def rip_colordata(rom, offset=None, count=1):
"""Rip color data from ROM. Returns list of palettes, which are four RGB hexcodes."""
cloc = rom.tell()
if offset is not None:
rom.seek(offset)
output = []
for i in range(0, count):
out_col = []
for j in range(0, 4):
color_bin = PTR.unpack(rom.read(2))[0]
red = color_bin & 0x001F
green = (color_bin & 0x03E0) >> 5
blue = (color_bin & 0x7C00) >> 10
colorcode = "dcolor {0}, {1}, {2}".format(red, green, blue)
out_col.append(colorcode)
output.append(out_col)
rom.seek(cloc)
return output
def rip_msprite_mtable(rom, offset=0x094D, count=9):
"""Rip an entire ROM's metasprite data."""
cloc = rom.tell()
rom.seek(offset)
#The metasprite metatable is oddly organized here.
#Banks in one place, pointers in the other.
banks = []
ptrs = []
for i in range(0, count):
banks.append(CHARA.unpack(rom.read(1))[0])
for i in range(0, count):
ptrs.append(PTR.unpack(rom.read(2))[0])
asmsrc = "SECTION \"MetaSprite metatable\", " + format_sectionaddr_rom(
offset) + "\n"
asmsrc += "MetaspriteBankMetatable::\n"
for bank in banks:
asmsrc += " db BANK(MetaSprite_" + "{0:x}".format(bank) + ")\n"
asmsrc += "MetaspriteAddressMetatable::\n"
for bank, ptr in zip(banks, ptrs):
asmsrc += " dw MetaSprite_" + "{0:x}".format(bank) + "\n"
asmsrc += "\n"
files = {}
for bank, ptr in zip(banks, ptrs):
table_asmsrc, table_files = rip_msprite_table(rom, flat(bank, ptr))
asmsrc += table_asmsrc + "\n"
files.update(table_files)
return (asmsrc, files)
def make_tbl(args):
charmap = parse_charmap(args.charmap)
tablenames = parse_tablenames(args.tablenames)
for table in tablenames:
#Indexes are compiled in a second pass
if table["format"] == "index":
continue
#If filenames are specified, only export banks that are mentioned there
if len(args.filenames) > 0 and table["objname"] not in args.filenames:
continue
print("Compiling " + table["filename"])
#Open and parse the data
with open(os.path.join(args.input, table["filename"]),
"r",
encoding="utf-8") as csvfile:
csvreader = csv.reader(csvfile)
headers = None
rows = []
for row in csvreader:
if headers is None:
headers = row
else:
rows.append(row)
#Determine what column we want
index_col = headers.index("#")
try:
str_col = headers.index(args.language)
except ValueError:
str_col = index_col
#Pack our strings
packed_strings = []
baseaddr = table["baseaddr"]
entries = []
reverse_entries = {}
for i, row in enumerate(rows):
if str_col >= len(row):
print("WARNING: ROW {} IS MISSING IT'S TEXT!!!".format(i))
packed_strings.append(b"")
continue
packed = pack_text(row[str_col],
specials,
charmap[0],
None,
args.window_width,
1,
memory_widths,
wrap=False,
do_not_terminate=True)
if "stride" in table:
if len(packed) > table["stride"]:
print(
"WARNING: Row {} is too long for the current string table stride of {} in table {}."
.format(i, table["stride"], table["filename"]))
packed = packed[0:table["stride"]]
else:
#Pad the string out with E0s.
packed = packed + bytes([0xE0] *
(table["stride"] - len(packed)))
elif b"\xe0" not in packed:
#Any data beyond an E0 is understood to be trash bytes; thus,
#it does not recieve the implicit terminator.
packed = packed + b"\xe0"
packed_strings.append(packed)
reverse_entries[flat(table["basebank"], baseaddr)] = len(entries)
entries.append(flat(table["basebank"], baseaddr))
baseaddr += len(packed)
#Save these for later
table["entries"] = entries
table["reverse_entries"] = reverse_entries
#Write the data out to the object files. We're done here!
if not os.path.exists(
os.path.dirname(os.path.join(args.output, table["objname"]))):
try:
os.makedirs(
os.path.dirname(os.path.join(args.output,
table["objname"])))
except FileExistsError:
pass
with open(os.path.join(args.output, table["objname"]),
"wb") as objfile:
for line in packed_strings:
objfile.write(line)
for table in tablenames:
#Now's the time to compile indexes
if table["format"] != "index":
continue
#If filenames are specified, only export banks that are mentioned there
if len(args.filenames) > 0 and table["objname"] not in args.filenames:
continue
print("Compiling " + table["filename"])
foreign_ptrs = tablenames[table["foreign_id"]]["entries"]
packed_strings = []
entries = []
reverse_entries = {}
#Open and parse the data
with open(os.path.join(args.input, table["filename"]),
"r",
encoding="utf-8") as csvfile:
csvreader = csv.reader(csvfile)
for row in csvreader:
for cell in row:
packed_strings.append(
PTR.pack(foreign_ptrs[int(cell, 10) - 1] % 0x4000 +
0x4000))
#Write the data out to the object files. We're done here!
with open(os.path.join(args.output, table["objname"]),
"wb") as objfile:
for line in packed_strings:
objfile.write(line)
def extract(args):
charmap = parse_charmap(args.charmap)
tablenames = parse_tablenames(args.tablenames)
with open(args.rom, 'rb') as rom:
#Extract a list of pointers each index is expecting
#This is used for trash byte detection later
for table in tablenames:
if table["format"] != "index":
continue
try:
all_ptrs = tablenames[table["foreign_id"]]["expected_ptrs"]
except KeyError:
all_ptrs = []
rom.seek(flat(table["basebank"], table["baseaddr"]))
for i in range(table["count"]):
ptr = PTR.unpack(rom.read(2))[0]
addr = flat(table["basebank"], ptr)
if addr not in all_ptrs:
all_ptrs.append(addr)
all_ptrs.sort()
tablenames[table["foreign_id"]]["expected_ptrs"] = all_ptrs
for table in tablenames:
#Indexes are extracted in a second pass
if table["format"] == "index":
continue
entries = []
reverse_entries = {}
try:
expected_ptrs = table["expected_ptrs"]
except KeyError:
expected_ptrs = None
csvdir = os.path.join(args.input, table["basedir"])
csvpath = os.path.join(args.input, table["filename"])
install_path(csvdir)
with open(csvpath, "w+", encoding="utf-8") as table_csvfile:
csvwriter = csv.writer(table_csvfile)
csvwriter.writerow(["#", args.language])
if table["format"] == "table":
for i in range(table["count"]):
rom.seek(
flat(table["basebank"],
table["baseaddr"] + i * table["stride"]))
reverse_entries[rom.tell()] = len(entries)
entries.append(rom.tell())
data = extract_string(rom, charmap, table["stride"],
expected_ptrs).encode("utf-8")
idx = "{0}".format(i + 1).encode("utf-8")
csvwriter.writerow([idx, data])
elif table["format"] == "block":
rom.seek(flat(table["basebank"], table["baseaddr"]))
for i in range(table["count"]):
reverse_entries[rom.tell()] = len(entries)
entries.append(rom.tell())
data = extract_string(rom, charmap, None,
expected_ptrs).encode("utf-8")
idx = "{0}".format(i + 1).encode("utf-8")
csvwriter.writerow([idx, data])
#Save these for later
table["entries"] = entries
table["reverse_entries"] = reverse_entries
#OK, now we can extract the indexes
for table in tablenames:
if table["format"] != "index":
continue
foreign_ptrs = tablenames[table["foreign_id"]]["reverse_entries"]
rom.seek(flat(table["basebank"], table["baseaddr"]))
csvdir = os.path.join(args.input, table["basedir"])
csvpath = os.path.join(args.input, table["filename"])
install_path(csvdir)
with open(csvpath, "w+", encoding="utf-8") as table_csvfile:
csvwriter = csv.writer(table_csvfile)
pretty_row_length = math.ceil(math.sqrt(table["count"]))
cur_row = []
for i in range(table["count"]):
ptr = PTR.unpack(rom.read(2))[0]
addr = flat(table["basebank"], ptr)
cur_row.append("{0}".format(foreign_ptrs[addr] +
1).encode("utf-8"))
if len(cur_row) >= pretty_row_length:
csvwriter.writerow(cur_row)
cur_row = []
if len(cur_row) > 0:
csvwriter.writerow(cur_row)
def decompress_bank(rom, offset=None):
"""Decompress an entire table of compressed data.
First return value is an array of data, individual data items match the
return value of decompress_tilemap. Data is ordered in the same order that
the ROM orders it. Second return value is the extracted table, represented
as indexes into the data array.
If offset is given, ROM will be read from that position. Your existing ROM
position will be preserved."""
if offset is None:
offset = rom.tell()
last = rom.tell()
rom.seek(offset)
ret_dat = []
order_dat = []
ptr_table = [] #List of PTRs as specified in the table
ptr_data = [] #List of PTRs containing data, some unused
ptr_data_org = {} #Decompressed data
ptr_data_index = {}
#The table consists of multiple pointers followed immediately by compressed
#tilemap data. There is no explicit length, so we discover the length of
#the pointer table by reading and decompressing pointers until we overrun
#already-decompressed data. Oh, and they don't come in a specified order
#either.
first_data_ptr = 0xFFFF
last_data_ptr = 0x0000
last_ptr = None
start_ptr, this_bank = banked(offset)
#Extract the table first.
while banked(rom.tell())[0] < first_data_ptr:
this_ptr = PTR.unpack(rom.read(2))[0]
ptr_table.append(this_ptr)
if this_ptr <= first_data_ptr:
first_data_ptr = this_ptr
if last_data_ptr <= this_ptr:
last_data_ptr = this_ptr
#Extract the data second
this_ptr = first_data_ptr
while this_ptr <= last_data_ptr:
decomp_data, decomp_len = decompress_tilemap(rom,
flat(this_bank, this_ptr))
ptr_data.append(this_ptr)
ptr_data_org[this_ptr] = decomp_data
this_ptr += decomp_len
#Resolve PTRs into numerical indexes and return them.
for data_index, data_ptr in enumerate(ptr_data):
ret_dat.append(ptr_data_org[data_ptr])
ptr_data_index[data_ptr] = data_index
for table_index, table_ptr in enumerate(ptr_table):
order_dat.append(ptr_data_index[table_ptr])
rom.seek(last)
return ret_dat, order_dat
def rip_msprite_table(rom, offset=None):
"""Given a ROM and an offset, rip a metatable of metasprites. Ripped data
will be returned as an array of ASM and a dict listing files to save."""
cloc = rom.tell()
if offset is not None:
rom.seek(offset)
else:
offset = cloc
table_ptr, bank = banked(offset)
ptrs = []
end = 0x7FFF
cur = table_ptr
table_ptr_list = []
ripped_sprites = {}
while cur < end:
offset_ptr = PTR.unpack(rom.read(2))[0]
cur += 2
end = min(offset_ptr, end)
if offset_ptr not in list(ripped_sprites.keys()):
try:
ripped_sprites[offset_ptr] = rip_msprite(
rom, flat(bank, offset_ptr))
except KeyError:
#If a metasprite points at undecipherable data, assume it's a
#dummy pointer and don't generate a metasprite for it, since
#it's clearly run off the end of the table.
ripped_sprites[offset_ptr] = []
table_ptr_list.append(offset_ptr)
#Now that we have the tables and their data, generate the ASM for it...
data_asmsrc = ""
table_asmsrc = ""
files = {}
table_symbol = "MetaSprite_" + "{0:x}".format(bank)
table_asmsrc += "SECTION \"" + table_symbol + "\", ROMX[$" + "{0:x}".format(
table_ptr) + "], BANK[$" + "{0:x}".format(bank) + "]\n"
table_asmsrc += table_symbol + "::\n"
sorted_ptrs = list(ripped_sprites.keys())
sorted_ptrs.sort()
last_ptrkey_end = 0x0000
for ptrkey in sorted_ptrs:
val = ripped_sprites[ptrkey]
symbol = table_symbol + "_" + "{0:x}".format(ptrkey)
file = "gfx/unknown/metasprite_" + "{0:x}".format(
bank) + "/" + "{0:x}".format(ptrkey) + ".sprite.csv"
binfile = "gfx/unknown/metasprite_" + "{0:x}".format(
bank) + "/" + "{0:x}".format(ptrkey) + ".sprite.bin"
if last_ptrkey_end != ptrkey:
data_asmsrc += "SECTION \"" + symbol + "\", ROMX[$" + "{0:x}".format(
ptrkey) + "], BANK[$" + "{0:x}".format(bank) + "]\n"
data_asmsrc += symbol + "::\n"
#ASSUMPTION: All 0 size metasprites are dummy pointers
if len(val) > 0:
data_asmsrc += " INCBIN \"" + binfile + "\"\n"
data_asmsrc += symbol + "_END::\n"
files[file] = "Y,X,Tile Offset,Attribute Mixing,Attributes\n"
for spritecfg in val:
files[file] += "{0:x},{1:x},{2:x},{3},{4:x}\n".format(
spritecfg['y'], spritecfg['x'], spritecfg['tile'],
spritecfg['attrib_mode'], spritecfg['attribs'])
last_ptrkey_end = ptrkey + 1 + len(val) * 5
for ptr in table_ptr_list:
symbol = table_symbol + "_" + "{0:x}".format(ptr)
table_asmsrc += " dw " + symbol + "\n"
asm_src = table_asmsrc + "\n" + data_asmsrc
rom.seek(cloc)
return (asm_src, files)
def extract(args):
charmap = parse_charmap(args.charmap)
banknames = parse_bank_names(args.banknames)
banknames = extract_metatable_from_rom(args.rom, charmap, banknames, args)
with open(args.rom, 'rb') as rom:
for bank in banknames:
wikitext = ["{|", "|-", "!Pointer", "!" + args.language]
csvdata = [["Pointer", args.language]]
rom.seek(flat(bank["basebank"], bank["baseaddr"]))
addr = bank["baseaddr"]
end = 0x8000
#Autodetect the end/length of the table by finding the lowest
#pointer that isn't stored after an existing pointer
while addr < end:
next_ptr = PTR.unpack(rom.read(2))[0]
#Reject obviously invalid pointers
if (next_ptr < addr or next_ptr > 0x7FFF):
break
end = min(end, next_ptr)
addr += 2
tbl_length = (addr - bank["baseaddr"]) // 2
#Actually extract our strings
string = []
#Stores the actual end of the last string, used for alias detection
last_start = 0xFFFF
last_end = 0xFFFF
last_nonaliasing_row = -1
#Also store if a redirected/overflowed row is being extracted
redirected = False
old_loc = None
for i in range(tbl_length):
csvrow = [
"0x{0:x}".format(
flat(bank["basebank"], bank["baseaddr"] + i * 2))
]
wikitext.append("|-")
wikitext.append("|0x{0:x}".format(
flat(bank["basebank"], bank["baseaddr"] + i * 2)))
rom.seek(flat(bank["basebank"], bank["baseaddr"] + i * 2))
read_ptr = PTR.unpack(rom.read(2))[0]
#Attempt to autodetect "holes" in the text data.
next_ptr = PTR.unpack(rom.read(2))[0]
expected_length = next_ptr - read_ptr
if i >= tbl_length - 1:
expected_length = -1 #maximum length by far
#Two different alias detects:
#First, we try to see if this pointer matches another pointer
#in the table.
rom.seek(flat(bank["basebank"], bank["baseaddr"]))
for j in range(i):
if read_ptr == PTR.unpack(rom.read(2))[0]:
#Aliased pointer!
csvrow.append("<ALIAS ROW 0x{0:x}>".format(j))
wikitext.append("|«ALIAS ROW 0x{0:x}»".format(j))
print(
"Pointer at 0x{0:x} fully aliases pointer 0x{1:x}".
format(
flat(bank["basebank"],
bank["baseaddr"] + i * 2),
flat(bank["basebank"],
bank["baseaddr"] + j * 2)))
break
else:
#Second, we try to see if this pointer is in the middle of
#the last string.
#This alias detection breaks when the previous row uses the
#overflow code, so disable it if so.
if i > 0 and read_ptr < last_end - 1 and not redirected:
print(
"Pointer at 0x{0:x} partially aliases previous pointer"
.format(rom.tell() - 2))
csvrow.append(
"<ALIAS ROW 0x{0:x} INTO 0x{1:x}>".format(
last_nonaliasing_row, read_ptr - last_start))
wikitext.append(
"|«ALIAS ROW 0x{0:x} INTO 0x{1:x}»".format(
last_nonaliasing_row, read_ptr - last_start))
continue
read_length = 1
first_read = True
rom.seek(flat(bank["basebank"], read_ptr))
#Now we can initialize these...
redirected = False
old_loc = None
while (rom.tell() % 0x4000 < 0x3FFF or rom.tell() == flat(
bank["basebank"], bank["baseaddr"])):
next_chara = CHARA.unpack(rom.read(1))[0]
while (rom.tell() % 0x4000 < 0x3FFF or rom.tell() ==
flat(bank["basebank"], bank["baseaddr"])) and (
read_length <= expected_length or first_read
or redirected
) and next_chara != 0xE0: #E0 is end-of-string
if next_chara < 0xE0 and next_chara in charmap[
1]: #Control codes are the E0 block
string.append(charmap[1][next_chara])
elif next_chara in reverse_specials and specials[
reverse_specials[next_chara]].redirect:
#Redirecting opcodes are transparently removed from the extracted text.
this_special = specials[
reverse_specials[next_chara]]
if this_special.bts:
read_length += this_special.bts
fmt = "<" + ("", "B",
"H")[this_special.bts]
word = struct.unpack(
fmt, rom.read(this_special.bts))[0]
if word < 0x4000 or word > 0x7FFF:
#Overflowing into RAM is illegal - use the jump opcode.
#Overflowing into ROM0 is technically not illegal, but
#unorthodox enough that we're going to disallow it.
string.append(
format_literal(this_special.byte))
string.append(
format_literal(
word & 0xFF, charmap[1]))
string.append(
format_literal(
word >> 8, charmap[1]))
else:
#We need to do this right now to avoid breaking hole detection
old_loc = rom.tell()
read_length = rom.tell() - flat(
bank["basebank"], read_ptr)
rom.seek(flat(args.overflow_bank,
word))
redirected = True
else:
raise RuntimeError(
"Invalid specials dictionary. Redirecting special character is missing bts."
)
elif next_chara in reverse_specials:
#This must be the work of an 「ENEMY STAND」
this_special = specials[
reverse_specials[next_chara]]
if this_special.bts:
read_length += this_special.bts
fmt = "<" + ("", "B",
"H")[this_special.bts]
word = struct.unpack(
fmt, rom.read(this_special.bts))[0]
string.append(
format_control_code(
reverse_specials[next_chara],
word))
else:
string.append(
format_control_code(
reverse_specials[next_chara]))
if this_special.end:
first_read = False
break
#elif next_chara == 0xE2:
#Literal newline
# string.append(u"\n")
else:
#Literal specials
string.append(format_literal(next_chara))
next_chara = CHARA.unpack(rom.read(1))[0]
#Explicitly stop updating read_length if the
#overflow opcode is used. Otherwise we'd think we
#read thousands or negative thousands of chars
if not redirected:
read_length = rom.tell() - flat(
bank["basebank"], read_ptr)
#After the main extraction loop
if read_length >= expected_length:
break
else:
#Detect nulls (spaces) after the end of a string
#and append them to avoid creating a new pointer row
loc = rom.tell()
if redirected:
loc = old_loc
while CHARA.unpack(rom.read(1))[0] == charmap[0][
" "] and read_length < expected_length:
string.append(" ")
loc += 1
read_length += 1
rom.seek(loc) #cleanup
if read_length >= expected_length:
break
else:
#There's a hole in the ROM!
#Disassemble the next string.
print("Inaccessible data found at 0x{0:x}".
format(flat(bank["basebank"], read_ptr)))
csvrow.append("".join(string))
wikitext.append("|" + "".join(string))
string = []
csvdata.append(csvrow)
csvrow = ["(No pointer)"]
wikitext.append("|-")
wikitext.append("|(No pointer)")
read_length += 1
csvrow.append("".join(string))
wikitext.append("|" + "".join(string))
string = []
#Store the actual end pointer for later use.
last_start = read_ptr
last_end = read_ptr + read_length
last_nonaliasing_row = i
csvdata.append(csvrow)
wikitext.append("|-")
wikitext.append("|}")
wikitext = "\n".join(wikitext)
wikidir = os.path.join(args.input, bank["basedir"])
wikipath = os.path.join(args.input, bank["legacy_filename"])
csvpath = os.path.join(args.input, bank["filename"])
install_path(wikidir)
#with open(wikipath, "w+", encoding="utf-8") as bank_wikitext:
#bank_wikitext.write(wikitext)
with open(csvpath, "w+", encoding="utf-8") as bank_csvtext:
csvwriter = csv.writer(bank_csvtext)
for csvrow in csvdata:
csvwriter.writerow(csvrow)