papermario/tools/splat/split.py

#! /usr/bin/python3

import hashlib
from typing import Dict, List, Union, Set, Any
import argparse
import pylibyaml
import yaml
import pickle
from colorama import Style, Fore
from segtypes.segment import Segment
from segtypes.linker_entry import LinkerWriter
from util import log
from util import options
from util import symbols
from util import palettes

VERSION = "0.7.10"

parser = argparse.ArgumentParser(description="Split a rom given a rom, a config, and output directory")
parser.add_argument("config", help="path to a compatible config .yaml file")
parser.add_argument("--target", help="path to a file to split (.z64 rom)")
parser.add_argument("--basedir", help="a directory in which to extract the rom")
parser.add_argument("--modes", nargs="+", default="all")
parser.add_argument("--verbose", action="store_true", help="Enable debug logging")
parser.add_argument("--use-cache", action="store_true", help="Only split changed segments in config")

linker_writer: LinkerWriter
config: Dict[str, Any]

def fmt_size(size):
    if size > 1000000:
        return str(size // 1000000) + " MB"
    elif size > 1000:
        return str(size // 1000) + " KB"
    else:
        return str(size) + " B"

def initialize_segments(config_segments: Union[dict, list]) -> List[Segment]:
    seen_segment_names: Set[str] = set()
    ret = []

    for i, seg_yaml in enumerate(config_segments):
        # rompos marker
        if isinstance(seg_yaml, list) and len(seg_yaml) == 1:
            continue

        seg_type = Segment.parse_segment_type(seg_yaml)

        segment_class = Segment.get_class_for_type(seg_type)
        
        this_start = Segment.parse_segment_start(seg_yaml)
        next_start = Segment.parse_segment_start(config_segments[i + 1])

        segment: Segment = Segment.from_yaml(segment_class, seg_yaml, this_start, next_start)

        if segment.require_unique_name:
            if segment.name in seen_segment_names:
                log.error(f"segment name '{segment.name}' is not unique")

            seen_segment_names.add(segment.name)

        ret.append(segment)

    return ret

def get_segment_symbols(segment, all_segments):
    seg_syms = {}
    other_syms = {}

    for symbol in symbols.all_symbols:
        if symbols.is_symbol_isolated(symbol, all_segments) and not symbol.rom:
            if segment.contains_vram(symbol.vram_start):
                if symbol.vram_start not in seg_syms:
                    seg_syms[symbol.vram_start] = []
                seg_syms[symbol.vram_start].append(symbol)
            else:
                if symbol.vram_start not in other_syms:
                    other_syms[symbol.vram_start] = []
                other_syms[symbol.vram_start].append(symbol)
        else:
            if symbol.rom and segment.contains_rom(symbol.rom):
                if symbol.vram_start not in seg_syms:
                    seg_syms[symbol.vram_start] = []
                seg_syms[symbol.vram_start].append(symbol)
            else:
                if symbol.vram_start not in other_syms:
                    other_syms[symbol.vram_start] = []
                other_syms[symbol.vram_start].append(symbol)

    return seg_syms, other_syms

def do_statistics(seg_sizes, rom_bytes, seg_split, seg_cached):
    unk_size = seg_sizes.get("unk", 0)
    rest_size = 0
    total_size = len(rom_bytes)

    for typ in seg_sizes:
        if typ != "unk":
            rest_size += seg_sizes[typ]

    known_ratio = rest_size / total_size
    unk_ratio = unk_size / total_size

    log.write(f"Split {fmt_size(rest_size)} ({known_ratio:.2%}) in defined segments")
    for typ in seg_sizes:
        if typ != "unk":
            tmp_size = seg_sizes[typ]
            tmp_ratio = tmp_size / total_size
            log.write(f"{typ:>20}: {fmt_size(tmp_size):>8} ({tmp_ratio:.2%}) {Fore.GREEN}{seg_split[typ]} split{Style.RESET_ALL}, {Style.DIM}{seg_cached[typ]} cached")
    log.write(f"{'unknown':>20}: {fmt_size(unk_size):>8} ({unk_ratio:.2%}) from unknown bin files")

def main(config_path, base_dir, target_path, modes, verbose, use_cache=True):
    global config

    log.write(f"splat {VERSION}")

    # Load config
    with open(config_path) as f:
        config = yaml.load(f.read(), Loader=yaml.SafeLoader)

    options.initialize(config, config_path, base_dir, target_path)
    options.set("modes", modes)

    if verbose:
        options.set("verbose", True)

    with options.get_target_path().open("rb") as f2:
        rom_bytes = f2.read()

    if "sha1" in config:
        sha1 = hashlib.sha1(rom_bytes).hexdigest()
        e_sha1 = config["sha1"]
        if e_sha1 != sha1:
            log.error(f"sha1 mismatch: expected {e_sha1}, was {sha1}")

    # Create main output dir
    options.get_base_path().mkdir(parents=True, exist_ok=True)

    processed_segments: List[Segment] = []

    seg_sizes: Dict[str, int] = {}
    seg_split: Dict[str, int] = {}
    seg_cached: Dict[str, int] = {}

    # Load cache
    if use_cache:
        try:
            with options.get_cache_path().open("rb") as f3:
                cache = pickle.load(f3)
            
            if verbose:
                log.write(f"Loaded cache ({len(cache.keys())} items)")
        except Exception:
            cache = {}
    else:
        cache = {}

    # invalidate entire cache if options change
    if use_cache and cache.get("__options__") != config.get("options"):
        if verbose:
            log.write("Options changed, invalidating cache")

        cache = {
            "__options__": config.get("options"),
        }

    # Initialize segments
    all_segments = initialize_segments(config["segments"])

    # Load and process symbols
    if options.mode_active("code"):
        log.write("Loading and processing symbols")
        symbols.initialize(all_segments)

    # Resolve raster/palette siblings
    if options.mode_active("img"):
        palettes.initialize(all_segments)

    # Scan
    log.write("Starting scan")
    for segment in all_segments:
        typ = segment.type
        if segment.type == "bin" and segment.is_name_default():
            typ = "unk"

        if typ not in seg_sizes:
            seg_sizes[typ] = 0
            seg_split[typ] = 0
            seg_cached[typ] = 0
        seg_sizes[typ] += 0 if segment.size is None else segment.size

        if segment.should_scan():
            # Check cache but don't write anything
            if use_cache:
                if segment.cache() == cache.get(segment.unique_id()):
                    continue

            if segment.needs_symbols:
                segment_symbols, other_symbols = get_segment_symbols(segment, all_segments)
                segment.given_seg_symbols = segment_symbols
                segment.given_ext_symbols = other_symbols

            segment.did_run = True
            segment.scan(rom_bytes)

            processed_segments.append(segment)

            seg_split[typ] += 1

        log.dot(status=segment.status())

    # Split
    log.write("Starting split")
    for segment in all_segments:
        if use_cache:
            cached = segment.cache()

            if cached == cache.get(segment.unique_id()):
                # Cache hit
                seg_cached[typ] += 1
                continue
            else:
                # Cache miss; split
                cache[segment.unique_id()] = cached

        if segment.should_split():
            segment.split(rom_bytes)

        log.dot(status=segment.status())

    if options.mode_active("ld"):
        global linker_writer
        linker_writer = LinkerWriter()
        for segment in all_segments:
            linker_writer.add(segment)
        linker_writer.save_linker_script()
        linker_writer.save_symbol_header()

    # Write undefined_funcs_auto.txt
    if options.get_create_undefined_funcs_auto():
        to_write = [s for s in symbols.all_symbols if s.referenced and not s.defined and not s.dead and s.type == "func"]
        if len(to_write) > 0:
            with open(options.get_undefined_funcs_auto_path(), "w", newline="\n") as f:
                for symbol in to_write:
                    f.write(f"{symbol.name} = 0x{symbol.vram_start:X};\n")

    # write undefined_syms_auto.txt
    if options.get_create_undefined_syms_auto():
        to_write = [s for s in symbols.all_symbols if s.referenced and not s.defined and not s.dead and not s.type == "func"]
        if len(to_write) > 0:
            with open(options.get_undefined_syms_auto_path(), "w", newline="\n") as f:
                for symbol in to_write:
                    f.write(f"{symbol.name} = 0x{symbol.vram_start:X};\n")

    # print warnings during split
    for segment in all_segments:
        if len(segment.warnings) > 0:
            log.write(f"{Style.DIM}0x{segment.rom_start:06X}{Style.RESET_ALL} {segment.type} {Style.BRIGHT}{segment.name}{Style.RESET_ALL}:")

            for warn in segment.warnings:
                log.write("warning: " + warn, status="warn")

            log.write("") # empty line

    # Statistics
    do_statistics(seg_sizes, rom_bytes, seg_split, seg_cached)

    # Save cache
    if cache != {} and use_cache:
        if verbose:
            log.write("Writing cache")
        with open(options.get_cache_path(), "wb") as f4:
            pickle.dump(cache, f4)

if __name__ == "__main__":
    args = parser.parse_args()
    main(args.config, args.basedir, args.target, args.modes, args.verbose, args.use_cache)