我想用字母构建一个图表,但有些不对劲。
我的代码:
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
struct AdjListNode
{
char *dest;
struct AdjListNode* next;
};
struct AdjList
{
struct AdjListNode *head; // pointer to head node of list
};
struct Graph
{
int V;
struct AdjList* array;
};
struct AdjListNode* newAdjListNode(char *dest){
struct AdjListNode* newNode =
(struct AdjListNode*) malloc(sizeof(struct AdjListNode));
newNode->dest = dest;
newNode->next = NULL;
return newNode;}
struct Graph* createGraph(int V){
struct Graph* graph = (struct Graph*) malloc(sizeof(struct Graph));
graph->V = V;
// Create an array of adjacency lists. Size of array will be V
graph->array = (struct AdjList*) malloc(V * sizeof(struct AdjList));
// Initialize each adjacency list as empty by making head as NULL
int i;
for (i = 0; i < V; ++i)
graph->array[i].head = NULL;
return graph;}
void addEdge(struct Graph* graph, char *src, char *dest){
// Add an edge from src to dest. A new node is added to the adjacency
// list of src. The node is added at the beginin
struct AdjListNode* newNode = newAdjListNode(dest);
newNode->next = graph->array[0].head;
graph->array[0].head = newNode;
// Since graph is undirected, add an edge from dest to src also
newNode = newAdjListNode(src);
newNode->next = graph->array[1].head;
graph->array[1].head = newNode;}
void printGraph(struct Graph* graph){
int v;
for (v = 0; v < graph->V; ++v)
{
struct AdjListNode* pCrawl = graph->array[v].head;
printf("\n Adjacency list of vertex %d\n head ", v);
while (pCrawl)
{
printf("-> %s", pCrawl->dest);
pCrawl = pCrawl->next;
}
printf("\n");}}
int main(){
// create the graph given in above fugure
int V = 5;
struct Graph* graph = createGraph(V);
addEdge(graph, "a", "b");
addEdge(graph, "a", "e");
addEdge(graph, "b", "c");
addEdge(graph, "b", "d" );
addEdge(graph, "b", "e");
addEdge(graph, "c", "d");
addEdge(graph, "d", "e");
// print the adjacency list representation of the above graph
printGraph(graph);
return 0;}
我的输出是这样的:
E-&GT; D-&GT; E-&GT; D-&GT; A-&GT; B-&GT; C-&GT; B-&GT; A-&GT;
我的输出应该是:
a->b->e
b->a->c->d->e
c->b->d
d->b->c->e
e->a->b->d
请帮帮我。我又问了一个不同的问题。我想要这个输出。我想用字母
创建adjList答案 0 :(得分:0)
这是一个使用线性但有效的2D数组的实现,因为它的大小是已知的,但这只是为了保持一些相似性,否则当V已知时我会声明#define V 5和静态二维数组int graph[V][V]。除了简化之外,我将char*字符串参数更改为int,因为它们代表单个字符。我还将V size参数传递给函数。
#include <stdio.h>
#include <stdlib.h>
#include <ctype.h>
void printGraph(int *graph, int V) {
int v, n;
for (v=0; v<V; ++v) {
printf ("%c", v + 'a');
for (n=0; n<V; ++n) {
if (graph [v * V + n])
printf("->%c", n + 'a');
}
printf("\n");
}
}
void addEdge(int *graph, int V, int src, int dest) {
src = tolower(src) - 'a';
dest = tolower(dest) - 'a';
if (src < 0 || src >= V || dest < 0 || dest >= V || src == dest)
return; // error
graph [src * V + dest] = 1;
graph [dest * V + src ] = 1;
}
int *createGraph (int V) {
return calloc (V * V, sizeof(int));
}
int main(){
int V = 5;
int *graph;
if (graph = createGraph(V)) {
addEdge(graph, V, 'a', 'b'); // changed from string to char
addEdge(graph, V, 'a', 'e');
addEdge(graph, V, 'b', 'c');
addEdge(graph, V, 'b', 'd');
addEdge(graph, V, 'b', 'e');
addEdge(graph, V, 'c', 'd');
addEdge(graph, V, 'd', 'e');
printGraph(graph, V);
free (graph);
}
return 0;
}
节目输出
a->b->e
b->a->c->d->e
c->b->d
d->b->c->e
e->a->b->d
您使用“a”到“e”标记顶点。在我的回答中,我将这些更改为'a'thru'e'并使用这些标签来索引5x5数组并操纵这些顶点标签,使它们在0到4的范围内。我使用tolower()来处理标签使用“A”到“E”,但由于没有使用它们,因此没有必要。然后我减去'a'以将标签范围从0开始。作为int,值'a'为97,因此您可以看到'a' - 'a' = 0和'e' - 'a' = 4。
答案 1 :(得分:0)
我评论了改变的部分并解释了原因。我没有更改您的代码,因此您可以轻松理解。
试试这个:
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
struct AdjListNode
{
char *dest;
struct AdjListNode* next;
};
struct AdjList
{
struct AdjListNode *head; // pointer to head node of list
};
struct Graph
{
int V;
struct AdjList* array;
};
struct AdjListNode* newAdjListNode(char *dest)
{
struct AdjListNode* newNode = (struct AdjListNode*) malloc(sizeof(struct AdjListNode));
newNode->dest = dest;
newNode->next = NULL;
return newNode;
}
struct Graph* createGraph(int V)
{
struct Graph* graph = (struct Graph*) malloc(sizeof(struct Graph));
graph->V = V;
// Create an array of adjacency lists. Size of array will be V
graph->array = (struct AdjList*) malloc(V * sizeof(struct AdjList));
// Initialize each adjacency list as empty by making head as NULL
int i;
for (i = 0; i < V; ++i)
graph->array[i].head = NULL;
return graph;
}
void addEdge(struct Graph* graph, char *src, char *dest)
{
// Add an edge from src to dest. A new node is added to the adjacency
// list of src. The node is added at the beginin
struct AdjListNode* newNode = newAdjListNode(dest);
//***Changed. you need to add edge in src node. But you were always adding in 0
newNode->next = graph->array[src[0]-'a'].head;
graph->array[src[0]-'a'].head = newNode;
// Since graph is undirected, add an edge from dest to src also
newNode = newAdjListNode(src);
//***Changed. you need to add edge in dest node. But you were always adding in 1
newNode->next = graph->array[dest[0]-'a'].head;
graph->array[dest[0]-'a'].head = newNode;
}
void printGraph(struct Graph* graph)
{
int v;
for (v = 0; v < graph->V; ++v)
{
struct AdjListNode* pCrawl = graph->array[v].head;
printf("\n Adjacency list of vertex %d\n head %c", v, v + 'a');
while (pCrawl)
{
printf("-> %s", pCrawl->dest);
pCrawl = pCrawl->next;
}
printf("\n");
}
}
int main()
{
// create the graph given in above fugure
int V = 5;
struct Graph* graph = createGraph(V);
addEdge(graph, "a", "b");
addEdge(graph, "a", "e");
addEdge(graph, "b", "c");
addEdge(graph, "b", "d" );
addEdge(graph, "b", "e");
addEdge(graph, "c", "d");
addEdge(graph, "d", "e");
// print the adjacency list representation of the above graph
printGraph(graph);
return 0;
}
它会给你输出:
a-> e-> b
b-> e-> d-> c-> a
c-> d-> b
d-> e-> c-> b
e-> d-> b-> a
如果你想获得完全相同的输出:
a-> b-> e
b-> a-> c-> d-> e
c-> b-> d
d-> b-> c-> e
e-> a-> b-> d
只需按照以下方式更改addEdge()函数:
void addEdge(struct Graph* graph, char *src, char *dest)
{
// Add an edge from src to dest. A new node is added to the adjacency
// list of src. The node is added at the beginin
struct AdjListNode* newNode = newAdjListNode(dest);
//***Changed. you need to add adge in src node. But you were always adding in 0
struct AdjListNode* temp=graph->array[src[0]-'a'].head;
if(temp==NULL) // First element of the list
graph->array[src[0]-'a'].head=newNode;
else
{
while(temp->next!=NULL) // finding the last element of the list
temp=temp->next;
temp->next=newNode; // Adding current element to the last
}
// Since graph is undirected, add an edge from dest to src also
newNode = newAdjListNode(src);
//***Changed. you need to add adge in dest node. But you were always adding in 1
temp = graph->array[dest[0]-'a'].head;
if(temp==NULL) // First element of the list
graph->array[dest[0]-'a'].head=newNode;
else
{
while(temp->next!=NULL) // finding the last element of the list
temp=temp->next;
temp->next=newNode; // Adding current element to the last
}
}
第一个代码将在前面添加新边缘,第二个代码将在最后添加它 希望它有所帮助:)