TechReborn/src/main/java/techreborn/multiblocks/MultiBlockCasing.java

440 lines
14 KiB
Java
Raw Normal View History

package techreborn.multiblocks;
2015-07-02 20:51:24 +02:00
import net.minecraft.block.Block;
import net.minecraft.nbt.NBTTagCompound;
import net.minecraft.tileentity.TileEntity;
2016-03-13 17:08:30 +01:00
import net.minecraft.util.math.BlockPos;
2015-07-02 20:51:24 +02:00
import net.minecraft.world.World;
2015-11-08 13:15:45 +01:00
import reborncore.common.multiblock.CoordTriplet;
import reborncore.common.multiblock.IMultiblockPart;
import reborncore.common.multiblock.MultiblockControllerBase;
import reborncore.common.multiblock.MultiblockValidationException;
import reborncore.common.multiblock.rectangular.RectangularMultiblockControllerBase;
import reborncore.common.multiblock.rectangular.RectangularMultiblockTileEntityBase;
public class MultiBlockCasing extends RectangularMultiblockControllerBase {
public boolean hasLava;
public boolean isStar = false;
public int height = 0;
public MultiBlockCasing(World world) {
super(world);
}
public String getInfo(){
String value = "Intact";
try {
isMachineWhole();
} catch (MultiblockValidationException e) {
e.printStackTrace();
value = e.getLocalizedMessage();
}
return value;
}
/**
* @return True if the machine is "whole" and should be assembled. False
* otherwise.
*/
@Override
protected void isMachineWhole() throws MultiblockValidationException {
if (connectedParts.size() < getMinimumNumberOfBlocksForAssembledMachine()) {
throw new MultiblockValidationException("Machine is too small.");
}
CoordTriplet maximumCoord = getMaximumCoord();
CoordTriplet minimumCoord = getMinimumCoord();
// Quickly check for exceeded dimensions
int deltaX = maximumCoord.x - minimumCoord.x + 1;
int deltaY = maximumCoord.y - minimumCoord.y + 1;
int deltaZ = maximumCoord.z - minimumCoord.z + 1;
int maxX = getMaximumXSize();
int maxY = getMaximumYSize();
int maxZ = getMaximumZSize();
int minX = getMinimumXSize();
int minY = getMinimumYSize();
int minZ = getMinimumZSize();
if (maxX > 0 && deltaX > maxX) {
throw new MultiblockValidationException(
String.format(
"Machine is too large, it may be at most %d blocks in the X dimension",
maxX));
}
if (maxY > 0 && deltaY > maxY) {
throw new MultiblockValidationException(
String.format(
"Machine is too large, it may be at most %d blocks in the Y dimension",
maxY));
}
if (maxZ > 0 && deltaZ > maxZ) {
throw new MultiblockValidationException(
String.format(
"Machine is too large, it may be at most %d blocks in the Z dimension",
maxZ));
}
if (deltaX < minX) {
throw new MultiblockValidationException(
String.format(
"Machine is too small, it must be at least %d blocks in the X dimension",
minX));
}
if (deltaY < minY) {
throw new MultiblockValidationException(
String.format(
"Machine is too small, it must be at least %d blocks in the Y dimension",
minY));
}
if (deltaZ < minZ) {
throw new MultiblockValidationException(
String.format(
"Machine is too small, it must be at least %d blocks in the Z dimension",
minZ));
}
height = deltaY;
// if(checkIfStarShape(minimumCoord.x, minimumCoord.y, minimumCoord.z)){
// isStar = true;
// return;
// } else {
// isStar = false;
// }
if (deltaY < minY) {
throw new MultiblockValidationException(
String.format(
"Machine is too small, it must be at least %d blocks in the Y dimension",
minY));
}
// Now we run a simple check on each block within that volume.
// Any block deviating = NO DEAL SIR
TileEntity te;
RectangularMultiblockTileEntityBase part;
Class<? extends RectangularMultiblockControllerBase> myClass = this
.getClass();
for (int x = minimumCoord.x; x <= maximumCoord.x; x++) {
for (int y = minimumCoord.y; y <= maximumCoord.y; y++) {
for (int z = minimumCoord.z; z <= maximumCoord.z; z++) {
// Okay, figure out what sort of block this should be.
te = this.worldObj.getTileEntity(new BlockPos(x, y, z));
if (te instanceof RectangularMultiblockTileEntityBase) {
part = (RectangularMultiblockTileEntityBase) te;
// Ensure this part should actually be allowed within a
// cube of this controller's type
if (!myClass.equals(part.getMultiblockControllerType())) {
throw new MultiblockValidationException(
String.format(
"Part @ %d, %d, %d is incompatible with machines of type %s",
x, y, z, myClass.getSimpleName()));
}
} else {
// This is permitted so that we can incorporate certain
// non-multiblock parts inside interiors
part = null;
}
// Validate block type against both part-level and
// material-level validators.
int extremes = 0;
if (x == minimumCoord.x) {
extremes++;
}
if (y == minimumCoord.y) {
extremes++;
}
if (z == minimumCoord.z) {
extremes++;
}
if (x == maximumCoord.x) {
extremes++;
}
if (y == maximumCoord.y) {
extremes++;
}
if (z == maximumCoord.z) {
extremes++;
}
if (extremes >= 2) {
if (part != null) {
part.isGoodForFrame();
} else {
isBlockGoodForFrame(this.worldObj, x, y, z);
}
} else if (extremes == 1) {
if (y == maximumCoord.y) {
if (part != null) {
part.isGoodForTop();
} else {
isBlockGoodForTop(this.worldObj, x, y, z);
}
} else if (y == minimumCoord.y) {
if (part != null) {
part.isGoodForBottom();
} else {
isBlockGoodForBottom(this.worldObj, x, y, z);
}
} else {
// Side
if (part != null) {
part.isGoodForSides();
} else {
isBlockGoodForSides(this.worldObj, x, y, z);
}
}
} else {
if (part != null) {
part.isGoodForInterior();
} else {
isBlockGoodForInterior(this.worldObj, x, y, z);
}
}
}
}
}
}
@Override
public void onAttachedPartWithMultiblockData(IMultiblockPart part,
NBTTagCompound data) {
}
@Override
protected void onBlockAdded(IMultiblockPart newPart) {
}
@Override
protected void onBlockRemoved(IMultiblockPart oldPart) {
}
@Override
protected void onMachineAssembled() {
}
@Override
protected void onMachineRestored() {
}
@Override
protected void onMachinePaused() {
}
@Override
protected void onMachineDisassembled() {
}
@Override
protected int getMinimumNumberOfBlocksForAssembledMachine() {
return 1;
}
@Override
protected int getMaximumXSize() {
return 3;
}
@Override
protected int getMaximumZSize() {
return 3;
}
@Override
protected int getMaximumYSize() {
return 4;
}
@Override
protected int getMinimumXSize() {
return 3;
}
@Override
protected int getMinimumYSize() {
return 3;
}
@Override
protected int getMinimumZSize() {
return 3;
}
@Override
protected void onAssimilate(MultiblockControllerBase assimilated) {
}
@Override
protected void onAssimilated(MultiblockControllerBase assimilator) {
}
@Override
protected boolean updateServer() {
return true;
}
@Override
protected void updateClient() {
}
@Override
public void writeToNBT(NBTTagCompound data) {
}
@Override
public void readFromNBT(NBTTagCompound data) {
}
@Override
public void formatDescriptionPacket(NBTTagCompound data) {
}
@Override
public void decodeDescriptionPacket(NBTTagCompound data) {
}
@Override
protected void isBlockGoodForInterior(World world, int x, int y, int z)
throws MultiblockValidationException {
Block block = world.getBlockState(new BlockPos(x, y, z)).getBlock();
if (block.isAir(world.getBlockState(new BlockPos(x, y, z)), world, new BlockPos(x, y, z))) {
} else if (block.getUnlocalizedName().equals("tile.lava")) {
hasLava = true;
} else {
super.isBlockGoodForInterior(world, x, y, z);
}
}
// /**
// * This is horrible code, don't look at this
// *
// * @param x
// * @param y
// * @param z
// * @return
// */
//
// public boolean checkIfStarShape(int x, int y, int z) {
// boolean isSolid = true;
//
// TileEntity te;
// {//corners
// te = this.worldObj.getTileEntity(x, y, z);
// isSolid = checkTeIsCorner(te);
// if (!isSolid) {
// return false;
// }
//
// te = this.worldObj.getTileEntity(x + 2, y, z);
// isSolid = checkTeIsCorner(te);
// if (!isSolid) {
// return false;
// }
//
// te = this.worldObj.getTileEntity(x, y, z + 2);
// isSolid = checkTeIsCorner(te);
// if (!isSolid) {
// return false;
// }
//
// te = this.worldObj.getTileEntity(x + 2, y, z + 2);
// isSolid = checkTeIsCorner(te);
// if (!isSolid) {
// return false;
// }
//
// te = this.worldObj.getTileEntity(x, y + 2, z);
// isSolid = checkTeIsCorner(te);
// if (!isSolid) {
// return false;
// }
//
// te = this.worldObj.getTileEntity(x + 2, y + 2, z);
// isSolid = checkTeIsCorner(te);
// if (!isSolid) {
// return false;
// }
//
// te = this.worldObj.getTileEntity(x, y + 2, z + 2);
// isSolid = checkTeIsCorner(te);
// if (!isSolid) {
// return false;
// }
//
// te = this.worldObj.getTileEntity(x + 2, y + 2, z + 2);
// isSolid = checkTeIsCorner(te);
// if (!isSolid) {
// return false;
// }
// }
// {//middle blocks
// for (int i = 0; i < 3; i++) {
// System.out.println(this.worldObj.getBlock(x, y - 1, z));
// te = this.worldObj.getTileEntity(x + 1, y + i, z);
// isSolid = checkTeIsCenter(te);
// if (!isSolid) {
// return false;
// }
// te = this.worldObj.getTileEntity(x, y + i, z + 1);
// isSolid = checkTeIsCenter(te);
// if (!isSolid) {
// return false;
// }
//
// te = this.worldObj.getTileEntity(x + 1, y + i, z + 1);
// isSolid = checkTeIsCenter(te);
// if (!isSolid) {
// return false;
// }
//
// te = this.worldObj.getTileEntity(x + 2, y + i, z + 1);
// isSolid = checkTeIsCenter(te);
// if (!isSolid) {
// return false;
// }
//
// te = this.worldObj.getTileEntity(x + 1, y + i, z + 2);
// isSolid = checkTeIsCenter(te);
// if (!isSolid) {
// return false;
// }
// }
// }
// return isSolid;
// }
//
// public boolean checkTeIsCorner(TileEntity te) {
// return (te.blockType instanceof BlockMachineCasing && te.blockMetadata == 0);
// }
//
// public boolean checkTeIsCenter(TileEntity te) {
// return (te.blockType instanceof BlockMachineCasing && te.blockMetadata == 1);
// }
}