/* * Mr. 4th Dimention - Allen Webster * * 24.03.2018 * * Undo * */ // TOP internal void undo_stack_grow_string(General_Memory *general, Edit_Stack *stack, i32 extra_size){ i32 old_max = stack->max; u8 *old_str = stack->strings; i32 new_max = old_max*2 + extra_size; u8 *new_str = (u8*)general_memory_reallocate(general, old_str, old_max, new_max); stack->strings = new_str; stack->max = new_max; } internal void undo_stack_grow_edits(General_Memory *general, Edit_Stack *stack){ i32 old_max = stack->edit_max; Edit_Step *old_eds = stack->edits; i32 new_max = old_max*2 + 2; Edit_Step *new_eds = (Edit_Step*)general_memory_reallocate(general, old_eds, old_max*sizeof(Edit_Step), new_max*sizeof(Edit_Step)); stack->edits = new_eds; stack->edit_max = new_max; } internal void child_stack_grow_string(General_Memory *general, Small_Edit_Stack *stack, i32 extra_size){ i32 old_max = stack->max; u8 *old_str = stack->strings; i32 new_max = old_max*2 + extra_size; u8 *new_str = (u8*)general_memory_reallocate(general, old_str, old_max, new_max); stack->strings = new_str; stack->max = new_max; } internal void child_stack_grow_edits(General_Memory *general, Small_Edit_Stack *stack, i32 amount){ i32 old_max = stack->edit_max; Buffer_Edit *old_eds = stack->edits; i32 new_max = old_max*2 + amount; Buffer_Edit *new_eds = (Buffer_Edit*)general_memory_reallocate(general, old_eds, old_max*sizeof(Buffer_Edit), new_max*sizeof(Buffer_Edit)); stack->edits = new_eds; stack->edit_max = new_max; } internal i32 undo_children_push(General_Memory *general, Small_Edit_Stack *children, Buffer_Edit *edits, i32 edit_count, u8 *strings, i32 string_size){ i32 result = children->edit_count; if (children->edit_count + edit_count > children->edit_max){ child_stack_grow_edits(general, children, edit_count); } if (children->size + string_size > children->max){ child_stack_grow_string(general, children, string_size); } memcpy(children->edits + children->edit_count, edits, edit_count*sizeof(Buffer_Edit)); memcpy(children->strings + children->size, strings, string_size); Buffer_Edit *edit = children->edits + children->edit_count; i32 start_pos = children->size; for (i32 i = 0; i < edit_count; ++i, ++edit){ edit->str_start += start_pos; } children->edit_count += edit_count; children->size += string_size; return result; } internal Edit_Step* file_post_undo(General_Memory *general, Editing_File *file, Edit_Step step, b32 do_merge, b32 can_merge){ if (step.type == ED_NORMAL){ file->state.undo.redo.size = 0; file->state.undo.redo.edit_count = 0; } Edit_Stack *undo = &file->state.undo.undo; Edit_Step *result = 0; if (step.child_count == 0){ if (step.edit.end - step.edit.start + undo->size > undo->max){ undo_stack_grow_string(general, undo, step.edit.end - step.edit.start); } Buffer_Edit inv; buffer_invert_edit(&file->state.buffer, step.edit, &inv, (char*)undo->strings, &undo->size, undo->max); Edit_Step inv_step = {}; inv_step.edit = inv; inv_step.can_merge = (b8)can_merge; inv_step.type = ED_UNDO; b32 did_merge = 0; if (do_merge && undo->edit_count > 0){ Edit_Step prev = undo->edits[undo->edit_count-1]; if (prev.can_merge && inv_step.edit.len == 0 && prev.edit.len == 0){ if (prev.edit.end == inv_step.edit.start){ did_merge = 1; inv_step.edit.start = prev.edit.start; } } } if (did_merge){ result = undo->edits + (undo->edit_count-1); *result = inv_step; } else{ if (undo->edit_count == undo->edit_max){ undo_stack_grow_edits(general, undo); } result = undo->edits + (undo->edit_count++); *result = inv_step; } } else{ Edit_Step inv_step = {}; inv_step.type = ED_UNDO; inv_step.first_child = step.inverse_first_child; inv_step.inverse_first_child = step.first_child; inv_step.special_type = step.special_type; inv_step.child_count = step.inverse_child_count; inv_step.inverse_child_count = step.child_count; if (undo->edit_count == undo->edit_max){ undo_stack_grow_edits(general, undo); } result = undo->edits + (undo->edit_count++); *result = inv_step; } return result; } inline void undo_stack_pop(Edit_Stack *stack){ if (stack->edit_count > 0){ Edit_Step *edit = stack->edits + (--stack->edit_count); if (edit->child_count == 0){ stack->size -= edit->edit.len; } } } internal void file_post_redo(General_Memory *general, Editing_File *file, Edit_Step step){ Edit_Stack *redo = &file->state.undo.redo; if (step.child_count == 0){ if (step.edit.end - step.edit.start + redo->size > redo->max){ undo_stack_grow_string(general, redo, step.edit.end - step.edit.start); } Buffer_Edit inv; buffer_invert_edit(&file->state.buffer, step.edit, &inv, (char*)redo->strings, &redo->size, redo->max); Edit_Step inv_step = {}; inv_step.edit = inv; inv_step.type = ED_REDO; if (redo->edit_count == redo->edit_max){ undo_stack_grow_edits(general, redo); } redo->edits[redo->edit_count++] = inv_step; } else{ Edit_Step inv_step = {}; inv_step.type = ED_REDO; inv_step.first_child = step.inverse_first_child; inv_step.inverse_first_child = step.first_child; inv_step.special_type = step.special_type; inv_step.child_count = step.inverse_child_count; inv_step.inverse_child_count = step.child_count; if (redo->edit_count == redo->edit_max){ undo_stack_grow_edits(general, redo); } redo->edits[redo->edit_count++] = inv_step; } } inline void file_post_history_block(Editing_File *file, i32 pos){ Assert(file->state.undo.history_head_block < pos); Assert(pos < file->state.undo.history.edit_count); Edit_Step *history = file->state.undo.history.edits; Edit_Step *step = history + file->state.undo.history_head_block; step->next_block = pos; step = history + pos; step->prev_block = file->state.undo.history_head_block; file->state.undo.history_head_block = pos; ++file->state.undo.history_block_count; } inline void file_unpost_history_block(Editing_File *file){ Assert(file->state.undo.history_block_count > 1); --file->state.undo.history_block_count; Edit_Step *old_head = file->state.undo.history.edits + file->state.undo.history_head_block; file->state.undo.history_head_block = old_head->prev_block; } internal Edit_Step* file_post_history(General_Memory *general, Editing_File *file, Edit_Step step, b32 do_merge, b32 can_merge){ Edit_Stack *history = &file->state.undo.history; Edit_Step *result = 0; local_persist Edit_Type reverse_types[4]; if (reverse_types[ED_UNDO] == 0){ reverse_types[ED_NORMAL] = ED_REVERSE_NORMAL; reverse_types[ED_REVERSE_NORMAL] = ED_NORMAL; reverse_types[ED_UNDO] = ED_REDO; reverse_types[ED_REDO] = ED_UNDO; } if (step.child_count == 0){ if (step.edit.end - step.edit.start + history->size > history->max){ undo_stack_grow_string(general, history, step.edit.end - step.edit.start); } Buffer_Edit inv; buffer_invert_edit(&file->state.buffer, step.edit, &inv, (char*)history->strings, &history->size, history->max); Edit_Step inv_step = {}; inv_step.edit = inv; inv_step.can_merge = (b8)can_merge; inv_step.type = reverse_types[step.type]; b32 did_merge = 0; if (do_merge && history->edit_count > 0){ Edit_Step prev = history->edits[history->edit_count-1]; if (prev.can_merge && inv_step.edit.len == 0 && prev.edit.len == 0){ if (prev.edit.end == inv_step.edit.start){ did_merge = 1; inv_step.edit.start = prev.edit.start; } } } if (did_merge){ result = history->edits + (history->edit_count-1); } else{ if (history->edit_count == history->edit_max){ undo_stack_grow_edits(general, history); } result = history->edits + (history->edit_count++); } *result = inv_step; } else{ Edit_Step inv_step = {}; inv_step.type = reverse_types[step.type]; inv_step.first_child = step.inverse_first_child; inv_step.inverse_first_child = step.first_child; inv_step.special_type = step.special_type; inv_step.inverse_child_count = step.child_count; inv_step.child_count = step.inverse_child_count; if (history->edit_count == history->edit_max){ undo_stack_grow_edits(general, history); } result = history->edits + (history->edit_count++); *result = inv_step; } return(result); } internal void file_update_history_before_edit(Mem_Options *mem, Editing_File *file, Edit_Step step, u8 *str, History_Mode history_mode){ if (!file->state.undo.undo.edits) return; General_Memory *general = &mem->general; b32 can_merge = 0, do_merge = 0; switch (step.type){ case ED_NORMAL: { if (step.edit.len == 1 && str && char_is_alpha_numeric(*str)){ can_merge = 1; } if (step.edit.len == 1 && str && (can_merge || char_is_whitespace(*str))){ do_merge = 1; } if (history_mode != hist_forward){ file_post_history(general, file, step, do_merge, can_merge); } file_post_undo(general, file, step, do_merge, can_merge); }break; case ED_REVERSE_NORMAL: { if (history_mode != hist_forward){ file_post_history(general, file, step, do_merge, can_merge); } undo_stack_pop(&file->state.undo.undo); b32 restore_redos = 0; Edit_Step *redo_end = 0; if (history_mode == hist_backward && file->state.undo.edit_history_cursor > 0){ restore_redos = 1; redo_end = file->state.undo.history.edits + (file->state.undo.edit_history_cursor - 1); } else if (history_mode == hist_forward && file->state.undo.history.edit_count > 0){ restore_redos = 1; redo_end = file->state.undo.history.edits + (file->state.undo.history.edit_count - 1); } if (restore_redos){ Edit_Step *redo_start = redo_end; i32 steps_of_redo = 0; i32 strings_of_redo = 0; { i32 undo_count = 0; while (redo_start->type == ED_REDO || redo_start->type == ED_UNDO){ if (redo_start->type == ED_REDO){ if (undo_count > 0){ --undo_count; } else{ ++steps_of_redo; strings_of_redo += redo_start->edit.len; } } else{ ++undo_count; } --redo_start; } } if (redo_start < redo_end){ ++redo_start; ++redo_end; if (file->state.undo.redo.edit_count + steps_of_redo > file->state.undo.redo.edit_max) undo_stack_grow_edits(general, &file->state.undo.redo); if (file->state.undo.redo.size + strings_of_redo > file->state.undo.redo.max) undo_stack_grow_string(general, &file->state.undo.redo, strings_of_redo); u8 *str_src = file->state.undo.history.strings + redo_end->edit.str_start; u8 *str_dest_base = file->state.undo.redo.strings; i32 str_redo_pos = file->state.undo.redo.size + strings_of_redo; Edit_Step *edit_src = redo_end; Edit_Step *edit_dest = file->state.undo.redo.edits + file->state.undo.redo.edit_count + steps_of_redo; { i32 undo_count = 0; for (i32 i = 0; i < steps_of_redo;){ --edit_src; str_src -= edit_src->edit.len; if (edit_src->type == ED_REDO){ if (undo_count > 0){ --undo_count; } else{ ++i; --edit_dest; *edit_dest = *edit_src; str_redo_pos -= edit_dest->edit.len; edit_dest->edit.str_start = str_redo_pos; memcpy(str_dest_base + str_redo_pos, str_src, edit_dest->edit.len); } } else{ ++undo_count; } } Assert(undo_count == 0); } file->state.undo.redo.size += strings_of_redo; file->state.undo.redo.edit_count += steps_of_redo; } } }break; case ED_UNDO: { if (history_mode != hist_forward){ file_post_history(general, file, step, do_merge, can_merge); } file_post_redo(general, file, step); undo_stack_pop(&file->state.undo.undo); }break; case ED_REDO: { if (step.edit.len == 1 && str && char_is_alpha_numeric(*str)) can_merge = 1; if (step.edit.len == 1 && str && (can_merge || char_is_whitespace(*str))) do_merge = 1; if (history_mode != hist_forward){ file_post_history(general, file, step, do_merge, can_merge); } file_post_undo(general, file, step, do_merge, can_merge); undo_stack_pop(&file->state.undo.redo); }break; } if (history_mode != hist_forward){ if (step.type == ED_UNDO || step.type == ED_REDO){ if (file->state.undo.current_block_normal){ file_post_history_block(file, file->state.undo.history.edit_count - 1); file->state.undo.current_block_normal = 0; } } else{ if (!file->state.undo.current_block_normal){ file_post_history_block(file, file->state.undo.history.edit_count - 1); file->state.undo.current_block_normal = 1; } } } else{ if (file->state.undo.history_head_block == file->state.undo.history.edit_count){ file_unpost_history_block(file); file->state.undo.current_block_normal = !file->state.undo.current_block_normal; } } if (history_mode == hist_normal){ file->state.undo.edit_history_cursor = file->state.undo.history.edit_count; } } // BOTTOM