Makefile

@@ -21,7 +21,11 @@ OBJ_EXT = .o
 
 # 定义源文件列表
 SRC_FILES = \
-    heap.c \
+    array_queue.c \
+    array_stack.c \
+    linked_list_stack.c \
+    linked_list.c \
+    sq_list.c \
     main.c
 
 # 使用正则表达式替换源文件后缀为.o，生成目标文件列表

Project2.vcxproj

@@ -21,7 +21,7 @@
   <ItemGroup>
     <ClCompile Include="array_queue.c" />
     <ClCompile Include="array_stack.c" />
-    <ClCompile Include="heap.c" />
+    <ClCompile Include="binary_tree.c" />
     <ClCompile Include="linked_list.c" />
     <ClCompile Include="linked_list_stack.c" />
     <ClCompile Include="linked_queue.c" />
@@ -31,7 +31,7 @@
   <ItemGroup>
     <ClInclude Include="array_queue.h" />
     <ClInclude Include="array_stack.h" />
-    <ClInclude Include="heap.h" />
+    <ClInclude Include="binary_tree.h" />
     <ClInclude Include="linked_list.h" />
     <ClInclude Include="linked_list_stack.h" />
     <ClInclude Include="linked_queue.h" />

Project2.vcxproj.filters

@@ -36,7 +36,7 @@
     <ClCompile Include="linked_queue.c">
       <Filter>源文件</Filter>
     </ClCompile>
-    <ClCompile Include="heap.c">
+    <ClCompile Include="binary_tree.c">
       <Filter>源文件</Filter>
     </ClCompile>
   </ItemGroup>
@@ -59,7 +59,7 @@
     <ClInclude Include="linked_queue.h">
       <Filter>头文件</Filter>
     </ClInclude>
-    <ClInclude Include="heap.h">
+    <ClInclude Include="binary_tree.h">
       <Filter>头文件</Filter>
     </ClInclude>
   </ItemGroup>

array_queue.c

@@ -1,18 +1,24 @@
 #include <stdio.h>
 #include <stdlib.h>
-#include <string.h> // 添加此行以确保 memset 函数可用
 #include "array_queue.h"
 
+/*@-------------
+   # 设计思路更新(原版漏洞太多):
+    设计圆环式队列,当rear == size时,循环到数组的[0]位,当然这样的队列仍然遵循`先进先出原则`
+   ## 实现思路:
+    通过取模运算,使得rear和front都在数组的[0,size-1]范围内,这样就能实现循环队列的功能.
+  # 有点解析:
+     在传统的队列中，当队尾到达队列的末尾时，即使队列前面还有空闲空间，也无法继续入队，导致空间浪费。而环形队列通过取模运算，\n
+     使得队尾指针可以在到达队列末尾后，从头开始继续使用队列的空闲空间，从而提高了空间的利用率。
+@-------------*/
+
 
 // 初始化队列
 array_queue *init_array_queue()
 {
     array_queue *q = (array_queue *)malloc(sizeof(array_queue));
     if (q == NULL)
-   {
-       printf("error: malloc failed[From init_queue]");
-       return NULL;
-   }
+    {printf("error: malloc failed[From init_queue]"); return NULL;}
     memset(q,0,sizeof(array_queue));
     q->front = 0;
     q->rear = 0;
@@ -29,9 +35,7 @@ int empty_array_queue(array_queue* q)
         return 0;
 }
 
-
-
-// 判满
+// 判断满
 int full_array_queue(array_queue *q)
 {
     if (q->size == MAX_QUEUE)
@@ -44,10 +48,7 @@ int full_array_queue(array_queue *q)
 void push_array_queue(array_queue *q, elem_type value)
 {
     if (full_array_queue(q))
-   {
-       printf("error: queue is full[From push_queue]");
-       return;
-   }
+        {printf("error: queue is full[From push_queue]"); return;}
     q->data[q->rear] = value;
     q->rear = (q->front + q->size + 1) % MAX_QUEUE;
     q->size++;
@@ -57,10 +58,7 @@ void push_array_queue(array_queue *q, elem_type value)
 elem_type pop_array_queue(array_queue *q)
 {
     if (empty_array_queue(q)) 
-   {
-       printf("error: queue is empty[From pop_queue]");
-       return -1;
-   }
+        {printf("error: queue is empty[From pop_queue]"); return -1;}
     elem_type value = q->data[q->front];
     q->front = (q->front + 1) % MAX_QUEUE;
     q->size--;
@@ -84,3 +82,8 @@ void print_array_queue(array_queue *q)
             j++;
         }
 }
+
+
+// void return def => fuck shit 
+// if for while malloc def sleep pause NULL 
+// #include $time_noon 

heap.c

@@ -1,94 +0,0 @@
-#include <stdio.h>
-#include <string.h>
-#include <malloc.h>
-#include "heap.h"
-
-void heap_swap(heap *tree,int x,int y)
-{
-    elem_t tt = tree->data[x];
-    tree->data[x] = tree->data[y];
-    tree->data[y] = tt;
-}
-
-heap* heap_init()
-{
-    heap *tree = (heap *)malloc(sizeof(heap));
-    memset(tree,0,sizeof(heap));
-    return tree;
-}
-
-int heap_get_right(heap *tree,int i)
-{
-    return 2 * i + 2;
-}
-
-int heap_get_left(heap *tree,int i)
-{
-   return 2 * i + 1;
-}
-
-
-int heap_get_parent(heap *tree,int i)
-{
-    return (i - 1)/2;
-}
-
-void heap_push(heap *tree,int val)
-{
-    if (tree->size == MAX_S-1)
-        {
-            printf("heap is full\n");
-            return;
-        }
-    tree->data[tree->size] = val;
-    int flog_i = tree->size;
-    while(1)
-    {
-       int flog_p = heap_get_parent(tree,flog_i);
-       if (tree->data[flog_i] <= tree->data[flog_p] || flog_p<0)
-       {
-        break;
-       }
-       heap_swap(tree,flog_i,flog_p);
-       flog_i = flog_p;
-    }
-    tree->size++;
-}
-
-
-void heap_print(heap* tree,int root)
-{
-    if (tree->size <= 0) return;
-    
-    int* queue = (int*)malloc(tree->size * sizeof(int));
-    int front = 0;
-    int rear = 1;
-    int count = 1;
-    queue[0] = root;
-    printf("[%d]\n", tree->data[root]);
-
-    while (front < rear && count < tree->size)
-    {
-        int level_size = rear - front;
-        for (int i = 0; i < level_size && count < tree->size; i++)
-        {
-            int current = queue[front++];
-            int left = heap_get_left(tree, current);
-            int right = heap_get_right(tree, current);
-
-            if (left < tree->size) {
-                printf("[%d]", tree->data[left]);
-                queue[rear++] = left;
-                count++;
-            }
-            if (right < tree->size) {
-                printf("[%d]", tree->data[right]);
-                queue[rear++] = right;
-                count++;
-            }
-        }
-        printf("\n");
-    }
-    free(queue);
-}
- 

heap.h

@@ -1,17 +0,0 @@
-#ifndef HEAP_H
-#define HEAP_H
-#define MAX_S 256
-#define elem_t int
-typedef struct heap {
-  elem_t data[MAX_S];
-  int size;
-}heap;
-void heap_swap(heap *tree,int x,int y);
-int heap_get_left(heap *tree,int i);
-int heap_get_right(heap *tree,int i);
-int heap_get_parent(heap *tree,int i);
-heap* heap_init();
-void heap_push(heap *tree,elem_t val);
-elem_t heap_pop(heap *tree);
-void heap_print(heap *tree,int root);
-#endif 

main.c

@@ -1,8 +1,7 @@
-#define _CRT_SECURE_NO_WARNINGS
 #include <stdio.h>
 #include <stdlib.h>
 #include <string.h>
-#include "heap.h"
+#include "binary_tree.h"
 int main(void) {
 
   // sq_list* L = init_sq_list();
@@ -102,34 +101,20 @@ int main(void) {
     pop_link_queue(q);
     print_link_queue(q);*/
   
-  //tree_node *root = init_binary_tree(1);
-  //tree_node *node1 = init_binary_tree(2);
-  //tree_node *node2 = init_binary_tree(3);
-  //tree_node *node3 = init_binary_tree(4);
-  //tree_node *node4 = init_binary_tree(5);
-  //tree_node *node5 = init_binary_tree(6);
-  //tree_node *node6 = init_binary_tree(7);
-  //root->left = node1;
-  //root->right = node2;
-  //node1->left = node3;
-  //node1->right = node4;
-  //node2->left = node5;
-  //node2->right = node6;
-  //traverse_tree(root);
-
-
-
-// heap
-heap* tree = heap_init();
-int flog_s = 0;
-scanf("%d", &flog_s);
-for (int i = 1; i <= flog_s; i++)
-{
-    heap_push(tree, i);
-}
-heap_print(tree, 0);
-
-
+  tree_node *root = init_binary_tree(1);
+  tree_node *node1 = init_binary_tree(2);
+  tree_node *node2 = init_binary_tree(3);
+  tree_node *node3 = init_binary_tree(4);
+  tree_node *node4 = init_binary_tree(5);
+  tree_node *node5 = init_binary_tree(6);
+  tree_node *node6 = init_binary_tree(7);
+  root->left = node1;
+  root->right = node2;
+  node1->left = node3;
+  node1->right = node4;
+  node2->left = node5;
+  node2->right = node6;
+  traverse_tree_dfs(root);
   printf("Hello World!\n");
   system("pause");
   return 0;