this is mentioned every article about mobile web, but nowhere I can found an explanation of what exactly does this attribute measure.
Can anyone please elaborate what does queries like this check?
#media only screen and (-webkit-min-device-pixel-ratio: 1.5),
only screen and (min--moz-device-pixel-ratio: 1.5),
only screen and (-o-device-pixel-ratio: 3/2),
only screen and (min-device-pixel-ratio: 1.5) {
//high resolution images go here
}
Short answer
The device pixel ratio is the ratio between physical pixels and logical pixels. For instance, the iPhone 4 and iPhone 4S report a device pixel ratio of 2, because the physical linear resolution is double the logical linear resolution.
Physical resolution: 960 x 640
Logical resolution: 480 x 320
The formula is:
Where:
is the physical linear resolution
and:
is the logical linear resolution
Other devices report different device pixel ratios, including non-integer ones. For example, the Nokia Lumia 1020 reports 1.6667, the Samsumg Galaxy S4 reports 3, and the Apple iPhone 6 Plus reports 2.46 (source: dpilove). But this does not change anything in principle, as you should never design for any one specific device.
Discussion
The CSS "pixel" is not even defined as "one picture element on some screen", but rather as a non-linear angular measurement of viewing angle, which is approximately of an inch at arm's length. Source: CSS Absolute Lengths
This has lots of implications when it comes to web design, such as preparing high-definition image resources and carefully applying different images at different device pixel ratios. You wouldn't want to force a low-end device to download a very high resolution image, only to downscale it locally. You also don't want high-end devices to upscale low resolution images for a blurry user experience.
If you are stuck with bitmap images, to accommodate for many different device pixel ratios, you should use CSS Media Queries or the HTML picture Element to provide different sets of resources for different groups of devices. Combine this with nice tricks like background-size: cover or explicitly set the background-size to percentage values.
Example
#element { background-image: url('lores.png'); }
#media only screen and (min-device-pixel-ratio: 2) {
#element { background-image: url('hires.png'); }
}
#media only screen and (min-device-pixel-ratio: 3) {
#element { background-image: url('superhires.png'); }
}
This way, each device type only loads the correct image resource. Also keep in mind that the px unit in CSS always operates on logical pixels.
A case for vector graphics
As more and more device types appear, it gets trickier to provide all of them with adequate bitmap resources. In CSS, media queries is currently the only way, and in HTML5, the picture element lets you use different sources for different media queries, but the support is still not 100 % since most web developers still have to support IE11 for a while more (source: caniuse).
If you need crisp images for icons, line-art, design elements that are not photos, you need to start thinking about SVG, which scales beautifully to all resolutions.
Device Pixel Ratio == CSS Pixel Ratio
In the world of web development, the device pixel ratio (also called CSS Pixel Ratio) is what determines how a device's screen resolution is interpreted by the CSS.
A browser's CSS calculates a device's logical (or interpreted) resolution by the formula:
For example:
Apple iPhone 6s
Actual Resolution: 750 x 1334
CSS Pixel Ratio: 2
Logical Resolution:
When viewing a web page, the CSS will think the device has a 375x667 resolution screen and Media Queries will respond as if the screen is 375x667. But the rendered elements on the screen will be twice as sharp as an actual 375x667 screen because there are twice as many physical pixels in the physical screen.
Some other examples:
Samsung Galaxy S4
Actual Resolution: 1080 x 1920
CSS Pixel Ratio: 3
Logical Resolution:
iPhone 5s
Actual Resolution: 640 x 1136
CSS Pixel Ratio: 2
Logical Resolution:
Why does the Device Pixel Ratio exist?
The reason that CSS pixel ratio was created is because as phones screens get higher resolutions, if every device still had a CSS pixel ratio of 1 then webpages would render too small to see.
A typical full screen desktop monitor is a roughly 24" at 1920x1080 resolution. Imagine if that monitor was shrunk down to about 5" but had the same resolution. Viewing things on the screen would be impossible because they would be so small. But manufactures are coming out with 1920x1080 resolution phone screens consistently now.
So the device pixel ratio was invented by phone makers so that they could continue to push the resolution, sharpness and quality of phone screens, without making elements on the screen too small to see or read.
Here is a tool that also tells you your current device's pixel density:
http://bjango.com/articles/min-device-pixel-ratio/
Boris Smus's article High DPI Images for Variable Pixel Densities has a more accurate definition of device pixel ratio: the number of device pixels per CSS pixel is a good approximation, but not the whole story.
Note that you can get the DPR used by a device with window.devicePixelRatio.
https://developer.mozilla.org/en/CSS/Media_queries#-moz-device-pixel-ratio
-moz-device-pixel-ratio
Gives the number of device pixels per CSS pixel.
this is almost self-explaining. the number describes the ratio of how much "real" pixels (physical pixerls of the screen) are used to display one "virtual" pixel (size set in CSS).
Device Pixel Ratio has direct correlation with Pixel density of the device.
Best concise description I could find:
Purpose of DPR is to keep consistent size of CSS pixels and therefore
consistent size of letters, symbols, images and everything else on
screen, across a variety of devices with different physical pixel
densities.
Source: screenresolutiontest
Related
I'm a bit confused about CSS pixels and whether they translate into pure resolution or physical width of devices.
My question is, will content displayed on a 1080p 13 inch laptop be the same as content on a 4k 13 inch laptop? Or will everything be scaled down?
(I'm using (max-width)/(min-width) media queries and not (max-device-width)/(min-device-width)
I'd be glad if you guys could clear this up for me.
Yes, it should render the same.
CSS uses “px” to relate “...the pixel unit to the reference pixel...”, thus a single CSS “px” could represent more than one physical pixel as different devices (ie. HD vs. 4K) have different pixel densities.
A single “px” in CSS should always be about 1/96 of an inch though. You may see variations in rendering based on browser rendering and/or monitor resolution quirks.
For most cases, desktop and laptop displays will use the same pixels their resolution is set to for CSS pixels. In these cases, a 4k 13" laptop without scaling will display more content, at a smaller physical size, than a 1080p 13" laptop.
That said, there are some cases where this isn't quite true. With mobile devices the browser will use a scaled down resolution so that elements are rendered at a more natural physical size. This scaling can be determined by the devicePixelRatio - which is the ratio of physical pixels to CSS pixels.
Further reading about devicePixelRatio: https://www.quirksmode.org/blog/archives/2012/07/more_about_devi.html
Details on sizes for mobile devices: https://mydevice.io/devices/
The CSS inch unit seems to be accurate until the user changes his/her screen resolution to something lower. I assume there are a number of potential users for any app who will have adjusted their screeen resolution for performance, and just to be consistent Im wondering if there's a way I can ensure that the CSS inch unit always matches a physical inch on the screen.
Use #media for different resolutions to separate your css into blocks based on the ppi. You can get the device's screen resolution and determine the PPI from that. then one inch is = PPI.
PPI = Pixels per inch
use px instead of in. Also on average there are 96px/inch
I'm trying to make sense of CSS media queries for a mobile-only page. My final goal is to have the font size on my page be about the same in physical units (inches/centimeters) regardless of decice physical size and resolution. But what I see reported by the media queries has nothing to do with the device specs.
I'm testing on an HTC One M7, which is 1080x1920, 467dpi - manufacturer specs.
The precise numbers reported by the media queries is:
width (as reported by min-width/max-width): 1080px
resolution (as reported by min-resolution/max-resolution): 288dpi or 3.0dppx
First, shouldn't the pixels reported for the width be in logical pixels, not physical? I mean both iPhone3GS and iPhone4 report a width of 320px, even though the latter is actually 640 physical pixels. See How to target iPhone 3GS AND iPhone 4 in one media query?
How should I know what the browser meant by "pixel" when it matches a given query?
Second, the reported 288dpi has nothing to do with the actual device 467dpi. And how is this 3dppx calculated?
This is an interesting question. I'm familiar with the way media queries work for iOS devices, but less so with Android devices. I'll take a stab at it anyway.
Let's start with dppx, which you probably know is a measurement of how many physical dots fit into each pixel (let's use your terms "physical pixels" and "logical pixels"). 3dppx means that each of the screen's logical pixels is composed of a 3x3 grid of physical pixels. To use iOS terminology, your display has a #3x resolution, like the iPhone 6 Plus.
You can see a list of various device dppx values here:
http://bjango.com/articles/min-device-pixel-ratio/
(The site refers to -webkit-min-device-pixel-ratio, which predates dppx, but I think means exactly the same thing.)
If you know a device's physical width and dppx you can use the following formula to calculate its logical width, which you can use in media queries:
device width / dppx = logical width
For your device this should be:
1080 / 3 = 360
I would therefore expect the following media query to target your device in portrait mode:
#media only screen and (max-width: 360px) { }
As for the 288dpi: A 1dppx device has 96dpi, and 3 x 96 = 288. I'm not sure where the manufacturer's 467dpi comes from, but it doesn't seem relevant to writing media queries.
I am looking to make my websites appear the same size on retina and other higher resolution screens that they do on standard screens. That is to say make them optically look the same but with more detail on the higher resolution screens.
So if we had a screen with four times the number of pixels per inch then I would want the height and width of elements to be twice the normal CSS pixel measurements as well as doubling the font size.
I looked into this and it appears that the solution detects the DPI and then loads different CSS.
#media
(-webkit-min-device-pixel-ratio: 2),
(min-resolution: 192dpi) {
/* Retina-specific stuff here */
}
The thing is these screens all have different DPIs.
iPhone 4/4S and iPod Touch (4th generation) -- 326
iPad (3rd)/4th generation) -- 264
MacBook Pro with Retina Display 15" -- 220
MacBook Pro with Retina Display 13" -- 227
So if we had a an element with a height of say 24px. I would like it to adjust its height to accurately fit whatever the pixel ratio is. IE. do the Maths and do it for all elements.
You leave the image dimensions untouched, you just give it the appropriate source.
You can also put different queries in, see here:
http://css-tricks.com/snippets/css/retina-display-media-query/
I would recommend that you read about both dpi and dppx. When you look at Retina displays you need to think about both CSS-pixels and physical pixels, as I'm sure you know.
If you want to have the componenets of the website appear in the same physical size, then I think dpi is the way to go but and add different CSS for the different dpi levels you want to cover bu if you want to differentiate between Retina and normal display you need differentiate between dpi and dppx (dots-per-physcial-inch)
These articles both helped me:
https://developer.mozilla.org/en-US/docs/Web/CSS/resolution
http://drewwells.net/blog/2013/working-with-dppx/
What is the difference in simple terms between aspect-ratio and device-aspect-ratio?
For everyone who is confused about the difference between targeted display area and output device regarding the aspect-ratio:
targeted display area
Aspect ratio of your browser window or the area your website is displayed on
(a special case would for example be an embedded website)
output device
Physical aspect ratio of the screen. E.g. of your smartphone or desktop display
As smartphones and tablets usually display apps in fullscreen mode only, aspect-ratio and device-aspect-ratio are the same. On a desktop computer this surely is not always the case as the user can resize the browser window and thus the aspect-ratio changes.
I hope it helps.
A functional difference on mobile is that having the soft keyboard come up changes aspect-ratio but does not change device-aspect-ratio.
aspect-ratio
Describes the aspect ratio of the targeted display area of the output device. This value consists of two positive integers separated by a slash ("/") character. This represents the number of horizontal pixels over the number of vertical pixels.
Source.
device-aspect-ratio
Describes the aspect ratio of the output device. This value consists of two positive integers separated by a slash ("/") character. This represents the number of horizontal pixels over the number of vertical pixels.
Source.
aspect-ratio measures viewport area.
device-aspect-ratio measures device screen area.
ASPECT RATIO
The viewport aspect ratio or device aspect ratio is the ratio of the width
to the height. So, if a screen were 1,000 pixels wide and 500 pixels high,
the device-aspect-ratio would be 2:1, because 1,000 is twice 500.
The ratios of screens vary widely, even though at first glance they pretty
much all just look like a similar rectangle.
Common monitor aspect ratios are 16:9 (such as 1920 × 1080 or 1366 ×
768 pixels) or 16:10 (1280 × 800). The iPhone 3 and 4S are 3:2 (480 × 320
and 960 × 640) and the iPhone 5 is 16:9 (1136 × 640). Android phones
are commonly 4:3, 3:2, 16:10, or 16:9.
Examples:
#media only screen and (device-aspect-ratio: 16/9)
{ ... }
#media only screen and (min-device-aspect-ratio:
1920/1080) { ... }