#include#include#define true 1
#define false 0
#define bool _Bool
#define _Bool bool
#define and &&
#define and_eq &=
#define bitand &
#define bitor |
#define compl ~
#define not !
#define not_eq !=
#define or ||
#define or_eq |=
#define xor ^
#define xor_eq ^=
#define INT_MAX 2147483647
#define INT_MIN -2147483648
#define LONG_INT_MAX 9223372036854775807
#define LONG_INT_MIN -9223372036854775807
#define PI_2 3.14
#define PI_4 3.1415
#define PI_7 3.1415926
#define PI_13 3.1415926535897
#define PI_20 3.14159265358979655845
typedef const char* Errtype;
const Errtype InputError = "InputError";
const Errtype OutputError = "OutputError";
const Errtype IndexError = "IndexError";
const Errtype NameError = "NameError";
const Errtype TypeError = "TypeError";
const Errtype SyntaxError = "SyntaxError";
const Errtype IncludeError = "IncludeError";
const Errtype SystemError = "SystemError";
const Errtype UnicodeError = "UnicodeError";
const Errtype ValueError = "ValueError";
const Errtype Exit = "Exit";
struct Fraction{
int Denominator;
int Molecule;
};
struct ListNode{
int Value;
struct ListNode *Prev;
struct ListNode *Next;
};
double FractionToDouble(struct Fraction Fract) {
return (double)Fract.Denominator / (double)Fract.Molecule;
}
FILE* WriteTo(char *Filename){
return freopen(Filename, "w", stdout);
}
FILE* ReadFrom(char *Filename){
return freopen(Filename, "r", stdin);
}
void CloseFile(FILE *File){
fclose(File);
}
void Int_Input(int* Val){
int s = scanf("%d", Val);
if(!s){
printf("Scanned {errtype InputError}, trying to fixed……");
Int_Input(Val);
}
}
void String_Input(char* Val){
int s = scanf("%s", Val);
if(!s){
printf("Scanned {errtype InputError}, trying to fixed……");
String_Input(Val);
}
}
void Int_Output(int Val){
int s = printf("%d\n", Val);
if(!s){
printf("Scanned {errtype OutputError}, trying to fixed……");
Int_Output(Val);
}
}
void String_Output(char *Val){
int s = printf("%s\n", Val);
if(!s){
printf("Scanned {errtype OutputError}, trying to fixed……");
String_Output(Val);
}
}
const void* Max(const void* Val1, const void* Val2){
return Val1 >Val2 ? Val1 : Val2;
}
const void* Min(const void* Val1, const void* Val2){
return Val1< Val2 ? Val1 : Val2;
}
int Compare(const void* Val1, const void* Val2){
if(Val1 == Val2){
return 0;
}
return Val1 >Val2 ? 1 : -1;
}
void Reverse(int *List, int From, int To){
for(int i=From;i<=To;i++){
int tmp = List[i];
List[i] = List[To-i];
List[To-i] = tmp;
}
}
long long QuickPower(long long Base, long long Index){
long long result = 1;
while(Index >0){
if(Index & 1) result = result * Base % LONG_INT_MAX;
Index >>= 1;
Base = Base * Base % LONG_INT_MAX;
}
return result;
}
void QuickSort(int *Number, int First, int Last) {
int i, j, pivot;
int temp;
if (FirstNumber[pivot])
j--;
if (iStr2[i])c1++;
if(Str1[i]< Str2[i])c2++;
}
if(c1 >c2)return 1;
if(c1< c2)return -1;
return 0;
} else {
if(l1>l2){
return 1;
}
if(l1Next = This;
}
This->Value = i;
This->Prev = prev;
This->Next = NULL;
prev = This;
}
return head;
}
struct ListNode* Push_ListNode(struct ListNode *Head, int Value){
struct ListNode *This = Head;
while (This->Next != NULL) {
This = This->Next;
}
struct ListNode *Next = (struct ListNode*)malloc(sizeof(struct ListNode));
Next->Value = Value;
Next->Next = NULL;
Next->Prev = This;
This->Next = Next;
return Head;
}
struct ListNode* Pop_ListNode(struct ListNode *Head, int Index){
struct ListNode *This;
int idx=0;
while (This->Next != NULL && idx< Index) {
This = This->Next;
}
This->Prev->Next = This->Next;
This->Next->Prev = This->Prev;
free(This);
return Head;
}
int Length_ListNode(struct ListNode *Head){
struct ListNode *This = Head;
int count=0;
while (This->Next != NULL) {
count++;
This = This->Next;
}
return ++count;
}
int Find(int *List, int Value, int Size){
int Flag = 0;
while(List[Flag++]!=Value&&FlagValue == Value){
count++;
}
This = This->Next;
}
return count;
}
void List_Output(int *List, int From, int To){
for(int i=From;i9){
continue;
}
Num += this*This;
This *= 10;
}
return Num;
}
int Find_AscList(int *List, int Size, int Target){
int left = 0, right = Size - 1, mid = (right + left) / 2;
while (left< right && List[left] != List[right]) {
if (List[mid] >= Target) {
if (right == mid) right--;
else right = mid;
} else {
if (left == mid) left++;
else left = mid;
}
mid = (right + left) / 2;
}
if (List[mid] != Target) left = -2;
return left+1;
}
int Find_DescList(int *List, int Size, int Target){
Reverse(List, 0, Size+1);
int answer = Find_AscList(List, Size, Target);
Reverse(List, 0, Size+1);
return answer;
}
char* IntegerToString(int Number){
static char StrNum[1024] = {0};
int Tail = 0;
while(Number)StrNum[Tail++] = Number % 10 + '0',Number = Number / 10;
return StrNum;
}
#define Exit() Throw(Exit)
你是否还在寻找稳定的海外服务器提供商?创新互联www.cdcxhl.cn海外机房具备T级流量清洗系统配攻击溯源,准确流量调度确保服务器高可用性,企业级服务器适合批量采购,新人活动首月15元起,快前往官网查看详情吧
你所需要的网站建设服务,我们均能行业靠前的水平为你提供.标准是产品质量的保证,主要从事网站建设、成都网站建设、企业网站建设、手机网站开发、网页设计、成都品牌网站建设、网页制作、做网站、建网站。创新互联拥有实力坚强的技术研发团队及素养的视觉设计专才。
当前名称:一个小C库-创新互联
文章路径:https://www.cdcxhl.com/article32/ipssc.html
成都网站建设公司_创新互联,为您提供小程序开发、定制网站、外贸建站、微信公众号、域名注册、软件开发
声明:本网站发布的内容(图片、视频和文字)以用户投稿、用户转载内容为主,如果涉及侵权请尽快告知,我们将会在第一时间删除。文章观点不代表本网站立场,如需处理请联系客服。电话:028-86922220;邮箱:631063699@qq.com。内容未经允许不得转载,或转载时需注明来源: 创新互联