[/
/ Copyright (c) 2008 Eric Niebler
/
/ Distributed under the Boost Software License, Version 1.0. (See accompanying
/ file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
/]
[/===============]
[section Glossary]
[/===============]
[def _T_ [~T]]
[template anchor[x] '''''']
[variablelist
[ [ [anchor callable_transform] callable transform]
[A transform of the form `R(A0,A1,...)` (i.e., a function type) where
`proto::is_callable::value` is `true`. `R` is treated as a polymorphic
function object and the arguments are treated as transforms that yield the
arguments to the function object.] ]
[ [ [anchor context] context]
[In Proto, the term /context/ refers to an object that can be passed, along
with an expression to evaluate, to the `proto::eval()` function. The context
determines how the expression is evaluated. All context structs define a
nested `eval<>` template that, when instantiated with a node tag type (e.g.,
`proto::tag::plus`), is a binary polymorphic function object that accepts an
expression of that type and the context object. In this way, contexts
associate behaviors with expression nodes.] ]
[ [ [anchor domain] domain]
[In Proto, the term /domain/ refers to a type that associates expressions
within that domain with a /generator/ for that domain and optionally a
/grammar/ for the domain. Domains are used primarily to imbue expressions
within that domain with additional members and to restrict Proto's operator
overloads such that expressions not conforming to the domain's grammar are
never created. Domains are empty structs that inherit from
`proto::domain<>`.]]
[ [ [anchor dsl] domain-specific language]
[A programming language that targets a particular problem space by providing
programming idioms, abstractions and constructs that match the constructs
within that problem space.]]
[ [ [anchor edsl] embedded domain-specific language]
[A domain-specific language implemented as a library. The language in which
the library is written is called the "host" language, and the language
implemented by the library is called the "embedded" language.]]
[ [ [anchor expression] expression]
[In Proto, an /expression/ is a heterogeneous tree where each node is either
an instantiation of `boost::proto::expr<>`, `boost::proto::basic_expr<>` or
some type that is an extension (via `boost::proto::extends<>` or
`BOOST_PROTO_EXTENDS()`) of such an instantiation.]]
[ [ [anchor expression_template] expression template]
[A C++ technique using templates and operator overloading to cause
expressions to build trees that represent the expression for lazy evaluation
later, rather than evaluating the expression eagerly. Some C++ libraries use
expression templates to build embedded domain-specific languages.]]
[ [ [anchor generator] generator]
[In Proto, a /generator/ is a unary polymorphic function object that you
specify when defining a /domain/. After constructing a new expression, Proto
passes the expression to your domain's generator for further processing.
Often, the generator wraps the expression in an extension wrapper that adds
additional members to it.]]
[ [ [anchor grammar] grammar]
[In Proto, a /grammar/ is a type that describes a subset of Proto expression
types. Expressions in a domain must conform to that domain's grammar. The
`proto::matches<>` metafunction evaluates whether an expression type matches
a grammar. Grammars are either primitives such as `proto::_`, composites
such as `proto::plus<>`, control structures such as `proto::or_<>`, or some
type derived from a grammar.]]
[ [ [anchor object_transform] object transform]
[A transform of the form `R(A0,A1,...)` (i.e., a function type) where
`proto::is_callable::value` is `false`. `R` is treated as the type of an
object to construct and the arguments are treated as transforms that yield
the parameters to the constructor.]]
[ [ [anchor polymorphic_function_object] polymorphic function object]
[An instance of a class type with an overloaded function call operator and a
nested `result_type` typedef or `result<>` template for calculating the
return type of the function call operator.]]
[ [ [anchor primitive_transform] primitive transform]
[A type that defines a kind of polymorphic function object that takes three
arguments: expression, state, and data. Primitive transforms can be used to
compose callable transforms and object transforms.]]
[ [ [anchor subdomain] sub-domain]
[A sub-domain is a domain that declares another domain as its super-domain.
Expressions in sub-domains can be combined with expressions in the
super-domain, and the resulting expression is in the super-domain.]]
[ [ [anchor transform] transform]
[Transforms are used to manipulate expression trees. They come in three
flavors: primitive transforms, callable transforms, or object transforms. A
transform `_T_` can be made into a ternary polymorphic function object with
`proto::when<>`, as in `proto::when`. Such a function object
accepts /expression/, /state/, and /data/ parameters, and computes a result
from them.]]
]
[endsect]