def sort(data): outsideLoopCount=0 swapCount=0 swapped = True length = len(data) while swapped: j = 0 outsideLoopCount += 1 swapped = False while j + 1 < length: if data[j] > data[j+1]: swapCount += 1 data = support.swap(data, j, j+1) swapped = True j += 1 # print "Outside loop count: ", outsideLoopCount # print "Swap count: ", swapCount return data
def sort(data): j=1 outsideLoopCount=0 swapCount=0 length = len(data) while j <= length -1: k = 0 outsideLoopCount += 1 while k < j: if data[k] > data[j]: data = support.swap(data, k, j) swapCount += 1 k += 1 j += 1 # print "Outside loop count: ", outsideLoopCount # print "Swap count: ", swapCount return data
def sort(data): j=0 outsideLoopCount=0 swapCount=0 swapped = True length = len(data) while j <= length -1: k = j + 1 smallest = data[j] outsideLoopCount += 1 while k <= (length - 1): if data[k] < smallest: smallIndex = k smallest = data[k] k += 1 for l in range(0, j+1): if data[l] > smallest: data = support.swap(data, l, smallIndex) swapCount += 1 j += 1 # print "Outside loop count: ", outsideLoopCount # print "Swap count: ", swapCount return data
def sort_schedule(missions, times_text, status): # simple sort
n = len(times_text)
times = n * [0]
# Get all times type number ----
for i in range(n):
time_text = times_text[i].split("-")[0]
times[i] = sp.convertTimeToSecond(time_text)
for i in range(n):
for j in range(i + 1, n):
if times[i] > times[j]:
(times[i], times[j]) = sp.swap(times[i], times[j])
(times_text[i],
times_text[j]) = sp.swap(times_text[i], times_text[j])
(missions[i], missions[j]) = sp.swap(missions[i], missions[j])
(status[i], status[j]) = sp.swap(status[i], status[j])
return missions, times_text, status
