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Semantic Actions with Generators

Description

Semantic actions may be attached to any point in the grammar specification. They allow to call a function or function object in order to provide the value output by the generator attached to the semantic action. Semantic actions are associated with a generator using the syntax g[], where g is an arbitrary generator expression.

Header
// forwards to <boost/spirit/home/karma/action.hpp>
#include <boost/spirit/include/karma_action.hpp>

Also, see Include Structure.

Model of

UnaryGenerator

Notation

a, g

Instances of a generator, G

A

Attribute type exposed by a generator, a

fa

A (semantic action) function with signature void(Attrib&, Context&, bool&). The third parameter is a boolean flag that can be set to false to force the generator to fail. Both Context and the boolean flag are optional. For more information see below.

Attrib

The attribute to be used to generate output from.

Context

The type of the generator execution context. For more information see below.

Expression Semantics

Semantics of an expression is defined only where it differs from, or is not defined in UnaryGenerator.

Expression

Semantics

g[fa]

Call semantic action, fa before invoking g. The function or function object fa is expected to provide the value to generate output from to the generator g.

The possible signatures for functions to be used as semantic actions are:

template <typename Attrib>
void fa(Attrib& attr);

template <typename Attrib, typename Context>
void fa(Attrib& attr, Context& context);

template <typename Attrib, typename Context>
void fa(Attrib& attr, Context& context, bool& pass);

The function or function object is expected to return the value to generate output from by assigning it to the first parameter, attr. Here Attrib is the attribute type of the generator attached to the semantic action.

The type Context is the type of the generator execution context. This type is unspecified and depends on the context the generator is invoked in. The value context is used by semantic actions written using Boost.Phoenix to access various context dependent attributes and values. For more information about Boost.Phoenix placeholder expressions usable in semantic actions see Nonterminal.

The third parameter, pass, can be used by the semantic action to force the associated generator to fail. If pass is set to false the action generator will immediately return false as well, while not invoking g and not generating any output.

Attributes

Expression

Attribute

a[fa]

a: A --> a[fa]: A

Complexity

The complexity of the action generator is defined by the complexity of the generator the semantic action is attached to and the complexity of the function or function object used as the semantic action.

[Important] Important

Please note that the use of semantic actions in Spirit.Karma generally forces the library to create a copy of the attribute, which might be a costly operation. Always consider using other means of associating a value with a particular generator first.

Example
[Note] Note

The test harness for the example(s) below is presented in the Basics Examples section.

Some includes:

#include <boost/spirit/include/karma.hpp>
#include <boost/spirit/include/support_utree.hpp>
#include <boost/spirit/include/phoenix_core.hpp>
#include <boost/spirit/include/phoenix_operator.hpp>
#include <boost/fusion/include/std_pair.hpp>
#include <iostream>
#include <string>

Some using declarations:

using boost::spirit::karma::int_;
using boost::spirit::karma::string;
using boost::spirit::karma::_1;
using boost::phoenix::ref;
using boost::phoenix::val;

Some examples:

int i = 42;
test_generator("42", int_[_1 = ref(i)]);
test_generator("abc", string[_1 = val("abc")]);

More examples for semantic actions can be found here: Examples of Semantic Actions.


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