ref: c82b5f5e3d62c585bb4e842e039107947ab19ac6
dir: /extras/analyze_incbins.py/
#!/usr/bin/python2.7 #author: Bryan Bishop <kanzure@gmail.com> #date: 2012-01-03 #purpose: map which addresses are left #note: using python2.7 because of subprocess import sys, os from copy import copy, deepcopy import subprocess import json from extract_maps import rom, assert_rom, load_rom, calculate_pointer, load_map_pointers, read_all_map_headers, map_headers try: from pretty_map_headers import map_header_pretty_printer, map_name_cleaner except Exception: pass #store each line of source code here asm = None #store each incbin line separately incbin_lines = [] #storage for processed incbin lines processed_incbins = {} def offset_to_pointer(offset): if type(offset) == str: offset = int(offset, base) return int(offset) % 0x4000 + 0x4000 def load_asm(filename="../main.asm"): "loads the asm source code into memory" global asm asm = open(filename, "r").read().split("\n") return asm def isolate_incbins(): "find each incbin line" global incbin_lines incbin_lines = [] for line in asm: if line == "": continue if line.count(" ") == len(line): continue #clean up whitespace at beginning of line while line[0] == " ": line = line[1:] if line[0:6] == "INCBIN" and "baserom.gbc" in line: incbin_lines.append(line) return incbin_lines def process_incbins(): "parse incbin lines into memory" global incbins incbins = {} #reset for incbin in incbin_lines: processed_incbin = {} line_number = asm.index(incbin) partial_start = incbin[21:] start = partial_start.split(",")[0].replace("$", "0x") start = eval(start) start_hex = hex(start).replace("0x", "$") partial_interval = incbin[21:].split(",")[1] partial_interval = partial_interval.replace(";", "#") partial_interval = partial_interval.replace("$", "0x").replace("0xx", "0x") interval = eval(partial_interval) interval_hex = hex(interval).replace("0x", "$").replace("x", "") end = start + interval end_hex = hex(end).replace("0x", "$") processed_incbin = { "line_number": line_number, "line": incbin, "start": start, "interval": interval, "end": end, } #don't add this incbin if the interval is 0 if interval != 0: processed_incbins[line_number] = processed_incbin def find_incbin_to_replace_for(address): """returns a line number for which incbin to edit if you were to insert bytes into main.asm""" if type(address) == str: address = int(address, 16) for incbin_key in processed_incbins.keys(): incbin = processed_incbins[incbin_key] start = incbin["start"] end = incbin["end"] #print "start is: " + str(start) #print "end is: " + str(end) #print "address is: " + str(type(address)) #print "checking.... " + hex(start) + " <= " + hex(address) + " <= " + hex(end) if start <= address <= end: return incbin_key return None def split_incbin_line_into_three(line, start_address, byte_count): """ splits an incbin line into three pieces. you can replace the middle one with the new content of length bytecount start_address: where you want to start inserting bytes byte_count: how many bytes you will be inserting """ if type(start_address) == str: start_address = int(start_address, 16) original_incbin = processed_incbins[line] start = original_incbin["start"] end = original_incbin["end"] #start, end1, end2 (to be printed as start, end1 - end2) if start_address - start > 0: first = (start, start_address, start) else: first = (None) #skip this one because we're not including anything #this is the one you will replace with whatever content second = (start_address, byte_count) third = (start_address + byte_count, end - (start_address + byte_count)) output = "" if first: output += "INCBIN \"baserom.gbc\",$" + hex(first[0])[2:] + ",$" + hex(first[1])[2:] + " - $" + hex(first[2])[2:] + "\n" output += "INCBIN \"baserom.gbc\",$" + hex(second[0])[2:] + "," + str(byte_count) + "\n" output += "INCBIN \"baserom.gbc\",$" + hex(third[0])[2:] + ",$" + hex(third[1])[2:] #no newline return output def generate_diff_insert(line_number, newline): original = "\n".join(line for line in asm) newfile = deepcopy(asm) newfile[line_number] = newline #possibly inserting multiple lines newfile = "\n".join(line for line in newfile) original_filename = "ejroqjfoad.temp" newfile_filename = "fjiqefo.temp" original_fh = open(original_filename, "w") original_fh.write(original) original_fh.close() newfile_fh = open(newfile_filename, "w") newfile_fh.write(newfile) newfile_fh.close() try: diffcontent = subprocess.check_output("diff -u ../main.asm " + newfile_filename, shell=True) except AttributeError, exc: raise exc except Exception, exc: diffcontent = exc.output os.system("rm " + original_filename) os.system("rm " + newfile_filename) return diffcontent def insert_map_header_asm(map_id): map = map_headers[map_id] line_number = find_incbin_to_replace_for(map["address"]) if line_number == None: # or map_name_cleaner(map["name"], 0) in "\n".join(line for line in asm): print "i think map id=" + str(map_id) + " has previously been added." return #this map has already been added i bet newlines = split_incbin_line_into_three(line_number, map["address"], 12 + (11 * len(map["connections"]))) map_header_asm = map_header_pretty_printer(map_headers[map_id]) newlines = newlines.split("\n") if len(newlines) == 2: index = 0 elif len(newlines) == 3: index = 1 newlines[0] += "\n" #spacing is a nice thing to have newlines[index] = map_header_asm newlines = "\n".join(line for line in newlines) diff = generate_diff_insert(line_number, newlines) print diff print "... Applying diff." #write the diff to a file fh = open("temp.patch", "w") fh.write(diff) fh.close() #apply the patch os.system("patch ../main.asm temp.patch") #remove the patch os.system("rm temp.patch") def wrapper_insert_map_header_asm(map_id): "reload the asm because it has changed (probably)" load_asm() isolate_incbins() process_incbins() insert_map_header_asm(map_id) def dump_all_remaining_maps(): for map_id in map_headers: print "Inserting map id=" + str(map_id) wrapper_insert_map_header_asm(map_id) def reset_incbins(): "reset asm before inserting another diff" asm = None incbin_lines = [] processed_incbins = {} load_asm() isolate_incbins() process_incbins() def apply_diff(diff, try_fixing=True, do_compile=True): print "... Applying diff." #write the diff to a file fh = open("temp.patch", "w") fh.write(diff) fh.close() #apply the patch os.system("cp ../main.asm ../main1.asm") os.system("patch ../main.asm temp.patch") #remove the patch os.system("rm temp.patch") #confirm it's working if do_compile: try: subprocess.check_call("cd ../; make clean; LC_CTYPE=C make", shell=True) return True except Exception, exc: if try_fixing: os.system("mv ../main1.asm ../main.asm") return False def index(seq, f): """return the index of the first item in seq where f(item) == True.""" return next((i for i in xrange(len(seq)) if f(seq[i])), None) def is_probably_pointer(input): try: blah = int(input, 16) return True except: return False label_errors = "" def get_labels_between(start_line_id, end_line_id, bank_id): labels = [] #label = { # "line_number": 15, # "bank_id": 32, # "label": "PalletTownText1", # "local_pointer": "$5315", # "address": 0x75315, #} global label_errors errors = "" current_line_offset = 0 sublines = asm[start_line_id : end_line_id + 1] for line in sublines: label = {} line_id = start_line_id + current_line_offset address = None local_pointer = None if ": ; 0x" in line: temp = line.split(": ; 0x")[1] if not " " in temp: address = int("0x" + temp, 16) else: temp2 = temp.split(" ")[0] address = int("0x" + temp2, 16) elif ": ; " in line: partial = line.split(": ; ")[1] if ": ; $" in line: temp = line.split(": ; $")[1] if " " in temp: temp = temp.split(" ")[0] local_pointer = "$" + temp elif " " in partial: if " to " in partial: temp = partial.split(" to ")[0] if "0x" in temp: address = int(temp, 16) elif len(temp) == 4: local_pointer = "$" + temp else: errors += "found \" to \" in partial on line " + str(line_id) + ", but don't know what to do (debug14)" + "\n" errors += "line is: " + line + "\n" continue elif len(partial[4]) == 4 or partial[4] == " ": #then it's probably a local pointer temp = partial[0:4] local_pointer = "$" + temp else: errors += "found \": ; \" and another \" \" in line " + str(line_id) + ", but don't know what to do (debug15)" + "\n" errors += "line is: " + line + "\n" continue else: if len(partial) > 3 and partial[2] == ":": #14:3BAC temp = partial[2].split(":")[1] if len(temp) == 3 or len(temp) == 4: local_pointer = "$" + temp else: temp = temp.split(" ")[0] local_pointer = "$" + temp elif len(partial) == 4 or (len(partial) == 3 and is_probably_pointer(partial)): local_pointer = "$" + partial else: errors += "found \": ; \" in line " + str(line_id) + ", but don't know what to do (debug16)" + "\n" errors += "line is: " + line + "\n" continue else: #this line doesn't have a label continue if local_pointer != None and not is_probably_pointer(local_pointer.replace("0x", "").replace("$", "")): continue line_label = line.split(": ;")[0] if address == None and local_pointer != None: temp = int(local_pointer.replace("$", "0x"), 16) if temp < 0x4000 or bank_id == 0: address = temp else: address = calculate_pointer(int(local_pointer.replace("$", "0x"), 16), bank_id) elif local_pointer == None and address != None: if address < 0x4000: local_pointer = hex(address).replace("0x", "$") else: local_pointer = hex((address % 0x4000) + 0x4000).replace("0x", "$") print line_label + " is at " + hex(address) label = { "line_number": line_id, "bank_id": bank_id, "label": line_label, "local_pointer": local_pointer, "address": address } labels.append(label) current_line_offset += 1 label_errors += errors return labels def scan_for_predefined_labels(): """looks through the asm file for labels at specific addresses, this relies on the label having its address after. ex: ViridianCity_h: ; 0x18357 to 0x18384 (45 bytes) (bank=6) (id=1) PalletTownText1: ; 4F96 0x18f96 ViridianCityText1: ; 0x19102 It would be more productive to use rgbasm to spit out all label addresses, but faster to write this script. rgbasm would be able to grab all label addresses better than this script.. """ bank_intervals = {} all_labels = [] #figure out line numbers for each bank for bank_id in range(0x2d): abbreviation = ("%.x" % (bank_id)).upper() abbreviation_next = ("%.x" % (bank_id+1)).upper() if bank_id == 0: abbreviation = "0" abbreviation_next = "1" start_line_id = index(asm, lambda line: "\"bank" + abbreviation + "\"" in line) if bank_id != 0x2c: end_line_id = index(asm, lambda line: "\"bank" + abbreviation_next + "\"" in line) else: end_line_id = len(asm) - 1 print "bank" + abbreviation + " starts at " + str(start_line_id) + " to " + str(end_line_id) bank_intervals[bank_id] = { "start": start_line_id, "end": end_line_id, } for bank_id in bank_intervals.keys(): bank_data = bank_intervals[bank_id] start_line_id = bank_data["start"] end_line_id = bank_data["end"] labels = get_labels_between(start_line_id, end_line_id, bank_id) #bank_intervals[bank_id]["labels"] = labels all_labels.extend(labels) write_all_labels(all_labels) return all_labels def write_all_labels(all_labels): fh = open("labels.json", "w") fh.write(json.dumps(all_labels)) fh.close() def analyze_intervals(): """find the largest baserom.gbc intervals""" global asm global processed_incbins if asm == None: load_asm() if processed_incbins == {}: isolate_incbins() process_incbins() results = [] ordered_keys = sorted(processed_incbins, key=lambda entry: processed_incbins[entry]["interval"]) ordered_keys.reverse() for key in ordered_keys: results.append(processed_incbins[key]) return results if __name__ == "__main__": #load map headers load_rom() load_map_pointers() read_all_map_headers() #load incbins (mandatory) load_asm() #isolate_incbins() #process_incbins() #print processed_incbins #line_number = find_incbin_to_replace_for(0x492c3) #newlines = split_incbin_line_into_three(line_number, 0x492c3, 12) #diff = generate_diff_insert(line_number, newlines) #print diff #insert_map_header_asm(86) #dump_all_remaining_maps() scan_for_predefined_labels() print "Errors:" print label_errors