//===--- vec_char.h ---------------------------------------------------------=== // // satoko: Satisfiability solver // // This file is distributed under the BSD 2-Clause License. // See LICENSE for details. // //===------------------------------------------------------------------------=== #ifndef satoko__utils__vec__vec_char_h #define satoko__utils__vec__vec_char_h #include #include #include #include "../mem.h" #include "misc/util/abc_global.h" ABC_NAMESPACE_HEADER_START typedef struct vec_char_t_ vec_char_t; struct vec_char_t_ { unsigned cap; unsigned size; char *data; }; //===------------------------------------------------------------------------=== // Vector Macros //===------------------------------------------------------------------------=== #define vec_char_foreach(vec, entry, i) \ for (i = 0; (i < vec_char_size(vec)) && (((entry) = vec_char_at(vec, i)), 1); i++) #define vec_char_foreach_start(vec, entry, i, start) \ for (i = start; (i < vec_char_size(vec)) && (((entry) = vec_char_at(vec, i)), 1); i++) #define vec_char_foreach_stop(vec, entry, i, stop) \ for (i = 0; (i < stop) && (((entry) = vec_char_at(vec, i)), 1); i++) //===------------------------------------------------------------------------=== // Vector API //===------------------------------------------------------------------------=== static inline vec_char_t * vec_char_alloc(unsigned cap) { vec_char_t *p = satoko_alloc(vec_char_t, 1); if (cap > 0 && cap < 16) cap = 16; p->size = 0; p->cap = cap; p->data = p->cap ? satoko_alloc(char, p->cap) : NULL; return p; } static inline vec_char_t * vec_char_alloc_exact(unsigned cap) { vec_char_t *p = satoko_alloc(vec_char_t, 1); cap = 0; p->size = 0; p->cap = cap; p->data = p->cap ? satoko_alloc(char, p->cap ) : NULL; return p; } static inline vec_char_t * vec_char_init(unsigned size, char value) { vec_char_t *p = satoko_alloc(vec_char_t, 1); p->cap = size; p->size = size; p->data = p->cap ? satoko_alloc(char, p->cap) : NULL; memset(p->data, value, sizeof(char) * p->size); return p; } static inline void vec_char_free(vec_char_t *p) { if (p->data != NULL) satoko_free(p->data); satoko_free(p); } static inline unsigned vec_char_size(vec_char_t *p) { return p->size; } static inline void vec_char_resize(vec_char_t *p, unsigned new_size) { p->size = new_size; if (p->cap >= new_size) return; p->data = satoko_realloc(char, p->data, new_size); assert(p->data != NULL); p->cap = new_size; } static inline void vec_char_shrink(vec_char_t *p, unsigned new_size) { assert(p->cap > new_size); p->size = new_size; } static inline void vec_char_reserve(vec_char_t *p, unsigned new_cap) { if (p->cap >= new_cap) return; p->data = satoko_realloc(char, p->data, new_cap); assert(p->data != NULL); p->cap = new_cap; } static inline unsigned vec_char_capacity(vec_char_t *p) { return p->cap; } static inline int vec_char_empty(vec_char_t *p) { return p->size ? 0 : 1; } static inline void vec_char_erase(vec_char_t *p) { satoko_free(p->data); p->size = 0; p->cap = 0; } static inline char vec_char_at(vec_char_t *p, unsigned idx) { assert(idx >= 0 && idx < p->size); return p->data[idx]; } static inline char * vec_char_at_ptr(vec_char_t *p, unsigned idx) { assert(idx >= 0 && idx < p->size); return p->data + idx; } static inline char * vec_char_data(vec_char_t *p) { assert(p); return p->data; } static inline void vec_char_duplicate(vec_char_t *dest, const vec_char_t *src) { assert(dest != NULL && src != NULL); vec_char_resize(dest, src->cap); memcpy(dest->data, src->data, sizeof(char) * src->cap); dest->size = src->size; } static inline void vec_char_copy(vec_char_t *dest, const vec_char_t *src) { assert(dest != NULL && src != NULL); vec_char_resize(dest, src->size); memcpy(dest->data, src->data, sizeof(char) * src->size); dest->size = src->size; } static inline void vec_char_push_back(vec_char_t *p, char value) { if (p->size == p->cap) { if (p->cap < 16) vec_char_reserve(p, 16); else vec_char_reserve(p, 2 * p->cap); } p->data[p->size] = value; p->size++; } static inline char vec_char_pop_back(vec_char_t *p) { assert(p && p->size); return p->data[--p->size]; } static inline void vec_char_assign(vec_char_t *p, unsigned idx, char value) { assert((idx >= 0) && (idx < vec_char_size(p))); p->data[idx] = value; } static inline void vec_char_insert(vec_char_t *p, unsigned idx, char value) { assert((idx >= 0) && (idx < vec_char_size(p))); vec_char_push_back(p, 0); memmove(p->data + idx + 1, p->data + idx, (p->size - idx - 2) * sizeof(char)); p->data[idx] = value; } static inline void vec_char_drop(vec_char_t *p, unsigned idx) { assert((idx >= 0) && (idx < vec_char_size(p))); memmove(p->data + idx, p->data + idx + 1, (p->size - idx - 1) * sizeof(char)); p->size -= 1; } static inline void vec_char_clear(vec_char_t *p) { p->size = 0; } static inline int vec_char_asc_compare(const void *p1, const void *p2) { const char *pp1 = (const char *)p1; const char *pp2 = (const char *)p2; if (*pp1 < *pp2) return -1; if (*pp1 > *pp2) return 1; return 0; } static inline int vec_char_desc_compare(const void *p1, const void *p2) { const char *pp1 = (const char *)p1; const char *pp2 = (const char *)p2; if (*pp1 > *pp2) return -1; if (*pp1 < *pp2) return 1; return 0; } static inline void vec_char_sort(vec_char_t *p, int ascending) { if (ascending) qsort((void *) p->data, p->size, sizeof(char), (int (*)(const void *, const void *)) vec_char_asc_compare); else qsort((void*) p->data, p->size, sizeof(char), (int (*)(const void *, const void *)) vec_char_desc_compare); } static inline long vec_char_memory(vec_char_t *p) { return p == NULL ? 0 : sizeof(char) * p->cap + sizeof(vec_char_t); } static inline void vec_char_print(vec_char_t* p) { unsigned i; assert(p != NULL); fprintf(stdout, "Vector has %u(%u) entries: {", p->size, p->cap); for (i = 0; i < p->size; i++) fprintf(stdout, " %d", p->data[i]); fprintf(stdout, " }\n"); } ABC_NAMESPACE_HEADER_END #endif /* satoko__utils__vec__vec_char_h */