Scheme has been invented in the mid 70s.
CL has been invented in 1984.
That Scheme has no legacy or is more modern is a myth. Scheme has been defined before Common Lisp by almost a decade. Scheme still had legacy like s-expressions, cons cells, symbols, car, cdr, cons, and more. That Scheme has legacy makes it a member of the family of Lisp languages which has its roots in the first Lisp from 1958.
Scheme's initial goal was to be a small clean language that is closer to lambda calculus, than traditional Lisp. Thus lexical binding as a default in a Lisp language was a first.
Unfortunately it was a toy language in many other respects. It had only a very small set of features, features you would need for writing programs, like a useful form of error handling.
Common Lisp's design goals a decade later were different. It was designed to write commercial software, large software, performant software. Another goal was that it was in the tradition of the main line of Lisp dialects, so that programmers who had already large libraries or programs would not start at zero.
Common Lisp added from day one a lot of features that were thought useful:
- lexical binding as a default
- records (called structures)
- a base library
- type declarations
- argument lists with keyword arguments
- compiler hints
- a reader
and much more.
in the mid 90s a revision of CL was published. It added:
- an object system with an optional meta object protocol
- an extensive error handling system, the condition system
Since CL started bigger as Scheme, some design decisions make CL better to use than Scheme. For example Scheme has only primitive argument lists and that alone makes libraries harder to use.
Scheme had more revisions of its standard, but the basic design decisions remained and the community was struggling with basics like error handling, records, object system, etc.
R6RS turned out to be controversial and I would agree with the critics. I think R6RS is extremely disappointing, both in its direction and its contents.
There are two other point of views: semi-standards and individual implementations.
The Scheme community produced a lot of semi-standard extensions. That should be viewed as a success.
The implementations OTOH diverged widely for Scheme. There was a is little consensus about them. There are many very small implementations and many large implementations.
CL implementations OTOH already contain a large language, so they don't start small. Keyword arguments are just there. Same for the object-system. Over time several applications have made sure that they can run mostly unchanged on many of the implementations. Additionally individual implementations have added a lot of features like Unicode support, threads, concurrent execution, etc etc.
So current Lisp implementations can have a lot of features.
Both Common Lisp and Scheme share the legacy of Lisp: symbols, s-expressions, car, cdr, cons, cons cell based lists, ... and more.
Common Lisp has some parts that are not so great, but are defined in the standard. One example is that CL symbol names are uppercase internally. The idea of 'sequences' is not extensible in the standard. And more. Individual implementations handle many of the limitations of the CL standard. So for example in most implementations the I/O system is written with CLOS, conditions are based on CLOS, there are extensible sequences for SBCL, and more.
CL may be a huge language, but it is no C++. Many parts are surprisingly well designed and easy to use. Many problems also can be repaired by the user, since Common Lisp is a programmable programming language. You don't like the built-in LOOP? Use ITERATE, if you like that more or even write your own.