Merge branch 'develop'

This commit is contained in:
Saturneic 2019-01-12 08:31:37 +08:00
commit 6e547ad6ff
100 changed files with 5472 additions and 4629 deletions

1
.gitignore vendored
View File

@ -7,3 +7,4 @@
/ZE-Standard-Libraries /ZE-Standard-Libraries
/ZE-Standard-Libraries.sln /ZE-Standard-Libraries.sln
/.vs /.vs
*.xcodeproj

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#include "communicate.h"
STD_BLOCKS *initStandardDBlocks(SID *p_sid, unsigned int type, unsigned long long data_size){
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p_stdb->sid = s_idToASCIIString(p_sid);
p_stdb->if_data = 0;
unsigned int blocks_num = (unsigned int)(data_size/sizeof(char));
p_stdb->blocks_num = blocks_num;
p_stdb->type = type;
p_stdb->buff = (char *)malloc(sizeof(char) * blocks_num);
return p_stdb;
}
int dataForStandardDBlock(STD_BLOCKS *p_stdb,void *data){
char *t_data = (char *)data;
/*unsigned int data_size = sizeof(data);*/
for(int i = 0; i < p_stdb->blocks_num; i++){
p_stdb->buff[i] = t_data[i];
}
p_stdb->if_data = 1;
return 0;
}
STD_CTN *initStandardDConnection(SID *f_sid, SID *s_sid){
STD_CTN *p_stdc = (STD_CTN *)malloc(sizeof(STD_CTN));
p_stdc->f_sid = s_idToASCIIString(f_sid);
p_stdc->s_sid = s_idToASCIIString(s_sid);
return p_stdc;
}
STD_DATA *initStandardData(unsigned int type){
STD_DATA *p_std = (STD_DATA *)malloc(sizeof(STD_DATA));
p_std->pd_blocklst = initList();
p_std->pd_ctnlst = initList();
p_std->lock = 0;
p_std->type = type;
p_std->s_id = getS_id(STANDARD_DATA, 1);
return p_std;
}
int standardDataAddBlock(STD_DATA *p_std, SID *p_sid ,unsigned int type, void *data, unsigned long long data_size){
if (p_std->lock) return -1;
STD_BLOCKS *p_stdb = initStandardDBlocks(p_sid, type,data_size);
dataForStandardDBlock(p_stdb, data);
insertInTail(p_std->pd_blocklst, nodeWithPointer(p_stdb));
return 0;
}
int standardDataAddConnection(STD_DATA *p_std, SID *f_sid, SID *s_sid){
if (p_std->lock) return -1;
STD_CTN *p_stdb = initStandardDConnection(f_sid, s_sid);
insertInTail(p_std->pd_ctnlst, nodeWithPointer(p_stdb));
return 0;
}
D_FILE *initDataFileForWrite(char *route){
D_FILE *p_dfile = (D_FILE *)malloc(sizeof(D_FILE));
p_dfile->fp = fopen(route, "wb");
p_dfile->pf_head = (F_HEAD *)malloc(sizeof(F_HEAD));
strcpy(p_dfile->pf_head->head_test,"ZESTDLIB_STDDFILE");
p_dfile->pf_head->data_num = 0;
p_dfile->pf_stdlst = initList();
return p_dfile;
}
D_FILE *initDataFileForRead(char *route){
D_FILE *p_dfile = (D_FILE *)malloc(sizeof(D_FILE));
p_dfile->fp = fopen(route, "rb");
p_dfile->pf_head = (F_HEAD *)malloc(sizeof(F_HEAD));
p_dfile->pf_head->data_num = 0;
p_dfile->pf_stdlst = initList();
return p_dfile;
}
int dataFileAddStandardData(D_FILE *p_dfile, STD_DATA *p_std){
insertInTail(p_dfile->pf_stdlst, nodeWithPointer(p_std));
p_dfile->pf_head->data_num = p_dfile->pf_stdlst->length;
return 0;
}
int dataFileWriteIn(D_FILE *p_dfile){
fwrite(p_dfile->pf_head->head_test, sizeof(char), 18, p_dfile->fp);
fwrite(&p_dfile->pf_head->data_num, sizeof(unsigned long long), 1, p_dfile->fp);
fwrite("HEAD_END", sizeof(char), 9, p_dfile->fp);
List *er_list = initList();
insertInTail(er_list, nodeWithPointer(p_dfile->fp));
/*fwrite("STDINFO", sizeof(char), 8, p_dfile->fp);
listThrough(p_dfile->pf_stdlst, _doStandardDataInfoWrite, er_list);*/
/*fwrite("STDLST", sizeof(char), 7, p_dfile->fp);*/
listThrough(p_dfile->pf_stdlst, _doStandardDataWrite, er_list);
releaseList(er_list);
return 0;
}
List *_doStandardDataInfoWrite(unsigned int type, void *value, List *er_list){
List *p_rtnlst = initList();
FILE *fp = getByPointerForNode(findByIndexForNode(er_list, 0));
STD_DATA *p_std = value;
insertInTail(p_rtnlst, nodeWithInt(0));
char *string_sid = s_idToASCIIString(p_std->s_id);
fwrite(string_sid, sizeof(char), DEEPER_LEN, fp);
free(string_sid);
fwrite(&p_std->type, sizeof(unsigned long), 1, fp);
fwrite(&p_std->pd_ctnlst->length, sizeof(unsigned long long), 1, fp);
fwrite(&p_std->pd_blocklst->length, sizeof(unsigned long long), 1, fp);
return p_rtnlst;
}
List *_doStandardDataWrite(unsigned int type, void *value, List *er_list){
List *p_rtnlst = initList();
FILE *fp = getByPointerForNode(findByIndexForNode(er_list, 0));
insertInTail(p_rtnlst, nodeWithInt(0));
STD_DATA *p_std = value;
List *erc_list = initList();
insertInTail(erc_list, nodeWithPointer(fp));
fwrite("STD", sizeof(char), 4, fp);
char *string_sid = s_idToASCIIString(p_std->s_id);
unsigned long sid_len = strlen(string_sid) + 1;
fwrite(&sid_len, sizeof(unsigned long), 1, fp);
char *sid_w = s_idToASCIIString(p_std->s_id);
fwrite(sid_w, sizeof(char), sid_len, fp);
fwrite(&p_std->type, sizeof(unsigned int), 1, fp);
fwrite(&p_std->pd_ctnlst->length, sizeof(unsigned long long), 1, fp);
fwrite(&p_std->pd_blocklst->length, sizeof(unsigned long long), 1, fp);
listThrough(p_std->pd_ctnlst, _doStandardDConnectionWrite, erc_list);
listThrough(p_std->pd_blocklst, _doStandardDBlockWrite, erc_list);
releaseList(erc_list);
free(sid_w);
free(string_sid);
return p_rtnlst;
}
List *_doStandardDConnectionWrite(unsigned int type, void *value, List *er_list){
List *p_rtnlst = initList();
insertInTail(p_rtnlst, nodeWithInt(0));
FILE *fp = getByPointerForNode(findByIndexForNode(er_list, 0));
STD_CTN *p_stdc = value;
unsigned long fsid_len = strlen(p_stdc->f_sid) + 1, ssid_len = strlen(p_stdc->s_sid)+1;
fwrite(&fsid_len, sizeof(unsigned long), 1, fp);
fwrite(p_stdc->f_sid, sizeof(char), fsid_len, fp);
fwrite(&ssid_len, sizeof(unsigned long), 1, fp);
fwrite(p_stdc->s_sid, sizeof(char), ssid_len, fp);
return p_rtnlst;
}
List *_doStandardDBlockWrite(unsigned int type, void *value, List *er_list){
List *p_rtnlst = initList();
insertInTail(p_rtnlst, nodeWithInt(0));
STD_BLOCKS *p_stdb = value;
FILE *fp = getByPointerForNode(findByIndexForNode(er_list, 0));
unsigned long sid_len = strlen(p_stdb->sid)+1, blocks_num = p_stdb->blocks_num;
fwrite(&sid_len, sizeof(unsigned long), 1, fp);
fwrite(p_stdb->sid, sizeof(char), sid_len, fp);
fwrite(&p_stdb->type, sizeof(unsigned int), 1, fp);
fwrite(&blocks_num, sizeof(unsigned long), 1, fp);
fwrite(p_stdb->buff, sizeof(char), p_stdb->blocks_num, fp);
return p_rtnlst;
}
STD_DATA *listToSTD(List *p_list){
STD_DATA *p_std = initStandardData(LIST);
Node *p_node = p_list->head;
while (p_node != NULL) {
unsigned long long data_size = 0;
if(p_node->type == INT) data_size = sizeof(int);
else if (p_node->type == DOUBLE) data_size = sizeof(double);
else if (p_node->type == STRING) data_size = strlen((char *)p_node->value) + 1;
else data_size = sizeof(void *);
standardDataAddBlock(p_std, p_node->s_id, p_node->type, p_node->value, data_size);
p_node = p_node->next;
}
return p_std;
}
int dataFileReadOut(D_FILE *p_dfile){
char test_info[FILE_TSET_LEN],head_test_info[HEAD_TEST_LEN];
fread(test_info, sizeof(char), FILE_TSET_LEN, p_dfile->fp);
strcpy(p_dfile->pf_head->head_test, test_info);
if(!strcmp(test_info, "ZESTDLIB_STDDFILE")){
unsigned long long std_num = 0;
fread(&std_num, sizeof(unsigned long long), 1, p_dfile->fp);
p_dfile->pf_head->data_num = std_num;
fread(head_test_info, sizeof(char), 9, p_dfile->fp);
if (!strcmp(head_test_info, "HEAD_END")) {
for(int i = 0; i < std_num; i++){
char std_test_info[4];
fread(std_test_info, sizeof(char), 4, p_dfile->fp);
if(!strcmp(std_test_info, "STD")){
unsigned long long sid_len = 0, ctn_num = 0, blk_num = 0;
unsigned int type = 0;
fread(&sid_len, sizeof(unsigned long), 1, p_dfile->fp);
char *string_sid = (char *)malloc(sizeof(char) * sid_len);
fread(string_sid, sizeof(char), sid_len, p_dfile->fp);
fread(&type, sizeof(unsigned int), 1, p_dfile->fp);
STD_DATA *p_std = initStandardData(type);
freeS_id(p_std->s_id);
p_std->s_id = asciiStringToS_id(string_sid);
dataFileAddStandardData(p_dfile, p_std);
free(string_sid);
fread(&ctn_num, sizeof(unsigned long long), 1, p_dfile->fp);
fread(&blk_num, sizeof(unsigned long long), 1, p_dfile->fp);
for(int j = 0; j < ctn_num; j++){
fread(&sid_len, sizeof(unsigned long), 1, p_dfile->fp);
char *fstring_sid = (char *)malloc(sizeof(char) * sid_len);
fread(fstring_sid, sizeof(char), sid_len, p_dfile->fp);
fread(&sid_len, sizeof(unsigned long), 1, p_dfile->fp);
char *sstring_sid = (char *)malloc(sizeof(char) * sid_len);
fread(sstring_sid, sizeof(char), sid_len, p_dfile->fp);
SID *fs_id = asciiStringToS_id(fstring_sid), *ss_id = asciiStringToS_id(sstring_sid);
standardDataAddConnection(p_std, fs_id,ss_id);
freeS_id(fs_id);
freeS_id(ss_id);
free(fstring_sid);
free(sstring_sid);
}
for(int k = 0; k < blk_num; k++){
fread(&sid_len, sizeof(unsigned long), 1, p_dfile->fp);
char *string_sid = (char *)malloc(sizeof(char) * sid_len);
fread(string_sid, sizeof(char), sid_len, p_dfile->fp);
unsigned long blk_len = 0;
fread(&blk_len, sizeof(unsigned long), 1, p_dfile->fp);
char *content = (char *)malloc(sizeof(char) * blk_len);
fread(content, sizeof(char), blk_len, p_dfile->fp);
SID *s_id = asciiStringToS_id(string_sid);
unsigned int type = VOID;
fread(&type, sizeof(unsigned int), 1, p_dfile->fp);
standardDataAddBlock(p_std, s_id, type, content, blk_len);
freeS_id(s_id);
free(string_sid);
free(content);
}
return 0;
}
else break;
}
}
else{
}
}
showError(pushError(DATA_FILE, STANDARD, initInfo("dataFileReadOut()", "Datafile not complete.")));
return -1;
}
int releaseSTDConnection(STD_CTN *p_stdc){
free(p_stdc->f_sid);
free(p_stdc->s_sid);
free(p_stdc);
return 0;
}
int releaseSTDBlocks(STD_BLOCKS *p_stdb){
free(p_stdb->sid);
free(p_stdb->buff);
free(p_stdb);
return 0;
}
int releaseStandardData(STD_DATA *p_std){
freeS_id(p_std->s_id);
releaseListForCustom(p_std->pd_blocklst, (int (*)(void *))releaseSTDBlocks);
releaseListForCustom(p_std->pd_ctnlst, (int (*)(void *))releaseSTDConnection);
free(p_std);
return 0;
}
int releaseDFile(D_FILE *p_dfile){
releaseListForCustom(p_dfile->pf_stdlst, (int (*)(void *))releaseStandardData);
fclose(p_dfile->fp);
free(p_dfile->pf_head);
free(p_dfile);
return 0;
}
List *standardDataToList(STD_DATA *p_std){
List *p_list = initList();
List *er_list = initList();
insertInTail(er_list, nodeWithPointer(er_list));
listThrough(p_std->pd_blocklst, _doStandardDataToList, er_list);
return p_list;
}
List *_doStandardDataToList(unsigned int type, void *value, List *er_list){
List *rtn_list = initList();
insertInTail(rtn_list, nodeWithInt(0));
List *p_list = getByPointerForNode(findByIndexForNode(er_list, 0));
STD_BLOCKS *p_stdb = value;
Node *p_node = initNode();
p_node->s_id = asciiStringToS_id(p_stdb->sid);
p_node->type = p_stdb->type;
p_node->value = malloc(sizeof(p_stdb->blocks_num));
memcpy(p_node->value, p_stdb->buff, sizeof(p_stdb->blocks_num));
insertInTail(p_list, p_node);
return rtn_list;
}
MSG *createMessage(char *title, void *data, unsigned long data_size){
MSG *p_msg = malloc(sizeof(MSG) + data_size);
p_msg->p_sid = getS_id(MESSAGE, 1);
p_msg->time = time(NULL);
return p_msg;
}
/*int sendMessageIPv4(MSG *p_msg, char *ip, unsigned int port){
int client_sockfd;
struct sockaddr_in remote_addr;
char buf[BUFSIZ];
memcpy(buf, "ZEMSG", 5);
memset(&remote_addr,0,sizeof(remote_addr));
remote_addr.sin_family=AF_INET;
remote_addr.sin_addr.s_addr=inet_addr(ip);
remote_addr.sin_port=htons(port);
client_sockfd=socket(PF_INET,SOCK_STREAM,0);
connect(client_sockfd,(struct sockaddr *)&remote_addr,sizeof(struct sockaddr));
send(client_sockfd,buf,strlen(buf),0);
unsigned long bkmsg_len = 0;
bkmsg_len = recv(client_sockfd, buf, BUFSIZ, 0);
buf[bkmsg_len] = '\0';
if(!strcmp(buf, "TITLE_REV_READY")){
memcpy(buf, p_msg->titile, strlen(p_msg->titile));
bkmsg_len = recv(client_sockfd, buf, BUFSIZ, 0);
buf[bkmsg_len] = '\0';
if(!strcmp(buf, "CONTENT_LEN_REV_READY")){
memcpy(buf, (char *)p_msg->size, sizeof(unsigned int));
send(client_sockfd,buf,sizeof(unsigned int),0);
bkmsg_len = recv(client_sockfd, buf, BUFSIZ, 0);
buf[bkmsg_len] = '\0';
if(!strcmp(buf, "CONTENT_REV_READY")){
memcpy(buf, p_msg->content, p_msg->size);
send(client_sockfd,buf,p_msg->size,0);
close(client_sockfd);
return 0;
}
}
}
close(client_sockfd);
return -1;
}*/

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@ -1,47 +0,0 @@
#ifndef communicate_h
#define communicate_h
#include "../type/type.h"
#include "../list/list_expand.h"
typedef struct message{
SID *p_sid;
time_t time;
char titile[16];
unsigned long size;
char content[0];
}MSG;
D_FILE *initDataFileForWrite(char *route);
D_FILE *initDataFileForRead(char *route);
STD_BLOCKS *initStandardDBlocks(SID *p_sid, unsigned int type, unsigned long long data_size);
STD_CTN *initStandardDConnection(SID *f_sid, SID *s_sid);
STD_DATA *initStandardData(unsigned int type);
int dataForStandardDBlock(STD_BLOCKS *p_stdb,void *data);
int dataFileAddStandardData(D_FILE *p_dfile, STD_DATA *p_std);
int standardDataAddBlock(STD_DATA *p_std, SID *p_sid ,unsigned int type, void *data, unsigned long long data_size);
int standardDataAddConnection(STD_DATA *p_std, SID *f_sid, SID *s_sid);
int dataFileWriteIn(D_FILE *p_dfile);
int dataFileReadOut(D_FILE *p_dfile);
int releaseSTDBlocks(STD_BLOCKS *p_stdb);
int releaseStandardData(STD_DATA *p_std);
int releaseSTDConnection(STD_CTN *p_stdc);
int releaseDFile(D_FILE *p_file);
List *_doStandardDataInfoWrite(unsigned int type, void *value, List *er_list);
List *_doStandardDataWrite(unsigned int type, void *value, List *er_list);
List *_doStandardDConnectionWrite(unsigned int type, void *value, List *er_list);
List *_doStandardDBlockWrite(unsigned int type, void *value, List *er_list);
STD_DATA *listToSTD(List *);
List *standardDataToList(STD_DATA *);
List *_doStandardDataToList(unsigned int type, void *value, List *er_list);
MSG *createMessage(char *title, void *data, unsigned long data_size);
int sendMessageIPv4(MSG *p_msg, char *ip, unsigned int port);
//STD_DATA *stackToSTD(Stack *);
//STD_DATA *treeToSTD(Tree *);
#endif /* communicate_h */

253
id/id.c
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@ -1,253 +0,0 @@
#include "id.h"
void init_rand(void) {
srand((unsigned)time(NULL));
}
unsigned long long getId(void) {
int i;
unsigned long long id = 0;
id = ((rand() % 9) + 1);
for (i = 0; i < 15; i++) {
id *= 10;
id += rand() % 10;
}
return id;
}
SID *initS_id(unsigned int deep_level){
SID *p_sid = (SID *) malloc(sizeof(SID));
if(p_sid == NULL){
printf("\ninitS_id(): Error in getting the memory of sid.\n");
}
p_sid->type = VOID;
p_sid->deep = deep_level;
p_sid->value = NULL;
p_sid->value_deeper = NULL;
p_sid->value_deepest = NULL;
if (deep_level > 0) {
p_sid->value = (unsigned int *)malloc(sizeof(unsigned int)*DEEPC_LEN);
if(p_sid->value == NULL){
printf("\ninitS_id(): Error in getting the memory of sid.value.\n");
}
}
if (deep_level > 1){
p_sid->value_deeper = (unsigned int *)malloc(sizeof(unsigned int)*DEEPB_LEN);
if(p_sid->value_deeper == NULL){
printf("\ninitS_id(): Error in getting the memory of sid.value_deeper.\n");
}
}
if (deep_level > 2){
p_sid->value_deepest = (unsigned int *)malloc(sizeof(unsigned int)*DEEPA_LEN);
if(p_sid->value_deepest == NULL){
printf("\ninitS_id(): Error in getting the memory of sid.value_deepest.\n");
}
}
return p_sid;
}
SID *getS_id(unsigned int type, unsigned int deep_level){
SID *p_sid = initS_id(deep_level);
p_sid->type = type;
if(deep_level > 0){
for(int i = 0; i < DEEPC_LEN; i++) p_sid->value[i] = rand()%65535;
if(deep_level > 1) for(int i = 0; i < DEEPB_LEN; i++) p_sid->value_deeper[i] = rand()%65535;
if (deep_level > 2) for(int i = 0; i < DEEPA_LEN; i++) p_sid->value_deepest[i] = rand()%65535;
}
return p_sid;
}
int fitS_id(const SID *fs_id, const SID *ss_id){
if(fs_id->type == ss_id->type){
if(fs_id->deep == ss_id->deep){
if (fs_id->deep > 0)
for(int i = 0; i < DEEPC_LEN; i++){
if(fs_id->value[i] == ss_id->value[i]) continue;
else if(fs_id->value[i] > ss_id->value[i]) return 1;
else return -1;
}
if (fs_id->deep > 1)
for(int i = 0; i < DEEPB_LEN; i++){
if(fs_id->value_deeper[i] == ss_id->value_deeper[i]) continue;
else if(fs_id->value_deeper[i] > ss_id->value_deeper[i]) return 1;
else return -1;
}
if (fs_id->deep > 2)
for(int i = 0; i < DEEPA_LEN; i++){
if(fs_id->value_deepest[i] == ss_id->value_deepest[i]) continue;
else if(fs_id->value_deepest[i] > ss_id->value_deepest[i]) return 1;
else return -1;
}
}
else{
if(fs_id->deep > ss_id->deep) return 1;
else return -1;
}
}
else{
if (fs_id->type > ss_id->type) return 1;
else return -1;
}
return 0;
}
int simFitS_id(const SID *fs_id, const SID *ss_id){
return !fitS_id(fs_id, ss_id);
}
char *s_idToASCIIString(const SID *s_id){
char *string = NULL;
int deep_len = 0, temp, buff_count, string_count;
unsigned int buff[DATA_BIT];
if(s_id->deep > 0){
if (s_id->deep == DEEPC){
string = (char *) malloc(sizeof(char) * (DEEPC_LEN + 1) * DATA_BIT);
deep_len = DEEPC_LEN + 1;
deep_len *= DATA_BIT;
}
else if (s_id->deep == DEEPB){
string = (char *) malloc(sizeof(char) * (DEEPC_LEN + DEEPB_LEN + 1) * DATA_BIT);
deep_len = DEEPC_LEN + DEEPB_LEN + 1;
deep_len *= DATA_BIT;
}
else{
string = (char *)malloc(sizeof(char) * (DEEPC_LEN + DEEPB_LEN + DEEPA_LEN + 1) * DATA_BIT);
deep_len = DEEPC_LEN + DEEPB_LEN + DEEPA_LEN + 1;
deep_len *= DATA_BIT;
}
if(string == NULL){
printf("\ns_idToASCIIString(): Error in getting the memory of string.\n");
}
string[deep_len] = '\0';
temp = s_id->type;
buff_count = DATA_BIT - 1;
for (int i = 0; i < DATA_BIT; i++) buff[i] = 0;
while(buff_count >= 0){
buff[buff_count] = temp % 10;
string[buff_count] = buff[buff_count] + 48;
temp /= 10;
buff_count--;
}
deep_len -= DATA_BIT;
for(int i = 0; i < DEEPC_LEN; i++){
temp = s_id->value[i];
for (int i = 0; i < DATA_BIT; i++) buff[i] = 0;
string_count = TYPE_LEN + (i) * 5;
buff_count = DATA_BIT - 1;
while (buff_count >= 0) {
buff[buff_count] = temp % 10;
temp /= 10;
buff_count--;
}
for(int i = DATA_BIT - 1; i >= 0; i--) string[string_count + i] = buff[i] + 48;
}
deep_len -= DEEPC_LEN * DATA_BIT;
if(deep_len > 0)
for(int i = 0; i < DEEPB_LEN; i++){
temp = s_id->value_deeper[i];
for (int i = 0; i < DATA_BIT; i++) buff[i] = 0;
string_count = TYPE_LEN + DEEPC_LEN * DATA_BIT + (i) * DATA_BIT;
buff_count = DATA_BIT - 1;
while (buff_count >= 0) {
buff[buff_count] = temp % 10;
temp /= 10;
buff_count--;
}
for(int i = DATA_BIT - 1; i >= 0; i--) string[string_count + i] = buff[i] + 48;
}
deep_len -= DEEPB_LEN * DATA_BIT;
if(deep_len > 0)
for(int i = 0; i < DEEPA_LEN; i++){
temp = s_id->value_deepest[i];
for (int i = 0; i < DATA_BIT; i++) buff[i] = 0;
string_count = TYPE_LEN + (DEEPC_LEN + DEEPB_LEN) * DATA_BIT + (i) * DATA_BIT;
buff_count = DATA_BIT - 1;
while (buff_count >= 0) {
buff[buff_count] = temp % 10;
string[string_count] = buff[buff_count] + 48;
temp /= 10;
buff_count--;
}
for(int i = DATA_BIT - 1; i >= 0; i--) string[string_count + i] = buff[i] + 48;
}
return string;
}
else{
return NULL;
}
}
SID *asciiStringToS_id(const char *string){
SID *s_id = NULL;
unsigned long long string_len = strlen(string);
if (string_len == 25) s_id = initS_id(1);
else if (string_len == 65) s_id = initS_id(2);
else if (string_len == 225) s_id = initS_id(3);
else return NULL;
unsigned int *buff = (unsigned int *) malloc(sizeof(unsigned int) * (string_len));
if(buff == NULL){
printf("\ns_idToASCIIString(): Error in getting the memory of string.\n");
}
for(int i = 0; i < string_len; i++){
buff[i] = (unsigned int)string[i] - 48;
}
s_id->type = 0;
for (int i = 0; i < 5; i++){
s_id->type += buff[i] ;
s_id->type *= 10u;
}
s_id->type /= 10u;
if (string_len >= 25){
for(int i = 0; i < DEEPC_LEN; i++){
s_id->value[i] = 0;
for (int j = 0; j < 5; j++){
s_id->value[i] += (unsigned int)buff[5 + i * 5 + j];
if(j < 4) s_id->value[i] *= 10;
}
}
}
if (string_len >= 65){
for(int i = 0; i < DEEPB_LEN; i++){
s_id->value_deeper[i] = 0;
for (int j = 0; j < 5; j++){
s_id->value_deeper[i] += buff[25 + i * 5 + j];
if(j < 4) s_id->value_deeper[i] *= 10;
}
}
}
if (string_len >= 225){
for(int i = 0; i < DEEPA_LEN; i++){
s_id->value_deepest[i] = 0;
for (int j = 0; j < 5; j++){
s_id->value_deepest[i] += buff[65 + i * 5 + j];
if(j < 4) s_id->value_deepest[i] *= 10;
}
}
}
free(buff);
return s_id;
}
int freeS_id(SID *s_id){
if(s_id->value != NULL){
free(s_id->value);
s_id->value = NULL;
}
if(s_id->value_deeper != NULL){
free(s_id->value_deeper);
s_id->value_deeper = NULL;
}
if(s_id->value_deepest != NULL){
free(s_id->value_deepest);
s_id->value_deepest = NULL;
}
free(s_id);
return 0;
}

24
id/id.h
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@ -1,24 +0,0 @@
#ifndef id_h
#define id_h
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <time.h>
#include "../type/type.h"
void init_rand(void);
unsigned long long getId(void);
SID *getS_id(unsigned int type, unsigned int deep_level);
int fitS_id(const SID *fs_id, const SID *ss_id);
int simFitS_id(const SID *fs_id, const SID *ss_id);
char *s_idToASCIIString(const SID *s_id);
SID *asciiStringToS_id(const char *string);
SID *initS_id(unsigned int deep_level);
int freeS_id(SID *s_id);
#endif /* id_h */

7
include/block/block.h Normal file
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@ -0,0 +1,7 @@
#ifndef block_h
#define block_h
#include <block/block_type.h>
#endif /* block_h */

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@ -0,0 +1,5 @@
#ifndef block_expand_h
#define block_expand_h
#endif /* block_expand_h */

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@ -0,0 +1,5 @@
#ifndef block_print_h
#define block_print_h
#endif /* block_print_h */

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@ -0,0 +1,23 @@
#ifndef block_type_h
#define block_type_h
#include<type.h>
#ifdef id_enable
#include <id/id.h>
#endif
/*
*
*/
typedef struct block{
uint64_t size;
uint64_t m_size;
uint32_t carve;
void *data;
#ifdef id_enable
SID *s_id;//栈节点的ID
#endif
} Block;
#endif /* block_type_h */

288
include/chain/chain.h Normal file
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#ifndef chain_h
#define chain_h
#include <chain/chain_type.h>
#include <list/list.h>
/************************************************
*: ,
* 使.
************************************************/
/*
*, 使
*if_sid指示函数是否为节点获取ID
*: ,NULL.*/
extern CNode *nodeWithInt(int, _Bool if_sid);
/*
*, 使
*if_sid指示函数是否为节点获取ID
*: ,NULL.*/
extern CNode *nodeWithUInt(unsigned int, _Bool if_sid);
/*
*, 使
*if_sid指示函数是否为节点获取ID
*: ,NULL.*/
extern CNode *nodeWithULLInt(unsigned long long, _Bool if_sid);
/*
*, 使
*if_sid指示函数是否为节点获取ID
*: ,NULL.*/
extern CNode *nodeWithDouble(double, _Bool if_sid);
/*
*, 使
*if_sid指示函数是否为节点获取ID
*: ,NULL.*/
extern CNode *nodeWithString(const char *, _Bool if_sid);
/*
*, 使
*if_sid指示函数是否为节点获取ID
*: ,NULL.*/
extern CNode *nodeWithPointer(const void *, _Bool if_sid);
/************************************************
*: ,
* 使
*: .
************************************************/
/*
*
*: ,NULL.*/
extern CNode *nodeWithComplex(void);
/*
*
*: type指明所输入值的类型,value为指向所输入值的内存空间的指针
*: 0,-1.*/
extern int addValueForComplex(CNode *, int type, void *value);
/*
*
*: 0,-1.*/
extern int addIntForComplex(CNode *, int);
/*
*
*: 0,-1.*/
extern int addDoubleForComplex(CNode *, double);
/*
*
*: 0,-1.*/
extern int addStringForComplex(CNode *, char *);
/*
*
*: 0,-1.*/
extern int addPointerForComplex(CNode *, void *);
/************************************************
*: ,
************************************************/
/*
*
*: 0,-1.*/
extern int updateValueWithIntForNode(CNode *,int);
/*
*
*: 0,-1.*/
extern int updateValueWithULLIntForNode(CNode *, uint64_t);
/*
*
*: 0,-1.*/
extern int updateValueWithDoubleForNode(CNode *,double);
/*
*
*: 0,-1.*/
extern int updateValueWithStringForNode(CNode *,char *);
/*
*
*: 0,-1.*/
extern int updateValueWithPointerForNode(CNode *,void *);
/************************************************
*: ,
************************************************/
/*
*,
*: ,NULL.*/
Chain *mply_findByIntForNode(Chain*, int);
/*
*,
*: ,NULL.*/
Chain *mply_findByDoubleForNode(Chain*, double);
/*
*,
*: ,NULL.*/
Chain *mply_findByStringForNode(Chain*, char *);
/*
*,
*: ,NULL.*/
Chain *mply_findByPointerForNode(Chain*, void *);
/************************************************
*:
************************************************/
/*
*
*: p_func为一个函数指针, (type)/(value)/(args),
,,,,
expand_resources为一个链表,
*: ,,NULL.*/
extern Chain *listThrough(Chain *p_list, Chain *(*p_func)(unsigned int type, void *value, Chain *args), Chain *expand_resources);
/*
*,便
*/
extern Chain *newReturn(int if_status ,int status, char *argc, ...);
/*
*,便
*/
Chain *newCReturn(void);
/*
*,便
*/
uint64_t getInfoForListThrough(Chain *expand_resources, int type);
/************************************************
*:
************************************************/
/*
*
*/
uint64_t calListMemory(Chain *);
/***********************************************
*:
***********************************************/
/*
**/
extern uint64_t len(Chain *p_list);
/*
*
*: 1,0.*/
extern int isListEmpty(Chain *p_list);
/*
*
*: */
extern int getByIntForNode(CNode *);
/*
*
*: */
extern unsigned int getByUIntForNode(CNode *);
/*
*
*: */
extern double getByDoubleForNode(CNode *);
/*
*
*: */
extern char *getByStringForNode(CNode *);
/*
*
*: */
extern void *getByPointerForNode(CNode *);
/*
*
*: */
extern unsigned long long getIndexForNode(Chain *p_list,CNode *p_node);
/*
*,.
*: ,NULL*/
extern CNode *updateNodeByIndex(Chain *p_list, void *new_value, unsigned long long index);
/**********************************************
*:
*********************************************/
/*
*,,.
*: ID相同.
*: ,NULL*/
extern CNode *copyNode(CNode *);
/*
*,,.
*: ID相同.
*: ,NULL*/
Chain *copyList(Chain *p_list);
/*
*
*: ,NULL.*/
extern CNode *findByIndexForNode(Chain *, unsigned long long);
/*
*
*: ,NULL.*/
extern CNode *findByIntForNode(Chain *, int);
/*
*
*: ,NULL.*/
extern CNode *findByDoubleForNode(Chain *, double);
/*
*.
*: ,NULL.*/
extern CNode *findByStringForNode(Chain *, char *);
/*
*.
*: ,NULL.*/
extern CNode *findByPointerForNode(Chain *, void *);
#endif /* chain_h */

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@ -0,0 +1,42 @@
#ifndef list_print_h
#define list_print_h
#include <chain/chain.h>
#include <event/event.h>
/************************************************
*:
************************************************/
/*
*
*: priority为每行输出信息前的空格数除以4*/
void printListInfo(Chain *p_list,int priority);
/*
*
*: priority为每行输出信息前的空格数乘以4*/
void printNodeInfo(CNode *p_node,int priority);
/*
*
*/
void printList(Chain *);
/*
*
*: func为一个函数指针, */
void printListForCustom(Chain *p_list,void (*func)(void *value));
/*
*printListForCustom函数的回调函数
*/
__CALLBACK_STATE(printListForCustom);
/*
*
*/
void printNode(CNode *p_node);
#endif /* list_print_h */

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@ -0,0 +1,16 @@
#ifndef chain_type_h
#define chain_type_h
#include <list/list_type.h>
/*
*
*/
typedef struct Node CNode;
/*
*
*/
typedef struct List Chain;
#endif /* chain_type_h */

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@ -0,0 +1,29 @@
#ifndef communicate_h
#define communicate_h
#include <communicate/communicate_type.h>
/************************************************
:
************************************************/
/*
*
*: ,NULL.
*/
extern MSG *createMessage(char *title, void *data, unsigned long data_size);
/*
*ipv4地址发送消息
*: 0,-1.
*/
extern int sendMessageIPv4(MSG *p_msg, char *ip, unsigned int port);
#endif /* communicate_h */

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@ -0,0 +1,269 @@
#ifndef communicate_file_h
#define communicate_file_h
#include <communicate/communicate_type.h>
/************************************************
:
************************************************/
/*
*
*: route指示数据文件路径
*: ,NULL.
*/
extern D_FILE *initDataFileForWrite(char *route);
/*
*
*: route指示数据文件路径
*: ,NULL.
*/
extern D_FILE *initDataFileForRead(char *route);
/*
*
*: type指示数据块储存数据的数据类型,data_size指示数据块储存数据的大小
*: ,NULL.
*/
extern STD_BLOCKS *initStandardDBlocks(SID *p_sid, uint16_t type, uint32_t data_size);
/*
*
*: f_sid指示第一个数据块的SID,s_sid指示第二个数据块的SID.
*: ,NULL.
*/
extern STD_CTN *initStandardDConnection(SID *f_sid, SID *s_sid);
/*
*
*: type指示标准数据结构所储存的数据结构的数据类型, s_id指示所储存的数据结构的ID,
s_id为NULL,ID.便,ID.
*: ,NULL.
*/
extern STD_DATA *initStandardData(uint16_t type, SID *s_id);
/************************************************
:
************************************************/
/*
*
*: data为指向所添加数据所在内存空间的指针
*: 0,-1.
*/
extern int dataForStandardDBlock(STD_BLOCKS *p_stdb,void *data);
/*
*
*: 0,-1.
*/
extern int dataFileAddStandardData(D_FILE *p_dfile, STD_DATA *p_std);
/*
*
*: type指示所添加数据的数据类型, data为指向所添加数据所在内存空间的指针, data_size指示所添加数据的大小
*: 0,-1.
*/
extern int standardDataAddBlock(STD_DATA *p_std, SID *p_sid ,uint16_t type, void *data, uint32_t data_size);
/*
*
*: f_sid指示第一个数据块的SID,s_sid指示第二个数据块的SID.
*: 0,-1.
*/
extern int standardDataAddConnection(STD_DATA *p_std, SID *f_sid, SID *s_sid);
/************************************************
:
************************************************/
/*
*,.
*: 0,-1.
*/
extern int dataFileWriteIn(D_FILE *p_dfile);
/*
*,,.
*: 0,-1.
*/
extern int dataFileReadOut(D_FILE *p_dfile);
/************************************************
:
************************************************/
/*
*
*: 0,-1.
*/
extern int releaseSTDBlocks(STD_BLOCKS *p_stdb);
/*
*
*: 0,-1.
*/
extern int releaseStandardData(STD_DATA *p_std);
/*
*
*: 0,-1.
*/
extern int releaseSTDConnection(STD_CTN *p_stdc);
/*
*
*: 0,-1.
*/
extern int releaseDFile(D_FILE *p_file);
/************************************************
:
************************************************/
/*
*
*: ,NULL.
*/
extern STD_DATA *listToSTD(Chain *);
/*
*
*: ,NULL.
*/
extern Chain *standardDataToList(STD_DATA *);
//STD_DATA *stackToSTD(Stack *);
//STD_DATA *treeToSTD(Tree *);
/************************************************
:
************************************************/
/*
*,
*: ,.
*: 0,-1.
*/
extern int readDataFileInfo(D_FILE *p_dfile);
/*
*
*: p_std为指向框架中的相关标准数据所在内存空间的指针
*: 0,-1.
*/
extern int readStandardData(D_FILE *p_dfile, STD_DATA *p_std);
/*
*
*: 0,-1.
*/
extern int readSTDBlocks(STD_BLOCKS *p_stdb);
/*
*,
*: 0,-1.
*/
extern int checkIfDataFile(D_FILE *p_dfile);
/*
*ID,
*: 0,-1.
*/
extern int readStandardDataBySid(D_FILE *p_dfile, SID *p_sid);
/************************************************
:
************************************************/
/*
*
*/
extern void printStandardData(void *value);
/*
*,.
*/
uint32_t calStandardData(STD_DATA *p_std);
/************************************************
************************************************/
/*
*
*/
__CALLBACK_STATE(StandardDataInfoWrite);
/*
*
*/
__CALLBACK_STATE(StandardDataWrite);
/*
*
*/
__CALLBACK_STATE(StandardDConnectionWrite);
/*
*
*/
__CALLBACK_STATE(StandardDBlockWrite);
/*
*
*/
__CALLBACK_STATE(dataFileReadOut);
/*
*
*/
__CALLBACK_STATE(calStandardDataCTN);
/*
*
*/
__CALLBACK_STATE(calStandardDataBLK);
/*
*
*/
__CALLBACK_STATE(StandardDataToList);
/*
*ID,
*/
__CALLBACK_STATE(findStandardDataBySid);
#endif /* communicate_file_h */

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#ifndef communicate_type_h
#define communicate_type_h
#include<type.h>
/*
*
*/
typedef struct file_head{
char head_test[18];//数据文件头部的验证信息
uint32_t data_num;//数据文件中的标准数据结构的数目
}F_HEAD;
/*
*
*/
typedef struct data_file{
FILE *fp;//数据文件
F_HEAD *pf_head;//数据文件头
Chain *pf_stdlst;//数据文件的标志数据结构的储存链表
}D_FILE;
/*
*
*/
typedef struct standard_data_blocks{
uint16_t type;//数据块的类型
uint32_t location;//数据块在数据文件中的定位
char *sid;//数据块的ID
_Bool if_data;//数据块是否赋值
unsigned int blocks_num;//数据块字节大小
char *buff;//指向数据块储存值内存空间的指针
}STD_BLOCKS;
/*
*
*/
typedef struct standard_data_connection{
uint32_t location;//数据块链接关系结构在文件中的定位
char *f_sid;//前一个数据块的ID
char *s_sid;//后一个数据块的ID
}STD_CTN;
/*
*
*/
typedef struct standard_data_head{
uint32_t data_blk_num;//数据块的数目
uint32_t data_ctn_num;//数据块链接关系结构的数目
}STD_HEAD;
/*
*
*/
typedef struct standard_data{
SID *s_id;//标准数据结构的ID
int read_data;//标准数据结构是否已经读取完整
uint16_t type;//标准数据结构所对应的类型
uint32_t size;//标准数据结构在数据文件中的大小
uint32_t location;//标准数据结构的头在数据文件中的定位
_Bool lock;//标准数据文件是否被锁住
Chain *pd_blocklst;//数据块储存链表
Chain *pd_ctnlst;//数据块连接关系结构的储存链表
}STD_DATA;
/*
*
*/
typedef struct message{
SID *p_sid;//消息的ID
time_t time;//消息的产生时间
char titile[16];//消息标题
unsigned long size;//消息的大小
char content[0];//消息的正文
}MSG;
#endif /* communicate_type_h */

54
include/error/error.h Normal file
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@ -0,0 +1,54 @@
#ifndef error_h
#define error_h
#include <type.h>
/*
*
*/
typedef struct Info{
char head[64];//信息头
char body[256];//信息内容
}Info;
/*
*
*/
typedef struct Error{
unsigned int type;//错误类型号
int priority;//优先级
time_t time;//错误产生的时间
Info info;//信息指针
}Error;
/*
*
*/
typedef struct Notice{
unsigned int type;//警告类型号
time_t time;//警告产生的时间
Info info;//信息指针
}Notice;
/***********************************************
*:,,
* 便.
**********************************************/
extern int pushInfo(Info *p_info, const char *head,const char *body);
extern Error *pushError(unsigned int type, int pri, Info *p_info);
extern Notice *pushNotice(unsigned int type, Info *p_info);
extern Info *initInfo(const char *head, const char *body);
extern Error *createError(Info *info,unsigned int type,int pri);
extern Notice *createWarning(Info *info, unsigned int type, int pri);
extern int showError(Error *);
extern int showWarning(Notice *);
#endif /* error_h */

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@ -1,8 +1,18 @@
#ifndef ERROR_H #ifndef ERROR_H
#define ERROR_H #define ERROR_H
#include "../type/type.h" #include <type.h>
#include "../list/list_expand.h" #include <list/list.h>
#include <error/error.h>
/*
*
*/
typedef struct Log{
FILE *fp;//日志文件的指针
int if_enable;//日志文件是否启用
unsigned long int id;//日志文件的ID
}Log;
Log logfile; Log logfile;
List *error_list = NULL; List *error_list = NULL;

228
include/event/event.h Normal file
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#ifndef list_expand_1_h
#define list_expand_1_h
#include <chain/chain.h>
/************************************************
*,
************************************************/
/****
*ID模块相关宏
*/
/*直接获取一个以整型值初始化的节点不带ID的缩略*/
#define lni(x) nodeWithInt(x,0)
/*直接获取一个以无符号整型值初始化的不带ID节点的缩略*/
#define lnu(x) nodeWithUInt(x,0)
/*直接获取一个以无符号长整形值初始化的节点的缩略*/
#define lnull(x) nodeWithULLInt(x,0)
/*直接获取一个以浮点值初始化的不带ID节点的缩略*/
#define lnd(x) nodeWithDouble(x,0)
/*直接获取一个以字符串值初始化的不带ID节点的缩略*/
#define lns(x) nodeWithString(x,0)
/*直接获取一个以指针值初始化的不带ID节点的缩略*/
#define lnp(x) nodeWithPointer(x,0)
/****
*ID模块的相关宏
*/
/*直接获取一个以整型值初始化的带ID节点的缩略*/
#define lsni(x) nodeWithInt(x,1)
/*直接获取一个以浮点值初始化的带ID节点的缩略*/
#define lsnd(x) nodeWithDouble(x,1)
/*直接获取一个以字符串值初始化的带ID节点的缩略*/
#define lsns(x) nodeWithString(x,1)
/*直接获取一个以指针值初始化的节点的缩略*/
#define lsnp(x) nodeWithPointer(x,1)
/************************************************
*
************************************************/
/****
*
*/
/*在链表尾部直接加入一个已经用整型值初始化的不带ID的节点*/
#define lisrti(list, x) insertInTail(list, lni(x));
/*在链表尾部直接加入一个已经用浮点值初始化的不带ID的节点*/
#define lisrtd(list, x) insertInTail(list, lnd(x));
/*在链表尾部直接加入一个已经用无符号整型值初始化的不带ID的节点*/
#define lisrtu(list, x) insertInTail(list, lnu(x));
/*在链表尾部直接加入一个已经用无符号长整型值初始化的不带ID的节点*/
#define lisrtull(list, x) insertInTail(list, lnull(x));
/*在链表尾部直接加入一个已经用指针值初始化的不带ID的节点*/
#define lisrtp(list, x) insertInTail(list, lnp(x));
/*在链表尾部直接加入一个已经用字符串值初始化的不带ID的节点*/
#define lisrts(list, x) insertInTail(list, lns(x));
/****
*
*/
/*在链表头部直接加入一个已经用整型值初始化的不带ID的节点*/
#define lisrhi(list, x) insertInHead(list, lni(x));
/*在链表头部直接加入一个已经用浮点值初始化的不带ID的节点*/
#define lisrhd(list, x) insertInHead(list, lnd(x));
/*在链表头部直接加入一个已经用无符号整型值初始化的不带ID的节点*/
#define lisrhu(list, x) insertInHead(list, lnu(x));
/*在链表头部直接加入一个已经用无符号长整型值初始化的不带ID的节点*/
#define lisrhull(list, x) insertInHead(list, lnull(x));
/*在链表头部直接加入一个已经用指针值初始化的不带ID的节点*/
#define lisrhp(list, x) insertInHead(list, lnp(x));
/*在链表头部直接加入一个已经用字符串值初始化的不带ID的节点*/
#define lisrhs(list, x) insertInHead(list, lns(x));
/************************************************
*
************************************************/
/*快速获得指针类型的节点所储存的值*/
#define lidxp(list, x) getByPointerForNode(findByIndexForNode(list, x))
/*快速获得整型类型的节点所储存的值*/
#define lidxi(list, x) getByIntForNode(findByIndexForNode(list, x))
/*快速获得浮点类型的节点所储存的值*/
#define lidxd(list, x) getByDoubleForNode(findByIndexForNode(list, x))
/*快速获得字符串类型的节点所储存的值*/
#define lidxs(list, x) getByStringForNode(findByIndexForNode(list, x))
/*快速获得无符号长整型类型的节点所储存的值*/
#define lupdull(list,x,value) updateValueWithULLIntForNode(findByIndexForNode(list, x),value)
/************************************************
*
************************************************/
/*通过节点的序号直接得到它的值*/
#define lidxvle(list,x) (findByIndexForNode(list, x)->value)
/*通过节点序号直接移除节点*/
#define lrmvidx(list,x) removeByNode(list, findByIndexForNode(list, x)
/*从列表头移除节点的缩略*/
#define lpoph(list) popFromHead(list)
/*从列表尾移除节点的缩略*/
#define lpopt(list) popFromTail(list)
/*通过节点的ID直接获得节点的值*/
#define lfndsid(list,sid) (findByIdForNode(list,sid)->value)
/*创建一个不带ID的链表的缩略*/
#define lstns() initList(0);
/*创建一个带有ID的链表缩略*/
#define lstn() initList(1);
#endif /* list_expand_1_h */
/************************************************
*便
************************************************/
/****
*
*/
/*
*使
*: argc指示传递参数的类型格式;args为需要返回的参数.*/
#define __SEND_ARG(argc, args...) newReturn(0, -1, argc , args)
/*
*使
*: name为回调函数名.*/
#define __CALLBACK_STATE(name) List *_do##name(unsigned int, void *, List *)
/*
*使
*: name为回调函数名.*/
#define __CALLBACK_DEFINE(name) List *_do##name(unsigned int type, void *value, List *expand_resources)
/*
*使
*: name为回调函数名.*/
#define __CALLBACK_CALL(name) _do##name
/*
*使
*: x为该值的顺序号, type为获取的指针值的类型.*/
#define __RTN_ARGS_P(list,x,type) (type *) lidxp(list, x);
/*
*使
*: x为该值的顺序号, type为获取的值的类型.*/
#define __RTN_ARGS(list,x,type) *((type *) lidxp(list, x));
/****
*
*/
/*
*使
*: c_type为获取值的类型.*/
#define __VALUE(c_type) (c_type)value
/*
*使
*: x为该值的顺序号, type为获取值的类型.*/
#define __ARGS(x, type) *((type *) lidxp(expand_resources, x));
/*
*使
*: x为该值的顺序号, type为获取的指针值的类型.*/
#define __ARGS_P(x, type) (type *) lidxp(expand_resources, x);
/*
*使
*/
#define __LIST_LEN getInfoForListThrough(expand_resources,0)
/*
*使
*/
#define __NOW_INDEX getInfoForListThrough(expand_resources,1)
/*
*使
*: argc指示返回参数的个数;args为需要返回的参数.*/
#define __RETURN(argc, args...) newReturn(1, -1, argc , args)
/*
*使
*/
#define __CRETURN__ newCReturn()

123
include/id/id.h Normal file
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#ifndef id_h
#define id_h
#include <type.h>
#include <id/md5.h>
/*
*SID的初始值管理及操作的结构
*/
struct sid_raw{
unsigned int type;
unsigned int *value;//4
unsigned int *value_deeper;//8
unsigned int *value_deepest;//32
};
/*
*SID的管理及操作的结构
*/
typedef struct s_id{
struct sid_raw *sr;//指向SID初始值
unsigned int deep;//SID初始值的复杂度
MD5_CTX *md5;//指向MD5结构
unsigned char *decrypt_hex;//指向MD5的Hex信息
char *decrypt_str;//指向MD5的Hex信息转化成的字符串
}SID;
/************************************************
:
************************************************/
/*
*SID
*: deep_level指示原始ID的复杂度,type指示SID所绑定的数据结构的数据类型
*: ,NULL.
*/
extern SID *getS_id(unsigned int type, unsigned int deep_level);
/*
*SID原始数据转换而成的字符串形式的MD5获得一个新的SID
*: ,NULL.
*/
extern SID *setS_idWithString(char *);
/*
*ID
*/
extern unsigned long long getId(void);
/************************************************
: ID的比较函数
************************************************/
/*
*SID
*: strcmp风格的返回值
*/
extern int fitS_id(SID * const fs_id, SID * const ss_id);\
/*
*SID
*: 1,0
*/
extern int simFitS_id(SID * fs_id, SID * ss_id);
/************************************************
: ID的转换函数
************************************************/
/*
*SID中的Hex形式的MD5数据转化成字符串形式的MD5
*/
extern void setSidToASCIIString(SID * const s_id);
char *s_idToASCIIString(SID * const s_id);
/************************************************
: ID的函数
************************************************/
/*
*SID,SID
*/
extern SID *copyS_id(SID *f_sid);
/************************************************
: ID的函数
************************************************/
/*
*SID原始数据所占的内存空间
*/
extern int freeSidRaw(SID *s_id);
/*
*SID所有已占用的内存空间
*/
extern int freeS_id(SID *s_id);
#endif /* id_h */

53
include/id/md5.h Normal file
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#ifndef md5_h
#define md5_h
#include <type.h>
#define F(x,y,z) ((x & y) | (~x & z))
#define G(x,y,z) ((x & z) | (y & ~z))
#define H(x,y,z) (x^y^z)
#define I(x,y,z) (y ^ (x | ~z))
#define ROTATE_LEFT(x,n) ((x << n) | (x >> (32-n)))
#define FF(a,b,c,d,x,s,ac) { \
a += F(b, c, d) + x + ac; \
a = ROTATE_LEFT(a, s); \
a += b; \
}
#define GG(a,b,c,d,x,s,ac) { \
a += G(b, c, d) + x + ac; \
a = ROTATE_LEFT(a, s); \
a += b; \
}
#define HH(a,b,c,d,x,s,ac) { \
a += H(b, c, d) + x + ac; \
a = ROTATE_LEFT(a, s); \
a += b; \
}
#define II(a,b,c,d,x,s,ac) { \
a += I(b, c, d) + x + ac; \
a = ROTATE_LEFT(a, s); \
a += b; \
}
/*
*MD5的管理及操作的结构
*/
typedef struct md5_ctx{
unsigned int count[2];
unsigned int state[4];
unsigned char buffer[64];
}MD5_CTX;
void MD5Init(MD5_CTX *context);
void MD5Update(MD5_CTX *context, unsigned char *input, unsigned long inputlen);
void MD5Final(MD5_CTX *context, unsigned char digest[16]);
void MD5Transform(unsigned int state[4], unsigned char block[64]);
void MD5Encode(unsigned char *output, unsigned int *input, unsigned long len);
void MD5Decode(unsigned int *output, unsigned char *input, unsigned long len);
#endif /* md5_h */

209
include/list/list.h Normal file
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#ifndef list_h
#define list_h
#include <list/list_type.h>
/************************************************
*
************************************************/
/*
*,,if_sid指示是否为新链表分配ID号
*: ,NULL.*/
#ifdef id_enable
extern List *initList(_Bool if_sid);
#else
extern List *initList(void);
#endif
/*
*,,if_sid指示是否为新节点分配ID号
*: ,NULL.*/
#ifdef id_enable
extern Node *initNode(_Bool if_sid);
#else
extern Node *initNode(void);
#endif
/*库中内部调用函数,旨在为新节点的储存值获取内存,并将相应的储存值储存在获取到的内存中,并指明储存值的类型.*/
extern int initMallocValueForNode(Node *,unsigned int,const void *);
/*************************************************
*:
*************************************************/
/*
**
*: 0,-1.*/
extern int insertInHead(List *p_list, Node *p_node);
/*
*
*: 0,-1.*/
extern int insertInTail(List *p_list, Node *p_node);
/*
*
*: t_node为指向目标节点的指针;p_node为指向新节点的指针;
*: 0,-1.*/
extern int insertAfterNode(List *p_list, Node *t_node, Node *p_node);
/*
*
*: t_node为指向目标节点的指针;p_node为指向新节点的指针;
*: 0,-1.*/
extern int insertBeforeNode(List *p_list, Node*t_node, Node *p_node);
/***********************************************
:
***********************************************/
/*
*,
*: t_node为指向目标节点的指针;p_node为指向新节点的指针;
*/
extern int replaceNode(List *p_list, Node *t_node, Node *p_node);
/*
*
*: t_node为指向目标节点的指针;p_node为指向新节点的指针;
*/
extern int exchangeNode(List *p_list, Node *f_node, Node *s_node);
/***********************************************
*:
***********************************************/
#ifdef id_enable
/*
*ID查找链表中的特定节点并从链表中移除相关节点,.
*0,-1.*/
extern int removeById(List *p_list, SID *s_id);
#endif
/*
*,
*0,-1.*/
extern int removeByNode(List *p_list, Node *p_node);
/*
*,,,便
*: ,NULL.*/
extern Node *popFromHead(List *p_list);
/*
*,,,便
*: ,NULL.*/
extern Node *popFromTail(List *p_list);
/***********************************************
*:
**********************************************/
#ifdef id_enable
/*
*ID查找链表中相关的单个节点
*: ,NULL.*/
extern Node *findByIdForNode(List *p_list, SID * s_id);
#endif
/*
*
*: type指明相关值的类型;value为指向储存相关值的内存的指针.
*: ,NULL.*/
extern Node *findByValue(List *p_list, unsigned int type, const void *value);
//void *findByIdForCustom(List *p_list, SID *s_id, int func(SID *));
/*
*.
*: type指明相关值的类型;value为指向储存相关值的内存的指针.
*: ,.NULL.*/
extern List *mply_findByValue(List *p_list, unsigned int type, const void *value);
/***********************************************
*: 使,
**********************************************/
/*
*.
*: func是一个函数指针, ,
0, 0.
*: 0,-1.*/
extern int sortListForCustom(List *p_list, int(*func)(Node *f_node, Node *s_node));
/***********************************************
*:
**********************************************/
/*
*
*: 0, -1.*/
extern int releaseList(List *p_list);
/*
*
*: func是一个函数指针,,.
*: 0, -1.*/
extern int releaseListForCustom(List *p_list, int (*func)(void *));
/*
*,
*: 0, -1.*/
extern int releaseListForSingle(List *p_list);
/*
*
*: 0, -1.*/
extern int releaseNode(Node *p_node);
/*
*
*: func是一个函数指针,,
* ,.
* 0,-1.
*: 0, -1.*/
extern int releaseNodeForCustom(Node *p_node, int (*func)(void *));
/*
*,
*: 0, -1.*/
extern int releaseOnlyNode(Node *p_node);
extern int isListEmpty(List *p_list);
/***********************************************
*
***********************************************/
static int if_safeModeForNode;
static List *node_list;
static List *list_list;
#endif

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@ -0,0 +1,79 @@
#ifndef list_simple_h
#define list_simple_h
#include <list/list_type.h>
/************************************************
*: ,
* 使.
************************************************/
/*
*, 使
*: ,NULL.*/
extern s_Node *s_nodeWithInt(int);
/*
*, 使
*: ,NULL.*/
extern s_Node *s_nodeWithUInt(unsigned int);
/*
*, 使
*: ,NULL.*/
extern s_Node *s_nodeWithDouble(double);
/*
*, 使
*: ,NULL.*/
extern s_Node *s_nodeWithString(const char *);
/*
*, 使
*: ,NULL.*/
extern s_Node *s_nodeWithPointer(const void *);
/*
*,List结构中.
*.,便.
*: ,NULL.*/
extern s_Node *s_initNode(void);
/*在单项链表的头部插入一个节点
*: 0,-1.*/
extern int s_insertInHead(List *p_list, s_Node *s_p_node);
/*
*
*: 0,-1.*/
extern int s_insertInTail(List *p_list, s_Node *s_p_node);
/*
*
*: 0, -1.*/
extern int s_releaseNode(s_Node *s_p_node);
/*
*
*: 0, -1.*/
extern int s_releaseList(List *p_list);
/*
*
*: func是一个函数指针,,
* ,.
* 0,-1.
*: 0, -1.*/
extern int s_releaseListForCustom(List *p_list, int (*func)(void *));
/*
*
*: func是一个函数指针,,
* ,.
* 0,-1.
*: 0, -1.*/
extern int s_releaseNodeForCustom(s_Node *s_p_node, int (*func)(void *));
#endif /* list_simple_h */

33
include/list/list_type.h Normal file
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#ifndef list_type_h
#define list_type_h
#ifdef id_enable
#include <id/id.h>
#endif
/*
*
*/
typedef struct Node{
unsigned int type;//类型
void *value;//值指针
struct Node *next;//指向下一个节点
struct Node *last;//指向上一个节点
#ifdef id_enable
SID *s_id;
#endif
} Node;
/*
*
*/
typedef struct List{
Node *head;//指向第一个节点
Node *tail;//指向最后一个节点
uint64_t length;
#ifdef id_enable
SID *s_id;
#endif
} List;
#endif /* list_type_h */

17
include/list/safe_mode.h Normal file
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@ -0,0 +1,17 @@
#ifndef safe_mode_h
#define safe_mode_h
#include <list/list_type.h>
/*********************************************************************************************************
*:,.,.
*:,使.,,.
*:使,..
*: 0,-1.
********************************************************************************************************/
extern int safeModeForNode(int ifon);
/*安全模式结束时调用,调用后将会释放所有在安全模式区间内用户已经分配过的链表和节点,安全模式将会关闭.*/
extern int releaseAllForNode(void);
#endif /* safe_mode_h */

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@ -1,8 +1,39 @@
#ifndef TREE_H #ifndef TREE_H
#define TREE_H #define TREE_H
#include <stdio.h> #include <list/list_type.h>
#include "../list/list_expand.h"
/*
*
*/
typedef struct tree_node
{
SID *s_id;//超级树节点的ID
List *home;//超级树节点的子节点列表
struct tree_node *father;//超级树节点的父节点
Node *room;//超级树节点的父节点的子节点列表
unsigned long long child_num;//超级树节点的子节点数量
unsigned int type;//超级树节点的类型
void *value;//值指针
}TNode;
/*
*
*/
typedef struct simple_tree_node{
void *value;//值指针
struct simple_tree_node *childs[2];//子节点
}s_TNode;
/*
*
*/
typedef struct tree
{
SID *s_id;//超级树的SID
TNode *root;//超级树根节点
s_TNode *s_root;//二叉树的根节点
}Tree;
int safeModeForTree(int ifon); int safeModeForTree(int ifon);
int releaseAllForTree(void); int releaseAllForTree(void);

92
include/type.h Normal file
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#ifndef type_h
#define type_h
#define list_quick_enable
#define id_enable
#include <stdio.h>
#include <string.h>
#include <time.h>
#include <stdlib.h>
#include <unistd.h>
#include <inttypes.h>
#include <stdarg.h>
#include <stdint.h>
#ifdef UNIX
#include <sys/types.h>
#include <sys/socket.h>
#include <netinet/in.h>
#include <arpa/inet.h>
#endif
/************************************************
*
************************************************/
#define VOID 0
#define INT 1
#define DOUBLE 2
#define STRING 3
#define POINTER 4
#define LIST 5
#define STACK 6
#define TREE 7
#define LIST_NODE 8
#define TREE_NODE 9
#define STACK_NODE 10
#define T_SID 11
#define UINT 12
#define STANDARD_DATA 13
#define DATA_FILE 14
#define MESSAGE 15
#define HOLE 16
#define ULLINT 17
/************************************************
*
************************************************/
#define DEEPC 1
#define DEEPB 2
#define DEEPA 3
#define TYPE_LEN 5
#define DEEPC_LEN 4
#define DEEPB_LEN 8
#define DEEPA_LEN 32
#define DATA_BIT 5
#define DEEP_LEN 25
#define DEEPER_LEN 65
#define DEEPEST_LEN 225
#define SID_LEN 33
#define FILE_TSET_LEN 18
#define HEAD_TEST_LEN 9
#define INFO_TEST_LEN 8
#define ENABLE_LIST_QUICK 65535
#define FN_NODE_SPARE 500
#define INDEX_CHANGE_MAX 500
#define INDEX_DISTANCE_MAX 120
#define STD_TEXT_LEN 4
#define HIGH 0x3
#define STANDARD 0x2
#define LOW 0x1
/************************************************
*
************************************************/
#define ABS(x) ((x>0)?(x):(-x))
#endif /* type_h */

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@ -1,567 +0,0 @@
#include "list.h"
static int if_safeModeForNode = 0;
static List *node_list = NULL;
static List *list_list = NULL;
int safeModeForNode(int ifon) {
if (ifon == 1) {
if (node_list == NULL && list_list == NULL) {
node_list = (List *)malloc(sizeof(List));
if(node_list == NULL){
showError(pushError(LIST, HIGH, initInfo("safeModeForNode()", "Error in getting the memory of node_list.")));
return -1;
}
list_list = (List *)malloc(sizeof(List));
if(list_list == NULL){
showError(pushError(LIST, HIGH, initInfo("safeModeForNode()", "Error in getting the memory of list_list.")));
return -1;
}
list_list->head = NULL;
list_list->length = 0;
list_list->tail = NULL;
node_list->head = NULL;
node_list->length = 0;
node_list->tail = NULL;
if_safeModeForNode = 1;
}
else {
return -1;
}
}
return ifon;
}
int releaseSingleListForsafeModeForNode(List *p_list) {
Node *p_node = p_list->head;
List *plv_node = NULL;
while (p_node != NULL) {
plv_node = (List *)p_node->value;
freeS_id(plv_node->s_id);
plv_node->head = NULL;
plv_node->length = 0;
plv_node->tail = NULL;
free(plv_node);
p_node = p_node->next;
}
p_list->head = NULL;
p_list->length = 0;
p_list->tail = NULL;
freeS_id(p_list->s_id);
free(p_list);
return 0;
}
int releaseSingleNodeForsafeModeForNode(List *p_list) {
Node *p_node = p_list->head;
Node *pnv_node = NULL;
while (p_node != NULL) {
pnv_node = (Node *)p_node->value;
freeS_id(pnv_node->s_id);
pnv_node->if_malloc = 0;
pnv_node->last = NULL;
pnv_node->next = NULL;
pnv_node->type = VOID;
pnv_node->value = NULL;
free(pnv_node);
p_node = p_node->next;
}
free(p_list->s_id);
p_list->head = NULL;
p_list->length = 0;
p_list->tail = NULL;
free(p_list);
return 0;
}
int releaseAllForNode(void) {
if (if_safeModeForNode == 1) {
if_safeModeForNode = 0;
releaseSingleNodeForsafeModeForNode(node_list);
releaseSingleListForsafeModeForNode(list_list);
}
return 0;
}
Node *initNode(void) {
Node *p_node = (Node *)malloc(sizeof(Node));
if(p_node == NULL){
showError(pushError(LIST_NODE, STANDARD, initInfo("initNode()", "Error in getting the memory of node.")));
return NULL;
}
Node *prec_node = NULL;
p_node->s_id = getS_id(LIST_NODE, 1);
p_node->if_sid = 1;
p_node->if_malloc = 0;
p_node->next = NULL;
p_node->last = NULL;
p_node->type = VOID;
if (if_safeModeForNode) {
if_safeModeForNode = 0;
prec_node = initNode();
if_safeModeForNode = 1;
initMallocValueForNode(prec_node, POINTER, (void *)p_node);
insertInTail(node_list, prec_node);
}
return p_node;
}
List *initList(void) {
Node *p_node = NULL;
List *p_list = (List *)malloc(sizeof(List));
if(p_list == NULL){
showError(pushError(LIST_NODE, STANDARD, initInfo("initList()", "Error in getting the memory of list.")));
return NULL;
}
p_list->s_id = getS_id(LIST, 1);
p_list->if_sid = 1;
p_list->head = NULL;
p_list->tail = NULL;
p_list->length = 0;
if (if_safeModeForNode) {
if_safeModeForNode = 0;
p_node = initNode();
if_safeModeForNode = 1;
initMallocValueForNode(p_node, POINTER, (void *)p_list);
insertInTail(list_list, p_node);
}
return p_list;
}
int initMallocValueForNode(Node *p_node, unsigned int type, const void *p_value) {
p_node->if_malloc = 1;
p_node->type = type;
p_node->value = (void *)p_value;
return 0;
}
int insertInHead(List *p_list, Node *p_node) {
if (isListEmpty(p_list)) {
p_list->head = p_node;
p_list->tail = p_node;
}
else {
p_list->head->last = p_node;
p_node->last = NULL;
p_node->next = p_list->head;
p_list->head = p_node;
}
p_list->length += 1;
return 0;
}
int insertInTail(List *p_list, Node *p_node) {
if (isListEmpty(p_list)) {
p_list->head = p_node;
p_list->tail = p_node;
}
else {
p_list->tail->next = p_node;
p_node->next = NULL;
p_node->last = p_list->tail;
p_list->tail = p_node;
}
p_list->length += 1;
return 0;
}
int releaseNode(Node *p_node) {
if (if_safeModeForNode == 1) {
removeByNode(node_list, p_node);
}
if (p_node->if_malloc == 1) {
if (p_node->type != POINTER) {
if (p_node->type == LIST) {
releaseList((List *)p_node->value);
}
else {
free(p_node->value);
}
}
p_node->value = NULL;
}
p_node->last = NULL;
p_node->next = NULL;
p_node->type = VOID;
p_node->value = NULL;
freeS_id(p_node->s_id);
p_node->if_malloc = 0;
free(p_node);
return 0;
}
int releaseList(List *p_list) {
Node *p_node, *pl_node;
p_node = p_list->head;
if (if_safeModeForNode == 1) {
Node *tar_list = findByValue(list_list, POINTER, (void *)p_list);//turn pointer in to int to compare.
removeByNode(list_list, tar_list);
}
while (p_node != NULL) {
pl_node = p_node;
p_node = p_node->next;
pl_node->next = NULL;
pl_node->last = NULL;
releaseNode(pl_node);
}
p_list->head = NULL;
p_list->tail = NULL;
p_list->length = 0;
freeS_id(p_list->s_id);
free(p_list);
return 0;
}
int releaseListForSingle(List *p_list) {
p_list->head = NULL;
p_list->tail = NULL;
freeS_id(p_list->s_id);
p_list->length = 0;
free(p_list);
return 0;
}
unsigned long long len(List *p_list) {
return p_list->length;
}
int removeById(List *p_list, const SID *s_id) {
Node *tmp = p_list->head;
if (isListEmpty(p_list))
return -1;
do {
if (simFitS_id(tmp->s_id, s_id)) {
if (tmp != p_list->head) {
tmp->last->next = tmp->next;
}
else {
p_list->head = tmp->next;
}
if (tmp != p_list->tail) {
tmp->next->last = tmp->last;
}
else {
p_list->tail = tmp->last;
}
p_list->length -= 1;
return 1;//found
}
else {
tmp = tmp->next;
}
} while (tmp != NULL);
return 0;//not find
}
int removeByNode(List *p_list, Node *p_node) {
Node *tmp = p_list->head;
if (isListEmpty(p_list))
return -1;
do {
if (tmp == p_node) {
tmp->last->next = tmp->next;
tmp->next->last = tmp->last;
p_list->length -= 1;
return 1;//found
}
else {
tmp = tmp->next;
}
} while (tmp != NULL);
return 0;//not find
}
int popFromHead(List *p_list) {
if (isListEmpty(p_list))
return -1;
else {
//Node *tmp = p_list->head;
p_list->head->next->last = NULL;
p_list->head = p_list->head->next;
//releaseNode(tmp); not necessary
p_list->length -= 1;
}
if (isListEmpty(p_list)) {
p_list->head = NULL;
p_list->tail = NULL;
}
return 0;
}
int popFromTail(List *p_list) {
if (isListEmpty(p_list))
return -1;
else {
//Node *tmp = p_list->tail;
p_list->tail->last->next = NULL;
p_list->tail = p_list->tail->last;
//releaseNode(tmp); not necessary
p_list->length -= 1;
}
if (isListEmpty(p_list)) {
p_list->head = NULL;
p_list->tail = NULL;
}
return 0;
}
Node *findByIdForNode(List *p_list, const SID *s_id) {
Node *ph_node = p_list->head;
Node *pt_node = p_list->tail;
int direction = 0;
while (ph_node != pt_node) {
if (direction == 0) {
if (simFitS_id(ph_node->s_id, s_id)) {
return ph_node;
}
else {
ph_node = ph_node->next;
}
direction = 1;
}
else {
if (simFitS_id(pt_node->s_id, s_id)) {
return pt_node;
}
else {
pt_node = pt_node->last;
}
}
}
return NULL;
}
Node *findByValue(List *p_list, unsigned int type, const void *value) {
Node *p_node = p_list->head;
while (p_node != NULL) {
if (p_node->type != type) {
p_node = p_node->next;
continue;
}
if (type == INT) {
if (*((int *)p_node->value) == *((int *)value)) {
return copyNode(p_node);
}
}
else if (type == DOUBLE) {
if (*((double *)p_node->value) == *((double *)value)) {
return copyNode(p_node);
}
}
else if (type == STRING) {
if (!strcmp((char *)p_node->value, (char *)value))
{
return copyNode(p_node);
}
}
else if (type == POINTER) {
if (p_node->value == value) {
return copyNode(p_node);
}
}
p_node = p_node->next;
}
return NULL;
}
List *mply_findByValue(List *p_list, unsigned int type, const void *value) {
List *f_list = initList();
Node *p_node = p_list->head;
while (p_node != NULL) {
if (p_node->type != type) {
p_node = p_node->next;
continue;
}
if (type == INT) {
if (*((int *)p_node->value) == *((int *)value)) {
Node *f_node = copyNode(p_node);
insertInTail(f_list, f_node);
}
}
else if (type == DOUBLE) {
if (*((double *)p_node->value) == *((double *)value)) {
Node *f_node = copyNode(p_node);
insertInTail(f_list, f_node);
}
}
else if (type == STRING) {
if (!strcmp((char *)p_node->value, (char *)value))
{
Node *f_node = copyNode(p_node);
insertInTail(f_list, f_node);
}
}
else if (type == POINTER) {
if (p_node->value == value) {
Node *f_node = copyNode(p_node);
insertInTail(f_list, f_node);
}
}
p_node = p_node->next;
}
return f_list;
}
int isListEmpty(List *p_list) {
if (p_list->head == NULL || p_list->tail == NULL)// If its head or tail is NULL,it would be thought as empty.
return 1; // But we should ensure that both of them are NULL when we
return 0; // want to make a list empty.
}
int exchangeLocation(Node *p_node, Node *t_node) {
Node *temp_next = p_node->next;
Node *temp_last = p_node->last;
p_node->last->next = t_node;
p_node->next->last = t_node;
t_node->last->next = p_node;
t_node->next->last = p_node;
p_node->next = t_node->next;
p_node->last = t_node->last;
t_node->next = temp_next;
t_node->last = temp_last;
return 0;
}
Node *copyNode(Node *p_node) {
Node *t_node = initNode();
t_node->s_id = p_node->s_id;
t_node->last = p_node->last;
t_node->next = p_node->next;
t_node->if_malloc = p_node->if_malloc;
t_node->type = p_node->type;
t_node->value = p_node->value;
return t_node;
}
List *copyList(List *p_list) {
Node *p_node;
Node *t_node;
List *t_list = initList();
t_list->head = p_list->head;
t_list->tail = p_list->tail;
t_list->s_id = p_list->s_id;
p_node = p_list->head;
while (p_node != NULL) {
t_node = copyNode(p_node);
insertInTail(t_list, t_node);
p_node = p_node->next;
}
return t_list;
}
int releaseOnlyNode(Node *p_node) {
freeS_id(p_node->s_id);
p_node->if_malloc = 0;
p_node->last = NULL;
p_node->next = NULL;
p_node->type = VOID;
p_node->value = NULL;
free(p_node);
return 0;
}
int releaseNodeForCustom(Node *p_node, int (*func)(void *)){
if (if_safeModeForNode == 1) {
removeByNode(node_list, p_node);
}
if (p_node->if_malloc == 1) {
if (func(p_node->value))
showError(pushError(LIST_NODE, STANDARD, initInfo("releaseNodeForCustom()", "Error in using custom freeing value function.")));
p_node->value = NULL;
}
p_node->last = NULL;
p_node->next = NULL;
p_node->type = VOID;
p_node->value = NULL;
freeS_id(p_node->s_id);
p_node->if_malloc = 0;
free(p_node);
return 0;
}
int releaseListForCustom(List *p_list, int (*func)(void *)){
Node *p_node, *pl_node;
p_node = p_list->head;
if (if_safeModeForNode == 1) {
Node *tar_list = findByValue(list_list, POINTER, (void *)p_list);
removeByNode(list_list, tar_list);
}
while (p_node != NULL) {
pl_node = p_node;
p_node = p_node->next;
pl_node->next = NULL;
pl_node->last = NULL;
releaseNodeForCustom(pl_node,func);
}
p_list->head = NULL;
p_list->tail = NULL;
p_list->length = 0;
freeS_id(p_list->s_id);
free(p_list);
return 0;
}
int pushInfo(Info *p_info, const char *head, const char *body) {
strcpy(p_info->head, head);
strcpy(p_info->body, body);
return 0;
}
Error *pushError(unsigned int type, int pri, Info *p_info) {
Error *p_error = (Error *)malloc(sizeof(Error));
p_error->type = type;
p_error->priority = pri;
p_error->info = *p_info;
p_error->time = time(NULL);
free(p_info);
return p_error;
}
Notice *pushNotice(unsigned int type, Info *p_info) {
Notice *p_notice = (Notice *)malloc(sizeof(Notice));
p_notice->type = type;
p_notice->info = *p_info;
p_notice->time = time(NULL);
free(p_info);
return p_notice;
}
Info *initInfo(const char *head, const char *body){
Info *p_info = (Info *)malloc(sizeof(Info));
pushInfo(p_info, head, body);
return p_info;
}
int showError(Error *p_error){
printf("\n");
for (int i = 0; i < p_error->priority; i++) {
printf("!");
}
printf("(Error) %s\n",asctime(localtime(&p_error->time)));
printf("%s: %s.\n",p_error->info.head,p_error->info.body);
free(p_error);
return 0;
}
int showWarning(Notice *p_notice){
printf("\n@");
printf("(Warning) %s\n",asctime(localtime(&p_notice->time)));
printf("%s: %s.\n",p_notice->info.head,p_notice->info.body);
free(p_notice);
return 0;
}

View File

@ -1,58 +0,0 @@
#ifndef LIST_H
#define LIST_H
#include "../type/type.h"
#include "../id/id.h"
int safeModeForNode(int ifon);
int releaseSingleListForsafeModeForNode(List *p_list);
int releaseSingleNodeForsafeModeForNode(List *p_list);
int releaseAllForNode(void);
List *initList(void);
Node *initNode(void);
int initMallocValueForNode(Node *,unsigned int,const void *);
int insertInHead(List *p_list, Node *p_node);
int insertInTail(List *p_list, Node *p_node);
int exchangeLocation(Node *p_node,Node *t_node);
Node *copyNode(Node *);
int removeById(List *p_list, const SID *s_id);
int removeByNode(List *p_list, Node *p_node);
int popFromHead(List *p_list);
int popFromTail(List *p_list);
unsigned long long len(List *p_list);
Node *findByIdForNode(List *p_list, const SID *s_id);
Node *findByValue(List *p_list, unsigned int type, const void *value);
List *mply_findByValue(List *p_list, unsigned int type, const void *value);
int releaseList(List *p_list);
int releaseListForCustom(List *p_list, int (*func)(void *));
int releaseListForSingle(List *p_list);
int releaseNode(Node *p_node);
int releaseNodeForCustom(Node *p_node, int (*func)(void *));
int releaseOnlyNode(Node *p_node);
int isListEmpty(List *p_list);
List *copyList(List *p_list);
int pushInfo(Info *p_info, const char *head,const char *body);
Error *pushError(unsigned int type, int pri, Info *p_info);
Notice *pushNotice(unsigned int type, Info *p_info);
Info *initInfo(const char *head, const char *body);
Error *createError(Info *info,unsigned int type,int pri);
Notice *createWarning(Info *info, unsigned int type, int pri);
int showError(Error *);
int showWarning(Notice *);
static int if_safeModeForNode;
static List *node_list;
static List *list_list;
#endif

View File

@ -1,475 +0,0 @@
#include "list_expand.h"
Node *nodeWithInt(int m_int) {
Node *p_node;
int *p_int = (int *)malloc(sizeof(int));
if(p_int == NULL){
showError(pushError(INT, STANDARD, initInfo("nodeWithInt()", "Error in getting the memory of int.")));
return NULL;
}
*p_int = m_int;
p_node = initNode();
initMallocValueForNode(p_node, INT, (void *)p_int);
return p_node;
}
Node *nodeWithUInt(unsigned int m_uint){
Node *p_node;
unsigned int *pu_int = (unsigned int *)malloc(sizeof(unsigned int));
if(pu_int == NULL){
showError(pushError(INT, STANDARD, initInfo("nodeWithUInt()", "Error in getting the memory of int.")));
return NULL;
}
*pu_int = m_uint;
p_node = initNode();
initMallocValueForNode(p_node, INT, (void *)pu_int);
return p_node;
}
Node *nodeWithDouble(double m_double) {
Node *p_node;
double *p_double = (double *)malloc(sizeof(double));
if(p_double == NULL){
showError(pushError(DOUBLE, STANDARD, initInfo("nodeWithDouble()", "Error in getting the memory of double.")));
return NULL;
}
*p_double = m_double;
p_node = initNode();
initMallocValueForNode(p_node, DOUBLE, (void *)p_double);
return p_node;
}
Node *nodeWithString(const char *m_string) {
Node *p_node;
char *p_string = (char *)malloc(sizeof(char)*(strlen(m_string) + 1));
if(p_string == NULL){
showError(pushError(STRING, STANDARD, initInfo("initWithString()", "Error in getting the memory of string.")));
return NULL;
}
strcpy(p_string, m_string);
p_node = initNode();
initMallocValueForNode(p_node, STRING, (void *)p_string);
return p_node;
}
Node *nodeWithPointer(const void *m_pointer) {
Node *p_node = initNode();
initMallocValueForNode(p_node, POINTER, m_pointer);
return p_node;
}
Node *nodeWithComplex(void) {
Node *p_node = initNode();
p_node->type = LIST;
p_node->value = initList();
p_node->if_malloc = 1;
return p_node;
}
Node *findByIndexForNode(List *p_list, unsigned long long m_index) {
Node *p_node = p_list->head;
unsigned long long i;
for (i = 0; i < m_index; i++) {
p_node = p_node->next;
}
return p_node;
}
List *listThrough(List *p_list, List *(*p_func)(unsigned int, void *, List *), List *expand_resources) {
Node *p_node = p_list->head;
List *m_rtnlst = NULL;
while (p_node != NULL) {
if (p_node->if_malloc == 1) {
List *m_rtnlst = (*p_func)(p_node->type, p_node->value, expand_resources);
int status = getByIntForNode(findByIndexForNode(m_rtnlst, 0));
if (status == -1) break;
else if (status == 1) {
p_node = p_node->last;
releaseList(m_rtnlst);
m_rtnlst = NULL;
continue;
}
else {
releaseList(m_rtnlst);
m_rtnlst = NULL;
}
}
p_node = p_node->next;
}
return m_rtnlst;
}
int getByIntForNode(Node *p_node) {
if (p_node->type == INT) return *(int *)(p_node->value);
else return -1;
}
unsigned int getByUIntForNode(Node *p_node){
if (p_node->type == UINT) return *(unsigned int *)(p_node->value);
else return -1;
}
char *getByStringForNode(Node *p_node) {
if (p_node->type == STRING) return (char *)(p_node->value);
else return NULL;
}
double getByDoubleForNode(Node *p_node) {
if (p_node->type == DOUBLE) return *(double *)(p_node->value);
else return -1;
}
void *getByPointerForNode(Node *p_node) {
if (p_node->type == POINTER) return (void *)(p_node->value);
else return NULL;
}
void printListInfo(List *p_list, int priority) {
int i = 0;
Node *p_node;
for (i = 0; i < priority; i++) printf(" ");
printf("###LIST(location:%p, id:%s){\n", p_list, s_idToASCIIString(p_list->s_id));
for (i = 0; i < priority + 1; i++) printf(" ");
printf("HEAD->%p / Tail->%p / Length:%llu\n", p_list->head, p_list->tail, p_list->length);
p_node = p_list->head;
while (p_node != NULL) {
for (i = 0; i < priority + 1; i++) printf(" ");
printf("%d.... \n", i);
printNodeInfo(p_node, priority + 1);
p_node = p_node->next;
i++;
}
for (i = 0; i < priority; i++) printf(" ");
printf("}\n");
}
void printList(List *p_list) {
int if_nearLast = 0;
Node *p_node = p_list->head;
printf("[");
while (p_node != NULL) {
if (!if_nearLast && p_node->next == NULL) if_nearLast = 1;
if (p_node->type == INT) {
printf("%d", *(int *)(p_node->value));
}
else if (p_node->type == DOUBLE) {
printf("%a", *(double *)(p_node->value));
}
else if (p_node->type == STRING) {
printf("%s", (char *)(p_node->value));
}
else if (p_node->type == POINTER) {
printf("%p", (char *)(p_node->value));
}
else if (p_node->type == LIST) {
printList((List *)p_node->value);
}
if (!if_nearLast) {
printf(", ");
}
p_node = p_node->next;
}
printf("]");
}
void printNodeInfo(Node *p_node, int priority) {
int i;
for (i = 0; i < priority; i++) printf(" ");
printf("#NODE(location:%p, id:%s){\n", p_node, s_idToASCIIString(p_node->s_id));
for (i = 0; i < priority + 1; i++) printf(" ");
printf("NEXT->%p / LAST->%p / MALLOC:%d\n", p_node->next, p_node->last, p_node->if_malloc);
if (p_node->type == INT) {
for (i = 0; i < priority + 1; i++) printf(" ");
printf("VALUE(int):%d\n", *(int *)(p_node->value));
}
else if (p_node->type == DOUBLE) {
for (i = 0; i < priority + 1; i++) printf(" ");
printf("VALUE(double):%a\n", *(double *)(p_node->value));
}
else if (p_node->type == STRING) {
for (i = 0; i < priority + 1; i++) printf(" ");
printf("VALUE(string):%s\n", (char *)(p_node->value));
}
else if (p_node->type == POINTER) {
for (i = 0; i < priority + 1; i++) printf(" ");
printf("VALUE(pointer):%s\n", (char *)(p_node->value));
}
else if (p_node->type == LIST) {
for (i = 0; i < priority + 1; i++) printf(" ");
printf("VALUE(List):\n");
printListInfo((List *)p_node->value, priority + 2);
}
for (i = 0; i < priority; i++) printf(" ");
printf("}\n");
}
void printNode(Node *p_node) {
int i;
printf("#NODE(location:%p, id:%s){\n", p_node, s_idToASCIIString(p_node->s_id));
printf(" ");
printf("NEXT->%p / LAST->%p\n", p_node->next, p_node->last);
for (i = 0; i < 1; i++) printf(" ");
printf("ifMalloc: ");
if (p_node->if_malloc) {
printf("YES\n");
for (i = 0; i < 1; i++) printf(" ");
printf("Value(type: %d): ", p_node->type);
if (p_node->type == INT) {
printf("%d", *(int *)(p_node->value));
}
else if (p_node->type == DOUBLE) {
printf("%a\n", *(double *)(p_node->value));
}
else if (p_node->type == STRING) {
printf("%s\n", (char *)(p_node->value));
}
else if (p_node->type == POINTER) {
printf("%p\n", (char *)(p_node->value));
}
else if (p_node->type == LIST) {
printList((List *)p_node->value);
}
}
else printf("NO\n");
printf("}\n");
}
Node *findByIntForNode(List *p_list, int target) {
Node *t_node;
int *p_target = (int *)malloc(sizeof(int));
*p_target = target;
t_node = findByValue(p_list, INT, p_target);
free(p_target);
return t_node;
}
Node *findByDoubleForNode(List *p_list, double target) {
Node *t_node;
double *p_target = (double *)malloc(sizeof(double));
*p_target = target;
t_node = findByValue(p_list, DOUBLE, p_target);
free(p_target);
return t_node;
}
Node *findByStringForNode(List *p_list, char *target) {
Node *t_node;
char *p_temp = (char *)malloc(sizeof(char)*(strlen(target) + 1));
strcpy(p_temp, target);
t_node = findByValue(p_list, STRING, p_temp);
free(p_temp);
return t_node;
}
Node *findByPointerForNode(List *p_list, void *target) {
Node *t_node = findByValue(p_list, POINTER, target);
return t_node;
}
int addValueForComplex(Node * p_node, int type, void *value) {
List *c_list;
Node *c_node;
if (p_node->type == LIST) {
c_list = (List *)p_node->value;
c_node = initNode();
initMallocValueForNode(c_node, type, value);
insertInTail(c_list, c_node);
return 0;
}
return -1;
}
int addIntForComplex(Node *p_node, int temp) {
if (p_node->type == LIST) {
int *p_temp = (int *)malloc(sizeof(int));
if(p_temp == NULL){
showError(pushError(INT, STANDARD, initInfo("addIntForComplex()", "Error in getting the memory of int.")));
return -1;
}
*p_temp = temp;
addValueForComplex(p_node, INT, p_temp);
return 0;
}
return -1;
}
int addDoubleForComplex(Node *p_node, double temp) {
if (p_node->type == LIST) {
double *p_temp = (double *)malloc(sizeof(double));
if(p_temp == NULL){
showError(pushError(DOUBLE, STANDARD, initInfo("addDoubleForComplex()", "Error in getting the memory of double.")));
return -1;
}
*p_temp = temp;
addValueForComplex(p_node, DOUBLE, p_temp);
return 0;
}
return -1;
}
int addStringForComplex(Node *p_node, char *temp) {
if (p_node->type == LIST) {
char *p_temp = (char *)malloc(sizeof(strlen(temp) + 1));
if(p_temp == NULL){
showError(pushError(STRING, STANDARD, initInfo("addStringForComplex()", "Error in getting the memory of string.")));
return -1;
}
strcpy(p_temp, temp);
addValueForComplex(p_node, STRING, p_temp);
return 0;
}
return -1;
}
int addPointerForComplex(Node *p_node, void *temp) {
if (p_node->type == LIST) {
addValueForComplex(p_node, POINTER, temp);
return 0;
}
return -1;
}
List *m_findByInt(List* p_list, int temp) {
int *p_temp = (int *)malloc(sizeof(int));
if(p_temp == NULL){
showError(pushError(INT, STANDARD, initInfo("m_findByInt()", "Error in getting the memory of int.")));
return NULL;
}
List *t_list;
*p_temp = temp;
t_list = mply_findByValue(p_list, INT, (void *)p_temp);
free(p_temp);
return t_list;
}
List *m_findByDouble(List* p_list, double temp) {
List *t_list;
double *p_temp = (double *)malloc(sizeof(double));
if(p_temp == NULL){
showError(pushError(DOUBLE, STANDARD, initInfo("m_findByDouble()", "Error in getting the memory of double.")));
return NULL;
}
*p_temp = temp;
t_list = mply_findByValue(p_list, DOUBLE, (void *)p_temp);
free(p_temp);
return t_list;
}
List *m_findByString(List* p_list, char *temp) {
List *t_list;
char *p_temp = (char *)malloc(sizeof(char)*(strlen(temp) + 1));
if(p_temp == NULL){
showError(pushError(STRING, STANDARD, initInfo("m_findByString()", "Error in getting the memory of string.")));
return NULL;
}
strcpy(p_temp, temp);
t_list = mply_findByValue(p_list, STRING, (void *)p_temp);
free(p_temp);
return t_list;
}
List *m_findByPointer(List* p_list, void *temp) {
List *t_list = mply_findByValue(p_list, DOUBLE, (void *)temp);
return t_list;
}
unsigned long long getIndexByNode(List *p_list, Node *p_node) {
Node *t_node = p_list->head;
unsigned long long index = 0;
while (t_node != NULL) {
if (p_node->s_id == t_node->s_id) return index;
index++;
t_node = t_node->next;
}
return 0;
}
List *m_findByIntForNode(List* p_list, int temp) {
int *p_temp = (int *)malloc(sizeof(int));
if(p_temp == NULL){
showError(pushError(INT, STANDARD, initInfo("m_findByIntForNode()", "Error in getting the memory of int.")));
return NULL;
}
*p_temp = temp;
return mply_findByValue(p_list, INT, (void *)p_temp);
}
List *m_findByDoubleForNode(List* p_list, double temp) {
double *p_temp = (double *)malloc(sizeof(double));
if(p_temp == NULL){
showError(pushError(DOUBLE, STANDARD, initInfo("m_findByDoubleForNode()", "Error in getting the memory of double.")));
return NULL;
}
*p_temp = temp;
return mply_findByValue(p_list, DOUBLE, (void *)p_temp);
}
List *m_findByStringForNode(List* p_list, char *temp) {
char *p_temp = (char *)malloc(sizeof(char) * (strlen(temp) + 1));
if(p_temp == NULL){
showError(pushError(STRING, STANDARD, initInfo("m_findByStringForNode()", "Error in getting the memory of string.")));
return NULL;
}
strcpy(p_temp, temp);
return mply_findByValue(p_list, STRING, (void *)p_temp);
}
List *m_findByPointerForNode(List* p_list, void *temp) {
return mply_findByValue(p_list, POINTER, (void *)temp);
}
unsigned long long calListMemory(List * p_list){
Node *p_node = p_list->head;
unsigned long long nodes_size = 0LL;
unsigned long long list_size = sizeof(p_list);
while(p_node != NULL){
nodes_size += sizeof(p_node);
p_node = p_node->next;
}
return list_size + nodes_size;
}
int updateValueWithInt(Node *p_node,int value){
int *p_value = (int *)malloc(sizeof(int));
if(p_value == NULL){
showError(pushError(INT, STANDARD, initInfo("updateValueWithInt()", "Error in getting the memory of int.")));
return -1;
}
*p_value = value;
free(p_node->value);
p_node->value = p_value;
return 0;
}
int updateValueWithDouble(Node *p_node, double value){
double *p_value = (double *)malloc(sizeof(double));
if(p_value == NULL){
showError(pushError(DOUBLE, STANDARD, initInfo("updateValueWithDouble()", "Error in getting the memory of double.")));
return -1;
}
*p_value = value;
free(p_node->value);
p_node->value = p_value;
return 0;
}
int updateValueWithString(Node *p_node, char *string){
char *p_value = (char *)malloc(sizeof(strlen(string)) + 1);
if(p_value == NULL){
showError(pushError(STRING, STANDARD, initInfo("updateValueWithString()", "Error in getting the memory of string.")));
return -1;
}
strcpy(p_value, string);
free(p_node->value);
p_node->value = p_value;
return 0;
}
int updateValueWithPointer(Node *p_node, void *pointer){
free(p_node->value);
p_node->value = pointer;
return 0;
}

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@ -1,50 +0,0 @@
#ifndef LIST_EXPAND_H
#define LIST_EXPAND_H
#include "list.h"
Node *nodeWithInt(int);
Node *nodeWithUInt(unsigned int);
Node *nodeWithDouble(double);
Node *nodeWithString(const char *);
Node *nodeWithPointer(const void *);
Node *nodeWithComplex(void);
int addValueForComplex(Node *, int type, void *value);
int addIntForComplex(Node *, int);
int addDoubleForComplex(Node *, double);
int addStringForComplex(Node *, char *);
int addPointerForComplex(Node *, void *);
int updateValueWithInt(Node *,int);
int updateValueWithDouble(Node *,double);
int updateValueWithString(Node *,char *);
int updateValueWithPointer(Node *,void *);
Node *findByIndexForNode(List *, unsigned long long);
Node *findByIntForNode(List *, int);
Node *findByDoubleForNode(List *, double);
Node *findByStringForNode(List *, char *);
Node *findByPointerForNode(List *, void *);
List *m_findByIntForNode(List*, int);
List *m_findByDoubleForNode(List*, double);
List *m_findByStringForNode(List*, char *);
List *m_findByPointerForNode(List*, void *);
void printListInfo(List *p_list,int priority);
void printNodeInfo(Node *p_node,int priority);
void printList(List *);
void printNode(Node *p_node);
int getByIntForNode(Node *);
unsigned int getByUIntForNode(Node *);
double getByDoubleForNode(Node *);
char *getByStringForNode(Node *);
void *getByPointerForNode(Node *);
unsigned long long getIndexByNode(List *p_list,Node *p_node);
List *listThrough(List *p_list, List *(*p_func)(unsigned int type, void *value, List *), List *expand_resources);
unsigned long long calListMemory(List *);
#endif

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#include <type.h>
#include <id/id.h>
#include <chain/chain.h>
#include <event/event.h>
#include <communicate/communicate_file.h>
MSG *createMessage(char *title, void *data, unsigned long data_size){
MSG *p_msg = malloc(sizeof(MSG) + data_size);
p_msg->p_sid = getS_id(MESSAGE, 1);
p_msg->time = time(NULL);
return p_msg;
}
/*int sendMessageIPv4(MSG *p_msg, char *ip, unsigned int port){
int client_sockfd;
struct sockaddr_in remote_addr;
char buf[BUFSIZ];
memcpy(buf, "ZEMSG", 5);
memset(&remote_addr,0,sizeof(remote_addr));
remote_addr.sin_family=AF_INET;
remote_addr.sin_addr.s_addr=inet_addr(ip);
remote_addr.sin_port=htons(port);
client_sockfd=socket(PF_INET,SOCK_STREAM,0);
connect(client_sockfd,(struct sockaddr *)&remote_addr,sizeof(struct sockaddr));
send(client_sockfd,buf,strlen(buf),0);
unsigned long bkmsg_len = 0;
bkmsg_len = recv(client_sockfd, buf, BUFSIZ, 0);
buf[bkmsg_len] = '\0';
if(!strcmp(buf, "TITLE_REV_READY")){
memcpy(buf, p_msg->titile, strlen(p_msg->titile));
bkmsg_len = recv(client_sockfd, buf, BUFSIZ, 0);
buf[bkmsg_len] = '\0';
if(!strcmp(buf, "CONTENT_LEN_REV_READY")){
memcpy(buf, (char *)p_msg->size, sizeof(unsigned int));
send(client_sockfd,buf,sizeof(unsigned int),0);
bkmsg_len = recv(client_sockfd, buf, BUFSIZ, 0);
buf[bkmsg_len] = '\0';
if(!strcmp(buf, "CONTENT_REV_READY")){
memcpy(buf, p_msg->content, p_msg->size);
send(client_sockfd,buf,p_msg->size,0);
close(client_sockfd);
return 0;
}
}
}
close(client_sockfd);
return -1;
}*/

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#include <type.h>
#include <id/id.h>
#include <chain/chain.h>
#include <event/event.h>
#include <communicate/communicate_file.h>
int dataFileReadOut(D_FILE *p_dfile){
if(!readDataFileInfo(p_dfile)){
listThrough(p_dfile->pf_stdlst, __CALLBACK_CALL(dataFileReadOut), __SEND_ARG("%p", p_dfile));
}
return -1;
}
__CALLBACK_DEFINE(dataFileReadOut){
D_FILE *p_dfile = __ARGS_P(0, D_FILE);
readStandardData(p_dfile, __VALUE(STD_DATA *));
return __CRETURN__;
}
int readDataFileInfo(D_FILE *p_dfile){
if(checkIfDataFile(p_dfile)){
uint32_t std_num = 0,std_size;
uint16_t std_type = VOID;
char info_begin[INFO_TEST_LEN], s_id[SID_LEN];
uint32_t location = 0;
fread(&std_num, sizeof(uint32_t), 1, p_dfile->fp);
fread(info_begin, sizeof(char),INFO_TEST_LEN,p_dfile->fp);
location += INFO_TEST_LEN + sizeof(uint32_t) + FILE_TSET_LEN;
if(!strcmp(info_begin, "STDINFO")){
location += std_num * 45 + 7;
for(int i = 0; i < std_num; i++){
fread(s_id, sizeof(char), SID_LEN, p_dfile->fp);
fread(&std_type, sizeof(uint16_t), 1, p_dfile->fp);
fread(&std_size, sizeof(uint32_t), 1, p_dfile->fp);
SID *temp_sid = setS_idWithString(s_id);
STD_DATA *p_std = initStandardData(std_type,temp_sid);
freeS_id(temp_sid);
p_std->size = std_size;
p_std->type = std_type;
p_std->location = location;
dataFileAddStandardData(p_dfile, p_std);
location += std_size;
}
}
}
return 0;
}

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#include <type.h>
#include <id/id.h>
#include <chain/chain.h>
#include <event/event.h>
#include <communicate/communicate_file.h>
int checkIfDataFile(D_FILE *p_dfile){
char test_info[FILE_TSET_LEN];
fread(test_info, sizeof(char), FILE_TSET_LEN, p_dfile->fp);
strcpy(p_dfile->pf_head->head_test, test_info);
if(!strcmp(test_info, "ZESTDLIB_STDDFILE"))return 1;
return 0;
}

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#include <type.h>
#include <id/id.h>
#include <chain/chain.h>
#include <event/event.h>
#include <communicate/communicate_file.h>
D_FILE *initDataFileForWrite(char *route){
D_FILE *p_dfile = (D_FILE *)malloc(sizeof(D_FILE));
p_dfile->fp = fopen(route, "wb");
p_dfile->pf_head = (F_HEAD *)malloc(sizeof(F_HEAD));
strcpy(p_dfile->pf_head->head_test,"ZESTDLIB_STDDFILE");
p_dfile->pf_head->data_num = 0;
p_dfile->pf_stdlst = initList(0);
return p_dfile;
}
D_FILE *initDataFileForRead(char *route){
D_FILE *p_dfile = (D_FILE *)malloc(sizeof(D_FILE));
p_dfile->fp = fopen(route, "rb");
p_dfile->pf_head = (F_HEAD *)malloc(sizeof(F_HEAD));
p_dfile->pf_head->data_num = 0;
p_dfile->pf_stdlst = initList(0);
return p_dfile;
}

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#include <type.h>
#include <id/id.h>
#include <chain/chain.h>
#include <event/event.h>
#include <communicate/communicate_file.h>
int dataFileAddStandardData(D_FILE *p_dfile, STD_DATA *p_std){
insertInTail(p_dfile->pf_stdlst, nodeWithPointer(p_std,0));
p_dfile->pf_head->data_num = (uint32_t)p_dfile->pf_stdlst->length;
return 0;
}

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#include <type.h>
#include <id/id.h>
#include <chain/chain.h>
#include <event/event.h>
#include <communicate/communicate_file.h>
int dataFileWriteIn(D_FILE *p_dfile){
fwrite(p_dfile->pf_head->head_test, sizeof(char), 18, p_dfile->fp);
fwrite(&p_dfile->pf_head->data_num, sizeof(uint32_t), 1, p_dfile->fp);
fwrite("STDINFO", sizeof(char), 8, p_dfile->fp);
listThrough(p_dfile->pf_stdlst, __CALLBACK_CALL(StandardDataInfoWrite), __SEND_ARG("%p", p_dfile->fp));
fwrite("STDLST", sizeof(char), 7, p_dfile->fp);
listThrough(p_dfile->pf_stdlst, __CALLBACK_CALL(StandardDataWrite), __SEND_ARG("%p", p_dfile->fp));
return 0;
}

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#include <type.h>
#include <id/id.h>
#include <chain/chain.h>
#include <event/event.h>
#include <communicate/communicate_file.h>
int releaseDFile(D_FILE *p_dfile){
releaseListForCustom(p_dfile->pf_stdlst, (int (*)(void *))releaseStandardData);
fclose(p_dfile->fp);
free(p_dfile->pf_head);
free(p_dfile);
return 0;
}

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#include <type.h>
#include <id/id.h>
#include <chain/chain.h>
#include <event/event.h>
#include <communicate/communicate_file.h>
__CALLBACK_DEFINE(findStandardDataBySid){
SID *t_sid = __ARGS_P(0, SID);
STD_DATA *p_std = __VALUE(STD_DATA *);
if(simFitS_id(p_std->s_id, t_sid)){
return __RETURN("%p", p_std);
}
return __CRETURN__;
}

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#include <type.h>
#include <id/id.h>
#include <chain/chain.h>
#include <event/event.h>
#include <communicate/communicate_file.h>
int readStandardData(D_FILE *p_dfile,STD_DATA *p_std){
char s_id[SID_LEN],std_text[STD_TEXT_LEN];
fseek(p_dfile->fp, p_std->location, SEEK_SET);
fread(std_text, sizeof(char), STD_TEXT_LEN, p_dfile->fp);
if(strcmp(std_text, "STD")) return -1;
fread(s_id, sizeof(char), SID_LEN, p_dfile->fp);
if(!strcmp(s_id, p_std->s_id->decrypt_str)){
uint32_t ctn_num = 0, blk_num = 0;
fread(&ctn_num, sizeof(uint32_t), 1, p_dfile->fp);
fread(&blk_num, sizeof(uint32_t), 1, p_dfile->fp);
for(int i = 0; i < ctn_num; i++){
SID *fs_id = NULL, *ss_id = NULL;
char t_sid[SID_LEN];
fread(t_sid, sizeof(char), SID_LEN, p_dfile->fp);
fs_id = setS_idWithString(t_sid);
fread(t_sid, sizeof(char), SID_LEN, p_dfile->fp);
ss_id = setS_idWithString(t_sid);
standardDataAddConnection(p_std, fs_id, ss_id);
freeS_id(fs_id);
freeS_id(ss_id);
}
for(int i = 0; i < blk_num; i++){
int if_sid = 0;
uint16_t type = VOID;
uint32_t blk_size = 0;
char t_sid[SID_LEN];
fread(&if_sid, sizeof(int32_t), 1, p_dfile->fp);
if(if_sid){
fread(t_sid, sizeof(char), SID_LEN, p_dfile->fp);
}
fread(&type, sizeof(int32_t), 1, p_dfile->fp);
fread(&blk_size, sizeof(uint32_t), 1, p_dfile->fp);
char *buff = malloc(sizeof(char) * blk_size);
fread(buff, sizeof(char), blk_size, p_dfile->fp);
SID *sb_sid = NULL;
if (if_sid) setS_idWithString(t_sid);
standardDataAddBlock(p_std, sb_sid, type, buff, blk_size);
free(buff);
freeS_id(sb_sid);
}
}
p_std->read_data = 1;
return 0;
}
int readStandardDataBySid(D_FILE *p_dfile, SID *p_sid){
List *rtn = listThrough(p_dfile->pf_stdlst, __CALLBACK_CALL(findStandardDataBySid), __SEND_ARG("%p", p_sid));
//STD_DATA *p_std = __RTN_ARGS_P(rtn, 0, STD_DATA);
releaseList(rtn);
//if(p_std != NULL) readStandardData(p_dfile, p_std);
return 0;
}

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#include <type.h>
#include <id/id.h>
#include <chain/chain.h>
#include <event/event.h>
#include <communicate/communicate_file.h>
uint32_t calStandardData(STD_DATA *p_std){
List *rtn_lst = NULL;
uint32_t size = 4 + sizeof(unsigned long long) * 2;
if(p_std->s_id != NULL) size += SID_LEN * sizeof(char);
rtn_lst = listThrough(p_std->pd_ctnlst, __CALLBACK_CALL(calStandardDataCTN), __SEND_ARG("%d", size));
if(rtn_lst != NULL){
size = __RTN_ARGS(rtn_lst, 0, uint32_t);
releaseList(rtn_lst);
}
rtn_lst = listThrough(p_std->pd_blocklst, __CALLBACK_CALL(calStandardDataBLK), __SEND_ARG("%d", size));
if(rtn_lst != NULL){
size = __RTN_ARGS(rtn_lst, 0, uint32_t);
releaseList(rtn_lst);
}
return size;
}
__CALLBACK_DEFINE(calStandardDataBLK){
uint32_t size = __ARGS(0, uint32_t);
STD_BLOCKS *p_stdb = __VALUE(STD_BLOCKS *);
if(p_stdb->sid != NULL) size += SID_LEN + sizeof(int32_t);
else size += sizeof(int32_t);
size += p_stdb->blocks_num + sizeof(uint16_t) + sizeof(uint32_t);
//unsigned long long temp = __NOW_INDEX;
if(__NOW_INDEX == __LIST_LEN - 1){
return __RETURN("%ull", size);
}
return __CRETURN__;
}
void printStandardData(void *value){
STD_DATA *p_std = (STD_DATA *)value;
printf("SID:%s\n",p_std->s_id->decrypt_str);
printf("Loaction:%u\n",p_std->location);
printf("Size:%u\n",p_std->size);
printf("Ctn number:%llu\n",p_std->pd_ctnlst->length);
printf("Blk number:%llu\n",p_std->pd_blocklst->length);
}

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#include <type.h>
#include <id/id.h>
#include <chain/chain.h>
#include <event/event.h>
#include <communicate/communicate_file.h>
STD_CTN *initStandardDConnection(SID *f_sid, SID *s_sid){
STD_CTN *p_stdc = (STD_CTN *)malloc(sizeof(STD_CTN));
p_stdc->f_sid = s_idToASCIIString(f_sid);
p_stdc->s_sid = s_idToASCIIString(s_sid);
p_stdc->location = 0;
return p_stdc;
}
STD_DATA *initStandardData(uint16_t type, SID *s_id){
STD_DATA *p_std = (STD_DATA *)malloc(sizeof(STD_DATA));
p_std->pd_blocklst = initList(0);
p_std->pd_ctnlst = initList(0);
p_std->lock = 0;
p_std->type = type;
p_std->size = 0;
p_std->location = 0;
p_std->read_data = 0;
if(s_id == NULL) p_std->s_id = getS_id(STANDARD_DATA, 2);
else p_std->s_id = copyS_id(s_id);
setSidToASCIIString(p_std->s_id);
return p_std;
}

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#include <type.h>
#include <id/id.h>
#include <chain/chain.h>
#include <event/event.h>
#include <communicate/communicate_file.h>
int standardDataAddBlock(STD_DATA *p_std, SID *p_sid ,uint16_t type, void *data, uint32_t data_size){
if (p_std->lock) return -1;
STD_BLOCKS *p_stdb = initStandardDBlocks(p_sid, type,data_size);
dataForStandardDBlock(p_stdb, data);
insertInTail(p_std->pd_blocklst, nodeWithPointer(p_stdb,0));
return 0;
}
int standardDataAddConnection(STD_DATA *p_std, SID *f_sid, SID *s_sid){
if (p_std->lock) return -1;
STD_CTN *p_stdb = initStandardDConnection(f_sid, s_sid);
insertInTail(p_std->pd_ctnlst, nodeWithPointer(p_stdb,0));
return 0;
}

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#include <type.h>
#include <id/id.h>
#include <chain/chain.h>
#include <event/event.h>
#include <communicate/communicate_file.h>
__CALLBACK_DEFINE(StandardDataInfoWrite){
FILE *fp = __ARGS_P(0, FILE);
STD_DATA *p_std = __VALUE(STD_DATA *);
fwrite(p_std->s_id->decrypt_str, sizeof(char), SID_LEN, fp);
fwrite(&p_std->type, sizeof(uint16_t), 1, fp);
uint32_t std_size = calStandardData(p_std);
p_std->size = std_size;
fwrite(&std_size, sizeof(uint32_t), 1, fp);
return __CRETURN__;
}
__CALLBACK_DEFINE(StandardDataWrite){
FILE *fp = __ARGS_P(0, FILE);
STD_DATA *p_std = __VALUE(STD_DATA *);
fwrite("STD", sizeof(char), 4, fp);
fwrite(p_std->s_id->decrypt_str, sizeof(char), SID_LEN, fp);
fwrite(&p_std->pd_ctnlst->length, sizeof(uint32_t), 1, fp);
fwrite(&p_std->pd_blocklst->length, sizeof(uint32_t), 1, fp);
listThrough(p_std->pd_ctnlst, __CALLBACK_CALL(StandardDConnectionWrite), __SEND_ARG("%p", fp));
listThrough(p_std->pd_blocklst, __CALLBACK_CALL(StandardDBlockWrite), __SEND_ARG("%p", fp));
return __CRETURN__;
}

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#include <type.h>
#include <id/id.h>
#include <chain/chain.h>
#include <event/event.h>
#include <communicate/communicate_file.h>
int releaseStandardData(STD_DATA *p_std){
releaseListForCustom(p_std->pd_blocklst, (int (*)(void *))releaseSTDBlocks);
releaseListForCustom(p_std->pd_ctnlst, (int (*)(void *))releaseSTDConnection);
freeS_id(p_std->s_id);
free(p_std);
return 0;
}

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#include <type.h>
#include <id/id.h>
#include <chain/chain.h>
#include <event/event.h>
#include <communicate/communicate_file.h>

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#include <type.h>
#include <id/id.h>
#include <chain/chain.h>
#include <event/event.h>
#include <communicate/communicate_file.h>
STD_BLOCKS *initStandardDBlocks(SID *p_sid, uint16_t type, uint32_t data_size){
STD_BLOCKS *p_stdb = (STD_BLOCKS *)malloc(sizeof(STD_BLOCKS));
if(p_sid != NULL){
p_stdb->sid = s_idToASCIIString(p_sid);
}
else p_stdb->sid = NULL;
p_stdb->if_data = 0;
p_stdb->location = 0;
uint32_t blocks_num = (uint32_t)(data_size/sizeof(char));
p_stdb->blocks_num = blocks_num;
p_stdb->type = type;
p_stdb->buff = (char *)malloc(sizeof(char) * blocks_num);
return p_stdb;
}
int dataForStandardDBlock(STD_BLOCKS *p_stdb,void *data){
char *t_data = (char *)data;
/*unsigned int data_size = sizeof(data);*/
for(int i = 0; i < p_stdb->blocks_num; i++){
p_stdb->buff[i] = t_data[i];
}
p_stdb->if_data = 1;
return 0;
}

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#include <type.h>
#include <id/id.h>
#include <chain/chain.h>
#include <event/event.h>
#include <communicate/communicate_file.h>
__CALLBACK_DEFINE(StandardDBlockWrite){
STD_BLOCKS *p_stdb = value;
FILE *fp = __ARGS_P(0, FILE);
unsigned long blocks_num = p_stdb->blocks_num;
int if_sid = 0;
if(p_stdb->sid != NULL){
if_sid = 1;
fwrite(&if_sid, sizeof(int), 1, fp);
fwrite(p_stdb->sid, sizeof(char), SID_LEN, fp);
}
else{
fwrite(&if_sid, sizeof(int), 1, fp);
}
fwrite(&p_stdb->type, sizeof(uint16_t), 1, fp);
fwrite(&blocks_num, sizeof(uint32_t), 1, fp);
fwrite(p_stdb->buff, sizeof(char), p_stdb->blocks_num, fp);
return __CRETURN__;
}

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#include <type.h>
#include <id/id.h>
#include <chain/chain.h>
#include <event/event.h>
#include <communicate/communicate_file.h>
int releaseSTDBlocks(STD_BLOCKS *p_stdb){
free(p_stdb->buff);
free(p_stdb->sid);
free(p_stdb);
return 0;
}

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#include <type.h>
#include <id/id.h>
#include <chain/chain.h>
#include <event/event.h>
#include <communicate/communicate_file.h>
__CALLBACK_DEFINE(StandardDConnectionWrite){
FILE *fp = __ARGS_P(0, FILE);
STD_CTN *p_stdc = __VALUE(STD_CTN *);
fwrite(p_stdc->f_sid, sizeof(char), SID_LEN, fp);
fwrite(p_stdc->s_sid, sizeof(char), SID_LEN, fp);
return __CRETURN__;
}

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#include <type.h>
#include <id/id.h>
#include <chain/chain.h>
#include <event/event.h>
#include <communicate/communicate_file.h>
__CALLBACK_DEFINE(calStandardDataCTN){
uint32_t size = __ARGS(0, uint32_t);
size += 64;
//unsigned long long temp = __NOW_INDEX;
if(__NOW_INDEX == __LIST_LEN - 1){
__RETURN("%ull", size);
}
return __CRETURN__;
}

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#include <type.h>
#include <id/id.h>
#include <chain/chain.h>
#include <event/event.h>
#include <communicate/communicate_file.h>

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#include <type.h>
#include <id/id.h>
#include <chain/chain.h>
#include <event/event.h>
#include <communicate/communicate_file.h>

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#include <type.h>
#include <id/id.h>
#include <chain/chain.h>
#include <event/event.h>
#include <communicate/communicate_file.h>
int releaseSTDConnection(STD_CTN *p_stdc){
free(p_stdc->f_sid);
free(p_stdc->s_sid);
free(p_stdc);
return 0;
}

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#include <type.h>
#include <id/id.h>
#include <chain/chain.h>
#include <event/event.h>
#include <communicate/communicate_file.h>
STD_DATA *listToSTD(List *p_list){
Node *p_node = p_list->head;
STD_DATA *p_std = NULL;
if (p_list->s_id != NULL){
p_std = initStandardData(LIST,p_list->s_id);
}
else p_std = initStandardData(LIST, NULL);
while (p_node != NULL) {
if(p_node->type == HOLE) continue;
uint32_t data_size = 0;
if(p_node->type == INT) data_size = sizeof(int);
else if (p_node->type == DOUBLE) data_size = sizeof(double);
else if (p_node->type == STRING) data_size = (uint32_t)strlen((char *)p_node->value) + 1;
else data_size = sizeof(void *);
standardDataAddBlock(p_std, p_node->s_id, p_node->type, p_node->value, data_size);
p_node = p_node->next;
}
return p_std;
}

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#include <type.h>
#include <id/id.h>
#include <chain/chain.h>
#include <event/event.h>
#include <communicate/communicate_file.h>
List *standardDataToList(STD_DATA *p_std){
List *p_list = initList(0);
listThrough(p_std->pd_blocklst, __CALLBACK_CALL(StandardDataToList), __SEND_ARG("%p", p_list));
return p_list;
}
__CALLBACK_DEFINE(StandardDataToList){
List *p_list = __ARGS_P(0, List);
STD_BLOCKS *p_stdb = __VALUE(STD_BLOCKS *);
Node *p_node = initNode(0);
p_node->s_id = setS_idWithString(p_stdb->sid);
p_node->type = p_stdb->type;
p_node->value = malloc(sizeof(p_stdb->blocks_num));
memcpy(p_node->value, p_stdb->buff, sizeof(p_stdb->blocks_num));
insertInTail(p_list, p_node);
return __CRETURN__;
}

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#include <type.h>
#include <chain/chain_type.h>
/**
@param p_list
@return
*/
uint64_t calListMemory(Chain * p_list){
Node *p_node = p_list->head;
uint64_t nodes_size = 0LL;
uint64_t list_size = sizeof(p_list);
while(p_node != NULL){
nodes_size += sizeof(p_node);
p_node = p_node->next;
}
return list_size + nodes_size;
}

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#include <type.h>
#include <chain/chain.h>
/**
@return
*/
CNode *nodeWithComplex(void) {
CNode *p_node = initNode(0);
p_node->type = LIST;
p_node->value = initList(0);
return p_node;
}
/**
@param p_node
@param type
@param value
@return
*/
int addValueForComplex(CNode * p_node, int type, void *value) {
List *c_list;
CNode *c_node;
if (p_node->type == LIST) {
c_list = (List *)p_node->value;
c_node = initNode(0);
initMallocValueForNode(c_node, type, value);
insertInTail(c_list, c_node);
return 0;
}
return -1;
}
/**
@param p_node
@param temp
@return
*/
int addIntForComplex(CNode *p_node, int temp) {
if (p_node->type == LIST) {
int *p_temp = (int *)malloc(sizeof(int));
if(p_temp == NULL){
return -1;
}
*p_temp = temp;
addValueForComplex(p_node, INT, p_temp);
return 0;
}
return -1;
}
/**
@param p_node
@param temp
@return
*/
int addDoubleForComplex(CNode *p_node, double temp) {
if (p_node->type == LIST) {
double *p_temp = (double *)malloc(sizeof(double));
if(p_temp == NULL){
return -1;
}
*p_temp = temp;
addValueForComplex(p_node, DOUBLE, p_temp);
return 0;
}
return -1;
}
/**
@param p_node
@param temp
@return
*/
int addStringForComplex(CNode *p_node, char *temp) {
if (p_node->type == LIST) {
char *p_temp = (char *)malloc(sizeof(strlen(temp) + 1));
if(p_temp == NULL){
return -1;
}
strcpy(p_temp, temp);
addValueForComplex(p_node, STRING, p_temp);
return 0;
}
return -1;
}
/**
@param p_node
@param temp
@return
*/
int addPointerForComplex(CNode *p_node, void *temp) {
if (p_node->type == LIST) {
addValueForComplex(p_node, POINTER, temp);
return 0;
}
return -1;
}

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#include <type.h>
#include <chain/chain.h>
/**
@param p_list
@param target
@return
*/
CNode *findByIntForNode(Chain *p_list, int target) {
CNode *t_node;
int *p_target = (int *)malloc(sizeof(int));
*p_target = target;
t_node = findByValue(p_list, INT, p_target);
free(p_target);
return t_node;
}
/**
@param p_list
@param target
@return
*/
CNode *findByDoubleForNode(Chain *p_list, double target) {
CNode *t_node;
double *p_target = (double *)malloc(sizeof(double));
*p_target = target;
t_node = findByValue(p_list, DOUBLE, p_target);
free(p_target);
return t_node;
}
/**
@param p_list
@param target
@return
*/
CNode *findByStringForNode(Chain *p_list, char *target) {
CNode *t_node;
char *p_temp = (char *)malloc(sizeof(char)*(strlen(target) + 1));
strcpy(p_temp, target);
t_node = findByValue(p_list, STRING, p_temp);
free(p_temp);
return t_node;
}
/**
@param p_list
@param target
@return
*/
CNode *findByPointerForNode(Chain *p_list, void *target) {
CNode *t_node = findByValue(p_list, POINTER, target);
return t_node;
}
/**
@param p_list
@param temp
@return
*/
Chain *mply_findByInt(Chain* p_list, int temp) {
int *p_temp = (int *)malloc(sizeof(int));
if(p_temp == NULL){
return NULL;
}
Chain *t_list;
*p_temp = temp;
t_list = mply_findByValue(p_list, INT, (void *)p_temp);
free(p_temp);
return t_list;
}
/**
@param p_list
@param temp
@return
*/
Chain *mply_findByDouble(Chain* p_list, double temp) {
Chain *t_list;
double *p_temp = (double *)malloc(sizeof(double));
if(p_temp == NULL){
return NULL;
}
*p_temp = temp;
t_list = mply_findByValue(p_list, DOUBLE, (void *)p_temp);
free(p_temp);
return t_list;
}
/**
@param p_list
@param temp
@return
*/
Chain *mply_findByString(Chain* p_list, char *temp) {
Chain *t_list;
char *p_temp = (char *)malloc(sizeof(char)*(strlen(temp) + 1));
if(p_temp == NULL){
return NULL;
}
strcpy(p_temp, temp);
t_list = mply_findByValue(p_list, STRING, (void *)p_temp);
free(p_temp);
return t_list;
}
/**
@param p_list
@param temp
@return
*/
Chain *mply_findByPointer(Chain* p_list, void *temp) {
Chain *t_list = mply_findByValue(p_list, DOUBLE, (void *)temp);
return t_list;
}
/**
@param p_list
@param temp
@return
*/
inline Chain *mply_findByIntForNode(Chain* p_list, int temp) {
return mply_findByInt(p_list, temp);
}
/**
@param p_list
@param temp
@return
*/
inline Chain *mply_findByDoubleForNode(Chain* p_list, double temp) {
return mply_findByDouble(p_list, temp);
}
/**
@param p_list
@param temp
@return
*/
inline Chain *mply_findByStringForNode(Chain* p_list, char *temp) {
return mply_findByString(p_list, temp);
}
/**
@param p_list
@param temp
@return
*/
inline Chain *mply_findByPointerForNode(Chain* p_list, void *temp) {
return mply_findByPointer(p_list, temp);
}
/**
@param p_list
@param m_index
@return
*/
CNode *findByIndexForNode(Chain *p_list, unsigned long long m_index) {
if(p_list == NULL) return NULL;
CNode *p_node = p_list->head;
unsigned long long i;
for (i = 0; i < m_index; i++) {
p_node = p_node->next;
}
return p_node;
}

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#include <type.h>
#include <chain/chain.h>
/**
@param p_node
@return 0
*/
int getByIntForNode(CNode *p_node) {
if (p_node->type == INT) return *(int *)(p_node->value);
else return 0;
}
/**
@param p_node
@return 0
*/
unsigned int getByUIntForNode(CNode *p_node){
if (p_node->type == UINT) return *(unsigned int *)(p_node->value);
else return 0;
}
/**
@param p_node
@return
*/
char *getByStringForNode(CNode *p_node) {
if (p_node->type == STRING) return (char *)(p_node->value);
else return NULL;
}
/**
@param p_node
@return
*/
double getByDoubleForNode(CNode *p_node) {
if (p_node->type == DOUBLE) return *(double *)(p_node->value);
else return -1.0;
}
/**
@param p_node
@return
*/
void *getByPointerForNode(CNode *p_node) {
return (void *)(p_node->value);
}
/**
@param p_list
@param p_node
@return 0
*/
unsigned long long getIndexByNode(Chain *p_list, CNode *p_node) {
register CNode *t_node = p_list->head;
register unsigned long long index = 0;
while (t_node != NULL) {
// id模块可能启用的时候则编译以下代码
#ifdef id_enable
if (p_node->s_id == t_node->s_id) return index;
#endif
index++;
t_node = t_node->next;
}
return 0;
}

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#include <type.h>
#include <chain/chain.h>
/**
使
@param m_int
@param if_sid id
@return
*/
CNode *nodeWithInt(int m_int, _Bool if_sid) {
CNode *p_node;
int *p_int = (int *)malloc(sizeof(int));
if(p_int == NULL){
return NULL;
}
*p_int = m_int;
p_node = initNode(if_sid);
initMallocValueForNode(p_node, INT, (void *)p_int);
return p_node;
}
/**
使
@param m_uint
@param if_sid id
@return
*/
CNode *nodeWithUInt(uint32_t m_uint, _Bool if_sid){
CNode *p_node;
unsigned int *pu_int = (uint32_t *)malloc(sizeof(uint32_t));
if(pu_int == NULL){
return NULL;
}
*pu_int = m_uint;
p_node = initNode(if_sid);
initMallocValueForNode(p_node, UINT, (void *)pu_int);
return p_node;
}
/**
使8
@param m_ullint
@param if_sid id
@return
*/
CNode *nodeWithULLInt(uint64_t m_ullint, _Bool if_sid) {
CNode *p_node;
unsigned long long *p_ullint = (uint64_t *)malloc(sizeof(uint64_t));
if(p_ullint == NULL){
return NULL;
}
*p_ullint = m_ullint;
p_node = initNode(if_sid);
initMallocValueForNode(p_node, ULLINT, (void *)p_ullint);
return p_node;
}
/**
使
@param m_double
@param if_sid id
@return
*/
CNode *nodeWithDouble(double m_double, _Bool if_sid) {
CNode *p_node;
double *p_double = (double *)malloc(sizeof(double));
if(p_double == NULL){
return NULL;
}
*p_double = m_double;
p_node = initNode(if_sid);
initMallocValueForNode(p_node, DOUBLE, (void *)p_double);
return p_node;
}
/**
使
@param m_string
@param if_sid id
@return
*/
CNode *nodeWithString(const char *m_string, _Bool if_sid) {
CNode *p_node;
char *p_string = (char *)malloc(sizeof(char)*(strlen(m_string) + 1));
if(p_string == NULL){
return NULL;
}
strcpy(p_string, m_string);
p_node = initNode(if_sid);
initMallocValueForNode(p_node, STRING, (void *)p_string);
return p_node;
}
/**
使
@param m_pointer
@param if_sid id
@return
*/
CNode *nodeWithPointer(const void *m_pointer, _Bool if_sid) {
CNode *p_node = initNode(if_sid);
initMallocValueForNode(p_node, POINTER, m_pointer);
return p_node;
}

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#include <type.h>
#include <chain/chain.h>
#include <chain/chain_print.h>
/**
@param p_list
@param priority
*/
void printListInfo(Chain *p_list, int priority) {
int i = 0;
CNode *p_node;
for (i = 0; i < priority; i++) printf(" ");
printf("###LIST(location:%p",p_list);
// 如果可能使用到ID模块则编译以下代码
#ifdef id_enable
printf(",id:%s",s_idToASCIIString(p_list->s_id));
#endif
printf("){\n");
for (i = 0; i < priority + 1; i++) printf(" ");
printf("HEAD->%p / Tail->%p / Length:%llu\n", p_list->head, p_list->tail, p_list->length);
p_node = p_list->head;
while (p_node != NULL) {
for (i = 0; i < priority + 1; i++) printf(" ");
printf("%d.... \n", i);
printNodeInfo(p_node, priority + 1);
p_node = p_node->next;
i++;
}
for (i = 0; i < priority; i++) printf(" ");
printf("}\n");
}
/**
@param p_list
*/
void printList(Chain *p_list) {
int if_nearLast = 0;
CNode *p_node = p_list->head;
printf("[");
while (p_node != NULL) {
if (!if_nearLast && p_node->next == NULL) if_nearLast = 1;
if (p_node->type == INT) {
printf("%d", *(int *)(p_node->value));
}
else if (p_node->type == DOUBLE) {
printf("%a", *(double *)(p_node->value));
}
else if (p_node->type == STRING) {
printf("%s", (char *)(p_node->value));
}
else if (p_node->type == POINTER) {
printf("%p", (char *)(p_node->value));
}
else if (p_node->type == LIST) {
printList((Chain *)p_node->value);
}
if (!if_nearLast) {
printf(", ");
}
p_node = p_node->next;
}
printf("]");
}
/**
@param p_node
@param priority
*/
void printNodeInfo(CNode *p_node, int priority) {
int i;
for (i = 0; i < priority; i++) printf(" ");
printf("#NODE(location:%p",p_node);
#ifdef id_enable
printf(", id:%s", s_idToASCIIString(p_node->s_id));
#endif
printf("){\n");
for (i = 0; i < priority + 1; i++) printf(" ");
printf("NEXT->%p / LAST->%p\n", p_node->next, p_node->last);
if (p_node->type == INT) {
for (i = 0; i < priority + 1; i++) printf(" ");
printf("VALUE(int):%d\n", *(int *)(p_node->value));
}
else if (p_node->type == DOUBLE) {
for (i = 0; i < priority + 1; i++) printf(" ");
printf("VALUE(double):%a\n", *(double *)(p_node->value));
}
else if (p_node->type == STRING) {
for (i = 0; i < priority + 1; i++) printf(" ");
printf("VALUE(string):%s\n", (char *)(p_node->value));
}
else if (p_node->type == POINTER) {
for (i = 0; i < priority + 1; i++) printf(" ");
printf("VALUE(pointer):%s\n", (char *)(p_node->value));
}
else if (p_node->type == LIST) {
for (i = 0; i < priority + 1; i++) printf(" ");
printf("VALUE(Chain):\n");
printListInfo((Chain *)p_node->value, priority + 2);
}
for (i = 0; i < priority; i++) printf(" ");
printf("}\n");
}
/**
@param p_node
*/
void printNode(CNode *p_node) {
int i;
printf("#NODE(location:%p",p_node);
#ifdef id_enable
printf(", id:%s",s_idToASCIIString(p_node->s_id));
#endif
printf("){\n");
printf(" ");
printf("NEXT->%p / LAST->%p\n", p_node->next, p_node->last);
for (i = 0; i < 1; i++) printf(" ");
printf("ifMalloc: ");
if (p_node->value != NULL) {
printf("YES\n");
for (i = 0; i < 1; i++) printf(" ");
printf("Value(type: %d): ", p_node->type);
if (p_node->type == INT) {
printf("%d", *(int *)(p_node->value));
}
else if (p_node->type == DOUBLE) {
printf("%a\n", *(double *)(p_node->value));
}
else if (p_node->type == STRING) {
printf("%s\n", (char *)(p_node->value));
}
else if (p_node->type == POINTER) {
printf("%p\n", (char *)(p_node->value));
}
else if (p_node->type == LIST) {
printList((Chain *)p_node->value);
}
}
else printf("NO\n");
printf("}\n");
}
/**
@param p_list
@param func
*/
void printListForCustom(Chain *p_list,void (*func)(void *value)){
printf("###LIST (LEN:%llu ",p_list->length);
#ifdef id_enable
if(p_list->s_id != NULL) printf("SID:%s",p_list->s_id->decrypt_str);
#endif
printf(")\n");
listThrough(p_list, __CALLBACK_CALL(printListForCustom), __SEND_ARG("%p", func));
}
__CALLBACK_DEFINE(printListForCustom){
void (*func)(void *) = __ARGS_P(0, void);
printf("NODE (IDX:%llu ",__NOW_INDEX);
printf(")\n");
func(__VALUE(void *));
printf("\n");
return __CRETURN__;
}

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#include <type.h>
#include <chain/chain.h>
/*
*: .
*: type指明相关值的类型;value为指向储存相关值的内存的指针.
*: 0,-1.*/
static int sortList(Chain *p_list, uint64_t begin, uint64_t end, int(*func)(CNode *f_node, CNode *s_node));
/**
@param p_list
@param begin
@param end
@param func
@return 0
*/
static int sortList(Chain *p_list, uint64_t begin, uint64_t end, int(*func)(CNode *f_node, CNode *s_node)){
unsigned long long target_index = begin;
register CNode *t_node = findByIndexForNode(p_list, target_index);
register CNode *i_node = NULL, *j_node = NULL;
register unsigned long long i = end,j = begin;
for(; i >= begin; i--){
if(i <= j) break;
i_node = findByIndexForNode(p_list, i);
if(func(t_node, i_node) < 0){
exchangeNode(p_list, t_node, i_node);
for(; j <= end; j++){
if(j >= i) break;
j_node = findByIndexForNode(p_list, j);
if(func(t_node, j_node) > 0){
exchangeNode(p_list, t_node, j_node);
break;
}
}
}
}
if(end - begin > 3){
if(getIndexForNode(p_list, t_node) - begin > 2)
sortList(p_list, begin, getIndexForNode(p_list, t_node), func);
if(end - getIndexForNode(p_list, t_node) > 2)
sortList(p_list, getIndexForNode(p_list, t_node), end, func);
}
return 0;
}
/**
@param p_list
@param func
@return 0
*/
int sortListForCustom(Chain *p_list, int(*func)(CNode *f_node, CNode *s_node)){
sortList(p_list, 0, p_list->length-1, func);
return 0;
}

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#include <type.h>
#include <chain/chain.h>
/**
@param p_node
@param value
@return 0
*/
int updateValueWithIntForNode(CNode *p_node,int value){
int *p_value = (int *)malloc(sizeof(int));
if(p_value == NULL){
return -1;
}
*p_value = value;
free(p_node->value);
p_node->value = p_value;
return 0;
}
/**
8
@param p_node
@param value
@return 0
*/
int updateValueWithULLIntForNode(CNode *p_node, uint64_t value){
uint64_t *p_value = (uint64_t *)malloc(sizeof(uint64_t));
if(p_value == NULL){
return -1;
}
*p_value = value;
free(p_node->value);
p_node->value = p_value;
return 0;
}
/**
@param p_node
@param value
@return 0
*/
int updateValueWithDoubleForNode(CNode *p_node, double value){
double *p_value = (double *)malloc(sizeof(double));
if(p_value == NULL){
return -1;
}
*p_value = value;
free(p_node->value);
p_node->value = p_value;
return 0;
}
/**
@param p_node
@param string
@return 0
*/
int updateValueWithStringForNode(CNode *p_node, char *string){
char *p_value = (char *)malloc(sizeof(strlen(string)) + 1);
if(p_value == NULL){
return -1;
}
strcpy(p_value, string);
free(p_node->value);
p_node->value = p_value;
return 0;
}
/**
@param p_node
@param pointer
@return 0
*/
int updateValueWithPointerForNode(CNode *p_node, void *pointer){
free(p_node->value);
p_node->value = pointer;
return 0;
}

53
src/error/error.c Normal file
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#include <type.h>
#include <error/error.h>
int pushInfo(Info *p_info, const char *head, const char *body) {
strcpy(p_info->head, head);
strcpy(p_info->body, body);
return 0;
}
Error *pushError(unsigned int type, int pri, Info *p_info) {
Error *p_error = (Error *)malloc(sizeof(Error));
p_error->type = type;
p_error->priority = pri;
p_error->info = *p_info;
p_error->time = time(NULL);
free(p_info);
return p_error;
}
Notice *pushNotice(unsigned int type, Info *p_info) {
Notice *p_notice = (Notice *)malloc(sizeof(Notice));
p_notice->type = type;
p_notice->info = *p_info;
p_notice->time = time(NULL);
free(p_info);
return p_notice;
}
Info *initInfo(const char *head, const char *body){
Info *p_info = (Info *)malloc(sizeof(Info));
pushInfo(p_info, head, body);
return p_info;
}
int showError(Error *p_error){
printf("\n");
for (int i = 0; i < p_error->priority; i++) {
printf("!");
}
printf("(Error) %s\n",asctime(localtime(&p_error->time)));
printf("%s: %s.\n",p_error->info.head,p_error->info.body);
free(p_error);
return 0;
}
int showWarning(Notice *p_notice){
printf("\n@");
printf("(Warning) %s\n",asctime(localtime(&p_notice->time)));
printf("%s: %s.\n",p_notice->info.head,p_notice->info.body);
free(p_notice);
return 0;
}

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@ -1,14 +1,16 @@
#include "error.h" #include <error/error_file.h>
int initErrorSystem(void) { int initErrorSystem(void) {
error_list = initList(); error_list = initList(0);
notice_list = initList(); notice_list = initList(0);
if_error = 1; if_error = 1;
return 1; return 1;
} }
int setLogDirectory(const char *path) { int setLogDirectory(const char *path) {
#ifdef id_enable
logfile.id = getId(); logfile.id = getId();
#endif
unsigned long memory_space = strlen(path) + 256; unsigned long memory_space = strlen(path) + 256;
char *file_path = (char *)malloc(sizeof(char)*memory_space); char *file_path = (char *)malloc(sizeof(char)*memory_space);

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#include <type.h>
#include <chain/chain.h>
#include <event/event.h>
/**
-1退1
使
@param p_list
@param p_func
@return
*/
Chain *listThrough(Chain *p_list, Chain *(*p_func)(uint32_t, void *, Chain *), Chain *expand_resources) {
Node *p_node = p_list->head;
List *m_rtnlst = NULL;
uint64_t index = 0;
insertInTail(expand_resources, nodeWithULLInt(index, 0));
insertInTail(expand_resources, nodeWithULLInt(p_list->length, 0));
while (p_node != NULL) {
if (p_node->value != NULL) {
m_rtnlst = (*p_func)(p_node->type, p_node->value, expand_resources);
int status = getByIntForNode(findByIndexForNode(m_rtnlst, 0));
if (status == -1) break;
else if (status == 1) {
p_node = p_node->last;
releaseList(m_rtnlst);
m_rtnlst = NULL;
continue;
}
else {
releaseList(m_rtnlst);
m_rtnlst = NULL;
}
}
lupdull(expand_resources,expand_resources->length-2,++index);
p_node = p_node->next;
}
releaseList(expand_resources);
if(m_rtnlst != NULL) releaseNode(popFromHead(m_rtnlst));
return m_rtnlst;
}
/**
type为1时用于回调函数获取当前参数列表的参数个数
type为2时用于获取当前节点在链表中的序号
@param expand_resources
@param type
@return
*/
uint64_t getInfoForListThrough(Chain *expand_resources, int type){
Node *p_node = NULL;
if (type == 0) {
p_node = findByIndexForNode(expand_resources, expand_resources->length-1);
}else{
p_node = findByIndexForNode(expand_resources, expand_resources->length-2);
}
return *((uint64_t *)p_node->value);
}
/**
@param if_status
@param status
@param argc
@param ...
@return
*/
Chain *newReturn(int if_status ,int status, char *argc, ...){
List *p_list = initList(0);
if(if_status){
lisrti(p_list, status);
}
if(status != 0){
va_list args;
va_start(args, argc);
char p_ch = argc[0];
char t_ch[256];
int count = 0, t_count = 0;
while(p_ch != '\0'){
if(p_ch == '%'){
switch (argc[count + 1]) {
case 'd':
lisrti(p_list, va_arg(args, int));
break;
case 's':
t_count = 0;
while ((t_ch[t_count] = va_arg(args, int)) != '\0') t_count++;
t_ch[t_count] = '\0';
lisrts(p_list, t_ch);
break;
case 'f':
lisrtd(p_list, va_arg(args, double));
break;
case 'p':
lisrtp(p_list, va_arg(args, void *));
break;
case 'u':
if(argc[count + 2] == 'l'){
if(argc[count + 3] == 'l'){
lisrtull(p_list, va_arg(args, unsigned long long));
count += 2;
}
else{
count++;
}
}
else{
lisrtu(p_list, va_arg(args, unsigned int));
}
break;
default:
break;
}
count++;
}
p_ch = argc[++count];
}
va_end(args);
}
return p_list;
}
/**
@return
*/
Chain *newCReturn(void){
return newReturn(1, 0, NULL);
}

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#include <type.h>
#include <id/id.h>
static _Bool if_rand = 0;
/*
*
*/
static void init_rand(void);
/*
*SID管理结构分配内存空间
*: deep_level指示原始ID的复杂度
*: ,NULL.
*/
static SID *initS_id(unsigned int deep_level);
/*
*SID数据转化成MD5的Hex形式的数据
*/
static void s_idToMD5(SID *s_id);
/*
*SID数据转化成字符串
*: ,NULL
*/
static char *s_idToASCIIRawString(SID * const s_id);
/*
*10,16
*/
static char hexToChar(unsigned int);
/*
*SID数据转换成的SID转化回原始SID数据
*: ,NULL
*/
static SID *asciiRawStringToS_id(char * const string);
/*
*SID原始数据
*/
static void getRawS_id(SID *s_id, unsigned int type, unsigned int deep_level);
static void init_rand(void) {
srand((unsigned)time(NULL));
}
unsigned long long getId(void) {
int i;
unsigned long long id = 0;
id = ((rand() % 9) + 1);
for (i = 0; i < 15; i++) {
id *= 10;
id += rand() % 10;
}
return id;
}
static SID *initS_id(unsigned int deep_level){
if (!if_rand){
init_rand();
if_rand = 1;
}
SID *p_sid = (SID *) malloc(sizeof(SID));
if(p_sid == NULL){
printf("\ninitS_id(): Error in getting the memory of sid.\n");
}
p_sid->sr = malloc(sizeof(struct sid_raw));
p_sid->sr->type = VOID;
p_sid->deep = deep_level;
p_sid->sr->value = NULL;
p_sid->sr->value_deeper = NULL;
p_sid->sr->value_deepest = NULL;
p_sid->md5 = NULL;
p_sid->decrypt_str = NULL;
p_sid->decrypt_hex = NULL;
return p_sid;
}
void getRawS_id(SID *p_sid, unsigned int type, unsigned int deep_level){
if (deep_level > 0) {
p_sid->sr->value = (unsigned int *)malloc(sizeof(unsigned int)*DEEPC_LEN);
if(p_sid->sr->value == NULL){
printf("\ninitS_id(): Error in getting the memory of sid.value.\n");
}
}
if (deep_level > 1){
p_sid->sr->value_deeper = (unsigned int *)malloc(sizeof(unsigned int)*DEEPB_LEN);
if(p_sid->sr->value_deeper == NULL){
printf("\ninitS_id(): Error in getting the memory of sid.value_deeper.\n");
}
}
if (deep_level > 2){
p_sid->sr->value_deepest = (unsigned int *)malloc(sizeof(unsigned int)*DEEPA_LEN);
if(p_sid->sr->value_deepest == NULL){
printf("\ninitS_id(): Error in getting the memory of sid.value_deepest.\n");
}
}
p_sid->sr->type = type;
if(deep_level > 0){
for(register int i = 0; i < DEEPC_LEN; i++) p_sid->sr->value[i] = rand()%65535;
if(deep_level > 1) for(register int i = 0; i < DEEPB_LEN; i++) p_sid->sr->value_deeper[i] = rand()%65535;
if (deep_level > 2) for(register int i = 0; i < DEEPA_LEN; i++) p_sid->sr->value_deepest[i] = rand()%65535;
}
}
SID *getS_id(unsigned int type, unsigned int deep_level){
SID *p_sid = initS_id(deep_level);
getRawS_id(p_sid, type, deep_level);
s_idToMD5(p_sid);
setSidToASCIIString(p_sid);
return p_sid;
}
int fitS_id(SID * const fs_id, SID * const ss_id){
if(fs_id->decrypt_str == NULL) setSidToASCIIString(fs_id);
if(ss_id->decrypt_str == NULL) setSidToASCIIString(ss_id);
return strcmp(fs_id->decrypt_str, ss_id->decrypt_str);
}
void setSidToASCIIString(SID * const s_id){
if(s_id->decrypt_str == NULL){
s_id->decrypt_str = malloc(sizeof(char) * 33);
s_id->decrypt_str[32] = '\0';
for(register int i = 0; i < 16; i++){
unsigned int temp_dyt = s_id->decrypt_hex[i];
//printf("%d\n",(unsigned int)temp_dyt);
unsigned int k = 0;
for (k = 0; (temp_dyt - (k * 16)) >= 16; k++);
s_id->decrypt_str[i * 2] = hexToChar(k);
//printf("HEX:%c",hexToChar(k));
s_id->decrypt_str[i * 2 + 1] = hexToChar(temp_dyt - k * 16);
//printf("HEX:%c",hexToChar(temp_dyt - k * 16));
}
}
}
int simFitS_id(SID * fs_id, SID * ss_id){
return !fitS_id(fs_id, ss_id);
}
char *s_idToASCIIString(SID * const s_id){
if(s_id->decrypt_str == NULL){
setSidToASCIIString(s_id);
}
free(s_id->md5);
s_id->md5 = NULL;
//printf("s_id->decrypt_str: %s",s_id->decrypt_str);
char *rtn_str = malloc(sizeof(char) * 33);
strcpy(rtn_str, s_id->decrypt_str);
free(s_id->decrypt_hex);
s_id->decrypt_hex = NULL;
return rtn_str;
}
char *s_idToASCIIRawString(SID * const s_id){
char *string = NULL;
int deep_len = 0, temp, buff_count, string_count;
unsigned int buff[DATA_BIT];
if(s_id->deep > 0){
if (s_id->deep == DEEPC){
string = (char *) malloc(sizeof(char) * (DEEPC_LEN + 1) * DATA_BIT);
deep_len = DEEPC_LEN + 1;
deep_len *= DATA_BIT;
}
else if (s_id->deep == DEEPB){
string = (char *) malloc(sizeof(char) * (DEEPC_LEN + DEEPB_LEN + 1) * DATA_BIT);
deep_len = DEEPC_LEN + DEEPB_LEN + 1;
deep_len *= DATA_BIT;
}
else{
string = (char *)malloc(sizeof(char) * (DEEPC_LEN + DEEPB_LEN + DEEPA_LEN + 1) * DATA_BIT);
deep_len = DEEPC_LEN + DEEPB_LEN + DEEPA_LEN + 1;
deep_len *= DATA_BIT;
}
if(string == NULL){
printf("\ns_idToASCIIString(): Error in getting the memory of string.\n");
}
string[deep_len] = '\0';
temp = s_id->sr->type;
buff_count = DATA_BIT - 1;
for (int i = 0; i < DATA_BIT; i++) buff[i] = 0;
while(buff_count >= 0){
buff[buff_count] = temp % 10;
string[buff_count] = buff[buff_count] + 48;
temp /= 10;
buff_count--;
}
deep_len -= DATA_BIT;
for(int i = 0; i < DEEPC_LEN; i++){
temp = s_id->sr->value[i];
for (int i = 0; i < DATA_BIT; i++) buff[i] = 0;
string_count = TYPE_LEN + (i) * 5;
buff_count = DATA_BIT - 1;
while (buff_count >= 0) {
buff[buff_count] = temp % 10;
temp /= 10;
buff_count--;
}
for(int i = DATA_BIT - 1; i >= 0; i--) string[string_count + i] = buff[i] + 48;
}
deep_len -= DEEPC_LEN * DATA_BIT;
if(deep_len > 0)
for(int i = 0; i < DEEPB_LEN; i++){
temp = s_id->sr->value_deeper[i];
for (int i = 0; i < DATA_BIT; i++) buff[i] = 0;
string_count = TYPE_LEN + DEEPC_LEN * DATA_BIT + (i) * DATA_BIT;
buff_count = DATA_BIT - 1;
while (buff_count >= 0) {
buff[buff_count] = temp % 10;
temp /= 10;
buff_count--;
}
for(int i = DATA_BIT - 1; i >= 0; i--) string[string_count + i] = buff[i] + 48;
}
deep_len -= DEEPB_LEN * DATA_BIT;
if(deep_len > 0)
for(int i = 0; i < DEEPA_LEN; i++){
temp = s_id->sr->value_deepest[i];
for (int i = 0; i < DATA_BIT; i++) buff[i] = 0;
string_count = TYPE_LEN + (DEEPC_LEN + DEEPB_LEN) * DATA_BIT + (i) * DATA_BIT;
buff_count = DATA_BIT - 1;
while (buff_count >= 0) {
buff[buff_count] = temp % 10;
string[string_count] = buff[buff_count] + 48;
temp /= 10;
buff_count--;
}
for(int i = DATA_BIT - 1; i >= 0; i--) string[string_count + i] = buff[i] + 48;
}
return string;
}
else{
return NULL;
}
}
static SID *asciiRawStringToS_id(char * const string){
SID *s_id = NULL;
unsigned long long string_len = strlen(string);
if (string_len == 25) s_id = initS_id(1);
else if (string_len == 65) s_id = initS_id(2);
else if (string_len == 225) s_id = initS_id(3);
else return NULL;
unsigned int *buff = (unsigned int *) malloc(sizeof(unsigned int) * (string_len));
if(buff == NULL){
printf("\ns_idToASCIIString(): Error in getting the memory of string.\n");
}
for(int i = 0; i < string_len; i++){
buff[i] = (unsigned int)string[i] - 48;
}
s_id->sr->type = 0;
for (int i = 0; i < 5; i++){
s_id->sr->type += buff[i] ;
s_id->sr->type *= 10u;
}
s_id->sr->type /= 10u;
if (string_len >= 25){
for(int i = 0; i < DEEPC_LEN; i++){
s_id->sr->value[i] = 0;
for (int j = 0; j < 5; j++){
s_id->sr->value[i] += (unsigned int)buff[5 + i * 5 + j];
if(j < 4) s_id->sr->value[i] *= 10;
}
}
}
if (string_len >= 65){
for(int i = 0; i < DEEPB_LEN; i++){
s_id->sr->value_deeper[i] = 0;
for (int j = 0; j < 5; j++){
s_id->sr->value_deeper[i] += buff[25 + i * 5 + j];
if(j < 4) s_id->sr->value_deeper[i] *= 10;
}
}
}
if (string_len >= 225){
for(int i = 0; i < DEEPA_LEN; i++){
s_id->sr->value_deepest[i] = 0;
for (int j = 0; j < 5; j++){
s_id->sr->value_deepest[i] += buff[65 + i * 5 + j];
if(j < 4) s_id->sr->value_deepest[i] *= 10;
}
}
}
free(buff);
return s_id;
}
int freeS_id(SID *s_id){
if(s_id == NULL) return 0;
if(s_id->decrypt_hex != NULL) free(s_id->decrypt_hex);
freeSidRaw(s_id);
if (s_id->md5 != NULL) free(s_id->md5);
free(s_id->decrypt_str);
free(s_id);
return 0;
}
int freeSidRaw(SID *s_id){
if (s_id != NULL && s_id->sr != NULL){
if(s_id->sr->value != NULL){
free(s_id->sr->value);
s_id->sr->value = NULL;
}
if(s_id->sr->value_deeper != NULL){
free(s_id->sr->value_deeper);
s_id->sr->value_deeper = NULL;
}
if(s_id->sr->value_deepest != NULL){
free(s_id->sr->value_deepest);
s_id->sr->value_deepest = NULL;
}
free(s_id->sr);
s_id->sr = NULL;
}
return 0;
}
void s_idToMD5(SID *s_id){
if(s_id->md5 == NULL) s_id->md5 = malloc(sizeof(MD5_CTX));
char *sid_string = s_idToASCIIRawString(s_id);
s_id->decrypt_hex = malloc(sizeof(unsigned char) * 16);
//printf("%s\n",sid_string);
MD5Init(s_id->md5);
MD5Update(s_id->md5, (unsigned char *) sid_string, strlen(sid_string));
MD5Final(s_id->md5, s_id->decrypt_hex);
freeSidRaw(s_id);
free(sid_string);
}
char hexToChar(unsigned int n){
switch (n) {
case 1:return '1';
case 2:return '2';
case 3:return '3';
case 4:return '4';
case 5:return '5';
case 6:return '6';
case 7:return '7';
case 8:return '8';
case 9:return '9';
case 10:return 'a';
case 11:return 'b';
case 12:return 'c';
case 13:return 'd';
case 14:return 'e';
case 15:return 'f';
default:
break;
}
return '0';
}
SID *copyS_id(SID *f_sid){
SID *s_sid = initS_id(f_sid->deep);
if(s_sid->decrypt_str == NULL) s_sid->decrypt_str = malloc(sizeof(char) * SID_LEN);
if (f_sid->decrypt_str != NULL) strcpy(s_sid->decrypt_str, f_sid->decrypt_str);
else{
freeS_id(s_sid);
return NULL;
};
return s_sid;
}
SID *setS_idWithString(char *p_string){
if(p_string == NULL) return NULL;
SID *p_sid = initS_id(0);
if(p_sid->decrypt_str == NULL) p_sid->decrypt_str = malloc(sizeof(char) * SID_LEN);
strcpy(p_sid->decrypt_str, p_string);
return p_sid;
}

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#include "md5.h"
unsigned char PADDING[] = {
0x80, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 };
void MD5Init(MD5_CTX *context)
{
context->count[0] = 0;
context->count[1] = 0;
context->state[0] = 0x67452301;
context->state[1] = 0xEFCDAB89;
context->state[2] = 0x98BADCFE;
context->state[3] = 0x10325476;
}
void MD5Update(MD5_CTX *context, unsigned char *input, unsigned long inputlen)
{
unsigned int i = 0, index = 0, partlen = 0;
index = (context->count[0] >> 3) & 0x3F;
partlen = 64 - index;
context->count[0] += inputlen << 3;
if (context->count[0] < (inputlen << 3))
context->count[1]++;
context->count[1] += inputlen >> 29;
if (inputlen >= partlen)
{
memcpy(&context->buffer[index], input, partlen);
MD5Transform(context->state, context->buffer);
for (i = partlen; i + 64 <= inputlen; i += 64)
MD5Transform(context->state, &input[i]);
index = 0;
}
else
{
i = 0;
}
memcpy(&context->buffer[index], &input[i], inputlen - i);
}
void MD5Final(MD5_CTX *context, unsigned char digest[16])
{
unsigned int index = 0, padlen = 0;
unsigned char bits[8];
index = (context->count[0] >> 3) & 0x3F;
padlen = (index < 56) ? (56 - index) : (120 - index);
MD5Encode(bits, context->count, 8);
MD5Update(context, PADDING, padlen);
MD5Update(context, bits, 8);
MD5Encode(digest, context->state, 16);
}
void MD5Encode(unsigned char *output, unsigned int *input, unsigned long len)
{
unsigned int i = 0, j = 0;
while (j < len)
{
output[j] = input[i] & 0xFF;
output[j + 1] = (input[i] >> 8) & 0xFF;
output[j + 2] = (input[i] >> 16) & 0xFF;
output[j + 3] = (input[i] >> 24) & 0xFF;
i++;
j += 4;
}
}
void MD5Decode(unsigned int *output, unsigned char *input, unsigned long len)
{
unsigned int i = 0, j = 0;
while (j < len)
{
output[i] = (input[j]) |
(input[j + 1] << 8) |
(input[j + 2] << 16) |
(input[j + 3] << 24);
i++;
j += 4;
}
}
void MD5Transform(unsigned int state[4], unsigned char block[64])
{
unsigned int a = state[0];
unsigned int b = state[1];
unsigned int c = state[2];
unsigned int d = state[3];
unsigned int x[64];
MD5Decode(x, block, 64);
FF(a, b, c, d, x[0], 7, 0xd76aa478);
FF(d, a, b, c, x[1], 12, 0xe8c7b756);
FF(c, d, a, b, x[2], 17, 0x242070db);
FF(b, c, d, a, x[3], 22, 0xc1bdceee);
FF(a, b, c, d, x[4], 7, 0xf57c0faf);
FF(d, a, b, c, x[5], 12, 0x4787c62a);
FF(c, d, a, b, x[6], 17, 0xa8304613);
FF(b, c, d, a, x[7], 22, 0xfd469501);
FF(a, b, c, d, x[8], 7, 0x698098d8);
FF(d, a, b, c, x[9], 12, 0x8b44f7af);
FF(c, d, a, b, x[10], 17, 0xffff5bb1);
FF(b, c, d, a, x[11], 22, 0x895cd7be);
FF(a, b, c, d, x[12], 7, 0x6b901122);
FF(d, a, b, c, x[13], 12, 0xfd987193);
FF(c, d, a, b, x[14], 17, 0xa679438e);
FF(b, c, d, a, x[15], 22, 0x49b40821);
GG(a, b, c, d, x[1], 5, 0xf61e2562);
GG(d, a, b, c, x[6], 9, 0xc040b340);
GG(c, d, a, b, x[11], 14, 0x265e5a51);
GG(b, c, d, a, x[0], 20, 0xe9b6c7aa);
GG(a, b, c, d, x[5], 5, 0xd62f105d);
GG(d, a, b, c, x[10], 9, 0x2441453);
GG(c, d, a, b, x[15], 14, 0xd8a1e681);
GG(b, c, d, a, x[4], 20, 0xe7d3fbc8);
GG(a, b, c, d, x[9], 5, 0x21e1cde6);
GG(d, a, b, c, x[14], 9, 0xc33707d6);
GG(c, d, a, b, x[3], 14, 0xf4d50d87);
GG(b, c, d, a, x[8], 20, 0x455a14ed);
GG(a, b, c, d, x[13], 5, 0xa9e3e905);
GG(d, a, b, c, x[2], 9, 0xfcefa3f8);
GG(c, d, a, b, x[7], 14, 0x676f02d9);
GG(b, c, d, a, x[12], 20, 0x8d2a4c8a);
HH(a, b, c, d, x[5], 4, 0xfffa3942);
HH(d, a, b, c, x[8], 11, 0x8771f681);
HH(c, d, a, b, x[11], 16, 0x6d9d6122);
HH(b, c, d, a, x[14], 23, 0xfde5380c);
HH(a, b, c, d, x[1], 4, 0xa4beea44);
HH(d, a, b, c, x[4], 11, 0x4bdecfa9);
HH(c, d, a, b, x[7], 16, 0xf6bb4b60);
HH(b, c, d, a, x[10], 23, 0xbebfbc70);
HH(a, b, c, d, x[13], 4, 0x289b7ec6);
HH(d, a, b, c, x[0], 11, 0xeaa127fa);
HH(c, d, a, b, x[3], 16, 0xd4ef3085);
HH(b, c, d, a, x[6], 23, 0x4881d05);
HH(a, b, c, d, x[9], 4, 0xd9d4d039);
HH(d, a, b, c, x[12], 11, 0xe6db99e5);
HH(c, d, a, b, x[15], 16, 0x1fa27cf8);
HH(b, c, d, a, x[2], 23, 0xc4ac5665);
II(a, b, c, d, x[0], 6, 0xf4292244);
II(d, a, b, c, x[7], 10, 0x432aff97);
II(c, d, a, b, x[14], 15, 0xab9423a7);
II(b, c, d, a, x[5], 21, 0xfc93a039);
II(a, b, c, d, x[12], 6, 0x655b59c3);
II(d, a, b, c, x[3], 10, 0x8f0ccc92);
II(c, d, a, b, x[10], 15, 0xffeff47d);
II(b, c, d, a, x[1], 21, 0x85845dd1);
II(a, b, c, d, x[8], 6, 0x6fa87e4f);
II(d, a, b, c, x[15], 10, 0xfe2ce6e0);
II(c, d, a, b, x[6], 15, 0xa3014314);
II(b, c, d, a, x[13], 21, 0x4e0811a1);
II(a, b, c, d, x[4], 6, 0xf7537e82);
II(d, a, b, c, x[11], 10, 0xbd3af235);
II(c, d, a, b, x[2], 15, 0x2ad7d2bb);
II(b, c, d, a, x[9], 21, 0xeb86d391);
state[0] += a;
state[1] += b;
state[2] += c;
state[3] += d;
}

2
src/memory/block/block.c Normal file
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#include <block/block.h>

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#include <block/block.h>
#include <block/block_expand.h>

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#include <type.h>
#include <list/list.h>
/**
@param p_node
@return
*/
Node *copyNode(Node *p_node) {
Node *t_node = NULL;
//当开启ID模块的时候编译
#ifdef id_enable
if (p_node->s_id == NULL) t_node = initNode(0);
else t_node = initNode(p_node->s_id->deep);
t_node->s_id = copyS_id(p_node->s_id);
#endif
t_node->last = p_node->last;
t_node->next = p_node->next;
t_node->type = p_node->type;
t_node->value = p_node->value;
return t_node;
}
/**
@param p_list
@return
*/
List *copyList(List *p_list) {
Node *p_node;
Node *t_node;
List *t_list = NULL;
#ifdef id_enable
if (p_list->s_id == NULL) t_list = initList(0);
else t_list = initList(p_list->s_id->deep);
#endif
t_list->head = p_list->head;
t_list->tail = p_list->tail;
t_list->length = p_list->length;
if(p_list->head != NULL && p_list->tail != NULL){
p_node = p_list->head;
while (p_node != NULL) {
t_node = copyNode(p_node);
insertInTail(t_list, t_node);
p_node = p_node->next;
}
}
return t_list;
}

130
src/memory/list/list_find.c Normal file
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#include <type.h>
#include <list/list.h>
//如果ID模块可能启用则编译以下代码
#ifdef id_enable
/**
ID查找链表中符合条件的第一个节点
@param p_list
@param s_id ID值
@return NULL
*/
Node *findByIdForNode(List *p_list, SID * s_id) {
Node *ph_node = p_list->head;
Node *pt_node = p_list->tail;
int direction = 0;
while (ph_node != pt_node) {
if (direction == 0) {
if (simFitS_id(ph_node->s_id, s_id)) {
return ph_node;
}
else {
ph_node = ph_node->next;
}
direction = 1;
}
else {
if (simFitS_id(pt_node->s_id, s_id)) {
return pt_node;
}
else {
pt_node = pt_node->last;
}
}
}
return NULL;
}
#endif
/**
@param p_list
@param type
@param value
@return NULL
*/
Node *findByValue(List *p_list, uint type, const void *value) {
Node *p_node = p_list->head;
while (p_node != NULL) {
if (p_node->type != type) {
p_node = p_node->next;
continue;
}
if (type == INT) {
if (*((int *)p_node->value) == *((int *)value)) {
return p_node;
}
}
else if (type == DOUBLE) {
if (*((double *)p_node->value) == *((double *)value)) {
return p_node;
}
}
else if (type == STRING) {
if (!strcmp((char *)p_node->value, (char *)value))
{
return p_node;
}
}
else if (type == POINTER) {
if (p_node->value == value) {
return p_node;
}
}
p_node = p_node->next;
}
return NULL;
}
/**
@param p_list
@param type
@param value
@return
*/
List *mply_findByValue(List *p_list, unsigned int type, const void *value) {
List *f_list = initList(0);
Node *p_node = p_list->head;
while (p_node != NULL) {
if (p_node->type != type) {
p_node = p_node->next;
continue;
}
if (type == INT) {
if (*((int *)p_node->value) == *((int *)value)) {
Node *f_node = p_node;
insertInTail(f_list, f_node);
}
}
else if (type == DOUBLE) {
if (*((double *)p_node->value) == *((double *)value)) {
Node *f_node = p_node;
insertInTail(f_list, f_node);
}
}
else if (type == STRING) {
if (!strcmp((char *)p_node->value, (char *)value))
{
Node *f_node = p_node;
insertInTail(f_list, f_node);
}
}
else if (type == POINTER) {
if (p_node->value == value) {
Node *f_node = p_node;
insertInTail(f_list, f_node);
}
}
p_node = p_node->next;
}
return f_list;
}

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#include <type.h>
#include <list/list.h>
/**
@param p_list
@return
*/
uint64_t len(List *p_list) {
return p_list->length;
}
/**
@param p_list
@return 10
*/
int isListEmpty(List *p_list) {
if (p_list->head == NULL || p_list->tail == NULL)// If its head or tail is NULL,it would be thought as empty.
return 1; // But we should ensure that both of them are NULL when we
return 0; // want to make a list empty.
}

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#include <type.h>
#include <list/list.h>
/**
@param if_sid ID
@return
*/
#ifdef id_enable
Node *initNode(_Bool if_sid)
#else
Node *initNode(void)
#endif
{
Node *p_node = (Node *)malloc(sizeof(Node));
if(p_node == NULL){
return NULL;
}
Node *prec_node = NULL;
//如果ID模块可能启用则编译以下代码
#ifdef id_enable
if (if_sid)p_node->s_id = getS_id(LIST_NODE, 1);
else p_node->s_id = NULL;
#endif
p_node->next = NULL;
p_node->last = NULL;
p_node->type = VOID;
// 链表内存安全模式相关操作
if (if_safeModeForNode) {
if_safeModeForNode = 0;
prec_node = initNode(0);
if_safeModeForNode = 1;
initMallocValueForNode(prec_node, POINTER, (void *)p_node);
insertInTail(node_list, prec_node);
}
return p_node;
}
/**
@param if_sid ID
@return
*/
#ifdef id_enable
List *initList(_Bool if_sid)
#else
List *initList(void)
#endif
{
Node *p_node = NULL;
List *p_list = (List *)malloc(sizeof(List));
if(p_list == NULL){
return NULL;
}
//如果ID模块可能启用则编译以下代码
#ifdef id_enable
if(if_sid) p_list->s_id = getS_id(LIST, 1);
else p_list->s_id = NULL;
#endif
p_list->head = NULL;
p_list->tail = NULL;
if (if_safeModeForNode) {
if_safeModeForNode = 0;
p_node = initNode(0);
if_safeModeForNode = 1;
initMallocValueForNode(p_node, POINTER, (void *)p_list);
insertInTail(list_list, p_node);
}
return p_list;
}
/**
@param p_node
@param type
@param p_value
@return 0
*/
inline int initMallocValueForNode(Node *p_node, unsigned int type, const void *p_value) {
p_node->type = type;
p_node->value = (void *)p_value;
return 0;
}

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#include <type.h>
#include <list/list.h>
/**
@param p_list
@param p_node
@return 0
*/
int insertInHead(List *p_list, Node *p_node) {
if (isListEmpty(p_list)) {
p_list->head = p_node;
p_list->tail = p_node;
}
else {
p_list->head->last = p_node;
p_node->last = NULL;
p_node->next = p_list->head;
p_list->head = p_node;
}
p_list->length += 1;
return 0;
}
/**
@param p_list
@param p_node
@return 0
*/
int insertInTail(List *p_list, Node *p_node) {
// 如果可能需要使用长链表模块则编译以下代码
/*
#ifdef list_quick_enable
if(p_list->p_lq != NULL && p_list->p_lq->if_sort) return -1;
#endif
*/
if (isListEmpty(p_list)) {
p_list->head = p_node;
p_list->tail = p_node;
}
else {
p_list->tail->next = p_node;
p_node->next = NULL;
p_node->last = p_list->tail;
p_list->tail = p_node;
}
p_list->length += 1;
return 0;
}

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#include <type.h>
#include <list/list.h>
#include <list/list_print.h>
#ifdef id_enable
#include <id/id.h>
#endif
/**
@param p_list
@param priority
*/
void printListInfo(List *p_list, int priority) {
int i = 0;
Node *p_node;
for (i = 0; i < priority; i++) printf(" ");
printf("###LIST(location:%p",p_list);
// 如果可能使用到ID模块则编译以下代码
#ifdef id_enable
printf(",id:%s",s_idToASCIIString(p_list->s_id));
#endif
printf("){\n");
for (i = 0; i < priority + 1; i++) printf(" ");
printf("HEAD->%p / Tail->%p / Length:%llu\n", p_list->head, p_list->tail, p_list->length);
p_node = p_list->head;
while (p_node != NULL) {
for (i = 0; i < priority + 1; i++) printf(" ");
printf("%d.... \n", i);
printNodeInfo(p_node, priority + 1);
p_node = p_node->next;
i++;
}
for (i = 0; i < priority; i++) printf(" ");
printf("}\n");
}
/**
@param p_list
*/
void printList(List *p_list) {
int if_nearLast = 0;
Node *p_node = p_list->head;
printf("[");
while (p_node != NULL) {
if (!if_nearLast && p_node->next == NULL) if_nearLast = 1;
if (p_node->type == INT) {
printf("%d", *(int *)(p_node->value));
}
else if (p_node->type == DOUBLE) {
printf("%a", *(double *)(p_node->value));
}
else if (p_node->type == STRING) {
printf("%s", (char *)(p_node->value));
}
else if (p_node->type == POINTER) {
printf("%p", (char *)(p_node->value));
}
else if (p_node->type == LIST) {
printList((List *)p_node->value);
}
if (!if_nearLast) {
printf(", ");
}
p_node = p_node->next;
}
printf("]");
}
/**
@param p_node
@param priority
*/
void printNodeInfo(Node *p_node, int priority) {
int i;
for (i = 0; i < priority; i++) printf(" ");
printf("#NODE(location:%p",p_node);
#ifdef id_enable
printf(", id:%s", s_idToASCIIString(p_node->s_id));
#endif
printf("){\n");
for (i = 0; i < priority + 1; i++) printf(" ");
printf("NEXT->%p / LAST->%p\n", p_node->next, p_node->last);
if (p_node->type == INT) {
for (i = 0; i < priority + 1; i++) printf(" ");
printf("VALUE(int):%d\n", *(int *)(p_node->value));
}
else if (p_node->type == DOUBLE) {
for (i = 0; i < priority + 1; i++) printf(" ");
printf("VALUE(double):%a\n", *(double *)(p_node->value));
}
else if (p_node->type == STRING) {
for (i = 0; i < priority + 1; i++) printf(" ");
printf("VALUE(string):%s\n", (char *)(p_node->value));
}
else if (p_node->type == POINTER) {
for (i = 0; i < priority + 1; i++) printf(" ");
printf("VALUE(pointer):%s\n", (char *)(p_node->value));
}
else if (p_node->type == LIST) {
for (i = 0; i < priority + 1; i++) printf(" ");
printf("VALUE(List):\n");
printListInfo((List *)p_node->value, priority + 2);
}
for (i = 0; i < priority; i++) printf(" ");
printf("}\n");
}
/**
@param p_node
*/
void printNode(Node *p_node) {
int i;
printf("#NODE(location:%p",p_node);
#ifdef id_enable
printf(", id:%s",s_idToASCIIString(p_node->s_id));
#endif
printf("){\n");
printf(" ");
printf("NEXT->%p / LAST->%p\n", p_node->next, p_node->last);
for (i = 0; i < 1; i++) printf(" ");
printf("ifMalloc: ");
if (p_node->value != NULL) {
printf("YES\n");
for (i = 0; i < 1; i++) printf(" ");
printf("Value(type: %d): ", p_node->type);
if (p_node->type == INT) {
printf("%d", *(int *)(p_node->value));
}
else if (p_node->type == DOUBLE) {
printf("%a\n", *(double *)(p_node->value));
}
else if (p_node->type == STRING) {
printf("%s\n", (char *)(p_node->value));
}
else if (p_node->type == POINTER) {
printf("%p\n", (char *)(p_node->value));
}
else if (p_node->type == LIST) {
printList((List *)p_node->value);
}
}
else printf("NO\n");
printf("}\n");
}
/**
@param p_list
@param func
*/
void printListForCustom(List *p_list,void (*func)(void *value)){
printf("###LIST (LEN:%llu ",p_list->length);
#ifdef id_enable
if(p_list->s_id != NULL) printf("SID:%s",p_list->s_id->decrypt_str);
#endif
printf(")\n");
listThrough(p_list, __CALLBACK_CALL(printListForCustom), __SEND_ARG("%p", func));
}
__CALLBACK_DEFINE(printListForCustom){
void (*func)(void *) = __ARGS_P(0, void);
printf("NODE (IDX:%llu ",__NOW_INDEX);
printf(")\n");
func(__VALUE(void *));
printf("\n");
return __CRETURN__;
}

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#include <type.h>
#include <list/list.h>
int releaseNode(Node *p_node) {
if (if_safeModeForNode == 1) {
removeByNode(node_list, p_node);
}
if (p_node->value != NULL) {
if (p_node->type != POINTER && p_node->type != HOLE) {
if (p_node->type == LIST) {
releaseList((List *)p_node->value);
}
else {
free(p_node->value);
}
}
p_node->value = NULL;
}
p_node->last = NULL;
p_node->next = NULL;
p_node->type = VOID;
p_node->value = NULL;
#ifdef id_enable
if (p_node->s_id != NULL) freeS_id(p_node->s_id);
#endif
free(p_node);
return 0;
}
int releaseOnlyNode(Node *p_node) {
#ifdef id_enable
if (p_node->s_id != NULL) freeS_id(p_node->s_id);
#endif
p_node->last = NULL;
p_node->next = NULL;
p_node->type = VOID;
p_node->value = NULL;
free(p_node);
return 0;
}
int releaseList(List *p_list) {
Node *p_node, *pl_node;
p_node = p_list->head;
if (if_safeModeForNode == 1) {
Node *tar_list = findByValue(list_list, POINTER, (void *)p_list);//turn pointer in to int to compare.
removeByNode(list_list, tar_list);
}
while (p_node != NULL) {
pl_node = p_node;
p_node = p_node->next;
pl_node->next = NULL;
pl_node->last = NULL;
releaseNode(pl_node);
}
p_list->head = NULL;
p_list->tail = NULL;
p_list->length = 0;
free(p_list);
return 0;
}
int releaseListForSingle(List *p_list) {
releaseList(p_list);
return 0;
}
int releaseNodeForCustom(Node *p_node, int (*func)(void *)){
if (if_safeModeForNode) {
removeByNode(node_list, p_node);
}
if (p_node->value != NULL) {
if (func(p_node->value))
p_node->value = NULL;
}
p_node->last = NULL;
p_node->next = NULL;
p_node->type = VOID;
p_node->value = NULL;
#ifdef id_enable
if (p_node->s_id != NULL) freeS_id(p_node->s_id);
#endif
free(p_node);
return 0;
}
int releaseListForCustom(List *p_list, int (*func)(void *)){
Node *p_node, *pl_node;
p_node = p_list->head;
if (if_safeModeForNode == 1) {
Node *tar_list = findByValue(list_list, POINTER, (void *)p_list);
removeByNode(list_list, tar_list);
}
while (p_node != NULL) {
pl_node = p_node;
p_node = p_node->next;
pl_node->next = NULL;
pl_node->last = NULL;
releaseNodeForCustom(pl_node,func);
}
p_list->head = NULL;
p_list->tail = NULL;
p_list->length = 0;
#ifdef id_enable
if (p_list->s_id != NULL) freeS_id(p_list->s_id);
#endif
free(p_list);
return 0;
}

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#include <type.h>
#include <list/list.h>
#ifdef id_enable
int removeById(List *p_list, SID *s_id) {
Node *tmp = p_list->head;
if (isListEmpty(p_list))
return -1;
do {
if (simFitS_id(tmp->s_id, s_id)) {
if (tmp != p_list->head) {
tmp->last->next = tmp->next;
}
else {
p_list->head = tmp->next;
}
if (tmp != p_list->tail) {
tmp->next->last = tmp->last;
}
else {
p_list->tail = tmp->last;
}
p_list->length -= 1;
return 1;//found
}
else {
tmp = tmp->next;
}
} while (tmp != NULL);
return 0;//not find
}
#endif
int removeByNode(List *p_list, Node *p_node) {
if (isListEmpty(p_list))
return -1;
if(p_node == p_list->head){
popFromHead(p_list);
return 0;
}
else if(p_node == p_list->tail){
popFromTail(p_list);
return 0;
}
p_node->last->next = p_node->next;
p_node->next->last = p_node->last;
p_list->length -= 1;
return 0;//not find
}
Node *popFromHead(List *p_list) {
if (isListEmpty(p_list))
return NULL;
Node *p_node = p_list->head;
//Node *tmp = p_list->head;
p_list->head->next->last = NULL;
p_list->head = p_list->head->next;
//releaseNode(tmp); not necessary
if (isListEmpty(p_list)) {
p_list->head = NULL;
p_list->tail = NULL;
}
p_list->length -= 1;
return p_node;
}
Node *popFromTail(List *p_list) {
Node *p_node = p_list->tail;
if (isListEmpty(p_list))
return NULL;
else {
//Node *tmp = p_list->tail;
p_list->tail->last->next = NULL;
p_list->tail = p_list->tail->last;
//releaseNode(tmp); not necessary
}
if (isListEmpty(p_list)) {
p_list->head = NULL;
p_list->tail = NULL;
}
p_list->length -= 1;
return p_node;
}

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#include <type.h>
#include <list/list.h>
int replaceNode(List *p_list, Node *pt_node, Node *p_node){
p_node->next = pt_node->next;
p_node->last = pt_node->last;
if (p_list->head != pt_node) pt_node->last->next = p_node;
else p_list->head = p_node;
if(p_list->tail != pt_node) pt_node->next->last = p_node;
else p_list->tail = p_node;
return 0;
}
int exchangeNode(List *p_list, Node *f_node, Node *s_node){
Node *fl_node = f_node->last, *fn_node = f_node->next;
if(p_list->head != f_node) f_node->last->next = s_node;
else p_list->head = s_node;
if(p_list->tail != f_node) f_node->next->last = s_node;
else p_list->tail = s_node;
if(p_list->head != s_node) s_node->last->next = f_node;
else p_list->head = f_node;
if(p_list->tail != s_node) s_node->next->last = f_node;
else p_list->tail = f_node;
f_node->next = s_node->next;
f_node->last = s_node->last;
s_node->next = fn_node;
s_node->last = fl_node;
return 0;
}

101
src/memory/list/safe_mode.c Normal file
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#include <type.h>
#include <list/list.h>
#include <chain/chain_quick.h>
static int if_safeModeForNode = 0;
static List *node_list = NULL;
static List *list_list = NULL;
/*属于安全模式操作内部调用,释放节点而不释放其中的值.*/
static int releaseSingleNodeForsafeModeForNode(List *p_list);
/*属于安全模式操作内部调用,释放链表而不释放其中的值.*/
static int releaseSingleListForsafeModeForNode(List *p_list);
int safeModeForNode(int ifon) {
if (ifon == 1) {
if (node_list == NULL && list_list == NULL) {
node_list = (List *)malloc(sizeof(List));
if(node_list == NULL){
return -1;
}
list_list = (List *)malloc(sizeof(List));
if(list_list == NULL){
return -1;
}
list_list->head = NULL;
list_list->length = 0;
list_list->tail = NULL;
node_list->head = NULL;
node_list->length = 0;
node_list->tail = NULL;
if_safeModeForNode = 1;
}
else {
return -1;
}
}
return ifon;
}
static int releaseSingleListForsafeModeForNode(List *p_list) {
Node *p_node = p_list->head;
List *plv_node = NULL;
while (p_node != NULL) {
plv_node = (List *)p_node->value;
#ifdef id_enable
freeS_id(plv_node->s_id);
#endif
plv_node->head = NULL;
plv_node->length = 0;
plv_node->tail = NULL;
free(plv_node);
p_node = p_node->next;
}
p_list->head = NULL;
p_list->length = 0;
p_list->tail = NULL;
#ifdef id_enable
freeS_id(p_list->s_id);
#endif
free(p_list);
return 0;
}
static int releaseSingleNodeForsafeModeForNode(List *p_list) {
Node *p_node = p_list->head;
Node *pnv_node = NULL;
while (p_node != NULL) {
pnv_node = (Node *)p_node->value;
#ifdef id_enable
freeS_id(pnv_node->s_id);
#endif
pnv_node->last = NULL;
pnv_node->next = NULL;
pnv_node->type = VOID;
pnv_node->value = NULL;
free(pnv_node);
p_node = p_node->next;
}
#ifdef id_enable
free(p_list->s_id);
#endif
p_list->head = NULL;
p_list->length = 0;
p_list->tail = NULL;
free(p_list);
return 0;
}
int releaseAllForNode(void) {
if (if_safeModeForNode == 1) {
if_safeModeForNode = 0;
releaseSingleNodeForsafeModeForNode(node_list);
releaseSingleListForsafeModeForNode(list_list);
}
return 0;
}

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@ -1,76 +0,0 @@
#include "stack.h"
Stack *initStack(void) {
Stack *p_stack = (Stack *)malloc(sizeof(Stack));
if(p_stack == NULL){
showError(pushError(STACK, STANDARD, initInfo("initStack()", "Error in getting the memory of stack.")));
return NULL;
}
p_stack->s_id = getS_id(STACK, 1);
p_stack->length = 0;
p_stack->top = NULL;
return p_stack;
}
SNode *initSNode(void) {
SNode *p_snode = (SNode *)malloc(sizeof(SNode));
if(p_snode == NULL){
showError(pushError(STACK_NODE, STANDARD, initInfo("initSNode()", "Error in getting the memory of snode.")));
return NULL;
}
p_snode->s_id = getS_id(STACK_NODE, 1);
p_snode->if_malloc = 0;
p_snode->next = NULL;
p_snode->value = NULL;
return p_snode;
}
SNode *popStack(Stack *p_stack) {
if (p_stack->top != NULL) {
SNode *p_snode = p_stack->top;
p_stack->top = p_snode->next;
p_snode->next = NULL;
p_stack->length -= 1;
return p_snode;
}
else return NULL;
}
int pushStack(Stack *p_stack, SNode *p_snode) {
SNode *pn_snode = p_stack->top;
p_stack->top = p_snode;
p_snode->next = pn_snode;
p_stack->length -= 1;
return 0;
}
int releaseStack(Stack *p_stack) {
SNode *p_sndoe = p_stack->top;
while (p_sndoe != NULL) {
SNode *pl_snode = p_sndoe;
p_sndoe = p_sndoe->next;
releaseSNode(pl_snode);
}
freeS_id(p_stack->s_id);
p_stack->top = NULL;
p_stack->length = 0;
free(p_stack);
return 0;
}
int releaseSNode(SNode *p_snode) {
freeS_id(p_snode->s_id);
free(p_snode->value);
p_snode->if_malloc = 0;
p_snode->value = NULL;
p_snode->type = VOID;
free(p_snode);
return 0;
}
int initMallocValueForSNode(SNode *p_snode, unsigned int type, void *value) {
p_snode->if_malloc = 1;
p_snode->type = type;
p_snode->value = value;
return 0;
}

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@ -1,16 +0,0 @@
#ifndef STACK_H
#define STACK_H
#include "../type/type.h"
#include "../list/list_expand.h"
Stack *initStack(void);
SNode *initSNode(void);
int initMallocValueForSNode(SNode *p_snode, unsigned int type, void *value);
SNode *popStack(Stack *p_stack);
int pushStack(Stack *p_stack, SNode *p_snode);
int releaseStack(Stack *p_stack);
int releaseSNode(SNode *p_snode);
#endif /* stack_h */

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@ -1,63 +0,0 @@
#include "stack_expand.h"
SNode *snodeWithInt(int temp) {
SNode *p_snode = initSNode();
int *p_temp = (int *)malloc(sizeof(int));
if(p_temp == NULL){
showError(pushError(INT, STANDARD, initInfo("snodeWithInt()", "Error in getting the memory of int.")));
return NULL;
}
*p_temp = temp;
initMallocValueForSNode(p_snode, INT, p_temp);
return p_snode;
}
SNode *snodeWithDouble(double temp) {
SNode *p_snode = initSNode();
double *p_temp = (double *)malloc(sizeof(double));
if(p_temp == NULL){
showError(pushError(DOUBLE, STANDARD, initInfo("snodeWithDouble()", "Error in getting the memory of double.")));
return NULL;
}
*p_temp = temp;
initMallocValueForSNode(p_snode, DOUBLE, p_temp);
return p_snode;
}
SNode *snodeWithString(char *temp) {
SNode *p_snode = initSNode();
char *p_temp = (char *)malloc(sizeof(char)*(strlen(temp) + 1));
if(p_temp == NULL){
showError(pushError(STRING, STANDARD, initInfo("snodeWithString()", "Error in getting the memory of string.")));
return NULL;
}
strcpy(p_temp, temp);
initMallocValueForSNode(p_snode, STRING, p_temp);
return p_snode;
}
SNode *snodeWithPointer(void *temp) {
SNode *p_snode = initSNode();
initMallocValueForSNode(p_snode, POINTER, temp);
return p_snode;
}
int getValueByIntForSNode(SNode *p_snode) {
if (p_snode->type == INT) return *(int *)p_snode->value;
else return -1;
}
double getValueByDoubleForSNode(SNode *p_snode) {
if (p_snode->type == DOUBLE) return *(double *)p_snode->value;
else return -1;
}
char *getValueByStringForSNode(SNode *p_snode) {
if (p_snode->type == STRING) return (char *)p_snode->value;
else return NULL;
}
void *getValueByPointerForSNode(SNode *p_snode) {
if (p_snode->type == POINTER) return (void *)p_snode->value;
else return NULL;
}

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@ -1,16 +0,0 @@
#ifndef STACK_EXPAND_H
#define STACK_EXPAND_H
#include "stack.h"
SNode *snodeWithInt(int);
SNode *snodeWithDouble(double);
SNode *snodeWithString(char *);
SNode *snodeWithPointer(void *);
int getValueByIntForSNode(SNode *);
double getValueByDoubleForSNode(SNode *);
char *getValueByStringForSNode(SNode *);
void *getValueByPointerForSNode(SNode *);
#endif /* stack_expand_h */

100
test.c
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@ -1,100 +0,0 @@
#include "test.h"
int list(void) {
List *t_list, *m_list;;
safeModeForNode(1);
t_list = initList();
/*for(int i = 0; i < 9; i++){
Node *t_node = initNode();
int *t_i = (int *)malloc(sizeof(int));
*t_i = i;
initMallocValue(t_node,"int",(void *)t_i);
insertInTail(t_list,t_node);
}*/
/*Node *t_node = initNode();
insertInTail(t_list,t_node);
initMalllocValue(t_node,(void *)"there");*/
for (int i = 0; i < 12; i++) {
insertInHead(t_list, nodeWithInt(i));
insertInTail(t_list, nodeWithInt(i));
}
printListInfo(t_list, 0);
printList(t_list);
m_list = m_findByIntForNode(t_list, 5);
printList(m_list);
printf("\n");
releaseAllForNode();
return 0;
}
int _useTreeThroughDown(TNode *p_tnode, unsigned long long height) {
printTNode(p_tnode,0);
return 0;
}
int tree(void) {
TNode *t_tnode, *cr_tnode, *cl_tnode;
Tree *t_tree;
TNode *gs_tnode;
safeModeForTree(1);
t_tree = initTree();
t_tnode = tnodeWithInt(1);
cr_tnode = tnodeWithInt(3);
cl_tnode = tnodeWithInt(2);
addChildInRight(t_tnode, cl_tnode);
addChildInRight(t_tnode, cr_tnode);
addChildInRight(cl_tnode, tnodeWithInt(4));
gs_tnode = tnodeWithInt(5);
addChildInRight(cl_tnode,gs_tnode);
addChildInRight(cr_tnode, tnodeWithInt(6));
addChildInRight(cr_tnode, tnodeWithInt(7));
addChildInRight(gs_tnode, tnodeWithInt(8));
setRoot(t_tree, t_tnode);
TreeThroughUp(t_tree, _useTreeThroughDown);
//printTNodeWithFamily(t_tnode, 0);
releaseAllForTree();
return 0;
}
int stack(void) {
int i;
Stack *t_stack = initStack();
for (i = 0; i < 10; i++) {
pushStack(t_stack, snodeWithInt(i));
}
for (i = 0; i < 10; i++) {
printf("%d", getValueByIntForSNode(popStack(t_stack)));
}
releaseStack(t_stack);
return 0;
}
int main(int argc, char **argv) {
init_rand();
List *t_list = initList();
for (int i = 0; i < 100; i++) {
insertInHead(t_list, nodeWithInt(i));
}
STD_DATA *p_std = listToSTD(t_list);
D_FILE *p_dfilew = initDataFileForWrite("data.df");
dataFileAddStandardData(p_dfilew, p_std);
dataFileWriteIn(p_dfilew);
releaseDFile(p_dfilew);
D_FILE *p_dfiler = initDataFileForRead("data.df");
dataFileReadOut(p_dfiler);
releaseDFile(p_dfiler);
releaseList(t_list);
return 0;
}

14
test.h
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@ -1,14 +0,0 @@
#ifndef TEST_H
#define TEST_H
#include "type/type.h"
#include "list/list_expand.h"
#include "stack/stack_expand.h"
#include "tree/tree_expand.h"
#include "communicate/communicate.h"
int stack(void);
int list(void);
int tree(void);
#endif // TEST_H

60
test/test.c Normal file
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#include "test.h"
int list(void) {
List *p_list = initList(1);
for(int i = 0; i < 12; i++){
insertInTail(p_list, nodeWithInt(i, 0));
}
D_FILE *pd_file = initDataFileForWrite("data.db");
STD_DATA *p_std = listToSTD(p_list);
STD_DATA *pa_std = listToSTD(p_list);
dataFileAddStandardData(pd_file, p_std);
dataFileAddStandardData(pd_file, pa_std);
dataFileWriteIn(pd_file);
releaseList(p_list);
releaseDFile(pd_file);
return 0;
}
/*int _useTreeThroughDown(TNode *p_tnode, unsigned long long height) {
printTNode(p_tnode,0);
return 0;
}*/
/*int tree(void) {
TNode *t_tnode, *cr_tnode, *cl_tnode;
Tree *t_tree;
TNode *gs_tnode;
safeModeForTree(1);
t_tree = initTree();
t_tnode = tnodeWithInt(1);
cr_tnode = tnodeWithInt(3);
cl_tnode = tnodeWithInt(2);
addChildInRight(t_tnode, cl_tnode);
addChildInRight(t_tnode, cr_tnode);
addChildInRight(cl_tnode, tnodeWithInt(4));
gs_tnode = tnodeWithInt(5);
addChildInRight(cl_tnode,gs_tnode);
addChildInRight(cr_tnode, tnodeWithInt(6));
addChildInRight(cr_tnode, tnodeWithInt(7));
addChildInRight(gs_tnode, tnodeWithInt(8));
setRoot(t_tree, t_tnode);
TreeThroughUp(t_tree, _useTreeThroughDown);
//printTNodeWithFamily(t_tnode, 0);
releaseAllForTree();
return 0;
}*/
int main(int argc, char **argv) {
while(1){
List *p_list = initList(0);
for(int i = 0; i < 65535; i++){
insertInTail(p_list, nodeWithInt(i, 1));
}
releaseList(p_list);
}
return 0;
}

16
test/test.h Normal file
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@ -0,0 +1,16 @@
#ifndef TEST_H
#define TEST_H
#include <sys/time.h>
#include <type.h>
#include <id/id.h>
#include <chain/chain.h>
#include <event/event.h>
#include <communicate/communicate_file.h>
int stack(void);
int list(void);
int tree(void);
#endif // TEST_H

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@ -1,178 +0,0 @@
#ifndef type_h
#define type_h
#include <stdio.h>
#include <string.h>
#include <time.h>
#include <stdlib.h>
#include <unistd.h>
#include <inttypes.h>
/*
#include <sys/types.h>
#include <sys/socket.h>
#include <netinet/in.h>
#include <arpa/inet.h>
*/
#define VOID 0
#define INT 1
#define DOUBLE 2
#define STRING 3
#define POINTER 4
#define LIST 5
#define STACK 6
#define TREE 7
#define LIST_NODE 8
#define TREE_NODE 9
#define STACK_NODE 10
#define T_SID 11
#define UINT 12
#define STANDARD_DATA 13
#define DATA_FILE 14
#define MESSAGE 15
#define DEEPC 1
#define DEEPB 2
#define DEEPA 3
#define TYPE_LEN 5
#define DEEPC_LEN 4
#define DEEPB_LEN 8
#define DEEPA_LEN 32
#define DATA_BIT 5
#define DEEP_LEN 25
#define DEEPER_LEN 65
#define DEEPEST_LEN 225
#define FILE_TSET_LEN 18
#define HEAD_TEST_LEN 9
#define HIGH 0x3
#define STANDARD 0x2
#define LOW 0x1
typedef struct s_id{
unsigned int type;
unsigned int *value;//4
unsigned int *value_deeper;//8
unsigned int *value_deepest;//32
unsigned int deep;
}SID;
typedef struct Node{
SID *s_id;
void *value;
_Bool if_malloc;
_Bool if_sid;
unsigned int type;
struct Node *next;
struct Node *last;
} Node;
typedef struct List{
SID *s_id;
Node *head;
Node *tail;
_Bool if_sid;
unsigned long long length;
} List;
typedef struct Info{
char head[64];
char body[256];
}Info;
typedef struct Error{
unsigned int type;
int priority;
Info info;
time_t time;
}Error;
typedef struct Notice{
unsigned int type;
Info info;
time_t time;
}Notice;
typedef struct Log{
FILE *fp;
int if_enable;
unsigned long int id;
}Log;
typedef struct stack_node{
SID *s_id;
_Bool if_malloc;
_Bool if_sid;
unsigned int type;
void *value;
struct stack_node *next;
} SNode;
typedef struct stack{
SID *s_id;
unsigned long long length;
SNode *top;
_Bool if_sid;
} Stack;
typedef struct tree_node
{
SID *s_id;
List *home;
struct tree_node *father;
Node *room;
unsigned long long child_num;
unsigned int type;
void *value;
_Bool if_malloc;
_Bool if_sid;
}TNode;
typedef struct tree
{
SID *s_id;
_Bool if_sid;
TNode *root;
}Tree;
typedef struct file_head{
char head_test[18];
unsigned long long data_num;
}F_HEAD;
typedef struct data_file{
FILE *fp;
F_HEAD *pf_head;
List *pf_stdlst;
}D_FILE;
typedef struct standard_data_blocks{
unsigned int type;
char *sid;
_Bool if_data;
unsigned int blocks_num;
char *buff;
}STD_BLOCKS;
typedef struct standard_data_connection{
char *f_sid;
char *s_sid;
}STD_CTN;
typedef struct standard_data_head{
unsigned long long data_blk_num;
unsigned long long data_ctn_num;
}STD_HEAD;
typedef struct standard_data{
SID *s_id;
unsigned int type;
_Bool lock;
List *pd_blocklst;
List *pd_ctnlst;
}STD_DATA;
#endif /* type_h */