Struct freya_elements::elements::rect
source · pub struct rect;
Expand description
Implementations§
source§impl rect
impl rect
sourcepub const padding: AttributeDescription = _
pub const padding: AttributeDescription = _
Specify the inner paddings of an element. You can do so by four different ways, just like in CSS.
§Example
fn app() -> Element {
rsx!(
rect {
padding: "25", // 25 in all sides
padding: "100 50", // 100 in top and bottom, and 50 in left and right
padding: "2 15 25", // 2 in top, 15 in left and right, and 25 in bottom
padding: "5 7 3 9" // 5 in top, 7 in right, 3 in bottom and 9 in left
}
)
}
sourcepub const height: AttributeDescription = _
pub const height: AttributeDescription = _
Specify the width and height for the given element.
See syntax in Size Units
.
§Example
fn app() -> Element {
rsx!(
rect {
background: "red",
width: "15",
height: "50",
}
)
}
pub const width: AttributeDescription = _
sourcepub const min_height: AttributeDescription = _
pub const min_height: AttributeDescription = _
§min_width & min_height
rect
supports specifying a minimum width and height, this can be useful if you use it alongside a percentage for the target size.
See syntax for Size Units
.
§Usage
fn app() -> Element {
rsx!(
rect {
background: "red",
min_width: "100",
min_height: "100",
width: "50%",
height: "50%",
}
)
}
pub const min_width: AttributeDescription = _
sourcepub const max_height: AttributeDescription = _
pub const max_height: AttributeDescription = _
§max_width & max_height
rect
supports specifying a maximum width and height.
See syntax for Size Units
.
§Usage
fn app() -> Element {
rsx!(
rect {
background: "red",
max_width: "50%",
max_height: "50%",
width: "500",
height: "500",
}
)
}
pub const max_width: AttributeDescription = _
sourcepub const background: AttributeDescription = _
pub const background: AttributeDescription = _
pub const border_align: AttributeDescription = _
sourcepub const direction: AttributeDescription = _
pub const direction: AttributeDescription = _
Control how the inner elements stack.
Accepted values:
vertical
(default)horizontal
§Usage
fn app() -> Element {
rsx!(
rect {
width: "100%",
height: "100%",
direction: "vertical",
rect {
width: "100%",
height: "50%",
background: "red"
},
rect {
width: "100%",
height: "50%",
background: "green"
}
}
)
}
sourcepub const shadow: AttributeDescription = _
pub const shadow: AttributeDescription = _
Draw a shadow of the element.
Syntax: <x> <y> <intensity> <size> <color>
§Example
fn app() -> Element {
rsx!(
rect {
shadow: "0 0 25 2 rgb(0, 0, 0, 120)"
}
)
}
sourcepub const corner_radius: AttributeDescription = _
pub const corner_radius: AttributeDescription = _
pub const corner_smoothing: AttributeDescription = _
sourcepub const color: AttributeDescription = _
pub const color: AttributeDescription = _
The color
attribute lets you specify the color of the text.
You can learn about the syntax of this attribute in Color Syntax
.
§Example
fn app() -> Element {
rsx!(
label {
color: "green",
"Hello, World!"
}
)
}
Another example showing inheritance:
fn app() -> Element {
rsx!(
rect {
color: "blue",
label {
"Hello, World!"
}
}
)
}
sourcepub const font_size: AttributeDescription = _
pub const font_size: AttributeDescription = _
You can specify the size of the text using font_size
.
§Example
fn app() -> Element {
rsx!(
label {
font_size: "50",
"Hellooooo!"
}
)
}
sourcepub const font_family: AttributeDescription = _
pub const font_family: AttributeDescription = _
With the font_family
you can specify what font you want to use for the inner text.
Check out the custom font example to see how you can load your own fonts.
§Example
fn app() -> Element {
rsx!(
label {
font_family: "Inter",
"Hello, World!"
}
)
}
sourcepub const font_style: AttributeDescription = _
pub const font_style: AttributeDescription = _
You can choose a style for a text using the font_style
attribute.
Accepted values:
upright
(default)italic
oblique
§Example
fn app() -> Element {
rsx!(
label {
font_style: "italic",
"Hello, italic World!"
}
)
}
You can also specify multiple fonts in order of priority, if one is not found it will fallback to the next one.
Example:
fn app() -> Element {
rsx!(
label {
font_family: "DoesntExist Font, Impact",
"Hello, World!"
}
)
}
sourcepub const font_weight: AttributeDescription = _
pub const font_weight: AttributeDescription = _
You can choose a weight for text using the font_weight
attribute.
Accepted values:
invisible
thin
extra-light
light
normal
(default)medium
semi-bold
bold
extra-bold
black
extra-black
50
100
200
300
400
500
600
700
800
900
950
§Example
fn app() -> Element {
rsx!(
label {
font_weight: "bold",
"Hello, bold World!"
}
)
}
sourcepub const font_width: AttributeDescription = _
pub const font_width: AttributeDescription = _
You can choose a width for a text using the font_width
attribute.
⚠️ Only fonts with variable widths will be affected.
Accepted values:
ultra-condensed
extra-condensed
condensed
normal
(default)semi-expanded
expanded
extra-expanded
ultra-expanded
§Example
fn app() -> Element {
rsx!(
label {
font_width: "ultra-expanded",
"Hello, wide World!"
}
)
}
sourcepub const main_align: AttributeDescription = _
pub const main_align: AttributeDescription = _
§main_align & cross_align
Control how the inner elements are positioned inside the element. You can combine it with the direction
attribute to create complex flows.
Accepted values for both attributes are:
start
(default): At the begining of the axiscenter
: At the center of the axisend
: At the end of the axis
When using the vertical
direction, main_align
will be the Y axis and cross_align
will be the X axis. But when using the horizontal
direction, the
main_align
will be the X axis and the cross_align
will be the Y axis.
Example on how to center the inner elements in both axis:
fn app() -> Element {
rsx!(
rect {
width: "100%",
height: "100%",
main_align: "center",
cross_align: "center",
rect {
width: "50%",
height: "50%",
background: "red"
},
}
)
}
pub const cross_align: AttributeDescription = _
sourcepub const text_align: AttributeDescription = _
pub const text_align: AttributeDescription = _
You can change the alignment of the text using the text_align
attribute.
Accepted values:
center
end
justify
left
(default)right
start
§Example
fn app() -> Element {
rsx!(
label {
text_align: "right",
"Hello, World!"
}
)
}
sourcepub const overflow: AttributeDescription = _
pub const overflow: AttributeDescription = _
Specify how overflow should be handled.
Accepted values:
clip
none
§Example
fn app() -> Element {
rsx!(
rect {
overflow: "clip",
width: "100",
height: "100%",
rect {
width: "500",
height: "100%",
background: "red",
}
}
)
}
sourcepub const margin: AttributeDescription = _
pub const margin: AttributeDescription = _
Specify the margin of an element. You can do so by four different ways, just like in CSS.
§Example
fn app() -> Element {
rsx!(
rect {
margin: "25", // 25 in all sides
margin: "100 50", // 100 in top and bottom, and 50 in left and right
margin: "2 15 25", // 2 in top, 15 in left and right, and 25 in bottom
margin: "5 7 3 9" // 5 in top, 7 in right, 3 in bottom and 9 in left
}
)
}
sourcepub const position: AttributeDescription = _
pub const position: AttributeDescription = _
Specify how you want the element to be positioned inside it’s parent area.
Accepted values:
stacked
(default)absolute
When using the absolute
mode, you can also combine it with the following attributes:
position_top
position_right
position_bottom
position_left
These only support pixels.
§Example
fn app() -> Element {
rsx!(
rect {
width: "100%",
height: "100%",
rect {
position: "absolute",
position_bottom: "15",
position_right: "15",
background: "black",
width: "100",
height: "100",
}
}
)
}
pub const position_top: AttributeDescription = _
pub const position_right: AttributeDescription = _
pub const position_bottom: AttributeDescription = _
pub const position_left: AttributeDescription = _
sourcepub const opacity: AttributeDescription = _
pub const opacity: AttributeDescription = _
Specify the opacity of an element and all its descendants.
§Example
fn app() -> Element {
rsx!(
rect {
opacity: "0.5", // 50% visible
label {
"I am fading!"
}
}
)
}
sourcepub const content: AttributeDescription = _
pub const content: AttributeDescription = _
Specify how you want the automatic (e.g width: auto
) bounds in the cross axis to be constrained for the inner elements.
Accepted values:
normal
(default): Uses parent bounds.fit
: Uses parent bounds but later shrunks to the size of the biggest element inside.
The fit
mode will allow the inner elements using width: fill-min
to expand to the biggest element inside this element.
§Example
fn app() -> Element {
rsx!(
rect {
content: "fit",
height: "100%",
rect {
width: "fill-min", // Will have a width of 300px
height: "25%",
background: "red",
}
rect {
width: "150", // Will have a width of 150px
height: "25%",
background: "green",
}
rect {
width: "fill-min", // Will have a width of 300px
height: "25%",
background: "blue",
}
rect {
width: "300", // Biggest element, will have a width of 300px
height: "25%",
background: "black",
}
}
)
}
pub const name: AttributeDescription = _
pub const focusable: AttributeDescription = _
pub const role: AttributeDescription = _
pub const focus_id: AttributeDescription = _
pub const alt: AttributeDescription = _
pub const canvas_reference: AttributeDescription = _
pub const layer: AttributeDescription = _
pub const offset_y: AttributeDescription = _
pub const offset_x: AttributeDescription = _
pub const reference: AttributeDescription = _
pub const cursor_reference: AttributeDescription = _
Auto Trait Implementations§
impl RefUnwindSafe for rect
impl Send for rect
impl Sync for rect
impl Unpin for rect
impl UnwindSafe for rect
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
§impl<T> Downcast for Twhere
T: Any,
impl<T> Downcast for Twhere
T: Any,
§fn into_any(self: Box<T>) -> Box<dyn Any>
fn into_any(self: Box<T>) -> Box<dyn Any>
Box<dyn Trait>
(where Trait: Downcast
) to Box<dyn Any>
. Box<dyn Any>
can
then be further downcast
into Box<ConcreteType>
where ConcreteType
implements Trait
.§fn into_any_rc(self: Rc<T>) -> Rc<dyn Any>
fn into_any_rc(self: Rc<T>) -> Rc<dyn Any>
Rc<Trait>
(where Trait: Downcast
) to Rc<Any>
. Rc<Any>
can then be
further downcast
into Rc<ConcreteType>
where ConcreteType
implements Trait
.§fn as_any(&self) -> &(dyn Any + 'static)
fn as_any(&self) -> &(dyn Any + 'static)
&Trait
(where Trait: Downcast
) to &Any
. This is needed since Rust cannot
generate &Any
’s vtable from &Trait
’s.§fn as_any_mut(&mut self) -> &mut (dyn Any + 'static)
fn as_any_mut(&mut self) -> &mut (dyn Any + 'static)
&mut Trait
(where Trait: Downcast
) to &Any
. This is needed since Rust cannot
generate &mut Any
’s vtable from &mut Trait
’s.