...one of the most highly
regarded and expertly designed C++ library projects in the
world.
— Herb Sutter and Andrei
Alexandrescu, C++
Coding Standards
The main task of a lexer normally is to recognize tokens in the input.
Traditionally this has been complemented with the possibility to execute
arbitrary code whenever a certain token has been detected. Spirit.Lex
has been designed to support this mode of operation as well. We borrow
from the concept of semantic actions for parsers (Spirit.Qi)
and generators (Spirit.Karma). Lexer semantic actions
may be attached to any token definition. These are C++ functions or function
objects that are called whenever a token definition successfully recognizes
a portion of the input. Say you have a token definition D
,
and a C++ function f
, you
can make the lexer call f
whenever it matches an input by attaching f
:
D[f]
The expression above links f
to the token definition, D
.
The required prototype of f
is:
void f (Iterator& start, Iterator& end, pass_flag& matched, Idtype& id, Context& ctx);
where:
Iterator&
start
This is the iterator pointing to the begin of the matched range in
the underlying input sequence. The type of the iterator is the same
as specified while defining the type of the lexertl::actor_lexer<...>
(its first template parameter).
The semantic action is allowed to change the value of this iterator
influencing, the matched input sequence.
Iterator&
end
This is the iterator pointing to the end of the matched range in
the underlying input sequence. The type of the iterator is the same
as specified while defining the type of the lexertl::actor_lexer<...>
(its first template parameter).
The semantic action is allowed to change the value of this iterator
influencing, the matched input sequence.
pass_flag&
matched
This value is pre/initialized to pass_normal
.
If the semantic action sets it to pass_fail
this behaves as if the token has not been matched in the first place.
If the semantic action sets this to pass_ignore
the lexer ignores the current token and tries to match a next token
from the input.
Idtype&
id
This is the token id of the type Idtype (most of the time this will
be a std::size_t
) for the matched token.
The semantic action is allowed to change the value of this token
id, influencing the if of the created token.
Context&
ctx
This is a reference to a lexer specific, unspecified type, providing the context for the current lexer state. It can be used to access different internal data items and is needed for lexer state control from inside a semantic action.
When using a C++ function as the semantic action the following prototypes are allowed as well:
void f (Iterator& start, Iterator& end, pass_flag& matched, Idtype& id); void f (Iterator& start, Iterator& end, pass_flag& matched); void f (Iterator& start, Iterator& end); void f ();
Important | |
---|---|
In order to use lexer semantic actions you need to use type |
The last parameter passed to any lexer semantic action is a reference to
an unspecified type (see the Context
type in the table above). This type is unspecified because it depends on
the token type returned by the lexer. It is implemented in the internals
of the iterator type exposed by the lexer. Nevertheless, any context type
is expected to expose a couple of functions allowing to influence the behavior
of the lexer. The following table gives an overview and a short description
of the available functionality.
Table 8. Functions exposed by any context passed to a lexer semantic action
Name |
Description |
---|---|
|
The function |
|
The function |
|
The function |
|
The function |
|
The functions |
|
The functions |
Even if it is possible to write your own function object implementations (i.e. using Boost.Lambda or Boost.Bind), the preferred way of defining lexer semantic actions is to use Boost.Phoenix. In this case you can access the parameters described above by using the predefined Spirit placeholders:
Table 9. Predefined Phoenix placeholders for lexer semantic actions
Placeholder |
Description |
---|---|
|
Refers to the iterator pointing to the beginning of the matched input sequence. Any modifications to this iterator value will be reflected in the generated token. |
|
Refers to the iterator pointing past the end of the matched input sequence. Any modifications to this iterator value will be reflected in the generated token. |
|
References the value signaling the outcome of the semantic action.
This is pre-initialized to |
|
Refers to the token id of the token to be generated. Any modifications to this value will be reflected in the generated token. |
|
Refers to the value the next token will be initialized from. Any modifications to this value will be reflected in the generated token. |
|
Refers to the lexer state the input has been match in. Any modifications to this value will be reflected in the lexer itself (the next match will start in the new state). The currently generated token is not affected by changes to this variable. |
|
References the end iterator of the overall lexer input. This value cannot be changed. |
The context object passed as the last parameter to any lexer semantic action is not directly accessible while using Boost.Phoenix expressions. We rather provide predefined Phoenix functions allowing to invoke the different support functions as mentioned above. The following table lists the available support functions and describes their functionality:
Table 10. Support functions usable from Phoenix expressions inside lexer semantic actions
Plain function |
Phoenix function |
Description |
---|---|---|
|
|
The function |
|
|
The function |
|
|
The function |