def main(): if len(sys.argv) > 1: problem = loadProblem(sys.argv[1]) else: problem = loadProblem(utils.getOpenFilename("problem.py")) # run all algorithms, gathering the traces and printing out the results as # we go algorithmList = [("Algorithm 3", algorithms.algorithm3), ("Algorithm 4", algorithms.algorithm4), ("Algorithm 5", algorithms.algorithm5)] steps = [] for (name, function) in algorithmList: tracer = trace.TraceRecord() peak = function(problem, trace = tracer) steps.append(tracer.sequence) status = "is NOT a peak (INCORRECT!)" if problem.isPeak(peak): status = "is a peak" print(name + " : " + str(peak) + " => " + status) # write the trace out to a file with open("trace.jsonp", "w") as traceFile: traceFile.write("parse(") json.dump({ "input" : problem.array, "steps" : steps }, traceFile) traceFile.write(")")
def main(): # if len(sys.argv) > 1: # problem = loadProblem(sys.argv[1]) # else: problem = loadProblem(utils.getOpenFilename("zeromatrix.py")) # @TEST zero matrix with one random 1 # problem = []; # for i in range(10): # resultRow = [] # for j in range(10): # resultRow.append(0) # result.append(resultRow) # problem[random.randint(0, 10)][random.randint(0, 10)] = 1 # run all algorithms, gathering the traces and printing out the results as # we go algorithmList = [("Algorithm 1", algorithms.algorithm1), ("Algorithm 2", algorithms.algorithm2), ("Algorithm 3", algorithms.algorithm3), ("Algorithm 4", algorithms.algorithm4)] steps = [] for (name, function) in algorithmList: tracer = trace.TraceRecord() peak = function(problem, trace=tracer) steps.append(tracer.sequence) status = "is NOT a peak (INCORRECT!)" if problem.isPeak(peak): status = "is a peak" print(name + " : " + str(peak) + " => " + status) # write the trace out to a file with open("trace.jsonp", "w") as traceFile: traceFile.write("parse(") json.dump({"input": problem.array, "steps": steps}, traceFile) traceFile.write(")")
def main(): #*****************************射撃王御用***************************** if len(sys.argv) > 1: problem = loadProblem(sys.argv[1]) else: problem = loadProblem(utils.getOpenFilename("problem.py")) # run 射撃王 algorithm, gathering the traces and printing out the results as # we go algorithm = algorithms.algorithm1 steps = [] tracer = trace.TraceRecord() # What, if any, should be the return value of shagekiou algorithm? shagekiou = algorithm(problem, trace=tracer) steps.append(tracer.sequence) # status = "is NOT a peak (INCORRECT!)" # if problem.isPeak(peak): # status = "is a peak" # print(name + " : " + str(peak) + " => " + status) # write the trace out to a file with open("trace.jsonp", "w") as traceFile: traceFile.write("parse(") json.dump( { "input": [problem.height, problem.rising_speed], "steps": steps }, traceFile) traceFile.write(")")