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8.4 Use Clauses
1
[A use_package_clause
achieves direct visibility of declarations that appear in the visible
part of a package; a use_type_clause
achieves direct visibility of the primitive operators of a type.]
Language Design Principles
1.a
{equivalence of use_clauses
and selected_components} If and only if the visibility
rules allow P.A, "use P;" should make A directly visible
(barring name conflicts). This means, for example, that child library
units, and generic formals of a formal package whose formal_package_actual_part
is (<>), should be made visible by a use_clause
for the appropriate package.
1.b
{Beaujolais effect} The
rules for use_clauses were carefully
constructed to avoid so-called Beaujolais effects, where the addition
or removal of a single use_clause,
or a single declaration in a "use"d package, would change the
meaning of a program from one legal interpretation to another.
Syntax
2
use_clause
::= use_package_clause |
use_type_clause
3
use_package_clause
::= use package_name {,
package_name};
4
use_type_clause
::= use type subtype_mark {,
subtype_mark};
Legality Rules
5
A package_name
of a use_package_clause shall denote
a package.
5.a
Ramification: This includes
formal packages.
Static Semantics
6
{scope (of a use_clause)}
For each
use_clause,
there is a certain region of text called the
scope of the
use_clause.
For a
use_clause within a
context_clause
of a
library_unit_declaration or
library_unit_renaming_declaration,
the scope is the entire declarative region of the declaration. For a
use_clause within a
context_clause
of a body, the scope is the entire body [and any subunits (including
multiply nested subunits). The scope does not include
context_clauses
themselves.]
7
For a use_clause
immediately within a declarative region, the scope is the portion of
the declarative region starting just after the use_clause
and extending to the end of the declarative region. However, the scope
of a use_clause in the private part
of a library unit does not include the visible part of any public descendant
of that library unit.
7.a
Reason:
The exception echoes the similar exception for ``immediate scope
(of a declaration)'' (see 8.2). It makes use_clauses
work like this:
7.b
package P is
type T is range 1..10;
end P;
7.c
with P;
package Parent is
private
use P;
X : T;
end Parent;
7.d
package Parent.Child is
Y : T; -- Illegal!
Z : P.T;
private
W : T;
end Parent.Child;
7.e
The declaration of Y is illegal
because the scope of the ``use P'' does not include that place,
so T is not directly visible there. The declarations of X, Z, and W are
legal.
8
{potentially use-visible}
For each package denoted by a
package_name
of a
use_package_clause whose scope
encloses a place, each declaration that occurs immediately within the
declarative region of the package is
potentially use-visible
at this place if the declaration is visible at this place. For each type
T or
T'Class determined by a
subtype_mark
of a
use_type_clause whose scope
encloses a place, the declaration of each primitive operator of type
T is potentially use-visible at this place if its declaration
is visible at this place.
8.a
Ramification: Primitive
subprograms whose defining name is an identifier
are not made potentially visible by a use_type_clause.
A use_type_clause is only for operators.
8.b
The semantics described here
should be similar to the semantics for expanded names given in 4.1.3,
``Selected Components'' so as to achieve
the effect requested by the ``principle of equivalence of use_clauses
and selected_components.'' Thus,
child library units and generic formal parameters of a formal package
are potentially use-visible when their enclosing package is use'd.
8.c
The "visible at that place"
part implies that applying a use_clause
to a parent unit does not make all of its children use-visible -- only
those that have been made visible by a with_clause.
It also implies that we don't have to worry about hiding in the definition
of "directly visible" -- a declaration cannot be use-visible
unless it is visible.
8.d
Note that "use type
T'Class;" is equivalent to "use type T;", which
helps avoid breaking the generic contract model.
9
{use-visible}
{visibility (use clause)}
A declaration is
use-visible if it is potentially
use-visible, except in these naming-conflict cases:
10
- A potentially use-visible declaration
is not use-visible if the place considered is within the immediate scope
of a homograph of the declaration.
11
- Potentially use-visible declarations
that have the same identifier are
not use-visible unless each of them is an overloadable declaration.
11.a
Ramification: Overloadable
declarations don't cancel each other out, even if they are homographs,
though if they are not distinguishable by formal parameter names or the
presence or absence of default_expressions,
any use will be ambiguous. We only mention identifiers
here, because declarations named by operator_symbols
are always overloadable, and hence never cancel each other. Direct visibility
is irrelevant for character_literals.
Dynamic Semantics
12
{elaboration (use_clause)
[partial]} The elaboration of a
use_clause
has no effect.
Examples
13
Example of a
use clause in a context clause:
14
with Ada.Calendar; use Ada;
15
Example of a use
type clause:
16
use type Rational_Numbers.Rational; -- see 7.1
Two_Thirds: Rational_Numbers.Rational := 2/3;
16.a
Ramification: In ``use
X, Y;'', Y cannot refer to something made visible by the ``use''
of X. Thus, it's not (quite) equivalent to ``use X; use
Y;''.
16.b
If a given declaration is already
immediately visible, then a use_clause
that makes it potentially use-visible has no effect. Therefore, a use_type_clause
for a type whose declaration appears in a place other than the visible
part of a package has no effect; it cannot make a declaration use-visible
unless that declaration is already immediately visible.
16.c
"Use type
S1;" and "use type S2;" are equivalent if
S1 and S2 are both subtypes of the same type. In particular, "use
type S;" and "use type S'Base;" are
equivalent.
16.d
Reason: We considered
adding a rule that prevented several declarations of views of the same
entity that all have the same semantics from cancelling each other out.
For example, if a (possibly implicit) subprogram_declaration
for "+" is potentially use-visible, and a fully conformant
renaming of it is also potentially use-visible, then they (annoyingly)
cancel each other out; neither one is use-visible. The considered rule
would have made just one of them use-visible. We gave up on this idea
due to the complexity of the rule. It would have had to account for both
overloadable and non-overloadable renaming_declarations,
the case where the rule should apply only to some subset of the declarations
with the same defining name, and the case of subtype_declarations
(since they are claimed to be sufficient for renaming of subtypes).
Extensions to Ada 83
16.e
{extensions to Ada 83}
The use_type_clause
is new to Ada 95.
Wording Changes from Ada 83
16.f
The phrase ``omitting from this
set any packages that enclose this place'' is no longer necessary to
avoid making something visible outside its scope, because we explicitly
state that the declaration has to be visible in order to be potentially
use-visible.
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