use of mekanism.generators.common.tile.turbine.TileEntitySaturatingCondenser in project Mekanism by mekanism.
the class TurbineValidator method postcheck.
@Override
public FormationResult postcheck(TurbineMultiblockData structure, Set<BlockPos> innerNodes, Long2ObjectMap<IChunk> chunkMap) {
if (structure.length() % 2 != 1 || structure.width() % 2 != 1) {
return FormationResult.fail(GeneratorsLang.TURBINE_INVALID_EVEN_LENGTH);
}
int centerX = structure.getMinPos().getX() + (structure.length() - 1) / 2;
int centerZ = structure.getMinPos().getZ() + (structure.width() - 1) / 2;
BlockPos complex = null;
Set<BlockPos> turbines = new ObjectOpenHashSet<>();
Set<BlockPos> dispersers = new ObjectOpenHashSet<>();
Set<BlockPos> coils = new ObjectOpenHashSet<>();
Set<BlockPos> condensers = new ObjectOpenHashSet<>();
// Scan for complex
for (BlockPos pos : innerNodes) {
TileEntity tile = WorldUtils.getTileEntity(world, chunkMap, pos);
if (tile instanceof TileEntityRotationalComplex) {
if (complex != null || pos.getX() != centerX || pos.getZ() != centerZ) {
return FormationResult.fail(GeneratorsLang.TURBINE_INVALID_BAD_COMPLEX, pos);
}
structure.internalLocations.add(pos);
complex = pos;
} else if (tile instanceof TileEntityTurbineRotor) {
if (pos.getX() != centerX || pos.getZ() != centerZ) {
return FormationResult.fail(GeneratorsLang.TURBINE_INVALID_BAD_ROTOR, pos);
}
turbines.add(pos);
} else if (tile instanceof TileEntityPressureDisperser) {
dispersers.add(pos);
} else if (tile instanceof TileEntityElectromagneticCoil) {
coils.add(pos);
} else if (tile instanceof TileEntitySaturatingCondenser) {
condensers.add(pos);
}
}
// Terminate if complex doesn't exist
if (complex == null) {
return FormationResult.fail(GeneratorsLang.TURBINE_INVALID_MISSING_COMPLEX);
}
int rotors = complex.getY() - structure.getMinPos().getY() + 1;
int innerRadius = (Math.min(structure.length(), structure.width()) - 3) / 2;
if (innerRadius < rotors / 4) {
return FormationResult.fail(GeneratorsLang.TURBINE_INVALID_TOO_NARROW);
}
// Terminate if coils don't exist
if (coils.isEmpty()) {
return FormationResult.fail(GeneratorsLang.TURBINE_INVALID_MISSING_COILS);
}
BlockPos.Mutable mutablePos = new BlockPos.Mutable();
// Make sure a flat, horizontal plane of dispersers exists within the multiblock around the complex
for (int x = complex.getX() - innerRadius; x <= complex.getX() + innerRadius; x++) {
for (int z = complex.getZ() - innerRadius; z <= complex.getZ() + innerRadius; z++) {
if (x != centerX || z != centerZ) {
mutablePos.set(x, complex.getY(), z);
TileEntityPressureDisperser tile = WorldUtils.getTileEntity(TileEntityPressureDisperser.class, world, chunkMap, mutablePos);
if (tile == null) {
return FormationResult.fail(GeneratorsLang.TURBINE_INVALID_MISSING_DISPERSER, mutablePos);
}
dispersers.remove(mutablePos);
}
}
}
// If any dispersers were not processed, they're in the wrong place
if (!dispersers.isEmpty()) {
return FormationResult.fail(GeneratorsLang.TURBINE_INVALID_MALFORMED_DISPERSERS);
}
// Make sure all condensers are in proper locations
for (BlockPos coord : condensers) {
if (coord.getY() <= complex.getY()) {
return FormationResult.fail(GeneratorsLang.TURBINE_INVALID_CONDENSER_BELOW_COMPLEX, coord);
}
}
structure.condensers = condensers.size();
int turbineHeight = 0;
int blades = 0;
// Starting from the complex, walk down and count the number of rotors/blades in the structure
for (int y = complex.getY() - 1; y > structure.getMinPos().getY(); y--) {
mutablePos.set(centerX, y, centerZ);
TileEntityTurbineRotor rotor = WorldUtils.getTileEntity(TileEntityTurbineRotor.class, world, chunkMap, mutablePos);
if (rotor == null) {
// Not a contiguous set of rotors
return FormationResult.fail(GeneratorsLang.TURBINE_INVALID_ROTORS_NOT_CONTIGUOUS);
}
turbineHeight++;
blades += rotor.getHousedBlades();
structure.internalLocations.add(rotor.getBlockPos());
turbines.remove(mutablePos);
}
// If there are any rotors left over, they are in the wrong place in the structure
if (!turbines.isEmpty()) {
return FormationResult.fail(GeneratorsLang.TURBINE_INVALID_BAD_ROTORS);
}
// Update the structure with number of blades found on rotors
structure.blades = blades;
BlockPos startCoord = complex.relative(Direction.UP);
if (WorldUtils.getTileEntity(TileEntityElectromagneticCoil.class, world, chunkMap, startCoord) != null) {
structure.coils = FormationProtocol.explore(startCoord, coord -> WorldUtils.getTileEntity(TileEntityElectromagneticCoil.class, world, chunkMap, coord) != null);
}
if (coils.size() > structure.coils) {
return FormationResult.fail(GeneratorsLang.TURBINE_INVALID_MALFORMED_COILS);
}
for (BlockPos coord : structure.locations) {
if (WorldUtils.getTileEntity(TileEntityTurbineVent.class, world, chunkMap, coord) != null) {
if (coord.getY() < complex.getY()) {
return FormationResult.fail(GeneratorsLang.TURBINE_INVALID_VENT_BELOW_COMPLEX, coord);
}
structure.vents++;
}
}
structure.lowerVolume = structure.length() * structure.width() * turbineHeight;
structure.complex = complex;
return FormationResult.SUCCESS;
}
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