#ifndef TREE_SITTER_ARRAY_H_ #define TREE_SITTER_ARRAY_H_ #ifdef __cplusplus extern "C" { #endif #include #include #include #include #include #include "./alloc.h" #define Array(T) \ struct { \ T *contents; \ uint32_t size; \ uint32_t capacity; \ } #define array_init(self) \ ((self)->size = 0, (self)->capacity = 0, (self)->contents = NULL) #define array_new() \ { NULL, 0, 0 } #define array_get(self, index) \ (assert((uint32_t)index < (self)->size), &(self)->contents[index]) #define array_front(self) array_get(self, 0) #define array_back(self) array_get(self, (self)->size - 1) #define array_clear(self) ((self)->size = 0) #define array_reserve(self, new_capacity) \ array__reserve((VoidArray *)(self), array__elem_size(self), new_capacity) #define array_erase(self, index) \ array__erase((VoidArray *)(self), array__elem_size(self), index) #define array_delete(self) array__delete((VoidArray *)self) #define array_push(self, element) \ (array__grow((VoidArray *)(self), 1, array__elem_size(self)), \ (self)->contents[(self)->size++] = (element)) #define array_grow_by(self, count) \ (array__grow((VoidArray *)(self), count, array__elem_size(self)), \ memset((self)->contents + (self)->size, 0, (count) * array__elem_size(self)), \ (self)->size += (count)) #define array_push_all(self, other) \ array_splice((self), (self)->size, 0, (other)->size, (other)->contents) #define array_splice(self, index, old_count, new_count, new_contents) \ array__splice((VoidArray *)(self), array__elem_size(self), index, old_count, \ new_count, new_contents) #define array_insert(self, index, element) \ array__splice((VoidArray *)(self), array__elem_size(self), index, 0, 1, &element) #define array_pop(self) ((self)->contents[--(self)->size]) #define array_assign(self, other) \ array__assign((VoidArray *)(self), (const VoidArray *)(other), array__elem_size(self)) // Private typedef Array(void) VoidArray; #define array__elem_size(self) sizeof(*(self)->contents) static inline void array__delete(VoidArray *self) { ts_free(self->contents); self->contents = NULL; self->size = 0; self->capacity = 0; } static inline void array__erase(VoidArray *self, size_t element_size, uint32_t index) { assert(index < self->size); char *contents = (char *)self->contents; memmove(contents + index * element_size, contents + (index + 1) * element_size, (self->size - index - 1) * element_size); self->size--; } static inline void array__reserve(VoidArray *self, size_t element_size, uint32_t new_capacity) { if (new_capacity > self->capacity) { if (self->contents) { self->contents = ts_realloc(self->contents, new_capacity * element_size); } else { self->contents = ts_calloc(new_capacity, element_size); } self->capacity = new_capacity; } } static inline void array__assign(VoidArray *self, const VoidArray *other, size_t element_size) { array__reserve(self, element_size, other->size); self->size = other->size; memcpy(self->contents, other->contents, self->size * element_size); } static inline void array__grow(VoidArray *self, size_t count, size_t element_size) { size_t new_size = self->size + count; if (new_size > self->capacity) { size_t new_capacity = self->capacity * 2; if (new_capacity < 8) new_capacity = 8; if (new_capacity < new_size) new_capacity = new_size; array__reserve(self, element_size, new_capacity); } } static inline void array__splice(VoidArray *self, size_t element_size, uint32_t index, uint32_t old_count, uint32_t new_count, const void *elements) { uint32_t new_size = self->size + new_count - old_count; uint32_t old_end = index + old_count; uint32_t new_end = index + new_count; assert(old_end <= self->size); array__reserve(self, element_size, new_size); char *contents = (char *)self->contents; if (self->size > old_end) memmove(contents + new_end * element_size, contents + old_end * element_size, (self->size - old_end) * element_size); if (new_count > 0) memcpy((contents + index * element_size), elements, new_count * element_size); self->size += new_count - old_count; } #ifdef __cplusplus } #endif #endif // TREE_SITTER_ARRAY_H_