FF5Reader/includes/helpers.py

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'''
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This file is part of ff5reader.
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ff5reader is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
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ff5reader is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
along with ff5reader. If not, see <http://www.gnu.org/licenses/>.
'''
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from ast import literal_eval
HEX_PREFIX = '#' # '#' '$' or '0x' are also nice
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def divceil(numerator: int, denominator: int) -> int:
'''
Reverse floor division for fast ceil
'''
return -(-numerator // denominator)
def hex_length(i: int) -> int:
'''
String length of hexadecimal representation of integer
'''
return divceil(i.bit_length(), 4)
def hex(num: int, digits: int = 2) -> str:
'''
Consolidate hex formatting for consistency
'''
#return '{:0{}X}₁₆'.format(num, digits)
return HEX_PREFIX + '{:0{}X}'.format(num, digits)
def indirect(rom: bytes, start: int, length: int = 2, endian: str = 'little') -> int:
'''
Read little-endian value at start address in rom
'''
return int.from_bytes(rom[start:start+length], endian)
def indirect2(rom: bytes, slice, endian: str = 'little') -> int:
return int.from_bytes(rom[slice], endian)
def memory_address_to_rom_address(address: int) -> int:
# SNES memory space in HiROM Mode:
# 0xC00000 to 0xFDFFFF are a view of the ROM, i.e. banks $C0 to $FD.
# Banks $80-$BF mirror banks $00-3F, which have a partial view to the ROM.
# We don't care about potential RAM addresses at low offsets,
# so let's just pretend $00-$3F, $40-$7F, $80-$BF and $C0-$FF all map to $00-$3F of the ROM
return address & 0x3FFFFF
def get_slices(start_address: int, each_length: int, num_strings: int) -> list:
return [slice(start_address+(each_length*id), start_address+(each_length*(id+1))) for id in range(num_strings)]
def get_contiguous_address_slices(rom: bytes, slices, indirect_offset: int = 0) -> list:
pointers = [indirect2(rom, s) + indirect_offset for s in slices]
output = []
for ptr, ptr_next in zip(pointers[:-1], pointers[1:]):
if ptr_next < ptr:
break
start = memory_address_to_rom_address(ptr)
end = memory_address_to_rom_address(ptr_next)
output.append(slice(start, end))
return output
def get_bytestring_slices(rom: bytes, start_address: int, each_length: int, num_strings: int, indirect_offset=None, indirect_null_terminated=False) -> list:
if indirect_offset is not None:
if not indirect_null_terminated:
pointers = [indirect(rom, address, each_length) + indirect_offset for address in range(start_address, start_address + (each_length * num_strings), each_length)]
output = []
for ptr, ptr_next in zip(pointers[:-1], pointers[1:]):
if ptr_next < ptr:
break
start = memory_address_to_rom_address(ptr)
end = memory_address_to_rom_address(ptr_next)
output.append(slice(start, end))
return output
else:
def get_indirect(address: int) -> bytes:
ptr = memory_address_to_rom_address(indirect(rom, address, each_length) + indirect_offset)
# While previously we used the start address of the next string, this is not necessarily correct.
# Scan for a zero-byte end-of-string marker and pay the extra cycles.
end_ptr = ptr
# print(ptr)
while rom[end_ptr] > 0:
end_ptr += 1
return slice(ptr, end_ptr)
return [get_indirect(start_address+(each_length*id)) for id in range(num_strings)]
else:
return [slice(start_address+(each_length*id), start_address+(each_length*(id+1))) for id in range(num_strings)]
def get_bytestrings(rom: bytes, start_address: int, each_length: int, num_strings: int, indirect_offset=None, indirect_null_terminated=False) -> list[bytes]:
return [rom[s] for s in get_bytestring_slices(rom, start_address, each_length, num_strings, indirect_offset, indirect_null_terminated)]
def load_table(filename: str) -> tuple[str]:
with open(filename, 'r') as f:
return tuple(literal_eval(f'"{line}"') if line.startswith('\\') else line for line in f.read().rstrip('\n').split('\n'))
def __cast_string_to_object(input: str) -> object:
if len(input) == 0:
return None
try:
return literal_eval(input)
except:
return input # Unescaped string
def load_tsv(filename: str) -> dict[dict[str, str]]:
with open(filename, 'r') as f:
header, *lines = f.read().rstrip('\n').split('\n')
first_column_name, *headers = header.split('\t')
# Cheeky Py3.8 one-liner
# return {(s := line.split('\t'))[0]:dict(zip(headers, s[1:])) for line in lines}
output = {}
for line in lines:
name, *values = line.split('\t')
output[name] = dict((h,__cast_string_to_object(v)) for h,v in zip(headers, values) if len(v) > 0)
return output
def load_raw(filename: str) -> bytes:
with open(filename, 'rb') as f:
return f.read()
def parse_struct(rom: int, offset: int, structure: list[tuple[str, int, object]]):
'''
Read in a section of rom with a given structure, output a list
'''
out = [hex(offset, 6)]
j = 0
for title, length, handler in structure:
val = indirect(rom, offset+j, length=length)
if callable(handler):
out.append(handler(val))
elif handler and val < len(handler):
out.append(handler[val])
else:
out.append(hex(val, length*2))
j += length
return out
def decompress_lzss(rom: bytes, start: int, header: bool = False, length=None) -> bytes:
'''
Algorithm from http://slickproductions.org/slickwiki/index.php/Noisecross:Final_Fantasy_V_Compression
'''
ptr = start
if length:
uncompressed_length = length
else:
uncompressed_length = indirect(rom, start)
ptr += 2
output = []
buffer = [0 for i in range(0x800)]
buffer_p = 0x07DE
while len(output) < uncompressed_length:
bitmap_byte = rom[ptr]
ptr += 1
for i in range(8):
bit = (bitmap_byte >> i) & 1
if bit:
b = rom[ptr]
ptr += 1
output.append(b)
buffer[buffer_p] = b
buffer_p = (buffer_p+1) % 0x800
else:
b1 = rom[ptr]
b2 = rom[ptr+1]
ptr += 2
offset = b1|((b2 & 0xE0)<<3)
length = b2 & 0x1F
for j in range(length+3):
b = buffer[offset]
output.append(b)
buffer[buffer_p] = b
buffer_p = (buffer_p+1) % 0x800
offset = (offset+1) % 0x800
return bytes(output[:uncompressed_length])
def decompress_lzss_FFVa(rom: bytes, start: int, header: bool = False, length=None) -> bytes:
'''
Oops, it's just GBA BIOS decompression functions
see https://web.archive.org/web/20130323133944/http://nocash.emubase.de/gbatek.htm#biosdecompressionfunctions
'''
ptr = start
if length:
uncompressed_length = length
else:
uncompressed_length = indirect(rom, start, endian='big')
ptr += 2
output = []
while len(output) < uncompressed_length:
bitmap_byte = rom[ptr]
ptr += 1
for i in reversed(range(8)):
bit = (bitmap_byte >> i) & 1
if not bit:
b = rom[ptr]
ptr += 1
output.append(b)
else:
b1 = rom[ptr]
b2 = rom[ptr+1]
ptr += 2
length = ((b1 & 0xF0) >> 4) + 3
trackback = -1 - (b2 + ((b1 & 0x0F) << 8))
try:
for j in range(length):
output.append(output[trackback])
except:
print(len(output), f'0x{ptr:X}', f'0x{b1:02X}{b2:02X}', trackback)
raise
print(f'0x{ptr:X}')
return bytes(output[:uncompressed_length])
def findall(rom: bytes, string: str) -> list[int]:
results = []
start = 0
while True:
val = rom.find(string, start)
if val < 0:
return results
results.append(val)
start = val + 1
def parse_ips(data: bytes):
assert data[:5] == b'PATCH' and data[-3:] == b'EOF', 'File header and footer missing!'
patches = {}
ptr = 5
while ptr < len(data)-6:
address = int.from_bytes(data[ptr:ptr+3], 'big')
length = int.from_bytes(data[ptr+3:ptr+5], 'big')
if length > 0:
payload = data[ptr+5:ptr+5+length]
ptr += 5 + length
else:
repeats = data[ptr+5:ptr+7]
payload = data[ptr+7] * repeats
ptr += 8
patches[address] = payload
return patches