} = Sequence{4, 5, 'test'} | false |
Sequence{4, 5, 'test'} = Sequence{4, 'test', 5} | true |
Sequence{4, 5, 'test', 5} = Sequence{4, 5, 'test'} | true |
append ( object : T ) : Sequence(T)
Returns a Sequence containing all elements of *self* followed by *object*.
Expression | Result |
---|---|
Sequence{'a', 'b'}->append('c') | Sequence{'a', 'b', 'c'} |
at ( index : Integer ) : T
Returns the element of *self* at the *index* position.
Expression | Result |
---|---|
Sequence{'a', 'b'}->at(1) | a |
first () : T
Returns the first element of *self*.
Expression | Result |
---|---|
Sequence{1, 2.0, '3'}->first() | 1 |
indexOf ( object : T ) : Integer
Returns the position of *object* in sequence *self*.
Expression | Result |
---|---|
Sequence{'a', 'b'}->indexOf('a') | 1 |
insertAt ( index : Integer, object : T) : Sequence(T)
Returns a Sequence containing *self* with *object* inserted at the *index* position.
Expression | Result |
---|---|
Sequence{'a', 'b'}->insertAt(0, 'c') | invalid |
Sequence{'a', 'b'}->insertAt(1, 'c') | Sequence{'c', 'a', 'b'} |
Sequence{'a', 'b'}->insertAt(3, 'c') | Sequence{'a', 'b', 'c'} |
Sequence{'a', 'b'}->insertAt(4, 'c') | invalid |
last () : T
Returns the last element of *self*.
Expression | Result |
---|---|
Sequence{1, 2.0, '3'}->last() | '3' |
prepend ( object : T ) : Sequence(T)
Returns a Sequence containing *object* followed by all elements of *self* .
Expression | Result |
---|---|
Sequence{'a', 'b'}->prepend('c') | Sequence{'c', 'a', 'b'} |
subSequence ( startIndex : Integer, endIndex : Integer ) : Sequence(T)
Returns a Sequence containing all elements of *self* between the positions 'startIndex' and 'endIndex'.
Expression | Result |
---|---|
Sequence{'a', 'b', 'c', 'd'}->subSequence(2, 3) | Sequence{'b', 'c'} |
Sequence{'a', 'b', 'c', 'd'}->subSequence(4, 4) | Sequence{'d'} |
union ( seq : Sequence(T) ) : Sequence(T)
Returns a Sequence containing all elements of *self* followed by all elements of *seq*.
Expression | Result |
---|---|
Sequence{'a', 'b', 'a'}->union(Sequence{'b', 'c'}) | Sequence{'a', 'b', 'a', 'b', 'c'} |
Ocl operations for type *Bag*
= ( bag : Bag(T) ) : Boolean
Returns **true** if *self* contains the same objects as *bag* in the same quantities.
Expression | Result |
---|---|
Bag{4, 5, 'test', 4} = Bag{4, 'test', 5, 4} | true |
Bag{4, 5, 'test'} = Bag{4, 'test', 5} | true |
Bag{4, 5, 'test', 5} = Bag{4, 5, 'test'} | false |
<> ( bag : Bag(T) ) : Boolean
Returns **true** if *self* does not contain the same objects as *bag* in the same quantities.
Expression | Result |
---|---|
Bag{4, 5, 'test'} = Bag{4, 5, 'test'} | false |
Bag{4, 5, 'test'} = Bag{4, 'test', 5} | false |
Bag{4, 5, 'test', 5} = Bag{4, 5, 'test'} | true |
intersection ( bag : Bag(T) ) : Bag(T)
Returns a Bag containing all elements of *self* that are also contained by *bag*.
Expression | Result |
---|---|
Bag{'a', 'b', 'a'}->intersection(Bag{'a', 'b'}) | Bag{'a', 'b'} |
Bag{'a', 'b', 'a', 'b'}->intersection(Bag{'a', 'b', 'b'}) | Bag{'b', 'a', 'b'} |
intersection ( set : Set(T) ) : Set(T)
Returns a Set containing all elements of *self* that are also contained by *set*.
Expression | Result |
---|---|
Bag{'a', 'b', 'a'}->intersection(Set{'a', 'b', 'c'}) | Set{'a', 'b'} |
union ( bag : Bag(T) ) : Bag(T)
Returns a Bag containing all elements of *self* and all elements of *bag*.
Expression | Result |
---|---|
Bag{'a', 'b', 'a'}->union(Bag{'b', 'c'}) | Bag{'b', 'a', 'b', 'a', 'c'} |
union ( set : Set(T) ) : Bag(T)
Returns a Bag containing all elements of *self* and all elements of *set*.
Expression | Result |
---|---|
Bag{'a', 'b', 'a'}->union(Set{'b', 'c'}) | Bag{'b', 'c', 'a', 'b', 'a'} |
Ocl operations for type *OrderedSet*
= ( set : Set(T) ) : Boolean
Returns **true** if *self* contains the same objects as *set*.
Expression | Result |
---|---|
OrderedSet{3, 5, 4} = Set{3, 5, 4} | true |
OrderedSet{3, 5, 4} = Set{4, 3, 5, 4, 4} | true |
OrderedSet{3, 5, 4} = Set{2, 5 ,4, 4} | false |
= ( orderedset : OrderedSet(T) ) : Boolean
Returns **true** if *self* contains the same objects as *orderedset* regardless of element ordering.
Expression | Result |
---|---|
OrderedSet{3, 5, 4} = OrderedSet{3, 5, 4} | true |
OrderedSet{4, 5, 'test', 5} = OrderedSet{4, 5, 'test'} | true |
OrderedSet{4, 5, 'test'} = OrderedSet{4, 'test', 5} | true |
OrderedSet{4, 5, 'test'} = OrderedSet{4, 'test'} | false |
<> ( set : Set(T) ) : Boolean
Returns **true** if *self* does not contain the same objects as *set*.
Expression | Result |
---|---|
OrderedSet{4, 5, 'test', 4} <> Set{4, 5, 'test'} | false |
OrderedSet{4, 5, 'test', 4} <> Set{4, 'test', 5, 4} | false |
OrderedSet{4, 5, 'test', 4} <> Set{4, 5, 'test', 2} | true |
<> ( orderedset : OrderedSet(T) ) : Boolean
Returns **true** if *self* does not contain the same objects as *orderedset*.
Expression | Result |
---|---|
OrderedSet{4, 5, 'test', 4} <> OrderedSet{4, 5, 'test') | false |
OrderedSet{4, 5, 'test', 4} <> OrderedSet{4, 'test', 5, 4} | false |
OrderedSet{4, 5, 'test', 4} <> OrderedSet{4, 5, 'test', 2} | true |
`-` ( set : Set(T) ) : Set(T)
Returns a Set containing all elements of *self* minus all elements of *set*.
Expression | Result |
---|---|
OrderedSet{'a', 'b', 'c'} - Set{'c', 'a'} | Set{'b'} |
append ( object : T ) : OrderedSet(T)
Returns an OrderedSet containing all elements of *self* followed by *object*.
Expression | Result |
---|---|
OrderedSet{'a', 'b'}->append('c') | OrderedSet{'a', 'b', 'c'} |
at ( index : Integer ) : T
Returns the element of *self* located at position *index* in the collection.
Expression | Result |
---|---|
OrderedSet{'a', 'b'}->at(1) | 'a' |
first () : T
Returns the first element of *self*.
Expression | Result |
---|---|
OrderedSet{1, 2.0, '3'}->first() | 1 |
indexOf ( object : T ) : Integer
Returns the position of *object* in *self*.
Expression | Result |
---|---|
OrderedSet{'a', 'b'}->indexOf('a') | 1 |
insertAt ( index : Integer, object : T ) : OrderedSet(T)
Returns an OrderedSet containing *self* with *object* inserted at the *index* position.
Expression | Result |
---|---|
OrderedSet{'a', 'b'}->insertAt(1, 'c') | OrderedSet{'c', 'a', 'b'} |
OrderedSet{'a', 'b'}->insertAt(3, 'c') | OrderedSet{'a', 'b', 'c'} |
intersection ( bag : Bag(T) ) : Set(T)
Returns a Set containing all elements of *self* that are also contained by *bag*.
Expression | Result |
---|---|
OrderedSet{'a', 'b', 'a'}->intersection(Bag{'a', 'b'}) | Set{'a', 'b'} |
intersection ( set : Set(T) ) : Set(T)
Returns a Set containing all elements of *self* that are also contained by *set*.
Expression | Result |
---|---|
OrderedSet{'a', 'b', 'a'}->intersection(Set{'a', 'b'}) | Set{'a', 'b'} |
last () : T
Returns the last element of *self*.
Expression | Result |
---|---|
OrderedSet{1, 2.0, '3'}->last() | '3' |
prepend ( object : T ) : OrderedSet(T)
Returns an OrderedSet containing *object* followed by all elements of *self*.
Expression | Result |
---|---|
OrderedSet{'a', 'b'}->prepend('c') | OrderedSet{'c', 'a', 'b'} |
subOrderedSet ( startIndex : Integer, endIndex : Integer ) : OrderedSet(T)
Returns an OrderedSet containing all elements of *self* between the positions *startIndex* and *endIndex*.
Expression | Result |
---|---|
OrderedSet{'a', 'b', 'c', 'd'}->subOrderedSet(2, 3) | OrderedSet{'b', 'c'} |
OrderedSet{'a', 'b', 'c', 'd'}->subOrderedSet(4, 4) | OrderedSet{'d'} |
symmetricDifference ( set : Set(T) ) : Set(T)
Returns a Set containing all of the elements of *self* and *set* that are not present in both.
Expression | Result |
---|---|
OrderedSet{'b', 'a', 'b', 'c'}->symmetricDifference(Set{'a', 'c', 'd'}) | Set{'d', 'b'} |
union ( bag : Bag(T) ) : Bag(T)
Returns a Bag containing all elements of *self* followed by all elements of *bag*.
Expression | Result |
---|---|
OrderedSet{'a', 'b', 'a'}->union(Bag{'b', 'c'}) | Bag{'a', 'c', 'b', 'b'} |
union ( set : Set(T) ) : Set(T)
Returns a Set containing all elements of *self* followed by all elements of *set*.
Expression | Result |
---|---|
OrderedSet{'a', 'b', 'a'}->union(Set{'b', 'c'}) | Set{'a', 'c', 'b'} |
Ocl operations for type *Set*
= ( set : Set(T) ) : Boolean
Returns **true** if *self* contains the same objects as *set*.
Expression | Result |
---|---|
Set{3, 5, 4} = Set{3, 5, 4} | true |
Set{3, 5, 4} = Set{3, 4, 4, 5} | true |
Set{3, 5, 4} = Set{2, 3, 5, 4} | false |
<> ( set : Set(T) ) : Boolean
Returns **true** if *self* does not contain the same objects as *set*.
Expression | Result |
---|---|
Set{4, 5, 'test', 4} <> Set{4, 5, 'test'} | false |
Set{4, 5, 'test', 4} <> Set{5, 4, 'test', 4} | false |
Set{4, 5, 'test', 4} <> Set{4, 'test', 5, 2} | true |
`-` ( set : Set(T) ) : Set(T)
Returns a Set containing all elements of *self* minus all elements of *set*.
Expression | Result |
---|---|
Set{'a', 'b', 'c'} - Set{'c', 'a'} | Set{'b'} |
intersection ( bag : Bag(T) ) : Set(T)
Returns a Bag containing all elements of *self* that are also contained in *bag*.
Expression | Result |
---|---|
Set{'a', 'b', 'a'}->intersection(Bag{'a', 'b', 'c'}) | Set{'a', 'b'} |
intersection ( set : Set(T) ) : Set(T)
Returns a Set containing all elements of *self* that are also contained in *set*.
Expression | Result |
---|---|
Set{'a', 'b', 'a'}->intersection(Set{'a', 'b', 'c'}) | Set{'b', 'a'} |
symmetricDifference ( set : Set(T) ) : Set(T)
Returns a Set containing all of the elements of *self* and *set* that are not present in both.
Expression | Result |
---|---|
Set{'b', 'a', 'b', 'c'}->symmetricDifference(Set{'a', 'c', 'd'}) | Set{'b', 'd'} |
union ( bag : Bag(T) ) : Bag(T)
Returns a Bag containing all elements of *self* and all elements of *bag*.
Expression | Result |
---|---|
Set{'a', 'b', 'a'}->union(Bag{'b', 'c'}) | Bag{'a', 'c', 'b', 'b'} |
union ( set : Set(T) ) : Set(T)
Returns a Set containing all elements of *self* and all elements of *set*.
Expression | Result |
---|---|
Set{'a', 'b', 'a'}->union(Set{'b', 'c'}) | Set{'a', 'c', 'b'} |
Ocl operations for type *Boolean*
And
And | True | False | Invalid |
---|---|---|---|
True | true | false | true |
False | false | false | false |
Invalid | invalid | false | invalid |
Implies
Implies | True | False | Invalid |
---|---|---|---|
True | true | false | invalid |
False | true | true | true |
Invalid | true | invalid | invalid |
Or
Or | True | False | Invalid |
---|---|---|---|
True | true | true | true |
False | true | false | invalid |
Invalid | true | invalid | invalid |
Not
Not | Result |
---|---|
True | false |
False | true |
Invalid | invalid |
Xor
Xor | True | False | Invalid |
---|---|---|---|
True | false | true | invalid |
False | true | false | invalid |
Invalid | invalid | invalid | invalid |
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