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Different applications may want to use the same symbol to mean different things. To avoid such name clashes we can use compound symbols, which have two string parts: a local name and a namespace URI. The namespace-uri can be any string, but it is recommended that it have the form of an absolute URI. It would be too verbose to write the full URI all the time, so one usually uses a namespace prefix (namespace alias) as a short local alias to refer to a namespace URI.
Compound symbols are usually written using the infix colon operator:
prefix:local-name
where prefix is a namespace alias bound to some (lexically-known) namespace URI.
Compound symbols are used for namespace-aware XML processing.
A namespace is a mapping from strings to symbols. The string is the local-name of the resulting symbol. A namespace is similar to a Common Lisp package.
A namespace has a namespace-uri, which a string; it is recommended that it have the form of an absolute URI. A namespace may optionally have a prefix, which is a string used when printing out symbols belonging to the namespace. (If you want “equivalent symbols” (i.e. those that have the same local-name and same uri) to be the identical symbol object, then you should use namespaces whose prefix is the empty string.)
Return a namespace with the given name and prefix. If no such namespace exists, create it. The namespace-name is commonly a URI, especially when working with XML, in which case it is called a namespace-uri. However, any non-empty string is allowed. The prefix can be a string or a simple symbol. (If a symbol is used, then the symbol’s local-name is used.) The default for prefix is the empty string. Multiple calls with the same arguments will yield the same namespace object.
The reader macro #,namespace is equivalent to the
namespace function, but it is invoked at read-time:
#,(namespace "http://www.w3.org/1999/XSL/Transform" xsl) (eq? #,(namespace "foo") (namespace "foo")) ⇒ #t
The form (,#namespace "" "") returns the default empty namespace,
which is used for simple symbols.
Return the namespace-uri of the argument namespace, as a string.
Return the namespace prefix of the argument namespace, as a string.
A compound symbol is one that belongs to a namespace other than the default empty namespace, and (normally) has a non-empty namespace uri. (It is possible for a symbol to belong to a non-default namespace and have an empty namespace uri, but that is not recommended.)
Construct a symbol with the given local-name and namespace.
If namespace-spec is a namespace object, then find (or, if needed,
construct) a symbol with the given local-name belonging to the
namespace. Multiple calls to symbol with the same namespace
and local-name will yield the same symbol object.
If uri is a string (optionally followed by a prefix), then:
(symbol lname uri [prefix])
is equivalent to:
(symbol lname (namespace uri [prefix]))
Using #t for the namespace-spec is equivalent to
using the empty namespace #,(namespace "").
Using #!null or #f for the namespace-spec
creates an uninterned symbol, which does not belong to
any namespace.
Return the local name of the argument symbol, as an immutable string. (The string is interned, except in the case of an uninterned symbol.)
Return the prefix of the argument symbol, as an immutable (and interned) string.
Return the namespace uri of the argument symbol, as an immutable (and interned) string.
Return the namespace object (if any) of the argument symbol.
Returns #!null if the symbol is uninterned.
Return #t if the symbols are equivalent as symbols,
i.e., if their local-names and namespace-uris are the same.
They may have different values of symbol-prefix and symbol-namespace.
If a symbol is uninterned (or is #!null) then symbol=?
returns the same result as eq?.
Two symbols are equal? or eqv? if they’re symbol=?.
A namespace is usually referenced using a shorter namespace alias, which is is a lexical definition that binds a namespace prefix to a namespace object (and thus a namespace uri). This allows using compound symbols as identifiers in Scheme programs.
Defines name as a namespace prefix - a lexically scoped "nickname" for the namespace whose full name is namespace-name, which should be a non-empty string literal. It is customary for the string have syntactic form of an absolute URI, but any non-empty string is acceptable and is used without further interpretation.
Any symbols in the scope of this definitions that contain a colon, and where the part before the colon matches the name will be treated as being in the package/namespace whose global unique name is the namespace-name.
Has mostly the same effect as:
(define-constant name #,(namespace namespace-name)
However, using define-namespace (rather than define-constant)
is recommended if you want to use compound symbols as names of
variables, especially local variables, or if you want to quote
compound symbols.
Note that the prefix is only visible lexically: it is not
part of the namespace, or thus indirectly the symbols, and
so is not available when printing the symbol.
You might consider using define-xml-namespace as an alternative.
A namespace is similar to a Common Lisp package, and the namespace-name is like the name of the package. However, a namespace alias belongs to the lexical scope, while a Common Lisp package nickname is global and belongs to the package itself.
If the namespace-name starts with the string "class:", then the
name can be used for invoking Java methods
(see Calling Java methods from Scheme) and accessing fields (see Accessing object fields).
You can use a namespace as an abbreviation or renaming of a
class name, but as a matter of style define-alias is preferred.
Same as define-namespace, but the prefix name
is local to the current module.
For example, you might have a set of a geometry definitions
defined under the namespace-uri "http://foo.org/lib/geometry":
(define-namespace geom "http://foo.org/lib/geometry") (define (geom:translate x y) (java.awt.geom.AffineTransform:getTranslateInstance x y)) (define geom:zero (geom:translate 0 0)) geom:zero ⇒ AffineTransform[[1.0, 0.0, 0.0], [0.0, 1.0, 0.0]]
You could have some other definitions for complex math:
(define-namespace complex "http://foo.org/lib/math/complex") (define complex:zero +0+0i)
You can use a namespace-value directly in a compound name:
(namespace "http://foo.org/lib/geometry"):zero ⇒ AffineTransform[[1.0, 0.0, 0.0], [0.0, 1.0, 0.0]]
The variation define-xml-namespace is used for Creating XML nodes.
Defines a namespace with prefix prefix and URI namespace-uri.
This is similar to define-namespace but with two important differences:
html namespace.
Thus the definition is roughly equivalent to:
(define-constant name #,(namespace namespace-name name)
along with an infinite set of definitions, for every possible tag:
(define (name:tag . rest) (apply make-element 'name:tag rest))
$ kawa --output-format xml #|kawa:1|# (define-xml-namespace na "Namespace1") #|kawa:2|# (define-xml-namespace nb "Namespace1") #|kawa:3|# (define xa (na:em "Info")) #|kawa:4|# xa <na:em xmlns:na="Namespace1">Info</na:em> #|kawa:5|# (define xb (nb:em "Info")) #|kawa:6|# xa <nb:em xmlns:nb="Namespace1">Info</nb:em>
Note that the prefix is part of the qualified name (it is actually part of the namespace object), and it is used when printing the tag. Two qualified names (symbols) that have the same local-name and the same namespace-name are considered equal, even if they have different prefix. You can think of the prefix as annotation used when printing, but not otherwise part of the “meaning” of a compound symbol. They are the same object if they also have the same prefix. This is an important difference from traditional Lisp/Scheme symbols, but it is how XML QNames work.
#|kawa:7|# (instance? xb na:em) true #|kawa:8|# (eq? 'na:em 'nb:em) false #|kawa:9|# (equal? 'na:em 'nb:em) true #|kawa:10|# (eqv? 'na:em 'nb:em) true
(Note that #t is printed as true when using XML formatting.)
The predefined html prefix could be defined thus:
(define-xml-namespace html "http://www.w3.org/1999/xhtml")
Next: Keywords, Previous: Simple symbols, Up: Symbols and namespaces [Contents][Index]