/**
* Gets the maximum possible production of the given type of goods.
*
* @param goodsType The type of goods to check.
* @return The maximum amount, of the given type of goods, that can be produced in one turn.
*/
public int getMaximumProduction(GoodsType goodsType) {
int amount = 0;
for (Tile workTile : getTile().getSurroundingTiles(getRadius())) {
if (workTile.getOwningSettlement() == null || workTile.getOwningSettlement() == this) {
// FIXME: make unitType brave
amount += workTile.getPotentialProduction(goodsType, null);
}
}
return amount;
}
/** {@inheritDoc} */
@Override
public int getTotalProductionOf(GoodsType type) {
if (type.isRefined()) {
if (type != goodsToMake()) return 0;
// Pretend 1/3 of the units present make the item with
// basic production of 3.
return getUnitCount();
}
int potential = 0;
int tiles = 0;
for (Tile workTile : getOwnedTiles()) {
if (workTile != getTile() && !workTile.isOccupied()) {
// FIXME: make unitType brave
potential += workTile.getPotentialProduction(type, null);
tiles++;
}
}
// When a native settlement has more tiles than units, pretend
// that they produce from their entire area at reduced
// efficiency.
if (tiles > getUnitCount()) {
potential *= (float) getUnitCount() / tiles;
}
// Raw production is too generous, apply a fudge factor to reduce it
// a bit for the non-food cases.
if (!type.isFoodType()) {
potential = (int) Math.round(potential * NATIVE_PRODUCTION_EFFICIENCY);
}
// But always add full potential of the center tile.
potential += getTile().getPotentialProduction(type, null);
return potential;
}
