/* * Mr. 4th Dimention - Allen Webster * * 03.01.2017 * * File layer for 4coder * */ // TOP inline Buffer_Slot_ID to_file_id(i32 id){ Buffer_Slot_ID result; result.id = id; return(result); } //////////////////////////////// internal void init_file_markers_state(Editing_File_Markers *markers){ Marker_Array *sentinel = &markers->sentinel; dll_init_sentinel(sentinel); markers->array_count = 0; markers->marker_count = 0; } internal void clear_file_markers_state(General_Memory *general, Editing_File_Markers *markers){ Marker_Array *sentinel = &markers->sentinel; for (Marker_Array *marker_array = sentinel->next; marker_array != sentinel; marker_array = sentinel->next){ dll_remove(marker_array); general_memory_free(general, marker_array); } Assert(sentinel->next == sentinel); Assert(sentinel->prev == sentinel); markers->array_count = 0; markers->marker_count = 0; } internal void* allocate_markers_state(General_Memory *general, Editing_File *file, u32 new_array_max){ u32 memory_size = sizeof(Marker_Array) + sizeof(Marker)*new_array_max; memory_size = l_round_up_u32(memory_size, KB(4)); u32 real_max = (memory_size - sizeof(Marker_Array))/sizeof(Marker); Marker_Array *array = (Marker_Array*)general_memory_allocate(general, memory_size); dll_insert_back(&file->markers.sentinel, array); array->buffer_id = file->id; array->count = 0; array->sim_max = new_array_max; array->max = real_max; ++file->markers.array_count; return(array); } internal Buffer_ID get_buffer_id_from_marker_handle(void *handle){ Marker_Array *markers = (Marker_Array*)handle; Buffer_Slot_ID result = markers->buffer_id; return(result.id); } internal b32 markers_set(Editing_File *file, void *handle, u32 first_index, u32 count, Marker *source){ Assert(file != 0); b32 result = false; if (handle != 0){ Marker_Array *markers = (Marker_Array*)handle; if (markers->buffer_id.id == file->id.id){ if (first_index + count <= markers->sim_max){ u32 new_count = first_index + count; if (new_count > markers->count){ file->markers.marker_count += new_count - markers->count; markers->count = new_count; } Marker *dst = MarkerArrayBase(markers); memcpy(dst + first_index, source, sizeof(Marker)*count); result = true; } } } return(result); } internal b32 markers_get(Editing_File *file, void *handle, u32 first_index, u32 count, Marker *output){ Assert(file != 0); b32 result = false; if (handle != 0){ Marker_Array *markers = (Marker_Array*)handle; if (markers->buffer_id.id == file->id.id){ if (first_index + count <= markers->count){ Marker *src = MarkerArrayBase(markers); memcpy(output, src + first_index, sizeof(Marker)*count); result = true; } } } return(result); } internal b32 markers_free(General_Memory *general, Editing_File *file, void *handle){ Assert(file != 0); b32 result = false; if (handle != 0){ Marker_Array *markers = (Marker_Array*)handle; if (markers->buffer_id.id == file->id.id){ dll_remove(markers); file->markers.marker_count -= markers->count; --file->markers.array_count; general_memory_free(general, markers); } } return(result); } //////////////////////////////// internal void edit_pos_set_cursor(File_Edit_Positions *edit_pos, Full_Cursor cursor, b32 set_preferred_x, b32 unwrapped_lines){ edit_pos->cursor = cursor; if (set_preferred_x){ edit_pos->preferred_x = cursor.wrapped_x; if (unwrapped_lines){ edit_pos->preferred_x = cursor.unwrapped_x; } } edit_pos->last_set_type = EditPos_CursorSet; } internal void edit_pos_set_scroll(File_Edit_Positions *edit_pos, GUI_Scroll_Vars scroll){ edit_pos->scroll = scroll; edit_pos->last_set_type = EditPos_ScrollSet; } internal i32 edit_pos_get_index(Editing_File *file, File_Edit_Positions *edit_pos){ i32 edit_pos_index = -1; i32 count = file->state.edit_poss_count; File_Edit_Positions **edit_poss = file->state.edit_poss; for (i32 i = 0; i < count; ++i){ if (edit_poss[i] == edit_pos){ edit_pos_index = i; break; } } return(edit_pos_index); } internal b32 edit_pos_move_to_front(Editing_File *file, File_Edit_Positions *edit_pos){ b32 result = false; if (file && edit_pos){ i32 edit_pos_index = edit_pos_get_index(file, edit_pos); Assert(edit_pos_index != -1); File_Edit_Positions **edit_poss = file->state.edit_poss; memmove(edit_poss + 1, edit_poss, edit_pos_index*sizeof(*edit_poss)); edit_poss[0] = edit_pos; result = true; } return(result); } internal b32 edit_pos_unset(Editing_File *file, File_Edit_Positions *edit_pos){ b32 result = false; if (file && edit_pos){ i32 edit_pos_index = edit_pos_get_index(file, edit_pos); Assert(edit_pos_index != -1); i32 count = file->state.edit_poss_count; File_Edit_Positions **edit_poss = file->state.edit_poss; memmove(edit_poss + edit_pos_index, edit_poss + edit_pos_index + 1, (count - edit_pos_index - 1)*sizeof(*edit_poss)); edit_pos->in_view = false; if (file->state.edit_poss_count > 1){ file->state.edit_poss_count -= 1; } result = true; } return(result); } internal File_Edit_Positions* edit_pos_get_new(Editing_File *file, i32 index){ File_Edit_Positions *result = 0; if (file && 0 <= index && index < 16){ result = file->state.edit_pos_space + index; i32 edit_pos_index = edit_pos_get_index(file, result); if (edit_pos_index == -1){ File_Edit_Positions **edit_poss = file->state.edit_poss; i32 count = file->state.edit_poss_count; if (count > 0){ if (edit_poss[0]->in_view){ memcpy(result, edit_poss[0], sizeof(*result)); memmove(edit_poss+1, edit_poss, sizeof(*edit_poss)*count); file->state.edit_poss_count = count + 1; } else{ Assert(count == 1); memcpy(result, edit_poss[0], sizeof(*result)); } } else{ memset(result, 0, sizeof(*result)); file->state.edit_poss_count = 1; } edit_poss[0] = result; } result->in_view = true; } return(result); } //////////////////////////////// inline b32 buffer_needs_save(Editing_File *file){ b32 result = false; if (file->state.dirty == DirtyState_UnsavedChanges){ result = true; } return(result); } inline b32 buffer_can_save(Editing_File *file){ b32 result = false; if (file->state.dirty == DirtyState_UnsavedChanges || file->state.dirty == DirtyState_UnloadedChanges){ result = true; } return(result); } inline b32 file_is_ready(Editing_File *file){ b32 result = false; if (file != 0 && file->is_loading == 0){ result = true; } return(result); } inline void file_set_to_loading(Editing_File *file){ memset(&file->state, 0, sizeof(file->state)); memset(&file->settings, 0, sizeof(file->settings)); file->is_loading = true; } inline void file_set_dirty_flag(Editing_File *file, Dirty_State state){ if (!file->settings.unimportant){ file->state.dirty = state; } else{ file->state.dirty = DirtyState_UpToDate; } } //////////////////////////////// internal b32 save_file_to_name(System_Functions *system, Models *models, Editing_File *file, char *filename){ b32 result = false; b32 using_actual_filename = false; if (filename == 0){ terminate_with_null(&file->canon.name); filename = file->canon.name.str; using_actual_filename = true; } if (filename != 0){ Mem_Options *mem = &models->mem; if (models->hook_save_file){ models->hook_save_file(&models->app_links, file->id.id); } i32 max = 0, size = 0; b32 dos_write_mode = file->settings.dos_write_mode; char *data = 0; Gap_Buffer *buffer = &file->state.buffer; if (dos_write_mode){ max = buffer_size(buffer) + buffer->line_count + 1; } else{ max = buffer_size(buffer); } b32 used_general = 0; Temp_Memory temp = begin_temp_memory(&mem->part); char empty = 0; if (max == 0){ data = ∅ } else{ data = (char*)push_array(&mem->part, char, max); if (!data){ used_general = 1; data = (char*)general_memory_allocate(&mem->general, max); } } Assert(data != 0); if (dos_write_mode){ size = buffer_convert_out(buffer, data, max); } else{ size = max; buffer_stringify(buffer, 0, size, data); } if (!using_actual_filename && file->canon.name.str != 0){ char space[512]; u32 length = str_size(filename); system->get_canonical(filename, length, space, sizeof(space)); char *source_path = file->canon.name.str; if (match(space, source_path)){ using_actual_filename = true; } } result = system->save_file(filename, data, size); if (result && using_actual_filename){ file->state.ignore_behind_os = 1; } file_set_dirty_flag(file, DirtyState_UpToDate); if (used_general){ general_memory_free(&mem->general, data); } end_temp_memory(temp); } return(result); } inline b32 save_file(System_Functions *system, Models *models, Editing_File *file){ b32 result = save_file_to_name(system, models, file, 0); return(result); } //////////////////////////////// inline b32 file_compute_partial_cursor(Editing_File *file, Buffer_Seek seek, Partial_Cursor *cursor){ b32 result = true; switch (seek.type){ case buffer_seek_pos: { *cursor = buffer_partial_from_pos(&file->state.buffer, seek.pos); }break; case buffer_seek_line_char: { *cursor = buffer_partial_from_line_character(&file->state.buffer, seek.line, seek.character); }break; default: { result = false; }break; } return(result); } internal Full_Cursor file_compute_cursor(System_Functions *system, Editing_File *file, Buffer_Seek seek, b32 return_hint){ Font_Pointers font = system->font.get_pointers_by_id(file->settings.font_id); Assert(font.valid); Full_Cursor result = {0}; Buffer_Cursor_Seek_Params params; params.buffer = &file->state.buffer; params.seek = seek; params.system = system; params.font = font; params.wrap_line_index = file->state.wrap_line_index; params.character_starts = file->state.character_starts; params.virtual_white = file->settings.virtual_white; params.return_hint = return_hint; params.cursor_out = &result; Buffer_Cursor_Seek_State state = {0}; Buffer_Layout_Stop stop = {0}; i32 size = buffer_size(params.buffer); f32 line_shift = 0.f; b32 do_wrap = 0; i32 wrap_unit_end = 0; b32 first_wrap_determination = 1; i32 wrap_array_index = 0; do{ stop = buffer_cursor_seek(&state, params, line_shift, do_wrap, wrap_unit_end); switch (stop.status){ case BLStatus_NeedWrapDetermination: { if (stop.pos >= size){ do_wrap = 0; wrap_unit_end = max_i32; } else{ if (first_wrap_determination){ wrap_array_index = binary_search(file->state.wrap_positions, stop.pos, 0, file->state.wrap_position_count); ++wrap_array_index; if (file->state.wrap_positions[wrap_array_index] == stop.pos){ do_wrap = 1; wrap_unit_end = file->state.wrap_positions[wrap_array_index]; } else{ do_wrap = 0; wrap_unit_end = file->state.wrap_positions[wrap_array_index]; } first_wrap_determination = 0; } else{ Assert(stop.pos == wrap_unit_end); do_wrap = 1; ++wrap_array_index; wrap_unit_end = file->state.wrap_positions[wrap_array_index]; } } }break; case BLStatus_NeedWrapLineShift: case BLStatus_NeedLineShift: { line_shift = file->state.line_indents[stop.wrap_line_index]; }break; } }while(stop.status != BLStatus_Finished); return(result); } //////////////////////////////// internal i32 file_grow_starts_as_needed(General_Memory *general, Gap_Buffer *buffer, i32 additional_lines){ b32 result = GROW_NOT_NEEDED; i32 max = buffer->line_max; i32 count = buffer->line_count; i32 target_lines = count + additional_lines; if (target_lines > max || max == 0){ max = l_round_up_i32(target_lines + max, KB(1)); i32 *new_lines = (i32*)general_memory_reallocate(general, buffer->line_starts, sizeof(i32)*count, sizeof(f32)*max); if (new_lines){ result = GROW_SUCCESS; buffer->line_max = max; buffer->line_starts = new_lines; } else{ result = GROW_FAILED; } } return(result); } internal void file_measure_starts(General_Memory *general, Gap_Buffer *buffer){ PRFL_FUNC_GROUP(); if (buffer->line_starts == 0){ i32 max = buffer->line_max = KB(1); buffer->line_starts = (i32*)general_memory_allocate(general, max*sizeof(i32)); Assert(buffer->line_starts != 0); } Buffer_Measure_Starts state = {0}; for (;buffer_measure_starts(&state, buffer);){ i32 count = state.count; i32 max = ((buffer->line_max + 1) << 1); i32 *new_lines = (i32*)general_memory_reallocate(general, buffer->line_starts, sizeof(i32)*count, sizeof(i32)*max); Assert(new_lines); buffer->line_starts = new_lines; buffer->line_max = max; } } internal void file_allocate_metadata_as_needed(General_Memory *general, Gap_Buffer *buffer, void **mem, i32 *mem_max_count, i32 count, i32 item_size){ if (*mem == 0){ i32 max = l_round_up_i32(((count + 1)*2), KB(1)); *mem = general_memory_allocate(general, max*item_size); *mem_max_count = max; Assert(*mem != 0); } else if (*mem_max_count < count){ i32 old_max = *mem_max_count; i32 max = l_round_up_i32(((count + 1)*2), KB(1)); void *new_mem = general_memory_reallocate(general, *mem, item_size*old_max, item_size*max); *mem = new_mem; *mem_max_count = max; Assert(*mem != 0); } } inline void file_allocate_character_starts_as_needed(General_Memory *general, Editing_File *file){ file_allocate_metadata_as_needed(general, &file->state.buffer, (void**)&file->state.character_starts, &file->state. character_start_max, file->state.buffer.line_count, sizeof(i32)); } internal void file_allocate_indents_as_needed(General_Memory *general, Editing_File *file, i32 min_last_index){ i32 min_amount = min_last_index + 1; file_allocate_metadata_as_needed(general, &file->state.buffer, (void**)&file->state.line_indents, &file->state.line_indent_max, min_amount, sizeof(f32)); } inline void file_allocate_wraps_as_needed(General_Memory *general, Editing_File *file){ file_allocate_metadata_as_needed(general, &file->state.buffer, (void**)&file->state.wrap_line_index, &file->state.wrap_max, file->state.buffer.line_count, sizeof(f32)); } inline void file_allocate_wrap_positions_as_needed(General_Memory *general, Editing_File *file, i32 min_last_index){ i32 min_amount = min_last_index + 1; file_allocate_metadata_as_needed(general, &file->state.buffer, (void**)&file->state.wrap_positions, &file->state.wrap_position_max, min_amount, sizeof(f32)); } //////////////////////////////// internal void file_create_from_string(System_Functions *system, Models *models, Editing_File *file, String val, u32 flags){ PRFL_FUNC_GROUP(); General_Memory *general = &models->mem.general; Partition *part = &models->mem.part; Open_File_Hook_Function *hook_open_file = models->hook_open_file; Application_Links *app_links = &models->app_links; memset(&file->state, 0, sizeof(file->state)); Gap_Buffer_Init init = buffer_begin_init(&file->state.buffer, val.str, val.size); for (; buffer_init_need_more(&init); ){ i32 page_size = buffer_init_page_size(&init); page_size = l_round_up_i32(page_size, KB(4)); if (page_size < KB(4)){ page_size = KB(4); } void *data = general_memory_allocate(general, page_size); buffer_init_provide_page(&init, data, page_size); } i32 scratch_size = partition_remaining(part); Assert(scratch_size > 0); b32 init_success = buffer_end_init(&init, part->base + part->pos, scratch_size); AllowLocal(init_success); Assert(init_success); if (buffer_size(&file->state.buffer) < val.size){ file->settings.dos_write_mode = 1; } file_set_dirty_flag(file, DirtyState_UpToDate); Face_ID font_id = models->global_font_id; file->settings.font_id = font_id; Font_Pointers font = system->font.get_pointers_by_id(font_id); Assert(font.valid); { file_measure_starts(general, &file->state.buffer); file_allocate_character_starts_as_needed(general, file); buffer_measure_character_starts(system, font, &file->state.buffer, file->state.character_starts, 0, file->settings.virtual_white); file_measure_wraps(system, &models->mem, file, font); //adjust_views_looking_at_files_to_new_cursor(system, models, file); } file->settings.read_only = ((flags & FileCreateFlag_ReadOnly) != 0); if (!file->settings.read_only){ // TODO(allen): Redo undo system (if you don't mind the pun) i32 request_size = KB(64); file->state.undo.undo.max = request_size; file->state.undo.undo.strings = (u8*)general_memory_allocate(general, request_size); file->state.undo.undo.edit_max = request_size / sizeof(Edit_Step); file->state.undo.undo.edits = (Edit_Step*)general_memory_allocate(general, request_size); file->state.undo.redo.max = request_size; file->state.undo.redo.strings = (u8*)general_memory_allocate(general, request_size); file->state.undo.redo.edit_max = request_size / sizeof(Edit_Step); file->state.undo.redo.edits = (Edit_Step*)general_memory_allocate(general, request_size); file->state.undo.history.max = request_size; file->state.undo.history.strings = (u8*)general_memory_allocate(general, request_size); file->state.undo.history.edit_max = request_size / sizeof(Edit_Step); file->state.undo.history.edits = (Edit_Step*)general_memory_allocate(general, request_size); file->state.undo.children.max = request_size; file->state.undo.children.strings = (u8*)general_memory_allocate(general, request_size); file->state.undo.children.edit_max = request_size / sizeof(Buffer_Edit); file->state.undo.children.edits = (Buffer_Edit*)general_memory_allocate(general, request_size); file->state.undo.history_block_count = 1; file->state.undo.history_head_block = 0; file->state.undo.current_block_normal = 1; } if (hook_open_file != 0){ hook_open_file(app_links, file->id.id); } file->settings.is_initialized = true; } internal void file_free(System_Functions *system, General_Memory *general, Editing_File *file){ if (file->state.still_lexing){ system->cancel_job(BACKGROUND_THREADS, file->state.lex_job); if (file->state.swap_array.tokens){ general_memory_free(general, file->state.swap_array.tokens); file->state.swap_array.tokens = 0; } } if (file->state.token_array.tokens){ general_memory_free(general, file->state.token_array.tokens); } Gap_Buffer *buffer = &file->state.buffer; if (buffer->data){ general_memory_free(general, buffer->data); general_memory_free(general, buffer->line_starts); } general_memory_free(general, file->state.wrap_line_index); general_memory_free(general, file->state.character_starts); general_memory_free(general, file->state.line_indents); if (file->state.undo.undo.edits){ general_memory_free(general, file->state.undo.undo.strings); general_memory_free(general, file->state.undo.undo.edits); general_memory_free(general, file->state.undo.redo.strings); general_memory_free(general, file->state.undo.redo.edits); general_memory_free(general, file->state.undo.history.strings); general_memory_free(general, file->state.undo.history.edits); general_memory_free(general, file->state.undo.children.strings); general_memory_free(general, file->state.undo.children.edits); } } // BOTTOM