#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)); 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 (*)[DEEPC_LEN])malloc(sizeof(unsigned int)*DEEPC_LEN); if (deep_level > 1) p_sid->value_deeper = (unsigned int (*)[DEEPB_LEN])malloc(sizeof(unsigned int)*DEEPB_LEN); if (deep_level > 2) p_sid->value_deepest = (unsigned int (*)[DEEPA_LEN])malloc(sizeof(unsigned int)*DEEPA_LEN); return p_sid; } SID *getS_id(unsigned int type, unsigned int deep_level){ SID *p_sid = (SID *)malloc(sizeof(SID)); p_sid->type = type; 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 (*)[DEEPC_LEN])malloc(sizeof(unsigned int)*DEEPC_LEN); for(int i = 0; i < DEEPC_LEN; i++) (*p_sid->value)[i] = rand()%65535; if(deep_level > 1){ p_sid->value_deeper = (unsigned int (*)[DEEPB_LEN])malloc(sizeof(unsigned int)*DEEPB_LEN); for(int i = 0; i < DEEPB_LEN; i++) (*p_sid->value_deeper)[i] = rand()%65535; } if (deep_level > 2) { p_sid->value_deepest = (unsigned int (*)[DEEPA_LEN])malloc(sizeof(unsigned int)*DEEPA_LEN); 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 + 1); 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 + 1); 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 + 1); deep_len = DEEPC_LEN + DEEPB_LEN + DEEPA_LEN + 1; deep_len *= DATA_BIT; } 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; } printf("%s",string); return string; } else{ return NULL; } } SID *asciiStringToS_id(const char *string){ SID *s_id = NULL; unsigned long long string_len = strlen(string); unsigned int buff[string_len - 1]; for(int i = 0; i < string_len; i++){ buff[i] = string[i] - 48; } 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; for (int i = 0; i < 5; i++){ s_id->type += buff[i] ; s_id->type *= 10; } s_id->type /= 10; 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] += (int)buff[5 + i * 5 + j]; (*s_id->value)[i] *= 10; } (*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]; (*s_id->value_deeper)[i] *= 10; } (*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]; (*s_id->value_deepest)[i] *= 10; } (*s_id->value_deepest)[i] /= 10; } } 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; }