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python_functional_snippets (1)

Article Outline

Example Python program python_functional_snippets (1).py Python version 3.x or newer. To check the Python version use:

python --version

Modules

  • from toolz.functoolz import curry,partial,compose,flip,pipe as datapipe

  • from functools import reduce
  • from functools import partial

Methods

  • def cond(predicateFnMatrix):
  • def condInner(*args):
  • def logFn(fn,name=""):
  • def fn_logger(args,*kwargs):
  • def len_minus1(collection): return len(collection) - 1
  • def pipe(firstFn, *fns):
  • def pipeInner(lastArg,*args):
  • def to_transformer(fn,acc):
  • def inner(acc,v,k,c):
  • def curry(fn,arity=2):
  • def curryInner(args,*kwargs):
  • def assign_dicts(dest,*dicts):
  • def assign_dicts(dest,*dicts):
  • def analyze_graph(get_adjacent_vertices,collection}):

Code

Python example

# from toolz.functoolz import curry,partial,compose,flip,pipe as datapipe


#logic
def cond(predicateFnMatrix):
  def condInner(*args):
    for (predicate,fn) in predicateFnMatrix:
      if predicate(*args):
        return fn(*args)
  return condInner
all = lambda *fns: lambda *args,**kwargs: reduce((lambda truth,fn:(fn(*args,**kwargs) if truth else truth)),fns,True)
ifElse = lambda predicate,fnTrue,fnFalse: lambda *a,**kw: fnTrue(*a,**kw) if predicate(*a,**kw) else fnFalse(*a,**kw)


# predicates
lt = curry(lambda x,y: y < x)
lte = curry(lambda x,y: y <= x)
gt = curry(lambda x,y: y > x)
gte = curry(lambda x,y: y >= x)
eq = curry(lambda x,y: y == x)
ne = curry(lambda x,y: y != x)
is_ = curry(lambda x,y: x is y)
is_not = curry(lambda x,y: x is not y)

#debugging
plog = lambda *args: print(*args) or args[0]
def logFn(fn,name=""):
    def fn_logger(*args,**kwargs):
        print(name,'args:',args,'kwargs:',kwargs)
        return fn(*args,**kwargs)
    return fn_logger


#math
def len_minus1(collection): return len(collection) - 1
add = curry(lambda x,y:y+x)
sub = curry(lambda x,y:y-x)
mul = curry(lambda x,y:y*x)
truediv = curry(lambda x,y:y/x)
floordiv = curry(lambda x,y:y//x)
pow = curry(lambda x,y:y**x)
mod = curry(lambda x,y: y % x, arity=2))
divisibleBy = lambda x: pipe(mod(x), eq(0))

#function manipulation
from functools import reduce
pipe = lambda fn1,*fns: lambda arg,*args: reduce(lambda a,f: f(a), fns, fn1(arg,*args))
# or, the verbose version
def pipe(firstFn, *fns): 
    def pipeInner(lastArg,*args):
        lastArg = firstFn(lastArg,*args)
        for f in fns:
            lastArg = f(lastArg)
        return lastArg
    return pipeInner
compose = lambda *fns :pipe(*reversed(fns))
fmap = lambda fn: lambda data: (fn(d) for d in data)
mapPipe = compose(fmap,pipe)
spread = lambda fn : lambda iterableArg : fn(*iterableArg)
forkjoin = lambda *fns,mergefn: lambda data:mergefn(*[fn(data) for fn in fns])
nthArg = lambda argNum: lambda *args: args[argNum]
negate = lambda fn: lambda *args,**kwargs:not fn(*args,**kwargs)
over = lambda fns: lambda *args,**kwargs: [f(*args,**kwargs) for f in fns]
def to_transformer(fn,acc):
  def inner(acc,v,k,c):
    fn(acc,v,k,c)
    return acc
  return inner
transformTo = curry(lambda stubFn,fn,coll:reduce(to_transformer(fn),coll,stubFn()),arity=3)
transToDict = transformTo(dict)
listToArgs = lambda fn: lambda *lst,**kwargs: fn(*lst[0],**kwargs)
argsToList = lambda fn: lambda *args,**kwargs: fn(args,**kwargs)

from functools import partial
def curry(fn,arity=2):
  if arity < 1: return fn
  def curryInner(*args,**kwargs):
    if len(args) >= arity : return fn(*args[:arity],**kwargs)
    return curry(partial(fn, *args[:arity],**kwargs), arity=arity-len(args))
  return curryInner

# curry tests
lt = curry(lambda x,y: x > y)
assert lt(2,1) == True
assert lt(2)(1) == True
assert lt(2,1,100) == True
assert lt(2)(1,100) == True
assert lt()(2,1,100) == True


# misc utils
identity = lambda x: x
noop = lambda *x: None
constant = lambda x: lambda *ignored: x
stub_0 = constant(0)
stub_True = lambda *x: True
stub_False = lambda *x: False
stub_List = lambda *x: list()

def assign_dicts(dest,*dicts):
  for d in dicts:
    for k in d.keys():
      dest[k]=d[k]
  return dest

def assign_dicts(dest,*dicts):
  for d in dicts:
    for k in d.keys():
      dest[k]=d[k]
  return dest

def analyze_graph(get_adjacent_vertices,collection}):
  graph = dict(
    vertices={id:dict(id=id,data=data) for v in get_adjacent_vertices('start',collection)},
    root_vertices={},
    in_edges={},
    in_paths={},
    out_edges={},
    in_cross={},
    out_cross={},
    in_back={},
    out_back={},
    in_forward={},
    out_forward={}
  )

  node = None
  queue=[v for v in graph['vertices']]
  while(len(queue)>0):
      node=queue.shift()
      for (id,data) in get_adjacent_vertices(node['id'],collection):
        if(id in graph['vertices']):
          pass # visited
          # tests for cross, back, forward edges
        else:
          graph['vertices'][id]=dict(id=id,data=data)
          queue.append()

  for (id,vertex) in graph['vertices'].items():
    if id not in graph['in_edges']:
      root_vertices[id]=vertex

  return graph