Automatic code generation is commonly done in the following ways:
- Print statements containing code fragments
- Text templates with placeholders (think macros)
IMHO, better practice is:
- Built an AST for the target fragment, and then prettyprint
Hardly anybody does the latter, because the tools are mostly not there.
Python's 2to3 tool provides (I think) the target AST and prettyprinting.
But a question you didn't ask, is "generate from what?" Somehow you have to specify
abstractly what you want generated (or it isn't a win). And you tool has to be able to read that specification somehow.
Many code generation schemes consist of writing procedural code that calls the above generation mechanisms; the procedural code acts as an implicit specification. It is "easy" to read the specification; it is just code in the language used by the code generator.
Some code generation schemes use some kind of graph structure to provide a frame on which fragments of specification are hung, that drive the code generation. UML class diagrams are a classic example. These schemes aren't so easy; you need a "specification reader" (e.g., UML diagram reader aka XMI or some such, or if you aren't using UML, some kind of specification parser).
The Python 2to3 tool uses a Python2 parser to read the "spec". If you want to generate code from Python2, that will be fine. I suspect you don't want to do that.
A best practice approach is one that unifies the ability to read/analyze/traverse specifications, with the ability to produce ASTs for the target language.
Our DMS Software Reengineering Toolkit is a general purpose program analysis and transformation system. It parses "specifications" (instances of grammars to you can define to it) into ASTs; it will also let you build arbitrary ASTs for any of those grammars, using either procedural code [as sketched above] or using pattern-match/replacement (pretty much unique to DMS). Part of a DMS langauge front end is a prettyprinter, that can regenerate text from ASTs (these are tested by roundtripping code: parse to AST, prettyprint AST, better be the same text).
In case your grammar isn't known to DMS, it has extremely good parser and prettyprinter generators, as well as other support mechanisms for analyzing programs. All that additional machinery is usually not available with classic parser generators, or with just a plain "AST" package. (I don't know what is 2to3).
The relevance of this to Python is that DMS has a Python front end as well as grammars for many other languages.
So, you can parse your specification, and generate Python code using ASTs followed by prettyprinting.