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I am trying to set up a system to generate a set of "configurations". These configurations are simple key/value pairs stored in a python dict.

These configurations are the result of transforming the dict with a sequence of function, this is what i call a workflow.

Here is a simple example of what I ended up with:

global_data = [dict()]

def workflow_step1(data):
    results = []
    for i in range(1,4):
        data['key'] = i
        results.append(copy.deepcopy(data))
    return results

def workflow_step2(data):
    results = []
    for i in range(1,3):
        data['otherkey'] = i
        results.append(copy.deepcopy(data))
    return results

def workflow_step3(data):
    data['yetanotherkey'] = 42
    return [copy.deepcopy(data)]

def list_workflow():
    return [workflow_step1, workflow_step2, workflow_step3]

def merge(lhs,rhs):
    return lhs+rhs

def run(data):
    for step in list_workflow():
        data = reduce(lambda lhs, rhs: lhs+rhs, [step(d) for d in data])
    return data

print run(global_data)

This works kind of well, i get:

[{'yetanotherkey': 42, 'otherkey': 1, 'key': 1},
 {'yetanotherkey': 42, 'otherkey': 2, 'key': 1},
 {'yetanotherkey': 42, 'otherkey': 1, 'key': 2},
 {'yetanotherkey': 42, 'otherkey': 2, 'key': 2},
 {'yetanotherkey': 42, 'otherkey': 1, 'key': 3},
 {'yetanotherkey': 42, 'otherkey': 2, 'key': 3}]

As you can see, the goal is to obtain all possible combinations of the dict. Each step of the workflow returns a set of possible combinations, that should create a new branch of possibilities for the upcoming steps.

The problem that I am facing, is that the users are now creating more and more workflow steps, thus leading to a combinatorial explosion.

The problem in my naive design, is that i generate the whole tree of all posibilities at once.

I was hoping to resolve this using yield and generators, to generate one possibility at a time, and thus not store everything at the same time.

I was of course able to rewrite the workflow step using yield:

def workflow_step1(data):
    for i in range(1,4):
        data['key'] = i
        yield copy.deepcopy(data)

def workflow_step2(data):
    for i in range(1,3):
    data['otherkey'] = i
        yield copy.deepcopy(data)

def workflow_step3(data):
    data['yetanotherkey'] = 42
    yield copy.deepcopy(data)

def list_workflow():
    yield workflow_step1
    yield workflow_step2
    yield workflow_step3

But I just can't make my brain to think of the way to rewrite the run function to process each step sequentially. I get lost in a brainmaze of yields and generators.

Any ideas are more that welcome!

share|improve this question
    
You probably can write run() the same way you did previously. – martineau Nov 2 '12 at 16:31

I think itertools.product will do exactly what you want. Here's an approach that returns a generator that yields one combination of your three steps at a time. Even if there are a lot more options in a single step, it won't take a huge amount of time or memory up front.

def step1():
    return [("key", i) for i in range(1,4)]

def step2():
    return [("otherkey", i) for i in range(1,3)]

def step3():
    return [("yetanotherkey", 42)]

def workflow_generator():
    return (dict(p) for p in itertools.product(step1(), step2(), step3()))

If you want to be able to handle a variable number of steps, you can modify things just slightly to make that work:

def workflow_generator(steps):
    return (dict(p) for p in itertools.product(*(step() for step in steps)))

Calling this version with workflow_generator([step1, step2, step3]) will give the same results as the previous version, though you could assemble the arguments in some other way if you want (such as from a function).

share|improve this answer

Yes, your datastructures are messed up. The following code is just to give an idea (not fully operational in terms of your current structures). You should use trees basically and make a class like a workflow manager which registers steps. Steps are trees of steps. Use true id's instead of numbers.

Two suggestions

1.

import copy

global_data = [dict()]

class workflowManager:

    def __init__(self):
        self.steps = []
        self.data = list()

    def registerStep(self,step,stepNumber=1):
        for i in range(1,stepNumber+1):
            self.steps.append(step)

    def registerSubStep(self,step,substep):


    '''
    def hookToStep(self,step,hook):
        #find all steps
        indices = [i for i, x in enumerate(self.steps) if x == step]
        print 'hooking at ',indices
        for k in indices:
            a = self.steps[:k]
            b = self.steps[k:]
            self.steps = a + [hook] + b
    '''

    def performOnData(self):
        print 'self.data ',self.data
        for step in self.steps:
            print 'performing step ',step
            print 'data ',self.data
            self.data = step(self.data)

    def __str(self):
        return str(data)

def step1(data):
    lastn = 0
    try:
        lastn = data[-1]['key']
    except:
        pass
    data.append({'key': lastn+1})
    return data

def step2(data):
    lastn = 0
    try:
        lastn = data[-1]['otherkey']
    except:
        pass

    data.append({'otherkey': lastn+1})
    return data

def step3(data):
    data.append({'yetanotherkey': 42})
    return data


w = workflowManager()
w.step_register(step1,4)
#w.step_register(step2,3)
#w.step_register(step3,1)
w.hookToStep(step1,step3)

print w

w.performOnData()

print w

2.

class Step:

    def __init__(self,name,extra=None):
        self.steps = []
        self.name = name

    def addChild(self,child,repeat=1):
        for j in range(1,repeat+1):
            self.steps.append(child)

    def __str__(self):
        s = self.name + "\n"
        for sub in self.steps:
            s+=str(sub)
        return s


step1 = Step("yetanotherkey",42) #root
step2 = Step("otherkey")
step3 = Step("key")

step2.addChild(step3,2)
step1.addChild(step2,3)

print step1
share|improve this answer

I suggest you take the loops out of the workflow_step functions, and use itertools.product like this:

import copy
import itertools

def workflow_step1(data, param):
    data['key'] = param

def workflow_step2(data, param):
    data['otherkey'] = param

def workflow_step3(data, param):
    data['yetanotherkey'] = param

def list_workflow():
    return ([workflow_step1, workflow_step2, workflow_step3],
            [range(1,4),     range(1,3),     [42]])

def run(data):
    steps, param_lists = list_workflow()
    for params in itertools.product(*param_lists):
        d = copy.deepcopy(data)
        for step, param in zip(steps, params):
            step(d,param)
        yield d

for result in run({}):
    print result
share|improve this answer

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