Open Source Computer Vision Library https://opencv.org/
You can not select more than 25 topics Topics must start with a letter or number, can include dashes ('-') and can be up to 35 characters long.

325 lines
14 KiB

#!/usr/bin/env python
import os, sys, subprocess, argparse, shutil, glob, re
import logging as log
import xml.etree.ElementTree as ET
class Fail(Exception):
def __init__(self, text=None):
self.t = text
def __str__(self):
return "ERROR" if self.t is None else self.t
def execute(cmd, shell=False):
try:
log.info("Executing: %s" % cmd)
retcode = subprocess.call(cmd, shell=shell)
if retcode < 0:
raise Fail("Child was terminated by signal:" %s -retcode)
elif retcode > 0:
raise Fail("Child returned: %s" % retcode)
except OSError as e:
raise Fail("Execution failed: %d / %s" % (e.errno, e.strerror))
def rm_one(d):
d = os.path.abspath(d)
if os.path.exists(d):
if os.path.isdir(d):
log.info("Removing dir: %s", d)
shutil.rmtree(d)
elif os.path.isfile(d):
log.info("Removing file: %s", d)
os.remove(d)
def check_dir(d, create=False, clean=False):
d = os.path.abspath(d)
log.info("Check dir %s (create: %s, clean: %s)", d, create, clean)
if os.path.exists(d):
if not os.path.isdir(d):
raise Fail("Not a directory: %s" % d)
if clean:
for x in glob.glob(os.path.join(d, "*")):
rm_one(x)
else:
if create:
os.makedirs(d)
return d
def determine_engine_version(manifest_path):
with open(manifest_path, "rt") as f:
return re.search(r'android:versionName="(\d+\.\d+)"', f.read(), re.MULTILINE).group(1)
def determine_opencv_version(version_hpp_path):
# version in 2.4 - CV_VERSION_EPOCH.CV_VERSION_MAJOR.CV_VERSION_MINOR.CV_VERSION_REVISION
# version in master - CV_VERSION_MAJOR.CV_VERSION_MINOR.CV_VERSION_REVISION-CV_VERSION_STATUS
with open(version_hpp_path, "rt") as f:
data = f.read()
major = re.search(r'^#define\W+CV_VERSION_MAJOR\W+(\d+)$', data, re.MULTILINE).group(1)
minor = re.search(r'^#define\W+CV_VERSION_MINOR\W+(\d+)$', data, re.MULTILINE).group(1)
revision = re.search(r'^#define\W+CV_VERSION_REVISION\W+(\d+)$', data, re.MULTILINE).group(1)
9 years ago
version_status = re.search(r'^#define\W+CV_VERSION_STATUS\W+"([^"]*)"$', data, re.MULTILINE).group(1)
return "%(major)s.%(minor)s.%(revision)s%(version_status)s" % locals()
#===================================================================================================
class ABI:
def __init__(self, platform_id, name, toolchain, cmake_name=None):
self.platform_id = platform_id # platform code to add to apk version (for cmake)
self.name = name # general name (official Android ABI identifier)
self.toolchain = toolchain # toolchain identifier (for cmake)
self.cmake_name = cmake_name # name of android toolchain (for cmake)
if self.cmake_name is None:
self.cmake_name = self.name
def __str__(self):
return "%s (%s)" % (self.name, self.toolchain)
def haveIPP(self):
return False
# return self.name == "x86" or self.name == "x86_64"
ABIs = [
ABI("2", "armeabi-v7a", "arm-linux-androideabi-4.8", cmake_name="armeabi-v7a with NEON"),
ABI("1", "armeabi", "arm-linux-androideabi-4.8"),
ABI("3", "arm64-v8a", "aarch64-linux-android-4.9"),
ABI("5", "x86_64", "x86_64-4.9"),
ABI("4", "x86", "x86-4.8"),
ABI("7", "mips64", "mips64el-linux-android-4.9"),
ABI("6", "mips", "mipsel-linux-android-4.8")
]
#===================================================================================================
class Builder:
def __init__(self, workdir, opencvdir):
self.workdir = check_dir(workdir, create=True)
self.opencvdir = check_dir(opencvdir)
self.libdest = check_dir(os.path.join(self.workdir, "o4a"), create=True, clean=True)
self.docdest = check_dir(os.path.join(self.workdir, "javadoc"), create=True, clean=True)
self.resultdest = check_dir(os.path.join(self.workdir, "OpenCV-android-sdk"), create=True, clean=True)
self.extra_packs = []
self.opencv_version = determine_opencv_version(os.path.join(self.opencvdir, "modules", "core", "include", "opencv2", "core", "version.hpp"))
self.engine_version = determine_engine_version(os.path.join(self.opencvdir, "platforms", "android", "service", "engine", "AndroidManifest.xml"))
self.use_ccache = True
def get_toolchain_file(self):
return os.path.join(self.opencvdir, "platforms", "android", "android.toolchain.cmake")
def get_engine_apk_dest(self, engdest):
return os.path.join(engdest, "platforms", "android", "service", "engine", ".build")
def add_extra_pack(self, ver, path):
if path is None:
return
self.extra_packs.append((ver, check_dir(path)))
def clean_library_build_dir(self):
for d in ["CMakeCache.txt", "CMakeFiles/", "bin/", "libs/", "lib/", "package/", "install/samples/"]:
rm_one(d)
def build_library(self, abi, do_install):
cmd = [
"cmake",
"-GNinja",
"-DCMAKE_TOOLCHAIN_FILE='%s'" % self.get_toolchain_file(),
"-DWITH_OPENCL=OFF",
"-DWITH_CUDA=OFF",
"-DWITH_IPP=%s" % ("ON" if abi.haveIPP() else "OFF"),
"-DBUILD_EXAMPLES=OFF",
"-DBUILD_TESTS=OFF",
"-DBUILD_PERF_TESTS=OFF",
"-DBUILD_DOCS=OFF",
"-DBUILD_ANDROID_EXAMPLES=ON",
"-DINSTALL_ANDROID_EXAMPLES=ON",
"-DANDROID_STL=gnustl_static",
"-DANDROID_NATIVE_API_LEVEL=8",
"-DANDROID_ABI='%s'" % abi.cmake_name,
"-DWITH_TBB=ON",
"-DANDROID_TOOLCHAIN_NAME=%s" % abi.toolchain,
self.opencvdir
]
if self.use_ccache == True:
cmd.extend(["-DNDK_CCACHE=ccache", "-DENABLE_PRECOMPILED_HEADERS=OFF"])
if do_install:
cmd.extend(["-DBUILD_TESTS=ON", "-DINSTALL_TESTS=ON"])
execute(cmd)
if do_install:
execute(["ninja"])
for c in ["libs", "dev", "java", "samples"]:
execute(["cmake", "-DCOMPONENT=%s" % c, "-P", "cmake_install.cmake"])
else:
execute(["ninja", "install/strip"])
def build_engine(self, abi, engdest):
cmd = [
"cmake",
"-GNinja",
"-DCMAKE_TOOLCHAIN_FILE='%s'" % self.get_toolchain_file(),
"-DANDROID_ABI='%s'" % abi.cmake_name,
"-DBUILD_ANDROID_SERVICE=ON",
"-DANDROID_PLATFORM_ID=%s" % abi.platform_id,
"-DWITH_CUDA=OFF",
"-DWITH_OPENCL=OFF",
"-DWITH_IPP=OFF",
self.opencvdir
]
execute(cmd)
apkdest = self.get_engine_apk_dest(engdest)
# Add extra data
apkxmldest = check_dir(os.path.join(apkdest, "res", "xml"), create=True)
apklibdest = check_dir(os.path.join(apkdest, "libs", abi.name), create=True)
for ver, d in self.extra_packs + [("3.1.0", os.path.join(self.libdest, "lib"))]:
r = ET.Element("library", attrib={"version": ver})
log.info("Adding libraries from %s", d)
for f in glob.glob(os.path.join(d, abi.name, "*.so")):
log.info("Copy file: %s", f)
shutil.copy2(f, apklibdest)
if "libnative_camera" in f:
continue
log.info("Register file: %s", os.path.basename(f))
n = ET.SubElement(r, "file", attrib={"name": os.path.basename(f)})
if len(list(r)) > 0:
xmlname = os.path.join(apkxmldest, "config%s.xml" % ver.replace(".", ""))
log.info("Generating XML config: %s", xmlname)
ET.ElementTree(r).write(xmlname, encoding="utf-8")
execute(["ninja", "opencv_engine"])
execute(["ant", "-f", os.path.join(apkdest, "build.xml"), "debug"],
shell=(sys.platform == 'win32'))
# TODO: Sign apk
def build_javadoc(self):
classpaths = [os.path.join(self.libdest, "bin", "classes")]
for dir, _, files in os.walk(os.environ["ANDROID_SDK"]):
for f in files:
if f == "android.jar" or f == "annotations.jar":
classpaths.append(os.path.join(dir, f))
cmd = [
"javadoc",
"-header", "OpenCV %s" % self.opencv_version,
"-nodeprecated",
"-footer", '<a href="http://docs.opencv.org">OpenCV %s Documentation</a>' % self.opencv_version,
"-public",
"-sourcepath", os.path.join(self.libdest, "src"),
"-d", self.docdest,
"-classpath", ":".join(classpaths)
]
for _, dirs, _ in os.walk(os.path.join(self.libdest, "src", "org", "opencv")):
cmd.extend(["org.opencv." + d for d in dirs])
execute(cmd)
def gather_results(self, engines):
# Copy all files
root = os.path.join(self.libdest, "install")
for item in os.listdir(root):
name = item
item = os.path.join(root, item)
if os.path.isdir(item):
log.info("Copy dir: %s", item)
shutil.copytree(item, os.path.join(self.resultdest, name))
elif os.path.isfile(item):
log.info("Copy file: %s", item)
shutil.copy2(item, os.path.join(self.resultdest, name))
# Copy engines for all platforms
for abi, engdest in engines:
log.info("Copy engine: %s (%s)", abi, engdest)
f = os.path.join(self.get_engine_apk_dest(engdest), "bin", "opencv_engine-debug.apk")
resname = "OpenCV_%s_Manager_%s_%s.apk" % (self.opencv_version, self.engine_version, abi)
shutil.copy2(f, os.path.join(self.resultdest, "apk", resname))
# Copy javadoc
log.info("Copy docs: %s", self.docdest)
shutil.copytree(self.docdest, os.path.join(self.resultdest, "sdk", "java", "javadoc"))
# Patch cmake config
with open(os.path.join(self.resultdest, "sdk", "native", "jni", "OpenCVConfig.cmake"), "r+t") as f:
contents = f.read()
contents, count = re.subn(r'OpenCV_ANDROID_NATIVE_API_LEVEL \d+', "OpenCV_ANDROID_NATIVE_API_LEVEL 8", contents)
f.seek(0)
f.write(contents)
f.truncate()
log.info("Patch cmake config: %s (%d changes)", f.name, count)
# Clean samples
path = os.path.join(self.resultdest, "samples")
for item in os.listdir(path):
item = os.path.join(path, item)
if os.path.isdir(item):
for name in ["build.xml", "local.properties", "proguard-project.txt"]:
rm_one(os.path.join(item, name))
#===================================================================================================
if __name__ == "__main__":
parser = argparse.ArgumentParser(description='Build OpenCV for Android SDK')
parser.add_argument("work_dir", help="Working directory (and output)")
parser.add_argument("opencv_dir", help="Path to OpenCV source dir")
parser.add_argument('--ndk_path', help="Path to Android NDK to use for build")
parser.add_argument('--sdk_path', help="Path to Android SDK to use for build")
parser.add_argument('--sign_with', help="Sertificate to sign the Manager apk")
parser.add_argument('--build_doc', action="store_true", help="Build javadoc")
parser.add_argument('--no_ccache', action="store_true", help="Do not use ccache during library build")
parser.add_argument('--extra_pack', action='append', help="provide extra OpenCV libraries for Manager apk in form <version>:<path-to-native-libs>, for example '2.4.11:unpacked/sdk/native/libs'")
args = parser.parse_args()
log.basicConfig(format='%(message)s', level=log.DEBUG)
log.debug("Args: %s", args)
if args.ndk_path is not None:
os.environ["ANDROID_NDK"] = args.ndk_path
if args.sdk_path is not None:
os.environ["ANDROID_SDK"] = args.sdk_path
log.info("Android NDK path: %s", os.environ["ANDROID_NDK"])
log.info("Android SDK path: %s", os.environ["ANDROID_SDK"])
builder = Builder(args.work_dir, args.opencv_dir)
if args.no_ccache:
builder.use_ccache = False
log.info("Detected OpenCV version: %s", builder.opencv_version)
log.info("Detected Engine version: %s", builder.engine_version)
if args.extra_pack:
for one in args.extra_pack:
i = one.find(":")
if i > 0 and i < len(one) - 1:
builder.add_extra_pack(one[:i], one[i+1:])
else:
raise Fail("Bad extra pack provided: %s, should be in form '<version>:<path-to-native-libs>'" % one)
engines = []
for i, abi in enumerate(ABIs):
do_install = (i == 0)
engdest = check_dir(os.path.join(builder.workdir, "build_service_%s" % abi.name), create=True, clean=True)
log.info("=====")
log.info("===== Building library for %s", abi)
log.info("=====")
os.chdir(builder.libdest)
builder.clean_library_build_dir()
builder.build_library(abi, do_install)
log.info("=====")
log.info("===== Building engine for %s", abi)
log.info("=====")
os.chdir(engdest)
builder.build_engine(abi, engdest)
engines.append((abi.name, engdest))
if args.build_doc:
builder.build_javadoc()
builder.gather_results(engines)
log.info("=====")
log.info("===== Build finished")
log.info("=====")
log.info("SDK location: %s", builder.resultdest)
log.info("Documentation location: %s", builder.docdest)