<length>
The <length>
CSS data type represents a distance value. Lengths can be used in numerous CSS properties, such as width
, height
, margin
, padding
, border-width
, font-size
, and text-shadow
.
Note: Although <percentage>
values are usable in some of the same properties that accept <length>
values, they are not themselves <length>
values. See <length-percentage>
.
Syntax
The <length>
data type consists of a <number>
followed by one of the units listed below. As with all CSS dimensions, there is no space between the number and the unit literal. Specifying the length unit is optional if the number is 0
.
Note: Some properties allow negative <length>
values, while others do not.
The specified value of a length (specified length) is represented by its quantity and unit. The computed value of a length (computed length) is the specified length resolved to an absolute length, and its unit is not distinguished.
The <length>
units can be relative or absolute. Relative lengths represent a measurement in terms of some other distance. Depending on the unit, this distance can be the size of a specific character, the line height, or the size of the viewport. Style sheets that use relative length units can more easily scale from one output environment to another.
Note: Child elements do not inherit the relative values as specified for their parent; they inherit the computed values.
The relative length units listed here are based on font and viewport.
Relative length units based on font
Font lengths define the <length>
value in terms of the size of a particular character or font attribute in the font currently in effect in an element or its parent.
Note: These units, especially em
and rem
, are often used to create scalable layouts, which maintain the vertical rhythm of the page even when the user changes the font size.
cap
Experimental-
Represents the "cap height" (nominal height of capital letters) of the element's
font
. ch
-
Represents the width or more precisely the advance measure of the glyph
0
(zero, the Unicode character U+0030) in the element'sfont
. In cases where it is impossible or impractical to determine the measure of the0
glyph, it must be assumed to be0.5em
wide by1em
tall. em
-
Represents the calculated
font-size
of the element. If used on thefont-size
property itself, it represents the inherited font-size of the element. ex
-
Represents the x-height of the element's
font
. In fonts with thex
letter, this is generally the height of lowercase letters in the font;1ex ≈ 0.5em
in many fonts. ic
-
Equal to the used advance measure of the "水" glyph (CJK water ideograph, U+6C34), found in the font used to render it.
lh
-
Equal to the computed value of the
line-height
property of the element on which it is used, converted to an absolute length. rem
-
Represents the
font-size
of the root element (typically<html>
). When used within the root elementfont-size
, it represents its initial value (a common browser default is16px
, but user-defined preferences may modify this). rlh
-
Equal to the computed value of the
line-height
property on the root element (typically<html>
), converted to an absolute length. When used on thefont-size
orline-height
properties of the root element, it refers to the properties' initial value.
Relative length units based on viewport
The viewport-percentage length units are based on four different viewport sizes: small, large, dynamic, and default. The allowance for the different viewport sizes is in response to browser interfaces expanding and retracting dynamically and hiding and showing the content underneath.
- Small
-
When you want the smallest possible viewport in response to browser interfaces expanding dynamically, you should use the small viewport size. The small viewport size allows the content you design to fill the entire viewport when browser interfaces are expanded. Choosing this size might also possibly leave empty spaces when browser interfaces retract.
For example, an element that is sized using viewport-percentage units based on the small viewport size, the element will fill the screen perfectly without any of its content being obscured when all the dynamic browser interfaces are shown. When those browser interfaces are hidden, however, there might be extra space visible around the element. Therefore, the small viewport-percentage units are "safer" to use in general, but might not produce the most attractive layout after a user starts interacting with the page.
The small viewport size is represented by the
sv
prefix and results in thesv*
viewport-percentage length units. The sizes of the small viewport-percentage units are fixed, and therefore stable, unless the viewport itself is resized. - Large
-
When you want the largest possible viewport in response to browser interfaces retracting dynamically, you should use the large viewport size. The large viewport size allows the content you design to fill the entire viewport when browser interfaces are retracting. You need to be aware though that the content might get hidden when browser interfaces expand.
For example, on mobile phones where the screen real-estate is at a premium, browsers often hide part or all of the title and address bar after a user starts scrolling the page. When an element is sized using a viewport-percentage unit based on the large viewport size, the content of the element will fill the entire visible page when these browser interfaces are hidden. However, when these retractable browser interfaces are shown, they can hide the content that is sized or positioned using the large viewport-percentage units.
The large viewport unit is represented by the
lv
prefix and results in thelv*
viewport-percentage units. The sizes of the large viewport-percentage units are fixed, and therefore stable, unless the viewport itself is resized. - Dynamic
-
When you want the viewport to be automatically sized in response to browser interfaces dynamically expanding or retracting, you can use the dynamic viewport size. The dynamic viewport size allows the content you design to fit exactly within the viewport, irrespective of the presence of dynamic browser interfaces.
The dynamic viewport unit is represented by the
dv
prefix and results in thedv*
viewport-percentage units. The sizes of the dynamic viewport-percentage units are not stable, even when the viewport itself is unchanged.Note: While the dynamic viewport size can give you more control and flexibility, using viewport-percentage units based on the dynamic viewport size can cause the content to resize while a user is scrolling a page. This can lead to degradation of the user interface and cause a performance hit.
- Default
-
The default viewport size is defined by the browser. The behavior of the resulting viewport-percentage unit could be equivalent to the viewport-percentage unit based on the small viewport size, the large viewport size, an intermediate size between the two, or the dynamic viewport size.
Note: For example, a browser might implement the default viewport-percentage unit for height (
vh
) that is equivalent to the large viewport-percentage height unit (lvh
). If so, this could obscure content on a full-page display while the browser interface is expanded.
Viewport-percentage lengths define <length>
values in percentage relative to the size of the initial containing block, which in turn is based on either the size of the viewport or the page area, i.e., the visible portion of the document. When the height or width of the initial containing block is changed, the elements that are sized based on them are scaled accordingly. There is a viewport-percentage length unit variant corresponding to each of the viewport sizes, as described below.
Note: Viewport lengths are invalid in @page
declaration blocks.
vh
-
Represents a percentage of the height of the viewport's initial containing block.
1vh
is 1% of the viewport height. For example, if the viewport height is300px
, then a value of70vh
on a property will be210px
.For small, large, and dynamic viewport sizes, the respective viewport-percentage units are
svh
,lvh
, anddvh
.vh
represents the viewport-percentage length unit based on the browser default viewport size. vw
-
Represents a percentage of the width of the viewport's initial containing block.
1vw
is 1% of the viewport width. For example, if the viewport width is800px
, then a value of50vw
on a property will be400px
.For small, large, and dynamic viewport sizes, the respective viewport-percentage units are
svw
,lvw
, anddvw
.vw
represents the viewport-percentage length unit based on the browser default viewport size. vmax
-
Represents in percentage the largest of
vw
andvh
.For small, large, and dynamic viewport sizes, the respective viewport-percentage units are
svmax
,lvmax
, anddvmax
.vmax
represents the viewport-percentage length unit based on the browser default viewport size. vmin
-
Represents in percentage the smallest of
vw
andvh
.For small, large, and dynamic viewport sizes, the respective viewport-percentage units are
svmin
,lvmin
, anddvmin
.vmin
represents the viewport-percentage length unit based on the browser default viewport size. vb
-
Represents percentage of the size of the initial containing block, in the direction of the root element's block axis.
For small, large, and dynamic viewport sizes, the respective viewport-percentage units are
svb
,lvb
, anddvb
, respectively.vb
represents the viewport-percentage length unit based on the browser default viewport size. vi
-
Represents a percentage of the size of the initial containing block, in the direction of the root element's inline axis.
For small, large, and dynamic viewport sizes, the respective viewport-percentage units are
svi
,lvi
, anddvi
.vi
represents the viewport-percentage length unit based on the browser default viewport size.
Container query length units
When applying styles to a container using container queries, you can use container query length units. These units specify a length relative to the dimensions of a query container. Components that use units of length relative to their container are more flexible to use in different containers without having to recalculate concrete length values. For more information, see Container queries.
cqw
-
Represents a percentage of the width of the query container.
1cqw
is 1% of the query container's width. For example, if the query container's width is800px
, then a value of50cqw
on a property will be400px
. cqh
-
Represents a percentage of the height of the query container.
1cqh
is 1% of the query container's height. For example, if the query container's height is300px
, then a value of10cqh
on a property will be30px
. cqi
-
Represents a percentage of the inline size of the query container.
1cqi
is 1% of the query container's inline size. For example, if the query container's inline size is800px
, then a value of50cqi
on a property will be400px
. cqb
-
Represents a percentage of the block size of the query container.
1cqb
is 1% of the query container's block size. For example, if the query container's block size is300px
, then a value of10cqb
on a property will be30px
. cqmin
-
Represents a percentage of the smaller value of either the query container's inline size or block size.
1cqmin
is 1% of the smaller value of either the query container's inline size or block size. For example, if the query container's inline size is800px
and its block size is300px
, then a value of50cqmin
on a property will be150px
. cqmax
-
Represents a percentage of the larger value of either the query container's inline size or block size.
1cqmax
is 1% of the larger value of either the query container's inline size or block size. For example, if the query container's inline size is800px
and its block size is300px
, then a value of50cqmax
on a property will be400px
.
Absolute length units
Absolute length units represent a physical measurement when the physical properties of the output medium are known, such as for print layout. This is done by anchoring one of the units to a physical unit and then defining the others relative to it. The anchoring is done differently for low-resolution devices, such as screens, versus high-resolution devices, such as printers.
For low-dpi devices, the unit px
represents the physical reference pixel; other units are defined relative to it. Thus, 1in
is defined as 96px
, which equals 72pt
. The consequence of this definition is that on such devices, dimensions described in inches (in
), centimeters (cm
), or millimeters (mm
) don't necessarily match the size of the physical unit with the same name.
For high-dpi devices, inches (in
), centimeters (cm
), and millimeters (mm
) are the same as their physical counterparts. Therefore, the px
unit is defined relative to them (1/96 of 1in
).
Note: Many users increase their user agent's default font size to make text more legible. Absolute lengths can cause accessibility problems because they are fixed and do not scale according to user settings. For this reason, prefer relative lengths (such as em
or rem
) when setting font-size
.
px
-
One pixel. For screen displays, it traditionally represents one device pixel (dot). However, for printers and high-resolution screens, one CSS pixel implies multiple device pixels.
1px
=1in / 96
. cm
-
One centimeter.
1cm
=96px / 2.54
. mm
-
One millimeter.
1mm
=1cm / 10
. Q
-
One quarter of a millimeter.
1Q
=1cm / 40
. in
-
One inch.
1in
=2.54cm
=96px
. pc
-
One pica.
1pc
=12pt
=1in / 6
. pt
-
One point.
1pt
=1in / 72
.
Interpolation
When animated, values of the <length>
data type are interpolated as real, floating-point numbers. The interpolation happens on the calculated value. The speed of the interpolation is determined by the timing function associated with the animation.
Examples
Comparing different length units
The following example provides you with an input field in which you can enter a <length>
value (e.g. 300px
, 50%
, 30vw
) to set the width of a result bar that will appear below it once you've pressed the Enter or the Return key.
This allows you to compare and contrast the effect of different length units.
HTML
html
<div class="outer">
<div class="input-container">
<label for="length">Enter width:</label>
<input type="text" id="length" />
</div>
<div class="inner"></div>
</div>
<div class="results"></div>
CSS
css
html {
font-family: sans-serif;
font-weight: bold;
box-sizing: border-box;
}
.outer {
width: 100%;
height: 50px;
background-color: #eee;
position: relative;
}
.inner {
height: 50px;
background-color: #999;
box-shadow: inset 3px 3px 5px rgb(255 255 255 / 0.5), inset -3px -3px 5px rgb(0
0 0 / 0.5);
}
.result {
height: 20px;
box-shadow: inset 3px 3px 5px rgba(255 255 255 / 0.5), inset -3px -3px 5px rgb(0
0 0 / 0.5);
background-color: orange;
display: flex;
align-items: center;
margin-top: 10px;
}
.result code {
position: absolute;
margin-left: 20px;
}
.results {
margin-top: 10px;
}
.input-container {
position: absolute;
display: flex;
justify-content: flex-start;
align-items: center;
height: 50px;
}
label {
margin: 0 10px 0 20px;
}
JavaScript
js
const inputDiv = document.querySelector(".inner");
const inputElem = document.querySelector("input");
const resultsDiv = document.querySelector(".results");
inputElem.addEventListener("change", () => {
inputDiv.style.width = inputElem.value;
const result = document.createElement("div");
result.className = "result";
result.style.width = inputElem.value;
result.innerHTML = `<code>width: ${inputElem.value}</code>`;
resultsDiv.appendChild(result);
inputElem.value = "";
inputElem.focus();
});
Result
Specifications
Specification |
---|
CSS Values and Units Module Level 4 # lengths |
Browser compatibility
BCD tables only load in the browser