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mce.py
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mce.py
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# !/usr/bin/env python
import pymclevel.mclevelbase
import pymclevel.mclevel
import pymclevel.materials
import pymclevel.infiniteworld
import sys
import os
from pymclevel.box import BoundingBox, Vector
import numpy
from numpy import zeros, bincount
import logging
import itertools
import traceback
import shlex
import operator
import codecs
from math import floor
mclevelbase = pymclevel.mclevelbase
mclevel = pymclevel.mclevel
materials = pymclevel.materials
infiniteworld = pymclevel.infiniteworld
try:
import readline # if available, used by raw_input()
except:
pass
class UsageError(RuntimeError):
pass
class BlockMatchError(RuntimeError):
pass
class PlayerNotFound(RuntimeError):
pass
class mce(object):
"""
Block commands:
{commandPrefix}clone <sourceBox> <destPoint> [noair] [nowater]
{commandPrefix}fill <blockType> [ <box> ]
{commandPrefix}replace <blockType> [with] <newBlockType> [ <box> ]
{commandPrefix}export <filename> <sourceBox>
{commandPrefix}import <filename> <destPoint> [noair] [nowater]
{commandPrefix}createChest <point> <item> [ <count> ]
{commandPrefix}analyze
Player commands:
{commandPrefix}player [ <player> [ <point> ] ]
{commandPrefix}spawn [ <point> ]
Entity commands:
{commandPrefix}removeEntities [ <EntityID> ]
{commandPrefix}dumpSigns [ <filename> ]
{commandPrefix}dumpChests [ <filename> ]
Chunk commands:
{commandPrefix}createChunks <box>
{commandPrefix}deleteChunks <box>
{commandPrefix}prune <box>
{commandPrefix}relight [ <box> ]
World commands:
{commandPrefix}create <filename>
{commandPrefix}dimension [ <dim> ]
{commandPrefix}degrief
{commandPrefix}time [ <time> ]
{commandPrefix}worldsize
{commandPrefix}heightmap <filename>
{commandPrefix}randomseed [ <seed> ]
{commandPrefix}gametype [ <player> [ <gametype> ] ]
Editor commands:
{commandPrefix}save
{commandPrefix}reload
{commandPrefix}load <filename> | <world number>
{commandPrefix}execute <filename>
{commandPrefix}quit
Informational:
{commandPrefix}blocks [ <block name> | <block ID> ]
{commandPrefix}help [ <command> ]
**IMPORTANT**
{commandPrefix}box
Type 'box' to learn how to specify points and areas.
"""
random_seed = os.getenv('MCE_RANDOM_SEED', None)
last_played = os.getenv("MCE_LAST_PLAYED", None)
def commandUsage(self, command):
" returns usage info for the named command - just give the docstring for the handler func "
func = getattr(self, "_" + command)
return func.__doc__
commands = [
"clone",
"fill",
"replace",
"export",
"execute",
"import",
"createchest",
"player",
"spawn",
"removeentities",
"dumpsigns",
"dumpchests",
"createchunks",
"deletechunks",
"prune",
"relight",
"create",
"degrief",
"time",
"worldsize",
"heightmap",
"randomseed",
"gametype",
"save",
"load",
"reload",
"dimension",
"repair",
"quit",
"exit",
"help",
"blocks",
"analyze",
"region",
"debug",
"log",
"box",
]
debug = False
needsSave = False
@staticmethod
def readInt(command):
try:
val = int(command.pop(0))
except ValueError:
raise UsageError("Cannot understand numeric input")
return val
@staticmethod
def prettySplit(command):
cmdstring = " ".join(command)
lex = shlex.shlex(cmdstring)
lex.whitespace_split = True
lex.whitespace += "(),"
command[:] = list(lex)
def readBox(self, command):
self.prettySplit(command)
sourcePoint = self.readIntPoint(command)
if command[0].lower() == "to":
command.pop(0)
sourcePoint2 = self.readIntPoint(command)
sourceSize = sourcePoint2 - sourcePoint
else:
sourceSize = self.readIntPoint(command, isPoint=False)
if len([p for p in sourceSize if p <= 0]):
raise UsageError("Box size cannot be zero or negative")
box = BoundingBox(sourcePoint, sourceSize)
return box
def readIntPoint(self, command, isPoint=True):
point = self.readPoint(command, isPoint)
point = map(int, map(floor, point))
return Vector(*point)
def readPoint(self, command, isPoint=True):
self.prettySplit(command)
try:
word = command.pop(0)
if isPoint and (word in self.level.players):
x, y, z = self.level.getPlayerPosition(word)
if len(command) and command[0].lower() == "delta":
command.pop(0)
try:
x += int(command.pop(0))
y += int(command.pop(0))
z += int(command.pop(0))
except ValueError:
raise UsageError("Error decoding point input (expected a number).")
return x, y, z
except IndexError:
raise UsageError("Error decoding point input (expected more values).")
try:
try:
x = float(word)
except ValueError:
if isPoint:
raise PlayerNotFound(word)
raise
y = float(command.pop(0))
z = float(command.pop(0))
except ValueError:
raise UsageError("Error decoding point input (expected a number).")
except IndexError:
raise UsageError("Error decoding point input (expected more values).")
return x, y, z
def readBlockInfo(self, command):
keyword = command.pop(0)
matches = self.level.materials.blocksMatching(keyword)
blockInfo = None
if len(matches):
if len(matches) == 1:
blockInfo = matches[0]
# eat up more words that possibly specify a block. stop eating when 0 matching blocks.
while len(command):
newMatches = self.level.materials.blocksMatching(keyword + " " + command[0])
if len(newMatches) == 1:
blockInfo = newMatches[0]
if len(newMatches) > 0:
matches = newMatches
keyword = keyword + " " + command.pop(0)
else:
break
else:
try:
data = 0
if ":" in keyword:
blockID, data = map(int, keyword.split(":"))
else:
blockID = int(keyword)
blockInfo = self.level.materials.blockWithID(blockID, data)
except ValueError:
blockInfo = None
if blockInfo is None:
print "Ambiguous block specifier: ", keyword
if len(matches):
print "Matches: "
for m in matches:
if m == self.level.materials.defaultName:
continue
print "{0:3}:{1:<2} : {2}".format(m.ID, m.blockData, m.name)
else:
print "No blocks matched."
raise BlockMatchError
return blockInfo
@staticmethod
def readBlocksToCopy(command):
blocksToCopy = range(materials.id_limit)
while len(command):
word = command.pop()
if word == "noair":
blocksToCopy.remove(0)
if word == "nowater":
blocksToCopy.remove(8)
blocksToCopy.remove(9)
return blocksToCopy
@staticmethod
def _box(command):
"""
Boxes:
Many commands require a <box> as arguments. A box can be specified with
a point and a size:
(12, 5, 15), (5, 5, 5)
or with two points, making sure to put the keyword "to" between them:
(12, 5, 15) to (17, 10, 20)
The commas and parentheses are not important.
You may add them for improved readability.
Points:
Points and sizes are triplets of numbers ordered X Y Z.
X is position north-south, increasing southward.
Y is position up-down, increasing upward.
Z is position east-west, increasing westward.
Players:
A player's name can be used as a point - it will use the
position of the player's head. Use the keyword 'delta' after
the name to specify a point near the player.
Example:
codewarrior delta 0 5 0
This refers to a point 5 blocks above codewarrior's head.
"""
raise UsageError
def _debug(self, command):
self.debug = not self.debug
print "Debug", ("disabled", "enabled")[self.debug]
@staticmethod
def _log(command):
"""
log [ <number> ]
Get or set the log threshold. 0 logs everything; 50 only logs major errors.
"""
if len(command):
try:
logging.getLogger().level = int(command[0])
except ValueError:
raise UsageError("Cannot understand numeric input.")
else:
print "Log level: {0}".format(logging.getLogger().level)
def _clone(self, command):
"""
clone <sourceBox> <destPoint> [noair] [nowater]
Clone blocks in a cuboid starting at sourcePoint and extending for
sourceSize blocks in each direction. Blocks and entities in the area
are cloned at destPoint.
"""
if len(command) == 0:
self.printUsage("clone")
return
box = self.readBox(command)
destPoint = self.readPoint(command)
destPoint = map(int, map(floor, destPoint))
blocksToCopy = self.readBlocksToCopy(command)
tempSchematic = self.level.extractSchematic(box)
self.level.copyBlocksFrom(tempSchematic, BoundingBox((0, 0, 0), box.origin), destPoint, blocksToCopy)
self.needsSave = True
print "Cloned 0 blocks."
def _fill(self, command):
"""
fill <blockType> [ <box> ]
Fill blocks with blockType in a cuboid starting at point and
extending for size blocks in each direction. Without a
destination, fills the whole world. blockType and may be a
number from 0-255 or a name listed by the 'blocks' command.
"""
if len(command) == 0:
self.printUsage("fill")
return
blockInfo = self.readBlockInfo(command)
if len(command):
box = self.readBox(command)
else:
box = None
print "Filling with {0}".format(blockInfo.name)
self.level.fillBlocks(box, blockInfo)
self.needsSave = True
print "Filled {0} blocks.".format("all" if box is None else box.volume)
def _replace(self, command):
"""
replace <blockType> [with] <newBlockType> [ <box> ]
Replace all blockType blocks with newBlockType in a cuboid
starting at point and extending for size blocks in
each direction. Without a destination, replaces blocks over
the whole world. blockType and newBlockType may be numbers
from 0-255 or names listed by the 'blocks' command.
"""
if len(command) == 0:
self.printUsage("replace")
return
blockInfo = self.readBlockInfo(command)
if command[0].lower() == "with":
command.pop(0)
newBlockInfo = self.readBlockInfo(command)
if len(command):
box = self.readBox(command)
else:
box = None
print "Replacing {0} with {1}".format(blockInfo.name, newBlockInfo.name)
self.level.fillBlocks(box, newBlockInfo, blocksToReplace=[blockInfo])
self.needsSave = True
print "Done."
def _createchest(self, command):
"""
createChest <point> <item> [ <count> ]
Create a chest filled with the specified item.
Stacks are 64 if count is not given.
"""
point = map(lambda x: int(floor(float(x))), self.readPoint(command))
itemID = self.readInt(command)
count = 64
if len(command):
count = self.readInt(command)
chest = mclevel.MCSchematic.chestWithItemID(itemID, count)
self.level.copyBlocksFrom(chest, chest.bounds, point)
self.needsSave = True
def _analyze(self, command):
"""
analyze
Counts all of the block types in every chunk of the world.
"""
blockCounts = zeros((65536,), 'uint64')
print "Analyzing {0} chunks...".format(self.level.chunkCount)
# for input to bincount, create an array of uint16s by
# shifting the data left and adding the blocks
for i, cPos in enumerate(self.level.allChunks, 1):
ch = self.level.getChunk(*cPos)
btypes = numpy.array(ch.Data.ravel(), dtype='uint16')
btypes <<= 12
btypes += ch.Blocks.ravel()
counts = bincount(btypes)
blockCounts[:counts.shape[0]] += counts
if i % 100 == 0:
logging.info("Chunk {0}...".format(i))
for blockID in range(materials.id_limit):
for data in range(16):
i = (data << 12) + blockID
if blockCounts[i]:
idstring = "({id}:{data})".format(id=blockID, data=data)
print "{idstring:9} {name:30}: {count:<10}".format(
idstring=idstring, name=self.level.materials.blockWithID(blockID, data).name,
count=blockCounts[i])
self.needsSave = True
def _export(self, command):
"""
export <filename> <sourceBox>
Exports blocks in the specified region to a file in schematic format.
This file can be imported with mce or MCEdit.
"""
if len(command) == 0:
self.printUsage("export")
return
filename = command.pop(0)
box = self.readBox(command)
tempSchematic = self.level.extractSchematic(box)
tempSchematic.saveToFile(filename)
print "Exported {0} blocks.".format(tempSchematic.bounds.volume)
def _import(self, command):
"""
import <filename> <destPoint> [noair] [nowater]
Imports a level or schematic into this world, beginning at destPoint.
Supported formats include
- Alpha single or multiplayer world folder containing level.dat,
- Zipfile containing Alpha world folder,
- Classic single-player .mine,
- Classic multiplayer server_level.dat,
- Indev .mclevel
- Schematic from RedstoneSim, MCEdit, mce
- .inv from INVEdit (appears as a chest)
"""
if len(command) == 0:
self.printUsage("import")
return
filename = command.pop(0)
destPoint = self.readPoint(command)
blocksToCopy = self.readBlocksToCopy(command)
importLevel = mclevel.fromFile(filename)
self.level.copyBlocksFrom(importLevel, importLevel.bounds, destPoint, blocksToCopy, create=True)
self.needsSave = True
print "Imported {0} blocks.".format(importLevel.bounds.volume)
def _player(self, command):
"""
player [ <player> [ <point> ] ]
Move the named player to the specified point.
Without a point, prints the named player's position.
Without a player, prints all players and positions.
In a single-player world, the player is named Player.
"""
if len(command) == 0:
print "Players: "
for player in self.level.players:
print " {0}: {1}".format(player, self.level.getPlayerPosition(player))
return
player = command.pop(0)
if len(command) == 0:
print "Player {0}: {1}".format(player, self.level.getPlayerPosition(player))
return
point = self.readPoint(command)
self.level.setPlayerPosition(point, player)
self.needsSave = True
print "Moved player {0} to {1}".format(player, point)
def _spawn(self, command):
"""
spawn [ <point> ]
Move the world's spawn point.
Without a point, prints the world's spawn point.
"""
if len(command):
point = self.readPoint(command)
point = map(int, map(floor, point))
self.level.setPlayerSpawnPosition(point)
self.needsSave = True
print "Moved spawn point to ", point
else:
print "Spawn point: ", self.level.playerSpawnPosition()
def _dumpsigns(self, command):
"""
dumpSigns [ <filename> ]
Saves the text and location of every sign in the world to a text file.
With no filename, saves signs to <worldname>.signs
Output is newline-delimited. 5 lines per sign. Coordinates are
on the first line, followed by four lines of sign text. For example:
[229, 118, -15]
"To boldly go
where no man
has gone
before."
Coordinates are ordered the same as point inputs:
[North/South, Down/Up, East/West]
"""
if len(command):
filename = command[0]
else:
filename = self.level.displayName + ".signs"
# We happen to encode the output file in UTF-8 too, although
# we could use another UTF encoding. The '-sig' encoding puts
# a signature at the start of the output file that tools such
# as Microsoft Windows Notepad and Emacs understand to mean
# the file has UTF-8 encoding.
outFile = codecs.open(filename, "w", encoding='utf-8-sig')
print "Dumping signs..."
signCount = 0
for i, cPos in enumerate(self.level.allChunks):
try:
chunk = self.level.getChunk(*cPos)
except mclevelbase.ChunkMalformed:
continue
for tileEntity in chunk.TileEntities:
if tileEntity["id"].value == "Sign":
signCount += 1
outFile.write(str(map(lambda x: tileEntity[x].value, "xyz")) + "\n")
for i in range(4):
signText = tileEntity["Text{0}".format(i + 1)].value
outFile.write(signText + u"\n")
if i % 100 == 0:
print "Chunk {0}...".format(i)
print "Dumped {0} signs to {1}".format(signCount, filename)
outFile.close()
def _region(self, command):
"""
region [rx rz]
List region files in this world.
"""
level = self.level
assert (isinstance(level, mclevel.MCInfdevOldLevel))
assert level.version
def getFreeSectors(rf):
runs = []
start = None
count = 0
for i, free in enumerate(rf.freeSectors):
if free:
if start is None:
start = i
count = 1
else:
count += 1
else:
if start is None:
pass
else:
runs.append((start, count))
start = None
count = 0
return runs
def printFreeSectors(runs):
for i, (start, count) in enumerate(runs):
if i % 4 == 3:
print ""
print "{start:>6}+{count:<4}".format(**locals()),
print ""
if len(command):
if len(command) > 1:
rx, rz = map(int, command[:2])
print "Calling allChunks to preload region files: %d chunks" % len(level.allChunks)
rf = level.regionFiles.get((rx, rz))
if rf is None:
print "Region {rx},{rz} not found.".format(**locals())
return
print "Region {rx:6}, {rz:6}: {used}/{sectors} sectors".format(used=rf.usedSectors,
sectors=rf.sectorCount)
print "Offset Table:"
for cx in range(32):
for cz in range(32):
if cz % 4 == 0:
print ""
print "{0:3}, {1:3}: ".format(cx, cz),
off = rf.getOffset(cx, cz)
sector, length = off >> 8, off & 0xff
print "{sector:>6}+{length:<2} ".format(**locals()),
print ""
runs = getFreeSectors(rf)
if len(runs):
print "Free sectors:",
printFreeSectors(runs)
else:
if command[0] == "free":
print "Calling allChunks to preload region files: %d chunks" % len(level.allChunks)
for (rx, rz), rf in level.regionFiles.iteritems():
runs = getFreeSectors(rf)
if len(runs):
print "R {0:3}, {1:3}:".format(rx, rz),
printFreeSectors(runs)
else:
print "Calling allChunks to preload region files: %d chunks" % len(level.allChunks)
coords = (r for r in level.regionFiles)
for i, (rx, rz) in enumerate(coords):
print "({rx:6}, {rz:6}): {count}, ".format(count=level.regionFiles[rx, rz].chunkCount),
if i % 5 == 4:
print ""
def _repair(self, command):
"""
repair
Attempt to repair inconsistent region files.
MAKE A BACKUP. WILL DELETE YOUR DATA.
Scans for and repairs errors in region files:
Deletes chunks whose sectors overlap with another chunk
Rearranges chunks that are in the wrong slot in the offset table
Deletes completely unreadable chunks
Only usable with region-format saves.
"""
if self.level.version:
self.level.preloadRegions()
for rf in self.level.regionFiles.itervalues():
rf.repair()
def _dumpchests(self, command):
"""
dumpChests [ <filename> ]
Saves the content and location of every chest in the world to a text file.
With no filename, saves signs to <worldname>.chests
Output is delimited by brackets and newlines. A set of coordinates in
brackets begins a chest, followed by a line for each inventory slot.
For example:
[222, 51, 22]
2 String
3 String
3 Iron bar
Coordinates are ordered the same as point inputs:
[North/South, Down/Up, East/West]
"""
from pymclevel.items import items
if len(command):
filename = command[0]
else:
filename = self.level.displayName + ".chests"
outFile = file(filename, "w")
print "Dumping chests..."
chestCount = 0
for i, cPos in enumerate(self.level.allChunks):
try:
chunk = self.level.getChunk(*cPos)
except mclevelbase.ChunkMalformed:
continue
for tileEntity in chunk.TileEntities:
if tileEntity["id"].value == "Chest":
chestCount += 1
outFile.write(str(map(lambda x: tileEntity[x].value, "xyz")) + "\n")
itemsTag = tileEntity["Items"]
if len(itemsTag):
for itemTag in itemsTag:
try:
id = itemTag["id"].value
damage = itemTag["Damage"].value
item = items.findItem(id, damage)
itemname = item.name
except KeyError:
itemname = "Unknown Item {0}".format(itemTag)
except Exception, e:
itemname = repr(e)
outFile.write("{0} {1}:{2}\n".format(itemTag["Count"].value, itemname, itemTag["Damage"].value))
else:
outFile.write("Empty Chest\n")
if i % 100 == 0:
print "Chunk {0}...".format(i)
print "Dumped {0} chests to {1}".format(chestCount, filename)
outFile.close()
def _removeentities(self, command):
"""
removeEntities [ [except] [ <EntityID> [ <EntityID> ... ] ] ]
Remove all entities matching one or more entity IDs.
With the except keyword, removes all entities not
matching one or more entity IDs.
Without any IDs, removes all entities in the world,
except for Paintings.
Known Mob Entity IDs:
Mob Monster Creeper Skeleton Spider Giant
Zombie Slime Pig Sheep Cow Chicken
Known Item Entity IDs: Item Arrow Snowball Painting
Known Vehicle Entity IDs: Minecart Boat
Known Dynamic Tile Entity IDs: PrimedTnt FallingSand
"""
ENT_MATCHTYPE_ANY = 0
ENT_MATCHTYPE_EXCEPT = 1
ENT_MATCHTYPE_NONPAINTING = 2
def match(entityID, matchType, matchWords):
if ENT_MATCHTYPE_ANY == matchType:
return entityID.lower() in matchWords
elif ENT_MATCHTYPE_EXCEPT == matchType:
return not (entityID.lower() in matchWords)
else:
# ENT_MATCHTYPE_EXCEPT == matchType
return entityID != "Painting"
removedEntities = {}
match_words = []
if len(command):
if command[0].lower() == "except":
command.pop(0)
print "Removing all entities except ", command
match_type = ENT_MATCHTYPE_EXCEPT
else:
print "Removing {0}...".format(", ".join(command))
match_type = ENT_MATCHTYPE_ANY
match_words = map(lambda x: x.lower(), command)
else:
print "Removing all entities except Painting..."
match_type = ENT_MATCHTYPE_NONPAINTING
for cx, cz in self.level.allChunks:
chunk = self.level.getChunk(cx, cz)
entitiesRemoved = 0
for entity in list(chunk.Entities):
entityID = entity["id"].value
if match(entityID, match_type, match_words):
removedEntities[entityID] = removedEntities.get(entityID, 0) + 1
chunk.Entities.remove(entity)
entitiesRemoved += 1
if entitiesRemoved:
chunk.chunkChanged(False)
if len(removedEntities) == 0:
print "No entities to remove."
else:
print "Removed entities:"
for entityID in sorted(removedEntities.keys()):
print " {0}: {1:6}".format(entityID, removedEntities[entityID])
self.needsSave = True
def _createchunks(self, command):
"""
createChunks <box>
Creates any chunks not present in the specified region.
New chunks are filled with only air. New chunks are written
to disk immediately.
"""
if len(command) == 0:
self.printUsage("createchunks")
return
box = self.readBox(command)
chunksCreated = self.level.createChunksInBox(box)
print "Created {0} chunks.".format(len(chunksCreated))
self.needsSave = True
def _deletechunks(self, command):
"""
deleteChunks <box>
Removes all chunks contained in the specified region.
Chunks are deleted from disk immediately.
"""
if len(command) == 0:
self.printUsage("deletechunks")
return
box = self.readBox(command)
deletedChunks = self.level.deleteChunksInBox(box)
print "Deleted {0} chunks.".format(len(deletedChunks))
def _prune(self, command):
"""
prune <box>
Removes all chunks not contained in the specified region. Useful for enforcing a finite map size.
Chunks are deleted from disk immediately.
"""
if len(command) == 0:
self.printUsage("prune")
return
box = self.readBox(command)
i = 0
for cx, cz in list(self.level.allChunks):
if cx < box.mincx or cx >= box.maxcx or cz < box.mincz or cz >= box.maxcz:
self.level.deleteChunk(cx, cz)
i += 1
print "Pruned {0} chunks.".format(i)
def _relight(self, command):
"""
relight [ <box> ]
Recalculates lights in the region specified. If omitted,
recalculates the entire world.
"""
if len(command):
box = self.readBox(command)
chunks = itertools.product(range(box.mincx, box.maxcx), range(box.mincz, box.maxcz))
else:
chunks = self.level.allChunks
self.level.generateLights(chunks)
print "Relit 0 chunks."
self.needsSave = True
def _create(self, command):
"""
create [ <filename> ]
Create and load a new Minecraft Alpha world. This world will have no
chunks and a random terrain seed. If run from the shell, filename is not
needed because you already specified a filename earlier in the command.
For example:
mce.py MyWorld create
"""
if len(command) < 1:
raise UsageError("Expected a filename")
filename = command[0]
if not os.path.exists(filename):
os.mkdir(filename)
if not os.path.isdir(filename):
raise IOError("{0} already exists".format(filename))
if mclevel.MCInfdevOldLevel.isLevel(filename):
raise IOError("{0} is already a Minecraft Alpha world".format(filename))
level = mclevel.MCInfdevOldLevel(filename, create=True)
self.level = level
def _degrief(self, command):
"""
degrief [ <height> ]
Reverse a few forms of griefing by removing
Adminium, Obsidian, Fire, and Lava wherever
they occur above the specified height.
Without a height, uses height level 32.
Removes natural surface lava.