Table of contents
- Why Browser Specific CSS?
- Google Chrome Browser Specific CSS code
- Safari Browser Specific CSS code
- Mozilla Firefox Browser Specific CSS code
- Microsoft Edge Browser Specific CSS code
- Opera Browser Specific CSS code
- Internet Explorer Browser Specific CSS code
- Conditional Statements in Internet Explorer
- How to validate your Browser Specific CSS code?
- Using a validator
- Use CSS oriented frameworks
- Test for Cross Browser Compatibility
- What’s your hack for Browser Specific CSS?
When it comes to modern web development, cross browser compatibility is one of the significant challenges for developers. You may come across a question like, “Why does my layout look different on different browsers?” Or “Why does my UI create issues on the XYZ browser but works accurately on the ABC browser?” These are common questions from developers about cross-browser inconsistencies in the code. But there can be multiple reasons behind these queries. For example, a browser like Opera Mini sometimes doesn’t support the CSS text orientation. In such cases, browser-specific CSS can help ensure browser compatibility of websites and web apps.
However, these issues arise due to browser engine variations between different browsers. To summarize, a browser engine is a component that converts web code into code that the browser can comprehend and render. If a particular property is not intended for this conversion in one browser, the browser engine will display the default values. Because these browser engines are tailored to specific browsers, they have their own set of standards and protocols. This means we can’t have a universal CSS code or something that works on all browsers.
New to CSS Selectors? Check out this Ultimate CSS Selector cheat sheet to boost your web designing career.
In this article, we look at how to create browser-specific CSS code to eliminate cross browser compatibility issues in websites and web apps.
Did you know? You can now test your jQuery based websites across 3000+ different desktop and mobile browsers using jQuery Testing Cloud, a scalable and reliable online testing cloud for both manual and automation testing of jQuery websites.
Why Browser Specific CSS?
A universal code is developed as per standards, yet popular syntaxes do not operate on all browsers. Such code might result in CSS inconsistencies and, in extreme instances, the absence of elements on the web page.
This key issue is highlighted in an MDN study, which polled developers from all over the world. The image below depicts the most common cross-browser issues.
For example, let’s take “Responsiveness”. Due to the sheer penetration of mobile device usage, responsive web design has become a standard for releasing online apps. However, it is difficult to execute this design across all screen sizes, browsers, versions, and resolutions.
As per the Statcounter, Chrome has a largest market share of 63.06%, Safari — 19.84%, Firefox — 4.18%, Edge — 4.12%, and Opera -2.33%.
A legacy browser version may not render a CSS style, or property introduced later by the CSS community. Sometimes, a browser requests a different syntax, while the browser only supports a partial implementation.
This is true for many browser-specific CSS properties. As a result, designing a web application with a consistent user experience can be challenging if you are unaware of browser-specific CSS properties.
Google Chrome Browser Specific CSS code
Writing a Google Chrome specific CSS code is not as easy as writing conditional statements. For each property you write the CSS code, you should know the target CSS code for specific Chrome versions. There are no universal statements.
With that being said, Google Chrome also supports various browser-specific CSS properties from its prior versions, and therefore you might not feel the need to add extra code for this browser. In addition, many Chrome users also utilize the latest versions, which relieves us of overthinking unsupported browser-specific CSS properties in earlier versions.
To write browser-specific CSS code in Google Chrome, you can follow these browser-specific CSS properties:
To target the support of browser-specific CSS properties on the Webkit browsers (including Safari) for all Chrome versions: .selector:not(*:root) { property:value; }
To target the support of properties on Chrome versions >= 29: @ supports (-webkit-appearance:none) {}
To target the support of properties on Chrome versions < 29: .selector { (;property: value;); } .selector { [;property: value;]; }
To target media queries on Chrome versions from 22 to 28: @ media \0 screen {}
To target media queries on Chrome versions above 28: @ media all and (-webkit-min-device-pixel-ratio:0) and (min-resolution: .001dpcm) { .selector {} }
These are the most popularly used browser-specific CSS properties in Google Chrome and will probably work for a majority of web applications.
Safari Browser Specific CSS code
Safari is another webkit-based browser that allows developers to reuse the same webkit targeting functionality that we built in Chrome. As a result, the three browser-specific CSS properties listed below for Google Chrome will also work on Safari.
.selector:not(*:root) { property:value; }
@ supports (-webkit-appearance:none) {}
.selector { (;property: value;); } .selector { [;property: value;]; }
Besides that, there are a few other browser-specific CSS properties you can use to target Safari for your CSS code. For example, if your CSS code includes a few media queries, you’ll need to include the following snippet to target specific Safari browsers:
For Safari 4: @ media screen and (min-width:0\0) {}
For Safari >=6: @ media screen { @ media (min-width: 0px) {} }
If your CSS code contains selector code (to select a few elements from the web page), the following snippet is required to target Safari browsers:
For Safari 2: html:first-child .selector {}
For Safari 2 and Safari 3: html[xmlns=""] body:last-child .selector {} html[xmlns=""]:root .selector {}
For Safari 2 and Safari 3.1: |html[xmlns=""] .selector {}
For Safari 5.1 and Safari 6: _::-moz-svg-foreign-content, :root .selector {}
If your CSS code contains a few media queries, the following snippet will help you target specific Safari browsers:
For Safari >= 7: @ media \0 screen {}
Mozilla Firefox Browser Specific CSS code
Mozilla Firefox is a challenging browser to deal with. However, it has always isolated itself from Internet Explorer and has been open about it. Furthermore, unlike Chrome and Safari, it is not built on the webkit engine. As a result, developers can utilize the browser-specific CSS codes for Mozilla Firefox shown below.
If your CSS code aims at selecting the elements, the following Firefox browser-specific CSS properties will help:
For Firefox 1.5 and Firefox 2: body:empty .selector {}
For Firefox version greater than 2: body:last-child .selector, x:-moz-any-link {}
For Firefox versions greater than 3: body:last-child .selector, x:-moz-any-link, x:default {}
For Firefox versions greater than 3.5: body:not(:-moz-handler-blocked) .selector {}
For Firefox versions greater than 6: _::-moz-progress-bar, body:last-child .selector {}
For Firefox versions greater than 21: _::-moz-range-track, body:last-child .selector {}
For all the Firefox versions: _:-moz-tree-row(hover), .selector {}
In the above codes, the selectors are different for different purposes. Please go through their implementations before applying them to your web page.
If your CSS code is targeting media queries in other browsers, the following additions will create Firefox-specific media query code:
For Firefox versions <= 3: @ media \0 all {}
For Firefox >= 3.6: @ media screen and (-moz-images-in-menus:0) {}
For Firefox >= 4: @ media screen and (min--moz-device-pixel-ratio:0) {}
For Firefox >= 8: @ media all and (min--moz-device-pixel-ratio:0) and (min-resolution: .001dpcm) {} @ media all and (-moz-images-in-menus:0) and (min-resolution: .001dpcm) {}
For Firefox >= 11: @ media all and (min--moz-device-pixel-ratio:0) { @ media (min-width: 0px) {} } @ media all and (-moz-images-in-menus:0) { @ media (min-width: 0px) {} }
For Firefox >= 29: @ media all and (min--moz-device-pixel-ratio:0) and (min-resolution: 3e1dpcm) {}
Hey! Test Kentico websites on the most reliable and scalable CMS testing cloud and run end to end manual or automated cross browser testing of mobile and web apps build using $Kentico using Online Kentico Testing Cloud.
Microsoft Edge Browser Specific CSS code
Microsoft Edge is the reason why Microsoft no longer cares about Internet Explorer. Edge is more robust, keeps up with current trends, is built on Chromium, and is faster. It was released in 2015 and is now the world’s third most popular browser.
Because of its ubiquity and ease of use, this browser is one of the top priorities for web developers. The code snippets below can help in creating Microsoft Edge-specific CSS code:
@ supports (-ms-ime-align:auto) { selector { property: value; } }
Except for the above, everything functions properly in Microsoft Edge as it was only developed in 2015. By then, many of the standards had been established, and there had been no significant change in the properties. Other browsers were released in the early 2000s, and as a result, they demand special attention since over 60 versions have been released.
Opera Browser Specific CSS code
Opera is one of the market’s oldest browsers, active for over 26 years. Earlier, Opera used Presto’s engine but eventually switched to WebKit. This offers us the advantage that the previously described WebKit CSS codes will also work properly on Opera.
To summarize, the following browser-specific CSS properties are WebKit based for CSS:
.selector:not(*:root) { property:value; }
@ supports (-webkit-appearance:none) {}
.selector { (;property: value;); }
.selector { [;property: value;]; }
@ media all and (-webkit-min-device-pixel-ratio:0) and (min-resolution: .001dpcm) { .selector {} }
Apart from these, you can use one more CSS selector code for Opera versions greater than 9.5:
_:-o-prefocus, body:last-child .selector {}
The main issue we confront while designing a web application is managing the elements across multiple browsers and engines. However, applying these browser-specific CSS does not ensure that our code will function properly. Therefore, we need to be certain about our code after it has been validated.
Internet Explorer Browser Specific CSS code
The first browser we look at is the most troublesome browser for developers today — Internet Explorer. Microsoft’s support for Internet Explorer has ceased. Thus there will be no new developments in it. Even when support and development were available, they did not act the same way as W3C standards. Fortunately, Microsoft added conditional expressions to its browser to target browser-specific code. As a developer, you should be quite familiar with condition statements.
Conditional Statements in Internet Explorer
The concept of conditional statements in Internet Explorer was released by Microsoft due to the partial working of the code. As the name suggests, conditional statements provide a condition to the Internet Explorer, and if the condition is satisfied, the statements inside the conditions are interpreted.
The conditional statements in the Internet Explorer are written similar to comments as follows:
<!--Condition>
Code
< !-->
The condition part here offers a variety of statements. The primary objective here is to detect the browser version and then move ahead. So, if I’m targeting IE7 and I’m not sure if my single line of code will function, I can include a special code within the statement.
CSS code
<!--[if IE7 ]>
Specialised CSS Code for IE 7
< ![endif]-->
In this way, if the browser detects the Internet Explorer version to be 7, it can apply the special code. However, you should know what works and what does not on Internet Explorer.
One advantage of this syntax is that it is similar to HTML comment syntax, which is as follows:
<! –
Comments
<!-->
As a result, if browsers other than Internet Explorer render the conditional statement part, they ignore it, perceiving it as a comment.
Apart from writing “IE 7” directly, you can use other features of conditional statements also that are described as follows:
CONDITIONAL STATEMENT | DESCRIPTION | |
lt | Less than operator. | |
lte | Less than or equal to operator. | |
gt | Greater than operator. | |
gte | Greater than or equal to operator. | |
! | The NOT operator. | |
() | The subexpression operator. | |
& | The AND operator. | |
The OR operator. | ||
true | The true value. | |
false | The false value. |
To demonstrate with one of the operators given in the above table, you can use them as follows:
<!--[if gte IE 5 ]>
<h2>This code is for IE greater than or equal to version 5</h2>
<![endif]-->
Once you are aware of the conditional statements in Internet Explorer, you can use them to link your CSS files according to the browser version as follows:
<link href="my_normal.css" rel="stylesheet" type="text/css">
<!--[if gte IE 5]>
<link href="ie5-7.css" rel="stylesheet" type="text/css">
<![endif]-->
In this code, if the browser version is found to be above version 5, the CSS file “ie5–7.css” will also get loaded that will contain browser-specific CSS code for this browser.
How to validate your Browser Specific CSS code?
To validate the code and ensure that it works as intended on each of the major browsers, the following methods would help.
Using a validator
A validator is a software or a tool that validates code against best practices and defined standards. Since web languages are parsed and not compiled, they will be rendered onto the screen even if they have multiple errors. A validator will highlight these errors while coding or when you apply them to the code explicitly. Almost all web development languages have validators published in the market.
There are many options available for validating CSS-specific code. Code editors, for example, include validator plugins that can scan your code in runtime and create mistakes. You can also find published websites, like W3C, that will validate your CSS code using raw CSS code, published websites, or CSS files. Whatever you do as part of your testing step.
Use CSS oriented frameworks
Although a framework is a personal option for the developer, I have always found excellent support with CSS-oriented frameworks in my experience. Best CSS frameworks like Bootstrap come with predefined libraries for the most common things you want to build. These may include forms, buttons or a simple label tag.
A code sample is given below:
<button class="btn btn-secondary dropdown-toggle" type="button">
To build them on our own and apply CSS on them is time-consuming and error-prone. With CSS frameworks, you don’t have to use a CSS validator as it keeps in check all the standards and responsiveness for you.
Test for Cross Browser Compatibility
The final phase of your website or web app ends with cross browser testing. Once you create browser-specific CSS codes and CSS validation, it is good to render the website on multiple browsers and devices to confirm cross browser compatibility of your result. Cross browser testing platforms provide great infrastructure, features and integrations that are just made for this purpose. They help you view websites on desktop and mobile screens. It also helps in keeping in check your responsive web design.
To eliminate the hassle of in-house device labs, it is preferred to choose a cloud testing platform like LambdaTest. It allows you to perform cross browser testing across 3000+ real browsers and operating systems online to test your browser-specific CSS codes. You can also test browser-specific CSS on LambdaTest real device cloud to ensure it renders correctly in real-user conditions.
LambdaTest also comes with a responsive checker tool — LT Browser to test responsiveness of websites across different viewports like mobiles, tablets, desktops and laptops. You can refer to our blog on why developers should use LT Browser to delve deeper into its features and give it a spin for free.
Intrigued to know more about LT Browser, check out the video tutorial below.
You can follow the LambdaTest YouTube channel for mode videos around responsive testing, automated browser screenshot testing, automation testing, CI/CD, and more.
Once you are done testing your web application on multiple browsers, you can rest assured and publish it to the world.
Did you know that you can now test your Laravel CSS framework based websites across 3000+ different desktop and mobile browsers using Online Laravel Testing Cloud, a scalable and reliable online testing cloud for both manual and automation testing of Laravel websites?
What’s your hack for Browser Specific CSS?
There are various browsers available today, and if you use them, they all are different in their way. Since they come with many features, you might never know what your end-user is using to open your web application. The most we can do is be prepared for all the target browsers. This is not an easy task, though. Knowing browser-specific issues to implement browser-specific CSS code needs careful analysis and work.
This post highlighted the same methods to let you make websites that can be rendered flawlessly on every latest and legacy browser and operating system. With this, I hope you might have found your own hacks and specific codes to work on as a web developer.
Let us know them in the comment section, and we will try to update the most used ones in this post.