Kahn's algorithms to arrange CouseSchedule












1












$begingroup$


I wrote a solution to Course Schedule II - LeetCode




There are a total of n courses you have to take, labeled from 0 to n-1.



Some courses may have prerequisites, for example to take course 0 you have to first take course 1, which is expressed as a pair: [0,1]



Given the total number of courses and a list of prerequisite pairs, return the ordering of courses you should take to finish all courses.



There may be multiple correct orders, you just need to return one of them. If it is impossible to finish all courses, return an empty array.



Example 1:



Input: 2, [[1,0]] 

Output: [0,1]

Explanation: There are a total of 2 courses to take. To take course 1 you should have finished


Example 2:



Input: 4, [[1,0],[2,0],[3,1],[3,2]]

Output: [0,1,2,3] or [0,2,1,3]

Explanation: 

There are a total of 4 courses to take. To take course 3 you should have finished both     

 courses 1 and 2. Both courses 1 and 2 should be taken after you finished course 0. 

  So one correct course order is [0,1,2,3]. Another correct ordering is [0,2,1,3] .


Note:




  1. The input prerequisites is a graph represented by a list of edges, not adjacency matrices. Read more about how a graph is represented.

  2. You may assume that there are no duplicate edges in the input prerequisites.




my solution



class Solution:

    def findOrder(self,numCourses, prerequirements):

        """

        :type numCourse: int

        :type prerequirements: List[List[int]]

        :rtype:bool

        """

        #if not prerequirements: return True 

       # if numCourses == None and len(prerequirements) == 0: return True



        L = 



        in_degrees = [ 0 for _ in range(numCourses)] #index as node

        #graph = [] * numCourses

        graph = [ for _ in range(numCourses)]



        #Construct the graph 

        for u, v in prerequirements:

            graph[v].append(u) #index as node

            in_degrees[u] += 1 

        logging.debug(f"graph: {graph}")

        logging.debug(f"in_degrees {in_degrees}")

        #

        Q = [i for i in range(len(in_degrees)) if in_degrees[i]==0] #collect nodes without pre-edges

        logging.debug(f"Q: {Q}")



        while Q: #while Q is not empty 

            start = Q.pop()#remove a node from Q

            L.append(start) #add n to tail of L

            logging.debug(f"L: {L}")



            for v in graph[start]:#for each node v with a edge e 

                in_degrees[v] -= 1 #remove edge 

                if in_degrees[v] == 0:

                    Q.append(v)

        logging.debug(f"indegree: {in_degrees}")

        #check there exist a cycle

        for i in range(len(in_degrees)): #if graph has edge 

            if in_degrees[i] > 0: 

                return  

        logging.debug(f"L: {L}")

        return L


TestCase:



class MyCase(unittest.TestCase):

    def setUp(self):

        self.solution1 = Solution()

        self.solution2 = Solution2()



    def test_bfs1(self):

        numCourse = 2

        prerequirements =  [[1,0]] 

        check = self.solution1.findOrder(numCourse, prerequirements)

        logging.debug(f"{check}")

        answer = [0, 1] 

        self.assertEqual(check, answer)





    def test_bfs2(self):

        numCourse = 4

        prerequirements =  [[1,0],[2,0],[3,1],[3,2]]

        check = self.solution1.findOrder(numCourse, prerequirements)

        logging.debug(f"{check}")

        answer = [[0,1,2,3], [0,2,1,3]] 

        self.assertIn(check, answer)





    def test_bfs3(self):

        numCourse = 2

        prerequirements =  

        check = self.solution1.findOrder(numCourse, prerequirements)

        logging.debug(f"{check}")

        answer = [1,0]

        self.assertEqual(check, answer)





    def test_bfs4(self):

        numCourse = 2

        prerequirements =  [[0,1],[1,0]]

        check = self.solution1.findOrder(numCourse, prerequirements)

        logging.debug(f"{check}")

        answer = 

        self.assertEqual(check, answer)


Get a low score




Runtime: 56 ms, faster than 57.28% of Python3 online submissions for Course Schedule II.
Memory Usage: 14 MB, less than 51.41% of Python3 online submissions for Course Schedule II.







python performance algorithm programming-challenge graph







share|improve this question











$endgroup$

















    1












    $begingroup$


    I wrote a solution to Course Schedule II - LeetCode




    There are a total of n courses you have to take, labeled from 0 to n-1.



    Some courses may have prerequisites, for example to take course 0 you have to first take course 1, which is expressed as a pair: [0,1]



    Given the total number of courses and a list of prerequisite pairs, return the ordering of courses you should take to finish all courses.



    There may be multiple correct orders, you just need to return one of them. If it is impossible to finish all courses, return an empty array.



    Example 1:



    Input: 2, [[1,0]] 
    
Output: [0,1]
    
Explanation: There are a total of 2 courses to take. To take course 1 you should have finished


    Example 2:



    Input: 4, [[1,0],[2,0],[3,1],[3,2]]
    
Output: [0,1,2,3] or [0,2,1,3]
    
Explanation: 
    
There are a total of 4 courses to take. To take course 3 you should have finished both     
    
 courses 1 and 2. Both courses 1 and 2 should be taken after you finished course 0. 
    
  So one correct course order is [0,1,2,3]. Another correct ordering is [0,2,1,3] .


    Note:




    1. The input prerequisites is a graph represented by a list of edges, not adjacency matrices. Read more about how a graph is represented.

    2. You may assume that there are no duplicate edges in the input prerequisites.




    my solution



    class Solution:
    
    def findOrder(self,numCourses, prerequirements):
    
        """
    
        :type numCourse: int
    
        :type prerequirements: List[List[int]]
    
        :rtype:bool
    
        """
    
        #if not prerequirements: return True 
    
       # if numCourses == None and len(prerequirements) == 0: return True
    

    
        L = 
    

    
        in_degrees = [ 0 for _ in range(numCourses)] #index as node
    
        #graph = [] * numCourses
    
        graph = [ for _ in range(numCourses)]
    

    
        #Construct the graph 
    
        for u, v in prerequirements:
    
            graph[v].append(u) #index as node
    
            in_degrees[u] += 1 
    
        logging.debug(f"graph: {graph}")
    
        logging.debug(f"in_degrees {in_degrees}")
    
        #
    
        Q = [i for i in range(len(in_degrees)) if in_degrees[i]==0] #collect nodes without pre-edges
    
        logging.debug(f"Q: {Q}")
    

    
        while Q: #while Q is not empty 
    
            start = Q.pop()#remove a node from Q
    
            L.append(start) #add n to tail of L
    
            logging.debug(f"L: {L}")
    

    
            for v in graph[start]:#for each node v with a edge e 
    
                in_degrees[v] -= 1 #remove edge 
    
                if in_degrees[v] == 0:
    
                    Q.append(v)
    
        logging.debug(f"indegree: {in_degrees}")
    
        #check there exist a cycle
    
        for i in range(len(in_degrees)): #if graph has edge 
    
            if in_degrees[i] > 0: 
    
                return  
    
        logging.debug(f"L: {L}")
    
        return L


    TestCase:



    class MyCase(unittest.TestCase):
    
    def setUp(self):
    
        self.solution1 = Solution()
    
        self.solution2 = Solution2()
    

    
    def test_bfs1(self):
    
        numCourse = 2
    
        prerequirements =  [[1,0]] 
    
        check = self.solution1.findOrder(numCourse, prerequirements)
    
        logging.debug(f"{check}")
    
        answer = [0, 1] 
    
        self.assertEqual(check, answer)
    

    

    
    def test_bfs2(self):
    
        numCourse = 4
    
        prerequirements =  [[1,0],[2,0],[3,1],[3,2]]
    
        check = self.solution1.findOrder(numCourse, prerequirements)
    
        logging.debug(f"{check}")
    
        answer = [[0,1,2,3], [0,2,1,3]] 
    
        self.assertIn(check, answer)
    

    

    
    def test_bfs3(self):
    
        numCourse = 2
    
        prerequirements =  
    
        check = self.solution1.findOrder(numCourse, prerequirements)
    
        logging.debug(f"{check}")
    
        answer = [1,0]
    
        self.assertEqual(check, answer)
    

    

    
    def test_bfs4(self):
    
        numCourse = 2
    
        prerequirements =  [[0,1],[1,0]]
    
        check = self.solution1.findOrder(numCourse, prerequirements)
    
        logging.debug(f"{check}")
    
        answer = 
    
        self.assertEqual(check, answer)


    Get a low score




    Runtime: 56 ms, faster than 57.28% of Python3 online submissions for Course Schedule II.
    Memory Usage: 14 MB, less than 51.41% of Python3 online submissions for Course Schedule II.







    python performance algorithm programming-challenge graph







    share|improve this question











    $endgroup$















      1












      1








      1





      $begingroup$


      I wrote a solution to Course Schedule II - LeetCode




      There are a total of n courses you have to take, labeled from 0 to n-1.



      Some courses may have prerequisites, for example to take course 0 you have to first take course 1, which is expressed as a pair: [0,1]



      Given the total number of courses and a list of prerequisite pairs, return the ordering of courses you should take to finish all courses.



      There may be multiple correct orders, you just need to return one of them. If it is impossible to finish all courses, return an empty array.



      Example 1:



      Input: 2, [[1,0]] 
      
Output: [0,1]
      
Explanation: There are a total of 2 courses to take. To take course 1 you should have finished


      Example 2:



      Input: 4, [[1,0],[2,0],[3,1],[3,2]]
      
Output: [0,1,2,3] or [0,2,1,3]
      
Explanation: 
      
There are a total of 4 courses to take. To take course 3 you should have finished both     
      
 courses 1 and 2. Both courses 1 and 2 should be taken after you finished course 0. 
      
  So one correct course order is [0,1,2,3]. Another correct ordering is [0,2,1,3] .


      Note:




      1. The input prerequisites is a graph represented by a list of edges, not adjacency matrices. Read more about how a graph is represented.

      2. You may assume that there are no duplicate edges in the input prerequisites.




      my solution



      class Solution:
      
    def findOrder(self,numCourses, prerequirements):
      
        """
      
        :type numCourse: int
      
        :type prerequirements: List[List[int]]
      
        :rtype:bool
      
        """
      
        #if not prerequirements: return True 
      
       # if numCourses == None and len(prerequirements) == 0: return True
      

      
        L = 
      

      
        in_degrees = [ 0 for _ in range(numCourses)] #index as node
      
        #graph = [] * numCourses
      
        graph = [ for _ in range(numCourses)]
      

      
        #Construct the graph 
      
        for u, v in prerequirements:
      
            graph[v].append(u) #index as node
      
            in_degrees[u] += 1 
      
        logging.debug(f"graph: {graph}")
      
        logging.debug(f"in_degrees {in_degrees}")
      
        #
      
        Q = [i for i in range(len(in_degrees)) if in_degrees[i]==0] #collect nodes without pre-edges
      
        logging.debug(f"Q: {Q}")
      

      
        while Q: #while Q is not empty 
      
            start = Q.pop()#remove a node from Q
      
            L.append(start) #add n to tail of L
      
            logging.debug(f"L: {L}")
      

      
            for v in graph[start]:#for each node v with a edge e 
      
                in_degrees[v] -= 1 #remove edge 
      
                if in_degrees[v] == 0:
      
                    Q.append(v)
      
        logging.debug(f"indegree: {in_degrees}")
      
        #check there exist a cycle
      
        for i in range(len(in_degrees)): #if graph has edge 
      
            if in_degrees[i] > 0: 
      
                return  
      
        logging.debug(f"L: {L}")
      
        return L


      TestCase:



      class MyCase(unittest.TestCase):
      
    def setUp(self):
      
        self.solution1 = Solution()
      
        self.solution2 = Solution2()
      

      
    def test_bfs1(self):
      
        numCourse = 2
      
        prerequirements =  [[1,0]] 
      
        check = self.solution1.findOrder(numCourse, prerequirements)
      
        logging.debug(f"{check}")
      
        answer = [0, 1] 
      
        self.assertEqual(check, answer)
      

      

      
    def test_bfs2(self):
      
        numCourse = 4
      
        prerequirements =  [[1,0],[2,0],[3,1],[3,2]]
      
        check = self.solution1.findOrder(numCourse, prerequirements)
      
        logging.debug(f"{check}")
      
        answer = [[0,1,2,3], [0,2,1,3]] 
      
        self.assertIn(check, answer)
      

      

      
    def test_bfs3(self):
      
        numCourse = 2
      
        prerequirements =  
      
        check = self.solution1.findOrder(numCourse, prerequirements)
      
        logging.debug(f"{check}")
      
        answer = [1,0]
      
        self.assertEqual(check, answer)
      

      

      
    def test_bfs4(self):
      
        numCourse = 2
      
        prerequirements =  [[0,1],[1,0]]
      
        check = self.solution1.findOrder(numCourse, prerequirements)
      
        logging.debug(f"{check}")
      
        answer = 
      
        self.assertEqual(check, answer)


      Get a low score




      Runtime: 56 ms, faster than 57.28% of Python3 online submissions for Course Schedule II.
      Memory Usage: 14 MB, less than 51.41% of Python3 online submissions for Course Schedule II.







      python performance algorithm programming-challenge graph







      share|improve this question











      $endgroup$




      I wrote a solution to Course Schedule II - LeetCode




      There are a total of n courses you have to take, labeled from 0 to n-1.



      Some courses may have prerequisites, for example to take course 0 you have to first take course 1, which is expressed as a pair: [0,1]



      Given the total number of courses and a list of prerequisite pairs, return the ordering of courses you should take to finish all courses.



      There may be multiple correct orders, you just need to return one of them. If it is impossible to finish all courses, return an empty array.



      Example 1:



      Input: 2, [[1,0]] 
      
Output: [0,1]
      
Explanation: There are a total of 2 courses to take. To take course 1 you should have finished


      Example 2:



      Input: 4, [[1,0],[2,0],[3,1],[3,2]]
      
Output: [0,1,2,3] or [0,2,1,3]
      
Explanation: 
      
There are a total of 4 courses to take. To take course 3 you should have finished both     
      
 courses 1 and 2. Both courses 1 and 2 should be taken after you finished course 0. 
      
  So one correct course order is [0,1,2,3]. Another correct ordering is [0,2,1,3] .


      Note:




      1. The input prerequisites is a graph represented by a list of edges, not adjacency matrices. Read more about how a graph is represented.

      2. You may assume that there are no duplicate edges in the input prerequisites.




      my solution



      class Solution:
      
    def findOrder(self,numCourses, prerequirements):
      
        """
      
        :type numCourse: int
      
        :type prerequirements: List[List[int]]
      
        :rtype:bool
      
        """
      
        #if not prerequirements: return True 
      
       # if numCourses == None and len(prerequirements) == 0: return True
      

      
        L = 
      

      
        in_degrees = [ 0 for _ in range(numCourses)] #index as node
      
        #graph = [] * numCourses
      
        graph = [ for _ in range(numCourses)]
      

      
        #Construct the graph 
      
        for u, v in prerequirements:
      
            graph[v].append(u) #index as node
      
            in_degrees[u] += 1 
      
        logging.debug(f"graph: {graph}")
      
        logging.debug(f"in_degrees {in_degrees}")
      
        #
      
        Q = [i for i in range(len(in_degrees)) if in_degrees[i]==0] #collect nodes without pre-edges
      
        logging.debug(f"Q: {Q}")
      

      
        while Q: #while Q is not empty 
      
            start = Q.pop()#remove a node from Q
      
            L.append(start) #add n to tail of L
      
            logging.debug(f"L: {L}")
      

      
            for v in graph[start]:#for each node v with a edge e 
      
                in_degrees[v] -= 1 #remove edge 
      
                if in_degrees[v] == 0:
      
                    Q.append(v)
      
        logging.debug(f"indegree: {in_degrees}")
      
        #check there exist a cycle
      
        for i in range(len(in_degrees)): #if graph has edge 
      
            if in_degrees[i] > 0: 
      
                return  
      
        logging.debug(f"L: {L}")
      
        return L


      TestCase:



      class MyCase(unittest.TestCase):
      
    def setUp(self):
      
        self.solution1 = Solution()
      
        self.solution2 = Solution2()
      

      
    def test_bfs1(self):
      
        numCourse = 2
      
        prerequirements =  [[1,0]] 
      
        check = self.solution1.findOrder(numCourse, prerequirements)
      
        logging.debug(f"{check}")
      
        answer = [0, 1] 
      
        self.assertEqual(check, answer)
      

      

      
    def test_bfs2(self):
      
        numCourse = 4
      
        prerequirements =  [[1,0],[2,0],[3,1],[3,2]]
      
        check = self.solution1.findOrder(numCourse, prerequirements)
      
        logging.debug(f"{check}")
      
        answer = [[0,1,2,3], [0,2,1,3]] 
      
        self.assertIn(check, answer)
      

      

      
    def test_bfs3(self):
      
        numCourse = 2
      
        prerequirements =  
      
        check = self.solution1.findOrder(numCourse, prerequirements)
      
        logging.debug(f"{check}")
      
        answer = [1,0]
      
        self.assertEqual(check, answer)
      

      

      
    def test_bfs4(self):
      
        numCourse = 2
      
        prerequirements =  [[0,1],[1,0]]
      
        check = self.solution1.findOrder(numCourse, prerequirements)
      
        logging.debug(f"{check}")
      
        answer = 
      
        self.assertEqual(check, answer)


      Get a low score




      Runtime: 56 ms, faster than 57.28% of Python3 online submissions for Course Schedule II.
      Memory Usage: 14 MB, less than 51.41% of Python3 online submissions for Course Schedule II.







      python performance algorithm programming-challenge graph




      python performance algorithm programming-challenge graph






      share|improve this question















      share|improve this question













      share|improve this question




      share|improve this question








      edited 27 mins ago









      200_success

      131k17156422




      131k17156422










      asked 38 mins ago









      AliceAlice

      2534




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          8-я гвардейская общевойсковая ордена Ленина армия Награды: Войска: РККА → Советская армия → СВ России Род войск: Формирование: 1943 Расформирование (преобразование): 1992 Предшественник: 62-я армия (1942—43) → 8-я гвардейская общевойсковая армия (1943—92) → 8-й гвардейский армейский корпус (1992—98) Боевой путь Изюм-Барвенковская операция Донбасская операция Запорожская операция Битва за Днепр Днепропетровская операция Березнеговато-Снигирёвская операция Одесская операция Люблин-Брестская операция Варшавско-Познанская операция Восточно-Померанская операция Берлинская наступательная операция У этого термина существуют и другие значения, см. 8-я армия. Фотография Гвардейского Красного Знамени (лицевая сторона) 8-й гвардейской армии , образца 1943 года. Фотография Гвардейского Красного Знамени (оборотная сторона) 8-й гвардейской армии , образца 1943 года. 8-я гвардейская общевойсковая ордена Ленина армия  — гвардейское фор...
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          Алькесар

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          Муниципалитет Алькесар Alquézar Герб 42°10′16″ с. ш. 0°01′27″ в. д. H G Я O L Страна Испания   Испания Автономное сообщество Арагон Провинция Уэска Комарка Сомонтано-де-Барбастро Алькальд Хосе Марияно Альтемир Ласкорс (ИСРП) История и география Площадь 32,36 км² Высота НУМ 660 м Часовой пояс UTC+1, летом UTC+2 Население Население 313 человек ( 2010 ) Плотность 9,92 чел./км² Этнохороним alquezarano/-a Цифровые идентификаторы Телефонный код +34 974 Почтовые индексы 22112 Автомобильный код HU alquezar.org   (исп.) Показать/скрыть карты Алькесар Алькесар Алькесар  Аудио, фото и видео на Викискладе Алькесар (исп.  Alquézar ) — муниципалитет в Испании, входит в провинцию Уэска, в составе автономного сообщества Арагон. Муниципалитет находится в составе района (комарки) Сомонтано-де-Барбастро. Занимает площадь 32,36 км². Население — 321 челове...
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