mirror of
https://github.com/pmret/papermario.git
synced 2024-11-23 13:49:51 +00:00
ae66312d8c
* Add Python linter to github actions * wip * Add back splat_ext * Format files * C++ -> C * format 2 files * split workflow into separate file, line length 120, fix excludes * -l 120 in ci * update black locally and apply formatting changes * pyproject.toject --------- Co-authored-by: Ethan Roseman <ethteck@gmail.com>
275 lines
8.1 KiB
Python
Executable File
275 lines
8.1 KiB
Python
Executable File
#!/usr/bin/env python3
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import os
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import re
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import subprocess
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import sys
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import tqdm
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script_dir = os.path.dirname(os.path.realpath(__file__))
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root_dir = script_dir + "/../"
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current_ver_dir = script_dir + "/../ver/current/"
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asm_dir = root_dir + "asm/nonmatchings/"
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symbol_addrs_path = os.path.join(current_ver_dir, "symbol_addrs.txt")
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elf_path = os.path.join(current_ver_dir, "build", "papermario.elf")
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map_path = os.path.join(current_ver_dir, "build", "papermario.map")
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ignores_path = os.path.join(root_dir, "tools", "ignored_funcs.txt")
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map_symbols = {}
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symbol_addrs = []
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dead_symbols = []
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elf_symbols = []
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ignores = set()
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verbose = False
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def read_ignores():
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with open(ignores_path) as f:
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lines = f.readlines()
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for line in lines:
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name = line.split(" = ")[0].strip()
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if name != "":
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ignores.add(name)
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def scan_map():
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ram_offset = None
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cur_file = "<no file>"
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prev_line = ""
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with open(map_path) as f:
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for line in f:
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if "load address" in line:
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ram = int(line[16 : 16 + 18], 0)
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rom = int(line[59 : 59 + 18], 0)
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ram_offset = ram - rom
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continue
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prev_line = line
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if ram_offset is None or "=" in line or "*fill*" in line or " 0x" not in line:
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continue
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ram = int(line[16 : 16 + 18], 0)
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rom = ram - ram_offset
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sym = line.split()[-1]
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if "0x" in sym:
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ram_offset = None
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continue
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elif "/" in sym:
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cur_file = sym
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continue
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map_symbols[sym] = (rom, cur_file, ram)
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def read_symbol_addrs():
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unique_lines = set()
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with open(symbol_addrs_path, "r") as f:
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for line in f.readlines():
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unique_lines.add(line)
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for line in unique_lines:
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if "_ROM_START" in line or "_ROM_END" in line:
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continue
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main_split = line.rstrip().split(";")
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main = main_split[0]
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dead = False
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opts = []
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type = ""
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rom = -1
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if len(main_split) > 1:
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ext = main_split[1]
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opts = ext.split("//")[-1].strip().split(" ")
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for opt in list(opts):
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if opt.strip() == "":
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opts.remove(opt)
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if "type:" in opt:
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type = opt.split(":")[1]
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opts.remove(opt)
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elif "rom:" in opt:
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rom = int(opt.split(":")[1], 16)
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opts.remove(opt)
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elif "dead:" in opt:
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dead = True
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eqsplit = main.split(" = ")
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if len(eqsplit) != 2:
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print(f"Line malformed: '{main}'")
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sys.exit(1)
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name, addr = main.split(" = ")
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if not dead:
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symbol_addrs.append([name, int(addr, 0), type, rom, opts])
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else:
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dead_symbols.append([name, int(addr, 0), type, rom, opts])
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def read_elf():
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try:
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result = subprocess.run(["mips-linux-gnu-objdump", "-x", elf_path], stdout=subprocess.PIPE)
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objdump_lines = result.stdout.decode().split("\n")
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except:
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print(f"Error: Could not run objdump on {elf_path} - make sure that the project is built")
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sys.exit(1)
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for line in objdump_lines:
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if " F " in line or " O " in line or " *ABS*" in line:
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components = line.split()
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name = components[-1]
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if "_ROM_START" in name or "_ROM_END" in name:
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continue
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if (
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"/" in name
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or "." in name
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or name in ignores
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or name.startswith("_")
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or name.startswith("jtbl_")
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or name.endswith(".o")
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or re.match(r"L[0-9A-F]{8}", name)
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):
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continue
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addr = int(components[0], 16)
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if " F " in line or name.startswith("func_"):
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type = "func"
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else:
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type = "data"
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rom = None
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if name in map_symbols:
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rom = map_symbols[name][0]
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elif re.match(".*_[0-9A-F]{8}_[0-9A-F]{6}", name):
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rom = int(name.split("_")[-1], 16)
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elf_symbols.append((name, addr, type, rom))
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def log(s):
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if verbose:
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print(s)
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def reconcile_symbols():
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print(f"Processing {str(len(elf_symbols))} elf symbols...")
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for i, elf_sym in tqdm.tqdm(enumerate(elf_symbols), total=len(elf_symbols)):
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name_match = None
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rom_match = None
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for known_sym in symbol_addrs:
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# Name
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if not name_match:
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if elf_sym[0] == known_sym[0]:
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name_match = known_sym
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if elf_sym[1] != known_sym[1]:
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log(
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f"Ram mismatch! {elf_sym[0]} is 0x{elf_sym[1]:X} in the elf and 0x{known_sym[1]} in symbol_addrs"
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)
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# Rom
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if not rom_match:
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# Todo account for either or both syms not containing a rom addr
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if elf_sym[3]:
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if elf_sym[3] == known_sym[3]:
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rom_match = known_sym
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if not name_match and not rom_match:
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log(f"Creating new symbol {elf_sym[0]}")
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symbol_addrs.append(
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[
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elf_sym[0],
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elf_sym[1],
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elf_sym[2],
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elf_sym[3] if elf_sym[3] else -1,
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[],
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]
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)
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elif not name_match:
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log(f"Renaming identical rom address symbol {rom_match[0]} to {elf_sym[0]}")
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rom_match[0] = elf_sym[0]
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elif not rom_match and elf_sym[3]:
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if name_match[3] >= 0:
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log(f"Correcting rom address {name_match[3]} to {elf_sym[3]} for symbol {name_match[0]}")
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else:
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log(f"Adding rom address {elf_sym[3]} to symbol {name_match[0]}")
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name_match[3] = elf_sym[3]
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def write_new_symbol_addrs():
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with open(symbol_addrs_path, "w", newline="\n") as f:
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for symbol in sorted(symbol_addrs, key=lambda x: (x[3] == -1, x[3], x[1], x[0])):
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line = f"{symbol[0]} = 0x{symbol[1]:X}; //"
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if symbol[2] and len(symbol[2]) > 0:
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line += f" type:{symbol[2]}"
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if symbol[3] >= 0:
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line += f" rom:0x{symbol[3]:X}"
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if len(symbol[4]) > 0:
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for thing in symbol[4]:
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line += f" {thing}"
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f.write(line + "\n")
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for symbol in sorted(dead_symbols, key=lambda x: (x[3] == -1, x[3], x[1], x[0])):
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line = f"{symbol[0]} = 0x{symbol[1]:X}; //"
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if symbol[2] and len(symbol[2]) > 0:
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line += f" type:{symbol[2]}"
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if symbol[3] >= 0:
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line += f" rom:0x{symbol[3]:X}"
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if len(symbol[4]) > 0:
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for thing in symbol[4]:
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line += f" {thing}"
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f.write(line + "\n")
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read_ignores()
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scan_map()
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read_symbol_addrs()
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# chicken scratch cod to print out new / renamed symbols
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# with open("tools/new_syms.txt") as f:
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# new_syms = f.readlines()
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# new_sym_dict = {}
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# for sym_line in new_syms:
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# sym_line = sym_line.strip()
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# if sym_line:
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# name, rest = sym_line.split(" = ")
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# vram = int(rest.split(";")[0], 0)
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# new_sym_dict[vram] = name
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# renames = []
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# adds = []
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# for addr in new_sym_dict:
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# found = False
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# for thing in symbol_addrs:
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# if thing[1] == addr and not thing[0].startswith("func_") and not thing[0].startswith("D_"):
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# if new_sym_dict[addr] != thing[0]:
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# renames.append(f"{thing[0]} -> {new_sym_dict[addr]}")
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# found = True
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# break
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# if not found:
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# adds.append(f"{new_sym_dict[addr]} = {addr:X}")
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# for r in renames:
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# print(r)
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# for a in adds:
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# print(a)
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read_elf()
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reconcile_symbols()
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write_new_symbol_addrs()
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