Everything I tried, from beginning to the best solution, even if it looks like Pythonium marketing it really isn't (don't hesitate to tell me if something doesn't seem correct to the netiquette):
Still I think it's possible to do API->API (or framework->framework) translation and that's basicly what I do in Pythonium but at lower level. Probably Pyjamas use the same algorithm as Pythonium...
- function with full parameters semantic both in definition and calling. This is the part I am most proud of.
- "var" are automatically handled by the translator. (very nice finding from Brett (PythonJS contributor).
- global keyword
- list comprehensions
- imports are supported via requirejs
- single class inheritance + mixin via classyjs
The generated JS is perfect ie. there is no overhead, it can not be improved in terms of performance by further editing it. If you can improve the generated code, you can do it from the Python source file too. Also, the compiler did not rely on any JS tricks that you can find in .js written by http://superherojs.com/, so it's very readable.
The direct descendant of this part of PythonJS is the Pythonium Veloce mode. The full implementation can be found @ https://bitbucket.org/amirouche/pythonium/src/33898da731ee2d768ced392f1c369afd746c25d7/pythonium/veloce/veloce.py?at=master 793 SLOC + around 100 SLOC of shared code with the other translator.
An adapted version of pystones.py can be translated in Veloce mode cf. https://bitbucket.org/amirouche/pythonium/src/33898da731ee2d768ced392f1c369afd746c25d7/pystone/?at=master
spam.egg in Python is always translated to
getattribute(spam, "egg") I did not profile this in particular but I think that where it loose a lot of time and I'm not sure I can improve upon it with asm.js or anything else.
- method resolution order: even with the algorithm written in Python, translating it to Python Veloce compatible code was a big endeavour.
- getattributre: the actual getattribute resolution algorithm is kind of tricky and it still doesn't support data descriptors
- metaclass class based: I know where to plug the code, but still...
- last bu not least: some_callable(...) is always transalted to "call(some_callable)". AFAIK the translator doesn't use inference at all, so every time you do a call you need to check which kind of object it is to call it they way it's meant to be called.
This part is factored in https://bitbucket.org/amirouche/pythonium/src/33898da731ee2d768ced392f1c369afd746c25d7/pythonium/compliant/runtime.py?at=master It's written in Python compatible with Python Veloce.
Doing python ast to python ast in my case at least would maybe be a performance improvement since I sometime inspect the content of a block before generating the code associated with it, for instance:
- var/global: to be able to var something I must know what I need to and not to var. Instead of generating a block tracking which variable are created in a given block and inserting it on top of the generated function block I just look for revelant variable assignation when I enter the block before actually visiting the child node to generate the associated code.
- yield, generators have, as of yet, a special syntax in JS, so I need to know which Python function is a generator when I want to write the "var my_generator = function"
So I don't really visit each node once for each phase of the translation.
The overall process can be described as:
Python builtins are written in Python code (!), IIRC there is a few restrictions related to bootstraping types, but you have access to everything that can translate Pythonium in compliant mode. Have a look at https://bitbucket.org/amirouche/pythonium/src/33898da731ee2d768ced392f1c369afd746c25d7/pythonium/compliant/builtins/?at=master
Reading JS code generated from pythonium compliant can be understood but source maps will greatly help.
The valuable advice I can give you in the light of this experience are kind old farts:
- extensively review the subject both in literature and existing projects closed source or free. When I reviewed the different existing projects I should have given it way more time and motivation.
- failure is experience
- a small step is a step
- start small
- dream big
- do demos
About what Ira Baxter response:
The estimations are not helpful at all. I took me more or less 6 month of free time for both PythonJS and Pythonium. So I can expect more from full time 6 month. I think we all know what 100 man-year in an enterprise context can mean and not mean at all...
When someone says something is hard or more often impossible, I answer that "it only takes time to find a solution for a problem that is impossible" otherwise said nothing is impossible except if it's proven impossible in this case a math proof...
If it's not proven impossible then it leaves room for imagination:
- finding a proof proving it's impossible
- If it is impossible there may be an "inferior" problem that can have a solution.
- if it's not impossible, finding a solution
Most people that say that a thing is "hard" or "impossible" don't provide the reasons. C++ is hard to parse? I know that, still they are (free) C++ parser. Evil is in the detail? I know that. Saying it's impossible alone is not helpful, It's even worse than "not helpful" it's discouraging, and some people mean to discourage others. I heard about this question via How to automatically generate a parser & code-to-code translator from a corpus?.
What would be perfection for you? That's how you define next goal and maybe reach the overall goal.
I am more interested in knowing what kinds of patterns I could enforce
on the code to make it easier to translate (ie: IoC, SOA ?) the code
than how to do the translation.
I see no patterns that can not be translated from one language to another language at least in a less than perfect way. Since language to language translation is possible, you'd better aim for this first. Since, I think according to http://en.wikipedia.org/wiki/Graph_isomorphism_problem, translation between two computer languages is a tree or DAG isomorphism. Even if we already know that they are both turing complete, so...
Framework->Framework which I better visualize as API->API translation might still be something that you might keep in mind as a way to improve the generated code. E.g: Prolog as very specific syntax but still you can do Prolog like computation by describing the same graph in Python... If I was to implement a Prolog to Python translator I wouldn't implement unification in Python but in a C library and come up with a "Python syntax" that is very readable for a Pythonist. In the end, syntax is only "painting" for which we give a meaning (that's why I started scheme). Evil is in the detail of the language and I'm not talking about the syntax. The concepts that are used in the language getattribute hook (you can live without it) but required VM features like tail-recursion optimisation can be difficult to deal with. You don't care if the initial program doesn't use tail recursion and even if there is no tail recursion in the target language you can emulate it using greenlets/event loop.
For target and source languages, look for:
- Big and specific ideas
- Tiny and common shared ideas
From this will emerge:
- Things that are easy to translate
- Things that are difficult to translate
You will also probably be able to know what will be translated to fast and slow code.
There is also the question of the stdlib or any library but there is no clear answer, it depends of your goals.
Idiomatic code or readable generated code have also solutions...
Targeting a platform like PHP is much more easy than targeting browsers since you can provide C-implementation of slow and/or critical path.
You can also have a look at those libraries:
Also you might be interested by this blog post (and comments): https://www.rfk.id.au/blog/entry/pypy-js-poc-jit/