I'm curious what languages allow you to "build up" a string during program execution, and then execute it as part of the program.
Look for languages that support
eval, or, more generally, runtime meta-programming. Pretty much every language supports an
eval (even strongly, statically typed languages like Haskell). Many runtimes built for languages that are primarily implemented via bytecode
interpretation (such as Lisp-like languages, Erlang or Java) support the ability to
insert new (byte)code at runtime. Once you can insert new code dynamically, you can write
eval, or do "monkey patching".
Even in language implementations without speciﬁc support for full meta-programming, or even dynamic linking, there are often ways to dynamically generate code under programmer control, either via reﬂection mechanisms or code generation support libraries (such as LLVM).
Beyond just a simple one-stage
eval, more generally, languages that support multi-stage computation allow for generation of programs from one stage to the next, for arbitrary numbers of stages, making it possible to safely, arbitrarily nest
To quote Taha, who's thesis on multi-stage programming models introduces much of the theory.
Program generation is a powerful and pervasive technique for the development of software. It has been used to improve code reuse, product reliability and maintainability, performance and resource utilization, and developer productivity
The languages you're looking for usually provide three primitives, in some form or another:
for delaying computation by one stage (e.g. quoting a fragment as a string), splicing it into a running program, and executing that fragment (in Lisp, back-quote, comma, and eval).
Lisp and eval
Generalizing eval to multi-stage programming
On multi-stage programming:
- Taha, Multi-Stage Programming: Its Theory and Applications
- Nielson, Flemming and Nielson, Hanne Riis, Two-level functional languages, -- introduced 2-level languages.
- Taha, Walid and Sheard, Tim, Multi-stage programming with explicit annotations -- simple operators to support all runtime metaprogramming techniques.
Giving types to multi-stage programming
Formal descriptions of multi-stage computation are quite tricky, and involve unusual techniques (for programming languages) like modal logic.
Giving types to meta-programs:
- Wickline, Philip and Lee, Peter and Pfenning, Frank and Davies, Rowan, Modal types as staging specifications for run-time code generation.
The trickiness of formalzing the semantics of multi-stage programming explains why they're often confusing systems to work with, and why
eval can open up so many security concerns: it becomes unclear what code is executing when, and exactly what data is being turned into code. Getting name capture from one stage to the next is tricky, leading to code injection attacks. Such complexity doesn't help security.