链表由一系列不必在内存中相连的结构构成,这些对象按线性顺序排序。每个结构含有表元素和指向后继元素的指针。最后一个单元的指针指向NULL。为了方便链表的删除与插入操作,可以为链表添加一个表头。
删除操作可以通过修改一个指针来实现。
插入操作需要执行两次指针调整。
1. 单向链表的实现
1.1 Node实现
每个Node分为两部分。一部分含有链表的元素,可以称为数据域;另一部分为一指针,指向下一个Node。
class Node(): __slots__=['_item','_next'] #限定Node实例的属性 def __init__(self,item): self._item=item self._next=None #Node的指针部分默认指向None def getItem(self): return self._item def getNext(self): return self._next def setItem(self,newitem): self._item=newitem def setNext(self,newnext): self._next=newnext
1.2 SinglelinkedList的实现
class SingleLinkedList(): def __init__(self): self._head=None #初始化链表为空表 self._size=0
1.3 检测链表是否为空
def isEmpty(self): return self._head==None
1.4 add在链表前端添加元素
def add(self,item): temp=Node(item) temp.setNext(self._head) self._head=temp
1.5 append在链表尾部添加元素
def append(self,item): temp=Node(item) if self.isEmpty(): self._head=temp #若为空表,将添加的元素设为第一个元素 else: current=self._head while current.getNext()!=None: current=current.getNext() #遍历链表 current.setNext(temp) #此时current为链表最后的元素
1.6 search检索元素是否在链表中
def search(self,item): current=self._head founditem=False while current!=None and not founditem: if current.getItem()==item: founditem=True else: current=current.getNext() return founditem
1.7 index索引元素在链表中的位置
def index(self,item): current=self._head count=0 found=None while current!=None and not found: count+=1 if current.getItem()==item: found=True else: current=current.getNext() if found: return count else: raise ValueError('%s is not in linkedlist'%item)
1.8 remove删除链表中的某项元素
def remove(self,item): current=self._head pre=None while current!=None: if current.getItem()==item: if not pre: self._head=current.getNext() else: pre.setNext(current.getNext()) break else: pre=current current=current.getNext()
1.9 insert链表中插入元素
def insert(self,pos,item): if pos<=1: self.add(item) elif pos>self.size(): self.append(item) else: temp=Node(item) count=1 pre=None current=self._head while count<pos: count+=1 pre=current current=current.getNext() pre.setNext(temp) temp.setNext(current)
全部代码
class Node: __slots__ = ['_item', '_next'] def __init__(self, item): self._item = item self._next = None def getItem(self): return self._item def getNext(self): return self._next def setItem(self, newitem): self._item = newitem def setNext(self, newnext): self._next = newnext class SingleLinkedList: def __init__(self): self._head = None # 初始化为空链表 def isEmpty(self): return self._head == None def size(self): current = self._head count = 0 while current != None: count += 1 current = current.getNext() return count def travel(self): current = self._head while current != None: print(current.getItem(),end=' ') current = current.getNext() print() def add(self, item): temp = Node(item) temp.setNext(self._head) self._head = temp def append(self, item): temp = Node(item) if self.isEmpty(): self._head = temp # 若为空表,将添加的元素设为第一个元素 else: current = self._head while current.getNext() != None: current = current.getNext() # 遍历链表 current.setNext(temp) # 此时current为链表最后的元素 def search(self, item): current = self._head founditem = False while current != None and not founditem: if current.getItem() == item: founditem = True else: current = current.getNext() return founditem def index(self, item): current = self._head count = 0 found = None while current != None and not found: count += 1 if current.getItem() == item: found = True else: current = current.getNext() if found: return count else: raise ValueError('%s is not in linkedlist' % item) def remove(self, item): current = self._head pre = None while current != None: if current.getItem() == item: if not pre: self._head = current.getNext() else: pre.setNext(current.getNext()) break else: pre = current current = current.getNext() def insert(self, pos, item): if pos <= 1: self.add(item) elif pos > self.size(): self.append(item) else: temp = Node(item) count = 1 pre = None current = self._head while count < pos: count += 1 pre = current current = current.getNext() pre.setNext(temp) temp.setNext(current) if __name__ == '__main__': a = SingleLinkedList() for i in range(1, 10): a.append(i) print(a.size()) a.travel() print(a.search(6)) print(a.index(5)) a.remove(4) a.travel() a.insert(4, 100) a.travel()
输出:
9
1 2 3 4 5 6 7 8 9
True
5
1 2 3 5 6 7 8 9
1 2 3 100 5 6 7 8 9