Object Oriented Programming
See Object Oriented Programming in the reference manual.
Note
Classes defined in HOC may be accessed in Python via h.ClassName
.
begintemplate
- Syntax:
begintemplate
- Description:
Declare a new class or data structure. Any HOC code may appear between the
begintemplate
andendtemplate
declarations. Classes are instantiated with the new statement.Example:
begintemplate String public s strdef s proc init() { if (numarg()) { s = $s1 } } endtemplate String objref s s = new String("Hello") print s.swill print “Hello” to the screen.
endtemplate
- Syntax:
endtemplate
- Description:
Closes the class declaration
See also
objectvar
- Syntax:
objectvar
- Description:
Synonym for objref.
objref
- Syntax:
objref
- Description:
A comma separated list declarations of object variables. Object variables are labels (pointers, references) to the actual objects. Thus
o1 = o2
merely states that o1 and o2 are labels for the same object. Objects are created with thenew
statement. When there are no labels for an object the object is deleted. The keywordsobjectvar
andobjref
are synonyms.An object has a unique name that can be determined with the
print obj
statement and consists of the template name followed by an index number in brackets. This name can be used in place of an objref.Example:
objref vec, g vec = new Vector(20) g = new Graph()creates a vector object and a graph object with pointers named vec and g, respectively.
See also
new, begintemplate,
List
, Point Processes and Artificial Cells,SectionList
public
- Syntax:
public
- Description:
A comma separated list of all the names in a class that are available outside the class.
See also
external
- Syntax:
external
- Description:
A comma separated list of functions, procedures, iterators, objects, strings, or variables defined at the top level that can be executed within this class. This statement is optional but if it exists must follow the begintemplate or public line. This allows an object to get information from the outside and can be used as information shared by all instances. External iterators can only use local variables and arguments.
Example:
global_ra = 100 func ra_value() {return global_ra} begintemplate Cell external ra_value create axon proc init() { forall Ra = ra_value() /* just the axon */ } endtemplate Cell
execute1()
can be used to obtain external information as well.
new
- Syntax:
objectvariable = new Object(args)
- Description:
Creates a new object/instance of type/class Object and makes objectvariable label/point to it. When the object no longer is pointed to, it no longer exists.
Example:
objref vec vec = new Vector(30)creates a vector of size 30 with its pointer named
vec
.
- init()
- Syntax:
proc init() { ... }
- Description:
If an init procedure is defined in a template, then it is called whenever an instance of the template is created.
See also
- unref()
- Syntax:
proc unref() { print this, " refcount=", $1 }
- Description:
If an unref procedure is defined in a template, then it is called whenever the reference count of an object of that type is decremented. The reference count is passed as the argument. When the count is 0, the object will be destroyed on return from unref. This is useful in properly managing objects which mutually reference each other. Note that unref may be called recursively.
NULLobject
- Syntax:
objref nil
- Description:
When an object variable is first declared, it refers to NULLobject until it has been associated with an instance of some object class by a new statement. A NULLobject object variable can be useful as an argument to certain class methods.
Example:
objref nil print nil // prints NULLobject
- this
- Syntax:
objref this
- Description:
Declared inside a template (see begintemplate). Allows the object to call a procedure with itself as one of the arguments.
Example:
begintemplate Demothis public printname objref this proc init() { printname() } proc printname() { print "I am ", this } endtemplate Demothis objref foo[3] print "at creation" for i=0,2 foo[i]=new Demothis() print "check existing" for i=0,2 foo[i].printname()