### # decomp-toolkit project generator # Generates build.ninja and objdiff.json. # # This generator is intentionally project-agnostic # and shared between multiple projects. Any configuration # specific to a project should be added to `configure.py`. # # If changes are made, please submit a PR to # https://github.com/encounter/dtk-template ### import io import json import math import os import platform import sys from pathlib import Path from typing import Any, Dict, List, Optional, Set, Tuple, Union from . import ninja_syntax from .ninja_syntax import serialize_path if sys.platform == "cygwin": sys.exit( f"Cygwin/MSYS2 is not supported." f"\nPlease use native Windows Python instead." f"\n(Current path: {sys.executable})" ) class Object: def __init__(self, completed: bool, name: str, **options: Any) -> None: self.name = name self.base_name = Path(name).with_suffix("") self.completed = completed self.options: Dict[str, Any] = { "add_to_all": True, "asflags": None, "extra_asflags": None, "cflags": None, "extra_cflags": None, "mw_version": None, "shift_jis": None, "source": name, } self.options.update(options) class ProjectConfig: def __init__(self) -> None: # Paths self.build_dir: Path = Path("build") # Output build files self.src_dir: Path = Path("src") # C/C++/asm source files self.tools_dir: Path = Path("tools") # Python scripts self.asm_dir: Optional[Path] = Path( "asm" ) # Override incomplete objects (for modding) # Tooling self.binutils_tag: Optional[str] = None # Git tag self.binutils_path: Optional[Path] = None # If None, download self.dtk_tag: Optional[str] = None # Git tag self.dtk_path: Optional[Path] = None # If None, download self.compilers_tag: Optional[str] = None # 1 self.compilers_path: Optional[Path] = None # If None, download self.wibo_tag: Optional[str] = None # Git tag self.wrapper: Optional[Path] = None # If None, download wibo on Linux self.sjiswrap_tag: Optional[str] = None # Git tag self.sjiswrap_path: Optional[Path] = None # If None, download # Project config self.non_matching: bool = False self.build_rels: bool = True # Build REL files self.check_sha_path: Optional[Path] = None # Path to version.sha1 self.config_path: Optional[Path] = None # Path to config.yml self.debug: bool = False # Build with debug info self.generate_map: bool = False # Generate map file(s) self.asflags: Optional[List[str]] = None # Assembler flags self.ldflags: Optional[List[str]] = None # Linker flags self.libs: Optional[List[Dict[str, Any]]] = None # List of libraries self.linker_version: Optional[str] = None # mwld version self.version: Optional[str] = None # Version name self.warn_missing_config: bool = False # Warn on missing unit configuration self.warn_missing_source: bool = False # Warn on missing source file self.rel_strip_partial: bool = True # Generate PLFs with -strip_partial self.rel_empty_file: Optional[ str ] = None # Object name for generating empty RELs self.shift_jis = ( True # Convert source files from UTF-8 to Shift JIS automatically ) self.reconfig_deps: Optional[List[Path]] = ( None # Additional re-configuration dependency files ) # Progress output and progress.json config self.progress_all: bool = True # Include combined "all" category self.progress_modules: bool = True # Include combined "modules" category self.progress_each_module: bool = ( True # Include individual modules, disable for large numbers of modules ) # Progress fancy printing self.progress_use_fancy: bool = False self.progress_code_fancy_frac: int = 0 self.progress_code_fancy_item: str = "" self.progress_data_fancy_frac: int = 0 self.progress_data_fancy_item: str = "" def validate(self) -> None: required_attrs = [ "build_dir", "src_dir", "tools_dir", "check_sha_path", "config_path", "ldflags", "linker_version", "libs", "version", ] for attr in required_attrs: if getattr(self, attr) is None: sys.exit(f"ProjectConfig.{attr} missing") def find_object(self, name: str) -> Optional[Tuple[Dict[str, Any], Object]]: for lib in self.libs or {}: for obj in lib["objects"]: if obj.name == name: return lib, obj return None def out_path(self) -> Path: return self.build_dir / str(self.version) def is_windows() -> bool: return os.name == "nt" # On Windows, we need this to use && in commands CHAIN = "cmd /c " if is_windows() else "" # Native executable extension EXE = ".exe" if is_windows() else "" def make_flags_str(cflags: Union[str, List[str]]) -> str: if isinstance(cflags, list): return " ".join(cflags) else: return cflags # Load decomp-toolkit generated config.json def load_build_config( config: ProjectConfig, build_config_path: Path ) -> Optional[Dict[str, Any]]: if not build_config_path.is_file(): return None def versiontuple(v: str) -> Tuple[int, ...]: return tuple(map(int, (v.split(".")))) f = open(build_config_path, "r", encoding="utf-8") build_config: Dict[str, Any] = json.load(f) config_version = build_config.get("version") if not config_version: # Invalid config.json f.close() os.remove(build_config_path) return None dtk_version = str(config.dtk_tag)[1:] # Strip v if versiontuple(config_version) < versiontuple(dtk_version): # Outdated config.json f.close() os.remove(build_config_path) return None f.close() return build_config # Generate build.ninja and objdiff.json def generate_build(config: ProjectConfig) -> None: build_config = load_build_config(config, config.out_path() / "config.json") generate_build_ninja(config, build_config) generate_objdiff_config(config, build_config) # Generate build.ninja def generate_build_ninja( config: ProjectConfig, build_config: Optional[Dict[str, Any]] ) -> None: config.validate() out = io.StringIO() n = ninja_syntax.Writer(out) n.variable("ninja_required_version", "1.3") n.newline() configure_script = Path(os.path.relpath(os.path.abspath(sys.argv[0]))) python_lib = Path(os.path.relpath(__file__)) python_lib_dir = python_lib.parent n.comment("The arguments passed to configure.py, for rerunning it.") n.variable("configure_args", sys.argv[1:]) n.variable("python", f'"{sys.executable}"') n.newline() ### # Variables ### n.comment("Variables") ldflags = " ".join(config.ldflags or []) if config.generate_map: ldflags += " -mapunused" if config.debug: ldflags += " -g" n.variable("ldflags", ldflags) if not config.linker_version: sys.exit("ProjectConfig.linker_version missing") n.variable("mw_version", Path(config.linker_version)) n.newline() ### # Tooling ### n.comment("Tooling") build_path = config.out_path() progress_path = build_path / "progress.json" build_tools_path = config.build_dir / "tools" download_tool = config.tools_dir / "download_tool.py" n.rule( name="download_tool", command=f"$python {download_tool} $tool $out --tag $tag", description="TOOL $out", ) decompctx = config.tools_dir / "decompctx.py" n.rule( name="decompctx", command=f"$python {decompctx} $in -o $out -d $out.d", description="CTX $in", depfile="$out.d", deps="gcc", ) if config.dtk_path is not None and config.dtk_path.is_file(): dtk = config.dtk_path elif config.dtk_path is not None: dtk = build_tools_path / "release" / f"dtk{EXE}" n.rule( name="cargo", command="cargo build --release --manifest-path $in --bin $bin --target-dir $target", description="CARGO $bin", depfile=Path("$target") / "release" / "$bin.d", deps="gcc", ) n.build( outputs=dtk, rule="cargo", inputs=config.dtk_path / "Cargo.toml", implicit=config.dtk_path / "Cargo.lock", variables={ "bin": "dtk", "target": build_tools_path, }, ) elif config.dtk_tag: dtk = build_tools_path / f"dtk{EXE}" n.build( outputs=dtk, rule="download_tool", implicit=download_tool, variables={ "tool": "dtk", "tag": config.dtk_tag, }, ) else: sys.exit("ProjectConfig.dtk_tag missing") if config.sjiswrap_path: sjiswrap = config.sjiswrap_path elif config.sjiswrap_tag: sjiswrap = build_tools_path / "sjiswrap.exe" n.build( outputs=sjiswrap, rule="download_tool", implicit=download_tool, variables={ "tool": "sjiswrap", "tag": config.sjiswrap_tag, }, ) else: sys.exit("ProjectConfig.sjiswrap_tag missing") # Only add an implicit dependency on wibo if we download it wrapper = config.wrapper wrapper_implicit: Optional[Path] = None if ( config.wibo_tag is not None and sys.platform == "linux" and platform.machine() in ("i386", "x86_64") and config.wrapper is None ): wrapper = build_tools_path / "wibo" wrapper_implicit = wrapper n.build( outputs=wrapper, rule="download_tool", implicit=download_tool, variables={ "tool": "wibo", "tag": config.wibo_tag, }, ) if not is_windows() and wrapper is None: wrapper = Path("wine") wrapper_cmd = f"{wrapper} " if wrapper else "" compilers_implicit: Optional[Path] = None if config.compilers_path: compilers = config.compilers_path elif config.compilers_tag: compilers = config.build_dir / "compilers" compilers_implicit = compilers n.build( outputs=compilers, rule="download_tool", implicit=download_tool, variables={ "tool": "compilers", "tag": config.compilers_tag, }, ) else: sys.exit("ProjectConfig.compilers_tag missing") binutils_implicit = None if config.binutils_path: binutils = config.binutils_path elif config.binutils_tag: binutils = config.build_dir / "binutils" binutils_implicit = binutils n.build( outputs=binutils, rule="download_tool", implicit=download_tool, variables={ "tool": "binutils", "tag": config.binutils_tag, }, ) else: sys.exit("ProjectConfig.binutils_tag missing") n.newline() ### # Build rules ### compiler_path = compilers / "$mw_version" # MWCC mwcc = compiler_path / "mwcceppc.exe" mwcc_cmd = f"{wrapper_cmd}{mwcc} $cflags -MMD -c $in -o $basedir" mwcc_implicit: List[Optional[Path]] = [compilers_implicit or mwcc, wrapper_implicit] # MWCC with UTF-8 to Shift JIS wrapper mwcc_sjis_cmd = f"{wrapper_cmd}{sjiswrap} {mwcc} $cflags -MMD -c $in -o $basedir" mwcc_sjis_implicit: List[Optional[Path]] = [*mwcc_implicit, sjiswrap] # MWLD mwld = compiler_path / "mwldeppc.exe" mwld_cmd = f"{wrapper_cmd}{mwld} $ldflags -o $out @$out.rsp" mwld_implicit: List[Optional[Path]] = [compilers_implicit or mwld, wrapper_implicit] # GNU as gnu_as = binutils / f"powerpc-eabi-as{EXE}" gnu_as_cmd = ( f"{CHAIN}{gnu_as} $asflags -o $out $in -MD $out.d" + f" && {dtk} elf fixup $out $out" ) gnu_as_implicit = [binutils_implicit or gnu_as, dtk] if os.name != "nt": transform_dep = config.tools_dir / "transform_dep.py" mwcc_cmd += f" && $python {transform_dep} $basefile.d $basefile.d" mwcc_sjis_cmd += f" && $python {transform_dep} $basefile.d $basefile.d" mwcc_implicit.append(transform_dep) mwcc_sjis_implicit.append(transform_dep) n.comment("Link ELF file") n.rule( name="link", command=mwld_cmd, description="LINK $out", rspfile="$out.rsp", rspfile_content="$in_newline", ) n.newline() n.comment("Generate DOL") n.rule( name="elf2dol", command=f"{dtk} elf2dol $in $out", description="DOL $out", ) n.newline() n.comment("MWCC build") n.rule( name="mwcc", command=mwcc_cmd, description="MWCC $out", depfile="$basefile.d", deps="gcc", ) n.newline() n.comment("MWCC build (with UTF-8 to Shift JIS wrapper)") n.rule( name="mwcc_sjis", command=mwcc_sjis_cmd, description="MWCC $out", depfile="$basefile.d", deps="gcc", ) n.newline() n.comment("Assemble asm") n.rule( name="as", command=gnu_as_cmd, description="AS $out", depfile="$out.d", deps="gcc", ) n.newline() n.comment("Host build") n.variable("host_cflags", "-I include -Wno-trigraphs") n.variable( "host_cppflags", "-std=c++98 -I include -fno-exceptions -fno-rtti -D_CRT_SECURE_NO_WARNINGS -Wno-trigraphs -Wno-c++11-extensions", ) n.rule( name="host_cc", command="clang $host_cflags -c -o $out $in", description="CC $out", ) n.rule( name="host_cpp", command="clang++ $host_cppflags -c -o $out $in", description="CXX $out", ) n.newline() ### # Source files ### n.comment("Source files") build_asm_path = build_path / "mod" build_src_path = build_path / "src" build_host_path = build_path / "host" build_config_path = build_path / "config.json" def map_path(path: Path) -> Path: return path.parent / (path.name + ".MAP") class LinkStep: def __init__(self, config: Dict[str, Any]) -> None: self.name: str = config["name"] self.module_id: int = config["module_id"] self.ldscript: Optional[Path] = Path(config["ldscript"]) self.entry = config["entry"] self.inputs: List[str] = [] def add(self, obj: Path) -> None: self.inputs.append(serialize_path(obj)) def output(self) -> Path: if self.module_id == 0: return build_path / f"{self.name}.dol" else: return build_path / self.name / f"{self.name}.rel" def partial_output(self) -> Path: if self.module_id == 0: return build_path / f"{self.name}.elf" else: return build_path / self.name / f"{self.name}.plf" def write(self, n: ninja_syntax.Writer) -> None: n.comment(f"Link {self.name}") if self.module_id == 0: elf_path = build_path / f"{self.name}.elf" dol_path = build_path / f"{self.name}.dol" elf_ldflags = f"$ldflags -lcf {serialize_path(self.ldscript)}" if config.generate_map: elf_map = map_path(elf_path) elf_ldflags += f" -map {serialize_path(elf_map)}" else: elf_map = None n.build( outputs=elf_path, rule="link", inputs=self.inputs, implicit=[self.ldscript, *mwld_implicit], implicit_outputs=elf_map, variables={"ldflags": elf_ldflags}, ) n.build( outputs=dol_path, rule="elf2dol", inputs=elf_path, implicit=dtk, ) else: preplf_path = build_path / self.name / f"{self.name}.preplf" plf_path = build_path / self.name / f"{self.name}.plf" preplf_ldflags = "$ldflags -sdata 0 -sdata2 0 -r" plf_ldflags = f"$ldflags -sdata 0 -sdata2 0 -r1 -lcf {serialize_path(self.ldscript)}" if self.entry: plf_ldflags += f" -m {self.entry}" # -strip_partial is only valid with -m if config.rel_strip_partial: plf_ldflags += " -strip_partial" if config.generate_map: preplf_map = map_path(preplf_path) preplf_ldflags += f" -map {serialize_path(preplf_map)}" plf_map = map_path(plf_path) plf_ldflags += f" -map {serialize_path(plf_map)}" else: preplf_map = None plf_map = None n.build( outputs=preplf_path, rule="link", inputs=self.inputs, implicit=mwld_implicit, implicit_outputs=preplf_map, variables={"ldflags": preplf_ldflags}, ) n.build( outputs=plf_path, rule="link", inputs=self.inputs, implicit=[self.ldscript, preplf_path, *mwld_implicit], implicit_outputs=plf_map, variables={"ldflags": plf_ldflags}, ) n.newline() link_outputs: List[Path] = [] if build_config: link_steps: List[LinkStep] = [] used_compiler_versions: Set[str] = set() source_inputs: List[Path] = [] host_source_inputs: List[Path] = [] source_added: Set[Path] = set() def c_build( obj: Object, options: Dict[str, Any], lib_name: str, src_path: Path ) -> Optional[Path]: cflags_str = make_flags_str(options["cflags"]) if options["extra_cflags"] is not None: extra_cflags_str = make_flags_str(options["extra_cflags"]) cflags_str += " " + extra_cflags_str used_compiler_versions.add(options["mw_version"]) src_obj_path = build_src_path / f"{obj.base_name}.o" src_base_path = build_src_path / obj.base_name # Avoid creating duplicate build rules if src_obj_path in source_added: return src_obj_path source_added.add(src_obj_path) shift_jis = options["shift_jis"] if shift_jis is None: shift_jis = config.shift_jis # Add MWCC build rule n.comment(f"{obj.name}: {lib_name} (linked {obj.completed})") n.build( outputs=src_obj_path, rule="mwcc_sjis" if shift_jis else "mwcc", inputs=src_path, variables={ "mw_version": Path(options["mw_version"]), "cflags": cflags_str, "basedir": os.path.dirname(src_base_path), "basefile": src_base_path, }, implicit=mwcc_sjis_implicit if shift_jis else mwcc_implicit, ) # Add ctx build rule ctx_path = build_src_path / f"{obj.base_name}.ctx" n.build( outputs=ctx_path, rule="decompctx", inputs=src_path, implicit=decompctx, ) # Add host build rule if options.get("host", False): host_obj_path = build_host_path / f"{obj.base_name}.o" host_base_path = build_host_path / obj.base_name n.build( outputs=host_obj_path, rule="host_cc" if src_path.suffix == ".c" else "host_cpp", inputs=src_path, variables={ "basedir": os.path.dirname(host_base_path), "basefile": host_base_path, }, ) if options["add_to_all"]: host_source_inputs.append(host_obj_path) n.newline() if options["add_to_all"]: source_inputs.append(src_obj_path) return src_obj_path def asm_build( obj: Object, options: Dict[str, Any], lib_name: str, src_path: Path ) -> Optional[Path]: asflags = options["asflags"] or config.asflags if asflags is None: sys.exit("ProjectConfig.asflags missing") asflags_str = make_flags_str(asflags) if options["extra_asflags"] is not None: extra_asflags_str = make_flags_str(options["extra_asflags"]) asflags_str += " " + extra_asflags_str asm_obj_path = build_asm_path / f"{obj.base_name}.o" # Avoid creating duplicate build rules if asm_obj_path in source_added: return asm_obj_path source_added.add(asm_obj_path) # Add assembler build rule n.comment(f"{obj.name}: {lib_name} (linked {obj.completed})") n.build( outputs=asm_obj_path, rule="as", inputs=src_path, variables={"asflags": asflags_str}, implicit=gnu_as_implicit, ) n.newline() if options["add_to_all"]: source_inputs.append(asm_obj_path) return asm_obj_path def add_unit(build_obj, link_step: LinkStep): obj_path, obj_name = build_obj["object"], build_obj["name"] result = config.find_object(obj_name) if not result: if config.warn_missing_config and not build_obj["autogenerated"]: print(f"Missing configuration for {obj_name}") link_step.add(obj_path) return lib, obj = result lib_name = lib["lib"] # Use object options, then library options options = lib.copy() for key, value in obj.options.items(): if value is not None or key not in options: options[key] = value unit_src_path = Path(lib.get("src_dir", config.src_dir)) / options["source"] unit_asm_path: Optional[Path] = None if config.asm_dir is not None: unit_asm_path = ( Path(lib.get("asm_dir", config.asm_dir)) / options["source"] ).with_suffix(".s") link_built_obj = obj.completed built_obj_path: Optional[Path] = None if unit_src_path.exists(): if unit_src_path.suffix in (".c", ".cp", ".cpp"): # Add MWCC & host build rules built_obj_path = c_build(obj, options, lib_name, unit_src_path) elif unit_src_path.suffix == ".s": # Add assembler build rule built_obj_path = asm_build(obj, options, lib_name, unit_src_path) else: sys.exit(f"Unknown source file type {unit_src_path}") else: if config.warn_missing_source or obj.completed: print(f"Missing source file {unit_src_path}") link_built_obj = False # Assembly overrides if unit_asm_path is not None and unit_asm_path.exists(): link_built_obj = True built_obj_path = asm_build(obj, options, lib_name, unit_asm_path) if link_built_obj and built_obj_path is not None: # Use the source-built object link_step.add(built_obj_path) elif obj_path is not None: # Use the original (extracted) object link_step.add(obj_path) else: sys.exit(f"Missing object for {obj_name}: {unit_src_path} {lib} {obj}") # Add DOL link step link_step = LinkStep(build_config) for unit in build_config["units"]: add_unit(unit, link_step) link_steps.append(link_step) if config.build_rels: # Add REL link steps for module in build_config["modules"]: module_link_step = LinkStep(module) for unit in module["units"]: add_unit(unit, module_link_step) # Add empty object to empty RELs if len(module_link_step.inputs) == 0: if not config.rel_empty_file: sys.exit("ProjectConfig.rel_empty_file missing") add_unit( { "object": None, "name": config.rel_empty_file, "autogenerated": True, }, module_link_step, ) link_steps.append(module_link_step) n.newline() # Check if all compiler versions exist for mw_version in used_compiler_versions: mw_path = compilers / mw_version / "mwcceppc.exe" if config.compilers_path and not os.path.exists(mw_path): sys.exit(f"Compiler {mw_path} does not exist") # Check if linker exists mw_path = compilers / str(config.linker_version) / "mwldeppc.exe" if config.compilers_path and not os.path.exists(mw_path): sys.exit(f"Linker {mw_path} does not exist") ### # Link ### for step in link_steps: step.write(n) link_outputs.append(step.output()) n.newline() ### # Generate RELs ### n.comment("Generate REL(s)") flags = "-w" if len(build_config["links"]) > 1: flags += " -q" n.rule( name="makerel", command=f"{dtk} rel make {flags} -c $config $names @$rspfile", description="REL", rspfile="$rspfile", rspfile_content="$in_newline", ) generated_rels = [] for idx, link in enumerate(build_config["links"]): # Map module names to link steps link_steps_local = list( filter( lambda step: step.name in link["modules"], link_steps, ) ) link_steps_local.sort(key=lambda step: step.module_id) # RELs can be the output of multiple link steps, # so we need to filter out duplicates rels_to_generate = list( filter( lambda step: step.module_id != 0 and step.name not in generated_rels, link_steps_local, ) ) if len(rels_to_generate) == 0: continue generated_rels.extend(map(lambda step: step.name, rels_to_generate)) rel_outputs = list( map( lambda step: step.output(), rels_to_generate, ) ) rel_names = list( map( lambda step: step.name, link_steps_local, ) ) rel_names_arg = " ".join(map(lambda name: f"-n {name}", rel_names)) n.build( outputs=rel_outputs, rule="makerel", inputs=list(map(lambda step: step.partial_output(), link_steps_local)), implicit=[dtk, config.config_path], variables={ "config": config.config_path, "rspfile": config.out_path() / f"rel{idx}.rsp", "names": rel_names_arg, }, ) n.newline() ### # Helper rule for building all source files ### n.comment("Build all source files") n.build( outputs="all_source", rule="phony", inputs=source_inputs, ) n.newline() ### # Helper rule for building all source files, with a host compiler ### n.comment("Build all source files with a host compiler") n.build( outputs="all_source_host", rule="phony", inputs=host_source_inputs, ) n.newline() ### # Check hash ### n.comment("Check hash") ok_path = build_path / "ok" quiet = "-q " if len(link_steps) > 3 else "" n.rule( name="check", command=f"{dtk} shasum {quiet} -c $in -o $out", description="CHECK $in", ) n.build( outputs=ok_path, rule="check", inputs=config.check_sha_path, implicit=[dtk, *link_outputs], ) n.newline() ### # Calculate progress ### n.comment("Calculate progress") n.rule( name="progress", command=f"$python {configure_script} $configure_args progress", description="PROGRESS", ) n.build( outputs=progress_path, rule="progress", implicit=[ok_path, configure_script, python_lib, config.config_path], ) ### # Helper tools ### # TODO: make these rules work for RELs too dol_link_step = link_steps[0] dol_elf_path = dol_link_step.partial_output() n.comment("Check for mismatching symbols") n.rule( name="dol_diff", command=f"{dtk} -L error dol diff $in", description=f"DIFF {dol_elf_path}", ) n.build( inputs=[config.config_path, dol_elf_path], outputs="dol_diff", rule="dol_diff", ) n.build( outputs="diff", rule="phony", inputs="dol_diff", ) n.newline() n.comment("Apply symbols from linked ELF") n.rule( name="dol_apply", command=f"{dtk} dol apply $in", description=f"APPLY {dol_elf_path}", ) n.build( inputs=[config.config_path, dol_elf_path], outputs="dol_apply", rule="dol_apply", implicit=[ok_path], ) n.build( outputs="apply", rule="phony", inputs="dol_apply", ) n.newline() ### # Split DOL ### n.comment("Split DOL into relocatable objects") n.rule( name="split", command=f"{dtk} dol split $in $out_dir", description="SPLIT $in", depfile="$out_dir/dep", deps="gcc", ) n.build( inputs=config.config_path, outputs=build_config_path, rule="split", implicit=dtk, variables={"out_dir": build_path}, ) n.newline() ### # Regenerate on change ### n.comment("Reconfigure on change") n.rule( name="configure", command=f"$python {configure_script} $configure_args", generator=True, description=f"RUN {configure_script}", ) n.build( outputs="build.ninja", rule="configure", implicit=[ build_config_path, configure_script, python_lib, python_lib_dir / "ninja_syntax.py", *(config.reconfig_deps or []) ], ) n.newline() ### # Default rule ### n.comment("Default rule") if build_config: if config.non_matching: n.default(link_outputs) else: n.default(progress_path) else: n.default(build_config_path) # Write build.ninja with open("build.ninja", "w", encoding="utf-8") as f: f.write(out.getvalue()) out.close() # Generate objdiff.json def generate_objdiff_config( config: ProjectConfig, build_config: Optional[Dict[str, Any]] ) -> None: if not build_config: return objdiff_config: Dict[str, Any] = { "min_version": "1.0.0", "custom_make": "ninja", "build_target": False, "watch_patterns": [ "*.c", "*.cp", "*.cpp", "*.h", "*.hpp", "*.inc", "*.py", "*.yml", "*.txt", "*.json", ], "units": [], } # decomp.me compiler name mapping # Commented out versions have not been added to decomp.me yet COMPILER_MAP = { "GC/1.0": "mwcc_233_144", "GC/1.1": "mwcc_233_159", "GC/1.2.5": "mwcc_233_163", "GC/1.2.5e": "mwcc_233_163e", "GC/1.2.5n": "mwcc_233_163n", "GC/1.3.2": "mwcc_242_81", "GC/1.3.2r": "mwcc_242_81r", "GC/2.0": "mwcc_247_92", "GC/2.5": "mwcc_247_105", "GC/2.6": "mwcc_247_107", "GC/2.7": "mwcc_247_108", "GC/3.0a3": "mwcc_41_51213", "GC/3.0a3.2": "mwcc_41_60126", "GC/3.0a3.3": "mwcc_41_60209", "GC/3.0a3.4": "mwcc_42_60308", "GC/3.0a5": "mwcc_42_60422", "GC/3.0a5.2": "mwcc_41_60831", "GC/3.0": "mwcc_41_60831", "Wii/1.0RC1": "mwcc_42_140", "Wii/0x4201_127": "mwcc_42_142", "Wii/1.0a": "mwcc_42_142", "Wii/1.0": "mwcc_43_145", "Wii/1.1": "mwcc_43_151", "Wii/1.3": "mwcc_43_172", "Wii/1.5": "mwcc_43_188", "Wii/1.6": "mwcc_43_202", "Wii/1.7": "mwcc_43_213", } build_path = config.out_path() def add_unit(build_obj: Dict[str, Any], module_name: str) -> None: if build_obj["autogenerated"]: # Skip autogenerated objects return obj_path, obj_name = build_obj["object"], build_obj["name"] base_object = Path(obj_name).with_suffix("") unit_config: Dict[str, Any] = { "name": Path(module_name) / base_object, "target_path": obj_path, } result = config.find_object(obj_name) if not result: objdiff_config["units"].append(unit_config) return lib, obj = result src_dir = Path(lib.get("src_dir", config.src_dir)) # Use object options, then library options options = lib.copy() for key, value in obj.options.items(): if value is not None or key not in options: options[key] = value unit_src_path = src_dir / str(options["source"]) if not unit_src_path.exists(): objdiff_config["units"].append(unit_config) return cflags = options["cflags"] src_obj_path = build_path / "src" / f"{obj.base_name}.o" src_ctx_path = build_path / "src" / f"{obj.base_name}.ctx" reverse_fn_order = False if type(cflags) is list: for flag in cflags: if not flag.startswith("-inline "): continue for value in flag.split(" ")[1].split(","): if value == "deferred": reverse_fn_order = True elif value == "nodeferred": reverse_fn_order = False # Filter out include directories def keep_flag(flag): return not flag.startswith("-i ") and not flag.startswith("-I ") cflags = list(filter(keep_flag, cflags)) # Add appropriate lang flag if unit_src_path.suffix in (".cp", ".cpp"): cflags.insert(0, "-lang=c++") else: cflags.insert(0, "-lang=c") unit_config["base_path"] = src_obj_path unit_config["reverse_fn_order"] = reverse_fn_order unit_config["complete"] = obj.completed compiler_version = COMPILER_MAP.get(options["mw_version"]) if compiler_version is None: print(f"Missing scratch compiler mapping for {options['mw_version']}") else: cflags_str = make_flags_str(cflags) if options["extra_cflags"] is not None: extra_cflags_str = make_flags_str(options["extra_cflags"]) cflags_str += " " + extra_cflags_str unit_config["scratch"] = { "platform": "gc_wii", "compiler": compiler_version, "c_flags": cflags_str, "ctx_path": src_ctx_path, "build_ctx": True, } objdiff_config["units"].append(unit_config) # Add DOL units for unit in build_config["units"]: add_unit(unit, build_config["name"]) # Add REL units for module in build_config["modules"]: for unit in module["units"]: add_unit(unit, module["name"]) # Write objdiff.json with open("objdiff.json", "w", encoding="utf-8") as w: def unix_path(input: Any) -> str: return str(input).replace(os.sep, "/") if input else "" json.dump(objdiff_config, w, indent=4, default=unix_path) # Calculate, print and write progress to progress.json def calculate_progress(config: ProjectConfig) -> None: out_path = config.out_path() build_config = load_build_config(config, out_path / "config.json") if not build_config: return class ProgressUnit: def __init__(self, name: str) -> None: self.name: str = name self.code_total: int = 0 self.code_fancy_frac: int = config.progress_code_fancy_frac self.code_fancy_item: str = config.progress_code_fancy_item self.code_progress: int = 0 self.data_total: int = 0 self.data_fancy_frac: int = config.progress_data_fancy_frac self.data_fancy_item: str = config.progress_data_fancy_item self.data_progress: int = 0 self.objects_progress: int = 0 self.objects_total: int = 0 self.objects: Set[Object] = set() def add(self, build_obj: Dict[str, Any]) -> None: self.code_total += build_obj["code_size"] self.data_total += build_obj["data_size"] # Avoid counting the same object in different modules twice include_object = build_obj["name"] not in self.objects if include_object: self.objects.add(build_obj["name"]) self.objects_total += 1 if build_obj["autogenerated"]: # Skip autogenerated objects return result = config.find_object(build_obj["name"]) if not result: return _, obj = result if not obj.completed: return self.code_progress += build_obj["code_size"] self.data_progress += build_obj["data_size"] if include_object: self.objects_progress += 1 def code_frac(self) -> float: return self.code_progress / self.code_total def data_frac(self) -> float: return self.data_progress / self.data_total # Add DOL units all_progress = ProgressUnit("All") if config.progress_all else None dol_progress = ProgressUnit("DOL") for unit in build_config["units"]: if all_progress: all_progress.add(unit) dol_progress.add(unit) # Add REL units rels_progress = ProgressUnit("Modules") if config.progress_modules else None modules_progress: List[ProgressUnit] = [] for module in build_config["modules"]: progress = ProgressUnit(module["name"]) modules_progress.append(progress) for unit in module["units"]: if all_progress: all_progress.add(unit) if rels_progress: rels_progress.add(unit) progress.add(unit) # Print human-readable progress print("Progress:") def print_category(unit: Optional[ProgressUnit]) -> None: if unit is None: return code_frac = unit.code_frac() data_frac = unit.data_frac() print( f" {unit.name}: {code_frac:.2%} code, {data_frac:.2%} data ({unit.objects_progress} / {unit.objects_total} files)" ) print(f" Code: {unit.code_progress} / {unit.code_total} bytes") print(f" Data: {unit.data_progress} / {unit.data_total} bytes") if config.progress_use_fancy: print( "\nYou have {} out of {} {} and {} out of {} {}.".format( math.floor(code_frac * unit.code_fancy_frac), unit.code_fancy_frac, unit.code_fancy_item, math.floor(data_frac * unit.data_fancy_frac), unit.data_fancy_frac, unit.data_fancy_item, ) ) if all_progress: print_category(all_progress) print_category(dol_progress) module_count = len(build_config["modules"]) if module_count > 0: print_category(rels_progress) if config.progress_each_module: for progress in modules_progress: print_category(progress) # Generate and write progress.json progress_json: Dict[str, Any] = {} def add_category(category: str, unit: ProgressUnit) -> None: progress_json[category] = { "code": unit.code_progress, "code/total": unit.code_total, "data": unit.data_progress, "data/total": unit.data_total, } if all_progress: add_category("all", all_progress) add_category("dol", dol_progress) if len(build_config["modules"]) > 0: if rels_progress: add_category("modules", rels_progress) if config.progress_each_module: for progress in modules_progress: add_category(progress.name, progress) with open(out_path / "progress.json", "w", encoding="utf-8") as w: json.dump(progress_json, w, indent=4)