papermario/tools/build/configure.py
Ethan Roseman 4c787f68c1
Effect_6 done, splat, diff updates (#451)
* fx_6_appendGfx

* update_effects

* effect_6 done

* Update diff.py

* update configure for new splat

* git subrepo pull --force tools/splat

subrepo:
  subdir:   "tools/splat"
  merged:   "0efa552c5d"
upstream:
  origin:   "https://github.com/ethteck/splat.git"
  branch:   "master"
  commit:   "0efa552c5d"
git-subrepo:
  version:  "0.4.3"
  origin:   "https://github.com/ingydotnet/git-subrepo"
  commit:   "2f68596"

* nu stuff / undefined_syms org
2021-09-30 18:48:03 +09:00

746 lines
29 KiB
Python
Executable File

#!/usr/bin/env python3
from typing import List, Dict, Set, Union
from pathlib import Path
import subprocess
import sys
import ninja_syntax
from glob import glob
# Configuration:
VERSIONS = ["us", "jp"]
DO_SHA1_CHECK = True
# Paths:
ROOT = Path(__file__).parent.parent.parent
BUILD_TOOLS = (ROOT / "tools" / "build").relative_to(ROOT)
YAY0_COMPRESS_TOOL = f"{BUILD_TOOLS}/yay0/Yay0compress"
CRC_TOOL = f"{BUILD_TOOLS}/rom/n64crc"
def rm_recursive(path: Path):
if path.exists():
if path.is_dir():
for f in path.iterdir():
rm_recursive(f)
path.rmdir()
else:
path.unlink()
def exec_shell(command: List[str]) -> str:
ret = subprocess.run(command, stdout=subprocess.PIPE, text=True)
return ret.stdout
def write_ninja_rules(ninja: ninja_syntax.Writer, cpp: str, cppflags: str, extra_cflags: str, use_ccache: bool):
# platform-specific
if sys.platform == "darwin":
iconv = "tools/iconv.py UTF-8 SHIFT-JIS"
elif sys.platform == "linux":
iconv = "iconv --from UTF-8 --to SHIFT-JIS"
else:
raise Exception(f"unsupported platform {sys.platform}")
ccache = ""
if use_ccache:
ccache = "ccache "
try:
subprocess.call(["ccache"], stdout=subprocess.DEVNULL, stderr=subprocess.DEVNULL)
except FileNotFoundError:
ccache = ""
cross = "mips-linux-gnu-"
cc = f"{BUILD_TOOLS}/cc/gcc/gcc"
cc_ido = f"{BUILD_TOOLS}/cc/ido5.3/cc"
cxx = f"{BUILD_TOOLS}/cc/gcc/g++"
compile_script = f"$python {BUILD_TOOLS}/cc_dsl/compile_script.py"
CPPFLAGS_COMMON = "-w -Iver/$version/build/include -Iinclude -Isrc -Iassets/$version -D_LANGUAGE_C -D_FINALROM " \
"-DVERSION=$version -DF3DEX_GBI_2 -D_MIPS_SZLONG=32"
CPPFLAGS = CPPFLAGS_COMMON + " -nostdinc"
cflags = f"-c -G0 -O2 -fno-common -B {BUILD_TOOLS}/cc/gcc/ {extra_cflags}"
ninja.variable("python", sys.executable)
ninja.rule("ld",
description="link($version) $out",
command=f"{cross}ld -T ver/$version/build/undefined_syms.txt -T ver/$version/undefined_syms_auto.txt -T ver/$version/undefined_funcs_auto.txt -Map $mapfile --no-check-sections -T $in -o $out",
)
ninja.rule("z64",
description="rom $out",
command=f"{cross}objcopy $in $out -O binary && {BUILD_TOOLS}/rom/n64crc $out",
)
ninja.rule("sha1sum",
description="check $in",
command="sha1sum -c $in && touch $out" if DO_SHA1_CHECK else "touch $out",
)
ninja.rule("cpp",
description="cpp $in",
command=f"{cpp} $in {cppflags} -P -o $out"
)
ninja.rule("cc",
description="cc $in",
command=f"bash -o pipefail -c '{cpp} {CPPFLAGS} {cppflags} -MD -MF $out.d $in -o - | {iconv} > $out.i && {ccache}{cc} {cflags} $cflags $out.i -o $out'",
depfile="$out.d",
deps="gcc",
)
ninja.rule("cc_dsl",
description="cc $in $cflags",
command=f"bash -o pipefail -c '{cpp} {CPPFLAGS} {cppflags} -MD -MF $out.d $in -o - | {compile_script} | {iconv} > $out.i && {cc} {cflags} $cflags $out.i -o $out'",
depfile="$out.d",
deps="gcc",
)
ninja.rule("cc_ido",
description="cc_ido $in",
command=f"{ccache}{cc_ido} {CPPFLAGS_COMMON} {cppflags} -c -mips1 -O0 -G0 -non_shared -Xfullwarn -Xcpluscomm -o $out $in",
)
ninja.rule("cxx",
description="cxx $in",
command=f"bash -o pipefail -c '{cpp} {CPPFLAGS} {cppflags} -MD -MF $out.d $in -o - | {iconv} > $out.i && {ccache}{cxx} {cflags} $cflags $out.i -o $out'",
depfile="$out.d",
deps="gcc",
)
ninja.rule("bin",
description="bin $in",
command=f"{cross}ld -r -b binary $in -o $out",
)
ninja.rule("as",
description="as $in",
command=f"{cross}as -EB -march=vr4300 -mtune=vr4300 -Iinclude $in -o $out",
)
ninja.rule("img",
description="img($img_type) $in",
command=f"$python {BUILD_TOOLS}/img/build.py $img_type $in $out $img_flags",
)
ninja.rule("img_header",
description="img_header $in",
command=f"$python {BUILD_TOOLS}/img/header.py $in $out",
)
ninja.rule("bin_inc_c",
description="bin_inc_c $out",
command=f"$python {BUILD_TOOLS}/bin_inc_c.py $in $out",
)
ninja.rule("yay0",
description="yay0 $in",
command=f"{BUILD_TOOLS}/yay0/Yay0compress $in $out",
)
ninja.rule("sprite",
description="sprite $sprite_name",
command=f"$python {BUILD_TOOLS}/sprites/sprite.py $out $sprite_dir",
)
ninja.rule("sprite_combine",
description="sprite_combine $in",
command=f"$python {BUILD_TOOLS}/sprites/combine.py $out $in",
)
ninja.rule("sprite_header",
description="sprite_header $sprite_name",
command=f"$python {BUILD_TOOLS}/sprites/header.py $out $sprite_dir $sprite_id",
)
ninja.rule("msg",
description="msg $in",
command=f"$python {BUILD_TOOLS}/msg/parse_compile.py $in $out",
)
ninja.rule("msg_combine",
description="msg_combine $out",
command=f"$python {BUILD_TOOLS}/msg/combine.py $out $in",
)
ninja.rule("mapfs",
description="mapfs $out",
command=f"$python {BUILD_TOOLS}/mapfs/combine.py $version $out $in",
)
ninja.rule("pack_title_data",
description="pack_title_data $out",
command=f"$python {BUILD_TOOLS}/mapfs/pack_title_data.py $out $in",
)
ninja.rule("map_header", command=f"$python {BUILD_TOOLS}/mapfs/map_header.py $in > $out")
ninja.rule("pm_charset", command=f"$python {BUILD_TOOLS}/pm_charset.py $out $in")
ninja.rule("pm_charset_palettes", command=f"$python {BUILD_TOOLS}/pm_charset_palettes.py $out $in")
with Path("tools/permuter_settings.toml").open("w") as f:
f.write(f"compiler_command = \"{cc} {CPPFLAGS.replace('$version', 'us')} {cflags} -DPERMUTER -fforce-addr\"\n")
f.write(f"assembler_command = \"{cross}as -EB -march=vr4300 -mtune=vr4300 -Iinclude\"\n")
f.write(
"""
[preserve_macros]
"gs?[DS]P.*" = "void"
OVERRIDE_FLAG_CHECK = "int"
OS_K0_TO_PHYSICAL = "int"
"G_.*" = "int"
"TEXEL.*" = "int"
PRIMITIVE = "int"
[decompme.compilers]
"tools/build/cc/gcc/gcc" = "gcc2.8.1"
""")
def write_ninja_for_tools(ninja: ninja_syntax.Writer):
ninja.rule("cc_tool",
description="cc_tool $in",
command=f"cc -w $in -O3 -o $out",
)
ninja.build(YAY0_COMPRESS_TOOL, "cc_tool", f"{BUILD_TOOLS}/yay0/Yay0compress.c")
ninja.build(CRC_TOOL, "cc_tool", f"{BUILD_TOOLS}/rom/n64crc.c")
class Configure:
def __init__(self, version: str):
self.version = version
self.version_path = ROOT / f"ver/{version}"
self.linker_entries = None
def split(self, assets: bool, code: bool):
import split
modes = ["ld"]
if assets:
modes.extend(["bin", "Yay0", "img", "vtx", "pm_map_data", "pm_msg", "pm_npc_sprites", "pm_charset",
"pm_charset_palettes", "pm_effect_loads", "pm_effect_shims"])
if code:
modes.extend(["code", "c", "data", "rodata"])
split.main(
str(self.version_path / "splat.yaml"),
None,
str(self.version_path / "baserom.z64"),
modes,
verbose=False,
)
self.linker_entries = split.linker_writer.entries[:]
self.asset_stack = split.config["asset_stack"]
def build_path(self) -> Path:
return Path(f"ver/{self.version}/build")
def undefined_syms_path(self) -> Path:
return self.build_path() / "undefined_syms.txt"
def elf_path(self) -> Path:
# TODO: read basename and build_path from splat.yaml
return Path(f"ver/{self.version}/build/papermario.elf")
def rom_path(self) -> Path:
return self.elf_path().with_suffix(".z64")
def rom_ok_path(self) -> Path:
return self.elf_path().with_suffix(".ok")
def linker_script_path(self) -> Path:
# TODO: read from splat.yaml
return Path(f"ver/{self.version}/papermario.ld")
def map_path(self) -> Path:
return self.elf_path().with_suffix(".map")
def resolve_src_paths(self, src_paths: List[Path]) -> List[str]:
out = []
for path in src_paths:
path = self.resolve_asset_path(path)
if path.is_dir():
out.extend(glob(str(path) + "/**/*", recursive=True))
else:
out.append(str(path))
return out
def resolve_asset_path(self, path: Path) -> Path:
parts = list(path.parts)
if parts[0] == "assets":
for d in self.asset_stack:
parts[1] = d
new_path = Path("/".join(parts))
if new_path.exists():
return new_path
# ¯\_(ツ)_/¯
return path
def write_ninja(self, ninja: ninja_syntax.Writer, skip_outputs: Set[str]):
import segtypes
import segtypes.common.data
import segtypes.n64.Yay0
assert self.linker_entries is not None
built_objects = set()
generated_headers = []
def build(object_paths: Union[Path, List[Path]], src_paths: List[Path], task: str, variables: Dict[str, str] = {}):
if not isinstance(object_paths, list):
object_paths = [object_paths]
object_strs = [str(obj) for obj in object_paths]
needs_build = False
for object_path in object_paths:
if object_path.suffixes[-1] == ".o":
built_objects.add(str(object_path))
elif object_path.suffixes[-1] == ".h" or task == "bin_inc_c":
generated_headers.append(str(object_path))
# don't rebuild objects if we've already seen all of them
if not str(object_path) in skip_outputs:
needs_build = True
if needs_build:
skip_outputs.update(object_strs)
implicit = []
order_only = []
if task == "yay0":
implicit.append(YAY0_COMPRESS_TOOL)
elif task in ["cc", "cc_dsl", "cc_ido", "cxx"]:
order_only.append("generated_headers_" + self.version)
ninja.build(
object_strs, # $out
task,
self.resolve_src_paths(src_paths), # $in
variables={ "version": self.version, **variables },
implicit=implicit,
order_only=order_only,
)
# Build objects
for entry in self.linker_entries:
seg = entry.segment
if isinstance(seg, segtypes.n64.header.N64SegHeader):
build(entry.object_path, entry.src_paths, "as")
elif isinstance(seg, segtypes.common.asm.CommonSegAsm) or (isinstance(seg, segtypes.common.data.CommonSegData) and not seg.type[0] == "."):
build(entry.object_path, entry.src_paths, "as")
elif isinstance(seg, segtypes.common.c.CommonSegC) or (isinstance(seg, segtypes.common.data.CommonSegData) and seg.type[0] == "."):
cflags = None
if isinstance(seg.yaml, dict):
cflags = seg.yaml.get("cflags")
elif len(seg.yaml) >= 4:
cflags = seg.yaml[3]
# default cflags where not specified
if cflags is None:
if "nusys" in entry.src_paths[0].parts:
cflags = ""
elif "os" in entry.src_paths[0].parts: # libultra
cflags = ""
else: # papermario
cflags = "-fforce-addr"
# check for dsl
task = "cc"
if entry.src_paths[0].suffixes[-1] == ".cpp":
task = "cxx"
with entry.src_paths[0].open() as f:
s = f.read()
if "SCRIPT(" in s or "#pragma SCRIPT" in s or "#include \"world/common/foliage.inc.c\"" in s:
task = "cc_dsl"
if seg.name.endswith("osFlash"):
task = "cc_ido"
build(entry.object_path, entry.src_paths, task, variables={"cflags": cflags})
# images embedded inside data aren't linked, but they do need to be built into .inc.c files
if isinstance(seg, segtypes.common.group.CommonSegGroup):
for seg in seg.subsegments:
if isinstance(seg, segtypes.n64.img.N64SegImg):
flags = ""
if seg.flip_horizontal:
flags += "--flip-x "
if seg.flip_vertical:
flags += "--flip-y "
src_paths = [seg.out_path()]
inc_dir = self.build_path() / "include" / seg.dir
bin_path = self.build_path() / seg.dir / (seg.name + ".png.bin")
build(bin_path, src_paths, "img", variables={
"img_type": seg.type,
"img_flags": flags,
})
build(inc_dir / (seg.name + ".png.h"), src_paths, "img_header")
build(inc_dir / (seg.name + ".png.inc.c"), [bin_path], "bin_inc_c")
elif isinstance(seg, segtypes.n64.palette.N64SegPalette):
src_paths = [seg.out_path()]
inc_dir = self.build_path() / "include" / seg.dir
bin_path = self.build_path() / seg.dir / (seg.name + ".pal.bin")
build(bin_path, src_paths, "img", variables={
"img_type": seg.type,
"img_flags": "",
})
build(inc_dir / (seg.name + ".pal.inc.c"), [bin_path], "bin_inc_c")
elif isinstance(seg, segtypes.common.bin.CommonSegBin):
build(entry.object_path, entry.src_paths, "bin")
elif isinstance(seg, segtypes.n64.Yay0.N64SegYay0):
compressed_path = entry.object_path.with_suffix("") # remove .o
build(compressed_path, entry.src_paths, "yay0")
build(entry.object_path, [compressed_path], "bin")
elif isinstance(seg, segtypes.n64.img.N64SegImg):
flags = ""
if seg.flip_horizontal:
flags += "--flip-x "
if seg.flip_vertical:
flags += "--flip-y "
bin_path = entry.object_path.with_suffix(".bin")
inc_dir = self.build_path() / "include" / seg.dir
build(bin_path, entry.src_paths, "img", variables={
"img_type": seg.type,
"img_flags": flags,
})
build(entry.object_path, [bin_path], "bin")
build(inc_dir / (seg.name + ".png.h"), entry.src_paths, "img_header")
elif isinstance(seg, segtypes.n64.palette.N64SegPalette):
bin_path = entry.object_path.with_suffix(".bin")
build(bin_path, entry.src_paths, "img", variables={
"img_type": seg.type,
"img_flags": "",
})
build(entry.object_path, [bin_path], "bin")
elif seg.type == "pm_npc_sprites":
sprite_yay0s = []
for sprite_id, sprite_dir in enumerate(entry.src_paths, 1):
sprite_name = sprite_dir.name
bin_path = entry.object_path.with_suffix("") / (sprite_name + ".bin")
yay0_path = bin_path.with_suffix(".Yay0")
sprite_yay0s.append(yay0_path)
variables = {
"sprite_id": sprite_id,
"sprite_name": sprite_name,
"sprite_dir": str(self.resolve_asset_path(sprite_dir)),
}
build(bin_path, [sprite_dir], "sprite", variables=variables)
build(yay0_path, [bin_path], "yay0")
build(
self.build_path() / "include" / seg.dir / seg.name / (sprite_name + ".h"),
[sprite_dir],
"sprite_header",
variables=variables,
)
build(entry.object_path.with_suffix(".bin"), sprite_yay0s, "sprite_combine")
build(entry.object_path, [entry.object_path.with_suffix(".bin")], "bin")
elif seg.type == "pm_msg":
msg_bins = []
for section_idx, msg_path in enumerate(entry.src_paths):
bin_path = entry.object_path.with_suffix("") / f"{section_idx:02X}.bin"
msg_bins.append(bin_path)
build(bin_path, [msg_path], "msg")
build([
entry.object_path.with_suffix(".bin"),
self.build_path() / "include" / "message_ids.h",
], msg_bins, "msg_combine")
build(entry.object_path, [entry.object_path.with_suffix(".bin")], "bin")
elif seg.type == "pm_map_data":
bin_yay0s: List[Path] = [] # flat list of (uncompressed path, compressed? path) pairs
src_dir = Path("assets/x") / seg.name
for path in entry.src_paths:
name = path.stem
out_dir = entry.object_path.with_suffix("").with_suffix("")
bin_path = out_dir / f"{name}.bin"
if name.startswith("party_"):
compress = True
build(bin_path, [path], "img", variables={
"img_type": "party",
"img_flags": "",
})
elif name == "title_data":
compress = True
logotype_path = out_dir / "title_logotype.bin"
copyright_path = out_dir / "title_copyright.bin"
copyright_pal_path = out_dir / "title_copyright.pal" # jp only
press_start_path = out_dir / "title_press_start.bin"
build(logotype_path, [src_dir / "title/logotype.png"], "img", variables={
"img_type": "rgba32",
"img_flags": "",
})
build(press_start_path, [src_dir / "title/press_start.png"], "img", variables={
"img_type": "ia8",
"img_flags": "",
})
if self.version == "jp":
build(copyright_path, [src_dir / "title/copyright.png"], "img", variables={
"img_type": "ci4",
"img_flags": "",
})
build(copyright_pal_path, [src_dir / "title/copyright.png"], "img", variables={
"img_type": "palette",
"img_flags": "",
})
imgs = [logotype_path, copyright_path, press_start_path, copyright_pal_path]
else:
build(copyright_path, [src_dir / "title/copyright.png"], "img", variables={
"img_type": "ia8",
"img_flags": "",
})
imgs = [logotype_path, copyright_path, press_start_path]
build(bin_path, imgs, "pack_title_data")
elif name.endswith("_bg"):
compress = True
bin_path = self.build_path() / bin_path
build(bin_path, [path], "img", variables={
"img_type": "bg",
"img_flags": "",
})
elif name.endswith("_tex"):
compress = False
bin_path = path
elif name.endswith("_shape"):
map_name = "_".join(name.split("_")[:-1])
# Handle map XML files, if they exist (TODO: have splat output these)
map_xml = self.resolve_asset_path(Path(f"assets/{self.version}") / seg.dir / seg.name / (map_name + ".xml"))
if map_xml.exists():
# Build a header file for this map
build(
self.build_path() / "include" / seg.dir / seg.name / (map_name + ".h"),
[map_xml],
"map_header",
)
# NOTE: we don't build the map xml into a _shape or _hit file (yet); the Star Rod Map Editor
# is able to build the xml nonmatchingly into assets/star_rod_build/mapfs/*.bin for people
# who want that (i.e. modders). 'star_rod_build' should be added to asset_stack also.
compress = True
bin_path = path
else:
compress = True
bin_path = path
if compress:
yay0_path = out_dir / f"{name}.Yay0"
build(yay0_path, [bin_path], "yay0")
else:
yay0_path = bin_path
bin_yay0s.append(bin_path)
bin_yay0s.append(yay0_path)
# combine
build(entry.object_path.with_suffix(""), bin_yay0s, "mapfs")
build(entry.object_path, [entry.object_path.with_suffix("")], "bin")
elif seg.type == "pm_charset":
rasters = []
for src_path in entry.src_paths:
out_path = self.build_path() / seg.dir / seg.name / (src_path.stem + ".bin")
build(out_path, [src_path], "img", variables={
"img_type": "ci4",
"img_flags": "",
})
rasters.append(out_path)
build(entry.object_path.with_suffix(""), rasters, "pm_charset")
build(entry.object_path, [entry.object_path.with_suffix("")], "bin")
elif seg.type == "pm_charset_palettes":
palettes = []
for src_path in entry.src_paths:
out_path = self.build_path() / seg.dir / seg.name / "palette" / (src_path.stem + ".bin")
build(out_path, [src_path], "img", variables={
"img_type": "palette",
"img_flags": "",
})
palettes.append(out_path)
build(entry.object_path.with_suffix(""), palettes, "pm_charset_palettes")
build(entry.object_path, [entry.object_path.with_suffix("")], "bin")
elif seg.type in ["pm_effect_loads", "pm_effect_shims"]:
build(entry.object_path, entry.src_paths, "as")
elif seg.type == "linker" or seg.type == "linker_offset":
pass
else:
raise Exception(f"don't know how to build {seg.__class__.__name__} '{seg.name}'")
# Run undefined_syms through cpp
ninja.build(
str(self.undefined_syms_path()),
"cpp",
str(self.version_path / "undefined_syms.txt")
)
# Build elf, z64, ok
ninja.build(
str(self.elf_path()),
"ld",
str(self.linker_script_path()),
implicit=[str(obj) for obj in built_objects] + [str(self.undefined_syms_path())],
variables={ "version": self.version, "mapfile": str(self.map_path()) },
)
ninja.build(
str(self.rom_path()),
"z64",
str(self.elf_path()),
implicit=[CRC_TOOL],
)
ninja.build(
str(self.rom_ok_path()),
"sha1sum",
f"ver/{self.version}/checksum.sha1",
implicit=[str(self.rom_path())],
)
ninja.build("generated_headers_" + self.version, "phony", generated_headers)
def make_current(self, ninja: ninja_syntax.Writer):
current = Path("ver/current")
try:
current.unlink()
except Exception:
pass
current.symlink_to(self.version)
ninja.build("ver/current/build/papermario.z64", "phony", str(self.rom_path()))
if __name__ == "__main__":
from argparse import ArgumentParser
parser = ArgumentParser(description="Paper Mario build.ninja generator")
parser.add_argument("version", nargs="*", default=[], help="Version(s) to configure for. Most tools will operate on the first-provided only. Supported versions: " + ','.join(VERSIONS))
parser.add_argument("--cpp", help="GNU C preprocessor command")
parser.add_argument("-c", "--clean", action="store_true", help="Delete assets and previously-built files")
parser.add_argument("--splat", default="tools/splat", help="Path to splat tool to use")
parser.add_argument("--split-code", action="store_true", help="Re-split code segments to asm files")
parser.add_argument("--no-split-assets", action="store_true", help="Don't split assets from the baserom(s)")
parser.add_argument("-d", "--debug", action="store_true", help="Generate debugging information")
parser.add_argument("-n", "--non-matching", action="store_true", help="Compile nonmatching code. Combine with --debug for more detailed debug info")
parser.add_argument("-w", "--no-warn", action="store_true", help="Inhibit compiler warnings")
parser.add_argument("--ccache", action="store_true", help="Use ccache")
args = parser.parse_args()
exec_shell(["make", "-C", str(ROOT / args.splat)])
# on macOS, /usr/bin/cpp defaults to clang rather than gcc (but we need gcc's)
if args.cpp is None and sys.platform == "darwin" and "Free Software Foundation" not in exec_shell(["cpp", "--version"]):
if "Free Software Foundation" in exec_shell(["cpp-11", "--version"]):
args.cpp = "cpp-11"
else:
print("error: system C preprocessor is not GNU!")
print("This is a known issue on macOS - only clang's cpp is installed by default.")
print("Use 'brew' to obtain GNU cpp, then run this script again with the --cpp option, e.g.")
print(" ./configure --cpp cpp-11")
exit(1)
# default version behaviour is to only do those that exist
if len(args.version) > 0:
versions = args.version
else:
versions = []
for version in VERSIONS:
rom = ROOT / f"ver/{version}/baserom.z64"
print(f"configure: looking for baserom {rom.relative_to(ROOT)}", end="")
if rom.exists():
print("...found")
versions.append(version)
else:
print("...missing")
if len(versions) == 0:
print("error: no baseroms found")
exit(1)
if args.clean:
print("configure: cleaning...")
exec_shell(["ninja", "-t", "clean"])
for version in versions:
rm_recursive(ROOT / f"assets/{version}")
rm_recursive(ROOT / f"ver/{version}/assets")
rm_recursive(ROOT / f"ver/{version}/build")
rm_recursive(ROOT / f"ver/{version}/.splat_cache")
cflags = ""
cppflags = ""
if args.non_matching:
cppflags += " -DNON_MATCHING"
if args.debug:
cflags += " -ggdb3" # we can generate more accurate debug info in non-matching mode
cppflags += " -DDEBUG" # e.g. affects ASSERT macro
elif args.debug:
# g1 doesn't affect codegen
cflags += " -g1"
if not args.no_warn:
cflags += "-Wuninitialized -Wmissing-braces -Wimplicit -Wredundant-decls -Wstrict-prototypes"
# add splat to python import path
sys.path.append(str((ROOT / args.splat).resolve()))
ninja = ninja_syntax.Writer(open(str(ROOT / "build.ninja"), "w"), width=9999)
write_ninja_rules(ninja, args.cpp or "cpp", cppflags, cflags, args.ccache)
write_ninja_for_tools(ninja)
skip_files = set()
all_rom_oks: List[str] = []
first_configure = None
for version in versions:
print(f"configure: configuring version {version}")
configure = Configure(version)
if not first_configure:
first_configure = configure
configure.split(not args.no_split_assets, args.split_code)
configure.write_ninja(ninja, skip_files)
all_rom_oks.append(str(configure.rom_ok_path()))
first_configure.make_current(ninja)
ninja.build("all", "phony", all_rom_oks)
ninja.default("all")