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godot/platform_methods.py
Riteo 55558fb175 SCons: Add an option to enable the experimental ninja build backend 
With this option turned on, if properly set up, SCons generates a
`build.ninja` file and quits. To actually build the engine, the user can
then call `ninja` with whatever options they might prefer (not
everything is yet transferred properly to this new generated file).

Ideally, the scons file should never be called again, as ninja
automatically detects any SCons build script change and invokes
the required commands to regenerate itself.

This approach speeds up incremental builds considerably, as it limits
SCons to code generation and uses ninja's extremely fast timestamp-based
file change detector.
2024-03-15 16:05:25 +01:00

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import os
import sys
import json
import platform
import uuid
import functools
import subprocess
import methods
# NOTE: The multiprocessing module is not compatible with SCons due to conflict on cPickle
# CPU architecture options.
architectures = ["x86_32", "x86_64", "arm32", "arm64", "rv64", "ppc32", "ppc64", "wasm32"]
architecture_aliases = {
"x86": "x86_32",
"x64": "x86_64",
"amd64": "x86_64",
"armv7": "arm32",
"armv8": "arm64",
"arm64v8": "arm64",
"aarch64": "arm64",
"rv": "rv64",
"riscv": "rv64",
"riscv64": "rv64",
"ppcle": "ppc32",
"ppc": "ppc32",
"ppc64le": "ppc64",
}
def detect_arch():
host_machine = platform.machine().lower()
if host_machine in architectures:
return host_machine
elif host_machine in architecture_aliases.keys():
return architecture_aliases[host_machine]
elif "86" in host_machine:
# Catches x86, i386, i486, i586, i686, etc.
return "x86_32"
else:
print("Unsupported CPU architecture: " + host_machine)
print("Falling back to x86_64.")
return "x86_64"
def generate_export_icons(platform_path, platform_name):
"""
Generate headers for logo and run icon for the export plugin.
"""
export_path = platform_path + "/export"
svg_names = []
if os.path.isfile(export_path + "/logo.svg"):
svg_names.append("logo")
if os.path.isfile(export_path + "/run_icon.svg"):
svg_names.append("run_icon")
for name in svg_names:
with open(export_path + "/" + name + ".svg", "rb") as svgf:
b = svgf.read(1)
svg_str = " /* AUTOGENERATED FILE, DO NOT EDIT */ \n"
svg_str += " static const char *_" + platform_name + "_" + name + '_svg = "'
while len(b) == 1:
svg_str += "\\" + hex(ord(b))[1:]
b = svgf.read(1)
svg_str += '";\n'
wf = export_path + "/" + name + "_svg.gen.h"
methods.write_file_if_needed(wf, svg_str)
def get_build_version(short):
import version
name = "custom_build"
if os.getenv("BUILD_NAME") != None:
name = os.getenv("BUILD_NAME")
v = "%d.%d" % (version.major, version.minor)
if version.patch > 0:
v += ".%d" % version.patch
status = version.status
if not short:
if os.getenv("GODOT_VERSION_STATUS") != None:
status = str(os.getenv("GODOT_VERSION_STATUS"))
v += ".%s.%s" % (status, name)
return v
def lipo(prefix, suffix):
from pathlib import Path
target_bin = ""
lipo_command = ["lipo", "-create"]
arch_found = 0
for arch in architectures:
bin_name = prefix + "." + arch + suffix
if Path(bin_name).is_file():
target_bin = bin_name
lipo_command += [bin_name]
arch_found += 1
if arch_found > 1:
target_bin = prefix + ".fat" + suffix
lipo_command += ["-output", target_bin]
subprocess.run(lipo_command)
return target_bin
def get_mvk_sdk_path(osname):
def int_or_zero(i):
try:
return int(i)
except:
return 0
def ver_parse(a):
return [int_or_zero(i) for i in a.split(".")]
dirname = os.path.expanduser("~/VulkanSDK")
if not os.path.exists(dirname):
return ""
ver_min = ver_parse("1.3.231.0")
ver_num = ver_parse("0.0.0.0")
files = os.listdir(dirname)
lib_name_out = dirname
for file in files:
if os.path.isdir(os.path.join(dirname, file)):
ver_comp = ver_parse(file)
if ver_comp > ver_num and ver_comp >= ver_min:
# Try new SDK location.
lib_name = os.path.join(os.path.join(dirname, file), "macOS/lib/MoltenVK.xcframework/" + osname + "/")
if os.path.isfile(os.path.join(lib_name, "libMoltenVK.a")):
ver_num = ver_comp
lib_name_out = os.path.join(os.path.join(dirname, file), "macOS/lib/MoltenVK.xcframework")
else:
# Try old SDK location.
lib_name = os.path.join(
os.path.join(dirname, file), "MoltenVK/MoltenVK.xcframework/" + osname + "/"
)
if os.path.isfile(os.path.join(lib_name, "libMoltenVK.a")):
ver_num = ver_comp
lib_name_out = os.path.join(os.path.join(dirname, file), "MoltenVK/MoltenVK.xcframework")
return lib_name_out
def detect_mvk(env, osname):
mvk_list = [
get_mvk_sdk_path(osname),
"/opt/homebrew/Frameworks/MoltenVK.xcframework",
"/usr/local/homebrew/Frameworks/MoltenVK.xcframework",
"/opt/local/Frameworks/MoltenVK.xcframework",
]
if env["vulkan_sdk_path"] != "":
mvk_list.insert(0, os.path.expanduser(env["vulkan_sdk_path"]))
mvk_list.insert(
0,
os.path.join(os.path.expanduser(env["vulkan_sdk_path"]), "macOS/lib/MoltenVK.xcframework"),
)
mvk_list.insert(
0,
os.path.join(os.path.expanduser(env["vulkan_sdk_path"]), "MoltenVK/MoltenVK.xcframework"),
)
for mvk_path in mvk_list:
if mvk_path and os.path.isfile(os.path.join(mvk_path, osname + "/libMoltenVK.a")):
mvk_found = True
print("MoltenVK found at: " + mvk_path)
return mvk_path
return ""
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