pub struct Uri { /* private fields */ }
v2_66
only.Expand description
The Uri
type and related functions can be used to parse URIs into
their components, and build valid URIs from individual components.
Note that Uri
scope is to help manipulate URIs in various applications,
following RFC 3986. In particular,
it doesn’t intend to cover web browser needs, and doesn’t implement the
WHATWG URL standard. No APIs are provided to
help prevent
homograph attacks, so
Uri
is not suitable for formatting URIs for display to the user for making
security-sensitive decisions.
Relative and absolute URIs # {relative
-absolute-uris}
As defined in RFC 3986, the hierarchical nature of URIs means that they can either be ‘relative references’ (sometimes referred to as ‘relative URIs’) or ‘URIs’ (for clarity, ‘URIs’ are referred to in this documentation as ‘absolute URIs’ — although in constrast to RFC 3986, fragment identifiers are always allowed).
Relative references have one or more components of the URI missing. In
particular, they have no scheme. Any other component, such as hostname,
query, etc. may be missing, apart from a path, which has to be specified (but
may be empty). The path may be relative, starting with ./
rather than /
.
For example, a valid relative reference is ./path?query
,
/?query
fragment`` or //example.com
.
Absolute URIs have a scheme specified. Any other components of the URI which
are missing are specified as explicitly unset in the URI, rather than being
resolved relative to a base URI using parse_relative()
.
For example, a valid absolute URI is file:///home/bob
or
https://search.com?query=string
.
A Uri
instance is always an absolute URI. A string may be an absolute URI
or a relative reference; see the documentation for individual functions as to
what forms they accept.
Parsing URIs
The most minimalist APIs for parsing URIs are split()
and
split_with_user()
. These split a URI into its component
parts, and return the parts; the difference between the two is that
split()
treats the ‘userinfo’ component of the URI as a
single element, while split_with_user()
can (depending on the
UriFlags
you pass) treat it as containing a username, password,
and authentication parameters. Alternatively, split_network()
can be used when you are only interested in the components that are
needed to initiate a network connection to the service (scheme,
host, and port).
parse()
is similar to split()
, but instead of returning
individual strings, it returns a Uri
structure (and it requires
that the URI be an absolute URI).
resolve_relative()
and parse_relative()
allow you to
resolve a relative URI relative to a base URI.
resolve_relative()
takes two strings and returns a string,
and parse_relative()
takes a Uri
and a string and returns a
Uri
.
All of the parsing functions take a UriFlags
argument describing
exactly how to parse the URI; see the documentation for that type
for more details on the specific flags that you can pass. If you
need to choose different flags based on the type of URI, you can
use peek_scheme()
on the URI string to check the scheme
first, and use that to decide what flags to parse it with.
For example, you might want to use UriParamsFlags::WWW_FORM
when parsing the
params for a web URI, so compare the result of peek_scheme()
against
http
and https
.
Building URIs
join()
and join_with_user()
can be used to construct
valid URI strings from a set of component strings. They are the
inverse of split()
and split_with_user()
.
Similarly, build()
and build_with_user()
can be used to
construct a Uri
from a set of component strings.
As with the parsing functions, the building functions take a
UriFlags
argument. In particular, it is important to keep in mind
whether the URI components you are using are already %
-encoded. If so,
you must pass the UriFlags::ENCODED
flag.
file://
URIs
Note that Windows and Unix both define special rules for parsing
file://
URIs (involving non-UTF-8 character sets on Unix, and the
interpretation of path separators on Windows). Uri
does not
implement these rules. Use filename_from_uri()
and
filename_to_uri()
if you want to properly convert between
file://
URIs and local filenames.
URI Equality
Note that there is no g_uri_equal ()
function, because comparing
URIs usefully requires scheme-specific knowledge that Uri
does
not have. Uri
can help with normalization if you use the various
encoded UriFlags
as well as UriFlags::SCHEME_NORMALIZE
however
it is not comprehensive.
For example, data:,foo
and data:;base64,Zm9v
resolve to the same
thing according to the data:
URI specification which GLib does not
handle.
Implementations§
source§impl Uri
impl Uri
sourcepub fn auth_params(&self) -> Option<GString>
pub fn auth_params(&self) -> Option<GString>
Gets self
’s authentication parameters, which may contain
%
-encoding, depending on the flags with which self
was created.
(If self
was not created with UriFlags::HAS_AUTH_PARAMS
then this will
be None
.)
Depending on the URI scheme, g_uri_parse_params()
may be useful for
further parsing this information.
Returns
self
’s authentication parameters.
sourcepub fn fragment(&self) -> Option<GString>
pub fn fragment(&self) -> Option<GString>
Gets self
’s fragment, which may contain %
-encoding, depending on
the flags with which self
was created.
Returns
self
’s fragment.
sourcepub fn host(&self) -> Option<GString>
pub fn host(&self) -> Option<GString>
Gets self
’s host. This will never have %
-encoded characters,
unless it is non-UTF-8 (which can only be the case if self
was
created with UriFlags::NON_DNS
).
If self
contained an IPv6 address literal, this value will be just
that address, without the brackets around it that are necessary in
the string form of the URI. Note that in this case there may also
be a scope ID attached to the address. Eg, fe80::1234%``em1
(or
fe80::1234%``25em1
if the string is still encoded).
Returns
self
’s host.
sourcepub fn password(&self) -> Option<GString>
pub fn password(&self) -> Option<GString>
Gets self
’s password, which may contain %
-encoding, depending on
the flags with which self
was created. (If self
was not created
with UriFlags::HAS_PASSWORD
then this will be None
.)
Returns
self
’s password.
sourcepub fn path(&self) -> GString
pub fn path(&self) -> GString
Gets self
’s path, which may contain %
-encoding, depending on the
flags with which self
was created.
Returns
self
’s path.
sourcepub fn query(&self) -> Option<GString>
pub fn query(&self) -> Option<GString>
Gets self
’s query, which may contain %
-encoding, depending on the
flags with which self
was created.
For queries consisting of a series of name=value
parameters,
GUriParamsIter
or g_uri_parse_params()
may be useful.
Returns
self
’s query.
sourcepub fn scheme(&self) -> GString
pub fn scheme(&self) -> GString
Gets self
’s scheme. Note that this will always be all-lowercase,
regardless of the string or strings that self
was created from.
Returns
self
’s scheme.
sourcepub fn user(&self) -> Option<GString>
pub fn user(&self) -> Option<GString>
Gets the ‘username’ component of self
’s userinfo, which may contain
%
-encoding, depending on the flags with which self
was created.
If self
was not created with UriFlags::HAS_PASSWORD
or
UriFlags::HAS_AUTH_PARAMS
, this is the same as userinfo()
.
Returns
self
’s user.
sourcepub fn userinfo(&self) -> Option<GString>
pub fn userinfo(&self) -> Option<GString>
Gets self
’s userinfo, which may contain %
-encoding, depending on
the flags with which self
was created.
Returns
self
’s userinfo.
sourcepub fn parse_relative(
&self,
uri_ref: &str,
flags: UriFlags
) -> Result<Uri, Error>
pub fn parse_relative( &self, uri_ref: &str, flags: UriFlags ) -> Result<Uri, Error>
Parses uri_ref
according to flags
and, if it is a
[relative URI][relative-absolute-uris], resolves it relative to self
.
If the result is not a valid absolute URI, it will be discarded, and an error
returned.
uri_ref
a string representing a relative or absolute URI
flags
flags describing how to parse uri_ref
Returns
a new Uri
, or NULL on error.
sourcepub fn to_str(&self) -> GString
pub fn to_str(&self) -> GString
Returns a string representing self
.
This is not guaranteed to return a string which is identical to the
string that self
was parsed from. However, if the source URI was
syntactically correct (according to RFC 3986), and it was parsed
with UriFlags::ENCODED
, then to_str()
is guaranteed to return
a string which is at least semantically equivalent to the source
URI (according to RFC 3986).
If self
might contain sensitive details, such as authentication parameters,
or private data in its query string, and the returned string is going to be
logged, then consider using to_string_partial()
to redact parts.
Returns
a string representing self
,
which the caller must free.
sourcepub fn to_string_partial(&self, flags: UriHideFlags) -> GString
pub fn to_string_partial(&self, flags: UriHideFlags) -> GString
Returns a string representing self
, subject to the options in
flags
. See to_str()
and UriHideFlags
for more details.
flags
flags describing what parts of self
to hide
Returns
a string representing
self
, which the caller must free.
sourcepub fn build(
flags: UriFlags,
scheme: &str,
userinfo: Option<&str>,
host: Option<&str>,
port: i32,
path: &str,
query: Option<&str>,
fragment: Option<&str>
) -> Uri
pub fn build( flags: UriFlags, scheme: &str, userinfo: Option<&str>, host: Option<&str>, port: i32, path: &str, query: Option<&str>, fragment: Option<&str> ) -> Uri
Creates a new Uri
from the given components according to flags
.
See also build_with_user()
, which allows specifying the
components of the “userinfo” separately.
flags
flags describing how to build the Uri
scheme
the URI scheme
userinfo
the userinfo component, or None
host
the host component, or None
port
the port, or -1
path
the path component
query
the query component, or None
fragment
the fragment, or None
Returns
a new Uri
sourcepub fn build_with_user(
flags: UriFlags,
scheme: &str,
user: Option<&str>,
password: Option<&str>,
auth_params: Option<&str>,
host: Option<&str>,
port: i32,
path: &str,
query: Option<&str>,
fragment: Option<&str>
) -> Uri
pub fn build_with_user( flags: UriFlags, scheme: &str, user: Option<&str>, password: Option<&str>, auth_params: Option<&str>, host: Option<&str>, port: i32, path: &str, query: Option<&str>, fragment: Option<&str> ) -> Uri
Creates a new Uri
from the given components according to flags
(UriFlags::HAS_PASSWORD
is added unconditionally). The flags
must be
coherent with the passed values, in particular use %
-encoded values with
UriFlags::ENCODED
.
In contrast to build()
, this allows specifying the components
of the ‘userinfo’ field separately. Note that user
must be non-None
if either password
or auth_params
is non-None
.
flags
flags describing how to build the Uri
scheme
the URI scheme
user
the user component of the userinfo, or None
password
the password component of the userinfo, or None
auth_params
the auth params of the userinfo, or None
host
the host component, or None
port
the port, or -1
path
the path component
query
the query component, or None
fragment
the fragment, or None
Returns
a new Uri
sourcepub fn escape_bytes(
unescaped: &[u8],
reserved_chars_allowed: Option<&str>
) -> GString
pub fn escape_bytes( unescaped: &[u8], reserved_chars_allowed: Option<&str> ) -> GString
Escapes arbitrary data for use in a URI.
Normally all characters that are not ‘unreserved’ (i.e. ASCII
alphanumerical characters plus dash, dot, underscore and tilde) are
escaped. But if you specify characters in reserved_chars_allowed
they are not escaped. This is useful for the ‘reserved’ characters
in the URI specification, since those are allowed unescaped in some
portions of a URI.
Though technically incorrect, this will also allow escaping nul
bytes as %``00
.
unescaped
the unescaped input data.
reserved_chars_allowed
a string of reserved
characters that are allowed to be used, or None
.
Returns
an escaped version of unescaped
.
The returned string should be freed when no longer needed.
sourcepub fn escape_string(
unescaped: &str,
reserved_chars_allowed: Option<&str>,
allow_utf8: bool
) -> GString
pub fn escape_string( unescaped: &str, reserved_chars_allowed: Option<&str>, allow_utf8: bool ) -> GString
Escapes a string for use in a URI.
Normally all characters that are not “unreserved” (i.e. ASCII
alphanumerical characters plus dash, dot, underscore and tilde) are
escaped. But if you specify characters in reserved_chars_allowed
they are not escaped. This is useful for the “reserved” characters
in the URI specification, since those are allowed unescaped in some
portions of a URI.
unescaped
the unescaped input string.
reserved_chars_allowed
a string of reserved
characters that are allowed to be used, or None
.
allow_utf8
true
if the result can include UTF-8 characters.
Returns
an escaped version of unescaped
. The
returned string should be freed when no longer needed.
sourcepub fn is_valid(uri_string: &str, flags: UriFlags) -> Result<(), Error>
pub fn is_valid(uri_string: &str, flags: UriFlags) -> Result<(), Error>
Parses uri_string
according to flags
, to determine whether it is a valid
[absolute URI][relative-absolute-uris], i.e. it does not need to be resolved
relative to another URI using parse_relative()
.
If it’s not a valid URI, an error is returned explaining how it’s invalid.
See split()
, and the definition of UriFlags
, for more
information on the effect of flags
.
uri_string
a string containing an absolute URI
flags
flags for parsing uri_string
Returns
sourcepub fn join(
flags: UriFlags,
scheme: Option<&str>,
userinfo: Option<&str>,
host: Option<&str>,
port: i32,
path: &str,
query: Option<&str>,
fragment: Option<&str>
) -> GString
pub fn join( flags: UriFlags, scheme: Option<&str>, userinfo: Option<&str>, host: Option<&str>, port: i32, path: &str, query: Option<&str>, fragment: Option<&str> ) -> GString
Joins the given components together according to flags
to create
an absolute URI string. path
may not be None
(though it may be the empty
string).
When host
is present, path
must either be empty or begin with a slash (/
)
character. When host
is not present, path
cannot begin with two slash
characters (//
). See
RFC 3986, section 3.
See also join_with_user()
, which allows specifying the
components of the ‘userinfo’ separately.
UriFlags::HAS_PASSWORD
and UriFlags::HAS_AUTH_PARAMS
are ignored if set
in flags
.
flags
flags describing how to build the URI string
scheme
the URI scheme, or None
userinfo
the userinfo component, or None
host
the host component, or None
port
the port, or -1
path
the path component
query
the query component, or None
fragment
the fragment, or None
Returns
an absolute URI string
sourcepub fn join_with_user(
flags: UriFlags,
scheme: Option<&str>,
user: Option<&str>,
password: Option<&str>,
auth_params: Option<&str>,
host: Option<&str>,
port: i32,
path: &str,
query: Option<&str>,
fragment: Option<&str>
) -> GString
pub fn join_with_user( flags: UriFlags, scheme: Option<&str>, user: Option<&str>, password: Option<&str>, auth_params: Option<&str>, host: Option<&str>, port: i32, path: &str, query: Option<&str>, fragment: Option<&str> ) -> GString
Joins the given components together according to flags
to create
an absolute URI string. path
may not be None
(though it may be the empty
string).
In contrast to join()
, this allows specifying the components
of the ‘userinfo’ separately. It otherwise behaves the same.
UriFlags::HAS_PASSWORD
and UriFlags::HAS_AUTH_PARAMS
are ignored if set
in flags
.
flags
flags describing how to build the URI string
scheme
the URI scheme, or None
user
the user component of the userinfo, or None
password
the password component of the userinfo, or
None
auth_params
the auth params of the userinfo, or
None
host
the host component, or None
port
the port, or -1
path
the path component
query
the query component, or None
fragment
the fragment, or None
Returns
an absolute URI string
sourcepub fn list_extract_uris(uri_list: &str) -> Vec<GString>
pub fn list_extract_uris(uri_list: &str) -> Vec<GString>
Splits an URI list conforming to the text/uri-list mime type defined in RFC 2483 into individual URIs, discarding any comments. The URIs are not validated.
uri_list
an URI list
Returns
a newly allocated None
-terminated list
of strings holding the individual URIs. The array should be freed
with g_strfreev()
.
sourcepub fn parse(uri_string: &str, flags: UriFlags) -> Result<Uri, Error>
pub fn parse(uri_string: &str, flags: UriFlags) -> Result<Uri, Error>
Parses uri_string
according to flags
. If the result is not a
valid [absolute URI][relative-absolute-uris], it will be discarded, and an
error returned.
uri_string
a string representing an absolute URI
flags
flags describing how to parse uri_string
Returns
a new Uri
, or NULL on error.
sourcepub fn parse_scheme(uri: &str) -> Option<GString>
pub fn parse_scheme(uri: &str) -> Option<GString>
Gets the scheme portion of a URI string. RFC 3986 decodes the scheme as:
URI = scheme ":" hier-part [ "?" query ] [ "#" fragment ]
Common schemes include file
, https
, svn+ssh
, etc.
uri
a valid URI.
Returns
The ‘scheme’ component of the URI, or
None
on error. The returned string should be freed when no longer needed.
sourcepub fn peek_scheme(uri: &str) -> Option<GString>
pub fn peek_scheme(uri: &str) -> Option<GString>
Gets the scheme portion of a URI string. RFC 3986 decodes the scheme as:
URI = scheme ":" hier-part [ "?" query ] [ "#" fragment ]
Common schemes include file
, https
, svn+ssh
, etc.
Unlike parse_scheme()
, the returned scheme is normalized to
all-lowercase and does not need to be freed.
uri
a valid URI.
Returns
The ‘scheme’ component of the URI, or
None
on error. The returned string is normalized to all-lowercase, and
interned via g_intern_string()
, so it does not need to be freed.
sourcepub fn resolve_relative(
base_uri_string: Option<&str>,
uri_ref: &str,
flags: UriFlags
) -> Result<GString, Error>
pub fn resolve_relative( base_uri_string: Option<&str>, uri_ref: &str, flags: UriFlags ) -> Result<GString, Error>
Parses uri_ref
according to flags
and, if it is a
[relative URI][relative-absolute-uris], resolves it relative to
base_uri_string
. If the result is not a valid absolute URI, it will be
discarded, and an error returned.
(If base_uri_string
is None
, this just returns uri_ref
, or
None
if uri_ref
is invalid or not absolute.)
base_uri_string
a string representing a base URI
uri_ref
a string representing a relative or absolute URI
flags
flags describing how to parse uri_ref
Returns
the resolved URI string, or NULL on error.
sourcepub fn split(
uri_ref: &str,
flags: UriFlags
) -> Result<(Option<GString>, Option<GString>, Option<GString>, i32, GString, Option<GString>, Option<GString>), Error>
pub fn split( uri_ref: &str, flags: UriFlags ) -> Result<(Option<GString>, Option<GString>, Option<GString>, i32, GString, Option<GString>, Option<GString>), Error>
Parses uri_ref
(which can be an
[absolute or relative URI][relative-absolute-uris]) according to flags
, and
returns the pieces. Any component that doesn’t appear in uri_ref
will be
returned as None
(but note that all URIs always have a path component,
though it may be the empty string).
If flags
contains UriFlags::ENCODED
, then %
-encoded characters in
uri_ref
will remain encoded in the output strings. (If not,
then all such characters will be decoded.) Note that decoding will
only work if the URI components are ASCII or UTF-8, so you will
need to use UriFlags::ENCODED
if they are not.
Note that the UriFlags::HAS_PASSWORD
and
UriFlags::HAS_AUTH_PARAMS
flags
are ignored by split()
,
since it always returns only the full userinfo; use
split_with_user()
if you want it split up.
uri_ref
a string containing a relative or absolute URI
flags
flags for parsing uri_ref
Returns
true
if uri_ref
parsed successfully, false
on error.
scheme
on return, contains
the scheme (converted to lowercase), or None
userinfo
on return, contains
the userinfo, or None
host
on return, contains the
host, or None
port
on return, contains the
port, or -1
path
on return, contains the path
query
on return, contains the
query, or None
fragment
on return, contains
the fragment, or None
sourcepub fn split_network(
uri_string: &str,
flags: UriFlags
) -> Result<(Option<GString>, Option<GString>, i32), Error>
pub fn split_network( uri_string: &str, flags: UriFlags ) -> Result<(Option<GString>, Option<GString>, i32), Error>
Parses uri_string
(which must be an [absolute URI][relative-absolute-uris])
according to flags
, and returns the pieces relevant to connecting to a host.
See the documentation for split()
for more details; this is
mostly a wrapper around that function with simpler arguments.
However, it will return an error if uri_string
is a relative URI,
or does not contain a hostname component.
uri_string
a string containing an absolute URI
flags
flags for parsing uri_string
Returns
true
if uri_string
parsed successfully,
false
on error.
scheme
on return, contains
the scheme (converted to lowercase), or None
host
on return, contains the
host, or None
port
on return, contains the
port, or -1
sourcepub fn split_with_user(
uri_ref: &str,
flags: UriFlags
) -> Result<(Option<GString>, Option<GString>, Option<GString>, Option<GString>, Option<GString>, i32, GString, Option<GString>, Option<GString>), Error>
pub fn split_with_user( uri_ref: &str, flags: UriFlags ) -> Result<(Option<GString>, Option<GString>, Option<GString>, Option<GString>, Option<GString>, i32, GString, Option<GString>, Option<GString>), Error>
Parses uri_ref
(which can be an
[absolute or relative URI][relative-absolute-uris]) according to flags
, and
returns the pieces. Any component that doesn’t appear in uri_ref
will be
returned as None
(but note that all URIs always have a path component,
though it may be the empty string).
See split()
, and the definition of UriFlags
, for more
information on the effect of flags
. Note that password
will only
be parsed out if flags
contains UriFlags::HAS_PASSWORD
, and
auth_params
will only be parsed out if flags
contains
UriFlags::HAS_AUTH_PARAMS
.
uri_ref
a string containing a relative or absolute URI
flags
flags for parsing uri_ref
Returns
true
if uri_ref
parsed successfully, false
on error.
scheme
on return, contains
the scheme (converted to lowercase), or None
user
on return, contains
the user, or None
password
on return, contains
the password, or None
auth_params
on return, contains
the auth_params, or None
host
on return, contains the
host, or None
port
on return, contains the
port, or -1
path
on return, contains the path
query
on return, contains the
query, or None
fragment
on return, contains
the fragment, or None
sourcepub fn unescape_bytes(
escaped_string: &str,
illegal_characters: Option<&str>
) -> Result<Bytes, Error>
pub fn unescape_bytes( escaped_string: &str, illegal_characters: Option<&str> ) -> Result<Bytes, Error>
Unescapes a segment of an escaped string as binary data.
Note that in contrast to unescape_string()
, this does allow
nul bytes to appear in the output.
If any of the characters in illegal_characters
appears as an escaped
character in escaped_string
, then that is an error and None
will be
returned. This is useful if you want to avoid for instance having a slash
being expanded in an escaped path element, which might confuse pathname
handling.
escaped_string
A URI-escaped string
length
the length (in bytes) of escaped_string
to escape, or -1
if it
is nul-terminated.
illegal_characters
a string of illegal characters
not to be allowed, or None
.
Returns
an unescaped version of escaped_string
or None
on error (if decoding failed, using UriError::Failed
error
code). The returned Bytes
should be unreffed when no longer needed.
sourcepub fn unescape_segment(
escaped_string: Option<&str>,
escaped_string_end: Option<&str>,
illegal_characters: Option<&str>
) -> Option<GString>
pub fn unescape_segment( escaped_string: Option<&str>, escaped_string_end: Option<&str>, illegal_characters: Option<&str> ) -> Option<GString>
Unescapes a segment of an escaped string.
If any of the characters in illegal_characters
or the NUL
character appears as an escaped character in escaped_string
, then
that is an error and None
will be returned. This is useful if you
want to avoid for instance having a slash being expanded in an
escaped path element, which might confuse pathname handling.
Note: NUL
byte is not accepted in the output, in contrast to
unescape_bytes()
.
escaped_string
A string, may be None
escaped_string_end
Pointer to end of escaped_string
,
may be None
illegal_characters
An optional string of illegal
characters not to be allowed, may be None
Returns
an unescaped version of escaped_string
,
or None
on error. The returned string should be freed when no longer
needed. As a special case if None
is given for escaped_string
, this
function will return None
.
sourcepub fn unescape_string(
escaped_string: &str,
illegal_characters: Option<&str>
) -> Option<GString>
pub fn unescape_string( escaped_string: &str, illegal_characters: Option<&str> ) -> Option<GString>
Unescapes a whole escaped string.
If any of the characters in illegal_characters
or the NUL
character appears as an escaped character in escaped_string
, then
that is an error and None
will be returned. This is useful if you
want to avoid for instance having a slash being expanded in an
escaped path element, which might confuse pathname handling.
escaped_string
an escaped string to be unescaped.
illegal_characters
a string of illegal characters
not to be allowed, or None
.
Returns
an unescaped version of escaped_string
.
The returned string should be freed when no longer needed.
Trait Implementations§
source§impl HasParamSpec for Uri
impl HasParamSpec for Uri
source§impl Ord for Uri
impl Ord for Uri
source§impl PartialOrd for Uri
impl PartialOrd for Uri
1.0.0 · source§fn le(&self, other: &Rhs) -> bool
fn le(&self, other: &Rhs) -> bool
self
and other
) and is used by the <=
operator. Read moresource§impl StaticType for Uri
impl StaticType for Uri
source§fn static_type() -> Type
fn static_type() -> Type
Self
.impl Eq for Uri
impl Send for Uri
impl StructuralEq for Uri
impl StructuralPartialEq for Uri
impl Sync for Uri
Auto Trait Implementations§
Blanket Implementations§
source§impl<T> BorrowMut<T> for Twhere
T: ?Sized,
impl<T> BorrowMut<T> for Twhere
T: ?Sized,
source§fn borrow_mut(&mut self) -> &mut T
fn borrow_mut(&mut self) -> &mut T
source§impl<T> FromGlibContainerAsVec<<T as GlibPtrDefault>::GlibType, *const GList> for Twhere
T: GlibPtrDefault + FromGlibPtrNone<<T as GlibPtrDefault>::GlibType> + FromGlibPtrFull<<T as GlibPtrDefault>::GlibType>,
impl<T> FromGlibContainerAsVec<<T as GlibPtrDefault>::GlibType, *const GList> for Twhere
T: GlibPtrDefault + FromGlibPtrNone<<T as GlibPtrDefault>::GlibType> + FromGlibPtrFull<<T as GlibPtrDefault>::GlibType>,
source§impl<T> FromGlibContainerAsVec<<T as GlibPtrDefault>::GlibType, *const GPtrArray> for Twhere
T: GlibPtrDefault + FromGlibPtrNone<<T as GlibPtrDefault>::GlibType> + FromGlibPtrFull<<T as GlibPtrDefault>::GlibType>,
impl<T> FromGlibContainerAsVec<<T as GlibPtrDefault>::GlibType, *const GPtrArray> for Twhere
T: GlibPtrDefault + FromGlibPtrNone<<T as GlibPtrDefault>::GlibType> + FromGlibPtrFull<<T as GlibPtrDefault>::GlibType>,
source§impl<T> FromGlibContainerAsVec<<T as GlibPtrDefault>::GlibType, *const GSList> for Twhere
T: GlibPtrDefault + FromGlibPtrNone<<T as GlibPtrDefault>::GlibType> + FromGlibPtrFull<<T as GlibPtrDefault>::GlibType>,
impl<T> FromGlibContainerAsVec<<T as GlibPtrDefault>::GlibType, *const GSList> for Twhere
T: GlibPtrDefault + FromGlibPtrNone<<T as GlibPtrDefault>::GlibType> + FromGlibPtrFull<<T as GlibPtrDefault>::GlibType>,
source§impl<T> FromGlibContainerAsVec<<T as GlibPtrDefault>::GlibType, *mut GList> for Twhere
T: GlibPtrDefault + FromGlibPtrNone<<T as GlibPtrDefault>::GlibType> + FromGlibPtrFull<<T as GlibPtrDefault>::GlibType>,
impl<T> FromGlibContainerAsVec<<T as GlibPtrDefault>::GlibType, *mut GList> for Twhere
T: GlibPtrDefault + FromGlibPtrNone<<T as GlibPtrDefault>::GlibType> + FromGlibPtrFull<<T as GlibPtrDefault>::GlibType>,
source§impl<T> FromGlibContainerAsVec<<T as GlibPtrDefault>::GlibType, *mut GPtrArray> for Twhere
T: GlibPtrDefault + FromGlibPtrNone<<T as GlibPtrDefault>::GlibType> + FromGlibPtrFull<<T as GlibPtrDefault>::GlibType>,
impl<T> FromGlibContainerAsVec<<T as GlibPtrDefault>::GlibType, *mut GPtrArray> for Twhere
T: GlibPtrDefault + FromGlibPtrNone<<T as GlibPtrDefault>::GlibType> + FromGlibPtrFull<<T as GlibPtrDefault>::GlibType>,
source§impl<T> FromGlibContainerAsVec<<T as GlibPtrDefault>::GlibType, *mut GSList> for Twhere
T: GlibPtrDefault + FromGlibPtrNone<<T as GlibPtrDefault>::GlibType> + FromGlibPtrFull<<T as GlibPtrDefault>::GlibType>,
impl<T> FromGlibContainerAsVec<<T as GlibPtrDefault>::GlibType, *mut GSList> for Twhere
T: GlibPtrDefault + FromGlibPtrNone<<T as GlibPtrDefault>::GlibType> + FromGlibPtrFull<<T as GlibPtrDefault>::GlibType>,
source§impl<T> FromGlibPtrArrayContainerAsVec<<T as GlibPtrDefault>::GlibType, *const GList> for Twhere
T: GlibPtrDefault + FromGlibPtrNone<<T as GlibPtrDefault>::GlibType> + FromGlibPtrFull<<T as GlibPtrDefault>::GlibType>,
impl<T> FromGlibPtrArrayContainerAsVec<<T as GlibPtrDefault>::GlibType, *const GList> for Twhere
T: GlibPtrDefault + FromGlibPtrNone<<T as GlibPtrDefault>::GlibType> + FromGlibPtrFull<<T as GlibPtrDefault>::GlibType>,
unsafe fn from_glib_none_as_vec(ptr: *const GList) -> Vec<T>
unsafe fn from_glib_container_as_vec(_: *const GList) -> Vec<T>
unsafe fn from_glib_full_as_vec(_: *const GList) -> Vec<T>
source§impl<T> FromGlibPtrArrayContainerAsVec<<T as GlibPtrDefault>::GlibType, *const GPtrArray> for Twhere
T: GlibPtrDefault + FromGlibPtrNone<<T as GlibPtrDefault>::GlibType> + FromGlibPtrFull<<T as GlibPtrDefault>::GlibType>,
impl<T> FromGlibPtrArrayContainerAsVec<<T as GlibPtrDefault>::GlibType, *const GPtrArray> for Twhere
T: GlibPtrDefault + FromGlibPtrNone<<T as GlibPtrDefault>::GlibType> + FromGlibPtrFull<<T as GlibPtrDefault>::GlibType>,
unsafe fn from_glib_none_as_vec(ptr: *const GPtrArray) -> Vec<T>
unsafe fn from_glib_container_as_vec(_: *const GPtrArray) -> Vec<T>
unsafe fn from_glib_full_as_vec(_: *const GPtrArray) -> Vec<T>
source§impl<T> FromGlibPtrArrayContainerAsVec<<T as GlibPtrDefault>::GlibType, *const GSList> for Twhere
T: GlibPtrDefault + FromGlibPtrNone<<T as GlibPtrDefault>::GlibType> + FromGlibPtrFull<<T as GlibPtrDefault>::GlibType>,
impl<T> FromGlibPtrArrayContainerAsVec<<T as GlibPtrDefault>::GlibType, *const GSList> for Twhere
T: GlibPtrDefault + FromGlibPtrNone<<T as GlibPtrDefault>::GlibType> + FromGlibPtrFull<<T as GlibPtrDefault>::GlibType>,
unsafe fn from_glib_none_as_vec(ptr: *const GSList) -> Vec<T>
unsafe fn from_glib_container_as_vec(_: *const GSList) -> Vec<T>
unsafe fn from_glib_full_as_vec(_: *const GSList) -> Vec<T>
source§impl<T> FromGlibPtrArrayContainerAsVec<<T as GlibPtrDefault>::GlibType, *mut GList> for Twhere
T: GlibPtrDefault + FromGlibPtrNone<<T as GlibPtrDefault>::GlibType> + FromGlibPtrFull<<T as GlibPtrDefault>::GlibType>,
impl<T> FromGlibPtrArrayContainerAsVec<<T as GlibPtrDefault>::GlibType, *mut GList> for Twhere
T: GlibPtrDefault + FromGlibPtrNone<<T as GlibPtrDefault>::GlibType> + FromGlibPtrFull<<T as GlibPtrDefault>::GlibType>,
unsafe fn from_glib_none_as_vec(ptr: *mut GList) -> Vec<T>
unsafe fn from_glib_container_as_vec(ptr: *mut GList) -> Vec<T>
unsafe fn from_glib_full_as_vec(ptr: *mut GList) -> Vec<T>
source§impl<T> FromGlibPtrArrayContainerAsVec<<T as GlibPtrDefault>::GlibType, *mut GPtrArray> for Twhere
T: GlibPtrDefault + FromGlibPtrNone<<T as GlibPtrDefault>::GlibType> + FromGlibPtrFull<<T as GlibPtrDefault>::GlibType>,
impl<T> FromGlibPtrArrayContainerAsVec<<T as GlibPtrDefault>::GlibType, *mut GPtrArray> for Twhere
T: GlibPtrDefault + FromGlibPtrNone<<T as GlibPtrDefault>::GlibType> + FromGlibPtrFull<<T as GlibPtrDefault>::GlibType>,
unsafe fn from_glib_none_as_vec(ptr: *mut GPtrArray) -> Vec<T>
unsafe fn from_glib_container_as_vec(ptr: *mut GPtrArray) -> Vec<T>
unsafe fn from_glib_full_as_vec(ptr: *mut GPtrArray) -> Vec<T>
source§impl<T> FromGlibPtrArrayContainerAsVec<<T as GlibPtrDefault>::GlibType, *mut GSList> for Twhere
T: GlibPtrDefault + FromGlibPtrNone<<T as GlibPtrDefault>::GlibType> + FromGlibPtrFull<<T as GlibPtrDefault>::GlibType>,
impl<T> FromGlibPtrArrayContainerAsVec<<T as GlibPtrDefault>::GlibType, *mut GSList> for Twhere
T: GlibPtrDefault + FromGlibPtrNone<<T as GlibPtrDefault>::GlibType> + FromGlibPtrFull<<T as GlibPtrDefault>::GlibType>,
unsafe fn from_glib_none_as_vec(ptr: *mut GSList) -> Vec<T>
unsafe fn from_glib_container_as_vec(ptr: *mut GSList) -> Vec<T>
unsafe fn from_glib_full_as_vec(ptr: *mut GSList) -> Vec<T>
source§impl<T> IntoClosureReturnValue for T
impl<T> IntoClosureReturnValue for T
fn into_closure_return_value(self) -> Option<Value>
source§impl<T> PropertyGet for Twhere
T: HasParamSpec,
impl<T> PropertyGet for Twhere
T: HasParamSpec,
source§impl<T> StaticTypeExt for Twhere
T: StaticType,
impl<T> StaticTypeExt for Twhere
T: StaticType,
source§fn ensure_type()
fn ensure_type()
source§impl<T> ToSendValue for T
impl<T> ToSendValue for T
source§fn to_send_value(&self) -> SendValue
fn to_send_value(&self) -> SendValue
SendValue
clone of self
.