Intel® Fortran Compiler 16.0 User and Reference Guide
Statement and Attribute: Specifies that entities in a module can be accessed from outside the module (by specifying a USE statement).
The PUBLIC attribute can be specified in a type declaration statement or a PUBLIC statement, and takes one of the following forms:
Type Declaration Statement:
type,[att-ls,] PUBLIC [, att-ls] :: entity [, entity]...
Statement:
PUBLIC [[::] entity [, entity] ...]
type |
Is a data type specifier. |
att-ls |
Is an optional list of attribute specifiers. |
entity |
Is one of the following:
In statement form, an entity can also be a generic identifier (a generic name, defined operator, or defined assignment). |
The PUBLIC attribute can only appear in the scoping unit of a module.
Only one PUBLIC statement without an entity list is permitted in the scoping unit of a module; it sets the default accessibility of all entities in the module.
If no PRIVATE statements are specified in a module, the default is PUBLIC accessibility.
If a derived type is declared PUBLIC in a module, but its components are declared PRIVATE, any scoping unit accessing the module though use association (or host association) can access the derived-type definition, but not its components.
If a module procedure has a dummy argument or a function result of a type that has PRIVATE accessibility, the module procedure must have PRIVATE accessibility. If the module has a generic identifier, it must also be declared PRIVATE.
If a procedure has a generic identifier, the accessibility of the procedure's specific name is independent of the accessibility of its generic identifier. One can be declared PRIVATE and the other PUBLIC.
The accessibility of the components of a type is independent of the accessibility of the type name. The following combinations are possible:
A private type name with a private component
A public type name with a public component
A private type name with a public component
A public type name with a private component
The accessibility of a type does not affect, and is not affected by, the accessibility of its components and type-bound procedures. If a type definition is private, then the type name, and thus the structure constructor for the type, are accessible only within the module containing the definition.
The following examples show type declaration statements specifying the PUBLIC and PRIVATE attributes:
REAL, PRIVATE :: A, B, C INTEGER, PUBLIC :: LOCAL_SUMS
The following is an example of the PUBLIC and PRIVATE statements:
MODULE SOME_DATA REAL ALL_B PUBLIC ALL_B TYPE RESTRICTED_DATA REAL LOCAL_C(50) END TYPE RESTRICTED_DATA PRIVATE RESTRICTED_DATA END MODULE
The following example shows a PUBLIC type with PRIVATE components:
MODULE MATTER TYPE ELEMENTS PRIVATE INTEGER C, D END TYPE ... END MODULE MATTER
In this case, components C and D are private to type ELEMENTS, but type ELEMENTS is not private to MODULE MATTER. Any program unit that uses the module MATTER, can declare variables of type ELEMENTS, and pass as arguments values of type ELEMENTS.
The following shows another example:
! LENGTH in module VECTRLEN calculates the length of a 2-D vector. ! The module contains both private and public procedures MODULE VECTRLEN PRIVATE SQUARE PUBLIC LENGTH CONTAINS SUBROUTINE LENGTH(x,y,z) REAL,INTENT(IN) x,y REAL,INTENT(OUT) z CALL SQUARE(x,y) z = SQRT(x + y) RETURN END SUBROUTINE SUBROUTINE SQUARE(x1,y1) REAL x1,y1 x1 = x1**2 y1 = y1**2 RETURN END SUBROUTINE END MODULE