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5.5 Loop Statements
1
A loop_statement
includes a sequence_of_statements
that is to be executed repeatedly, zero or more times.
Syntax
2
loop_statement
::=
[
loop_statement_identifier:]
[
iteration_scheme]
loop
sequence_of_statements
end loop [
loop_identifier];
3
iteration_scheme
::= while condition
|
for loop_parameter_specification
4
loop_parameter_specification
::=
defining_identifier in [
reverse]
discrete_subtype_definition
5
If a loop_statement
has a loop_statement_identifier,
then the identifier shall be repeated
after the end loop; otherwise, there shall not be an identifier
after the end loop.
Static Semantics
6
A
loop_parameter_specification
declares a
loop parameter, which is an object whose subtype is
that defined by the
discrete_subtype_definition.
Dynamic Semantics
7
For the execution of a
loop_statement,
the
sequence_of_statements is executed
repeatedly, zero or more times, until the
loop_statement
is complete. The
loop_statement
is complete when a transfer of control occurs that transfers control
out of the loop, or, in the case of an
iteration_scheme,
as specified below.
8
For the execution of a
loop_statement
with a
while iteration_scheme,
the condition is evaluated before each execution of the
sequence_of_statements;
if the value of the
condition is
True, the
sequence_of_statements
is executed; if False, the execution of the
loop_statement
is complete.
9
For the
execution of a
loop_statement with
a
for iteration_scheme, the
loop_parameter_specification is
first elaborated. This elaboration creates the loop parameter and elaborates
the
discrete_subtype_definition.
If the
discrete_subtype_definition
defines a subtype with a null range, the execution of the
loop_statement
is complete. Otherwise, the
sequence_of_statements
is executed once for each value of the discrete subtype defined by the
discrete_subtype_definition (or
until the loop is left as a consequence of a transfer of control).
Prior
to each such iteration, the corresponding value of the discrete subtype
is assigned to the loop parameter. These values are assigned in increasing
order unless the reserved word
reverse is present, in which case
the values are assigned in decreasing order.
10
6 A loop parameter is a
constant; it cannot be updated within the sequence_of_statements
of the loop (see 3.3).
11
7 An object_declaration
should not be given for a loop parameter, since the loop parameter is
automatically declared by the loop_parameter_specification.
The scope of a loop parameter extends from the loop_parameter_specification
to the end of the loop_statement,
and the visibility rules are such that a loop parameter is only visible
within the sequence_of_statements
of the loop.
12
8 The discrete_subtype_definition
of a for loop is elaborated just once. Use of the reserved word reverse
does not alter the discrete subtype defined, so that the following iteration_schemes
are not equivalent; the first has a null range.
13
for J in reverse 1 .. 0
for J in 0 .. 1
Examples
14
Example of a
loop statement without an iteration scheme:
15
loop
Get(Current_Character);
exit when Current_Character = '*';
end loop;
16
Example of a loop
statement with a while iteration scheme:
17
while Bid(N).Price < Cut_Off.Price loop
Record_Bid(Bid(N).Price);
N := N + 1;
end loop;
18
Example of a loop
statement with a for iteration scheme:
19
for J in Buffer'Range loop -- works even with a null range
if Buffer(J) /= Space then
Put(Buffer(J));
end if;
end loop;
20
Example of a loop
statement with a name:
21
Summation:
while Next /= Head loop -- see 3.10.1
Sum := Sum + Next.Value;
Next := Next.Succ;
end loop Summation;
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