This seems to be the answer to the question:
The major goal of MPS is to allow extending languages. This is because
every existing language already has a strict language syntax defined,
which limits its flexibility.
The problem in extending language syntax is mainly the textual
presentation of code. This is especially true if we want to use
different language extensions, where each one may have its own syntax.
This naturally leads to the idea of non-textual presentation of
program code. A major benefit of this approach is that it eliminates
the need for code parsing. Our solution is to have code always
maintained in an Abstract Syntax Tree (AST), which consists of nodes
with properties, children and references, and fully describes the
At the same time, MPS offers an efficient way to keep writing code in
a text-like manner.
In creating a language, you define the rules for code editing and
rendering. You can also specify the language type-system and
constraints. This allows MPS to verify program code on the fly, and
thus makes programming with the new language easy and less
MPS uses a generative approach. You can also define generators for
their language to transform code in the custom language to compilable
code in some conventional language. Currently, MPS is particularly
good for, but is not limited to, generating Java code. You can also