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//! Contains XML qualified names manipulation types and functions.

//!

use std::fmt;

use std::str::FromStr;

use namespace::NS_NO_PREFIX;

/// Represents a qualified XML name.

///

/// A qualified name always consists at least of a local name. It can optionally contain

/// a prefix; when reading an XML document, if it contains a prefix, it must also contain a

/// namespace URI, but this is not enforced statically; see below. The name can contain a

/// namespace without a prefix; in that case a default, empty prefix is assumed.

///

/// When writing XML documents, it is possible to omit the namespace URI, leaving only

/// the prefix. In this case the writer will check that the specifed prefix is bound to some

/// URI in the current namespace context. If both prefix and namespace URI are specified,

/// it is checked that the current namespace context contains this exact correspondence

/// between prefix and namespace URI.

///

/// # Prefixes and URIs

///

/// A qualified name with a prefix must always contain a proper namespace URI --- names with

/// a prefix but without a namespace associated with that prefix are meaningless. However,

/// it is impossible to obtain proper namespace URI by a prefix without a context, and such

/// context is only available when parsing a document (or it can be constructed manually

/// when writing a document). Tying a name to a context statically seems impractical. This

/// may change in future, though.

///

/// # Conversions

///

/// `Name` implements some `From` instances for conversion from strings and tuples. For example:

///

/// ```rust

/// # use xml::name::Name;

/// let n1: Name = "p:some-name".into();

/// let n2: Name = ("p", "some-name").into();

///

/// assert_eq!(n1, n2);

/// assert_eq!(n1.local_name, "some-name");

/// assert_eq!(n1.prefix, Some("p"));

/// assert!(n1.namespace.is_none());

/// ```

///

/// This is added to support easy specification of XML elements when writing XML documents.

#[derive(Copy, Clone, PartialEq, Eq, Hash, Debug)]

pub struct Name<'a> {

    /// A local name, e.g. `string` in `xsi:string`.

    pub local_name: &'a str,

    /// A namespace URI, e.g. `http://www.w3.org/2000/xmlns/`.

    pub namespace: Option<&'a str>,

    /// A name prefix, e.g. `xsi` in `xsi:string`.

    pub prefix: Option<&'a str>

impl<'a> From<&'a str> for Name<'a> {

    fn from(s: &'a str) -> Name<'a> {

        let mut parts = s.splitn(2, ":").fuse();

        match (parts.next(), parts.next()) {

            (Some(name), None) => Name::local(name),

            (Some(prefix), Some(name)) => Name::prefixed(name, prefix),

            _ => unreachable!()

impl<'a> From<(&'a str, &'a str)> for Name<'a> {

    fn from((prefix, name): (&'a str, &'a str)) -> Name<'a> {

        Name::prefixed(name, prefix)

impl<'a> fmt::Display for Name<'a> {

    fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {

        if let Some(namespace) = self.namespace {

            write!(f, "{{{}}}", namespace)?;

        if let Some(prefix) = self.prefix {

            write!(f, "{}:", prefix)?;

        write!(f, "{}", self.local_name)

impl<'a> Name<'a> {

    /// Returns an owned variant of the qualified name.

    pub fn to_owned(&self) -> OwnedName {

        OwnedName {

            local_name: self.local_name.into(),

            namespace: self.namespace.map(|s| s.into()),

            prefix: self.prefix.map(|s| s.into())

    /// Returns a new `Name` instance representing plain local name.

    #[inline]

    pub fn local(local_name: &str) -> Name {

        Name {

            local_name,

            prefix: None,

            namespace: None

    /// Returns a new `Name` instance with the given local name and prefix.

    #[inline]

    pub fn prefixed(local_name: &'a str, prefix: &'a str) -> Name<'a> {

        Name {

            local_name,

            namespace: None,

            prefix: Some(prefix)

    /// Returns a new `Name` instance representing a qualified name with or without a prefix and

    /// with a namespace URI.

    #[inline]

    pub fn qualified(local_name: &'a str, namespace: &'a str, prefix: Option<&'a str>) -> Name<'a> {

        Name {

            local_name,

            namespace: Some(namespace),

            prefix,

    /// Returns a correct XML representation of this local name and prefix.

///

    /// This method is different from the autoimplemented `to_string()` because it does not

    /// include namespace URI in the result.

    pub fn to_repr(&self) -> String {

        self.repr_display().to_string()

    /// Returns a structure which can be displayed with `std::fmt` machinery to obtain this

    /// local name and prefix.

///

    /// This method is needed for efficiency purposes in order not to create unnecessary

    /// allocations.

    #[inline]

    pub fn repr_display(&self) -> ReprDisplay {

        ReprDisplay(self)

    /// Returns either a prefix of this name or `namespace::NS_NO_PREFIX` constant.

    #[inline]

    pub fn prefix_repr(&self) -> &str {

        self.prefix.unwrap_or(NS_NO_PREFIX)

/// A wrapper around `Name` whose `Display` implementation prints the wrapped name as it is

/// displayed in an XML document.

pub struct ReprDisplay<'a, 'b:'a>(&'a Name<'b>);

impl<'a, 'b:'a> fmt::Display for ReprDisplay<'a, 'b> {

    fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {

        match self.0.prefix {

            Some(prefix) => write!(f, "{}:{}", prefix, self.0.local_name),

            None => write!(f, "{}", self.0.local_name)

/// An owned variant of `Name`.

///

/// Everything about `Name` applies to this structure as well.

#[derive(Clone, PartialEq, Eq, Hash, Debug)]

pub struct OwnedName {

    /// A local name, e.g. `string` in `xsi:string`.

    pub local_name: String,

    /// A namespace URI, e.g. `http://www.w3.org/2000/xmlns/`.

    pub namespace: Option<String>,

    /// A name prefix, e.g. `xsi` in `xsi:string`.

    pub prefix: Option<String>,

impl fmt::Display for OwnedName {

    #[inline]

    fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {

        fmt::Display::fmt(&self.borrow(), f)

impl OwnedName {

    /// Constructs a borrowed `Name` based on this owned name.

    pub fn borrow(&self) -> Name {

        Name {

            local_name: &*self.local_name,

            namespace: self.namespace.as_ref().map(|s| &**s),

            prefix: self.prefix.as_ref().map(|s| &**s),

    /// Returns a new `OwnedName` instance representing a plain local name.

    #[inline]

    pub fn local<S>(local_name: S) -> OwnedName where S: Into<String> {

        OwnedName {

            local_name: local_name.into(),

            namespace: None,

            prefix: None,

    /// Returns a new `OwnedName` instance representing a qualified name with or without

    /// a prefix and with a namespace URI.

    #[inline]

    pub fn qualified<S1, S2, S3>(local_name: S1, namespace: S2, prefix: Option<S3>) -> OwnedName

        where S1: Into<String>, S2: Into<String>, S3: Into<String>

        OwnedName {

            local_name: local_name.into(),

            namespace: Some(namespace.into()),

            prefix: prefix.map(|v| v.into())

    /// Returns an optional prefix by reference, equivalent to `self.borrow().prefix`

    /// but avoids extra work.

    #[inline]

    pub fn prefix_ref(&self) -> Option<&str> {

        self.prefix.as_ref().map(|s| &**s)

    /// Returns an optional namespace by reference, equivalen to `self.borrow().namespace`

    /// but avoids extra work.

    #[inline]

    pub fn namespace_ref(&self) -> Option<&str> {

        self.namespace.as_ref().map(|s| &**s)

impl<'a> From<Name<'a>> for OwnedName {

    #[inline]

    fn from(n: Name<'a>) -> OwnedName {

        n.to_owned()

impl FromStr for OwnedName {

    type Err = ();

    /// Parses the given string slice into a qualified name.

///

    /// This function, when finishes sucessfully, always return a qualified

    /// name without a namespace (`name.namespace == None`). It should be filled later

    /// using proper `NamespaceStack`.

///

    /// It is supposed that all characters in the argument string are correct

    /// as defined by the XML specification. No additional checks except a check

    /// for emptiness are done.

    fn from_str(s: &str) -> Result<OwnedName, ()> {

        let mut it = s.split(':');

        let r = match (it.next(), it.next(), it.next()) {

            (Some(prefix), Some(local_name), None) if !prefix.is_empty() &&

                                                      !local_name.is_empty() =>

                Some((local_name.into(), Some(prefix.into()))),

            (Some(local_name), None, None) if !local_name.is_empty() =>

                Some((local_name.into(), None)),

            (_, _, _) => None

};

        r.map(|(local_name, prefix)| OwnedName {

            local_name,

            namespace: None,

            prefix

        }).ok_or(())

#[cfg(test)]

mod tests {

    use super::OwnedName;

    #[test]

    fn test_owned_name_from_str() {

        assert_eq!("prefix:name".parse(), Ok(OwnedName {

            local_name: "name".into(),

            namespace: None,

            prefix: Some("prefix".into())

        }));

        assert_eq!("name".parse(), Ok(OwnedName {

            local_name: "name".into(),

            namespace: None,

            prefix: None

        }));

        assert_eq!("".parse(), Err::<OwnedName, ()>(()));

        assert_eq!(":".parse(), Err::<OwnedName, ()>(()));

        assert_eq!(":a".parse(), Err::<OwnedName, ()>(()));

        assert_eq!("a:".parse(), Err::<OwnedName, ()>(()));

        assert_eq!("a:b:c".parse(), Err::<OwnedName, ()>(()));