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数据结构之-链表、栈的实现及题目

时间:2017-08-19 22:09:36      阅读:386      评论:0      收藏:0      [点我收藏+]

GitHub :  https://github.com/hanxloop/c_dev_library

前几天码了链表和栈,栈有数组实现和链表实现,自己跑了书上的示例,能跑的通,开心,接口、实现和测试分离,实现后我会补充一些使用这些代码完成的练习题目。

0.错误提示

该文件打印程序运行时出错信息。

技术分享
1 #include <stdio.h>
2 #include <stdlib.h>
3 
4 #define Error( Str )        FatalError( Str )
5 #define FatalError( Str )   fprintf( stderr, "%s\n", Str ), exit( 1 )
fatal.h

1. 链表

技术分享
  1 /*list.c*/
  2 
  3 #include "list.h"
  4 #include <stdlib.h>
  5 #include "fatal.h"
  6 
  7 struct Node  {
  8   ElementType Element;
  9   Position    Next;
 10 };
 11 
 12 List MakeEmpty( List L )  {
 13   if( L != NULL )
 14     DeleteList( L );
 15   
 16   L = malloc( sizeof( struct Node ) );
 17   if( L == NULL )    FatalError( "Out of memory!" );
 18   L->Next = NULL;
 19   
 20   return L;
 21 }
 22 
 23 int IsEmpty( List L )  {
 24   return L->Next == NULL;
 25 }
 26 
 27 int IsLast( Position P, List L )  {
 28   return P->Next == NULL;
 29 }
 30 
 31 Position Find( ElementType X, List L )  {
 32   Position P;
 33   P = L->Next;
 34   
 35   while( P != NULL && P->Element != X )
 36     P=Advance(P);          //P = P->Next; OK
 37   
 38   return P;
 39 }
 40 
 41 
 42 
 43 
 44 void Delete( ElementType X, List L )  {
 45   Position P, TmpCell;
 46 
 47   P = FindPrevious( X, L );
 48 
 49   if( !IsLast( P, L ) )  {                   
 50     TmpCell = P->Next;
 51     P->Next = TmpCell->Next;  
 52     free( TmpCell );
 53   }
 54 }
 55 
 56 Position FindPrevious( ElementType X, List L )
 57 {
 58   Position P;
 59   P = L;
 60 
 61   while( P->Next != NULL && P->Next->Element != X )
 62     P = P->Next;
 63 
 64   return P;
 65 }
 66 
 67 
 68 void Insert( ElementType X, List L, Position P )  {
 69   Position TmpCell;
 70 
 71   TmpCell = malloc( sizeof( struct Node ) );
 72   if( TmpCell == NULL )
 73     FatalError( "Out of space!!!" );
 74 
 75   TmpCell->Element = X;
 76   TmpCell->Next = P->Next;
 77   P->Next = TmpCell;
 78 }
 79 
 80 
 81 
 82 
 83 void DeleteList( List L ) {
 84   Position P, Tmp;
 85   P = L->Next; 
 86   L->Next = NULL;
 87   
 88   while( P != NULL ) {
 89     Tmp = P->Next;  
 90     //Tmp = Tmp->Next;    OK
 91     free( P );
 92     P = Tmp;
 93   }
 94 }
 95 
 96 
 97 Position Header( List L )  {
 98   return L;
 99 }
100 
101 Position First( List L )  {
102   return L->Next;
103 }
104 
105 Position Advance( Position P )  {
106   return P->Next;
107 }
108 
109 ElementType Retrieve( Position P )  {
110   return P->Element;
111 }
list.h
技术分享
  1 /*list.c*/
  2 
  3 #include "list.h"
  4 #include <stdlib.h>
  5 #include "fatal.h"
  6 
  7 struct Node  {
  8   ElementType Element;
  9   Position    Next;
 10 };
 11 
 12 List MakeEmpty( List L )  {
 13   if( L != NULL )
 14     DeleteList( L );
 15   
 16   L = malloc( sizeof( struct Node ) );
 17   if( L == NULL )    FatalError( "Out of memory!" );
 18   L->Next = NULL;
 19   
 20   return L;
 21 }
 22 
 23 int IsEmpty( List L )  {
 24   return L->Next == NULL;
 25 }
 26 
 27 int IsLast( Position P, List L )  {
 28   return P->Next == NULL;
 29 }
 30 
 31 Position Find( ElementType X, List L )  {
 32   Position P;
 33   P = L->Next;
 34   
 35   while( P != NULL && P->Element != X )
 36     P=Advance(P);          //P = P->Next; OK
 37   
 38   return P;
 39 }
 40 
 41 
 42 
 43 
 44 void Delete( ElementType X, List L )  {
 45   Position P, TmpCell;
 46 
 47   P = FindPrevious( X, L );
 48 
 49   if( !IsLast( P, L ) )  {                   
 50     TmpCell = P->Next;
 51     P->Next = TmpCell->Next;  
 52     free( TmpCell );
 53   }
 54 }
 55 
 56 Position FindPrevious( ElementType X, List L )
 57 {
 58   Position P;
 59   P = L;
 60 
 61   while( P->Next != NULL && P->Next->Element != X )
 62     P = P->Next;
 63 
 64   return P;
 65 }
 66 
 67 
 68 void Insert( ElementType X, List L, Position P )  {
 69   Position TmpCell;
 70 
 71   TmpCell = malloc( sizeof( struct Node ) );
 72   if( TmpCell == NULL )
 73     FatalError( "Out of space!!!" );
 74 
 75   TmpCell->Element = X;
 76   TmpCell->Next = P->Next;
 77   P->Next = TmpCell;
 78 }
 79 
 80 
 81 
 82 
 83 void DeleteList( List L ) {
 84   Position P, Tmp;
 85   P = L->Next; 
 86   L->Next = NULL;
 87   
 88   while( P != NULL ) {
 89     Tmp = P->Next;  
 90     //Tmp = Tmp->Next;    OK
 91     free( P );
 92     P = Tmp;
 93   }
 94 }
 95 
 96 
 97 Position Header( List L )  {
 98   return L;
 99 }
100 
101 Position First( List L )  {
102   return L->Next;
103 }
104 
105 Position Advance( Position P )  {
106   return P->Next;
107 }
108 
109 ElementType Retrieve( Position P )  {
110   return P->Element;
111 }
list.c

 技术分享testlist.c

2. 链栈

技术分享
 1 /* stackli.h */
 2 
 3 #ifndef STACK_H
 4 #define STACK_H
 5 
 6 struct Node;
 7 typedef int ElementType;
 8 typedef struct Node *PtrToNode;
 9 typedef PtrToNode Stack;
10 
11 int IsEmpty( Stack S );
12 Stack CreateStack( void );
13 void DisposeStack( Stack S );
14 void MakeEmpty( Stack S );
15 void Push( ElementType X, Stack S );
16 ElementType Top( Stack S );
17 void Pop( Stack S );
18 
19 #endif
stackli.h
技术分享
 1 /* stackli.c */
 2 
 3 #include "stackli.h"
 4 #include "fatal.h"
 5 #include <stdlib.h>
 6 
 7 struct Node  {
 8   ElementType Element;
 9   PtrToNode   Next;
10 };
11 
12 
13 int IsEmpty( Stack S )  {
14   return S->Next == NULL;
15 }
16 
17 
18 
19 Stack  CreateStack( void )  {
20   Stack S;
21 
22   S = malloc( sizeof( struct Node ) );
23   if( S == NULL )
24     FatalError( "Out of space!!!" );
25   S->Next = NULL;
26   MakeEmpty( S );
27   return S;
28 }
29 
30 void  MakeEmpty( Stack S )  {
31   if( S == NULL )
32     Error( "Must use CreateStack first" );
33   else
34     while( !IsEmpty( S ) )
35       Pop( S );
36 }
37 
38 
39 void  DisposeStack( Stack S )  {
40   MakeEmpty( S );
41   free( S );
42 }
43 
44 
45 void  Push( ElementType X, Stack S )  {
46   PtrToNode TmpCell;
47 
48   TmpCell = malloc( sizeof( struct Node ) );
49   if( TmpCell == NULL )
50     FatalError( "Out of space!!!" );
51   else   {
52       TmpCell->Element = X;
53       TmpCell->Next = S->Next;
54       S->Next = TmpCell;
55     }
56 }
57 
58 
59 
60 ElementType  Top( Stack S )  {
61   if( !IsEmpty( S ) )
62     return S->Next->Element;
63   Error( "Empty stack" );
64   return 0;  
65 }
66 
67 
68 void  Pop( Stack S )  {
69   PtrToNode FirstCell;
70 
71   if( IsEmpty( S ) )
72     Error( "Empty stack" );
73   else {
74       FirstCell = S->Next;
75       S->Next = FirstCell->Next;
76       free( FirstCell );
77     }
78 }
stackli.c
技术分享
 1 /* teststkl.c */
 2 
 3 #include <stdio.h>
 4 #include "stackli.c"
 5 
 6 int main( )
 7 {
 8     Stack S;
 9     int i;
10 
11     S = CreateStack( );
12     for( i = 0; i < 10; i++ )
13         Push( i, S );
14 
15     while( !IsEmpty( S ) )
16     {
17         printf( "%d\n", Top( S ) );
18         Pop( S );
19     }
20 
21     DisposeStack( S );
22     return 0;
23 }
teststackli.c

3. 数组栈

技术分享
 1 /* stackar.h */
 2 
 3 #ifndef _Stack_h
 4 #define _Stack_h
 5 
 6 typedef int ElementType;
 7 struct StackRecord;
 8 typedef struct StackRecord *Stack;
 9 
10 int IsEmpty( Stack S );
11 int IsFull( Stack S );
12 Stack CreateStack( int MaxElements );
13 void DisposeStack( Stack *S );
14 void MakeEmpty( Stack S );
15 void Push( ElementType X, Stack S );
16 ElementType Top( Stack S );
17 void Pop( Stack S );
18 ElementType TopAndPop( Stack S );
19 
20 #endif 
stackar.h
技术分享
 1 /* stackar.c */
 2 
 3 #include "stackar.h"
 4 #include "fatal.h"
 5 #include <stdlib.h>
 6 
 7 #define EmptyTOS ( -1 )
 8 #define MinStackSize ( 5 )
 9 
10 struct StackRecord   {
11   int Capacity;
12   int TopOfStack;
13   ElementType *Array;
14 };
15 
16 
17 int IsEmpty( Stack S )  {
18   return S->TopOfStack == EmptyTOS;
19 }
20 
21 
22 int IsFull( Stack S )  {
23   return S->TopOfStack == S->Capacity - 1;
24 }
25 
26 
27 Stack  CreateStack ( int MaxElements )  {
28   Stack S;
29 
30   if( MaxElements < MinStackSize )
31     Error( "Stack size is too small" );
32 
33   S = malloc( sizeof( struct StackRecord ) );
34   if( S == NULL )
35     FatalError( "Out of space!!!" );
36 
37   S->Array = malloc( sizeof( ElementType ) * MaxElements );
38   if( S->Array == NULL )
39     FatalError( "Out of space!!!" );
40   S->Capacity = MaxElements;
41   MakeEmpty( S );
42 
43   return S;
44 }
45 
46 
47 void  MakeEmpty( Stack S )  {
48   S->TopOfStack = EmptyTOS;
49 }
50 
51 void  DisposeStack( Stack *S )  {
52   if( S != NULL )   { 
53     free( (*S)->Array );
54     free( *S );
55   }
56 }
57 
58 
59 void  Push( ElementType X, Stack S )  {
60   if( IsFull( S ) )
61     Error( "Full stack" );
62   else
63     S->Array[ ++S->TopOfStack ] = X;
64 }
65 
66 
67 
68 ElementType  Top( Stack S )  {
69   if( !IsEmpty( S ) )
70     return S->Array[ S->TopOfStack ];
71   else {
72     Error( "Empty stack" );
73     return 0;  /* Return value used to avoid warning */
74   }
75 }
76 
77 void  Pop( Stack S )  {
78   if( IsEmpty( S ) )
79     Error( "Empty stack" );
80   else
81     S->TopOfStack--;
82 }
83 
84 
85 ElementType  TopAndPop( Stack S )  {
86   if( !IsEmpty( S ) )
87     return S->Array[ S->TopOfStack-- ];
88   Error( "Empty stack" );
89   return 0; 
90 }
stackar.c
技术分享
 1 /*teststka.c  */
 2 
 3 #include <stdio.h>
 4 #include "stackar.c"
 5 
 6 int main()  {
 7   Stack S;
 8   int i;
 9 
10   S = CreateStack( 12 );
11   for( i = 0; i < 10; i++ )
12     Push( i, S );
13 
14   while( !IsEmpty( S ) )   {
15     printf( "%d\n", Top( S ) );
16     Pop( S );
17   }
18 
19   DisposeStack( &S );
20   return 0;
21 }
teststka.c

 

数据结构之-链表、栈的实现及题目

原文:http://www.cnblogs.com/hanxinle/p/7397891.html

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