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sconstruct
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sconstruct
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# A part of NonVisual Desktop Access (NVDA)
# Copyright (C) 2010-2024 NV Access Limited, James Teh, Michael Curran, Peter Vágner, Joseph Lee,
# Reef Turner, Babbage B.V., Leonard de Ruijter, Łukasz Golonka, Accessolutions, Julien Cochuyt,
# Cyrille Bougot
# This file may be used under the terms of the GNU General Public License, version 2 or later.
# For more details see: https://www.gnu.org/licenses/gpl-2.0.html
import multiprocessing
import os
import platform
import sys
# Ensure we are inside the Python virtual environment.
nvdaVenv = os.getenv("NVDA_VENV")
virtualEnv = os.getenv("VIRTUAL_ENV")
if not virtualEnv or not os.path.isdir(virtualEnv):
print(
"Error: SCons cannot detect the NVDA build system Python virtual environment.\n"
"SCons must be executed using scons.bat in the root of this repository."
)
sys.exit(1)
if nvdaVenv != virtualEnv:
print("Warning: SCons launched within a custom Python virtual environment.")
# Variables for storing required version of Python, and the version which is used to run this script.
requiredPythonMajor = "3"
requiredPythonMinor = "11"
requiredPythonArchitecture = "32bit"
installedPythonMajor = str(sys.version_info.major)
installedPythonMinor = str(sys.version_info.minor)
installedPythonArchitecture = platform.architecture()[0]
# Ensure that we are running with required version of Python, otherwise inform the user and exit.
if (
installedPythonArchitecture != requiredPythonArchitecture
or installedPythonMajor != requiredPythonMajor
or installedPythonMinor != requiredPythonMinor
):
unsupportedPythonMsg = (
"This script is started with Python %s.%s %s, however to build NVDA you have to use Python %s.%s %s.\n"
"Please install the needed version of Python and launch SCons again, or if you have multiple "
"versions of Python installed start this script with required version explicitly."
)
raise RuntimeError(
unsupportedPythonMsg
% (
installedPythonMajor,
installedPythonMinor,
installedPythonArchitecture,
requiredPythonMajor,
requiredPythonMinor,
requiredPythonArchitecture,
)
)
sourceEnvPath = os.path.abspath(os.path.join(Dir(".").srcnode().path, "source"))
sys.path.append(sourceEnvPath)
import sourceEnv # noqa: E402
sys.path.remove(sourceEnvPath)
import time # noqa: E402
import importlib.util # noqa: E402
import winreg # noqa: E402
def recursiveCopy(env, targetDir, sourceDir):
targets = []
for topDir, subDirs, files in os.walk(sourceDir.abspath):
relTopDir = os.path.relpath(topDir, sourceDir.abspath)
for f in files:
fNode = targetDir.Dir(relTopDir).File(f)
env.Command(fNode, Dir(topDir).File(f), Copy("$TARGET", "$SOURCE"))
targets.append(fNode)
if len(files) == 0:
dNode = targetDir.Dir(relTopDir)
env.Command(dNode, Dir(topDir), Mkdir("$TARGET"))
targets.append(dNode)
return targets
# Import NVDA's versionInfo module.
import gettext # noqa: E402
gettext.install("nvda")
sys.path.append("source")
import versionInfo # noqa: E402
del sys.path[-1]
makensis = os.path.abspath(os.path.join("include", "nsis", "NSIS", "makensis.exe"))
# Get the path to xgettext.
XGETTEXT = os.path.abspath(os.path.join("miscDeps", "tools", "xgettext.exe"))
vars = Variables()
vars.Add("version", "The version of this build", versionInfo.version)
vars.Add("version_build", "A unique number for this build.", "0")
vars.Add(BoolVariable("release", "Whether this is a release version", False))
vars.Add("publisher", "The publisher of this build", versionInfo.publisher)
vars.Add(
"updateVersionType",
"The version type for which to check for updates",
versionInfo.updateVersionType or "",
)
vars.Add(
PathVariable(
"certFile",
"The certificate file with which to sign executables",
"",
lambda key, val, env: not val or PathVariable.PathIsFile(key, val, env),
)
)
vars.Add("certPassword", "The password for the private key in the signing certificate", "")
vars.Add(
"certTimestampServer",
"The URL of the timestamping server to use to timestamp authenticode signatures",
"",
)
vars.Add("apiSigningToken", "The API key for the signing service", "")
vars.Add(
PathVariable(
"outputDir",
"The directory where the final built archives and such will be placed",
"output",
PathVariable.PathIsDirCreate,
)
)
vars.Add(
ListVariable(
"nvdaHelperDebugFlags",
"a list of debugging features you require",
"none",
["debugCRT", "RTC", "analyze"],
)
)
vars.Add(
EnumVariable(
"nvdaHelperLogLevel",
"The level of logging you wish to see, lower is more verbose",
"15",
allowed_values=[str(x) for x in range(60)],
)
)
# Base environment for this and sub sconscripts
env = Environment(
variables=vars,
HOST_ARCH="x86",
tools=[
"textfile",
"gettextTool",
"doxygen",
"recursiveInstall",
"m4",
],
)
# speed up subsequent runs by checking timestamps of targets and dependencies, and only using md5 if timestamps differ.
env.Decider("MD5-timestamp")
AddOption(
"--all-cores",
action="store_true",
dest="all_cores",
default=False,
help="Use the maximum number of available processor cores",
)
# Warn to run the build on multiple threads so it runs faster
numCores = multiprocessing.cpu_count()
if allCores := GetOption("all_cores"):
SetOption("num_jobs", numCores)
if (numJobs := GetOption("num_jobs")) < numCores:
msg = "Warning: "
if allCores:
msg += "Providing both the '--all-cores' and '-j'/'--num-jobs' parameters is not supported. "
msg += (
f"Building with {numJobs} concurrent job{'s' if numJobs != 1 else ''} "
f"while {numCores} CPU threads are available. "
f"Running SCONS with the parameter '-j{numCores}' may lead to a faster build. "
"Running SCONS with parameter '--all-cores' will automatically pick all available cores. "
)
print(msg)
else:
print(f"Building with {numJobs} concurrent jobs")
# Make our recursiveCopy function available to any script using this environment
env.AddMethod(recursiveCopy)
# Check for any unknown variables
unknown = vars.UnknownVariables().keys()
if len(unknown) > 0:
print("Unknown commandline variables: %s" % unknown)
Exit(1)
# Ensure that any Python subprocesses (such as for py2exe) can find our Python directory in miscDeps
env["ENV"]["PYTHONPATH"] = ";".join(sourceEnv.PYTHON_DIRS)
env["copyright"] = versionInfo.copyright
env["version_year"] = versionInfo.version_year
env["version_major"] = versionInfo.version_major
env["version_minor"] = versionInfo.version_minor
version = env["version"]
version_build = env["version_build"]
release = env["release"]
publisher = env["publisher"]
certFile = env["certFile"]
certPassword = env["certPassword"]
certTimestampServer = env["certTimestampServer"]
apiSigningToken = env["apiSigningToken"]
userDocsDir = Dir("user_docs")
sourceDir = env.Dir("source")
Export("sourceDir")
clientDir = Dir("extras/controllerClient")
Export("clientDir")
sourceLibDir = sourceDir.Dir("lib")
Export("sourceLibDir")
sourceTypelibDir = sourceDir.Dir("typelibs")
Export("sourceTypelibDir")
sourceLibDir64 = sourceDir.Dir("lib64")
Export("sourceLibDir64")
sourceLibDirArm64 = sourceDir.Dir("libArm64")
Export("sourceLibDirArm64")
buildDir = Dir("build")
outFilePrefix = "nvda{type}_{version}".format(type="" if release else "_snapshot", version=version)
Export("outFilePrefix")
outputDir = Dir(env["outputDir"])
Export("outputDir")
assert not (
apiSigningToken and certFile
), "Cannot specify signing with both API token (cloud) and local certificate"
if apiSigningToken:
# Code signing with SignPath HSM
def signExecApi(target, source, env):
if len(target) > 1:
print(f"Iterating through {len(target)} files passed to signExecApi")
retval = 1 # error value
for targetFile in target:
if (abspath := targetFile.abspath).endswith((".exe", ".dll")):
ps_cmd = f"powershell -File appveyor\scripts\sign.ps1 -ApiToken {apiSigningToken} -FileToSign {abspath}"
if (retval := env.Execute(ps_cmd, shell=True)) != 0:
print(f"Error signing file: {abspath}")
return retval
# Export via scons environment so other libraries can be signed
env["signExec"] = signExecApi
elif certFile:
# Local code signing with a certFile
def signExecCert(target, source, env):
# we encrypt with SHA256 as this is the minimum required by the Windows Store for appx packages
signExecCmd = ["signtool", "sign", "/fd", "SHA256", "/f", certFile]
if certPassword:
signExecCmd.extend(("/p", certPassword))
if certTimestampServer:
signExecCmd.extend(("/tr", certTimestampServer, "/td", "SHA256"))
print([str(x) for x in target])
# #3795: signtool can quite commonly fail with timestamping, so allow it to try up to 3 times with a 1 second delay between each try.
res = 0
for count in range(3):
res = env.Execute([signExecCmd + [target[0].abspath]])
if not res:
return 0 # success
time.sleep(1)
return res # failed
# Export via scons environment so other libraries can be signed
env["signExec"] = signExecCert
# architecture-specific environments
archTools = ["default", "midl", "msrpc"]
env32 = env.Clone(TARGET_ARCH="x86", tools=archTools)
env64 = env.Clone(TARGET_ARCH="x86_64", tools=archTools)
envArm64 = env.Clone(TARGET_ARCH="arm64", tools=archTools)
# Hack around odd bug where some tool [after] msvc states that static and shared objects are different
env32["STATIC_AND_SHARED_OBJECTS_ARE_THE_SAME"] = 1
env64["STATIC_AND_SHARED_OBJECTS_ARE_THE_SAME"] = 1
envArm64["STATIC_AND_SHARED_OBJECTS_ARE_THE_SAME"] = 1
env = env32
projectRCSubstDict = {
"%version_year%": env["version_year"],
"%version_major%": env["version_major"],
"%version_minor%": env["version_minor"],
"%version_build%": env["version_build"],
"%copyright%": env["copyright"],
"%publisher%": env["publisher"],
"%version%": env["version"],
"%productName%": "%s (%s)" % (versionInfo.name, versionInfo.longName),
}
resFile = env.RES(
target="build/nvda.res",
source=env.Substfile(
target="build/nvda.rc", source="nvdaHelper/nvda.rc.subst", SUBST_DICT=projectRCSubstDict
),
)
env32["projectResFile"] = resFile
env64["projectResFile"] = resFile
envArm64["projectResFile"] = resFile
# Fill sourceDir with anything provided for it by miscDeps
env.recursiveCopy(sourceDir, Dir("miscdeps/source"))
# Copy in some other dependencies.
jabDll = "windowsaccessbridge-32.dll"
Command(
sourceLibDir.File(jabDll), env.Dir("#include/javaAccessBridge32").File(jabDll), Copy("$TARGET", "$SOURCE")
)
env.SConscript("source/comInterfaces_sconscript", exports=["env"])
# Process nvdaHelper scons files
env32.SConscript(
"nvdaHelper/archBuild_sconscript",
exports={"env": env32, "clientInstallDir": clientDir.Dir("x86"), "libInstallDir": sourceLibDir},
variant_dir="build/x86",
)
env64.SConscript(
"nvdaHelper/archBuild_sconscript",
exports={"env": env64, "clientInstallDir": clientDir.Dir("x64"), "libInstallDir": sourceLibDir64},
variant_dir="build/x86_64",
)
envArm64.SConscript(
"nvdaHelper/archBuild_sconscript",
exports={"env": envArm64, "clientInstallDir": clientDir.Dir("arm64"), "libInstallDir": sourceLibDirArm64},
variant_dir="build/arm64",
)
# Allow all NVDA's gettext po files to be compiled in source/locale
for po in env.Glob(sourceDir.path + "/locale/*/lc_messages/*.po"):
env.gettextMoFile(po)
styles = os.path.join(userDocsDir.path, "styles.css")
numberedHeadingsStyle = os.path.join(userDocsDir.path, "numberedHeadings.css")
# Create Non-english md files in user_docs from localized xliff and English skel files
for xliffFile in env.Glob(os.path.join(userDocsDir.path, "*", "*.xliff")):
lang = os.path.split(os.path.dirname(xliffFile.path))[-1]
if lang == "en":
continue
mdFile = os.path.splitext(xliffFile.path)[0] + ".md"
env.Command(
mdFile,
xliffFile,
[f'@{sys.executable} user_docs/markdownTranslate.py generateMarkdown -x "{xliffFile}" -o "{mdFile}"'],
)
# Allow all markdown files to be converted to html in user_docs
for mdFile in env.Glob(os.path.join(userDocsDir.path, "*", "*.md")):
# first substitute some variables such as NVDA version and URL into the markdown file
mdFileSub = env.Substfile(
target=mdFile.abspath.replace(".md", ".md.sub"),
source=mdFile,
SUBST_DICT={
"NVDA_VERSION": env["version"],
"NVDA_URL": versionInfo.url,
"NVDA_COPYRIGHT_YEARS": versionInfo.copyrightYears,
},
)
lang = os.path.split(os.path.dirname(mdFile.path))[-1]
docType = os.path.basename(mdFile.path).split(".")[0]
htmlFile = env.Command(
target=mdFile.abspath.replace(".md", ".html"),
source=mdFileSub,
action=[f'@{sys.executable} user_docs/md2html.py -l {lang} -t {docType} "$SOURCE" "$TARGET"'],
)
styleInstallPath = os.path.dirname(mdFile.abspath)
installedStyle = env.Install(styleInstallPath, styles)
installedHeadingsStyle = env.Install(styleInstallPath, numberedHeadingsStyle)
env.Depends(
htmlFile,
[
styles,
installedStyle,
numberedHeadingsStyle,
installedHeadingsStyle,
],
)
env.Depends(htmlFile, mdFile)
# Create key commands files
for userGuideFileSub in env.Glob(os.path.join(userDocsDir.path, "*", "userGuide.md.sub")):
lang = os.path.split(os.path.dirname(userGuideFileSub.path))[-1]
keyCommandsHtmlFile = env.Command(
target=userGuideFileSub.abspath.replace("userGuide.md.sub", "keyCommands.html"),
source=userGuideFileSub,
action=[f'@{sys.executable} user_docs/md2html.py -l {lang} -t keyCommands "$SOURCE" "$TARGET"'],
)
env.Depends(keyCommandsHtmlFile, userGuideFileSub)
# Build unicode CLDR dictionaries
env.SConscript("cldrDict_sconscript", exports=["env", "sourceDir"])
# A builder to generate an NVDA distribution.
def NVDADistGenerator(target, source, env, for_signature):
buildVersionFn = os.path.join(str(source[0]), "_buildVersion.py")
# Make the NVDA build use the specified version.
# We don't do this using normal scons mechanisms because we want it to be cleaned up immediately after this builder
# and py2exe will cause bytecode files to be created for it which scons doesn't know about.
updateVersionType = env["updateVersionType"] or None
# Any '\n' characters written are translated to the system default line separator, os.linesep.
action = [
lambda target, source, env: open(buildVersionFn, "w", encoding="utf-8").write(
"version = {version!r}\n"
"publisher = {publisher!r}\n"
"updateVersionType = {updateVersionType!r}\n"
"version_build = {version_build!r}\n".format(
version=version,
publisher=publisher,
updateVersionType=updateVersionType,
version_build=version_build,
)
)
# In Python 3 write returns the number of characters written,
# which scons treats as an error code.
and None
]
buildCmd = ["cd", source[0].path, "&&", sys.executable]
if release:
buildCmd.append("-O")
# Issue errors about str(bytes_instance), str(bytearray_instance)
buildCmd.append("-bb")
buildCmd.append("setup.py")
if env.get("uiAccess"):
buildCmd.append("--enable-uiAccess")
action.append(buildCmd)
# #10031: Apps written in Python 3 require Universal CRT to be installed. We cannot assume users have it on their systems.
# Therefore , copy required libraries from Windows 10 SDK.
try:
with winreg.OpenKey(
winreg.HKEY_LOCAL_MACHINE,
r"SOFTWARE\Microsoft\Microsoft SDKs\Windows\v10.0",
0,
winreg.KEY_READ | winreg.KEY_WOW64_32KEY,
) as SDKKey:
sdk_installationFolder = winreg.QueryValueEx(SDKKey, "InstallationFolder")[0]
sdk_productVersion = winreg.QueryValueEx(SDKKey, "ProductVersion")[0]
except WindowsError:
raise RuntimeError("Windows 10 SDK not found")
# The Universal CRT should be in an SDK version-specific directory
# But usually has a '.0' appended after the productVersion found in the registry.
# E.g. 10.0.1941 might e actually 10.0.1941.0.
# Thus try both.
CRTDir = os.path.join(sdk_installationFolder, "Redist", sdk_productVersion + ".0", "ucrt", "DLLs", "x86")
if not os.path.isdir(CRTDir):
CRTDir = os.path.join(sdk_installationFolder, "Redist", sdk_productVersion, "ucrt", "DLLs", "x86")
if not os.path.isdir(CRTDir):
raise RuntimeError(f"Could not locate CRT dlls in SDK at {CRTDir}")
with os.scandir(CRTDir) as dir:
for file in dir:
if file.name.endswith(".dll") and file.is_file():
action.append(Copy(target[0], file.path))
if certFile or apiSigningToken:
for prog in "nvda_noUIAccess.exe", "nvda_uiAccess.exe", "nvda_slave.exe":
action.append(
lambda target, source, env, progByVal=prog: env["signExec"](
[target[0].File(progByVal)], source, env
)
)
action.extend((Delete(buildVersionFn), Delete(importlib.util.cache_from_source(buildVersionFn))))
return action
env["BUILDERS"]["NVDADist"] = Builder(generator=NVDADistGenerator, target_factory=Dir)
# A builder to generate a zip archive.
# We roll our own instead of using env.Zip because we want to create some archives
# relative to a specified directory.
def ZipArchiveAction(target, source, env):
relativeTo = env.get("relativeTo", None)
if relativeTo:
relativeTo = relativeTo.path
def getArcName(origName):
arcName = os.path.relpath(origName, relativeTo)
if arcName.startswith(".."):
arcName = arcName.replace(".." + os.path.sep, "")
return "" if arcName == "." else arcName
else:
getArcName = lambda origName: "" if origName == "." else origName # noqa: E731
# Nasty hack to make zipfile use best compression, since it isn't configurable.
# Tried setting memlevel to 9 as well, but it made compression slightly worse.
import zlib
origZDefComp = zlib.Z_DEFAULT_COMPRESSION
zlib.Z_DEFAULT_COMPRESSION = zlib.Z_BEST_COMPRESSION
import zipfile
zf = None
try:
zf = zipfile.ZipFile(target[0].path, "w", zipfile.ZIP_DEFLATED)
for s in source:
if os.path.isdir(s.path):
for path, dirs, files in os.walk(s.path):
arcPath = getArcName(path)
if arcPath:
zf.write(path, arcPath)
for f in files:
zf.write(os.path.join(path, f), os.path.join(arcPath, f))
else:
zf.write(s.path, getArcName(s.path))
finally:
if zf:
zf.close()
zlib.Z_DEFAULT_COMPRESSION = origZDefComp
env["BUILDERS"]["ZipArchive"] = Builder(action=ZipArchiveAction)
uninstFile = File("dist/uninstall.exe")
uninstGen = env.Command(
File("uninstaller/uninstGen.exe"),
"uninstaller/uninst.nsi",
[
[
makensis,
"/V2",
"/DVERSION=$version",
'/DPUBLISHER="$publisher"',
'/DCOPYRIGHT="$copyright"',
'/DVERSION_YEAR="$version_year"',
'/DVERSION_MAJOR="$version_major"',
'/DVERSION_MINOR="$version_minor"',
'/DVERSION_BUILD="$version_build"',
"/DUNINSTEXE=%s" % uninstFile.abspath,
"/DINSTEXE=${TARGET.abspath}",
"$SOURCE",
]
],
)
uninstaller = env.Command(uninstFile, uninstGen, [uninstGen])
if certFile or apiSigningToken:
env.AddPostAction(uninstaller, [env["signExec"]])
dist = env.NVDADist("dist", [sourceDir, userDocsDir], uiAccess=bool(certFile) or bool(apiSigningToken))
env.Depends(dist, uninstaller)
# dist will always be considered obsolete
AlwaysBuild(dist)
# Dir node targets don't get cleaned, so cleaning of the dist nodes has to be explicitly specified.
env.Clean(dist, dist)
# Clean the intermediate build directory.
env.Clean([dist], buildDir)
launcher = env.Command(
outputDir.File("%s.exe" % outFilePrefix),
["launcher/nvdaLauncher.nsi", dist],
[
[
makensis,
"/V2",
"/DVERSION=$version",
'/DPUBLISHER="$publisher"',
'/DCOPYRIGHT="$copyright"',
'/DVERSION_YEAR="$version_year"',
'/DVERSION_MAJOR="$version_major"',
'/DVERSION_MINOR="$version_minor"',
'/DVERSION_BUILD="$version_build"',
"/DNVDADistDir=${SOURCES[1].abspath}",
"/DLAUNCHEREXE=${TARGET.abspath}",
"$SOURCE",
]
],
)
if certFile or apiSigningToken:
env.AddPostAction(launcher, [env["signExec"]])
env.Alias("launcher", launcher)
clientArchive = env.ZipArchive(
outputDir.File("%s_controllerClient.zip" % outFilePrefix), clientDir, relativeTo=clientDir
)
env.Alias("client", clientArchive)
outputStylesFile = env.Command(
outputDir.File("styles.css"), userDocsDir.File("styles.css"), Copy("$TARGET", "$SOURCE")
)
outputHeadingStylesFile = env.Command(
outputDir.File("numberedHeadings.css"),
userDocsDir.File("numberedHeadings.css"),
Copy("$TARGET", "$SOURCE"),
)
changesFile = env.Command(
outputDir.File("%s_changes.html" % outFilePrefix),
userDocsDir.File("en/changes.html"),
Copy("$TARGET", "$SOURCE"),
)
env.Depends(changesFile, outputStylesFile)
env.Alias("changes", changesFile)
userGuideFile = env.Command(
outputDir.File("userGuide.html"), userDocsDir.File("en/userGuide.html"), Copy("$TARGET", "$SOURCE")
)
env.Depends(userGuideFile, outputStylesFile)
env.Alias("userGuide", userGuideFile)
keyCommandsFile = env.Command(
outputDir.File("keyCommands.html"), userDocsDir.File("en/keyCommands.html"), Copy("$TARGET", "$SOURCE")
)
env.Depends(keyCommandsFile, outputStylesFile)
env.Depends(keyCommandsFile, userGuideFile)
env.Alias("keyCommands", keyCommandsFile)
def makePotSourceFileList(target, sourceFiles, env):
potSourceFiles = [os.path.relpath(str(f), str(sourceDir)) for f in sourceFiles]
with open(target.abspath, "w") as fileList:
fileList.writelines([f + "\n" for f in potSourceFiles])
def makePot(target, source, env):
potSourceFileList = outputDir.File("potSourceFileList.txt")
makePotSourceFileList(potSourceFileList, source, env)
# Generate the pot.
if (
env.Execute(
[
[
"cd",
sourceDir,
"&&",
XGETTEXT,
"-o",
target[0].abspath,
"--package-name",
versionInfo.name,
"--package-version",
version,
"--foreign-user",
"--add-comments=Translators:",
"--keyword=pgettext:1c,2",
"--keyword=npgettext:1c,2,3",
"--from-code",
"utf-8",
# Needed because xgettext doesn't recognise the .pyw extension.
"--language=python",
# Too many files to list on commandline, use a file list instead.
f"--files-from={potSourceFileList.abspath}",
]
]
)
!= 0
):
raise RuntimeError("xgettext failed")
# Tweak the headers.
potFn = str(target[0])
tmpFn = "%s.tmp" % potFn
with open(potFn, "rt", encoding="utf-8") as inp, open(tmpFn, "wt", encoding="utf-8") as out:
for lineNum, line in enumerate(inp):
if lineNum == 1:
line = "# %s\n" % versionInfo.copyright
elif lineNum == 2:
# Delete line.
continue
elif lineNum == 15:
line = line.replace("CHARSET", "UTF-8")
out.write(line)
os.remove(potFn)
os.rename(tmpFn, potFn)
env.SConscript("projectDocs/dev/developerGuide/sconscript", exports=["env", "outputDir", "sourceDir"])
def getSubDirs(path):
for root, dirNames, fileNames in os.walk(path):
yield root
# The Glob() SCons function doesnt have the ability to go recursive. Instead
# walk the dirs and match patterns.
potSourceFiles = [
# Don't use sourceDir as the source, as this depends on comInterfaces and nvdaHelper.
# We only depend on the Python files.
f
for recurseDirs in getSubDirs(sourceDir.path)
if not (
# Exclude comInterfaces, since these don't contain translatable strings
# and they cause unknown encoding warnings.
recurseDirs.startswith(r"source\comInterfaces")
# Exclude userConfig folder which does not contain NVDA code but may contain gettext call without
# translator comments in add-ons or scratchpad, triggering false positive for checkpot script.
or recurseDirs.startswith(r"source\userConfig")
)
for pattern in ("*.py", "*.pyw")
for f in env.Glob(
os.path.join(recurseDirs, pattern),
)
]
pot = env.Command(outputDir.File("nvda.pot"), potSourceFiles, makePot)
env.Alias("pot", pot)
symbolsList = []
symbolsList.extend(env.Glob(os.path.join(sourceLibDir.path, "*.pdb")))
symbolsList.extend(env.Glob(os.path.join(sourceLibDir64.path, "*.pdb")))
symbolsArchive = env.ZipArchive(outputDir.File("%s_debugSymbols.zip" % outFilePrefix), symbolsList)
env.Alias("symbolsArchive", symbolsArchive)
appx_storeSubmission = env.SConscript(
"appx/sconscript",
exports={"env": env, "isStoreSubmission": True},
variant_dir="build\\appx_storeSubmission",
)
installed_appx_storeSubmission = env.Install("output", appx_storeSubmission)
appx_sideLoadable = env.SConscript(
"appx/sconscript",
exports={"env": env, "isStoreSubmission": False},
variant_dir="build\\appx_sideLoadable",
)
installed_appx_sideLoadable = env.Install("output", appx_sideLoadable)
env.Alias("appx", [installed_appx_storeSubmission, installed_appx_sideLoadable])
env.Default(dist)
env.SConscript("tests/sconscript", exports=["env", "sourceDir", "pot"])
# Generate a list of Python modules from compiled '.pyc' files in library.zip
env.Tool("listModules")
source = env.Dir(os.path.join(os.getcwd(), "dist"))
# Putting the target in the output dir automatically causes AppVeyor to package it as an artefact
target = env.File(os.path.join(outputDir.abspath, "library_modules.txt"))
env.Alias("moduleList", env.GenerateModuleList(target, source))
nvdaL10nUtil = env.Command(
target=outputDir.File("l10nUtil.exe"),
source="user_docs/l10nUtil.py",
ENV=os.environ,
action=f"nuitka --assume-yes-for-downloads --remove-output --standalone --onefile --output-dir={outputDir.abspath} --include-module=mdx_truly_sane_lists --include-module=markdown_link_attr_modifier --include-module=mdx_gh_links user_docs/l10nUtil.py",
)
env.Alias("nvdaL10nUtil", nvdaL10nUtil)