Beispiel #1
0
/**
 * Reads in a vehicle part from a JsonObject.
 */
void vpart_info::load( JsonObject &jo )
{
    vpart_info next_part;

    next_part.id = vpart_str_id( jo.get_string( "id" ) );
    next_part.name = _(jo.get_string("name").c_str());
    next_part.sym = jo.get_string("symbol")[0];
    next_part.color = color_from_string(jo.get_string("color"));
    next_part.sym_broken = jo.get_string("broken_symbol")[0];
    next_part.color_broken = color_from_string(jo.get_string("broken_color"));
    next_part.dmg_mod = jo.has_member("damage_modifier") ? jo.get_int("damage_modifier") : 100;
    next_part.durability = jo.get_int("durability");
    next_part.power = jo.get_int("power", 0);
    next_part.epower = jo.get_int("epower", 0);
    next_part.folded_volume = jo.get_int("folded_volume", 0);
    next_part.range = jo.get_int( "range", 12 );
    next_part.size = jo.get_int( "size", 0 );

    //Handle the par1 union as best we can by accepting any ONE of its elements
    int element_count = (jo.has_member("par1") ? 1 : 0)
                        + (jo.has_member("wheel_width") ? 1 : 0)
                        + (jo.has_member("bonus") ? 1 : 0);

    if(element_count == 0) {
        //If not specified, assume 0
        next_part.par1 = 0;
    } else if(element_count == 1) {
        if(jo.has_member("par1")) {
            next_part.par1 = jo.get_int("par1");
        } else if(jo.has_member("wheel_width")) {
            next_part.par1 = jo.get_int("wheel_width");
        } else { //bonus
            next_part.par1 = jo.get_int("bonus");
        }
    } else {
        //Too many
        debugmsg("Error parsing vehicle part '%s': \
               Use AT MOST one of: par1, wheel_width, bonus",
                 next_part.name.c_str());
        //Keep going to produce more messages if other parts are wrong
        next_part.par1 = 0;
    }
    next_part.fuel_type = jo.get_string( "fuel_type", "null" );
    next_part.item = jo.get_string("item");
    next_part.difficulty = jo.get_int("difficulty");
    next_part.location = jo.has_member("location") ? jo.get_string("location") : "";

    JsonArray jarr = jo.get_array("flags");
    while (jarr.has_more()) {
        next_part.set_flag( jarr.next_string() );
    }

    if( jo.has_member( "breaks_into" ) ) {
        JsonIn& stream = *jo.get_raw( "breaks_into" );
        next_part.breaks_into_group = item_group::load_item_group( stream, "collection" );
    } else {
        next_part.breaks_into_group = "EMPTY_GROUP";
    }

    //Calculate and cache z-ordering based off of location
    // list_order is used when inspecting the vehicle
    if(next_part.location == "on_roof") {
        next_part.z_order = 9;
        next_part.list_order = 3;
    } else if(next_part.location == "on_cargo") {
        next_part.z_order = 8;
        next_part.list_order = 6;
    } else if(next_part.location == "center") {
        next_part.z_order = 7;
        next_part.list_order = 7;
    } else if(next_part.location == "under") {
        //Have wheels show up over frames
        next_part.z_order = 6;
        next_part.list_order = 10;
    } else if(next_part.location == "structure") {
        next_part.z_order = 5;
        next_part.list_order = 1;
    } else if(next_part.location == "engine_block") {
        //Should be hidden by frames
        next_part.z_order = 4;
        next_part.list_order = 8 ;
    } else if (next_part.location == "on_battery_mount"){
        //Should be hidden by frames
        next_part.z_order = 3;
        next_part.list_order = 10;
    } else if(next_part.location == "fuel_source") {
        //Should be hidden by frames
        next_part.z_order = 3;
        next_part.list_order = 9;
    } else if(next_part.location == "roof") {
        //Shouldn't be displayed
        next_part.z_order = -1;
        next_part.list_order = 4;
    } else if(next_part.location == "armor") {
        //Shouldn't be displayed (the color is used, but not the symbol)
        next_part.z_order = -2;
        next_part.list_order = 2;
    } else {
        //Everything else
        next_part.z_order = 0;
        next_part.list_order = 5;
    }

    auto const iter = vehicle_part_types.find( next_part.id );
    if( iter != vehicle_part_types.end() ) {
        // Entry in the map already exists, so the pointer in the vector is already correct
        // and does not need to be changed, only the int-id needs to be taken from the old entry.
        next_part.loadid = iter->second.loadid;
        iter->second = next_part;
    } else {
        // The entry is new, "generate" a new int-id and link the new entry from the vector.
        next_part.loadid = vpart_id( vehicle_part_int_types.size() );
        vpart_info &new_entry = vehicle_part_types[next_part.id];
        new_entry = next_part;
        vehicle_part_int_types.push_back( &new_entry );
    }
}
Beispiel #2
0
void it_artifact_tool::deserialize(JsonObject &jo)
{
    id = jo.get_string("id");
    name = jo.get_string("name");
    description = jo.get_string("description");
    sym = jo.get_int("sym");
    color = int_to_color(jo.get_int("color"));
    price = jo.get_int("price");
    // LEGACY: Since it seems artifacts get serialized out to disk, and they're
    // dynamic, we need to allow for them to be read from disk for, oh, I guess
    // quite some time. Loading and saving once will write things out as a JSON
    // array.
    if (jo.has_string("m1")) {
        materials.push_back(jo.get_string("m1"));
    }
    if (jo.has_string("m2")) {
        materials.push_back(jo.get_string("m2"));
    }
    // Assumption, perhaps dangerous, that we won't wind up with m1 and m2 and
    // a materials array in our serialized objects at the same time.
    if (jo.has_array("materials")) {
        JsonArray jarr = jo.get_array("materials");
        for (int i = 0; i < jarr.size(); ++i) {
            materials.push_back(jarr.get_string(i));
        }
    }
    volume = jo.get_int("volume");
    weight = jo.get_int("weight");
    melee_dam = jo.get_int("melee_dam");
    melee_cut = jo.get_int("melee_cut");
    m_to_hit = jo.get_int("m_to_hit");
    item_tags = jo.get_tags("item_flags");

    max_charges = jo.get_long("max_charges");
    def_charges = jo.get_long("def_charges");

    std::vector<int> rand_charges;
    JsonArray jarr = jo.get_array("rand_charges");
    while (jarr.has_more()) {
        rand_charges.push_back(jarr.next_long());
    }

    charges_per_use = jo.get_int("charges_per_use");
    turns_per_charge = jo.get_int("turns_per_charge");
    ammo = jo.get_string("ammo");
    revert_to = jo.get_string("revert_to");

    charge_type = (art_charge)jo.get_int("charge_type");

    JsonArray ja = jo.get_array("effects_wielded");
    while (ja.has_more()) {
        effects_wielded.push_back((art_effect_passive)ja.next_int());
    }

    ja = jo.get_array("effects_activated");
    while (ja.has_more()) {
        effects_activated.push_back((art_effect_active)ja.next_int());
    }

    ja = jo.get_array("effects_carried");
    while (ja.has_more()) {
        effects_carried.push_back((art_effect_passive)ja.next_int());
    }

    if( item_tags.count( "CHOP" ) > 0 ) {
        item_tags.insert( "SHEATH_SWORD" );
    }
    if( item_tags.count( "STAB" ) > 0 ) {
        item_tags.insert( "SHEATH_KNIFE" );
    }
}
Beispiel #3
0
/**
 * Reads in a vehicle part from a JsonObject.
 */
void game::load_vehiclepart(JsonObject &jo)
{
    vpart_info next_part;

    next_part.id = jo.get_string("id");
    next_part.name = _(jo.get_string("name").c_str());
    next_part.sym = jo.get_string("symbol")[0];
    next_part.color = color_from_string(jo.get_string("color"));
    next_part.sym_broken = jo.get_string("broken_symbol")[0];
    next_part.color_broken = color_from_string(jo.get_string("broken_color"));
    next_part.dmg_mod = jo.has_member("damage_modifier") ? jo.get_int("damage_modifier") : 100;
    next_part.durability = jo.get_int("durability");
    next_part.power = jo.get_int("power", 0);
    next_part.epower = jo.get_int("epower", 0);
    next_part.folded_volume = jo.get_int("folded_volume", 0);
    next_part.range = jo.get_int( "range", 12 );

    //Handle the par1 union as best we can by accepting any ONE of its elements
    int element_count = (jo.has_member("par1") ? 1 : 0)
                        + (jo.has_member("size") ? 1 : 0)
                        + (jo.has_member("wheel_width") ? 1 : 0)
                        + (jo.has_member("bonus") ? 1 : 0);

    if(element_count == 0) {
        //If not specified, assume 0
        next_part.par1 = 0;
    } else if(element_count == 1) {
        if(jo.has_member("par1")) {
            next_part.par1 = jo.get_int("par1");
        } else if(jo.has_member("size")) {
            next_part.par1 = jo.get_int("size");
        } else if(jo.has_member("wheel_width")) {
            next_part.par1 = jo.get_int("wheel_width");
        } else { //bonus
            next_part.par1 = jo.get_int("bonus");
        }
    } else {
        //Too many
        debugmsg("Error parsing vehicle part '%s': \
               Use AT MOST one of: par1, power, size, wheel_width, bonus",
                 next_part.name.c_str());
        //Keep going to produce more messages if other parts are wrong
        next_part.par1 = 0;
    }
    next_part.fuel_type = jo.has_member("fuel_type") ? jo.get_string("fuel_type") : "NULL";
    next_part.item = jo.get_string("item");
    next_part.difficulty = jo.get_int("difficulty");
    next_part.location = jo.has_member("location") ? jo.get_string("location") : "";

    next_part.bitflags = 0;
    JsonArray jarr = jo.get_array("flags");
    std::string nstring = "";
    while (jarr.has_more()) {
        nstring = jarr.next_string();
        next_part.flags.insert(nstring);
        if ( vpart_bitflag_map.find(nstring) != vpart_bitflag_map.end() ) {
            next_part.bitflags |= mfb( vpart_bitflag_map.find(nstring)->second );
        }
    }

    if (jo.has_member("FOLDABLE") && next_part.folded_volume == 0){
        debugmsg("Error: folded part %s has a volume of 0!", next_part.name.c_str());
    }

    JsonArray breaks_into = jo.get_array("breaks_into");
    while(breaks_into.has_more()) {
        JsonObject next_entry = breaks_into.next_object();
        break_entry next_break_entry;
        next_break_entry.item_id = next_entry.get_string("item");
        next_break_entry.min = next_entry.get_int("min");
        next_break_entry.max = next_entry.get_int("max");
        //Sanity check
        if(next_break_entry.max < next_break_entry.min) {
            debugmsg("For vehicle part %s: breaks_into item '%s' has min (%d) > max (%d)!",
                     next_part.name.c_str(), next_break_entry.item_id.c_str(),
                     next_break_entry.min, next_break_entry.max);
        }
        next_part.breaks_into.push_back(next_break_entry);
    }

    //Calculate and cache z-ordering based off of location
    // list_order is used when inspecting the vehicle
    if(next_part.location == "on_roof") {
        next_part.z_order = 9;
        next_part.list_order = 3;
    } else if(next_part.location == "on_cargo") {
        next_part.z_order = 8;
        next_part.list_order = 6;
    } else if(next_part.location == "center") {
        next_part.z_order = 7;
        next_part.list_order = 7;
    } else if(next_part.location == "under") {
        //Have wheels show up over frames
        next_part.z_order = 6;
        next_part.list_order = 10;
    } else if(next_part.location == "structure") {
        next_part.z_order = 5;
        next_part.list_order = 1;
    } else if(next_part.location == "engine_block") {
        //Should be hidden by frames
        next_part.z_order = 4;
        next_part.list_order = 8 ;
    } else if (next_part.location == "on_battery_mount"){
        //Should be hidden by frames
        next_part.z_order = 3;
        next_part.list_order = 10;
    } else if(next_part.location == "fuel_source") {
        //Should be hidden by frames
        next_part.z_order = 3;
        next_part.list_order = 9;
    } else if(next_part.location == "roof") {
        //Shouldn't be displayed
        next_part.z_order = -1;
        next_part.list_order = 4;
    } else if(next_part.location == "armor") {
        //Shouldn't be displayed (the color is used, but not the symbol)
        next_part.z_order = -2;
        next_part.list_order = 2;
    } else {
        //Everything else
        next_part.z_order = 0;
        next_part.list_order = 5;
    }

    if (vehicle_part_types.count(next_part.id) > 0) {
        next_part.loadid = vehicle_part_types[next_part.id].loadid;
        vehicle_part_int_types[next_part.loadid] = next_part;
    } else {
        next_part.loadid = vehicle_part_int_types.size();
        vehicle_part_int_types.push_back(next_part);
    }
    vehicle_part_types[next_part.id] = next_part;
}
void load_construction(JsonObject &jo)
{
    construction *con = new construction;
    JsonArray temp;

    con->description = _(jo.get_string("description").c_str());
    con->skill = _(jo.get_string("skill", "carpentry").c_str());
    con->difficulty = jo.get_int("difficulty");
    con->time = jo.get_int("time");

    temp = jo.get_array("tools");
    while (temp.has_more()) {
        std::vector<component> tool_choices;
        JsonArray ja = temp.next_array();
        while (ja.has_more()) {
            std::string name = ja.next_string();
            tool_choices.push_back(component(name, 1));
        }
        con->tools.push_back(tool_choices);
    }

    temp = jo.get_array("components");
    while (temp.has_more()) {
        std::vector<component> comp_choices;
        JsonArray ja = temp.next_array();
        while (ja.has_more()) {
            JsonArray comp = ja.next_array();
            std::string name = comp.get_string(0);
            int quant = comp.get_int(1);
            comp_choices.push_back(component(name, quant));
        }
        con->components.push_back(comp_choices);
    }

    con->pre_terrain = jo.get_string("pre_terrain", "");
    if (con->pre_terrain.size() > 1
        && con->pre_terrain[0] == 'f'
        && con->pre_terrain[1] == '_') {
        con->pre_is_furniture = true;
    } else {
        con->pre_is_furniture = false;
    }

    con->post_terrain = jo.get_string("post_terrain", "");
    if (con->post_terrain.size() > 1
        && con->post_terrain[0] == 'f'
        && con->post_terrain[1] == '_') {
        con->post_is_furniture = true;
    } else {
        con->post_is_furniture = false;
    }

    con->pre_flags = jo.get_tags("pre_flags");

    std::string prefunc = jo.get_string("pre_special", "");
    if (prefunc == "check_empty") {
        con->pre_special = &construct::check_empty;
    } else if (prefunc == "check_support") {
        con->pre_special = &construct::check_support;
    } else {
        // should probably print warning if not ""
        con->pre_special = &construct::check_nothing;
    }

    std::string postfunc = jo.get_string("post_special", "");
    if (postfunc == "done_tree") {
        con->post_special = &construct::done_tree;
    } else if (postfunc == "done_trunk_log") {
        con->post_special = &construct::done_trunk_log;
    } else if (postfunc == "done_trunk_plank") {
        con->post_special = &construct::done_trunk_plank;
    } else if (postfunc == "done_vehicle") {
        con->post_special = &construct::done_vehicle;
    } else if (postfunc == "done_deconstruct") {
        con->post_special = &construct::done_deconstruct;
    } else {
        // ditto, should probably warn here
        con->post_special = &construct::done_nothing;
    }

    con->id = constructions.size();
    constructions.push_back(con);
}
void mod_manager::load_modfile(JsonObject &jo, const std::string &main_path)
{
    if (!jo.has_string("type") || jo.get_string("type") != "MOD_INFO") {
        // Ignore anything that is not a mod-info
        return;
    }
    std::string m_ident = jo.get_string("ident");
    if (has_mod(m_ident)) {
        // TODO: change this to make unique ident for the mod
        // (instead of discarding it?)
        debugmsg("there is already a mod with ident %s", m_ident.c_str());
        return;
    }

    std::string t_type = jo.get_string("mod-type", "SUPPLEMENTAL");
    std::vector<std::string> m_authors;
    if (jo.has_array("authors")) {
        m_authors = jo.get_string_array("authors");
    } else {
        if(jo.has_string("author")) {
            m_authors.push_back(jo.get_string("author"));
        }
    }
    std::string m_name = jo.get_string("name", "");
    if (m_name.empty()) {
        // "No name" gets confusing if many mods have no name
        //~ name of a mod that has no name entry, (%s is the mods identifier)
        m_name = string_format(_("No name (%s)"), m_ident.c_str());
    } else {
        m_name = _(m_name.c_str());
    }
    std::string m_desc = jo.get_string("description", "");
    if (m_desc.empty()) {
        m_desc = _("No description");
    } else {
        m_desc = _(m_desc.c_str());
    }
    std::string m_path;
    if (jo.has_string("path")) {
        m_path = jo.get_string("path");
        if (m_path.empty()) {
            // If an empty path is given, use only the
            // folder of the modinfo.json
            m_path = main_path;
        } else {
            // prefix the folder of modinfo.json
            m_path = main_path + "/" + m_path;
        }
    } else {
        // Default if no path is given:
        // "<folder-of-modinfo.json>/data"
        m_path = main_path + "/data";
    }
    std::vector<std::string> m_dependencies;

    if (jo.has_member("dependencies") && jo.has_array("dependencies")) {
        JsonArray jarr = jo.get_array("dependencies");
        while(jarr.has_more()) {
            const std::string dep = jarr.next_string();
            if (dep == m_ident) {
                debugmsg("mod %s has itself as dependency", m_ident.c_str());
                continue;
            }
            if (std::find(m_dependencies.begin(), m_dependencies.end(), dep) != m_dependencies.end()) {
                // Some dependency listed twice, ignore it, what else can be done?
                continue;
            }
            m_dependencies.push_back(dep);
        }
    }

    mod_type m_type;
    if (t_type == "CORE") {
        m_type = MT_CORE;
    } else if (t_type == "SUPPLEMENTAL") {
        m_type = MT_SUPPLEMENTAL;
    } else {
        throw std::string("Invalid mod type: ") + t_type + " for mod " + m_ident;
    }

    MOD_INFORMATION *modfile = new MOD_INFORMATION;
    modfile->ident = m_ident;
    modfile->_type = m_type;
    modfile->authors = m_authors;
    modfile->name = m_name;
    modfile->description = m_desc;
    modfile->dependencies = m_dependencies;
    modfile->path = m_path;

    mod_map[modfile->ident] = modfile;
}
Beispiel #6
0
void load_furniture(JsonObject &jsobj)
{
  if ( furnlist.empty() ) {
      furn_t new_null = null_furniture_t();
      furnmap[new_null.id] = new_null;
      furnlist.push_back(new_null);
  }
  furn_t new_furniture;
  new_furniture.id = jsobj.get_string("id");
  if ( new_furniture.id == "f_null" ) {
      return;
  }
  new_furniture.name = _(jsobj.get_string("name").c_str());
  new_furniture.sym = jsobj.get_string("symbol").c_str()[0];

  bool has_color = jsobj.has_member("color");
  bool has_bgcolor = jsobj.has_member("bgcolor");
  if(has_color && has_bgcolor) {
    debugmsg("Found both color and bgcolor for %s, use only one of these.", new_furniture.name.c_str());
    new_furniture.color = c_white;
  } else if(has_color) {
    new_furniture.color = color_from_string(jsobj.get_string("color"));
  } else if(has_bgcolor) {
    new_furniture.color = bgcolor_from_string(jsobj.get_string("bgcolor"));
  } else {
    debugmsg("Furniture %s needs at least one of: color, bgcolor.", new_furniture.name.c_str());
  }

  new_furniture.movecost = jsobj.get_int("move_cost_mod");
  new_furniture.move_str_req = jsobj.get_int("required_str");
  new_furniture.max_volume = jsobj.get_int("max_volume", MAX_VOLUME_IN_SQUARE);

  new_furniture.crafting_pseudo_item = jsobj.get_string("crafting_pseudo_item", "");

  new_furniture.transparent = false;
  new_furniture.bitflags = 0;
  JsonArray flags = jsobj.get_array("flags");
  while(flags.has_more()) {
    new_furniture.set_flag(flags.next_string());
  }

  if(jsobj.has_member("examine_action")) {
    std::string function_name = jsobj.get_string("examine_action");
    new_furniture.examine = iexamine_function_from_string(function_name);
  } else {
    //If not specified, default to no action
    new_furniture.examine = iexamine_function_from_string("none");
  }

  new_furniture.open = "";
  if ( jsobj.has_member("open") ) {
      new_furniture.open = jsobj.get_string("open");
  }
  new_furniture.close = "";
  if ( jsobj.has_member("close") ) {
      new_furniture.close = jsobj.get_string("close");
  }
  new_furniture.bash.load(jsobj, "bash", true);
  new_furniture.deconstruct.load(jsobj, "deconstruct", true);

  new_furniture.loadid = furnlist.size();
  furnmap[new_furniture.id] = new_furniture;
  furnlist.push_back(new_furniture);
}
void mtype::load( JsonObject &jo )
{
    MonsterGenerator &gen = MonsterGenerator::generator();

    // Name and name plural are not translated here, but when needed in
    // combination with the actual count in `mtype::nname`.
    mandatory( jo, was_loaded, "name", name );
    // default behaviour: Assume the regular plural form (appending an “s”)
    optional( jo, was_loaded, "name_plural", name_plural, name + "s" );
    mandatory( jo, was_loaded, "description", description, translated_string_reader );

    // Have to overwrite the default { "hflesh" } here
    if( !was_loaded || jo.has_member( "material" ) ) {
        mat = { jo.get_string( "material" ) };
    }
    optional( jo, was_loaded, "species", species, auto_flags_reader<species_id> {} );
    optional( jo, was_loaded, "categories", categories, auto_flags_reader<> {} );

    // See monfaction.cpp
    if( !was_loaded || jo.has_member( "default_faction" ) ) {
        const auto faction = mfaction_str_id( jo.get_string( "default_faction" ) );
        default_faction = monfactions::get_or_add_faction( faction );
    }

    if( !was_loaded || jo.has_member( "symbol" ) ) {
        sym = jo.get_string( "symbol" );
        if( utf8_wrapper( sym ).display_width() != 1 ) {
            jo.throw_error( "monster symbol should be exactly one console cell width", "symbol" );
        }
    }

    mandatory( jo, was_loaded, "color", color, color_reader{} );
    const typed_flag_reader<decltype( Creature::size_map )> size_reader{ Creature::size_map, "invalid creature size" };
    optional( jo, was_loaded, "size", size, size_reader, MS_MEDIUM );
    const typed_flag_reader<decltype( gen.phase_map )> phase_reader{ gen.phase_map, "invalid phase id" };
    optional( jo, was_loaded, "phase", phase, phase_reader, SOLID );

    optional( jo, was_loaded, "diff", difficulty, 0 );
    optional( jo, was_loaded, "aggression", agro, 0 );
    optional( jo, was_loaded, "morale", morale, 0 );
    optional( jo, was_loaded, "speed", speed, 0 );
    optional( jo, was_loaded, "attack_cost", attack_cost, 100 );
    optional( jo, was_loaded, "melee_skill", melee_skill, 0 );
    optional( jo, was_loaded, "melee_dice", melee_dice, 0 );
    optional( jo, was_loaded, "melee_dice_sides", melee_sides, 0 );
    optional( jo, was_loaded, "dodge", sk_dodge, 0 );
    optional( jo, was_loaded, "armor_bash", armor_bash, 0 );
    optional( jo, was_loaded, "armor_cut", armor_cut, 0 );
    optional( jo, was_loaded, "armor_acid", armor_acid, armor_cut / 2 );
    optional( jo, was_loaded, "armor_fire", armor_fire, 0 );
    optional( jo, was_loaded, "hp", hp, 0 );
    optional( jo, was_loaded, "starting_ammo", starting_ammo );
    optional( jo, was_loaded, "luminance", luminance, 0 );
    optional( jo, was_loaded, "revert_to_itype", revert_to_itype, "" );
    optional( jo, was_loaded, "vision_day", vision_day, 40 );
    optional( jo, was_loaded, "vision_night", vision_night, 1 );
    optional( jo, was_loaded, "armor_stab", armor_stab, 0.8f * armor_cut );
    optional( jo, was_loaded, "attack_effs", atk_effs, mon_attack_effect_reader{} );

    // TODO: make this work with `was_loaded`
    if( jo.has_array( "melee_damage" ) ) {
        JsonArray arr = jo.get_array( "melee_damage" );
        melee_damage = load_damage_instance( arr );
    } else if( jo.has_object( "melee_damage" ) ) {
        melee_damage = load_damage_instance( jo );
    }

    if( jo.has_int( "melee_cut" ) ) {
        int bonus_cut = jo.get_int( "melee_cut" );
        melee_damage.add_damage( DT_CUT, bonus_cut );
    }

    // TODO: allow adding/removing specific entries if `was_loaded` is true
    if( jo.has_array( "attack_effs" ) ) {
        JsonArray jsarr = jo.get_array( "attack_effs" );
        while( jsarr.has_more() ) {
            JsonObject e = jsarr.next_object();
            mon_effect_data new_eff( efftype_id( e.get_string( "id" ) ), e.get_int( "duration", 0 ),
                                     get_body_part_token( e.get_string( "bp", "NUM_BP" ) ), e.get_bool( "permanent", false ),
                                     e.get_int( "chance", 100 ) );
            atk_effs.push_back( new_eff );
        }
    }

    if( jo.has_member( "death_drops" ) ) {
        JsonIn &stream = *jo.get_raw( "death_drops" );
        death_drops = item_group::load_item_group( stream, "distribution" );
    }

    const typed_flag_reader<decltype( gen.death_map )> death_reader{ gen.death_map, "invalid monster death function" };
    optional( jo, was_loaded, "death_function", dies, death_reader );
    if( dies.empty() ) {
        // TODO: really needed? Is an empty `dies` container not allowed?
        dies.push_back( mdeath::normal );
    }

    if( jo.has_member( "special_when_hit" ) ) {
        JsonArray jsarr = jo.get_array( "special_when_hit" );
        const auto iter = gen.defense_map.find( jsarr.get_string( 0 ) );
        if( iter == gen.defense_map.end() ) {
            jsarr.throw_error( "Invalid monster defense function" );
        }
        sp_defense = iter->second;
        def_chance = jsarr.get_int( 1 );
    } else if( !was_loaded ) {
        sp_defense = &mdefense::none;
        def_chance = 0;
    }

    if( !was_loaded || jo.has_member( "special_attacks" ) ) {
        special_attacks.clear();
        special_attacks_names.clear();
        add_special_attacks( jo, "special_attacks" );
    } else {
        // Note: special_attacks left as is, new attacks are added to it!
        // Note: member name prefixes are compatible with those used by generic_typed_reader
        remove_special_attacks( jo, "remove:special_attacks" );
        add_special_attacks( jo, "add:special_attacks" );
    }

    // Disable upgrading when JSON contains `"upgrades": false`, but fallback to the
    // normal behavior (including error checking) if "upgrades" is not boolean or not `false`.
    if( jo.has_bool( "upgrades" ) && !jo.get_bool( "upgrades" ) ) {
        upgrade_group = mongroup_id::NULL_ID;
        upgrade_into = mtype_id::NULL_ID;
        upgrades = false;
    } else if( jo.has_member( "upgrades" ) ) {
        JsonObject up = jo.get_object( "upgrades" );
        optional( up, was_loaded, "half_life", half_life, -1 );
        optional( up, was_loaded, "into_group", upgrade_group, auto_flags_reader<mongroup_id> {}, mongroup_id::NULL_ID );
        optional( up, was_loaded, "into", upgrade_into, auto_flags_reader<mtype_id> {}, mtype_id::NULL_ID );
        upgrades = true;
    }

    const typed_flag_reader<decltype( gen.flag_map )> flag_reader{ gen.flag_map, "invalid monster flag" };
    optional( jo, was_loaded, "flags", flags, flag_reader );

    const typed_flag_reader<decltype( gen.trigger_map )> trigger_reader{ gen.trigger_map, "invalid monster trigger" };
    optional( jo, was_loaded, "anger_triggers", anger, trigger_reader );
    optional( jo, was_loaded, "placate_triggers", placate, trigger_reader );
    optional( jo, was_loaded, "fear_triggers", fear, trigger_reader );
}
Beispiel #8
0
void mutation_branch::load( JsonObject &jo, const std::string & )
{
    mandatory( jo, was_loaded, "id", id );
    mandatory( jo, was_loaded, "name", raw_name, translated_string_reader );
    mandatory( jo, was_loaded, "description", raw_desc, translated_string_reader );
    mandatory( jo, was_loaded, "points", points );

    optional( jo, was_loaded, "visibility", visibility, 0 );
    optional( jo, was_loaded, "ugliness", ugliness, 0 );
    optional( jo, was_loaded, "starting_trait", startingtrait, false );
    optional( jo, was_loaded, "mixed_effect", mixed_effect, false );
    optional( jo, was_loaded, "active", activated, false );
    optional( jo, was_loaded, "starts_active", starts_active, false );
    optional( jo, was_loaded, "destroys_gear", destroys_gear, false );
    optional( jo, was_loaded, "allow_soft_gear", allow_soft_gear, false );
    optional( jo, was_loaded, "cost", cost, 0 );
    optional( jo, was_loaded, "time", cooldown, 0 );
    optional( jo, was_loaded, "hunger", hunger, false );
    optional( jo, was_loaded, "thirst", thirst, false );
    optional( jo, was_loaded, "fatigue", fatigue, false );
    optional( jo, was_loaded, "valid", valid, true );
    optional( jo, was_loaded, "purifiable", purifiable, true );

    if( jo.has_object( "spawn_item" ) ) {
        auto si = jo.get_object( "spawn_item" );
        optional( si, was_loaded, "type", spawn_item );
        optional( si, was_loaded, "message", raw_spawn_item_message );
    }
    if( jo.has_object( "ranged_mutation" ) ) {
        auto si = jo.get_object( "ranged_mutation" );
        optional( si, was_loaded, "type", ranged_mutation );
        optional( si, was_loaded, "message", raw_ranged_mutation_message );
    }
    optional( jo, was_loaded, "initial_ma_styles", initial_ma_styles );

    if( jo.has_array( "bodytemp_modifiers" ) ) {
        auto bodytemp_array = jo.get_array( "bodytemp_modifiers" );
        bodytemp_min = bodytemp_array.get_int( 0 );
        bodytemp_max = bodytemp_array.get_int( 1 );
    }

    optional( jo, was_loaded, "bodytemp_sleep", bodytemp_sleep, 0 );
    optional( jo, was_loaded, "threshold", threshold, false );
    optional( jo, was_loaded, "profession", profession, false );
    optional( jo, was_loaded, "debug", debug, false );
    optional( jo, was_loaded, "player_display", player_display, true );

    JsonArray vr = jo.get_array( "vitamin_rates" );

    while( vr.has_more() ) {
        auto pair = vr.next_array();
        vitamin_rates.emplace( vitamin_id( pair.get_string( 0 ) ),
                               time_duration::from_turns( pair.get_int( 1 ) ) );
    }

    auto vam = jo.get_array( "vitamins_absorb_multi" );
    while( vam.has_more() ) {
        auto pair = vam.next_array();
        std::map<vitamin_id, double> vit;
        auto vit_array = pair.get_array( 1 );
        // fill the inner map with vitamins
        while( vit_array.has_more() ) {
            auto vitamins = vit_array.next_array();
            vit.emplace( vitamin_id( vitamins.get_string( 0 ) ), vitamins.get_float( 1 ) );
        }
        // assign the inner vitamin map to the material_id key
        vitamin_absorb_multi.emplace( material_id( pair.get_string( 0 ) ), vit );
    }

    optional( jo, was_loaded, "healing_awake", healing_awake, 0.0f );
    optional( jo, was_loaded, "healing_resting", healing_resting, 0.0f );
    optional( jo, was_loaded, "hp_modifier", hp_modifier, 0.0f );
    optional( jo, was_loaded, "hp_modifier_secondary", hp_modifier_secondary, 0.0f );
    optional( jo, was_loaded, "hp_adjustment", hp_adjustment, 0.0f );
    optional( jo, was_loaded, "stealth_modifier", stealth_modifier, 0.0f );
    optional( jo, was_loaded, "str_modifier", str_modifier, 0.0f );
    optional( jo, was_loaded, "dodge_modifier", dodge_modifier, 0.0f );
    optional( jo, was_loaded, "speed_modifier", speed_modifier, 1.0f );
    optional( jo, was_loaded, "movecost_modifier", movecost_modifier, 1.0f );
    optional( jo, was_loaded, "movecost_flatground_modifier", movecost_flatground_modifier, 1.0f );
    optional( jo, was_loaded, "movecost_obstacle_modifier", movecost_obstacle_modifier, 1.0f );
    optional( jo, was_loaded, "attackcost_modifier", attackcost_modifier, 1.0f );
    optional( jo, was_loaded, "max_stamina_modifier", max_stamina_modifier, 1.0f );
    optional( jo, was_loaded, "weight_capacity_modifier", weight_capacity_modifier, 1.0f );
    optional( jo, was_loaded, "hearing_modifier", hearing_modifier, 1.0f );
    optional( jo, was_loaded, "noise_modifier", noise_modifier, 1.0f );
    optional( jo, was_loaded, "metabolism_modifier", metabolism_modifier, 0.0f );
    optional( jo, was_loaded, "thirst_modifier", thirst_modifier, 0.0f );
    optional( jo, was_loaded, "fatigue_modifier", fatigue_modifier, 0.0f );
    optional( jo, was_loaded, "fatigue_regen_modifier", fatigue_regen_modifier, 0.0f );
    optional( jo, was_loaded, "stamina_regen_modifier", stamina_regen_modifier, 0.0f );
    optional( jo, was_loaded, "overmap_sight", overmap_sight, 0.0f );
    optional( jo, was_loaded, "overmap_multiplier", overmap_multiplier, 1.0f );

    if( jo.has_object( "social_modifiers" ) ) {
        JsonObject sm = jo.get_object( "social_modifiers" );
        social_mods = load_mutation_social_mods( sm );
    }

    load_mutation_mods( jo, "passive_mods", mods );
    /* Not currently supported due to inability to save active mutation state
    load_mutation_mods(jsobj, "active_mods", new_mut.mods); */

    optional( jo, was_loaded, "prereqs", prereqs );
    optional( jo, was_loaded, "prereqs2", prereqs2 );
    optional( jo, was_loaded, "threshreq", threshreq );
    optional( jo, was_loaded, "cancels", cancels );
    optional( jo, was_loaded, "changes_to", replacements );
    optional( jo, was_loaded, "leads_to", additions );
    optional( jo, was_loaded, "flags", flags );
    optional( jo, was_loaded, "types", types );

    auto jsarr = jo.get_array( "category" );
    while( jsarr.has_more() ) {
        std::string s = jsarr.next_string();
        category.push_back( s );
        mutations_category[s].push_back( trait_id( id ) );
    }

    jsarr = jo.get_array( "wet_protection" );
    while( jsarr.has_more() ) {
        JsonObject jo = jsarr.next_object();
        std::string part_id = jo.get_string( "part" );
        int ignored = jo.get_int( "ignored", 0 );
        int neutral = jo.get_int( "neutral", 0 );
        int good = jo.get_int( "good", 0 );
        tripoint protect = tripoint( ignored, neutral, good );
        protection[get_body_part_token( part_id )] = protect;
    }

    jsarr = jo.get_array( "encumbrance_always" );
    while( jsarr.has_more() ) {
        JsonArray jo = jsarr.next_array();
        std::string part_id = jo.next_string();
        int enc = jo.next_int();
        encumbrance_always[get_body_part_token( part_id )] = enc;
    }

    jsarr = jo.get_array( "encumbrance_covered" );
    while( jsarr.has_more() ) {
        JsonArray jo = jsarr.next_array();
        std::string part_id = jo.next_string();
        int enc = jo.next_int();
        encumbrance_covered[get_body_part_token( part_id )] = enc;
    }

    jsarr = jo.get_array( "restricts_gear" );
    while( jsarr.has_more() ) {
        restricts_gear.insert( get_body_part_token( jsarr.next_string() ) );
    }

    jsarr = jo.get_array( "armor" );
    while( jsarr.has_more() ) {
        JsonObject jo = jsarr.next_object();
        auto parts = jo.get_tags( "parts" );
        std::set<body_part> bps;
        for( const std::string &part_string : parts ) {
            if( part_string == "ALL" ) {
                // Shorthand, since many mutations protect whole body
                bps.insert( all_body_parts.begin(), all_body_parts.end() );
            } else {
                bps.insert( get_body_part_token( part_string ) );
            }
        }

        resistances res = load_resistances_instance( jo );

        for( body_part bp : bps ) {
            armor[ bp ] = res;
        }
    }

    if( jo.has_array( "attacks" ) ) {
        jsarr = jo.get_array( "attacks" );
        while( jsarr.has_more() ) {
            JsonObject jo = jsarr.next_object();
            attacks_granted.emplace_back( load_mutation_attack( jo ) );
        }
    } else if( jo.has_object( "attacks" ) ) {
        JsonObject attack = jo.get_object( "attacks" );
        attacks_granted.emplace_back( load_mutation_attack( attack ) );
    }
}
Beispiel #9
0
void load_terrain(JsonObject &jsobj)
{
  ter_t new_terrain;
  new_terrain.id = jsobj.get_string("id");
  new_terrain.name = _(jsobj.get_string("name").c_str());

  //Special case for the LINE_ symbols
  std::string symbol = jsobj.get_string("symbol");
  if("LINE_XOXO" == symbol) {
    new_terrain.sym = LINE_XOXO;
  } else if("LINE_OXOX" == symbol) {
    new_terrain.sym = LINE_OXOX;
  } else {
    new_terrain.sym = symbol.c_str()[0];
  }

  new_terrain.color = color_from_string(jsobj.get_string("color"));
  new_terrain.movecost = jsobj.get_int("move_cost");

  if(jsobj.has_member("trap")) {
    new_terrain.trap = trap_id_from_string(jsobj.get_string("trap"));
  } else {
    new_terrain.trap = tr_null;
  }


  new_terrain.transparent = false;
  new_terrain.bitflags = 0;
  JsonArray flags = jsobj.get_array("flags");
  while(flags.has_more()) {
    new_terrain.set_flag(flags.next_string());
  }

  if(jsobj.has_member("examine_action")) {
    std::string function_name = jsobj.get_string("examine_action");
    new_terrain.examine = iexamine_function_from_string(function_name);
  } else {
    //If not specified, default to no action
    new_terrain.examine = iexamine_function_from_string("none");
  }

  new_terrain.open = "";
  if ( jsobj.has_member("open") ) {
      new_terrain.open = jsobj.get_string("open");
  }
  new_terrain.close = "";
  if ( jsobj.has_member("close") ) {
      new_terrain.close = jsobj.get_string("close");
  }
/*
  requires copying json object
  if( jsobj.has_member("bash") ) {
      if( jsobj.is_object("bash") ) {
          JsonObject delayed(jsobj.get_object("bash"));
          delayed_json["terrain_bash"][new_terrain.id] = delayed;//jsobj.get_object("bash");
      } else if (jsobj.is_string("bash") ) {
//          delayed_json["terrain_bash_link"][new_terrain.id] = jsobj.get_string("bash");
      }
  }
*/
  new_terrain.bash.load(jsobj, "bash", false);

  new_terrain.loadid=terlist.size();
  termap[new_terrain.id]=new_terrain;
  terlist.push_back(new_terrain);
}
Beispiel #10
0
void input_manager::init() {
    init_keycode_mapping();

    std::ifstream data_file;

    std::string file_name = "data/raw/keybindings.json";
    data_file.open(file_name.c_str(), std::ifstream::in | std::ifstream::binary);

    if(!data_file.good()) {
        throw "Could not read " + file_name;
    }

    JsonIn jsin(&data_file);

    //Crawl through once and create an entry for every definition
    jsin.start_array();
    while (!jsin.end_array()) {
        // JSON object representing the action
        JsonObject action = jsin.get_object();

        const std::string action_id = action.get_string("id");
        actionID_to_name[action_id] = action.get_string("name", action_id);
        const std::string context = action.get_string("category", "default");

        // Iterate over the bindings JSON array
        JsonArray bindings = action.get_array("bindings");
        const bool defaultcontext = (context == "default");
        while (bindings.has_more()) {
            JsonObject keybinding = bindings.next_object();
            std::string input_method = keybinding.get_string("input_method");
            input_event new_event;
            if(input_method == "keyboard") {
                new_event.type = CATA_INPUT_KEYBOARD;
            } else if(input_method == "gamepad") {
                new_event.type = CATA_INPUT_GAMEPAD;
            } else if(input_method == "mouse") {
                new_event.type = CATA_INPUT_MOUSE;
            }

            if (keybinding.has_array("key")) {
                JsonArray keys = keybinding.get_array("key");
                while (keys.has_more()) {
                    new_event.sequence.push_back(
                        get_keycode(keys.next_string())
                    );
                }
            } else { // assume string if not array, and throw if not string
                new_event.sequence.push_back(
                    get_keycode(keybinding.get_string("key"))
                );
            }

            if (defaultcontext) {
                action_to_input[action_id].push_back(new_event);
            } else {
                action_contexts[context][action_id].push_back(new_event);
            }
        }
    }

    data_file.close();
        }
Beispiel #11
0
bool map_bash_info::load(JsonObject &jsobj, std::string member, bool isfurniture) {
    if( jsobj.has_object(member) ) {
        JsonObject j = jsobj.get_object(member);

        if ( jsonint(j, "num_tests", num_tests ) == false ) {
           if ( jsonint(j, "str_min", str_min ) && jsonint(j, "str_max", str_max ) ) {
               num_tests = 1;
           }
        } else if ( num_tests > 0 ) {
           str_min = j.get_int("str_min");
           str_max = j.get_int("str_max");
        }

        jsonint(j, "str_min_blocked", str_min_blocked );
        jsonint(j, "str_max_blocked", str_max_blocked );
        jsonint(j, "str_min_roll", str_min_roll );
        jsonint(j, "explosive", explosive );
        jsonint(j, "chance", chance );
        jsonstring(j, "sound", sound );
        jsonstring(j, "sound_fail", sound_fail );
        jsonstring(j, "furn_set", furn_set );

        if ( jsonstring(j, "ter_set", ter_set ) == false && isfurniture == false ) {
           ter_set = "t_rubble";
           debugmsg("terrain[\"%s\"].bash.ter_set is not set!",jsobj.get_string("id").c_str() );
        }

        if ( j.has_array("items") ) {
           JsonArray ja = j.get_array("items");
           if (ja.size() > 0) {
               int c=0;
               while ( ja.has_more() ) {
                   if ( ja.has_object(c) ) {
                       JsonObject jio = ja.next_object();
                       if ( jio.has_string("item") && jio.has_int("amount") ) {
                           if ( jio.has_int("minamount") ) {
                               map_bash_item_drop drop( jio.get_string("item"), jio.get_int("amount"), jio.get_int("minamount") );
                               jsonint(jio, "chance", drop.chance);
                               items.push_back(drop);
                           } else {
                               map_bash_item_drop drop( jio.get_string("item"), jio.get_int("amount") );
                               jsonint(jio, "chance", drop.chance);
                               items.push_back(drop);
                           }
                       } else {
                           debugmsg("terrain[\"%s\"].bash.items[%d]: invalid entry",jsobj.get_string("id").c_str(),c);
                       }
                   } else {
                       debugmsg("terrain[\"%s\"].bash.items[%d]: invalid entry",jsobj.get_string("id").c_str(),c);
                   }
                   c++;
               }
           }
        }

//debugmsg("%d/%d %s %s/%s %d",str_min,str_max, ter_set.c_str(), sound.c_str(), sound_fail.c_str(), items.size() );
    return true;
  } else {
    return false;
  }
}
Beispiel #12
0
void mod_manager::load_modfile(JsonObject &jo, const std::string &main_path)
{
    if (!jo.has_string("type") || jo.get_string("type") != "MOD_INFO") {
        // Ignore anything that is not a mod-info
        return;
    }

    std::string m_ident = jo.get_string("ident");
    if (has_mod(m_ident)) {
        // TODO: change this to make unique ident for the mod
        // (instead of discarding it?)
        debugmsg("there is already a mod with ident %s", m_ident.c_str());
        return;
    }

    std::string t_type = jo.get_string("mod-type", "SUPPLEMENTAL");
    std::vector<std::string> m_authors;
    if (jo.has_array("authors")) {
        m_authors = jo.get_string_array("authors");
    } else {
        if(jo.has_string("author")) {
            m_authors.push_back(jo.get_string("author"));
        }
    }

    std::string m_name = jo.get_string("name", "");
    if (m_name.empty()) {
        // "No name" gets confusing if many mods have no name
        //~ name of a mod that has no name entry, (%s is the mods identifier)
        m_name = string_format(_("No name (%s)"), m_ident.c_str());
    } else {
        m_name = _(m_name.c_str());
    }

    std::string m_desc = jo.get_string("description", "");
    if (m_desc.empty()) {
        m_desc = _("No description");
    } else {
        m_desc = _(m_desc.c_str());
    }

    std::string m_cat = jo.get_string("category", "");
    std::pair<int, std::string> p_cat = {-1, ""};
    bool bCatFound = false;

    do {
        for( size_t i = 0; i < get_mod_list_categories().size(); ++i ) {
            if( get_mod_list_categories()[i].first == m_cat ) {
                p_cat = { i, get_mod_list_categories()[i].second };
                bCatFound = true;
                break;
            }
        }

        if( !bCatFound && m_cat != "" ) {
            m_cat = "";
        } else {
            break;
        }
    } while( !bCatFound );

    std::string m_path;
    if (jo.has_string("path")) {
        m_path = jo.get_string("path");
        if (m_path.empty()) {
            // If an empty path is given, use only the
            // folder of the modinfo.json
            m_path = main_path;
        } else {
            // prefix the folder of modinfo.json
            m_path = main_path + "/" + m_path;
        }
    } else {
        // Default if no path is given:
        // "<folder-of-modinfo.json>/data"
        m_path = main_path + "/data";
    }

    bool m_need_lua = jo.get_bool("with-lua", false);
    if ( file_exist(m_path + "/main.lua") || file_exist(m_path + "/preload.lua") ) {
        m_need_lua = true;
    }

    std::vector<std::string> m_dependencies;

    if (jo.has_member("dependencies") && jo.has_array("dependencies")) {
        JsonArray jarr = jo.get_array("dependencies");
        while(jarr.has_more()) {
            const std::string dep = jarr.next_string();
            if (dep == m_ident) {
                debugmsg("mod %s has itself as dependency", m_ident.c_str());
                continue;
            }
            if (std::find(m_dependencies.begin(), m_dependencies.end(), dep) != m_dependencies.end()) {
                // Some dependency listed twice, ignore it, what else can be done?
                continue;
            }
            m_dependencies.push_back(dep);
        }
    }

    mod_type m_type = MT_CORE;
    if (t_type == "CORE") {
        m_type = MT_CORE;
    } else if (t_type == "SUPPLEMENTAL") {
        m_type = MT_SUPPLEMENTAL;
    } else {
        jo.throw_error( std::string("Invalid mod type: ") + t_type + " for mod " + m_ident );
    }

    MOD_INFORMATION *modfile = new MOD_INFORMATION;
    modfile->ident = m_ident;
    modfile->_type = m_type;
    modfile->authors = m_authors;
    modfile->name = m_name;
    modfile->description = m_desc;
    modfile->dependencies = m_dependencies;
    modfile->category = p_cat;
    modfile->path = m_path;
    modfile->need_lua = m_need_lua;

    mod_map[modfile->ident] = modfile;
}
void load_mutation(JsonObject &jsobj)
{
    trait new_trait;
    JsonArray jsarr;
    std::string id = jsobj.get_string("id");

    new_trait.name = _(jsobj.get_string("name").c_str());
    new_trait.description = _(jsobj.get_string("description").c_str());
    new_trait.points = jsobj.get_int("points");
    new_trait.visibility = jsobj.get_int("visibility", 0);
    new_trait.ugliness = jsobj.get_int("ugliness", 0);
    new_trait.startingtrait = jsobj.get_bool("starting_trait", false);

    traits[id] = new_trait;

    mutation_data[id].valid = jsobj.get_bool("valid", true);
    mutation_data[id].purifiable = jsobj.get_bool("purifiable", true);
    mutation_data[id].threshold = jsobj.get_bool("threshold", false);
    
    jsarr = jsobj.get_array("prereqs");
    while (jsarr.has_more()) {
        mutation_data[id].prereqs.push_back(jsarr.next_string());
    }
    // Helps to be able to have a trait require more than one other trait
    // (Individual prereq-lists are "OR", not "AND".)
    // Traits shoud NOT appear in both lists for a given mutation, unless
    // you want that trait to satisfy both requirements.
    // These are additional to the first list, and will likely NOT be regained
    // if you lose the mutation they prereq'd for.
    jsarr = jsobj.get_array("prereqs2");
    while (jsarr.has_more()) {
        mutation_data[id].prereqs2.push_back(jsarr.next_string());
    }
    // Dedicated-purpose prereq slot for Threshold mutations
    jsarr = jsobj.get_array("threshreq");
    // Stuff like Huge might fit in more than one mutcat post-threshold, so yeah
    while (jsarr.has_more()) {
        mutation_data[id].threshreq.push_back(jsarr.next_string());
    }
    jsarr = jsobj.get_array("cancels");
    while (jsarr.has_more()) {
        mutation_data[id].cancels.push_back(jsarr.next_string());
    }
    jsarr = jsobj.get_array("changes_to");
    while (jsarr.has_more()) {
        mutation_data[id].replacements.push_back(jsarr.next_string());
    }
    jsarr = jsobj.get_array("leads_to");
    while (jsarr.has_more()) {
        mutation_data[id].additions.push_back(jsarr.next_string());
    }
    jsarr = jsobj.get_array("category");
    while (jsarr.has_more()) {
        std::string s = jsarr.next_string();
        mutation_data[id].category.push_back(s);
        mutations_category[s].push_back(id);
    }
    jsarr = jsobj.get_array("wet_protection");
    while (jsarr.has_more()) {
        JsonObject jo = jsarr.next_object();
        std::string part_id = jo.get_string("part");
        int ignored = jo.get_int("ignored", 0);
        int neutral = jo.get_int("neutral", 0);
        int good = jo.get_int("good", 0);
        tripoint protect = tripoint(ignored, neutral, good);
        mutation_data[id].protection[part_id] =
            mutation_wet(body_parts[part_id], protect);
    }
}
Beispiel #14
0
void input_manager::load(const std::string &file_name, bool is_user_preferences)
{
    std::ifstream data_file(file_name.c_str(), std::ifstream::in | std::ifstream::binary);

    if(!data_file.good()) {
        // Only throw if this is the first file to load, that file _must_ exist,
        // otherwise the keybindings can not be read at all.
        if (action_contexts.empty()) {
            throw "Could not read " + file_name;
        }
        return;
    }

    JsonIn jsin(data_file);

    //Crawl through once and create an entry for every definition
    jsin.start_array();
    while (!jsin.end_array()) {
        // JSON object representing the action
        JsonObject action = jsin.get_object();

        const std::string action_id = action.get_string("id");
        const std::string context = action.get_string("category", default_context_id);
        t_actions &actions = action_contexts[context];
        if (!is_user_preferences && action.has_member("name")) {
            // Action names are not user preferences. Some experimental builds
            // post-0.A had written action names into the user preferences
            // config file. Any names that exist in user preferences will be
            // ignored.
            actions[action_id].name = action.get_string("name");
        }

        // Iterate over the bindings JSON array
        JsonArray bindings = action.get_array("bindings");
        t_input_event_list events;
        while (bindings.has_more()) {
            JsonObject keybinding = bindings.next_object();
            std::string input_method = keybinding.get_string("input_method");
            input_event new_event;
            if(input_method == "keyboard") {
                new_event.type = CATA_INPUT_KEYBOARD;
            } else if(input_method == "gamepad") {
                new_event.type = CATA_INPUT_GAMEPAD;
            } else if(input_method == "mouse") {
                new_event.type = CATA_INPUT_MOUSE;
            }

            if (keybinding.has_array("key")) {
                JsonArray keys = keybinding.get_array("key");
                while (keys.has_more()) {
                    new_event.sequence.push_back(
                        get_keycode(keys.next_string())
                    );
                }
            } else { // assume string if not array, and throw if not string
                new_event.sequence.push_back(
                    get_keycode(keybinding.get_string("key"))
                );
            }

            events.push_back(new_event);
        }

        // An invariant of this class is that user-created, local keybindings
        // with an empty set of input_events do not exist in the
        // action_contexts map. In prior versions of this class, this was not
        // true, so users of experimental builds post-0.A will have empty
        // local keybindings saved in their keybindings.json config.
        //
        // To be backwards compatible with keybindings.json from prior
        // experimental builds, we will detect user-created, local keybindings
        // with empty input_events and disregard them. When keybindings are
        // later saved, these remnants won't be saved.
        if (!is_user_preferences ||
            !events.empty() ||
            context == default_context_id ||
            actions.count(action_id) > 0) {
            // In case this is the second file containing user preferences,
            // this replaces the default bindings with the user's preferences.
            action_attributes &attributes = actions[action_id];
            attributes.input_events = events;
            if (action.has_member("is_user_created")) {
                attributes.is_user_created = action.get_bool("is_user_created");
            }
        }
    }
}
void MonsterGenerator::load_monster(JsonObject &jo)
{
    // id
    std::string mid;
    if (jo.has_member("id")) {
        mid = jo.get_string("id");
        if (mon_templates.count(mid) > 0) {
            delete mon_templates[mid];
        }

        mtype *newmon = new mtype;

        newmon->id = mid;
        newmon->name = jo.get_string("name").c_str();
        if(jo.has_member("name_plural")) {
            newmon->name_plural = jo.get_string("name_plural");
        } else {
            // default behaviour: Assume the regular plural form (appending an “s”)
            newmon->name_plural = newmon->name + "s";
        }
        newmon->description = _(jo.get_string("description").c_str());

        newmon->mat = jo.get_string("material");

        newmon->species = jo.get_tags("species");
        newmon->categories = jo.get_tags("categories");

        newmon->sym = jo.get_string("symbol");
        if( utf8_wrapper( newmon->sym ).display_width() != 1 ) {
            jo.throw_error( "monster symbol should be exactly one console cell width", "symbol" );
        }
        newmon->color = color_from_string(jo.get_string("color"));
        newmon->size = get_from_string(jo.get_string("size", "MEDIUM"), size_map, MS_MEDIUM);
        newmon->phase = get_from_string(jo.get_string("phase", "SOLID"), phase_map, SOLID);

        newmon->difficulty = jo.get_int("diff", 0);
        newmon->agro = jo.get_int("aggression", 0);
        newmon->morale = jo.get_int("morale", 0);
        newmon->speed = jo.get_int("speed", 0);
        newmon->melee_skill = jo.get_int("melee_skill", 0);
        newmon->melee_dice = jo.get_int("melee_dice", 0);
        newmon->melee_sides = jo.get_int("melee_dice_sides", 0);
        newmon->melee_cut = jo.get_int("melee_cut", 0);
        newmon->sk_dodge = jo.get_int("dodge", 0);
        newmon->armor_bash = jo.get_int("armor_bash", 0);
        newmon->armor_cut = jo.get_int("armor_cut", 0);
        newmon->hp = jo.get_int("hp", 0);
        jo.read("starting_ammo", newmon->starting_ammo);
        newmon->luminance = jo.get_float("luminance", 0);
        newmon->revert_to_itype = jo.get_string( "revert_to_itype", "" );
        
        if (jo.has_array("attack_effs")) {
            JsonArray jsarr = jo.get_array("attack_effs");
            while (jsarr.has_more()) {
                JsonObject e = jsarr.next_object();
                mon_effect_data new_eff(e.get_string("id", "null"), e.get_int("duration", 0),
                                    body_parts[e.get_string("bp", "NUM_BP")], e.get_bool("permanent", false),
                                    e.get_int("chance", 100));
                newmon->atk_effs.push_back(new_eff);
            }
        }

        if (jo.has_string("death_drops")) {
            newmon->death_drops = jo.get_string("death_drops");
        } else if (jo.has_object("death_drops")) {
            JsonObject death_frop_json = jo.get_object("death_drops");
            // Make up a group name, should be unique (include the monster id),
            newmon->death_drops = newmon->id + "_death_drops_auto";
            const std::string subtype = death_frop_json.get_string("subtype", "distribution");
            // and load the entry as a standard item group using the made up name.
            item_group::load_item_group(death_frop_json, newmon->death_drops, subtype);
        } else if (jo.has_member("death_drops")) {
            jo.throw_error("invalid type, must be string or object", "death_drops");
        }

        newmon->dies = get_death_functions(jo, "death_function");
        load_special_defense(newmon, jo, "special_when_hit");
        load_special_attacks(newmon, jo, "special_attacks");

        std::set<std::string> flags, anger_trig, placate_trig, fear_trig;
        flags = jo.get_tags("flags");
        anger_trig = jo.get_tags("anger_triggers");
        placate_trig = jo.get_tags("placate_triggers");
        fear_trig = jo.get_tags("fear_triggers");

        newmon->flags = get_set_from_tags(flags, flag_map, MF_NULL);
        newmon->anger = get_set_from_tags(anger_trig, trigger_map, MTRIG_NULL);
        newmon->fear = get_set_from_tags(fear_trig, trigger_map, MTRIG_NULL);
        newmon->placate = get_set_from_tags(placate_trig, trigger_map, MTRIG_NULL);

        mon_templates[mid] = newmon;
    }
}
Beispiel #16
0
void load_terrain(JsonObject &jsobj)
{
    if ( terlist.empty() ) {
        ter_t new_null = null_terrain_t();
        termap[new_null.id] = new_null;
        terlist.push_back(new_null);
    }
    ter_t new_terrain;
    new_terrain.id = jsobj.get_string("id");
    if ( new_terrain.id == "t_null" ) {
        return;
    }
    new_terrain.name = _(jsobj.get_string("name").c_str());

    //Special case for the LINE_ symbols
    std::string symbol = jsobj.get_string("symbol");
    if("LINE_XOXO" == symbol) {
        new_terrain.sym = LINE_XOXO;
    } else if("LINE_OXOX" == symbol) {
        new_terrain.sym = LINE_OXOX;
    } else {
        new_terrain.sym = symbol.c_str()[0];
    }

    new_terrain.color = color_from_string(jsobj.get_string("color"));
    new_terrain.movecost = jsobj.get_int("move_cost");

    if(jsobj.has_member("trap")) {
        // Store the string representation of the trap id.
        // Overwrites the trap field in set_trap_ids() once ids are assigned..
        new_terrain.trap_id_str = jsobj.get_string("trap");
    }
    new_terrain.trap = tr_null;

    new_terrain.transparent = false;
    new_terrain.bitflags = 0;
    JsonArray flags = jsobj.get_array("flags");
    while(flags.has_more()) {
        new_terrain.set_flag(flags.next_string());
    }

    if(jsobj.has_member("examine_action")) {
        std::string function_name = jsobj.get_string("examine_action");
        new_terrain.examine = iexamine_function_from_string(function_name);
    } else {
        //If not specified, default to no action
        new_terrain.examine = iexamine_function_from_string("none");
    }

    new_terrain.open = "";
    if ( jsobj.has_member("open") ) {
        new_terrain.open = jsobj.get_string("open");
    }
    new_terrain.close = "";
    if ( jsobj.has_member("close") ) {
        new_terrain.close = jsobj.get_string("close");
    }
    new_terrain.bash.load(jsobj, "bash", false);
    new_terrain.loadid=terlist.size();
    termap[new_terrain.id]=new_terrain;
    terlist.push_back(new_terrain);
}
void mutation_branch::load( JsonObject &jsobj )
{
    const std::string id = jsobj.get_string( "id" );
    mutation_branch &new_mut = mutation_data[id];

    JsonArray jsarr;
    new_mut.name = _(jsobj.get_string("name").c_str());
    new_mut.description = _(jsobj.get_string("description").c_str());
    new_mut.points = jsobj.get_int("points");
    new_mut.visibility = jsobj.get_int("visibility", 0);
    new_mut.ugliness = jsobj.get_int("ugliness", 0);
    new_mut.startingtrait = jsobj.get_bool("starting_trait", false);
    new_mut.mixed_effect = jsobj.get_bool("mixed_effect", false);
    new_mut.activated = jsobj.get_bool("active", false);
    new_mut.cost = jsobj.get_int("cost", 0);
    new_mut.cooldown = jsobj.get_int("time",0);
    new_mut.hunger = jsobj.get_bool("hunger",false);
    new_mut.thirst = jsobj.get_bool("thirst",false);
    new_mut.fatigue = jsobj.get_bool("fatigue",false);
    new_mut.valid = jsobj.get_bool("valid", true);
    new_mut.purifiable = jsobj.get_bool("purifiable", true);
    for( auto & s : jsobj.get_string_array( "initial_ma_styles" ) ) {
        new_mut.initial_ma_styles.push_back( matype_id( s ) );
    }

    JsonArray bodytemp_array = jsobj.get_array( "bodytemp_modifiers" );
    if( bodytemp_array.has_more() ) {
        new_mut.bodytemp_min = bodytemp_array.get_int( 0 );
        new_mut.bodytemp_max = bodytemp_array.get_int( 1 );
    }
    new_mut.bodytemp_sleep = jsobj.get_int( "bodytemp_sleep", 0 );
    new_mut.threshold = jsobj.get_bool("threshold", false);
    new_mut.profession = jsobj.get_bool("profession", false);

    load_mutation_mods(jsobj, "passive_mods", new_mut.mods);
    /* Not currently supported due to inability to save active mutation state
    load_mutation_mods(jsobj, "active_mods", new_mut.mods); */

    new_mut.prereqs = jsobj.get_string_array( "prereqs" );
    // Helps to be able to have a trait require more than one other trait
    // (Individual prereq-lists are "OR", not "AND".)
    // Traits shoud NOT appear in both lists for a given mutation, unless
    // you want that trait to satisfy both requirements.
    // These are additional to the first list.
    new_mut.prereqs2 = jsobj.get_string_array( "prereqs2" );
    // Dedicated-purpose prereq slot for Threshold mutations
    // Stuff like Huge might fit in more than one mutcat post-threshold, so yeah
    new_mut.threshreq = jsobj.get_string_array( "threshreq" );
    new_mut.cancels = jsobj.get_string_array( "cancels" );
    new_mut.replacements = jsobj.get_string_array( "changes_to" );
    new_mut.additions = jsobj.get_string_array( "leads_to" );
    jsarr = jsobj.get_array("category");
    while (jsarr.has_more()) {
        std::string s = jsarr.next_string();
        new_mut.category.push_back(s);
        mutations_category[s].push_back(id);
    }
    jsarr = jsobj.get_array("wet_protection");
    while (jsarr.has_more()) {
        JsonObject jo = jsarr.next_object();
        std::string part_id = jo.get_string("part");
        int ignored = jo.get_int("ignored", 0);
        int neutral = jo.get_int("neutral", 0);
        int good = jo.get_int("good", 0);
        tripoint protect = tripoint(ignored, neutral, good);
        new_mut.protection[get_body_part_token( part_id )] = protect;
    }
}
Beispiel #18
0
void load_map_bash_tent_centers( JsonArray ja, std::vector<std::string> &centers ) {
    while ( ja.has_more() ) {
        centers.push_back( ja.next_string() );
    }
}
Beispiel #19
0
/**
 *Caches a vehicle definition from a JsonObject to be loaded after itypes is initialized.
 */
void vehicle_prototype::load(JsonObject &jo)
{
    vehicle_prototype &vproto = vtypes[ vproto_id( jo.get_string( "id" ) ) ];
    // If there are already parts defined, this vehicle prototype overrides an existing one.
    // If the json contains a name, it means a completely new prototype (replacing the
    // original one), therefor the old data has to be cleared.
    // If the json does not contain a name (the prototype would have no name), it means appending
    // to the existing prototype (the parts are not cleared).
    if( !vproto.parts.empty() && jo.has_string( "name" ) ) {
        vproto =  vehicle_prototype();
    }
    if( vproto.parts.empty() ) {
        vproto.name = jo.get_string( "name" );
    }

    vgroups[vgroup_id(jo.get_string("id"))].add_vehicle(vproto_id(jo.get_string("id")), 100);

    JsonArray parts = jo.get_array("parts");
    while (parts.has_more()) {
        JsonObject part = parts.next_object();
        const point pxy( part.get_int("x"), part.get_int("y") );
        const vpart_str_id pid( part.get_string( "part" ) );
        vproto.parts.emplace_back( pxy, pid );
    }

    JsonArray items = jo.get_array("items");
    while(items.has_more()) {
        JsonObject spawn_info = items.next_object();
        vehicle_item_spawn next_spawn;
        next_spawn.pos.x = spawn_info.get_int("x");
        next_spawn.pos.y = spawn_info.get_int("y");

        next_spawn.chance = spawn_info.get_int("chance");
        if(next_spawn.chance <= 0 || next_spawn.chance > 100) {
            debugmsg("Invalid spawn chance in %s (%d, %d): %d%%",
                     vproto.name.c_str(), next_spawn.pos.x, next_spawn.pos.y, next_spawn.chance);
        }

        // constrain both with_magazine and with_ammo to [0-100]
        next_spawn.with_magazine = std::max( std::min( spawn_info.get_int( "magazine", next_spawn.with_magazine ), 100 ), 0 );
        next_spawn.with_ammo = std::max( std::min( spawn_info.get_int( "ammo", next_spawn.with_ammo ), 100 ), 0 );

        if(spawn_info.has_array("items")) {
            //Array of items that all spawn together (ie jack+tire)
            JsonArray item_group = spawn_info.get_array("items");
            while(item_group.has_more()) {
                next_spawn.item_ids.push_back(item_group.next_string());
            }
        } else if(spawn_info.has_string("items")) {
            //Treat single item as array
            next_spawn.item_ids.push_back(spawn_info.get_string("items"));
        }
        if(spawn_info.has_array("item_groups")) {
            //Pick from a group of items, just like map::place_items
            JsonArray item_group_names = spawn_info.get_array("item_groups");
            while(item_group_names.has_more()) {
                next_spawn.item_groups.push_back(item_group_names.next_string());
            }
        } else if(spawn_info.has_string("item_groups")) {
            next_spawn.item_groups.push_back(spawn_info.get_string("item_groups"));
        }
        vproto.item_spawns.push_back( std::move( next_spawn ) );
    }
}
void mutation_branch::load( JsonObject &jsobj )
{
    const std::string id = jsobj.get_string( "id" );
    mutation_branch &new_mut = mutation_data[id];

    JsonArray jsarr;
    new_mut.name = _(jsobj.get_string("name").c_str());
    new_mut.description = _(jsobj.get_string("description").c_str());
    new_mut.points = jsobj.get_int("points");
    new_mut.visibility = jsobj.get_int("visibility", 0);
    new_mut.ugliness = jsobj.get_int("ugliness", 0);
    new_mut.startingtrait = jsobj.get_bool("starting_trait", false);
    new_mut.mixed_effect = jsobj.get_bool("mixed_effect", false);
    new_mut.activated = jsobj.get_bool("active", false);
    new_mut.starts_active = jsobj.get_bool("starts_active", false);
    new_mut.destroys_gear = jsobj.get_bool("destroys_gear", false);
    new_mut.allow_soft_gear = jsobj.get_bool("allow_soft_gear", false);
    new_mut.cost = jsobj.get_int("cost", 0);
    new_mut.cooldown = jsobj.get_int("time",0);
    new_mut.hunger = jsobj.get_bool("hunger",false);
    new_mut.thirst = jsobj.get_bool("thirst",false);
    new_mut.fatigue = jsobj.get_bool("fatigue",false);
    new_mut.valid = jsobj.get_bool("valid", true);
    new_mut.purifiable = jsobj.get_bool("purifiable", true);
    for( auto & s : jsobj.get_string_array( "initial_ma_styles" ) ) {
        new_mut.initial_ma_styles.push_back( matype_id( s ) );
    }

    JsonArray bodytemp_array = jsobj.get_array( "bodytemp_modifiers" );
    if( bodytemp_array.has_more() ) {
        new_mut.bodytemp_min = bodytemp_array.get_int( 0 );
        new_mut.bodytemp_max = bodytemp_array.get_int( 1 );
    }
    new_mut.bodytemp_sleep = jsobj.get_int( "bodytemp_sleep", 0 );
    new_mut.threshold = jsobj.get_bool("threshold", false);
    new_mut.profession = jsobj.get_bool("profession", false);

    auto vr = jsobj.get_array( "vitamin_rates" );
    while( vr.has_more() ) {
        auto pair = vr.next_array();
        new_mut.vitamin_rates[ vitamin_id( pair.get_string( 0 ) ) ] = pair.get_int( 1 );
    }

    load_mutation_mods(jsobj, "passive_mods", new_mut.mods);
    /* Not currently supported due to inability to save active mutation state
    load_mutation_mods(jsobj, "active_mods", new_mut.mods); */

    new_mut.prereqs = jsobj.get_string_array( "prereqs" );
    // Helps to be able to have a trait require more than one other trait
    // (Individual prereq-lists are "OR", not "AND".)
    // Traits shoud NOT appear in both lists for a given mutation, unless
    // you want that trait to satisfy both requirements.
    // These are additional to the first list.
    new_mut.prereqs2 = jsobj.get_string_array( "prereqs2" );
    // Dedicated-purpose prereq slot for Threshold mutations
    // Stuff like Huge might fit in more than one mutcat post-threshold, so yeah
    new_mut.threshreq = jsobj.get_string_array( "threshreq" );
    new_mut.cancels = jsobj.get_string_array( "cancels" );
    new_mut.replacements = jsobj.get_string_array( "changes_to" );
    new_mut.additions = jsobj.get_string_array( "leads_to" );
    new_mut.flags = jsobj.get_tags( "flags" );
    jsarr = jsobj.get_array("category");
    while (jsarr.has_more()) {
        std::string s = jsarr.next_string();
        new_mut.category.push_back(s);
        mutations_category[s].push_back(id);
    }
    jsarr = jsobj.get_array("wet_protection");
    while (jsarr.has_more()) {
        JsonObject jo = jsarr.next_object();
        std::string part_id = jo.get_string("part");
        int ignored = jo.get_int("ignored", 0);
        int neutral = jo.get_int("neutral", 0);
        int good = jo.get_int("good", 0);
        tripoint protect = tripoint(ignored, neutral, good);
        new_mut.protection[get_body_part_token( part_id )] = protect;
    }

    jsarr = jsobj.get_array("encumbrance_always");
    while (jsarr.has_more()) {
        JsonArray jo = jsarr.next_array();
        std::string part_id = jo.next_string();
        int enc = jo.next_int();
        new_mut.encumbrance_always[get_body_part_token( part_id )] = enc;
    }

    jsarr = jsobj.get_array("encumbrance_covered");
    while (jsarr.has_more()) {
        JsonArray jo = jsarr.next_array();
        std::string part_id = jo.next_string();
        int enc = jo.next_int();
        new_mut.encumbrance_covered[get_body_part_token( part_id )] = enc;
    }

    jsarr = jsobj.get_array("restricts_gear");
    while( jsarr.has_more() ) {
        new_mut.restricts_gear.insert( get_body_part_token( jsarr.next_string() ) );
    }

    jsarr = jsobj.get_array( "armor" );
    while( jsarr.has_more() ) {
        JsonObject jo = jsarr.next_object();
        auto parts = jo.get_tags( "parts" );
        std::set<body_part> bps;
        for( const std::string &part_string : parts ) {
            if( part_string == "ALL" ) {
                // Shorthand, since many muts protect whole body
                for( size_t i = 0; i < num_bp; i++ ) {
                    bps.insert( static_cast<body_part>( i ) );
                }
            } else {
                bps.insert( get_body_part_token( part_string ) );
            }
        }

        resistances res = load_resistances_instance( jo );

        for( body_part bp : bps ) {
            new_mut.armor[ bp ] = res;
        }
    }
}
Beispiel #21
0
void material_type::load( JsonObject &jsobj, const std::string & )
{
    mandatory( jsobj, was_loaded, "name", _name );

    mandatory( jsobj, was_loaded, "bash_resist", _bash_resist );
    mandatory( jsobj, was_loaded, "cut_resist", _cut_resist );
    mandatory( jsobj, was_loaded, "acid_resist", _acid_resist );
    mandatory( jsobj, was_loaded, "elec_resist", _elec_resist );
    mandatory( jsobj, was_loaded, "fire_resist", _fire_resist );
    mandatory( jsobj, was_loaded, "chip_resist", _chip_resist );
    mandatory( jsobj, was_loaded, "density", _density );

    assign( jsobj, "salvaged_into", _salvaged_into );
    optional( jsobj, was_loaded, "repaired_with", _repaired_with, "null" );
    optional( jsobj, was_loaded, "edible", _edible, false );
    optional( jsobj, was_loaded, "soft", _soft, false );

    auto arr = jsobj.get_array( "vitamins" );
    while( arr.has_more() ) {
        auto pair = arr.next_array();
        _vitamins.emplace( vitamin_id( pair.get_string( 0 ) ), pair.get_float( 1 ) );
    }

    mandatory( jsobj, was_loaded, "bash_dmg_verb", _bash_dmg_verb );
    mandatory( jsobj, was_loaded, "cut_dmg_verb", _cut_dmg_verb );

    JsonArray jsarr = jsobj.get_array( "dmg_adj" );
    while( jsarr.has_more() ) {
        _dmg_adj.push_back( jsarr.next_string() );
    }

    JsonArray burn_data_array = jsobj.get_array( "burn_data" );
    for( size_t intensity = 0; intensity < MAX_FIELD_DENSITY; intensity++ ) {
        if( burn_data_array.has_more() ) {
            JsonObject brn = burn_data_array.next_object();
            _burn_data[ intensity ] = load_mat_burn_data( brn );
        } else {
            // If not specified, supply default
            bool flammable = _fire_resist <= static_cast<int>( intensity );
            mat_burn_data mbd;
            if( flammable ) {
                mbd.burn = 1;
            }

            _burn_data[ intensity ] = mbd;
        }
    }
    auto bp_array = jsobj.get_array( "burn_products" );
    while( bp_array.has_more( ) ) {
        auto pair = bp_array.next_array();
        _burn_products.emplace_back( pair.get_string( 0 ), static_cast< float >( pair.get_float( 1 ) ) );
    }

    auto compactor_in_array = jsobj.get_array( "compact_accepts" );
    while( compactor_in_array.has_more( ) ) {
        _compact_accepts.emplace_back( compactor_in_array.next_string() );
    }
    auto compactor_out_array = jsobj.get_array( "compacts_into" );
    while( compactor_out_array.has_more( ) ) {
        _compacts_into.emplace_back( compactor_out_array.next_string() );
    }
}
Beispiel #22
0
void load_terrain(JsonObject &jsobj)
{
  if ( terlist.empty() ) {
      ter_t new_null = null_terrain_t();
      termap[new_null.id] = new_null;
      terlist.push_back(new_null);
  }
  ter_t new_terrain;
  new_terrain.id = jsobj.get_string("id");
  if ( new_terrain.id == "t_null" ) {
      return;
  }
  new_terrain.name = _(jsobj.get_string("name").c_str());

  //Special case for the LINE_ symbols
  std::string symbol = jsobj.get_string("symbol");
  if("LINE_XOXO" == symbol) {
    new_terrain.sym = LINE_XOXO;
  } else if("LINE_OXOX" == symbol) {
    new_terrain.sym = LINE_OXOX;
  } else {
    new_terrain.sym = symbol.c_str()[0];
  }

  new_terrain.color = color_from_string(jsobj.get_string("color"));
  new_terrain.movecost = jsobj.get_int("move_cost");

  if(jsobj.has_member("trap")) {
      // Store the string representation of the trap id.
      // Overwrites the trap field in set_trap_ids() once ids are assigned..
      new_terrain.trap_id_str = jsobj.get_string("trap");
  }
  new_terrain.trap = tr_null;
  new_terrain.max_volume = jsobj.get_int("max_volume", MAX_VOLUME_IN_SQUARE);

  new_terrain.transparent = false;
  new_terrain.bitflags = 0;
  JsonArray flags = jsobj.get_array("flags");
  while(flags.has_more()) {
    new_terrain.set_flag(flags.next_string());
  }

  if(jsobj.has_member("examine_action")) {
    std::string function_name = jsobj.get_string("examine_action");
    new_terrain.examine = iexamine_function_from_string(function_name);
  } else {
    // if not specified, default to no action
    new_terrain.examine = iexamine_function_from_string("none");
  }

  // if the terrain has something harvestable
  if (jsobj.has_member("harvestable")) {
    new_terrain.harvestable = jsobj.get_string("harvestable"); // get the harvestable
    new_terrain.transforms_into = jsobj.get_string("transforms_into"); // get the terrain to transform into later on
    //get the harvest season
    if (jsobj.get_string("harvest_season") == "SPRING") {new_terrain.harvest_season = 0;} // convert the season to int for calendar compare
    else if (jsobj.get_string("harvest_season") == "SUMMER") {new_terrain.harvest_season = 1;}
    else if (jsobj.get_string("harvest_season") == "AUTUMN") {new_terrain.harvest_season = 2;}
    else {new_terrain.harvest_season = 3;}
  }

  new_terrain.open = "";
  if ( jsobj.has_member("open") ) {
      new_terrain.open = jsobj.get_string("open");
  }
  new_terrain.close = "";
  if ( jsobj.has_member("close") ) {
      new_terrain.close = jsobj.get_string("close");
  }
  new_terrain.bash.load(jsobj, "bash", false);
  new_terrain.deconstruct.load(jsobj, "deconstruct", false);
  new_terrain.loadid=terlist.size();
  termap[new_terrain.id]=new_terrain;
  terlist.push_back(new_terrain);
}
/*
 * load player from ginormous json blob
 */
void player::deserialize(JsonIn &jsin)
{
    JsonObject data = jsin.get_object();
    JsonArray parray;

    json_load_common_variables( data );

    std::string prof_ident="(null)";
    if ( data.read("profession",prof_ident) && profession::exists(prof_ident) ) {
        prof = profession::prof(prof_ident);
    } else {
        debugmsg("Tried to use non-existent profession '%s'", prof_ident.c_str());
    }

    data.read("activity",activity);
    data.read("backlog",backlog);

    data.read("driving_recoil",driving_recoil);
    data.read("in_vehicle",in_vehicle);
    data.read("controlling_vehicle",controlling_vehicle);

    data.read("grab_point", grab_point);
    std::string grab_typestr="OBJECT_NONE";
    if( grab_point.x != 0 || grab_point.y != 0 ) {
        grab_typestr = "OBJECT_VEHICLE";
        data.read( "grab_type", grab_typestr);
    }

    if ( obj_type_id.find(grab_typestr) != obj_type_id.end() ) {
        grab_type = (object_type)obj_type_id[grab_typestr];
    }

    data.read( "blocks_left", num_blocks);
    data.read( "focus_pool", focus_pool);
    data.read( "style_selected", style_selected );

    data.read( "health", health );

    data.read( "mutations", my_mutations );

    set_highest_cat_level();
    drench_mut_calc();

    parray = data.get_array("temp_cur");
    if ( parray.size() == num_bp ) {
        for(int i=0; i < num_bp; i++) {
            temp_cur[i]=parray.get_int(i);
        }
    } else {
        debugmsg("Error, incompatible temp_cur in save file %s",parray.str().c_str());
    }

    parray = data.get_array("temp_conv");
    if ( parray.size() == num_bp ) {
        for(int i=0; i < num_bp; i++) {
            temp_conv[i]=parray.get_int(i);
        }
    } else {
        debugmsg("Error, incompatible temp_conv in save file %s",parray.str().c_str());
    }

    parray = data.get_array("frostbite_timer");
    if ( parray.size() == num_bp ) {
        for(int i=0; i < num_bp; i++) {
            frostbite_timer[i]=parray.get_int(i);
        }
    } else {
        debugmsg("Error, incompatible frostbite_timer in save file %s",parray.str().c_str());
    }

    parray = data.get_array("learned_recipes");
    if ( !parray.empty() ) {
        learned_recipes.clear();
        std::string pstr="";
        while ( parray.has_more() ) {
            if ( parray.read_next(pstr) ) {
                learned_recipes[ pstr ] = recipe_by_name( pstr );
            }
        }
    }

    data.read("morale", morale);

    data.read( "active_mission", active_mission );

    data.read( "active_missions", active_missions );
    data.read( "failed_missions", failed_missions );
    data.read( "completed_missions", completed_missions );

    stats & pstats = *lifetime_stats();
    data.read("player_stats",pstats);

    inv.clear();
    if ( data.has_member("inv") ) {
        JsonIn* jip = data.get_raw("inv");
        inv.json_load_items( *jip );
    }
    if ( data.has_member("invcache") ) {
        JsonIn* jip = data.get_raw("invcache");
        inv.json_load_invcache( *jip );
    }

    worn.clear();
    data.read("worn", worn);

    weapon.contents.clear();
    data.read("weapon", weapon);
}
/**
 * Reads in a vehicle part from a JsonObject.
 */
void game::load_vehiclepart(JsonObject &jo)
{
    vpart_info next_part;

    next_part.id = jo.get_string("id");
    next_part.name = _(jo.get_string("name").c_str());
    next_part.sym = jo.get_string("symbol")[0];
    next_part.color = color_from_string(jo.get_string("color"));
    next_part.sym_broken = jo.get_string("broken_symbol")[0];
    next_part.color_broken = color_from_string(jo.get_string("broken_color"));
    next_part.dmg_mod = jo.has_member("damage_modifier") ? jo.get_int("damage_modifier") : 100;
    next_part.durability = jo.get_int("durability");
    if(jo.has_member("power")) {
        next_part.power = jo.get_int("power");
    } else { //defaults to 0
        next_part.power = 0;
    }
    //Handle the par1 union as best we can by accepting any ONE of its elements
    int element_count = (jo.has_member("par1") ? 1 : 0)
                      + (jo.has_member("size") ? 1 : 0)
                      + (jo.has_member("wheel_width") ? 1 : 0)
                      + (jo.has_member("bonus") ? 1 : 0);

    if(element_count == 0) {
      //If not specified, assume 0
      next_part.par1 = 0;
    } else if(element_count == 1) {
      if(jo.has_member("par1")) {
        next_part.par1 = jo.get_int("par1");
      } else if(jo.has_member("size")) {
        next_part.par1 = jo.get_int("size");
      } else if(jo.has_member("wheel_width")) {
        next_part.par1 = jo.get_int("wheel_width");
      } else { //bonus
        next_part.par1 = jo.get_int("bonus");
      }
    } else {
      //Too many
      debugmsg("Error parsing vehicle part '%s': \
               Use AT MOST one of: par1, power, size, wheel_width, bonus",
               next_part.name.c_str());
      //Keep going to produce more messages if other parts are wrong
      next_part.par1 = 0;
    }
    next_part.fuel_type = jo.has_member("fuel_type") ? jo.get_string("fuel_type") : "NULL";
    next_part.item = jo.get_string("item");
    next_part.difficulty = jo.get_int("difficulty");
    next_part.location = jo.has_member("location") ? jo.get_string("location") : "";

    JsonArray jarr = jo.get_array("flags");
    while (jarr.has_more()){
        next_part.flags.insert(jarr.next_string());
    }

    //Plating shouldn't actually be shown; another part will be.
    //Calculate and cache z-ordering based off of location
    if(next_part.has_flag("ARMOR")) {
        next_part.z_order = -2;
    } else if(next_part.location == "on_roof") {
        next_part.z_order = 8;
    } else if(next_part.location == "center") {
        next_part.z_order = 7;
    } else if(next_part.location == "under") {
        //Have wheels show up over frames
        next_part.z_order = 6;
    } else if(next_part.location == "structure") {
        next_part.z_order = 5;
    } else if(next_part.location == "engine_block") {
        //Should be hidden by frames
        next_part.z_order = 4;
    } else if(next_part.location == "fuel_source") {
        //Should be hidden by frames
        next_part.z_order = 3;
    } else if(next_part.location == "roof") {
        //Shouldn't be displayed
        next_part.z_order = -1;
    } else {
        //Everything else
        next_part.z_order = 0;
    }

    vehicle_part_types[next_part.id] = next_part;
}
void load_map_bash_tent_centers( JsonArray ja, std::vector<furn_str_id> &centers ) {
    while ( ja.has_more() ) {
        centers.emplace_back( ja.next_string() );
    }
}
Beispiel #26
0
void MonsterGroupManager::LoadMonsterGroup( JsonObject &jo )
{
    float mon_upgrade_factor = get_option<float>( "MONSTER_UPGRADE_FACTOR" );

    MonsterGroup g;

    g.name = mongroup_id( jo.get_string( "name" ) );
    bool extending = false;  //If already a group with that name, add to it instead of overwriting it
    if( monsterGroupMap.count( g.name ) != 0 && !jo.get_bool( "override", false ) ) {
        g = monsterGroupMap[g.name];
        extending = true;
    }
    if( !extending
        || jo.has_string( "default" ) ) { //Not mandatory to specify default if extending existing group
        g.defaultMonster = mtype_id( jo.get_string( "default" ) );
    }
    if( jo.has_array( "monsters" ) ) {
        JsonArray monarr = jo.get_array( "monsters" );

        while( monarr.has_more() ) {
            JsonObject mon = monarr.next_object();
            const mtype_id name = mtype_id( mon.get_string( "monster" ) );

            int freq = mon.get_int( "freq" );
            int cost = mon.get_int( "cost_multiplier" );
            int pack_min = 1;
            int pack_max = 1;
            if( mon.has_member( "pack_size" ) ) {
                JsonArray packarr = mon.get_array( "pack_size" );
                pack_min = packarr.next_int();
                pack_max = packarr.next_int();
            }
            static const time_duration tdfactor = 1_hours;
            time_duration starts = 0_turns;
            time_duration ends = 0_turns;
            if( mon.has_member( "starts" ) ) {
                starts = tdfactor * mon.get_int( "starts" ) * ( mon_upgrade_factor > 0 ? mon_upgrade_factor : 1 );
            }
            if( mon.has_member( "ends" ) ) {
                ends = tdfactor * mon.get_int( "ends" ) * ( mon_upgrade_factor > 0 ? mon_upgrade_factor : 1 );
            }
            MonsterGroupEntry new_mon_group = MonsterGroupEntry( name, freq, cost, pack_min, pack_max, starts,
                                              ends );
            if( mon.has_member( "conditions" ) ) {
                JsonArray conditions_arr = mon.get_array( "conditions" );
                while( conditions_arr.has_more() ) {
                    new_mon_group.conditions.push_back( conditions_arr.next_string() );
                }
            }

            g.monsters.push_back( new_mon_group );
        }
    }
    g.replace_monster_group = jo.get_bool( "replace_monster_group", false );
    g.new_monster_group = mongroup_id( jo.get_string( "new_monster_group_id",
                                       mongroup_id::NULL_ID().str() ) );
    assign( jo, "replacement_time", g.monster_group_time, false, 1_days );
    g.is_safe = jo.get_bool( "is_safe", false );

    g.freq_total = jo.get_int( "freq_total", ( extending ? g.freq_total : 1000 ) );
    if( jo.get_bool( "auto_total", false ) ) { //Fit the max size to the sum of all freqs
        int total = 0;
        for( MonsterGroupEntry &mon : g.monsters ) {
            total += mon.frequency;
        }
        g.freq_total = total;
    }

    monsterGroupMap[g.name] = g;
}
Beispiel #27
0
void gun_actor::load_internal( JsonObject &obj, const std::string & )
{
    gun_type = obj.get_string( "gun_type" );

    obj.read( "ammo_type", ammo_type );

    if( obj.has_array( "fake_skills" ) ) {
        JsonArray jarr = obj.get_array( "fake_skills" );
        while( jarr.has_more() ) {
            JsonArray cur = jarr.next_array();
            fake_skills[skill_id( cur.get_string( 0 ) )] = cur.get_int( 1 );
        }
    }

    obj.read( "fake_str", fake_str );
    obj.read( "fake_dex", fake_dex );
    obj.read( "fake_int", fake_int );
    obj.read( "fake_per", fake_per );

    auto arr = obj.get_array( "ranges" );
    while( arr.has_more() ) {
        auto mode = arr.next_array();
        if( mode.size() < 2 || mode.get_int( 0 ) > mode.get_int( 1 ) ) {
            obj.throw_error( "incomplete or invalid range specified", "ranges" );
        }
        ranges.emplace( std::make_pair<int, int>( mode.get_int( 0 ), mode.get_int( 1 ) ),
                        gun_mode_id( mode.size() > 2 ? mode.get_string( 2 ) : "" ) );
    }

    obj.read( "max_ammo", max_ammo );

    obj.read( "move_cost", move_cost );

    if( obj.read( "description", description ) ) {
        description = _( description );
    }
    if( obj.read( "failure_msg", failure_msg ) ) {
        failure_msg = _( failure_msg );
    }
    if( obj.read( "no_ammo_sound", no_ammo_sound ) ) {
        no_ammo_sound = _( no_ammo_sound );
    } else {
        no_ammo_sound = _( "Click." );
    }

    obj.read( "targeting_cost", targeting_cost );

    obj.read( "require_targeting_player", require_targeting_player );
    obj.read( "require_targeting_npc", require_targeting_npc );
    obj.read( "require_targeting_monster", require_targeting_monster );

    obj.read( "targeting_timeout", targeting_timeout );
    obj.read( "targeting_timeout_extend", targeting_timeout_extend );

    if( obj.read( "targeting_sound", targeting_sound ) ) {
        targeting_sound = _( targeting_sound );
    } else {
        targeting_sound = _( "Beep." );
    }

    obj.read( "targeting_volume", targeting_volume );

    obj.get_bool( "laser_lock", laser_lock );

    obj.read( "require_sunlight", require_sunlight );
}
Beispiel #28
0
void load_martial_art(JsonObject &jo)
{
    martialart ma;
    JsonArray jsarr;

    ma.id = jo.get_string("id");
    ma.name = _(jo.get_string("name").c_str());
    ma.description = _(jo.get_string("description").c_str());

    jsarr = jo.get_array("static_buffs");
    while (jsarr.has_more()) {
        JsonObject jsobj = jsarr.next_object();
        ma.static_buffs.push_back(load_buff(jsobj));
    }

    jsarr = jo.get_array("onmove_buffs");
    while (jsarr.has_more()) {
        JsonObject jsobj = jsarr.next_object();
        ma.onmove_buffs.push_back(load_buff(jsobj));
    }

    jsarr = jo.get_array("onhit_buffs");
    while (jsarr.has_more()) {
        JsonObject jsobj = jsarr.next_object();
        ma.onhit_buffs.push_back(load_buff(jsobj));
    }

    jsarr = jo.get_array("onattack_buffs");
    while (jsarr.has_more()) {
        JsonObject jsobj = jsarr.next_object();
        ma.onattack_buffs.push_back(load_buff(jsobj));
    }

    jsarr = jo.get_array("ondodge_buffs");
    while (jsarr.has_more()) {
        JsonObject jsobj = jsarr.next_object();
        ma.ondodge_buffs.push_back(load_buff(jsobj));
    }

    jsarr = jo.get_array("onblock_buffs");
    while (jsarr.has_more()) {
        JsonObject jsobj = jsarr.next_object();
        ma.onblock_buffs.push_back(load_buff(jsobj));
    }

    jsarr = jo.get_array("ongethit_buffs");
    while (jsarr.has_more()) {
        JsonObject jsobj = jsarr.next_object();
        ma.onblock_buffs.push_back(load_buff(jsobj));
    }

    ma.techniques = jo.get_tags("techniques");
    ma.weapons = jo.get_tags("weapons");

    ma.leg_block = jo.get_int("leg_block", 99);
    ma.arm_block = jo.get_int("arm_block", 99);

    ma.arm_block_with_bio_armor_arms = jo.get_bool("arm_block_with_bio_armor_arms", false);
    ma.leg_block_with_bio_armor_legs = jo.get_bool("leg_block_with_bio_armor_legs", false);

    martialarts[ma.id] = ma;
}
void MonsterGenerator::load_monster(JsonObject &jo)
{
    const mtype_id mid = mtype_id( jo.get_string("id") );
        if (mon_templates.count(mid) > 0) {
            delete mon_templates[mid];
        }

        mtype *newmon = new mtype;

        newmon->id = mid;
        newmon->name = jo.get_string("name").c_str();
        if(jo.has_member("name_plural")) {
            newmon->name_plural = jo.get_string("name_plural");
        } else {
            // default behaviour: Assume the regular plural form (appending an “s”)
            newmon->name_plural = newmon->name + "s";
        }
        newmon->description = _(jo.get_string("description").c_str());

        // Have to overwrite the default { "hflesh" } here
        newmon->mat = { jo.get_string("material") };

        for( auto &s : jo.get_tags( "species" ) ) {
            newmon->species.insert( species_id( s ) );
        }
        newmon->categories = jo.get_tags("categories");

        // See monfaction.cpp
        newmon->default_faction =
            monfactions::get_or_add_faction( mfaction_str_id( jo.get_string("default_faction") ) );

        newmon->sym = jo.get_string("symbol");
        if( utf8_wrapper( newmon->sym ).display_width() != 1 ) {
            jo.throw_error( "monster symbol should be exactly one console cell width", "symbol" );
        }
        newmon->color = color_from_string(jo.get_string("color"));
        newmon->size = get_from_string(jo.get_string("size", "MEDIUM"), Creature::size_map, MS_MEDIUM);
        newmon->phase = get_from_string(jo.get_string("phase", "SOLID"), phase_map, SOLID);

        newmon->difficulty = jo.get_int("diff", 0);
        newmon->agro = jo.get_int("aggression", 0);
        newmon->morale = jo.get_int("morale", 0);
        newmon->speed = jo.get_int("speed", 0);
        newmon->attack_cost = jo.get_int("attack_cost", 100);
        newmon->melee_skill = jo.get_int("melee_skill", 0);
        newmon->melee_dice = jo.get_int("melee_dice", 0);
        newmon->melee_sides = jo.get_int("melee_dice_sides", 0);
        newmon->melee_cut = jo.get_int("melee_cut", 0);
        newmon->sk_dodge = jo.get_int("dodge", 0);
        newmon->armor_bash = jo.get_int("armor_bash", 0);
        newmon->armor_cut = jo.get_int("armor_cut", 0);
        newmon->hp = jo.get_int("hp", 0);
        jo.read("starting_ammo", newmon->starting_ammo);
        newmon->luminance = jo.get_float("luminance", 0);
        newmon->revert_to_itype = jo.get_string( "revert_to_itype", "" );
        newmon->vision_day = jo.get_int("vision_day", 40);
        newmon->vision_night = jo.get_int("vision_night", 1);

        if (jo.has_array("attack_effs")) {
            JsonArray jsarr = jo.get_array("attack_effs");
            while (jsarr.has_more()) {
                JsonObject e = jsarr.next_object();
                mon_effect_data new_eff(e.get_string("id", "null"), e.get_int("duration", 0),
                                    get_body_part_token( e.get_string("bp", "NUM_BP") ), e.get_bool("permanent", false),
                                    e.get_int("chance", 100));
                newmon->atk_effs.push_back(new_eff);
            }
        }

        if( jo.has_member( "death_drops" ) ) {
            JsonIn& stream = *jo.get_raw( "death_drops" );
            newmon->death_drops = item_group::load_item_group( stream, "distribution" );
        }

        newmon->dies = get_death_functions(jo, "death_function");
        load_special_defense(newmon, jo, "special_when_hit");
        load_special_attacks(newmon, jo, "special_attacks");

        if (jo.has_member("upgrades")) {
            JsonObject upgrades = jo.get_object("upgrades");
            newmon->half_life = upgrades.get_int("half_life", -1);
            newmon->upgrade_group = mongroup_id( upgrades.get_string("into_group", mongroup_id::NULL_ID.str() ) );
            newmon->upgrade_into = mtype_id( upgrades.get_string("into", mtype_id::NULL_ID.str() ) );
            newmon->upgrades = true;
        }

        std::set<std::string> flags, anger_trig, placate_trig, fear_trig;
        flags = jo.get_tags("flags");
        anger_trig = jo.get_tags("anger_triggers");
        placate_trig = jo.get_tags("placate_triggers");
        fear_trig = jo.get_tags("fear_triggers");

        newmon->flags = get_set_from_tags(flags, flag_map, MF_NULL);
        newmon->anger = get_set_from_tags(anger_trig, trigger_map, MTRIG_NULL);
        newmon->fear = get_set_from_tags(fear_trig, trigger_map, MTRIG_NULL);
        newmon->placate = get_set_from_tags(placate_trig, trigger_map, MTRIG_NULL);

        mon_templates[mid] = newmon;
}