Petari/libs/RVL_SDK/build.py
2022-09-03 00:46:26 -04:00

210 lines
6.8 KiB
Python

import subprocess
import sys
import os
import shutil
import pathlib
import shutil
def makeArchive(dir):
fileList = ""
for root, dirs, files in os.walk(f"build/{dir}"):
for f in files:
if f.endswith(".o"):
fileList += f"build/{dir}/{f} "
default_compiler_path = pathlib.Path("GC/3.0a3/")
linker_path = pathlib.Path(f"../../Compilers/{default_compiler_path}/mwldeppc.exe ")
linker_flags = f"-nodefaults -xm l -o lib/{dir}.a {fileList}"
if subprocess.call(f"{linker_path} {linker_flags}", shell=True) == 1:
print("Library creation failed.")
def makeLibArchive():
if not os.path.isdir("lib"):
os.mkdir("lib")
for root, dirs, files in os.walk("build"):
for dir in dirs:
makeArchive(dir)
def makeElf():
default_compiler_path = pathlib.Path("GC/3.0a3/")
fileList = ""
for root, dirs, files in os.walk("lib"):
for f in files:
if f.endswith(".a"):
fileList += f"{root}\\{f} "
linker_path = pathlib.Path(f"../../Compilers/{default_compiler_path}/mwldeppc.exe ")
linker_flags = f"-lcf ldscript.lcf -fp hard -proc gekko -map rvl_sdk.map -o rvl_sdk.elf {fileList}"
if subprocess.call(f"{linker_path} {linker_flags}", shell=True) == 1:
print("Linking failed.")
def deleteDFiles():
dirs = os.listdir(os.getcwd())
for dire in dirs:
if dire.endswith(".d"):
os.remove(os.path.join(os.getcwd(), dire))
def main(compile_non_matching, use_ninja, clean_ninja, link):
if not os.path.exists("../../Compilers"):
print("Compilers folder not created, please run setup.py!")
sys.exit(1)
isNotWindows = os.name != "nt"
flags = "-c -nodefaults -proc gekko -DHOLLYWOOD_REV -DEPPC -enum int -fp hard -Cpp_exceptions off -rtti off -DEPPC -DGEKKO -O4,p -inline auto "
includes = "-i . -I- -i include "
default_compiler_path = pathlib.Path("../../Compilers/GC/3.0a3/")
compiler_exceptions = {
#"source\JSystem\JKernel\JKRHeap.cpp": pathlib.Path("GC/1.2.5/")
}
compiler_flags = {
#"GC/2.5", flags
}
if compile_non_matching:
print("Using nonmatching functions")
flags = flags + " -DNON_MATCHING "
runtime_path = pathlib.Path("../Runtime/include")
msl_path = pathlib.Path("../MSL_C/include")
includes += f"-i {runtime_path } -I- -i {msl_path} "
flags += includes
tasks = list()
ninjaFound = shutil.which("ninja") is not None
if not ninjaFound and use_ninja:
print("Ninja was not found in your PATH. Compilation will be slow!")
useNinja = ninjaFound and use_ninja
if not useNinja:
if os.path.exists("build"):
shutil.rmtree("build", ignore_errors=True)
for root, dirs, files in os.walk("source"):
for file in files:
if file.endswith(".cpp"):
source_path = os.path.join(root, file)
build_path = source_path.replace("source", "build", 1).replace(".cpp", ".o")
os.makedirs(os.path.dirname(build_path), exist_ok=True)
tasks.append((source_path, build_path))
elif file.endswith(".c"):
source_path = os.path.join(root, file)
build_path = source_path.replace("source", "build", 1).replace(".c", ".o")
os.makedirs(os.path.dirname(build_path), exist_ok=True)
tasks.append((source_path, build_path))
compiler_path = pathlib.Path(f"{default_compiler_path}/mwcceppc.exe ")
if isNotWindows:
compiler_path = pathlib.Path(f"wine {compiler_path} ")
if useNinja:
# Use ninja build system to generate a build script.
from ninja import ninja_syntax
bo = open("build.ninja", "w")
nw = ninja_syntax.Writer(bo)
# Create main compiler rule and exception compilers.
nw.rule("cc", f"{compiler_path} $flags $in -o $out", "Compiling $in...")
exceptionsToRules = { }
cc_num = 1
for exc in compiler_exceptions.values():
if not exc in exceptionsToRules.keys():
exceptionsToRules[exc] = f"cc_{cc_num}"
cc_num += 1
nw.newline()
for task in tasks:
source_path, build_path = task
rule = "cc"
try:
if compiler_exceptions[source_path]:
rule = exceptionsToRules[compiler_exceptions[source_path]]
path = f"../../Compilers/{compiler_exceptions[source_path]}/mwcceppc.exe "
nw.rule(f"{rule}", f"{path} $flags $in -o $out", "Compiling $in [With different compiler]...")
except:
pass
nw.build(build_path, rule, source_path, variables={ 'flags': flags })
nw.close()
# Run clean
if clean_ninja:
subprocess.call("ninja -t clean", shell=True)
# Call ninja to run said build script.
if subprocess.call("ninja", shell=True) == 1:
deleteDFiles()
sys.exit(1)
else:
for task in tasks:
source_path, build_path = task
try:
if compiler_exceptions[source_path]:
compiler_path = pathlib.Path(f"../../Compilers/{compiler_exceptions[source_path]}/mwcceppc.exe ")
if isNotWindows:
compiler_path = pathlib.Path(f"wine {compiler_path} ")
except:
pass
print(f"Compiling {source_path}...")
if subprocess.call(f"{compiler_path} {flags} {source_path} -o {build_path}", shell=True) == 1:
deleteDFiles()
sys.exit(1)
deleteDFiles()
if link:
print("Creating library archives...")
makeLibArchive()
print("Making final ELF...")
makeElf()
print("Complete.")
def print_help_and_exit():
print("Usage: build.py [flags...]")
print("\t-link: Link the final project together.")
print("\t-non-matching: Compile non-matching code.")
print("\t-no-ninja: Do not use ninja even if available.")
print("\t-clean: Clean old build files before building new when using ninja.")
print("\t-help: Displays this help text")
sys.exit(0)
if __name__ == "__main__":
compile_non_matching = False
use_ninja = True
clean_ninja = False
link = False
for arg in sys.argv[1:]:
if arg == "-non-matching":
compile_non_matching = True
elif arg == "-no-ninja":
use_ninja = False
elif arg == "-clean":
clean_ninja = True
elif arg == "-help":
print_help_and_exit()
elif arg == "-link":
link = True
else:
print(f"Invalid argument: {arg}")
print()
print_help_and_exit()
main(compile_non_matching, use_ninja, clean_ninja, link)