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MQ.py
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MQ.py
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# mzxrules 2018
# In order to patch MQ to the existing data...
#
# Scenes:
#
# Ice Cavern (Scene 9) needs to have it's header altered to support MQ's path list. This
# expansion will delete the otherwise unused alternate headers command
#
# Transition actors will be patched over the old data, as the number of records is the same
# Path data will be appended to the end of the scene file.
#
# The size of a single path on file is NUM_POINTS * 6, rounded up to the nearest 4 byte boundary
# The total size consumed by the path data is NUM_PATHS * 8, plus the sum of all path file sizes
# padded to the nearest 0x10 bytes
#
# Collision:
# OoT's collision data consists of these elements: vertices, surface types, water boxes,
# camera behavior data, and polys. MQ's vertice and polygon geometry data is identical.
# However, the surface types and the collision exclusion flags bound to the polys have changed
# for some polygons, as well as the number of surface type records and camera type records.
#
# To patch collision, a flag denotes whether collision data cannot be written in place without
# expanding the size of the scene file. If true, the camera data is relocated to the end
# of the scene file, and the surface types are shifted down into where the camera types
# were situated. If false, the camera data isn't moved, but rather the surface type list
# will be shifted to the end of the camera data
#
# Rooms:
#
# Object file initialization data will be appended to the end of the room file.
# The total size consumed by the object file data is NUM_OBJECTS * 0x02, aligned to
# the nearest 0x04 bytes
#
# Actor spawn data will be appended to the end of the room file, after the objects.
# The total size consumed by the actor spawn data is NUM_ACTORS * 0x10
#
# Finally:
#
# Scene and room files will be padded to the nearest 0x10 bytes
#
# Maps:
# Jabu Jabu's B1 map contains no chests in the vanilla layout. Because of this,
# the floor map data is missing a vertex pointer that would point within kaleido_scope.
# As such, if the file moves, the patch will break.
from Utils import data_path
from Rom import Rom
import json
from struct import pack, unpack
SCENE_TABLE = 0xB71440
class File(object):
def __init__(self, file):
self.name = file['Name']
self.start = int(file['Start'], 16) if 'Start' in file else 0
self.end = int(file['End'], 16) if 'End' in file else self.start
self.remap = file['RemapStart'] if 'RemapStart' in file else None
self.from_file = self.start
# used to update the file's associated dmadata record
self.dma_key = self.start
if self.remap is not None:
self.remap = int(self.remap, 16)
def __repr__(self):
remap = "None"
if self.remap is not None:
remap = "{0:x}".format(self.remap)
return "{0}: {1:x} {2:x}, remap {3}".format(self.name, self.start, self.end, remap)
def relocate(self, rom:Rom):
if self.remap is None:
self.remap = rom.free_space()
new_start = self.remap
offset = new_start - self.start
new_end = self.end + offset
rom.buffer[new_start:new_end] = rom.buffer[self.start:self.end]
self.start = new_start
self.end = new_end
update_dmadata(rom, self)
# The file will now refer to the new copy of the file
def copy(self, rom:Rom):
self.dma_key = None
self.relocate(rom)
class CollisionMesh(object):
def __init__(self, rom:Rom, start, offset):
self.offset = offset
self.poly_addr = rom.read_int32(start + offset + 0x18)
self.polytypes_addr = rom.read_int32(start + offset + 0x1C)
self.camera_data_addr = rom.read_int32(start + offset + 0x20)
self.polytypes = (self.poly_addr - self.polytypes_addr) // 8
def write_to_scene(self, rom:Rom, start):
addr = start + self.offset + 0x18
rom.write_int32s(addr, [self.poly_addr, self.polytypes_addr, self.camera_data_addr])
class ColDelta(object):
def __init__(self, delta):
self.is_larger = delta['IsLarger']
self.polys = delta['Polys']
self.polytypes = delta['PolyTypes']
self.cams = delta['Cams']
class Icon(object):
def __init__(self, data):
self.icon = data["Icon"];
self.count = data["Count"];
self.points = [IconPoint(x) for x in data["IconPoints"]]
def write_to_minimap(self, rom:Rom, addr):
rom.write_sbyte(addr, self.icon)
rom.write_byte(addr + 1, self.count)
cur = 2
for p in self.points:
p.write_to_minimap(rom, addr + cur)
cur += 0x03
def write_to_floormap(self, rom:Rom, addr):
rom.write_int16(addr, self.icon)
rom.write_int32(addr + 0x10, self.count)
cur = 0x14
for p in self.points:
p.write_to_floormap(rom, addr + cur)
cur += 0x0C
class IconPoint(object):
def __init__(self, point):
self.flag = point["Flag"]
self.x = point["x"]
self.y = point["y"]
def write_to_minimap(self, rom:Rom, addr):
rom.write_sbyte(addr, self.flag)
rom.write_byte(addr+1, self.x)
rom.write_byte(addr+2, self.y)
def write_to_floormap(self, rom:Rom, addr):
rom.write_int16(addr, self.flag)
rom.write_f32(addr + 4, float(self.x))
rom.write_f32(addr + 8, float(self.y))
class Scene(object):
def __init__(self, scene):
self.file = File(scene['File'])
self.id = scene['Id']
self.transition_actors = [convert_actor_data(x) for x in scene['TActors']]
self.rooms = [Room(x) for x in scene['Rooms']]
self.paths = []
self.coldelta = ColDelta(scene["ColDelta"])
self.minimaps = [[Icon(icon) for icon in minimap['Icons']] for minimap in scene['Minimaps']]
self.floormaps = [[Icon(icon) for icon in floormap['Icons']] for floormap in scene['Floormaps']]
temp_paths = scene['Paths']
for item in temp_paths:
self.paths.append(item['Points'])
def write_data(self, rom:Rom):
# write floormap and minimap data
self.write_map_data(rom)
# move file to remap address
if self.file.remap is not None:
self.file.relocate(rom)
start = self.file.start
headcur = self.file.start
room_list_offset = 0
code = rom.read_byte(headcur)
loop = 0x20
while loop > 0 and code != 0x14: #terminator
loop -= 1
if code == 0x03: #collision
col_mesh_offset = rom.read_int24(headcur + 5)
col_mesh = CollisionMesh(rom, start, col_mesh_offset)
self.patch_mesh(rom, col_mesh);
elif code == 0x04: #rooms
room_list_offset = rom.read_int24(headcur + 5)
elif code == 0x0D: #paths
path_offset = self.append_path_data(rom)
rom.write_int32(headcur + 4, path_offset)
elif code == 0x0E: #transition actors
t_offset = rom.read_int24(headcur + 5)
addr = self.file.start + t_offset
write_actor_data(rom, addr, self.transition_actors)
headcur += 8
code = rom.read_byte(headcur)
# update file references
self.file.end = align16(self.file.end)
update_dmadata(rom, self.file)
update_scene_table(rom, self.id, self.file.start, self.file.end)
# write room file data
for room in self.rooms:
room.write_data(rom)
if self.id == 6 and room.id == 6:
patch_spirit_temple_mq_room_6(rom, room.file.start)
cur = self.file.start + room_list_offset
for room in self.rooms:
rom.write_int32s(cur, [room.file.start, room.file.end])
cur += 0x08
def write_map_data(self, rom:Rom):
if self.id >= 10:
return
# write floormap
floormap_indices = 0xB6C934
floormap_vrom = 0xBC7E00
floormap_index = rom.read_int16(floormap_indices + (self.id * 2))
floormap_index //= 2 # game uses texture index, where two textures are used per floor
cur = floormap_vrom + (floormap_index * 0x1EC)
for floormap in self.floormaps:
for icon in floormap:
Icon.write_to_floormap(icon, rom, cur)
cur += 0xA4
# fixes jabu jabu floor B1 having no chest data
if self.id == 2:
cur = floormap_vrom + (0x08 * 0x1EC + 4)
kaleido_scope_chest_verts = 0x803A3DA0 # hax, should be vram 0x8082EA00
rom.write_int32s(cur, [0x17, kaleido_scope_chest_verts, 0x04])
# write minimaps
map_mark_vrom = 0xBF40D0
map_mark_vram = 0x808567F0
map_mark_array_vram = 0x8085D2DC # ptr array in map_mark_data to minimap "marks"
array_vrom = map_mark_array_vram - map_mark_vram + map_mark_vrom
map_mark_scene_vram = rom.read_int32(self.id * 4 + array_vrom)
mark_vrom = map_mark_scene_vram - map_mark_vram + map_mark_vrom
cur = mark_vrom
for minimap in self.minimaps:
for icon in minimap:
Icon.write_to_minimap(icon, rom, cur)
cur += 0x26
def patch_mesh(self, rom:Rom, mesh:CollisionMesh):
start = self.file.start
final_cams = []
# build final camera data
for cam in self.coldelta.cams:
data = cam['Data']
pos = cam['PositionIndex']
if pos < 0:
final_cams.append((data, 0))
else:
addr = start + (mesh.camera_data_addr & 0xFFFFFF)
seg_off = rom.read_int32(addr + (pos * 8) + 4)
final_cams.append((data, seg_off))
types_move_addr = 0
# if data can't fit within the old mesh space, append camera data
if self.coldelta.is_larger:
types_move_addr = mesh.camera_data_addr
# append to end of file
self.write_cam_data(rom, self.file.end, final_cams)
mesh.camera_data_addr = get_segment_address(2, self.file.end - self.file.start)
self.file.end += len(final_cams) * 8
else:
types_move_addr = mesh.camera_data_addr + (len(final_cams) * 8)
# append in place
addr = self.file.start + (mesh.camera_data_addr & 0xFFFFFF)
self.write_cam_data(rom, addr, final_cams)
# if polytypes needs to be moved, do so
if (types_move_addr != mesh.polytypes_addr):
a_start = self.file.start + (mesh.polytypes_addr & 0xFFFFFF)
b_start = self.file.start + (types_move_addr & 0xFFFFFF)
size = mesh.polytypes * 8
rom.buffer[b_start:b_start + size] = rom.buffer[a_start:a_start + size]
mesh.polytypes_addr = types_move_addr
# patch polytypes
for item in self.coldelta.polytypes:
id = item['Id']
high = item['High']
low = item['Low']
addr = self.file.start + (mesh.polytypes_addr & 0xFFFFFF) + (id * 8)
rom.write_int32s(addr, [high, low])
# patch poly data
for item in self.coldelta.polys:
id = item['Id']
t = item['Type']
flags = item['Flags']
addr = self.file.start + (mesh.poly_addr & 0xFFFFFF) + (id * 0x10)
vert_bit = rom.read_byte(addr + 0x02) & 0x1F # VertexA id data
rom.write_int16(addr, t)
rom.write_byte(addr + 0x02, (flags << 5) + vert_bit)
# Write Mesh to Scene
mesh.write_to_scene(rom, self.file.start)
def write_cam_data(self, rom:Rom, addr, cam_data):
for item in cam_data:
data, pos = item
rom.write_int32s(addr, [data, pos])
addr += 8
# appends path data to the end of the rom
# returns segment address to path data
def append_path_data(self, rom:Rom):
start = self.file.start
cur = self.file.end
records = []
for path in self.paths:
nodes = len(path)
offset = get_segment_address(2, cur - start)
records.append((nodes, offset))
#flatten
points = [x for points in path for x in points]
rom.write_int16s(cur, points)
path_size = align4(len(path) * 6)
cur += path_size
records_offset = get_segment_address(2, cur - start)
for node, offset in records:
rom.write_byte(cur, node)
rom.write_int32(cur + 4, offset)
cur += 8
self.file.end = cur
return records_offset
class Room(object):
def __init__(self, room):
self.file = File(room['File'])
self.id = room['Id']
self.objects = [int(x, 16) for x in room['Objects']]
self.actors = [convert_actor_data(x) for x in room['Actors']]
def write_data(self, rom:Rom):
# move file to remap address
if self.file.remap is not None:
self.file.relocate(rom)
headcur = self.file.start
code = rom.read_byte(headcur)
loop = 0x20
while loop != 0 and code != 0x14: #terminator
loop -= 1
if code == 0x01: # actors
offset = self.file.end - self.file.start
write_actor_data(rom, self.file.end, self.actors)
self.file.end += len(self.actors) * 0x10
rom.write_byte(headcur + 1, len(self.actors))
rom.write_int32(headcur + 4, get_segment_address(3, offset))
elif code == 0x0B: # objects
offset = self.append_object_data(rom, self.objects)
rom.write_byte(headcur + 1, len(self.objects))
rom.write_int32(headcur + 4, get_segment_address(3, offset))
headcur += 8
code = rom.read_byte(headcur)
# update file reference
self.file.end = align16(self.file.end)
update_dmadata(rom, self.file)
def append_object_data(self, rom:Rom, objects):
offset = self.file.end - self.file.start
cur = self.file.end
rom.write_int16s(cur, objects)
objects_size = align4(len(objects) * 2)
self.file.end += objects_size
return offset
def patch_files(rom:Rom, mq_scenes:list):
data = get_json()
scenes = [Scene(x) for x in data]
for scene in scenes:
if scene.id in mq_scenes:
if scene.id == 9:
patch_ice_cavern_scene_header(rom)
scene.write_data(rom)
def get_json():
with open(data_path('mqu.json'), 'r') as stream:
data = json.load(stream)
return data
def convert_actor_data(str):
spawn_args = str.split(" ")
return [ int(x,16) for x in spawn_args ]
def get_segment_address(base, offset):
offset &= 0xFFFFFF
base *= 0x01000000
return base + offset
def patch_ice_cavern_scene_header(rom):
rom.buffer[0x2BEB000:0x2BEB038] = rom.buffer[0x2BEB008:0x2BEB040]
rom.write_int32s(0x2BEB038, [0x0D000000, 0x02000000])
def patch_spirit_temple_mq_room_6(rom:Rom, room_addr):
cur = room_addr
actor_list_addr = 0
cmd_actors_offset = 0
# scan for actor list and header end
code = rom.read_byte(cur)
while code != 0x14: #terminator
if code == 0x01: # actors
actor_list_addr = rom.read_int32(cur + 4)
cmd_actors_offset = cur - room_addr
cur += 8
code = rom.read_byte(cur)
cur += 8
# original header size
header_size = cur - room_addr
# set alternate header data location
alt_data_off = header_size + 8
# set new alternate header offset
alt_header_off = align16(alt_data_off + (4 * 3)) # alt header record size * num records
# write alternate header data
# the first 3 words are mandatory. the last 3 are just to make the binary
# cleaner to read
rom.write_int32s(room_addr + alt_data_off,
[0, get_segment_address(3, alt_header_off), 0, 0, 0, 0])
# clone header
a_start = room_addr
a_end = a_start + header_size
b_start = room_addr + alt_header_off
b_end = b_start + header_size
rom.buffer[b_start:b_end] = rom.buffer[a_start:a_end]
# make the child header skip the first actor,
# which avoids the spawning of the block while in the hole
cmd_addr = room_addr + cmd_actors_offset
actor_list_addr += 0x10
actors = rom.read_byte(cmd_addr + 1)
rom.write_byte(cmd_addr+1, actors - 1)
rom.write_int32(cmd_addr + 4, actor_list_addr)
# move header
rom.buffer[a_start + 8:a_end + 8] = rom.buffer[a_start:a_end]
# write alternate header command
seg = get_segment_address(3, alt_data_off)
rom.write_int32s(room_addr, [0x18000000, seg])
def verify_remap(scenes):
def test_remap(file:File):
if file.remap is not None:
if file.start < file.remap:
return False
return True
print("test code: verify remap won't corrupt data")
for scene in scenes:
file = scene.file
result = test_remap(file)
print("{0} - {1}".format(result, file))
for room in scene.rooms:
file = room.file
result = test_remap(file)
print("{0} - {1}".format(result, file))
def update_dmadata(rom:Rom, file:File):
key, start, end, from_file = file.dma_key, file.start, file.end, file.from_file
rom.update_dmadata_record(key, start, end, from_file)
file.dma_key = file.start
def update_scene_table(rom:Rom, sceneId, start, end):
cur = sceneId * 0x14 + SCENE_TABLE
rom.write_int32s(cur, [start, end])
def write_actor_data(rom:Rom, cur, actors):
for actor in actors:
rom.write_int16s(cur, actor)
cur += 0x10
def align4(value):
return ((value + 3) // 4) * 4
def align16(value):
return ((value + 0xF) // 0x10) * 0x10
# This function inserts space in a ovl section at the section's offset
# The section size is expanded
# Every relocation entry in the section after the offet is moved accordingly
# Every relocation value that is after the inserted space is increased accordingly
def insert_space(rom, file, vram_start, insert_section, insert_offset, insert_size):
sections = []
val_hi = {}
adr_hi = {}
# get the ovl header
cur = file.end - rom.read_int32(file.end - 4)
section_total = 0
for i in range(0, 4):
# build the section offsets
section_size = rom.read_int32(cur)
sections.append(section_total)
section_total += section_size
# increase the section to be expanded
if insert_section == i:
rom.write_int32(cur, section_size + insert_size)
cur += 4
# calculate the insert address in vram
insert_vram = sections[insert_section] + insert_offset + vram_start
insert_rom = sections[insert_section] + insert_offset + file.start
# iterate over the relocation table
relocate_count = rom.read_int32(cur)
cur += 4
for i in range(0, relocate_count):
entry = rom.read_int32(cur)
# parse relocation entry
section = ((entry & 0xC0000000) >> 30) - 1
type = (entry & 0x3F000000) >> 24
offset = entry & 0x00FFFFFF
# calculate relocation address in rom
address = file.start + sections[section] + offset
# move relocation if section is increased and it's after the insert
if insert_section == section and offset >= insert_offset:
# rebuild new relocation entry
rom.write_int32(cur,
((section + 1) << 30) |
(type << 24) |
(offset + insert_size))
# value contains the vram address
value = rom.read_int32(address)
raw_value = value
if type == 2:
# Data entry: value is the raw vram address
pass
elif type == 4:
# Jump OP: Get the address from a Jump instruction
value = 0x80000000 | (value & 0x03FFFFFF) << 2
elif type == 5:
# Load High: Upper half of an address load
reg = (value >> 16) & 0x1F
val_hi[reg] = (value & 0x0000FFFF) << 16
adr_hi[reg] = address
# Do not process, wait until the lower half is read
value = None
elif type == 6:
# Load Low: Lower half of the address load
reg = (value >> 21) & 0x1F
val_low = value & 0x0000FFFF
val_low = unpack('h', pack('H', val_low))[0]
# combine with previous load high
value = val_hi[reg] + val_low
else:
# unknown. OoT does not use any other types
value = None
# update the vram values if it's been moved
if value != None and value >= insert_vram:
# value = new vram address
new_value = value + insert_size
if type == 2:
# Data entry: value is the raw vram address
rom.write_int32(address, new_value)
elif type == 4:
# Jump OP: Set the address in the Jump instruction
op = rom.read_int32(address) & 0xFC000000
new_value = (new_value & 0x0FFFFFFC) >> 2
new_value = op | new_value
rom.write_int32(address, new_value)
elif type == 6:
# Load Low: Lower half of the address load
op = rom.read_int32(address) & 0xFFFF0000
new_val_low = new_value & 0x0000FFFF
rom.write_int32(address, op | new_val_low)
# Load High: Upper half of an address load
op = rom.read_int32(adr_hi[reg]) & 0xFFFF0000
new_val_hi = (new_value & 0xFFFF0000) >> 16
if new_val_low >= 0x8000:
# add 1 if the lower part is negative for borrow
new_val_hi += 1
rom.write_int32(adr_hi[reg], op | new_val_hi)
cur += 4
# Move rom bytes
rom.buffer[(insert_rom + insert_size):(file.end + insert_size)] = rom.buffer[insert_rom:file.end]
rom.buffer[insert_rom:(insert_rom + insert_size)] = [0] * insert_size
file.end += insert_size
def add_relocations(rom, file, addresses):
relocations = []
sections = []
header_size = rom.read_int32(file.end - 4)
header = file.end - header_size
cur = header
# read section sizes and build offsets
section_total = 0
for i in range(0, 4):
section_size = rom.read_int32(cur)
sections.append(section_total)
section_total += section_size
cur += 4
# get all entries in relocation table
relocate_count = rom.read_int32(cur)
cur += 4
for i in range(0, relocate_count):
relocations.append(rom.read_int32(cur))
cur += 4
# create new enties
for address in addresses:
if isinstance(address, tuple):
# if type provided use it
type, address = address
else:
# Otherwise, try to infer type from value
value = rom.read_int32(address)
op = value >> 26
type = 2 # default: data
if op == 0x02 or op == 0x03: # j or jal
type = 4
elif op == 0x0F: # lui
type = 5
elif op == 0x08: # addi
type = 6
# Calculate section and offset
address = address - file.start
section = 0
for section_start in sections:
if address >= section_start:
section += 1
else:
break
offset = address - sections[section - 1]
# generate relocation entry
relocations.append((section << 30)
| (type << 24)
| (offset & 0x00FFFFFF))
# Rebuild Relocation Table
cur = header + 0x10
relocations.sort(key = lambda val: val & 0xC0FFFFFF)
rom.write_int32(cur, len(relocations))
cur += 4
for relocation in relocations:
rom.write_int32(cur, relocation)
cur += 4
# Add padded 0?
rom.write_int32(cur, 0)
cur += 4
# Update Header and File size
new_header_size = (cur + 4) - header
rom.write_int32(cur, new_header_size)
file.end += (new_header_size - header_size)