0e2ab04353
This updates the automatic parsing of main.asm to catch cases of INCBINs pulling in files that end in .asm, .lz, .1bpp, and .2bpp. This is necessary because otherwise the parser tries to figure out the start and end addresses expressed on the INCBIN line, details not present on these types of lines in the asm. Asm and Asm.insert_all are now back in working condition. |
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.. | ||
pkmnasm | ||
__init__.py | ||
chars.py | ||
comparator.py | ||
crystal.py | ||
dump_sections | ||
dump_sections.py | ||
gbz80disasm.py | ||
gfx.py | ||
graph.py | ||
interval_map.py | ||
item_constants.py | ||
labels.py | ||
map_names.py | ||
move_constants.py | ||
old_parse_scripts.py | ||
pksv.py | ||
pointers.py | ||
pokemon_constants.py | ||
README.md | ||
romstr.py | ||
sym.py | ||
test_dump_sections.py | ||
tests.py | ||
trainers.py | ||
type_constants.py | ||
vba.py |
Pokémon Crystal utilities and extras
crystal.py
parses the ROM and provides convenient classes to dump human-readable ASM with the global to_asm()
method. This ASM can then be compiled back into the original ROM. Currently it parses map headers, "second" map headers, map event headers, map script headers, map triggers, map "callbacks", map blockdata, xy triggers, warps, people-events, texts and scripts.
Simple ASM generation example
Note: throughout these examples it is possible to use reload(crystal)
instead of import crystal
. Once the module is loaded a first time, it must be reloaded if the file changes and the updates are desired.
import crystal
# parse the ROM
crystal.run_main()
# create a new dump
asm = crystal.Asm()
# insert the first 10 maps
x = 10
asm.insert_with_dependencies(crystal.all_map_headers[:x])
# dump to extras/output.txt
asm.dump()
After running those lines, cp extras/output.txt main.asm
and run git diff main.asm
to confirm that changes to main.asm
have occurred. To test whether or not the newly inserted ASM compiles into the same ROM, use: make clean && make
. This will complain very loudly if something is broken.
Testing
Unit tests cover most of the classes.
python tests.py
Parsing a script at a known address
Here is a demo of how to investigate a particular script, starting with only an address to a known script (0x58043). In this case, the script calls the 2writetext
command to show some dialog. This dialog will be shown at the end of the example.
import crystal
# parse the script at 0x58043 from the map event header at 0x584c3
# from the second map header at 0x958b8
# from the map header at 0x941ae
# for "Ruins of Alph Outside" (map_group=3 map_id=0x16)
script = Script(0x58043)
# show the script
print script.to_asm()
# what labels does it point to in the to_asm output?
# these must be present in the final asm file for rgbasm to compile the file
objdeps = script.get_dependencies()
print str(objdeps)
# the individual commands that make up the script
commands = script.commands
print str(commands)
# the 3rd command is 2writetext and points to a text
thirdcommand = script.commands[2]
print thirdcommand
# <crystal.2writetextCommand instance at 0x8ad4c0c>
# look at the command parameters
params = thirdcommand.params
print params
# {0: <crystal.RawTextPointerLabelParam instance at 0x8ad4b0c>}
# 2writetext always has a single parameter
definition_param_count = len(getattr(crystal, "2writetextCommand").param_types.keys())
current_param_count = len(params.keys())
assert definition_param_count == current_param_count, "this should never " + \
"happen: instance of a command has more parameters than the " + \
"definition of the command allows"
# get the first parameter (the text pointer)
param = params[0]
print param
# <crystal.RawTextPointerLabelParam instance at 0x8ad4b0c>
# RawTextPointerLabelParam instances point to their text
text = param.text
print text
# <crystal.TextScript instance at 0x8ad47ec>
# now investigate this text appearing in this script in "Ruins of Alph Outside"
print text.to_asm()
The final output will be the following text.
db $0, "Hm? That's a #-", $4f
db "DEX, isn't it?", $55
; ...
However, this is not how that TextScript
object would appear in the final ASM. To see how it would appear in main.asm
once inserted, you would run print crystal.to_asm(text)
to get the following.
UnknownText_0x580c7: ; 0x580c7
db $0, "Hm? That's a #-", $4f
db "DEX, isn't it?", $55
db "May I see it?", $51
db "There are so many", $4f
db "kinds of #MON.", $51
db "Hm? What's this?", $51
db "What is this", $4f
db "#MON?", $51
db "It looks like the", $4f
db "strange writing on", $51
db "the walls of the", $4f
db "RUINS.", $51
db "If those drawings", $4f
db "are really #-", $55
db "MON, there should", $55
db "be many more.", $51
db "I know! Let me up-", $4f
db "grade your #-", $55
db "DEX. Follow me.", $57
; 0x581e5
Figuring out where a script appears based on a known address
Another approach is to parse the entire ROM, then check a script at a particular address. This has the advantage that the script object will have the map_group
and map_id
variables set.
import crystal
# parse the ROM
crystal.run_main()
# get the parsed script
script = crystal.script_parse_table[0x58043]
# read its attributes to figure out map group / map id
map_group = script.map_group
map_id = script.map_id
# MapHeader is not given all the info yet
# in the mean time "map_names" contains some metadata
map_dict = crystal.map_names[map_group][map_id]
map_header = map_dict["header_new"]
print map_dict["name"]
# Ruins of Alph Outside
While the above doesn't show this, it turns out that the script at 0x58043 is referenced in the MapEventHeader
as a person-event.
print map_header.second_map_header.event_header.to_asm()
This will show a structure roughly like:
person_event $3c, 19, 15, $7, $0, 255, 255, $0, 0, UnknownScript_0x58043, $0703
within this:
MapEventHeader_0x584c3: ; 0x584c3
; filler
db 0, 0
; warps
db 11
warp_def $11, $2, 1, GROUP_RUINS_OF_ALPH_HO_OH_CHAMBER, MAP_RUINS_OF_ALPH_HO_OH_CHAMBER
warp_def $7, $e, 1, GROUP_RUINS_OF_ALPH_KABUTO_CHAMBER, MAP_RUINS_OF_ALPH_KABUTO_CHAMBER
warp_def $1d, $2, 1, GROUP_RUINS_OF_ALPH_OMANYTE_CHAMBER, MAP_RUINS_OF_ALPH_OMANYTE_CHAMBER
warp_def $21, $10, 1, GROUP_RUINS_OF_ALPH_AERODACTYL_CHAMBER, MAP_RUINS_OF_ALPH_AERODACTYL_CHAMBER
warp_def $d, $a, 1, GROUP_RUINS_OF_ALPH_INNER_CHAMBER, MAP_RUINS_OF_ALPH_INNER_CHAMBER
warp_def $b, $11, 1, GROUP_RUINS_OF_ALPH_RESEARCH_CENTER, MAP_RUINS_OF_ALPH_RESEARCH_CENTER
warp_def $13, $6, 1, GROUP_UNION_CAVE_B1F, MAP_UNION_CAVE_B1F
warp_def $1b, $6, 2, GROUP_UNION_CAVE_B1F, MAP_UNION_CAVE_B1F
warp_def $5, $7, 3, GROUP_ROUTE_36_RUINS_OF_ALPH_GATE, MAP_ROUTE_36_RUINS_OF_ALPH_GATE
warp_def $14, $d, 1, GROUP_ROUTE_32_RUINS_OF_ALPH_GATE, MAP_ROUTE_32_RUINS_OF_ALPH_GATE
warp_def $15, $d, 2, GROUP_ROUTE_32_RUINS_OF_ALPH_GATE, MAP_ROUTE_32_RUINS_OF_ALPH_GATE
; xy triggers
db 2
xy_trigger 1, $e, $b, $0, UnknownScript_0x58031, $0, $0
xy_trigger 1, $f, $a, $0, UnknownScript_0x5803a, $0, $0
; signposts
db 3
signpost 8, 16, $0, UnknownScript_0x580b1
signpost 16, 12, $0, UnknownScript_0x580b4
signpost 12, 18, $0, UnknownScript_0x580b7
; people-events
db 5
person_event $27, 24, 8, $6, $0, 255, 255, $2, 1, Trainer_0x58089, $ffff
person_event $3c, 19, 15, $7, $0, 255, 255, $0, 0, UnknownScript_0x58043, $0703
person_event $3a, 21, 17, $3, $0, 255, 255, $a0, 0, UnknownScript_0x58061, $078e
person_event $27, 15, 18, $2, $11, 255, 255, $b0, 0, UnknownScript_0x58076, $078f
person_event $27, 12, 16, $7, $0, 255, 255, $80, 0, UnknownScript_0x5807e, $078f
; 0x58560
Helpful ROM investigation tools
import crystal
# load the bytes
crystal.load_rom()
# get a sequence of bytes
crystal.rom_interval(0x112116, 10)
# ['0x48', '0x54', '0x54', '0x50', '0x2f', '0x31', '0x2e', '0x30', '0xd', '0xa']
crystal.rom_interval(0x112116, 10, strings=False)
# [72, 84, 84, 80, 47, 49, 46, 48, 13, 10]
# get bytes until a certain byte
crystal.rom_until(0x112116, 0x50, strings=False)
# ['0x48', '0x54', '0x54']
# [72, 84, 84]
# or just look at the encoded characters directly
crystal.rom[0x112116:0x112116+10]
# 'HTTP/1.0\r\n'
# look at a text at 0x197186
text = crystal.parse_text_at2(0x197186, 601, debug=False)
print text
That last text at 0x197186 will look like:
"""
OAK: Aha! So
you're !
I'm OAK! A #MON
researcher.
I was just visit-
ing my old friend
MR.#MON.
I heard you were
running an errand
for PROF.ELM, so I
waited here.
Oh! What's this?
A rare #MON!
...
"""