ref: fe6df133702f992ac2e919ff538e063b4e9510e4
dir: /bank.c/
#include "bank.h" ORCA_FORCE_STATIC_INLINE Usz bank_entry_size(Usz num_vals) { return sizeof(Bank_entry) + sizeof(I32) * num_vals; } void bank_init(Bank* bank) { bank->data = NULL; bank->capacity = 0; } void bank_deinit(Bank* bank) { free(bank->data); } void bank_enlarge_to(Bank* bank, Usz bytes) { Usz new_cap = bytes < 512 ? 512 : orca_round_up_power2(bytes); bank->data = realloc(bank->data, new_cap); bank->capacity = new_cap; } void bank_reserve(Bank* bank, Usz entries, Usz avg_count) { Usz avg_size = bank_entry_size(avg_count); Usz total_bytes = entries * avg_size; if (bank->capacity < total_bytes) { Usz new_cap = orca_round_up_power2(total_bytes); bank->data = realloc(bank->data, new_cap); } } Usz bank_append(Bank* restrict bank, Usz cur_size, Usz index, I32 const* restrict vals, Usz vals_count) { assert(index <= ORCA_BANK_INDEX_MAX); assert(vals_count <= ORCA_BANK_ENTRY_VALS_MAX); // no overflow check Usz new_size = cur_size + bank_entry_size(vals_count); if (new_size > bank->capacity) bank_enlarge_to(bank, new_size); char* data = bank->data + cur_size; Bank_entry* entry = (Bank_entry*)ORCA_ASSUME_ALIGNED(data, ORCA_BANK_ENTRY_ALIGN); // https://gcc.gnu.org/bugzilla/show_bug.cgi?id=39170 #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wconversion" entry->index = (U32)index; entry->count = (U32)vals_count; #pragma GCC diagnostic pop I32* restrict out_vals = (I32*)ORCA_ASSUME_ALIGNED(data + ORCA_BANK_ENTRY_HEADER, sizeof(I32)); for (size_t i = 0; i < vals_count; ++i) { out_vals[i] = vals[i]; } // memcpy(data, vals, vals_count * sizeof(I32)); return new_size; } Usz bank_read(char const* restrict bank_data, Usz bank_size, Bank_cursor* restrict cursor, Usz index, I32* restrict dest, Usz dest_count) { assert(index <= ORCA_BANK_INDEX_MAX); Usz offset = *cursor; Bank_entry* entry; Usz entry_index; Usz entry_count; Usz num_to_copy; next: if (offset == bank_size) goto fail; entry = (Bank_entry*)ORCA_ASSUME_ALIGNED(bank_data + offset, ORCA_BANK_ENTRY_ALIGN); entry_index = entry->index; if (entry_index > index) goto fail; entry_count = entry->count; if (entry_index < index) { offset += bank_entry_size(entry_count); goto next; } num_to_copy = dest_count < entry_count ? dest_count : entry_count; I32 const* src = (I32 const*)ORCA_ASSUME_ALIGNED( bank_data + offset + ORCA_BANK_ENTRY_HEADER, sizeof(I32)); Usz i = 0; for (; i < num_to_copy; ++i) { dest[i] = src[i]; } for (; i < dest_count; ++i) { dest[i] = 0; } *cursor = offset + ORCA_BANK_ENTRY_HEADER + entry_count * sizeof(I32); return num_to_copy; fail: for (Usz i0 = 0; i0 < dest_count; ++i0) { dest[i0] = 0; } *cursor = offset; return 0; } void oevent_list_init(Oevent_list* olist) { olist->buffer = NULL; olist->count = 0; olist->capacity = 0; } void oevent_list_deinit(Oevent_list* olist) { free(olist->buffer); } void oevent_list_clear(Oevent_list* olist) { olist->count = 0; } void oevent_list_copy(Oevent_list const* src, Oevent_list* dest) { Usz src_count = src->count; if (dest->capacity < src_count) { Usz new_cap = orca_round_up_power2(src_count); dest->buffer = realloc(dest->buffer, new_cap * sizeof(Oevent)); dest->capacity = new_cap; } memcpy(dest->buffer, src->buffer, src_count * sizeof(Oevent)); dest->count = src_count; } Oevent* oevent_list_alloc_item(Oevent_list* olist) { Usz count = olist->count; if (olist->capacity == count) { Usz capacity = count < 16 ? 16 : orca_round_up_power2(count); olist->buffer = realloc(olist->buffer, capacity * sizeof(Oevent)); olist->capacity = capacity; } Oevent* result = olist->buffer + count; olist->count = count + 1; return result; }