#ifndef AL_VECTOR_H #define AL_VECTOR_H #include #include /* "Base" vector type, designed to alias with the actual vector types. */ typedef struct vector__s { ALsizei Capacity; ALsizei Size; } *vector_; #define TYPEDEF_VECTOR(T, N) typedef struct { \ ALsizei Capacity; \ ALsizei Size; \ T Data[]; \ } _##N; \ typedef _##N* N; \ typedef const _##N* const_##N; #define VECTOR(T) struct { \ ALsizei Capacity; \ ALsizei Size; \ T Data[]; \ }* #define VECTOR_INIT(_x) do { (_x) = NULL; } while(0) #define VECTOR_INIT_STATIC() NULL #define VECTOR_DEINIT(_x) do { free((_x)); (_x) = NULL; } while(0) /* Helper to increase a vector's reserve. Do not call directly. */ ALboolean vector_reserve(void *ptr, size_t base_size, size_t obj_count, size_t obj_size, ALboolean exact); #define VECTOR_RESERVE(_x, _c) (vector_reserve(&(_x), sizeof(*(_x)), (_c), sizeof((_x)->Data[0]), AL_TRUE)) /* Helper to change a vector's size. Do not call directly. */ ALboolean vector_resize(void *ptr, size_t base_size, size_t obj_count, size_t obj_size); #define VECTOR_RESIZE(_x, _c) (vector_resize(&(_x), sizeof(*(_x)), (_c), sizeof((_x)->Data[0]))) #define VECTOR_CAPACITY(_x) ((_x) ? (_x)->Capacity : 0) #define VECTOR_SIZE(_x) ((_x) ? (_x)->Size : 0) #define VECTOR_ITER_BEGIN(_x) ((_x)->Data + 0) #define VECTOR_ITER_END(_x) ((_x)->Data + VECTOR_SIZE(_x)) ALboolean vector_insert(void *ptr, size_t base_size, size_t obj_size, void *ins_pos, const void *datstart, const void *datend); #ifdef __GNUC__ #define TYPE_CHECK(T1, T2) __builtin_types_compatible_p(T1, T2) #define VECTOR_INSERT(_x, _i, _s, _e) __extension__({ \ ALboolean _r; \ static_assert(TYPE_CHECK(__typeof((_x)->Data[0]), __typeof(*(_i))), "Incompatible insertion iterator"); \ static_assert(TYPE_CHECK(__typeof((_x)->Data[0]), __typeof(*(_s))), "Incompatible insertion source type"); \ static_assert(TYPE_CHECK(__typeof(*(_s)), __typeof(*(_e))), "Incompatible iterator sources"); \ _r = vector_insert(&(_x), sizeof(*(_x)), sizeof((_x)->Data[0]), (_i), (_s), (_e)); \ _r; \ }) #else #define VECTOR_INSERT(_x, _i, _s, _e) (vector_insert(&(_x), sizeof(*(_x)), sizeof((_x)->Data[0]), (_i), (_s), (_e))) #endif #define VECTOR_PUSH_BACK(_x, _obj) (vector_reserve(&(_x), sizeof(*(_x)), VECTOR_SIZE(_x)+1, sizeof((_x)->Data[0]), AL_FALSE) && \ (((_x)->Data[(_x)->Size++] = (_obj)),AL_TRUE)) #define VECTOR_POP_BACK(_x) ((void)((_x)->Size--)) #define VECTOR_BACK(_x) ((_x)->Data[(_x)->Size-1]) #define VECTOR_FRONT(_x) ((_x)->Data[0]) #define VECTOR_ELEM(_x, _o) ((_x)->Data[(_o)]) #define VECTOR_FOR_EACH(_t, _x, _f) do { \ _t *_iter = VECTOR_ITER_BEGIN((_x)); \ _t *_end = VECTOR_ITER_END((_x)); \ for(;_iter != _end;++_iter) \ _f(_iter); \ } while(0) #define VECTOR_FIND_IF(_i, _t, _x, _f) do { \ _t *_end = VECTOR_ITER_END((_x)); \ (_i) = VECTOR_ITER_BEGIN((_x)); \ for(;(_i) != _end;++(_i)) \ { \ if(_f(_i)) \ break; \ } \ } while(0) #endif /* AL_VECTOR_H */