rxflow is minimalistic library for reactive state management in Python. It is inspired by derivablejs
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Small, no dependencies - Only 16KB of bytes of pure Pythonic goodness.
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Push-pull change propagation - Elements are observable and can send change notifications (push). Consumers can then lazily evaluate or dereference the changed element as needed (pull). This approach balances the amount of information in updates with the amount of computation triggered automatically on a variable changing.
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Glitch-free - Python evaluates from left to right producing a determinstic and glitch-free execution.
Install rxflow by running:
pip install rxflow
In computing, reactive programming is a declarative programming paradigm concerned with data streams and the propagation of change (Wikipedia)
In an imperative programming language like Python a variable assignment like c = a * b is instantaneous. a and b can be modified immediately after without affecting c
>>> a = 10
>>> b = 5
>>> c = a * b
>>> print(c)
50
>>> b = 10
>>> print(c) ## This will still be 50
50
>>>Procedural programming is a sensible default because it allows us to make many simplifying assumptions about variable naming and reuse. However, there are other cases where we may prefer that c updates dynamically based on the latest values of a and b. In other words, we want c to be "reactive" to a and b.
A spreadsheet is essentially a reactive programming interface because we can set some cell
>>> from rxflow import Var, Fn, Val
>>> a = Var(10)
>>> b = Var(5)
>>> c = Fn(lambda a, b: a * b, a=a, b=b)
>>> print(Val(c))
50
>>> b(10)
>>> print(Val(c)) ## This will be 100 because b has changed
100
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There are 3 basic types of elements
Var(variable),Fn(function) andSeq(sequence) -
A
Varis the most basic type of element. AVarcan be created, updated and dereferencedfrom rxflow import Var, Val ## Create a Var pi = Var(3.1) print(pi) ## >> Var(3.1) ## Dereference a Var curr_pi = Val(pi) print(curr_pi) ## >> 3.1 ## Dereference a Var pi(3.1415926535) print(Val(pi)) ## >> 3.1415926535
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A
Fnis a value that is derived from other elements. AFncan be created and it's value can be evaluatedfrom rxflow import Var, Fn, Val pi = Var(3.141592) r = Var(42) ## Create a Fn from 2 Vars area = Fn(lambda pi, r: pi * pow(r, 2), pi=pi, r=r) ## Evaluate a Fn print(Val(area)) ## >> 5541.768288 ## Update one of the vars r(2048) print(Val(area)) ## >> 13176791.891968
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A
Seqis a sequence of values that are derived from other elements. ASeqcan be created and it's values can be accessed by evaluating the generator.from rxflow import Var, Seq def fibber(N, fib0, fib1): def fibbr(n): if n == 0: return fib0 elif n == 1: return fib1 else: return N[n - 1] + N[n - 2] return fibbr f0 = Var(0) f1 = Var(1) fib = Seq(fibber, fib0=f0, fib1=f1) print(fib[5]) ## >> 5 print(fib[8]) ## >> 21 print(fib[2]) ## >> 16 f0(15) print(fib[2]) ## >> 16
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create a
Seqby callingSeq(generator, **kwargs)generatoris a function that takesN: Seq, **argsand returns another function that accepts a single intnand returns the nth value in the sequence**kwargsare the named arguments of type (Union[Var,Fn,Seq]) that will be passed to the generator
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access the elements of a
Seqe.g.my_seq[42]
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- Issue Tracker: https://github.com/achadha235/rxflow/issues
- Source Code: https://github.com/achadha235/rxflow
If you are having issues, please let us know. We have a mailing list located at: [email protected]
The project is licensed under the BSD license.