can ":next-of-type" be synthesized?

Question

Came across a situation using large grids of mixed types of elements, where it would be nice to have :next-of-type as a pseudo-class. My definition of that would be the next sibling that is of the same type as the element selected by the selector to which :next-of-type is appended. (I suppose it would also be nice to have :next-child, :next-of-class, etc. And prev-child, prev-of-type, prev-of-class, etc.)

Couldn't find such a thing in the CSS documentation, so I guess it doesn't exist. I spent some time trying to synthesized it out of what does exist, and failed.

Not sure if this is solvable, maybe only by the W3 CSS working groups...

As an example, assume you have a large grid of elements. For simplicity, I'll just use two in the example, but my actual case has a dozen or more different types of elements. I'll number the elements content in the order they would exist in the HTML, but due to grid placement algorithms (not demonstrated here) the items might not actually appear in a different order than in the HTML. Nonetheless, the sequence of items in the HTML is of interest to the selection plan. I'll use <a-> and <b-> for the (custom) elements.

<div style="display: grid;">
     <a->1</a->
     <a->2</a->
     <b- class="special">3</b->
     <a->4</a->
     <a- class="ordinary">5</a->
     <a- class="surprise">6</a->
     <b->7</b->
     <b->8</b->
     <a->9</a->
</div>

So it would be nice to have a way to specify .special:next-of-type and select item 7, .ordinary:next-of-type would select item 6, and .surprise:next-of-type would select item 9.

Answer 1

To expand on my comments:

Fundamentally, pseudo-classes that match "next" and "previous" elements would match different elements than the one represented by whichever compound selector you "attach" them to, and so wouldn't be compatible with CSS's definition of "pseudo-class" or indeed "simple selector"/"compound selector".

Selectors L4 describes simple selectors and compound selectors as conditions matching simultaneously against a single element. By this definition, a selector like .special:next-of-type is only going to work if the next element of that type also matches .special. It'd then match recursively, resulting in all of .special ~ .special except the first of each element type in each parent element. Critically, it would not work at all in your case, as item 7 does not match .special.

A human reading that selector might intuitively understand what it does, but it still doesn't jive with the selector syntax, because for it to work you'd need to define :next-of-type as a special pseudo-class that ignores or matches separately from the rest of the compound selector, contrary to how it's been defined in the spec. This means added complexity for selector matching algorithms. A similar complexity can be seen in jQuery's :eq() family of selectors — there's probably a good reason those selectors haven't been standardized.

Additionally, something like :next-of-type is not a condition for an element, but establishing a relationship between that element and some other element. In Selectors, relationships between two or more different elements are represented with combinators. A "next sibling of type" combinator would make light work of this task without fundamentally changing how selector matching works (e.g. .special ~~ *), but one does not exist in any Selectors spec, and I can't see use cases such as this one being common enough for the CSSWG to justify designing, testing and implementing it. And without such a combinator, you'd need to know the element type in advance in order to determine the next sibling of that type, and that can't be accomplished using selectors available today, not even including L4 :nth-child(An+B of S).

So the answer to

can ":next-of-type" be synthesized?

is no, not with selectors available today, and a solution that would work with the existing selector syntax is to introduce a combinator with this exact functionality.

Answer 2

So it is possible, but in addition to knowing a complete list of the types of elements in the grid, and a maximum span of elements between elements of the same type, it would be really handy to have a macro-processor to generate the synthesized solution.

The snippet below deals only with two types of elements, and a maximum of 5 elements between elements of the same type, but could obviously be laboriously extended in either dimension.

      .container {
        display: grid;
        font-size: 30px;
        grid-template-areas:
          ". . ."
          ". . ."
          ". . .";
      }
      .special ~next-of-type { color: red; }
      a-.special + a- { color: red; }
      a-.special + :not( a- ) + a- { color: red; }
      a-.special + :not( a- ) + :not( a- ) + a- { color: red; }
      a-.special + :not( a- ) + :not( a- ) + :not( a- ) + a- { color: red; }
      a-.special + :not( a- ) + :not( a- ) + :not( a- ) + :not( a- ) + a- { color: red; }
      a-.special + :not( a- ) + :not( a- ) + :not( a- ) + :not( a- ) + :not( a- ) + a- { color: red; }
      b-.special + b- { color: red; }
      b-.special + :not( b- ) + b- { color: red; }
      b-.special + :not( b- ) + :not( b- ) + b- { color: red; }
      b-.special + :not( b- ) + :not( b- ) + :not( b- ) + b- { color: red; }
      b-.special + :not( b- ) + :not( b- ) + :not( b- ) + :not( b- ) + b- { color: red; }
      b-.special + :not( b- ) + :not( b- ) + :not( b- ) + :not( b- ) + :not( b- ) + b- { color: red; }

      .ordinary ~next-of-type { color: blue; }
      a-.ordinary + a- { color: blue; }
      a-.ordinary + :not( a- ) + a- { color: blue; }
      a-.ordinary + :not( a- ) + :not( a- ) + a- { color: blue; }
      a-.ordinary + :not( a- ) + :not( a- ) + :not( a- ) + a- { color: blue; }
      a-.ordinary + :not( a- ) + :not( a- ) + :not( a- ) + :not( a- ) + a- { color: blue; }
      a-.ordinary + :not( a- ) + :not( a- ) + :not( a- ) + :not( a- ) + :not( a- ) + a- { color: blue; }
      b-.ordinary + b- { color: blue; }
      b-.ordinary + :not( b- ) + b- { color: blue; }
      b-.ordinary + :not( b- ) + :not( b- ) + b- { color: blue; }
      b-.ordinary + :not( b- ) + :not( b- ) + :not( b- ) + b- { color: blue; }
      b-.ordinary + :not( b- ) + :not( b- ) + :not( b- ) + :not( b- ) + b- { color: blue; }
      b-.ordinary + :not( b- ) + :not( b- ) + :not( b- ) + :not( b- ) + :not( b- ) + b- { color: blue; }

      .surprise ~next-of-type { color: orange; }
      a-.surprise + a- { color: orange; }
      a-.surprise + :not( a- ) + a- { color: orange; }
      a-.surprise + :not( a- ) + :not( a- ) + a- { color: orange; }
      a-.surprise + :not( a- ) + :not( a- ) + :not( a- ) + a- { color: orange; }
      a-.surprise + :not( a- ) + :not( a- ) + :not( a- ) + :not( a- ) + a- { color: orange; }
      a-.surprise + :not( a- ) + :not( a- ) + :not( a- ) + :not( a- ) + :not( a- ) + a- { color: orange; }
      b-.surprise + b- { color: orange; }
      b-.surprise + :not( b- ) + b- { color: orange; }
      b-.surprise + :not( b- ) + :not( b- ) + b- { color: orange; }
      b-.surprise + :not( b- ) + :not( b- ) + :not( b- ) + b- { color: orange; }
      b-.surprise + :not( b- ) + :not( b- ) + :not( b- ) + :not( b- ) + b- { color: orange; }
      b-.surprise + :not( b- ) + :not( b- ) + :not( b- ) + :not( b- ) + :not( b- ) + b- { color: orange; }

    <h1>next-of-type synthesized</h1>
    <div class=container>
     <a->1</a->
     <a->2</a->
     <b- class="special">3</b->
     <a->4</a->
     <a- class="ordinary">5</a->
     <a- class="surprise">6</a->
     <b->7</b->
     <b->8</b->
     <a->9</a->
    </div>

Thanks to BoltClock for saying it wasn't possible, and other helpful comments that led me to this solution.