std::string mod_ui::get_information( MOD_INFORMATION *mod )
{
if( mod == NULL ) {
return "";
}
std::ostringstream info;
if( !mod->authors.empty() ) {
info << "<color_ltblue>" << ngettext( "Author", "Authors", mod->authors.size() )
<< "</color>: " << enumerate_as_string( mod->authors ) << "\n";
}
if( !mod->maintainers.empty() ) {
info << "<color_ltblue>" << ngettext( "Maintainer", "Maintainers", mod->maintainers.size() )
<< "</color>: " << enumerate_as_string( mod->maintainers ) << "\n";
}
if( !mod->dependencies.empty() ) {
const auto &deps = mod->dependencies;
auto str = enumerate_as_string( deps.begin(), deps.end(), [&]( const std::string & e ) {
if( active_manager->mod_map.find( e ) != active_manager->mod_map.end() ) {
return string_format( "[%s]", active_manager->mod_map[e]->name.c_str() );
} else {
return string_format( "[<color_red>%s</color>]", e.c_str() );
}
} );
info << "<color_ltblue>" << ngettext( "Dependency", "Dependencies", deps.size() )
<< "</color>: " << str << "\n";
}
if( !mod->description.empty() ) {
info << _( mod->description.c_str() ) << "\n";
}
std::string note = !mm_tree->is_available( mod->ident ) ? mm_tree->get_node(
mod->ident )->s_errors() : "";
if( !note.empty() ) {
info << "<color_red>" << note << "</color>";
}
#ifndef LUA
if( mod->need_lua ) {
std::string lua_msg = "";
lua_msg += "<color_red>";
lua_msg += _( "This mod requires Lua but your CDDA build doesn't support it!" );
lua_msg += "</color>";
info << lua_msg;
}
#endif
return info.str();
}
//builds the power usage string of a given bionic
std::string build_bionic_poweronly_string( bionic const &bio )
{
const bionic_data &bio_data = bio.id.obj();
std::vector<std::string> properties;
if( bio_data.charge_time > 0 ) {
if( bio_data.power_over_time > 0 ) {
properties.push_back( bio_data.charge_time == 1
? string_format( _( "%d PU/turn" ), bio_data.power_over_time )
: string_format( _( "%d PU/%d turns" ), bio_data.power_over_time,
bio_data.charge_time ) );
}
if( bio_data.power_activate > 0 ) {
properties.push_back( string_format( _( "%d PU act" ), bio_data.power_activate ) );
}
if( bio_data.power_deactivate > 0 ) {
properties.push_back( string_format( _( "%d PU deact" ), bio_data.power_deactivate ) );
}
}
if( bio_data.toggled ) {
properties.push_back( bio.powered ? _( "ON" ) : _( "OFF" ) );
}
return enumerate_as_string( properties, false );
}
std::string input_context::get_conflicts( const input_event &event ) const
{
return enumerate_as_string( registered_actions.begin(), registered_actions.end(),
[ this, &event ]( const std::string & action ) {
return action_uses_input( action, event ) ? get_action_name( action ) : std::string();
} );
}
std::string faction::describe() const
{
std::string ret = _( desc.c_str() );
ret = ret + "\n\n" + string_format( _( "%1$s have the ultimate goal of %2$s." ), _( name.c_str() ),
pgettext( "faction_goal", facgoal_data[goal].name.c_str() ) );
if( job2 == FACJOB_NULL ) {
ret += string_format( _( " Their primary concern is %s." ),
pgettext( "faction_job", facjob_data[job1].name.c_str() ) );
} else {
ret += string_format( _( " Their primary concern is %1$s, but they are also involved in %2$s." ),
pgettext( "faction_job", facjob_data[job1].name.c_str() ),
pgettext( "faction_job", facjob_data[job2].name.c_str() ) );
}
if( values == 0 ) {
return ret;
}
std::vector<faction_value> vals;
vals.reserve( NUM_FACVALS );
for( int i = 0; i < NUM_FACVALS; i++ ) {
vals.push_back( faction_value( i ) );
}
const std::string known_vals = enumerate_as_string( vals.begin(),
vals.end(), [ this ]( const faction_value val ) {
return has_value( val ) ? pgettext( "faction_value", facval_data[val].name.c_str() ) : "";
} );
if( !known_vals.empty() ) {
ret += _( " They are known for " ) + known_vals + ".";
}
return ret;
}
static void component_list_string( std::stringstream &str,
const std::vector<comp_selection<T>> &components )
{
str << enumerate_as_string( components.begin(), components.end(),
[]( const comp_selection<T> &comp ) {
return comp.nname();
} );
}
std::string dependency_node::s_errors()
{
std::stringstream ret;
for( auto &elem : all_errors ) {
ret << error_keyvals[( unsigned )( elem.first )];
ret << enumerate_as_string( elem.second, enumeration_conjunction::none );
}
return ret.str();
}
std::string map_data_common_t::extended_description() const
{
std::stringstream ss;
ss << "<header>" << string_format( _( "That is a %s." ), name().c_str() ) << "</header>" << '\n';
ss << description << std::endl;
bool has_any_harvest = std::any_of( harvest_by_season.begin(), harvest_by_season.end(),
[]( const harvest_id & hv ) {
return !hv.obj().empty();
} );
if( has_any_harvest ) {
ss << "--" << std::endl;
int player_skill = g->u.get_skill_level( skill_survival );
ss << _( "You could harvest the following things from it:" ) << std::endl;
// Group them by identical ids to avoid repeating same blocks of data
// First, invert the mapping: season->id to id->seasons
std::multimap<harvest_id, season_type> identical_harvest;
for( size_t season = SPRING; season <= WINTER; season++ ) {
const auto &hv = harvest_by_season[ season ];
if( hv.obj().empty() ) {
continue;
}
identical_harvest.insert( std::make_pair( hv, static_cast<season_type>( season ) ) );
}
// Now print them in order of seasons
// @todo: Highlight current season
for( size_t season = SPRING; season <= WINTER; season++ ) {
const auto range = identical_harvest.equal_range( harvest_by_season[ season ] );
if( range.first == range.second ) {
continue;
}
// List the seasons first
ss << enumerate_as_string( range.first, range.second,
[]( const std::pair<harvest_id, season_type> &pr ) {
if( pr.second == season_of_year( calendar::turn ) ) {
return "<good>" + calendar::name_season( pr.second ) + "</good>";
}
return "<dark>" + calendar::name_season( pr.second ) + "</dark>";
} );
ss << ":" << std::endl;
// List the drops
// They actually describe what player can get from it now, so it isn't spoily
// @todo: Allow spoily listing of everything
ss << range.first->first.obj().describe( player_skill ) << std::endl;
// Remove the range from the multimap so that it isn't listed twice
identical_harvest.erase( range.first, range.second );
}
ss << std::endl;
}
return replace_colors( ss.str() );
}
std::string recipe::required_skills_string() const
{
if( required_skills.empty() ) {
return _( "N/A" );
}
return enumerate_as_string( required_skills.begin(), required_skills.end(),
[]( const std::pair<skill_id, int> &skill ) {
return string_format( "%s (%d)", skill.first.obj().name().c_str(), skill.second );
} );
}
void harvest_list::check_consistency()
{
for( const auto &pr : harvest_all ) {
const auto &hl = pr.second;
const std::string errors = enumerate_as_string( hl.entries_.begin(), hl.entries_.end(),
[]( const harvest_entry &entry ) {
return item::type_is_defined( entry.drop ) ? "" : entry.drop;
} );
if( !errors.empty() ) {
debugmsg( "Harvest list %s has invalid drop(s): %s", hl.id_.c_str(), errors.c_str() );
}
}
}
std::string recipe::required_skills_string( const Character *c, bool print_skill_level ) const
{
if( required_skills.empty() ) {
return _( "<color_cyan>none</color>" );
}
return enumerate_as_string( required_skills.begin(), required_skills.end(),
[&]( const std::pair<skill_id, int> &skill ) {
const auto player_skill = c ? c->get_skill_level( skill.first ) : 0;
std::string difficulty_color = skill.second > player_skill ? "yellow" : "green";
std::string skill_level_string = print_skill_level ? "" : ( std::to_string( player_skill ) + "/" );
skill_level_string += std::to_string( skill.second );
return string_format( "<color_cyan>%s</color> <color_%s>(%s)</color>",
skill.first.obj().name(), difficulty_color, skill_level_string );
} );
}
disassemble_inventory_preset( const player &p, const inventory &inv ) :
pickup_inventory_preset( p ), p( p ), inv( inv ) {
append_cell( [ this ]( const item_location & loc ) {
const auto &req = get_recipe( loc ).disassembly_requirements();
if( req.is_empty() ) {
return std::string();
}
const auto components = req.get_components();
return enumerate_as_string( components.begin(), components.end(),
[]( const decltype( components )::value_type & comps ) {
return comps.front().to_string();
} );
}, _( "YIELD" ) );
append_cell( [ this ]( const item_location & loc ) {
return to_string_clipped( time_duration::from_turns( get_recipe( loc ).time / 100 ) );
}, _( "TIME" ) );
}
std::string harvest_list::describe( int at_skill ) const
{
if( empty() ) {
return "";
}
return enumerate_as_string( entries().begin(), entries().end(),
[at_skill]( const harvest_entry & en ) {
float min_f = en.base_num.first;
float max_f = en.base_num.second;
if( at_skill >= 0 ) {
min_f += en.scale_num.first * at_skill;
max_f += en.scale_num.second * at_skill;
} else {
max_f = en.max;
}
// TODO: Avoid repetition here by making a common harvest drop function
int max_drops = std::min<int>( en.max, std::round( std::max( 0.0f, max_f ) ) );
int min_drops = std::max<int>( 0.0f, std::round( std::min( min_f, max_f ) ) );
if( max_drops <= 0 ) {
return std::string();
}
std::stringstream ss;
ss << "<bold>" << item::nname( en.drop, max_drops ) << "</bold>";
// If the number is unspecified, just list the type
if( max_drops >= 1000 && min_drops <= 0 ) {
return ss.str();
}
ss << ": ";
if( min_drops == max_drops ) {
ss << "<stat>" << min_drops << "</stat>";
} else if( max_drops < 1000 ) {
ss << "<stat>" << min_drops << "-" << max_drops << "</stat>";
} else {
ss << "<stat>" << min_drops << "+" << "</stat>";
}
return ss.str();
} );
}
void harvest_list::check_consistency()
{
for( const auto &pr : harvest_all ) {
const auto &hl = pr.second;
const std::string hl_id = hl.id().c_str();
auto error_func = [&]( const harvest_entry & entry ) {
std::string errorlist;
bool item_valid = true;
if( !( item::type_is_defined( entry.drop ) || ( entry.type == "bionic_group" &&
item_group::group_is_defined( entry.drop ) ) ) ) {
item_valid = false;
errorlist += entry.drop;
}
// non butchery harvests need to be excluded
if( hl_id.substr( 0, 14 ) != "harvest_inline" ) {
if( entry.type == "null" ) {
if( !item_valid ) {
errorlist += ", ";
}
errorlist += "null type";
} else if( !( entry.type == "flesh" || entry.type == "bone" || entry.type == "skin" ||
entry.type == "offal" || entry.type == "bionic" || entry.type == "bionic_group" ) ) {
if( !item_valid ) {
errorlist += ", ";
}
errorlist += entry.type;
}
}
return errorlist;
};
const std::string errors = enumerate_as_string( hl.entries_.begin(), hl.entries_.end(),
error_func );
if( !errors.empty() ) {
debugmsg( "Harvest list %s has invalid entry: %s", hl_id, errors );
}
}
}
void vpart_info::check()
{
for( auto &vp : vpart_info_all ) {
auto &part = vp.second;
// handle legacy parts without requirement data
// @todo deprecate once requirements are entirely loaded from JSON
if( part.legacy ) {
part.install_skills.emplace( skill_mechanics, part.difficulty );
part.removal_skills.emplace( skill_mechanics, std::max( part.difficulty - 2, 2 ) );
part.repair_skills.emplace ( skill_mechanics, std::min( part.difficulty + 1, MAX_SKILL ) );
if( part.has_flag( "TOOL_WRENCH" ) || part.has_flag( "WHEEL" ) ) {
part.install_reqs = { { requirement_id( "vehicle_bolt" ), 1 } };
part.removal_reqs = { { requirement_id( "vehicle_bolt" ), 1 } };
part.repair_reqs = { { requirement_id( "welding_standard" ), 5 } };
} else if( part.has_flag( "TOOL_SCREWDRIVER" ) ) {
part.install_reqs = { { requirement_id( "vehicle_screw" ), 1 } };
part.removal_reqs = { { requirement_id( "vehicle_screw" ), 1 } };
part.repair_reqs = { { requirement_id( "adhesive" ), 1 } };
} else if( part.has_flag( "NAILABLE" ) ) {
part.install_reqs = { { requirement_id( "vehicle_nail_install" ), 1 } };
part.removal_reqs = { { requirement_id( "vehicle_nail_removal" ), 1 } };
part.repair_reqs = { { requirement_id( "adhesive" ), 2 } };
} else if( part.has_flag( "TOOL_NONE" ) ) {
// no-op
} else {
part.install_reqs = { { requirement_id( "welding_standard" ), 5 } };
part.removal_reqs = { { requirement_id( "vehicle_weld_removal" ), 1 } };
part.repair_reqs = { { requirement_id( "welding_standard" ), 5 } };
}
} else {
if( part.has_flag( "REVERSIBLE" ) ) {
if( !part.removal_reqs.empty() ) {
debugmsg( "vehicle part %s specifies both REVERSIBLE and removal", part.id.c_str() );
}
part.removal_reqs = part.install_reqs;
}
}
// add the base item to the installation requirements
// @todo support multiple/alternative base items
requirement_data ins;
ins.components.push_back( { { { part.item, 1 } } } );
std::string ins_id = std::string( "inline_vehins_base_" ) += part.id.str();
requirement_data::save_requirement( ins, ins_id );
part.install_reqs.emplace_back( requirement_id( ins_id ), 1 );
if( part.removal_moves < 0 ) {
part.removal_moves = part.install_moves / 2;
}
for( auto &e : part.install_skills ) {
if( !e.first.is_valid() ) {
debugmsg( "vehicle part %s has unknown install skill %s", part.id.c_str(), e.first.c_str() );
}
}
for( auto &e : part.removal_skills ) {
if( !e.first.is_valid() ) {
debugmsg( "vehicle part %s has unknown removal skill %s", part.id.c_str(), e.first.c_str() );
}
}
for( auto &e : part.repair_skills ) {
if( !e.first.is_valid() ) {
debugmsg( "vehicle part %s has unknown repair skill %s", part.id.c_str(), e.first.c_str() );
}
}
for( const auto &e : part.install_reqs ) {
if( !e.first.is_valid() || e.second <= 0 ) {
debugmsg( "vehicle part %s has unknown or incorrectly specified install requirements %s",
part.id.c_str(), e.first.c_str() );
}
}
for( const auto &e : part.install_reqs ) {
if( !( e.first.is_null() || e.first.is_valid() ) || e.second < 0 ) {
debugmsg( "vehicle part %s has unknown or incorrectly specified removal requirements %s",
part.id.c_str(), e.first.c_str() );
}
}
for( const auto &e : part.repair_reqs ) {
if( !( e.first.is_null() || e.first.is_valid() ) || e.second < 0 ) {
debugmsg( "vehicle part %s has unknown or incorrectly specified repair requirements %s",
part.id.c_str(), e.first.c_str() );
}
}
if( part.install_moves < 0 ) {
debugmsg( "vehicle part %s has negative installation time", part.id.c_str() );
}
if( part.removal_moves < 0 ) {
debugmsg( "vehicle part %s has negative removal time", part.id.c_str() );
}
if( !item_group::group_is_defined( part.breaks_into_group ) ) {
debugmsg( "Vehicle part %s breaks into non-existent item group %s.",
part.id.c_str(), part.breaks_into_group.c_str() );
}
if( part.sym == 0 ) {
debugmsg( "vehicle part %s does not define a symbol", part.id.c_str() );
}
if( part.sym_broken == 0 ) {
debugmsg( "vehicle part %s does not define a broken symbol", part.id.c_str() );
}
if( part.durability <= 0 ) {
debugmsg( "vehicle part %s has zero or negative durability", part.id.c_str() );
}
if( part.dmg_mod < 0 ) {
debugmsg( "vehicle part %s has negative damage modifier", part.id.c_str() );
}
if( part.folded_volume < 0 ) {
debugmsg( "vehicle part %s has negative folded volume", part.id.c_str() );
}
if( part.has_flag( "FOLDABLE" ) && part.folded_volume == 0 ) {
debugmsg( "vehicle part %s has folding part with zero folded volume", part.name().c_str() );
}
if( !item::type_is_defined( part.default_ammo ) ) {
debugmsg( "vehicle part %s has undefined default ammo %s", part.id.c_str(), part.item.c_str() );
}
if( part.size < 0 ) {
debugmsg( "vehicle part %s has negative size", part.id.c_str() );
}
if( !item::type_is_defined( part.item ) ) {
debugmsg( "vehicle part %s uses undefined item %s", part.id.c_str(), part.item.c_str() );
}
const itype &base_item_type = *item::find_type( part.item );
// Fuel type errors are serious and need fixing now
if( !item::type_is_defined( part.fuel_type ) ) {
debugmsg( "vehicle part %s uses undefined fuel %s", part.id.c_str(), part.item.c_str() );
part.fuel_type = "null";
} else if( part.fuel_type != "null" && item::find_type( part.fuel_type )->fuel == nullptr &&
( base_item_type.container == nullptr || !base_item_type.container->watertight ) ) {
// Tanks are allowed to specify non-fuel "fuel",
// because currently legacy blazemod uses it as a hack to restrict content types
debugmsg( "non-tank vehicle part %s uses non-fuel item %s as fuel, setting to null",
part.id.c_str(), part.fuel_type.c_str() );
part.fuel_type = "null";
}
if( part.has_flag( "TURRET" ) && base_item_type.gun == nullptr ) {
debugmsg( "vehicle part %s has the TURRET flag, but is not made from a gun item", part.id.c_str() );
}
for( auto &q : part.qualities ) {
if( !q.first.is_valid() ) {
debugmsg( "vehicle part %s has undefined tool quality %s", part.id.c_str(), q.first.c_str() );
}
}
if( part.has_flag( VPFLAG_ENABLED_DRAINS_EPOWER ) && part.epower == 0 ) {
debugmsg( "%s is set to drain epower, but has epower == 0", part.id.c_str() );
}
// Parts with non-zero epower must have a flag that affects epower usage
static const std::vector<std::string> handled = {{
"ENABLED_DRAINS_EPOWER", "SECURITY", "ENGINE",
"ALTERNATOR", "SOLAR_PANEL", "POWER_TRANSFER",
"REACTOR"
}};
if( part.epower != 0 &&
std::none_of( handled.begin(), handled.end(), [&part]( const std::string &flag ) {
return part.has_flag( flag );
} ) ) {
std::string warnings_are_good_docs = enumerate_as_string( handled );
debugmsg( "%s has non-zero epower, but lacks a flag that would make it affect epower (one of %s)",
part.id.c_str(), warnings_are_good_docs.c_str() );
}
}
}
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;
int ypos = 0;
int scroll_pos = 0;
bool redraw = true;
bool keepline = false;
bool done = false;
bool batch = false;
bool show_hidden = false;
int batch_line = 0;
int display_mode = 0;
const recipe *chosen = nullptr;
std::vector<iteminfo> thisItem;
std::vector<iteminfo> 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( "TOGGLE_FAVORITE" );
ctxt.register_action( "HELP_RECIPE" );
ctxt.register_action( "HELP_KEYBINDINGS" );
ctxt.register_action( "CYCLE_BATCH" );
ctxt.register_action( "RELATED_RECIPES" );
ctxt.register_action( "HIDE_SHOW_RECIPE" );
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 );
show_hidden = false;
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 {
std::vector<const recipe *> picking;
if( !filterstring.empty() ) {
auto qry = trim( filterstring );
if( qry.size() > 2 && qry[1] == ':' ) {
switch( qry[0] ) {
case 't':
picking = available_recipes.search( qry.substr( 2 ), recipe_subset::search_type::tool );
break;
case 'c':
picking = available_recipes.search( qry.substr( 2 ), recipe_subset::search_type::component );
break;
case 's':
picking = available_recipes.search( qry.substr( 2 ), recipe_subset::search_type::skill );
break;
case 'p':
picking = available_recipes.search( qry.substr( 2 ), recipe_subset::search_type::primary_skill );
break;
case 'Q':
picking = available_recipes.search( qry.substr( 2 ), recipe_subset::search_type::quality );
break;
case 'q':
picking = available_recipes.search( qry.substr( 2 ), recipe_subset::search_type::quality_result );
break;
case 'd':
picking = available_recipes.search( qry.substr( 2 ),
recipe_subset::search_type::description_result );
break;
case 'm': {
auto &learned = g->u.get_learned_recipes();
if( query_is_yes( qry ) ) {
std::set_intersection( available_recipes.begin(), available_recipes.end(), learned.begin(),
learned.end(), std::back_inserter( picking ) );
} else {
std::set_difference( available_recipes.begin(), available_recipes.end(), learned.begin(),
learned.end(),
std::back_inserter( picking ) );
}
break;
}
case 'h': {
std::copy( available_recipes.begin(), available_recipes.end(), std::back_inserter( picking ) );
if( query_is_yes( qry ) ) {
show_hidden = true;
}
break;
}
default:
current.clear();
}
} else {
picking = available_recipes.search( qry );
}
} else if( subtab.cur() == "CSC_*_FAVORITE" ) {
picking = available_recipes.favorite();
} else if( subtab.cur() == "CSC_*_RECENT" ) {
picking = available_recipes.recent();
} else {
picking = available_recipes.in_category( tab.cur(), subtab.cur() != "CSC_ALL" ? subtab.cur() : "" );
}
current.clear();
for( auto i : picking ) {
if( ( uistate.hidden_recipes.find( i->ident() ) != uistate.hidden_recipes.end() ) == show_hidden ) {
current.push_back( i );
}
}
if( !show_hidden ) {
draw_hidden_amount( w_head, 0, picking.size() - current.size() );
}
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 ) );
}
}
if( subtab.cur() != "CSC_*_RECENT" ) {
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, static_cast<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]how/hide, Re[L]ated, [*]Favorite, %s [?] keybindings" ),
( batch ) ? _( "cancel [b]atch" ) : _( "[b]atch" ) );
} else {
wprintz( w_data, c_white,
_( "[E]: Describe, [F]ind, [m]ode, [s]how/hide, Re[L]ated, [*]Favorite, %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, [s]how/hide, Re[L]ated, [*]Favorite, [b]atch [?] keybindings" ) );
} else {
mvwprintz( w_data, dataLines + 1, 5, c_white,
_( "[E]: Describe, [F]ind, [m]ode, [s]how/hide, Re[L]ated, [*]Favorite, [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 < static_cast<size_t>( dataHeight ) + 1; ++i ) {
std::string tmp_name = current[i]->result_name();
if( batch ) {
tmp_name = string_format( _( "%2dx %s" ), static_cast<int>( i ) + 1, tmp_name.c_str() );
}
if( static_cast<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;
print_colored_text(
w_data, ypos++, xpos, col, col,
string_format( _( "Primary skill used: <color_cyan>%s</color>" ),
( !current[line]->skill_used ? _( "N/A" ) :
current[line]->skill_used.obj().name() ) ) );
auto player_skill = g->u.get_skill_level( current[line]->skill_used );
std::string difficulty_color =
current[ line ]->difficulty > player_skill ? "yellow" : "green";
print_colored_text(
w_data, ypos++, xpos, col, col,
string_format( _( "Difficulty: <color_%s>%d</color>" ),
difficulty_color, current[ line ]->difficulty ) );
std::string skill_level_string =
current[line]->skill_used ?
string_format( _( "Your skill level: <color_%s>%d</color>" ),
difficulty_color, player_skill ) :
_( "Your skill level: <color_yellow>N/A</color>" );
print_colored_text( w_data, ypos++, xpos, col, col, skill_level_string );
ypos += fold_and_print( w_data, ypos, xpos, width, col,
_( "Other skills used: %s" ),
current[line]->required_skills_string( &g->u ) );
const int expected_turns = g->u.expected_time_to_craft( *current[line],
count ) / to_moves<int>( 1_turns );
ypos += fold_and_print( w_data, ypos, xpos, pane, col,
_( "Time to complete: <color_cyan>%s</color>" ),
to_string( time_duration::from_turns( expected_turns ) ) );
print_colored_text(
w_data, ypos++, xpos, col, col,
string_format( _( "Dark craftable? <color_cyan>%s</color>" ),
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" ) {
struct SearchPrefix {
char key;
std::string example;
std::string description;
};
std::vector<SearchPrefix> prefixes = {
{ 'q', _( "metal sawing" ), _( "<color_cyan>quality</color> of resulting item" ) },
//~ Example result description search term
{ 'd', _( "reach attack" ), _( "<color_cyan>full description</color> of resulting item (slow)" ) },
{ 'c', _( "two by four" ), _( "<color_cyan>component</color> required to craft" ) },
{ 'p', _( "tailoring" ), _( "<color_cyan>primary skill</color> used to craft" ) },
{ 's', _( "cooking" ), _( "<color_cyan>any skill</color> used to craft" ) },
{ 'Q', _( "fine bolt turning" ), _( "<color_cyan>quality</color> required to craft" ) },
{ 't', _( "soldering iron" ), _( "<color_cyan>tool</color> required to craft" ) },
{ 'h', _( "yes" ), _( "recipes which are <color_cyan>hidden</color> or not" ) },
{ 'm', _( "no" ), _( "recipes which are <color_cyan>memorized</color> or not" ) },
};
int max_example_length = 0;
for( const auto &prefix : prefixes ) {
max_example_length = std::max( max_example_length, utf8_width( prefix.example ) );
}
std::string spaces( max_example_length, ' ' );
std::string description =
_( "The default is to search result names. Some single-character prefixes "
"can be used with a colon (:) to search in other ways.\n"
"\n"
"<color_white>Examples:</color>\n" );
{
std::string example_name = _( "shirt" );
auto padding = max_example_length - utf8_width( example_name );
description += string_format(
_( " <color_white>%s</color>%.*s %s\n" ),
example_name, padding, spaces,
_( "<color_cyan>name</color> of resulting item" ) );
}
for( const auto &prefix : prefixes ) {
auto padding = max_example_length - utf8_width( prefix.example );
description += string_format(
_( " <color_yellow>%c</color><color_white>:%s</color>%.*s %s\n" ),
prefix.key, prefix.example, padding, spaces, prefix.description );
}
string_input_popup()
.title( _( "Search:" ) )
.width( 85 )
.description( description )
.desc_color( c_light_gray )
.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;
} else if( action == "TOGGLE_FAVORITE" ) {
keepline = true;
redraw = true;
if( current.empty() ) {
popup( _( "Nothing selected!" ) );
continue;
}
if( uistate.favorite_recipes.find( current[line]->ident() ) != uistate.favorite_recipes.end() ) {
uistate.favorite_recipes.erase( current[line]->ident() );
} else {
uistate.favorite_recipes.insert( current[line]->ident() );
}
} else if( action == "HIDE_SHOW_RECIPE" ) {
if( current.empty() ) {
popup( _( "Nothing selected!" ) );
redraw = true;
continue;
}
if( show_hidden ) {
uistate.hidden_recipes.erase( current[line]->ident() );
} else {
uistate.hidden_recipes.insert( current[line]->ident() );
}
redraw = true;
} else if( action == "RELATED_RECIPES" ) {
if( current.empty() ) {
popup( _( "Nothing selected!" ) );
redraw = true;
continue;
}
std::string recipe_name = peek_related_recipe( current[ line ], available_recipes );
if( recipe_name.empty() ) {
keepline = true;
} else {
filterstring = recipe_name;
}
redraw = true;
}
if( line < 0 ) {
line = current.size() - 1;
} else if( line >= static_cast<int>( current.size() ) ) {
line = 0;
}
} while( !done );
return chosen;
}
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;
}
