read_inventory_preset( const player &p ) : pickup_inventory_preset( p ), p( p ) { static const std::string unknown( _( "<color_dark_gray>?</color>" ) ); static const std::string martial_arts( _( "martial arts" ) ); append_cell( [ this, &p ]( const item_location & loc ) -> std::string { if( loc->type->can_use( "MA_MANUAL" ) ) { return martial_arts; } if( !is_known( loc ) ) { return unknown; } const auto &book = get_book( loc ); if( book.skill && p.get_skill_level_object( book.skill ).can_train() ) { return string_format( _( "%s to %d" ), book.skill->name().c_str(), book.level ); } return std::string(); }, _( "TRAINS" ), unknown ); append_cell( [ this ]( const item_location & loc ) -> std::string { if( !is_known( loc ) ) { return unknown; } const auto &book = get_book( loc ); const int unlearned = book.recipes.size() - get_known_recipes( book ); return unlearned > 0 ? to_string( unlearned ) : std::string(); }, _( "RECIPES" ), unknown ); append_cell( [ this ]( const item_location & loc ) -> std::string { if( !is_known( loc ) ) { return unknown; } return good_bad_none( get_book( loc ).fun ); }, _( "FUN" ), unknown ); append_cell( [ this, &p ]( const item_location & loc ) -> std::string { if( !is_known( loc ) ) { return unknown; } std::vector<std::string> dummy; const player *reader = p.get_book_reader( *loc, dummy ); if( reader == nullptr ) { return std::string(); // Just to make sure } // Actual reading time (in turns). Can be penalized. const int actual_turns = p.time_to_read( *loc, *reader ) / MOVES( 1 ); // Theoretical reading time (in turns) based on the reader speed. Free of penalties. const int normal_turns = get_book( loc ).time * reader->read_speed() / MOVES( 1 ); const std::string duration = to_string_approx( time_duration::from_turns( actual_turns ), false ); if( actual_turns > normal_turns ) { // Longer - complicated stuff. return string_format( "<color_light_red>%s</color>", duration.c_str() ); } return duration; // Normal speed. }, _( "CHAPTER IN" ), unknown ); }
const recipe *select_crafting_recipe( int &batch_size ) { if( normalized_names.empty() ) { translate_all(); } const int headHeight = 3; const int subHeadHeight = 2; const int freeWidth = TERMX - FULL_SCREEN_WIDTH; bool isWide = ( TERMX > FULL_SCREEN_WIDTH && freeWidth > 15 ); const int width = isWide ? ( freeWidth > FULL_SCREEN_WIDTH ? FULL_SCREEN_WIDTH * 2 : TERMX ) : FULL_SCREEN_WIDTH; const int wStart = ( TERMX - width ) / 2; const int tailHeight = isWide ? 3 : 4; const int dataLines = TERMY - ( headHeight + subHeadHeight ) - tailHeight; const int dataHalfLines = dataLines / 2; const int dataHeight = TERMY - ( headHeight + subHeadHeight ); const int infoWidth = width - FULL_SCREEN_WIDTH - 1; const recipe *last_recipe = nullptr; catacurses::window w_head = catacurses::newwin( headHeight, width, 0, wStart ); catacurses::window w_subhead = catacurses::newwin( subHeadHeight, width, 3, wStart ); catacurses::window w_data = catacurses::newwin( dataHeight, width, headHeight + subHeadHeight, wStart ); int item_info_x = infoWidth; int item_info_y = dataHeight - 3; int item_info_width = wStart + width - infoWidth; int item_info_height = headHeight + subHeadHeight; if( !isWide ) { item_info_x = 1; item_info_y = 1; item_info_width = 1; item_info_height = 1; } catacurses::window w_iteminfo = catacurses::newwin( item_info_y, item_info_x, item_info_height, item_info_width ); list_circularizer<std::string> tab( craft_cat_list ); list_circularizer<std::string> subtab( craft_subcat_list[tab.cur()] ); std::vector<const recipe *> current; std::vector<bool> available; const int componentPrintHeight = dataHeight - tailHeight - 1; //preserves component color printout between mode rotations nc_color rotated_color = c_white; int previous_item_line = -1; std::string previous_tab = ""; std::string previous_subtab = ""; item tmp; int line = 0, ypos, scroll_pos = 0; bool redraw = true; bool keepline = false; bool done = false; bool batch = false; int batch_line = 0; int display_mode = 0; const recipe *chosen = NULL; std::vector<iteminfo> thisItem, dummy; input_context ctxt( "CRAFTING" ); ctxt.register_cardinal(); ctxt.register_action( "QUIT" ); ctxt.register_action( "CONFIRM" ); ctxt.register_action( "CYCLE_MODE" ); ctxt.register_action( "SCROLL_UP" ); ctxt.register_action( "SCROLL_DOWN" ); ctxt.register_action( "PREV_TAB" ); ctxt.register_action( "NEXT_TAB" ); ctxt.register_action( "FILTER" ); ctxt.register_action( "RESET_FILTER" ); ctxt.register_action( "HELP_RECIPE" ); ctxt.register_action( "HELP_KEYBINDINGS" ); ctxt.register_action( "CYCLE_BATCH" ); const inventory &crafting_inv = g->u.crafting_inventory(); const std::vector<npc *> helpers = g->u.get_crafting_helpers(); std::string filterstring = ""; const auto &available_recipes = g->u.get_available_recipes( crafting_inv, &helpers ); std::map<const recipe *, bool> availability_cache; do { if( redraw ) { // When we switch tabs, redraw the header redraw = false; if( ! keepline ) { line = 0; } else { keepline = false; } if( display_mode > 2 ) { display_mode = 2; } TAB_MODE m = ( batch ) ? BATCH : ( filterstring.empty() ) ? NORMAL : FILTERED; draw_recipe_tabs( w_head, tab.cur(), m ); draw_recipe_subtabs( w_subhead, tab.cur(), subtab.cur(), available_recipes, m ); available.clear(); if( batch ) { current.clear(); for( int i = 1; i <= 20; i++ ) { current.push_back( chosen ); available.push_back( chosen->requirements().can_make_with_inventory( crafting_inv, i ) ); } } else { if( filterstring.empty() ) { current = available_recipes.in_category( tab.cur(), subtab.cur() != "CSC_ALL" ? subtab.cur() : "" ); } else { auto qry = trim( filterstring ); if( qry.size() > 2 && qry[1] == ':' ) { switch( qry[0] ) { case 't': current = available_recipes.search( qry.substr( 2 ), recipe_subset::search_type::tool ); break; case 'c': current = available_recipes.search( qry.substr( 2 ), recipe_subset::search_type::component ); break; case 's': current = available_recipes.search( qry.substr( 2 ), recipe_subset::search_type::skill ); break; case 'q': current = available_recipes.search( qry.substr( 2 ), recipe_subset::search_type::quality ); break; case 'Q': current = available_recipes.search( qry.substr( 2 ), recipe_subset::search_type::quality_result ); break; case 'm': { auto &learned = g->u.get_learned_recipes(); current.clear(); if( ( qry.substr( 2 ) == "yes" ) || ( qry.substr( 2 ) == "y" ) || ( qry.substr( 2 ) == "1" ) || ( qry.substr( 2 ) == "true" ) || ( qry.substr( 2 ) == "t" ) || ( qry.substr( 2 ) == "on" ) ) { std::set_intersection( available_recipes.begin(), available_recipes.end(), learned.begin(), learned.end(), std::back_inserter( current ) ); } else { std::set_difference( available_recipes.begin(), available_recipes.end(), learned.begin(), learned.end(), std::back_inserter( current ) ); } } break; default: current.clear(); } } else { current = available_recipes.search( qry ); } } available.reserve( current.size() ); // cache recipe availability on first display for( const auto e : current ) { if( !availability_cache.count( e ) ) { availability_cache.emplace( e, e->requirements().can_make_with_inventory( crafting_inv ) ); } } std::stable_sort( current.begin(), current.end(), []( const recipe * a, const recipe * b ) { return b->difficulty < a->difficulty; } ); std::stable_sort( current.begin(), current.end(), [&]( const recipe * a, const recipe * b ) { return availability_cache[a] && !availability_cache[b]; } ); std::transform( current.begin(), current.end(), std::back_inserter( available ), [&]( const recipe * e ) { return availability_cache[e]; } ); } // current/available have been rebuilt, make sure our cursor is still in range if( current.empty() ) { line = 0; } else { line = std::min( line, ( int )current.size() - 1 ); } } // Clear the screen of recipe data, and draw it anew werase( w_data ); if( isWide ) { werase( w_iteminfo ); } if( isWide ) { mvwprintz( w_data, dataLines + 1, 5, c_white, _( "Press <ENTER> to attempt to craft object." ) ); wprintz( w_data, c_white, " " ); if( !filterstring.empty() ) { wprintz( w_data, c_white, _( "[E]: Describe, [F]ind, [R]eset, [m]ode, %s [?] keybindings" ), ( batch ) ? _( "cancel [b]atch" ) : _( "[b]atch" ) ); } else { wprintz( w_data, c_white, _( "[E]: Describe, [F]ind, [m]ode, %s [?] keybindings" ), ( batch ) ? _( "cancel [b]atch" ) : _( "[b]atch" ) ); } } else { if( !filterstring.empty() ) { mvwprintz( w_data, dataLines + 1, 5, c_white, _( "[E]: Describe, [F]ind, [R]eset, [m]ode, [b]atch [?] keybindings" ) ); } else { mvwprintz( w_data, dataLines + 1, 5, c_white, _( "[E]: Describe, [F]ind, [m]ode, [b]atch [?] keybindings" ) ); } mvwprintz( w_data, dataLines + 2, 5, c_white, _( "Press <ENTER> to attempt to craft object." ) ); } // Draw borders for( int i = 1; i < width - 1; ++i ) { // _ mvwputch( w_data, dataHeight - 1, i, BORDER_COLOR, LINE_OXOX ); } for( int i = 0; i < dataHeight - 1; ++i ) { // | mvwputch( w_data, i, 0, BORDER_COLOR, LINE_XOXO ); mvwputch( w_data, i, width - 1, BORDER_COLOR, LINE_XOXO ); } mvwputch( w_data, dataHeight - 1, 0, BORDER_COLOR, LINE_XXOO ); // _| mvwputch( w_data, dataHeight - 1, width - 1, BORDER_COLOR, LINE_XOOX ); // |_ int recmin = 0, recmax = current.size(); if( recmax > dataLines ) { if( line <= recmin + dataHalfLines ) { for( int i = recmin; i < recmin + dataLines; ++i ) { std::string tmp_name = current[i]->result_name(); if( batch ) { tmp_name = string_format( _( "%2dx %s" ), i + 1, tmp_name.c_str() ); } mvwprintz( w_data, i - recmin, 2, c_dark_gray, "" ); // Clear the line if( i == line ) { mvwprintz( w_data, i - recmin, 2, ( available[i] ? h_white : h_dark_gray ), utf8_truncate( tmp_name, 28 ).c_str() ); } else { mvwprintz( w_data, i - recmin, 2, ( available[i] ? c_white : c_dark_gray ), utf8_truncate( tmp_name, 28 ).c_str() ); } } } else if( line >= recmax - dataHalfLines ) { for( int i = recmax - dataLines; i < recmax; ++i ) { std::string tmp_name = current[i]->result_name(); if( batch ) { tmp_name = string_format( _( "%2dx %s" ), i + 1, tmp_name.c_str() ); } mvwprintz( w_data, dataLines + i - recmax, 2, c_light_gray, "" ); // Clear the line if( i == line ) { mvwprintz( w_data, dataLines + i - recmax, 2, ( available[i] ? h_white : h_dark_gray ), utf8_truncate( tmp_name, 28 ).c_str() ); } else { mvwprintz( w_data, dataLines + i - recmax, 2, ( available[i] ? c_white : c_dark_gray ), utf8_truncate( tmp_name, 28 ).c_str() ); } } } else { for( int i = line - dataHalfLines; i < line - dataHalfLines + dataLines; ++i ) { std::string tmp_name = current[i]->result_name(); if( batch ) { tmp_name = string_format( _( "%2dx %s" ), i + 1, tmp_name.c_str() ); } mvwprintz( w_data, dataHalfLines + i - line, 2, c_light_gray, "" ); // Clear the line if( i == line ) { mvwprintz( w_data, dataHalfLines + i - line, 2, ( available[i] ? h_white : h_dark_gray ), utf8_truncate( tmp_name, 28 ).c_str() ); } else { mvwprintz( w_data, dataHalfLines + i - line, 2, ( available[i] ? c_white : c_dark_gray ), utf8_truncate( tmp_name, 28 ).c_str() ); } } } } else { for( size_t i = 0; i < current.size() && i < ( size_t )dataHeight + 1; ++i ) { std::string tmp_name = current[i]->result_name(); if( batch ) { tmp_name = string_format( _( "%2dx %s" ), ( int )i + 1, tmp_name.c_str() ); } if( ( int )i == line ) { mvwprintz( w_data, i, 2, ( available[i] ? h_white : h_dark_gray ), utf8_truncate( tmp_name, 28 ).c_str() ); } else { mvwprintz( w_data, i, 2, ( available[i] ? c_white : c_dark_gray ), utf8_truncate( tmp_name, 28 ).c_str() ); } } } if( !current.empty() ) { int pane = FULL_SCREEN_WIDTH - 30 - 1; int count = batch ? line + 1 : 1; // batch size nc_color col = available[ line ] ? c_white : c_light_gray; const auto &req = current[ line ]->requirements(); draw_can_craft_indicator( w_head, 0, *current[line] ); wrefresh( w_head ); ypos = 0; auto qry = trim( filterstring ); std::string qry_comps; if( qry.compare( 0, 2, "c:" ) == 0 ) { qry_comps = qry.substr( 2 ); } std::vector<std::string> component_print_buffer; auto tools = req.get_folded_tools_list( pane, col, crafting_inv, count ); auto comps = req.get_folded_components_list( pane, col, crafting_inv, count, qry_comps ); component_print_buffer.insert( component_print_buffer.end(), tools.begin(), tools.end() ); component_print_buffer.insert( component_print_buffer.end(), comps.begin(), comps.end() ); if( !g->u.knows_recipe( current[line] ) ) { component_print_buffer.push_back( _( "Recipe not memorized yet" ) ); auto books_with_recipe = g->u.get_books_for_recipe( crafting_inv, current[line] ); std::string enumerated_books = enumerate_as_string( books_with_recipe.begin(), books_with_recipe.end(), []( itype_id type_id ) { return item::find_type( type_id )->nname( 1 ); } ); const std::string text = string_format( _( "Written in: %s" ), enumerated_books.c_str() ); std::vector<std::string> folded_lines = foldstring( text, pane ); component_print_buffer.insert( component_print_buffer.end(), folded_lines.begin(), folded_lines.end() ); } //handle positioning of component list if it needed to be scrolled int componentPrintOffset = 0; if( display_mode > 2 ) { componentPrintOffset = ( display_mode - 2 ) * componentPrintHeight; } if( component_print_buffer.size() < static_cast<size_t>( componentPrintOffset ) ) { componentPrintOffset = 0; if( previous_tab != tab.cur() || previous_subtab != subtab.cur() || previous_item_line != line ) { display_mode = 2; } else { display_mode = 0; } } //only used to preserve mode position on components when //moving to another item and the view is already scrolled previous_tab = tab.cur(); previous_subtab = subtab.cur(); previous_item_line = line; const int xpos = 30; if( display_mode == 0 ) { const int width = getmaxx( w_data ) - xpos - item_info_x; mvwprintz( w_data, ypos++, xpos, col, _( "Skills used: %s" ), ( !current[line]->skill_used ? _( "N/A" ) : current[line]->skill_used.obj().name().c_str() ) ); ypos += fold_and_print( w_data, ypos, xpos, width, col, _( "Required skills: %s" ), current[line]->required_skills_string().c_str() ); mvwprintz( w_data, ypos++, xpos, col, _( "Difficulty: %d" ), current[ line ]->difficulty ); if( !current[line]->skill_used ) { mvwprintz( w_data, ypos++, xpos, col, _( "Your skill level: N/A" ) ); } else { mvwprintz( w_data, ypos++, xpos, col, _( "Your skill level: %d" ), g->u.get_skill_level( current[line]->skill_used ) ); } const int expected_turns = g->u.expected_time_to_craft( *current[line], count ) / MOVES( 1 ); ypos += fold_and_print( w_data, ypos, xpos, pane, col, _( "Time to complete: %s" ), to_string( time_duration::from_turns( expected_turns ) ) ); mvwprintz( w_data, ypos++, xpos, col, _( "Dark craftable? %s" ), current[line]->has_flag( "BLIND_EASY" ) ? _( "Easy" ) : current[line]->has_flag( "BLIND_HARD" ) ? _( "Hard" ) : _( "Impossible" ) ); ypos += print_items( *current[line], w_data, ypos, xpos, col, batch ? line + 1 : 1 ); } //color needs to be preserved in case part of the previous page was cut off nc_color stored_color = col; if( display_mode > 2 ) { stored_color = rotated_color; } else { rotated_color = col; } int components_printed = 0; for( size_t i = static_cast<size_t>( componentPrintOffset ); i < component_print_buffer.size(); i++ ) { if( ypos >= componentPrintHeight ) { break; } components_printed++; print_colored_text( w_data, ypos++, xpos, stored_color, col, component_print_buffer[i] ); } if( ypos >= componentPrintHeight && component_print_buffer.size() > static_cast<size_t>( components_printed ) ) { mvwprintz( w_data, ypos++, xpos, col, _( "v (more)" ) ); rotated_color = stored_color; } if( isWide ) { if( last_recipe != current[line] ) { last_recipe = current[line]; tmp = current[line]->create_result(); } tmp.info( true, thisItem, count ); draw_item_info( w_iteminfo, tmp.tname(), tmp.type_name(), thisItem, dummy, scroll_pos, true, true, true, false, true ); } } draw_scrollbar( w_data, line, dataLines, recmax, 0 ); wrefresh( w_data ); if( isWide ) { wrefresh( w_iteminfo ); } const std::string action = ctxt.handle_input(); if( action == "CYCLE_MODE" ) { display_mode = display_mode + 1; if( display_mode <= 0 ) { display_mode = 0; } } else if( action == "LEFT" ) { std::string start = subtab.cur(); do { subtab.prev(); } while( subtab.cur() != start && available_recipes.empty_category( tab.cur(), subtab.cur() != "CSC_ALL" ? subtab.cur() : "" ) ); redraw = true; } else if( action == "SCROLL_UP" ) { scroll_pos--; } else if( action == "SCROLL_DOWN" ) { scroll_pos++; } else if( action == "PREV_TAB" ) { tab.prev(); subtab = list_circularizer<std::string>( craft_subcat_list[tab.cur()] );//default ALL redraw = true; } else if( action == "RIGHT" ) { std::string start = subtab.cur(); do { subtab.next(); } while( subtab.cur() != start && available_recipes.empty_category( tab.cur(), subtab.cur() != "CSC_ALL" ? subtab.cur() : "" ) ); redraw = true; } else if( action == "NEXT_TAB" ) { tab.next(); subtab = list_circularizer<std::string>( craft_subcat_list[tab.cur()] );//default ALL redraw = true; } else if( action == "DOWN" ) { line++; } else if( action == "UP" ) { line--; } else if( action == "CONFIRM" ) { if( available.empty() || !available[line] ) { popup( _( "You can't do that!" ) ); } else if( !g->u.check_eligible_containers_for_crafting( *current[line], ( batch ) ? line + 1 : 1 ) ) { ; // popup is already inside check } else { chosen = current[line]; batch_size = ( batch ) ? line + 1 : 1; done = true; } } else if( action == "HELP_RECIPE" ) { if( current.empty() ) { popup( _( "Nothing selected!" ) ); redraw = true; continue; } tmp = current[line]->create_result(); full_screen_popup( "%s\n%s", tmp.type_name( 1 ).c_str(), tmp.info( true ).c_str() ); redraw = true; keepline = true; } else if( action == "FILTER" ) { string_input_popup() .title( _( "Search:" ) ) .width( 85 ) .description( _( "Special prefixes for requirements:\n" " [t] search tools\n" " [c] search components\n" " [q] search qualities\n" " [s] search skills\n" "Special prefixes for results:\n" " [Q] search qualities\n" "Other:\n" " [m] search for memorized or not\n" "Examples:\n" " t:soldering iron\n" " c:two by four\n" " q:metal sawing\n" " s:cooking\n" " Q:fine bolt turning\n" " m:no" ) ) .edit( filterstring ); redraw = true; } else if( action == "QUIT" ) { chosen = nullptr; done = true; } else if( action == "RESET_FILTER" ) { filterstring.clear(); redraw = true; } else if( action == "CYCLE_BATCH" ) { if( current.empty() ) { popup( _( "Nothing selected!" ) ); redraw = true; continue; } batch = !batch; if( batch ) { batch_line = line; chosen = current[batch_line]; } else { line = batch_line; keepline = true; } redraw = true; } if( line < 0 ) { line = current.size() - 1; } else if( line >= ( int )current.size() ) { line = 0; } } while( !done ); return chosen; }