Folks, I have a problem. I am a writing a script in python which consists of several modules. Some of the modules are dependent on other modules, hence they should be run only after the dependent modules are successfully run. So each modules derives from a base class module and overrides a list called DEPENDENCIES which is a list of dependecies to be met beofre this module is run. There is one module which needs to be run before all other modules.Currently I am doing something like this.
modules_to_run.append(a) modules_to_run.append(b) modules_to_run.append(c) ..... ..... modules_to_run.append(z) # Very simplistically just run the Analysis modules sequentially in # an order that respects their dependencies foundOne = True while foundOne and len(modules_to_run) > 0: foundOne = False for module in modules_to_run: if len(module.DEPENDENCIES) == 0: foundOne = True print_log("Executing module %s..." % module.__name__, log) try: module().execute() modules_to_run.remove(module) for module2 in modules_to_run: try: module2.DEPENDENCIES.remove(module) except: #module may not be in module2's DEPENDENCIES pass except Exception as e: print_log("ERROR: %s did not run to completion" % module.__name__, log) modules_to_run.remove(module) print_log(e, log) for module in modules_to_run: name = module.__name__ print_log("ERROR: %s has unmet dependencies and could not be run:" % name, log) print_log(module.DEPENDENCIES, log)
Now I am seeing that some modules are taking long time to execute and script tun time is too long. So I wanted to make it multi threaded so that independent modules can run simultaneously thus saving time. So I want a solution where after each iteration , I'll recalculate 'n' independent modules ( where 'n' is max no of threads, typically 2 to begin with) and execute them in parallel and wait for them to complete before next iteration. I dont know much about algorithms so I am stuck. Can you folks please help me to find an algorithm which finds max 'n' set of independent modules after each iteration which are no way dependent on each other.