#[repr(transparent)]pub struct Builder { /* private fields */ }
Expand description
A Builder
reads XML descriptions of a user interface and
instantiates the described objects.
To create a Builder
from a user interface description, call
from_file()
, from_resource()
or from_string()
.
In the (unusual) case that you want to add user interface
descriptions from multiple sources to the same Builder
you can
call new()
to get an empty builder and populate it by
(multiple) calls to add_from_file()
,
add_from_resource()
or
add_from_string()
.
A Builder
holds a reference to all objects that it has constructed
and drops these references when it is finalized. This finalization can
cause the destruction of non-widget objects or widgets which are not
contained in a toplevel window. For toplevel windows constructed by a
builder, it is the responsibility of the user to call
Gtk::Window::destroy()
to get rid of them and all the widgets
they contain.
The functions object()
and
objects()
can be used to access the widgets in
the interface by the names assigned to them inside the UI description.
Toplevel windows returned by these functions will stay around until the
user explicitly destroys them with Gtk::Window::destroy()
. Other
widgets will either be part of a larger hierarchy constructed by the
builder (in which case you should not have to worry about their lifecycle),
or without a parent, in which case they have to be added to some container
to make use of them. Non-widget objects need to be reffed with
g_object_ref() to keep them beyond the lifespan of the builder.
GtkBuilder UI Definitions
Builder
parses textual descriptions of user interfaces which are
specified in XML format. We refer to these descriptions as “GtkBuilder
UI definitions” or just “UI definitions” if the context is clear.
The toplevel element is <interface>
. It optionally takes a “domain”
attribute, which will make the builder look for translated strings
using dgettext()
in the domain specified. This can also be done by
calling set_translation_domain()
on the builder.
Objects are described by <object>
elements, which can contain
<property>
elements to set properties, <signal>
elements which
connect signals to handlers, and <child>
elements, which describe
child objects (most often widgets inside a container, but also e.g.
actions in an action group, or columns in a tree model). A <child>
element contains an <object>
element which describes the child object.
The target toolkit version(s) are described by <requires>
elements,
the “lib” attribute specifies the widget library in question (currently
the only supported value is “gtk”) and the “version” attribute specifies
the target version in the form “<major>
.<minor>
”. Builder
will
error out if the version requirements are not met.
Typically, the specific kind of object represented by an <object>
element is specified by the “class” attribute. If the type has not
been loaded yet, GTK tries to find the get_type()
function from the
class name by applying heuristics. This works in most cases, but if
necessary, it is possible to specify the name of the get_type()
function explicitly with the “type-func” attribute.
Objects may be given a name with the “id” attribute, which allows the
application to retrieve them from the builder with
object()
. An id is also necessary to use the
object as property value in other parts of the UI definition. GTK
reserves ids starting and ending with ___
(three consecutive
underscores) for its own purposes.
Setting properties of objects is pretty straightforward with the
<property>
element: the “name” attribute specifies the name of the
property, and the content of the element specifies the value.
If the “translatable” attribute is set to a true value, GTK uses
gettext()
(or dgettext()
if the builder has a translation domain set)
to find a translation for the value. This happens before the value
is parsed, so it can be used for properties of any type, but it is
probably most useful for string properties. It is also possible to
specify a context to disambiguate short strings, and comments which
may help the translators.
Builder
can parse textual representations for the most common
property types: characters, strings, integers, floating-point numbers,
booleans (strings like “TRUE”, “t”, “yes”, “y”, “1” are interpreted
as true
, strings like “FALSE”, “f”, “no”, “n”, “0” are interpreted
as false
), enumerations (can be specified by their name, nick or
integer value), flags (can be specified by their name, nick, integer
value, optionally combined with “|”, e.g.
“GTK_INPUT_HINT_EMOJI|GTK_INPUT_HINT_LOWERCASE”)
and colors (in a format understood by gdk::RGBA::parse()
).
GVariant
s can be specified in the format understood by
g_variant_parse(), and pixbufs can be specified as a filename of an
image file to load.
Objects can be referred to by their name and by default refer to
objects declared in the local XML fragment and objects exposed via
expose_object()
. In general, Builder
allows
forward references to objects — declared in the local XML; an object
doesn’t have to be constructed before it can be referred to. The
exception to this rule is that an object has to be constructed before
it can be used as the value of a construct-only property.
It is also possible to bind a property value to another object’s
property value using the attributes “bind-source” to specify the
source object of the binding, and optionally, “bind-property” and
“bind-flags” to specify the source property and source binding flags
respectively. Internally, Builder
implements this using GBinding
objects. For more information see g_object_bind_property().
Sometimes it is necessary to refer to widgets which have implicitly
been constructed by GTK as part of a composite widget, to set
properties on them or to add further children (e.g. the content area
of a Dialog
). This can be achieved by setting the “internal-child”
property of the <child>
element to a true value. Note that Builder
still requires an <object>
element for the internal child, even if it
has already been constructed.
A number of widgets have different places where a child can be added
(e.g. tabs vs. page content in notebooks). This can be reflected in
a UI definition by specifying the “type” attribute on a <child>
The possible values for the “type” attribute are described in the
sections describing the widget-specific portions of UI definitions.
Signal handlers and function pointers
Signal handlers are set up with the <signal>
element. The “name”
attribute specifies the name of the signal, and the “handler” attribute
specifies the function to connect to the signal.
The remaining attributes, “after”, “swapped” and “object”, have the
same meaning as the corresponding parameters of the
g_signal_connect_object() or g_signal_connect_data() functions. A
“last_modification_time” attribute is also allowed, but it does not
have a meaning to the builder.
If you rely on GModule
support to lookup callbacks in the symbol table,
the following details should be noted:
When compiling applications for Windows, you must declare signal callbacks
with G_MODULE_EXPORT
, or they will not be put in the symbol table.
On Linux and Unix, this is not necessary; applications should instead
be compiled with the -Wl,–export-dynamic CFLAGS
, and linked against
gmodule-export-2.0
.
A GtkBuilder UI Definition
<interface>
<object class="GtkDialog" id="dialog1">
<child internal-child="content_area">
<object class="GtkBox" id="vbox1">
<child internal-child="action_area">
<object class="GtkBox" id="hbuttonbox1">
<child>
<object class="GtkButton" id="ok_button">
<property name="label" translatable="yes">_Ok</property>
<property name="use-underline">True</property>
<signal name="clicked" handler="ok_button_clicked"/>
</object>
</child>
</object>
</child>
</object>
</child>
</object>
</interface>
Beyond this general structure, several object classes define their
own XML DTD fragments for filling in the ANY placeholders in the DTD
above. Note that a custom element in a <child>
element gets parsed by
the custom tag handler of the parent object, while a custom element in
an <object>
element gets parsed by the custom tag handler of the object.
These XML fragments are explained in the documentation of the respective objects.
A <template>
tag can be used to define a widget class’s components.
See the GtkWidget documentation for details.
Properties
current-object
The object the builder is evaluating for.
Readable | Writeable
scope
The scope the builder is operating in
Readable | Writeable | Construct
translation-domain
The translation domain used when translating property values that have been marked as translatable.
If the translation domain is None
, Builder
uses gettext(),
otherwise g_dgettext().
Readable | Writeable
Implements
Implementations§
source§impl Builder
impl Builder
sourcepub fn new() -> Builder
pub fn new() -> Builder
Creates a new empty builder object.
This function is only useful if you intend to make multiple calls
to add_from_file()
, add_from_resource()
or add_from_string()
in order to merge multiple UI
descriptions into a single builder.
Returns
a new (empty) Builder
object
sourcepub fn from_resource(resource_path: &str) -> Builder
pub fn from_resource(resource_path: &str) -> Builder
Parses the UI definition at @resource_path.
If there is an error locating the resource or parsing the description, then the program will be aborted.
resource_path
a GResource
resource path
Returns
a Builder
containing the described interface
sourcepub fn from_string(string: &str) -> Builder
pub fn from_string(string: &str) -> Builder
Parses the UI definition in @string.
If @string is None
-terminated, then @length should be -1.
If @length is not -1, then it is the length of @string.
If there is an error parsing @string then the program will be aborted. You should not attempt to parse user interface description from untrusted sources.
string
a user interface (XML) description
length
the length of @string, or -1
Returns
a Builder
containing the interface described by @string
sourcepub fn add_from_resource(&self, resource_path: &str) -> Result<(), Error>
pub fn add_from_resource(&self, resource_path: &str) -> Result<(), Error>
Parses a resource file containing a UI definition and merges it with the current contents of @self.
This function is useful if you need to call
set_current_object()
to add user data to
callbacks before loading GtkBuilder UI. Otherwise, you probably
want from_resource()
instead.
If an error occurs, 0 will be returned and @error will be assigned a
GError
from the GTK_BUILDER_ERROR
, G_MARKUP_ERROR
or G_RESOURCE_ERROR
domain.
It’s not really reasonable to attempt to handle failures of this call. The only reasonable thing to do when an error is detected is to call g_error().
resource_path
the path of the resource file to parse
Returns
sourcepub fn add_from_string(&self, buffer: &str) -> Result<(), Error>
pub fn add_from_string(&self, buffer: &str) -> Result<(), Error>
Parses a string containing a UI definition and merges it with the current contents of @self.
This function is useful if you need to call
set_current_object()
to add user data to
callbacks before loading Builder
UI. Otherwise, you probably
want from_string()
instead.
Upon errors false
will be returned and @error will be assigned a
GError
from the GTK_BUILDER_ERROR
, G_MARKUP_ERROR
or
G_VARIANT_PARSE_ERROR
domain.
It’s not really reasonable to attempt to handle failures of this call. The only reasonable thing to do when an error is detected is to call g_error().
buffer
the string to parse
length
the length of @buffer (may be -1 if @buffer is nul-terminated)
Returns
sourcepub fn add_objects_from_file(
&self,
filename: impl AsRef<Path>,
object_ids: &[&str]
) -> Result<(), Error>
pub fn add_objects_from_file( &self, filename: impl AsRef<Path>, object_ids: &[&str] ) -> Result<(), Error>
Parses a file containing a UI definition building only the requested objects and merges them with the current contents of @self.
Upon errors, 0 will be returned and @error will be assigned a
GError
from the GTK_BUILDER_ERROR
, G_MARKUP_ERROR
or G_FILE_ERROR
domain.
If you are adding an object that depends on an object that is not
its child (for instance a TreeView
that depends on its
TreeModel
), you have to explicitly list all of them in @object_ids.
filename
the name of the file to parse
object_ids
nul-terminated array of objects to build
Returns
sourcepub fn add_objects_from_resource(
&self,
resource_path: &str,
object_ids: &[&str]
) -> Result<(), Error>
pub fn add_objects_from_resource( &self, resource_path: &str, object_ids: &[&str] ) -> Result<(), Error>
Parses a resource file containing a UI definition, building only the requested objects and merges them with the current contents of @self.
Upon errors, 0 will be returned and @error will be assigned a
GError
from the GTK_BUILDER_ERROR
, G_MARKUP_ERROR
or G_RESOURCE_ERROR
domain.
If you are adding an object that depends on an object that is not
its child (for instance a TreeView
that depends on its
TreeModel
), you have to explicitly list all of them in @object_ids.
resource_path
the path of the resource file to parse
object_ids
nul-terminated array of objects to build
Returns
sourcepub fn add_objects_from_string(
&self,
buffer: &str,
object_ids: &[&str]
) -> Result<(), Error>
pub fn add_objects_from_string( &self, buffer: &str, object_ids: &[&str] ) -> Result<(), Error>
Parses a string containing a UI definition, building only the requested objects and merges them with the current contents of @self.
Upon errors false
will be returned and @error will be assigned a
GError
from the GTK_BUILDER_ERROR
or G_MARKUP_ERROR
domain.
If you are adding an object that depends on an object that is not
its child (for instance a TreeView
that depends on its
TreeModel
), you have to explicitly list all of them in @object_ids.
buffer
the string to parse
length
the length of @buffer (may be -1 if @buffer is nul-terminated)
object_ids
nul-terminated array of objects to build
Returns
sourcepub fn create_closure(
&self,
function_name: &str,
flags: BuilderClosureFlags,
object: Option<&impl IsA<Object>>
) -> Result<Option<Closure>, Error>
pub fn create_closure( &self, function_name: &str, flags: BuilderClosureFlags, object: Option<&impl IsA<Object>> ) -> Result<Option<Closure>, Error>
Creates a closure to invoke the function called @function_name.
This is using the create_closure() implementation of @self’s
BuilderScope
.
If no closure could be created, None
will be returned and @error
will be set.
function_name
name of the function to look up
flags
closure creation flags
object
Object to create the closure with
Returns
A new closure for invoking @function_name
sourcepub fn expose_object(&self, name: &str, object: &impl IsA<Object>)
pub fn expose_object(&self, name: &str, object: &impl IsA<Object>)
Add @object to the @self object pool so it can be referenced just like any other object built by builder.
Only a single object may be added using @name. However,
it is not an error to expose the same object under multiple
names. gtk_builder_get_object()
may be used to determine
if an object has already been added with @name.
name
the name of the object exposed to the builder
object
the object to expose
sourcepub fn extend_with_template(
&self,
object: &impl IsA<Object>,
template_type: Type,
buffer: &str
) -> Result<(), Error>
pub fn extend_with_template( &self, object: &impl IsA<Object>, template_type: Type, buffer: &str ) -> Result<(), Error>
Main private entry point for building composite components from template XML.
Most likely you do not need to call this function in applications as
templates are handled by Widget
.
object
the object that is being extended
template_type
the type that the template is for
buffer
the string to parse
length
the length of @buffer (may be -1 if @buffer is nul-terminated)
Returns
A positive value on success, 0 if an error occurred
sourcepub fn objects(&self) -> Vec<Object>
pub fn objects(&self) -> Vec<Object>
Gets all objects that have been constructed by @self.
Note that this function does not increment the reference counts of the returned objects.
Returns
a
newly-allocated GSList
containing all the objects
constructed by the GtkBuilder instance
. It should be
freed by g_slist_free()
sourcepub fn scope(&self) -> BuilderScope
pub fn scope(&self) -> BuilderScope
sourcepub fn translation_domain(&self) -> Option<GString>
pub fn translation_domain(&self) -> Option<GString>
sourcepub fn type_from_name(&self, type_name: &str) -> Type
pub fn type_from_name(&self, type_name: &str) -> Type
sourcepub fn set_current_object(&self, current_object: Option<&impl IsA<Object>>)
pub fn set_current_object(&self, current_object: Option<&impl IsA<Object>>)
Sets the current object for the @self.
The current object can be thought of as the this
object that the
builder is working for and will often be used as the default object
when an object is optional.
Gtk::Widget::init_template()
for example will set the current
object to the widget the template is inited for. For functions like
from_resource()
, the current object will be None
.
current_object
the new current object
sourcepub fn set_scope(&self, scope: Option<&impl IsA<BuilderScope>>)
pub fn set_scope(&self, scope: Option<&impl IsA<BuilderScope>>)
sourcepub fn set_translation_domain(&self, domain: Option<&str>)
pub fn set_translation_domain(&self, domain: Option<&str>)
sourcepub fn value_from_string(
&self,
pspec: impl AsRef<ParamSpec>,
string: &str
) -> Result<Value, Error>
pub fn value_from_string( &self, pspec: impl AsRef<ParamSpec>, string: &str ) -> Result<Value, Error>
Demarshals a value from a string.
This function calls g_value_init() on the @value argument, so it need not be initialised beforehand.
Can handle char, uchar, boolean, int, uint, long,
ulong, enum, flags, float, double, string, gdk::RGBA
and
Adjustment
type values.
Upon errors false
will be returned and @error will be
assigned a GError
from the GTK_BUILDER_ERROR
domain.
pspec
the GParamSpec
for the property
string
the string representation of the value
Returns
true
on success
value
the GValue
to store the result in
sourcepub fn value_from_string_type(
&self,
type_: Type,
string: &str
) -> Result<Value, Error>
pub fn value_from_string_type( &self, type_: Type, string: &str ) -> Result<Value, Error>
Demarshals a value from a string.
Unlike value_from_string()
, this function
takes a GType
instead of GParamSpec
.
Calls g_value_init() on the @value argument, so it need not be initialised beforehand.
Upon errors false
will be returned and @error will be
assigned a GError
from the GTK_BUILDER_ERROR
domain.
type_
the GType
of the value
string
the string representation of the value
Returns
true
on success
value
the GValue
to store the result in
pub fn connect_current_object_notify<F: Fn(&Self) + 'static>( &self, f: F ) -> SignalHandlerId
pub fn connect_scope_notify<F: Fn(&Self) + 'static>( &self, f: F ) -> SignalHandlerId
pub fn connect_translation_domain_notify<F: Fn(&Self) + 'static>( &self, f: F ) -> SignalHandlerId
source§impl Builder
impl Builder
sourcepub fn from_file(file_path: impl AsRef<Path>) -> Self
pub fn from_file(file_path: impl AsRef<Path>) -> Self
Parses the UI definition in the file @filename.
If there is an error opening the file or parsing the description then the program will be aborted. You should only ever attempt to parse user interface descriptions that are shipped as part of your program.
filename
filename of user interface description file
Returns
a Builder
containing the described interface
sourcepub fn current_object(&self) -> Option<Object>
pub fn current_object(&self) -> Option<Object>
sourcepub fn add_from_file(&self, file_path: impl AsRef<Path>) -> Result<(), Error>
pub fn add_from_file(&self, file_path: impl AsRef<Path>) -> Result<(), Error>
Parses a file containing a UI definition and merges it with the current contents of @self.
This function is useful if you need to call
set_current_object()
) to add user data to
callbacks before loading GtkBuilder UI. Otherwise, you probably
want from_file()
instead.
If an error occurs, 0 will be returned and @error will be assigned a
GError
from the GTK_BUILDER_ERROR
, G_MARKUP_ERROR
or G_FILE_ERROR
domains.
It’s not really reasonable to attempt to handle failures of this
call. You should not use this function with untrusted files (ie:
files that are not part of your application). Broken Builder
files can easily crash your program, and it’s possible that memory
was leaked leading up to the reported failure. The only reasonable
thing to do when an error is detected is to call g_error()
.
filename
the name of the file to parse
Returns
Trait Implementations§
source§impl HasParamSpec for Builder
impl HasParamSpec for Builder
source§impl Ord for Builder
impl Ord for Builder
source§impl<OT: ObjectType> PartialEq<OT> for Builder
impl<OT: ObjectType> PartialEq<OT> for Builder
source§impl<OT: ObjectType> PartialOrd<OT> for Builder
impl<OT: ObjectType> PartialOrd<OT> for Builder
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 Builder
impl StaticType for Builder
source§fn static_type() -> Type
fn static_type() -> Type
Self
.impl Eq for Builder
Auto Trait Implementations§
impl RefUnwindSafe for Builder
impl !Send for Builder
impl !Sync for Builder
impl Unpin for Builder
impl UnwindSafe for Builder
Blanket Implementations§
source§impl<T> Cast for Twhere
T: ObjectType,
impl<T> Cast for Twhere T: ObjectType,
source§fn upcast<T>(self) -> Twhere
T: ObjectType,
Self: IsA<T>,
fn upcast<T>(self) -> Twhere T: ObjectType, Self: IsA<T>,
T
. Read moresource§fn upcast_ref<T>(&self) -> &Twhere
T: ObjectType,
Self: IsA<T>,
fn upcast_ref<T>(&self) -> &Twhere T: ObjectType, Self: IsA<T>,
T
. Read moresource§fn downcast<T>(self) -> Result<T, Self>where
T: ObjectType,
Self: CanDowncast<T>,
fn downcast<T>(self) -> Result<T, Self>where T: ObjectType, Self: CanDowncast<T>,
T
. Read moresource§fn downcast_ref<T>(&self) -> Option<&T>where
T: ObjectType,
Self: CanDowncast<T>,
fn downcast_ref<T>(&self) -> Option<&T>where T: ObjectType, Self: CanDowncast<T>,
T
. Read moresource§fn dynamic_cast<T>(self) -> Result<T, Self>where
T: ObjectType,
fn dynamic_cast<T>(self) -> Result<T, Self>where T: ObjectType,
T
. This handles upcasting, downcasting
and casting between interface and interface implementors. All checks are performed at
runtime, while upcast
will do many checks at compile-time already. downcast
will
perform the same checks at runtime as dynamic_cast
, but will also ensure some amount of
compile-time safety. Read moresource§fn dynamic_cast_ref<T>(&self) -> Option<&T>where
T: ObjectType,
fn dynamic_cast_ref<T>(&self) -> Option<&T>where T: ObjectType,
T
. This handles upcasting, downcasting
and casting between interface and interface implementors. All checks are performed at
runtime, while downcast
and upcast
will do many checks at compile-time already. Read moresource§unsafe fn unsafe_cast<T>(self) -> Twhere
T: ObjectType,
unsafe fn unsafe_cast<T>(self) -> Twhere T: ObjectType,
T
unconditionally. Read moresource§unsafe fn unsafe_cast_ref<T>(&self) -> &Twhere
T: ObjectType,
unsafe fn unsafe_cast_ref<T>(&self) -> &Twhere T: ObjectType,
&T
unconditionally. Read moresource§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>,
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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>,
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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>,
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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>,
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>,
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>,
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>,
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>,
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>,
source§impl<T> IntoClosureReturnValue for Twhere
T: Into<Value>,
impl<T> IntoClosureReturnValue for Twhere T: Into<Value>,
fn into_closure_return_value(self) -> Option<Value>
source§impl<U> IsSubclassableExt for Uwhere
U: IsClass + ParentClassIs,
impl<U> IsSubclassableExt for Uwhere U: IsClass + ParentClassIs,
fn parent_class_init<T>(class: &mut Class<U>)where T: ObjectSubclass, <U as ParentClassIs>::Parent: IsSubclassable<T>,
fn parent_instance_init<T>(instance: &mut InitializingObject<T>)where T: ObjectSubclass, <U as ParentClassIs>::Parent: IsSubclassable<T>,
source§impl<T> ObjectExt for Twhere
T: ObjectType,
impl<T> ObjectExt for Twhere T: ObjectType,
source§fn is<U>(&self) -> boolwhere
U: StaticType,
fn is<U>(&self) -> boolwhere U: StaticType,
true
if the object is an instance of (can be cast to) T
.source§fn object_class(&self) -> &Class<Object>
fn object_class(&self) -> &Class<Object>
ObjectClass
of the object. Read moresource§fn class_of<U>(&self) -> Option<&Class<U>>where
U: IsClass,
fn class_of<U>(&self) -> Option<&Class<U>>where U: IsClass,
T
. Read moresource§fn interface<U>(&self) -> Option<InterfaceRef<'_, U>>where
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fn interface<U>(&self) -> Option<InterfaceRef<'_, U>>where U: IsInterface,
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of the object. Read moresource§fn set_property_from_value(&self, property_name: &str, value: &Value)
fn set_property_from_value(&self, property_name: &str, value: &Value)
source§fn set_properties(&self, property_values: &[(&str, &dyn ToValue)])
fn set_properties(&self, property_values: &[(&str, &dyn ToValue)])
source§fn set_properties_from_value(&self, property_values: &[(&str, Value)])
fn set_properties_from_value(&self, property_values: &[(&str, Value)])
source§fn property<V>(&self, property_name: &str) -> Vwhere
V: for<'b> FromValue<'b> + 'static,
fn property<V>(&self, property_name: &str) -> Vwhere V: for<'b> FromValue<'b> + 'static,
property_name
of the object and cast it to the type V. Read moresource§fn property_value(&self, property_name: &str) -> Value
fn property_value(&self, property_name: &str) -> Value
property_name
of the object. Read moresource§fn property_type(&self, property_name: &str) -> Option<Type>
fn property_type(&self, property_name: &str) -> Option<Type>
property_name
of this object. Read moresource§fn find_property(&self, property_name: &str) -> Option<ParamSpec>
fn find_property(&self, property_name: &str) -> Option<ParamSpec>
ParamSpec
of the property property_name
of this object.source§fn list_properties(&self) -> PtrSlice<ParamSpec>
fn list_properties(&self) -> PtrSlice<ParamSpec>
ParamSpec
of the properties of this object.source§fn freeze_notify(&self) -> PropertyNotificationFreezeGuard
fn freeze_notify(&self) -> PropertyNotificationFreezeGuard
source§unsafe fn set_qdata<QD>(&self, key: Quark, value: QD)where
QD: 'static,
unsafe fn set_qdata<QD>(&self, key: Quark, value: QD)where QD: 'static,
key
. Read moresource§unsafe fn qdata<QD>(&self, key: Quark) -> Option<NonNull<QD>>where
QD: 'static,
unsafe fn qdata<QD>(&self, key: Quark) -> Option<NonNull<QD>>where QD: 'static,
key
. Read moresource§unsafe fn steal_qdata<QD>(&self, key: Quark) -> Option<QD>where
QD: 'static,
unsafe fn steal_qdata<QD>(&self, key: Quark) -> Option<QD>where QD: 'static,
key
. Read moresource§unsafe fn set_data<QD>(&self, key: &str, value: QD)where
QD: 'static,
unsafe fn set_data<QD>(&self, key: &str, value: QD)where QD: 'static,
key
. Read moresource§unsafe fn data<QD>(&self, key: &str) -> Option<NonNull<QD>>where
QD: 'static,
unsafe fn data<QD>(&self, key: &str) -> Option<NonNull<QD>>where QD: 'static,
key
. Read moresource§unsafe fn steal_data<QD>(&self, key: &str) -> Option<QD>where
QD: 'static,
unsafe fn steal_data<QD>(&self, key: &str) -> Option<QD>where QD: 'static,
key
. Read moresource§fn block_signal(&self, handler_id: &SignalHandlerId)
fn block_signal(&self, handler_id: &SignalHandlerId)
source§fn unblock_signal(&self, handler_id: &SignalHandlerId)
fn unblock_signal(&self, handler_id: &SignalHandlerId)
source§fn stop_signal_emission(&self, signal_id: SignalId, detail: Option<Quark>)
fn stop_signal_emission(&self, signal_id: SignalId, detail: Option<Quark>)
source§fn stop_signal_emission_by_name(&self, signal_name: &str)
fn stop_signal_emission_by_name(&self, signal_name: &str)
source§fn connect<F>(
&self,
signal_name: &str,
after: bool,
callback: F
) -> SignalHandlerIdwhere
F: Fn(&[Value]) -> Option<Value> + Send + Sync + 'static,
fn connect<F>( &self, signal_name: &str, after: bool, callback: F ) -> SignalHandlerIdwhere F: Fn(&[Value]) -> Option<Value> + Send + Sync + 'static,
signal_name
on this object. Read moresource§fn connect_id<F>(
&self,
signal_id: SignalId,
details: Option<Quark>,
after: bool,
callback: F
) -> SignalHandlerIdwhere
F: Fn(&[Value]) -> Option<Value> + Send + Sync + 'static,
fn connect_id<F>( &self, signal_id: SignalId, details: Option<Quark>, after: bool, callback: F ) -> SignalHandlerIdwhere F: Fn(&[Value]) -> Option<Value> + Send + Sync + 'static,
signal_id
on this object. Read moresource§fn connect_local<F>(
&self,
signal_name: &str,
after: bool,
callback: F
) -> SignalHandlerIdwhere
F: Fn(&[Value]) -> Option<Value> + 'static,
fn connect_local<F>( &self, signal_name: &str, after: bool, callback: F ) -> SignalHandlerIdwhere F: Fn(&[Value]) -> Option<Value> + 'static,
signal_name
on this object. Read moresource§fn connect_local_id<F>(
&self,
signal_id: SignalId,
details: Option<Quark>,
after: bool,
callback: F
) -> SignalHandlerIdwhere
F: Fn(&[Value]) -> Option<Value> + 'static,
fn connect_local_id<F>( &self, signal_id: SignalId, details: Option<Quark>, after: bool, callback: F ) -> SignalHandlerIdwhere F: Fn(&[Value]) -> Option<Value> + 'static,
signal_id
on this object. Read moresource§unsafe fn connect_unsafe<F>(
&self,
signal_name: &str,
after: bool,
callback: F
) -> SignalHandlerIdwhere
F: Fn(&[Value]) -> Option<Value>,
unsafe fn connect_unsafe<F>( &self, signal_name: &str, after: bool, callback: F ) -> SignalHandlerIdwhere F: Fn(&[Value]) -> Option<Value>,
signal_name
on this object. Read moresource§unsafe fn connect_unsafe_id<F>(
&self,
signal_id: SignalId,
details: Option<Quark>,
after: bool,
callback: F
) -> SignalHandlerIdwhere
F: Fn(&[Value]) -> Option<Value>,
unsafe fn connect_unsafe_id<F>( &self, signal_id: SignalId, details: Option<Quark>, after: bool, callback: F ) -> SignalHandlerIdwhere F: Fn(&[Value]) -> Option<Value>,
signal_id
on this object. Read moresource§fn connect_closure(
&self,
signal_name: &str,
after: bool,
closure: RustClosure
) -> SignalHandlerId
fn connect_closure( &self, signal_name: &str, after: bool, closure: RustClosure ) -> SignalHandlerId
signal_name
on this object. Read moresource§fn connect_closure_id(
&self,
signal_id: SignalId,
details: Option<Quark>,
after: bool,
closure: RustClosure
) -> SignalHandlerId
fn connect_closure_id( &self, signal_id: SignalId, details: Option<Quark>, after: bool, closure: RustClosure ) -> SignalHandlerId
signal_id
on this object. Read moresource§fn watch_closure(&self, closure: &impl AsRef<Closure>)
fn watch_closure(&self, closure: &impl AsRef<Closure>)
closure
to the lifetime of the object. When
the object’s reference count drops to zero, the closure will be
invalidated. An invalidated closure will ignore any calls to
invoke_with_values
, or
invoke
when using Rust closures.source§fn emit<R>(&self, signal_id: SignalId, args: &[&dyn ToValue]) -> Rwhere
R: TryFromClosureReturnValue,
fn emit<R>(&self, signal_id: SignalId, args: &[&dyn ToValue]) -> Rwhere R: TryFromClosureReturnValue,
source§fn emit_with_values(&self, signal_id: SignalId, args: &[Value]) -> Option<Value>
fn emit_with_values(&self, signal_id: SignalId, args: &[Value]) -> Option<Value>
Self::emit
but takes Value
for the arguments.source§fn emit_by_name<R>(&self, signal_name: &str, args: &[&dyn ToValue]) -> Rwhere
R: TryFromClosureReturnValue,
fn emit_by_name<R>(&self, signal_name: &str, args: &[&dyn ToValue]) -> Rwhere R: TryFromClosureReturnValue,
source§fn emit_by_name_with_values(
&self,
signal_name: &str,
args: &[Value]
) -> Option<Value>
fn emit_by_name_with_values( &self, signal_name: &str, args: &[Value] ) -> Option<Value>
source§fn emit_by_name_with_details<R>(
&self,
signal_name: &str,
details: Quark,
args: &[&dyn ToValue]
) -> Rwhere
R: TryFromClosureReturnValue,
fn emit_by_name_with_details<R>( &self, signal_name: &str, details: Quark, args: &[&dyn ToValue] ) -> Rwhere R: TryFromClosureReturnValue,
source§fn emit_by_name_with_details_and_values(
&self,
signal_name: &str,
details: Quark,
args: &[Value]
) -> Option<Value>
fn emit_by_name_with_details_and_values( &self, signal_name: &str, details: Quark, args: &[Value] ) -> Option<Value>
source§fn emit_with_details<R>(
&self,
signal_id: SignalId,
details: Quark,
args: &[&dyn ToValue]
) -> Rwhere
R: TryFromClosureReturnValue,
fn emit_with_details<R>( &self, signal_id: SignalId, details: Quark, args: &[&dyn ToValue] ) -> Rwhere R: TryFromClosureReturnValue,
source§fn emit_with_details_and_values(
&self,
signal_id: SignalId,
details: Quark,
args: &[Value]
) -> Option<Value>
fn emit_with_details_and_values( &self, signal_id: SignalId, details: Quark, args: &[Value] ) -> Option<Value>
source§fn disconnect(&self, handler_id: SignalHandlerId)
fn disconnect(&self, handler_id: SignalHandlerId)
source§fn connect_notify<F>(&self, name: Option<&str>, f: F) -> SignalHandlerIdwhere
F: Fn(&T, &ParamSpec) + Send + Sync + 'static,
fn connect_notify<F>(&self, name: Option<&str>, f: F) -> SignalHandlerIdwhere F: Fn(&T, &ParamSpec) + Send + Sync + 'static,
notify
signal of the object. Read moresource§fn connect_notify_local<F>(&self, name: Option<&str>, f: F) -> SignalHandlerIdwhere
F: Fn(&T, &ParamSpec) + 'static,
fn connect_notify_local<F>(&self, name: Option<&str>, f: F) -> SignalHandlerIdwhere F: Fn(&T, &ParamSpec) + 'static,
notify
signal of the object. Read moresource§unsafe fn connect_notify_unsafe<F>(
&self,
name: Option<&str>,
f: F
) -> SignalHandlerIdwhere
F: Fn(&T, &ParamSpec),
unsafe fn connect_notify_unsafe<F>( &self, name: Option<&str>, f: F ) -> SignalHandlerIdwhere F: Fn(&T, &ParamSpec),
notify
signal of the object. Read more