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/*
* Copyright (c) 2013, 2022, Oracle and/or its affiliates. All rights reserved.
* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
*
* This code is free software; you can redistribute it and/or modify it
* under the terms of the GNU General Public License version 2 only, as
* published by the Free Software Foundation. Oracle designates this
* particular file as subject to the "Classpath" exception as provided
* by Oracle in the LICENSE file that accompanied this code.
*
* This code is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
* version 2 for more details (a copy is included in the LICENSE file that
* accompanied this code).
*
* You should have received a copy of the GNU General Public License version
* 2 along with this work; if not, write to the Free Software Foundation,
* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
*
* Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
* or visit www.oracle.com if you need additional information or have any
* questions.
*/
/**
* The main build script for JavaFX.
*
* MUST FIX tasks to complete:
* - build check -- making sure the final artifact has the right bits
* - some things worth automatically sanity checking:
* - are there images in the javadocs?
* - are all of the expected dylibs etc there?
* - Perform sanity checking to make sure a JDK exists with javac, etc
* - Support building with no known JDK location, as long as javac, etc are on the path
* - Check all of the native flags. We're adding weight to some libs that don't need it, and so forth.
*
* Additional projects to work on as we go:
* - Add "developer debug". This is where the natives do not have debug symbols, but the Java code does
* - The genVSproperties.bat doesn't find the directory where RC.exe lives. So it is hard coded. Might be a problem.
* - special tasks for common needs, such as:
* - updating copyright headers
* - stripping trailing whitespace (?)
* - checkstyle
* - findbugs
* - re needs?
* - sqe testing
* - API change check
* - Pushing results to a repo?
* - ServiceWithSecurityManagerTest fails to complete when run from gradle.
* - Integrate Parfait reports for C code
* - FXML Project tests are not running
*/
defaultTasks = ["sdk"]
import java.util.concurrent.CountDownLatch
import java.util.concurrent.ExecutorService
import java.util.concurrent.Executors
import java.util.concurrent.Future
/******************************************************************************
* Utility methods *
*****************************************************************************/
/**
* If the given named property is not defined, then this method will define
* it with the given defaultValue. Any properties defined by this method can
* be substituted on the command line by using -P, or by specifying a
* gradle.properties file in the user home dir
*
* @param name The name of the property to define
* @param defaultValue The default value to assign the property
*/
void defineProperty(String name, String defaultValue) {
if (!project.hasProperty(name)) {
project.ext.set(name, defaultValue);
}
}
/**
* If the given named property is not defined, then this method will attempt to
* look up the property in the props map, and use the defaultValue if it cannot be found.
*
* @param name The name of the property to look up and/or define
* @param props The properties to look for the named property in, if it has not already been defined
* @param defaultValue The default value if the property has not been defined and the
* props map does not contain the named property
*/
void defineProperty(String name, Properties props, String defaultValue) {
if (!project.hasProperty(name)) {
project.ext.set(name, props.getProperty(name, defaultValue));
}
}
/**
* Converts cygwin style paths to windows style paths, but with a forward slash.
* This method is safe to call from any platform, and will only do work if
* called on Windows (in all other cases it simply returns the supplied path.
*
* @param path the path to convert
* @return the path converted to windows style, if on windows, otherwise it
* is the supplied path.
*/
String cygpath(String path) {
if (!IS_WINDOWS) return path;
if (path == null || "".equals(path)) return path;
String ret = path.replaceAll('\\\\', '/')
logger.info("Converting path '$path' via cygpath to "+ret)
return ret
}
/**
* Converts cygwin file paths for java executables to windows style
* executable paths by changing forward slashes to back slashes and
* adding the '.exe' extension.
* This method is safe to call from any platform, and will only do work if
* called on Windows (in all other cases it simply returns the supplied path).
*
* @param path the path to convert
* @return the path converted to windows style, if on windows, otherwise it
* is the supplied path.
*/
String cygpathExe(String path) {
if (!IS_WINDOWS) return path;
if (path == null || "".equals(path)) return path;
String ret = path.replaceAll('/', '\\\\')
logger.info("Converting path '$path' via cygpath to "+ret)
return ret + ".exe"
}
void loadProperties(String sourceFileName) {
def config = new Properties()
def propFile = new File(sourceFileName)
if (propFile.canRead()) {
config.load(new FileInputStream(propFile))
for (java.util.Map.Entry property in config) {
def keySplit = property.key.split("\\.");
def key = keySplit[0];
for (int i = 1; i < keySplit.length; i++) {
key = key + keySplit[i].capitalize();
}
ext[key] = property.value;
}
}
}
/**
* Struct used to contain some information passed to the closure
* passed to compileTargets.
*/
class CompileTarget {
String name;
String upper;
String capital;
}
/**
* Iterates over each of the compile targets, passing the given closure
* a CompileTarget instance.
*
* @param c The closure to call
*/
void compileTargets(Closure c) {
if (COMPILE_TARGETS == "") {
return
}
COMPILE_TARGETS.split(",").each { target ->
CompileTarget ct = new CompileTarget();
ct.name = target;
ct.upper = target.trim().toUpperCase(Locale.ROOT)
ct.capital = target.trim().capitalize()
c(ct)
}
}
/**
* Manages the execution of some closure which is responsible for producing
* content for a properties file built at build time and stored in the
* root project's $buildDir, and then loading that properties file and
* passing it to the processor closure.
*
* This is used on windows to produce a properties file containing all the
* windows visual studio paths and environment variables, and on Linux
* for storing the results of pkg-config calls.
*
* @param name the name of the file to produce
* @param loader a closure which is invoked, given the properties file. This
* closure is invoked only if the properties file needs to be created
* and is responsible for populating the properties file.
* @param processor a closure which is invoked every time this method is
* called and which will be given a Properties object, fully populated.
* The processor is then responsible for doing whatever it is that it
* must do with those properties (such as setting up environment
* variables used in subsequent native builds, or whatnot).
*/
void setupTools(String name, Closure loader, Closure processor) {
// Check to see whether $buildDir/$name.properties file exists. If not,
// then generate it. Once generated, we need to read the properties file to
// help us define the defaults for this block of properties
File propFile = file("$buildDir/${name}.properties");
if (!propFile.exists()) {
// Create the properties file
propFile.getParentFile().mkdirs();
propFile.createNewFile();
loader(propFile);
}
// Try reading the properties in order to define the properties. If the property file cannot
// be located, then we will throw an exception because we cannot guess these values
InputStream propStream = null;
try {
Properties properties = new Properties();
propStream = new FileInputStream(propFile);
properties.load(propStream);
processor(properties);
} finally {
try { propStream.close() } catch (Exception e) { }
}
}
String[] parseJavaVersion(String jRuntimeVersion) {
def jVersion = jRuntimeVersion.split("[-\\+]")[0]
def tmpBuildNumber = "0"
if (jVersion.startsWith("1.")) {
// This is a pre-JEP-223 version string
def dashbIdx = jRuntimeVersion.lastIndexOf("-b")
if (dashbIdx != -1) {
tmpBuildNumber = jRuntimeVersion.substring(dashbIdx + 2)
}
} else {
// This is a post-JEP-223 version string
def plusIdx = jRuntimeVersion.indexOf("+")
if (plusIdx != -1) {
tmpBuildNumber = jRuntimeVersion.substring(plusIdx + 1)
}
}
def jBuildNumber = tmpBuildNumber.split("[-\\+]")[0]
def versionInfo = new String[2];
versionInfo[0] = jVersion
versionInfo[1] = jBuildNumber
return versionInfo
}
/**
* Fails the build with the specified error message
*
* @param msg the reason for the failure
*/
void fail(String msg) {
throw new GradleException("FAIL: " + msg);
}
/******************************************************************************
* *
* Definition of project properties *
* *
* All properties defined using ext. are immediately available throughout *
* the script as variables that can be used. These variables are attached *
* to the root project (whereas if they were defined as def variables then *
* they would only be available within the root project scope). *
* *
* All properties defined using the "defineProperty" method can be replaced *
* on the command line by using the -P flag. For example, to override the *
* location of the binary plug, you would specify -PBINARY_PLUG=some/where *
* *
*****************************************************************************/
// If the ../rt-closed directory exists, then we are doing a closed build.
// In this case, build and property files will be read from
// ../rt-closed/closed-build.gradle and ../rt-closed/closed-properties.gradle
// respectively
def closedDir = file("../rt-closed")
def buildClosed = closedDir.isDirectory()
ext.BUILD_CLOSED = buildClosed
ext.RUNARGSFILE = "run.args"
ext.COMPILEARGSFILE = "compile.args"
ext.RUNJAVAPOLICYFILE = 'run.java.policy'
ext.TESTCOMPILEARGSFILE = "testcompile.args"
ext.TESTRUNARGSFILE = "testrun.args"
ext.TESTJAVAPOLICYFILE = 'test.java.policy'
// the file containing "extra" --add-exports
ext.EXTRAADDEXPORTS = 'buildSrc/addExports'
ext.MODULESOURCEPATH = "modulesourcepath.args"
// These variables indicate what platform is running the build. Is
// this build running on a Mac, Windows, or Linux machine? 32 or 64 bit?
ext.OS_NAME = System.getProperty("os.name").toLowerCase()
ext.OS_ARCH = System.getProperty("os.arch")
ext.ARCH_NAME = "x64"
ext.IS_64 = OS_ARCH.toLowerCase().contains("64")
ext.IS_AARCH64 = OS_ARCH.toLowerCase().contains("aarch64")
ext.IS_LOONGARCH64 = OS_ARCH.toLowerCase().contains("loongarch64")
ext.IS_MAC = OS_NAME.contains("mac") || OS_NAME.contains("darwin")
ext.IS_WINDOWS = OS_NAME.contains("windows")
ext.IS_LINUX = OS_NAME.contains("linux")
ext.MAVEN_GROUP_ID = "org.openjfx"
// Verify that the architecture & OS are supported configurations. Note that
// at present building on PI is not supported, but we would only need to make
// some changes on assumptions on what should be built (like SWT / Swing) and
// such and we could probably make it work.
if (!IS_MAC && !IS_WINDOWS && !IS_LINUX) fail("Unsupported build OS ${OS_NAME}")
if (IS_WINDOWS && OS_ARCH != "x86" && OS_ARCH != "amd64") {
fail("Unknown and unsupported build architecture: $OS_ARCH")
} else if (IS_MAC && OS_ARCH != "x86_64" && OS_ARCH != "aarch64") {
fail("Unknown and unsupported build architecture: $OS_ARCH")
} else if (IS_LINUX && OS_ARCH != "i386" && OS_ARCH != "amd64" && !IS_AARCH64 && !IS_LOONGARCH64) {
fail("Unknown and unsupported build architecture: $OS_ARCH")
}
if (IS_64) {
if (IS_AARCH64) {
ARCH_NAME = "aarch64"
} else if (IS_LOONGARCH64) {
ARCH_NAME = "loongarch64"
} else {
ARCH_NAME = "x64"
}
} else {
ARCH_NAME = "x32"
}
// Get the JDK_HOME automatically based on the version of Java used to execute gradle. Or, if specified,
// use a user supplied JDK_HOME, STUB_RUNTIME, JAVAC, all of which may be specified
// independently (or we'll try to get the right one based on other supplied info). Sometimes the
// JRE might be the thing that is being used instead of the JRE embedded in the JDK, such as:
// c:\Program Files (x86)\Java\jdk1.8.0\jre
// c:\Program Files (x86)\Java\jre8\
// Because of this, you may sometimes get the jdk's JRE (in which case the logic we used to have here
// was correct and consistent with all other platforms), or it might be the standalone JRE (for the love!).
def envJavaHome = cygpath(System.getenv("JDK_HOME"))
if (envJavaHome == null || envJavaHome.equals("")) envJavaHome = cygpath(System.getenv("JAVA_HOME"))
def javaHome = envJavaHome == null || envJavaHome.equals("") ? System.getProperty("java.home") : envJavaHome
def javaHomeFile = file(javaHome)
defineProperty("JDK_HOME",
javaHomeFile.name == "jre" ?
javaHomeFile.getParent().toString() :
javaHomeFile.name.startsWith("jre") ?
new File(javaHomeFile.getParent(), "jdk1.${javaHomeFile.name.substring(3)}.0").toString() :
javaHome) // we have to bail and set it to something and this is as good as any!
ext.JAVA_HOME = JDK_HOME
defineProperty("JAVA", cygpathExe("$JDK_HOME/bin/java"))
defineProperty("JAVAC", cygpathExe("$JDK_HOME/bin/javac"))
defineProperty("JAVADOC", cygpathExe("$JDK_HOME/bin/javadoc"))
defineProperty("JMOD", cygpathExe("$JDK_HOME/bin/jmod"))
defineProperty("JDK_DOCS", "https://docs.oracle.com/en/java/javase/17/docs/api/")
defineProperty("JDK_JMODS", cygpath(System.getenv("JDK_JMODS")) ?: cygpath(System.getenv("JDK_HOME") + "/jmods"))
defineProperty("javaRuntimeVersion", System.getProperty("java.runtime.version"))
def javaVersionInfo = parseJavaVersion(javaRuntimeVersion)
defineProperty("javaVersion", javaVersionInfo[0])
defineProperty("javaBuildNumber", javaVersionInfo[1])
defineProperty("libAVRepositoryURL", "https://libav.org/releases/")
defineProperty("FFmpegRepositoryURL", "https://www.ffmpeg.org/releases/")
defineProperty("icuRepositoryURL", "https://github.com/unicode-org/icu/releases/")
defineProperty("icuVersion", "71.1")
loadProperties("$projectDir/build.properties")
def supplementalPreBuildFile = file("$closedDir/closed-pre-build.gradle");
def supplementalBuildFile = file("$closedDir/closed-build.gradle");
if (BUILD_CLOSED) {
apply from: supplementalPreBuildFile
}
// GRADLE_VERSION_CHECK specifies whether to fail the build if the
// gradle version check fails
defineProperty("GRADLE_VERSION_CHECK", "true")
ext.IS_GRADLE_VERSION_CHECK = Boolean.parseBoolean(GRADLE_VERSION_CHECK)
// JAVA_TARGET_VERSION specifies the minimum compile and runtime Java version that we will target when building the JavaFX classes
ext.JAVA_TARGET_VERSION = Integer.parseInt(jfxJdkTargetVersion)
// JFX_DEPS_URL specifies the optional location of an alternate local repository
defineProperty("JFX_DEPS_URL", "")
// JDK_DOCS_LINK specifies the optional URL for offline javadoc linking
defineProperty("JDK_DOCS_LINK", "")
// COMPILE_WEBKIT specifies whether to build all of webkit.
defineProperty("COMPILE_WEBKIT", "false")
ext.IS_COMPILE_WEBKIT = Boolean.parseBoolean(COMPILE_WEBKIT)
// COMPILE_MEDIA specifies whether to build all of media.
defineProperty("COMPILE_MEDIA", "false")
ext.IS_COMPILE_MEDIA = Boolean.parseBoolean(COMPILE_MEDIA)
// BUILD_LIBAV_STUBS specifies whether to download and build libav/ffmpeg libraries
defineProperty("BUILD_LIBAV_STUBS", "false")
ext.IS_BUILD_LIBAV_STUBS = IS_LINUX ? Boolean.parseBoolean(BUILD_LIBAV_STUBS) : false
// BUILD_WORKING_LIBAV specifies whether to build libav/ffmpeg libraries with
// decoder, demuxer, etc. required to run media. Valid only if BUILD_LIBAV_STUBS is true.
defineProperty("BUILD_WORKING_LIBAV", "false")
ext.IS_BUILD_WORKING_LIBAV = IS_LINUX ? Boolean.parseBoolean(BUILD_WORKING_LIBAV) : false
// COMPILE_PANGO specifies whether to build javafx_font_pango.
defineProperty("COMPILE_PANGO", "${IS_LINUX}")
ext.IS_COMPILE_PANGO = Boolean.parseBoolean(COMPILE_PANGO)
// COMPILE_HARFBUZZ specifies whether to use Harfbuzz.
defineProperty("COMPILE_HARFBUZZ", "false")
ext.IS_COMPILE_HARFBUZZ = Boolean.parseBoolean(COMPILE_HARFBUZZ)
// COMPILE_PARFAIT specifies whether to build parfait
defineProperty("COMPILE_PARFAIT", "false")
ext.IS_COMPILE_PARFAIT = Boolean.parseBoolean(COMPILE_PARFAIT)
defineProperty("STATIC_BUILD", "false")
ext.IS_STATIC_BUILD = Boolean.parseBoolean(STATIC_BUILD)
if (IS_STATIC_BUILD && IS_COMPILE_MEDIA) {
throw new GradleException("Can not have COMPILE_MEDIA when STATIC_BUILD is enabled");
}
// By default, target architecture = host architecture, but we allow different ones.
// On Apple Silicon, default architecture must be "arm64", because clang does not accept
// aarch64 as -arch parameter.
defineProperty("TARGET_ARCH", (IS_MAC && IS_AARCH64) ? "arm64" : OS_ARCH)
// BUILD_TOOLS_DOWNLOAD_SCRIPT specifies a path of a gradle script which downloads
// required build tools.
defineProperty("BUILD_TOOLS_DOWNLOAD_SCRIPT", "")
// Define the SWT.jar that we are going to have to download during the build process based
// on what platform we are compiling from (not based on our target).
ext.SWT_FILE_NAME = IS_MAC ? "org.eclipse.swt.cocoa.macosx.x86_64_3.105.3.v20170228-0512" :
IS_WINDOWS && IS_64 ? "org.eclipse.swt.win32.win32.x86_64_3.105.3.v20170228-0512" :
IS_WINDOWS && !IS_64 ? "org.eclipse.swt.win32.win32.x86_3.105.3.v20170228-0512" :
IS_LINUX && IS_64 ? "org.eclipse.swt.gtk.linux.x86_64_3.105.3.v20170228-0512" :
IS_LINUX && !IS_64 ? "org.eclipse.swt.gtk.linux.x86_3.105.3.v20170228-0512" : ""
// Specifies whether to run full tests (true) or smoke tests (false)
defineProperty("FULL_TEST", "false")
ext.IS_FULL_TEST = Boolean.parseBoolean(FULL_TEST);
defineProperty("FORCE_TESTS", "false")
ext.IS_FORCE_TESTS = Boolean.parseBoolean(FORCE_TESTS);
// Specifies whether to run robot-based visual tests (only used when FULL_TEST is also enabled)
defineProperty("USE_ROBOT", "false")
ext.IS_USE_ROBOT = Boolean.parseBoolean(USE_ROBOT);
// Specified whether to run tests in headless mode
defineProperty("HEADLESS_TEST", "false")
ext.IS_HEADLESS_TEST = Boolean.parseBoolean(HEADLESS_TEST);
// Specifies whether to run system tests that depend on AWT (only used when FULL_TEST is also enabled)
defineProperty("AWT_TEST", "true")
ext.IS_AWT_TEST = Boolean.parseBoolean(AWT_TEST);
// Specifies whether to run system tests that depend on SWT (only used when FULL_TEST is also enabled)
defineProperty("SWT_TEST", "true")
ext.IS_SWT_TEST = Boolean.parseBoolean(SWT_TEST);
// Specifies whether to run unstable tests (true) - tests that don't run well with Hudson builds
// These tests should be protected with :
// assumeTrue(Boolean.getBoolean("unstable.test"));
defineProperty("UNSTABLE_TEST", "false")
ext.IS_UNSTABLE_TEST = Boolean.parseBoolean(UNSTABLE_TEST);
// Toggle diagnostic output from the Gradle workaround and the Sandbox test apps.
defineProperty("WORKER_DEBUG", "false")
ext.IS_WORKER_DEBUG = Boolean.parseBoolean(WORKER_DEBUG);
// Specify the build configuration (Release, Debug, or DebugNative)
defineProperty("CONF", "Debug")
ext.IS_DEBUG_JAVA = CONF == "Debug" || CONF == "DebugNative"
ext.IS_DEBUG_NATIVE = CONF == "DebugNative"
ext.IS_RELEASE = !ext.IS_DEBUG_JAVA
// Specifies whether to enable the Maven publishing tasks
defineProperty("MAVEN_PUBLISH", "false")
ext.IS_MAVEN_PUBLISH = Boolean.parseBoolean(MAVEN_PUBLISH)
// Defines the compiler warning levels to use. If empty, then no warnings are generated. If
// not empty, then the expected syntax is as a space or comma separated list of names, such
// as defined in the javac documentation.
defineProperty("LINT", "none")
ext.IS_LINT = LINT != "none"
defineProperty("DOC_LINT", "all")
ext.IS_DOC_LINT = DOC_LINT != ""
// Specifies whether to use the "useDepend" option when compiling Java sources
defineProperty("USE_DEPEND", "true")
ext.IS_USE_DEPEND = Boolean.parseBoolean(USE_DEPEND)
// Specifies whether to use the "incremental" option when compiling Java sources
defineProperty("INCREMENTAL", "false")
ext.IS_INCREMENTAL = Boolean.parseBoolean(INCREMENTAL)
// Specifies whether to include the Null3D pipeline (for perf debugging)
defineProperty("INCLUDE_NULL3D", "false")
ext.IS_INCLUDE_NULL3D = Boolean.parseBoolean(INCLUDE_NULL3D)
// Specifies whether to include the ES2 pipeline if available
defineProperty("INCLUDE_ES2", IS_WINDOWS ? "false" : "true")
ext.IS_INCLUDE_ES2 = Boolean.parseBoolean(INCLUDE_ES2)
// Specifies whether to generate code coverage statistics when running tests
defineProperty("JCOV", "false")
ext.DO_JCOV = Boolean.parseBoolean(JCOV)
// Specifies whether to use Cygwin when building OpenJFX. This should only ever
// be set to false for development builds (that skip building media and webkit).
defineProperty("USE_CYGWIN", "true")
ext.IS_USE_CYGWIN = Boolean.parseBoolean(USE_CYGWIN)
// Define the number of threads to use when compiling (specifically for native compilation)
// On Mac we limit it to 1 by default due to problems running gcc in parallel
if (IS_MAC) {
defineProperty("NUM_COMPILE_THREADS", "1")
} else {
defineProperty("NUM_COMPILE_THREADS", "${Runtime.runtime.availableProcessors()}")
}
//
// The next three sections of properties are used to generate the
// VersionInfo class, and the Windows DLL manifest.
//
// The following properties should be left alone by developers and set only from Hudson.
defineProperty("HUDSON_JOB_NAME", "not_hudson")
defineProperty("HUDSON_BUILD_NUMBER","0000")
defineProperty("PROMOTED_BUILD_NUMBER", "0")
defineProperty("MILESTONE_FCS", "false")
ext.IS_MILESTONE_FCS = Boolean.parseBoolean(MILESTONE_FCS)
// The following properties define the product name for Oracle JDK and OpenJDK
// for VersionInfo and the DLL manifest.
if (BUILD_CLOSED) {
defineProperty("PRODUCT_NAME", "Java(TM)")
defineProperty("COMPANY_NAME", "Oracle Corporation")
defineProperty("PLATFORM_NAME", "Platform SE")
} else {
defineProperty("PRODUCT_NAME", "OpenJFX")
defineProperty("COMPANY_NAME", "N/A")
defineProperty("PLATFORM_NAME", "Platform")
}
// The following properties are set based on properties defined in
// build.properties. The release version and suffix should be updated
// in that file.
def relVer = 0
if (jfxReleasePatchVersion == "0") {
if (jfxReleaseSecurityVersion == "0") {
if (jfxReleaseMinorVersion == "0") {
relVer = "${jfxReleaseMajorVersion}"
} else {
relVer = "${jfxReleaseMajorVersion}.${jfxReleaseMinorVersion}"
}
} else {
relVer = "${jfxReleaseMajorVersion}.${jfxReleaseMinorVersion}.${jfxReleaseSecurityVersion}"
}
} else {
relVer = "${jfxReleaseMajorVersion}.${jfxReleaseMinorVersion}.${jfxReleaseSecurityVersion}.${jfxReleasePatchVersion}"
}
defineProperty("RELEASE_VERSION", relVer)
defineProperty("RELEASE_VERSION_PADDED", "${jfxReleaseMajorVersion}.${jfxReleaseMinorVersion}.${jfxReleaseSecurityVersion}.${jfxReleasePatchVersion}")
def buildDate = new java.util.Date()
def buildTimestamp = new java.text.SimpleDateFormat("yyyy-MM-dd-HHmmss").format(buildDate)
defineProperty("BUILD_TIMESTAMP", buildTimestamp)
def relSuffix = ""
def relOpt = ""
if (HUDSON_JOB_NAME == "not_hudson") {
relSuffix = "-internal"
relOpt = "-${buildTimestamp}"
} else {
relSuffix = IS_MILESTONE_FCS ? "" : jfxReleaseSuffix
}
defineProperty("RELEASE_SUFFIX", relSuffix)
defineProperty("RELEASE_VERSION_SHORT", "${RELEASE_VERSION}${RELEASE_SUFFIX}")
defineProperty("RELEASE_VERSION_LONG", "${RELEASE_VERSION_SHORT}+${PROMOTED_BUILD_NUMBER}${relOpt}")
defineProperty("MAVEN_VERSION", IS_MAVEN_PUBLISH ? (IS_MILESTONE_FCS ? "${RELEASE_VERSION_SHORT}" : "${RELEASE_VERSION_LONG}") : "")
// Check whether the COMPILE_TARGETS property has been specified (if so, it was done by
// the user and not by this script). If it has not been defined then default
// to building the normal desktop build for this machine
project.ext.set("defaultHostTarget", IS_MAC ? "mac" : IS_WINDOWS ? "win" : IS_LINUX ? "linux" : "");
defineProperty("COMPILE_TARGETS", "$defaultHostTarget")
// Flag indicating whether to import cross compile tools
def importCrossTools = false
if (hasProperty("IMPORT_CROSS_TOOLS")) {
importCrossTools = Boolean.parseBoolean(IMPORT_CROSS_TOOLS);
}
ext.IS_IMPORT_CROSS_TOOLS = importCrossTools
// Location of the cross compile tools
def crossToolsDir = "../crosslibs"
if (hasProperty("CROSS_TOOLS_DIR")) {
crossToolsDir = CROSS_TOOLS_DIR
}
ext.CROSS_TOOLS_DIR = file(crossToolsDir)
// Specifies whether to run tests with the existing javafx.* modules instead of compiling a new one
defineProperty("BUILD_SDK_FOR_TEST", "true")
ext.DO_BUILD_SDK_FOR_TEST = Boolean.parseBoolean(BUILD_SDK_FOR_TEST)
// Make sure JDK_HOME/bin/java exists
if (!file(JAVA).exists()) throw new Exception("Missing or incorrect path to 'java': '$JAVA'. Perhaps bad JDK_HOME? $JDK_HOME")
if (!file(JAVAC).exists()) throw new Exception("Missing or incorrect path to 'javac': '$JAVAC'. Perhaps bad JDK_HOME? $JDK_HOME")
if (!file(JAVADOC).exists()) throw new Exception("Missing or incorrect path to 'javadoc': '$JAVADOC'. Perhaps bad JDK_HOME? $JDK_HOME")
// Determine the verion of Java in JDK_HOME. It looks like this:
//
// $ java -version
// java version "1.7.0_45"
// Java(TM) SE Runtime Environment (build 1.7.0_45-b18)
// Java HotSpot(TM) 64-Bit Server VM (build 24.45-b08, mixed mode)
//
// We need to parse the second line
def inStream = new java.io.BufferedReader(new java.io.InputStreamReader(new java.lang.ProcessBuilder(JAVA, "-fullversion").start().getErrorStream()));
try {
String v = inStream.readLine().trim();
if (v != null) {
int ib = v.indexOf("full version \"");
if (ib != -1) {
String str = v.substring(ib);
String ver = str.substring(str.indexOf("\"") + 1, str.size() - 1);
defineProperty("jdkRuntimeVersion", ver)
def jdkVersionInfo = parseJavaVersion(ver)
defineProperty("jdkVersion", jdkVersionInfo[0])
defineProperty("jdkBuildNumber", jdkVersionInfo[1])
// Define global properties based on the version of Java
// For example, we could define a "jdk18OrLater" property as
// follows that could then be used to implement conditional build
// logic based on whether we were running on JDK 18 or later,
// should the need arise.
// def status = compareJdkVersion(jdkVersion, "18")
// ext.jdk18OrLater = (status >= 0)
}
}
} finally {
inStream.close();
}
if (!project.hasProperty("jdkRuntimeVersion")) throw new Exception("Unable to determine the version of Java in JDK_HOME at $JDK_HOME");
// Determine whether the javafx.* modules are present in the JDK. To do this,
// we will execute "java --list-modules" and search for javafx.base.
ext.HAS_JAVAFX_MODULES = false;
def inStream2 = new java.io.BufferedReader(new java.io.InputStreamReader(new java.lang.ProcessBuilder(JAVA, "--list-modules").start().getInputStream()));
try {
String v;
while ((v = inStream2.readLine()) != null) {
v = v.trim();
if (v.startsWith("javafx.base")) ext.HAS_JAVAFX_MODULES = true;
}
} finally {
inStream2.close();
}
// The HAS_JAVAFX_MODULES flag will be used to determine the mode for building
// and running the applications and tests.
// If HAS_JAVAFX_MODULES is true, then we will build / test javafx modules
// for exporting to a JDK build. If HAS_JAVAFX_MODULES is false, then we will
// build / test a standalone sdk for running with a JDK that does not include
// the javafx modules.
/**
* Fetch/Check that external tools are present for the build. This method
* will conditionally download the packages from project defined ivy repositories
* and unpack them into the specified destdir
*
* @param configName A unique name to distinguish the configuration (ie "ARMSFV6")
* @param packages A list of required packages (with extensions .tgz, .zip)
* @param destdir where the packages should be unpacked
* @param doFetch if true, the named packages will be download
*/
void fetchExternalTools(String configName, List packages, File destdir, boolean doFetch) {
if (doFetch) {
// create a unique configuration for this fetch
def String fetchToolsConfig = "fetchTools$configName"
rootProject.configurations.create(fetchToolsConfig)
def List<String> fetchedPackages = []
def int fetchCount = 0
packages.each { pkgname->
def int dotdex = pkgname.lastIndexOf('.')
def int dashdex = pkgname.lastIndexOf('-')
def String basename = pkgname.substring(0,dashdex)
def String ver = pkgname.substring(dashdex+1,dotdex)
def String ext = pkgname.substring(dotdex+1)
def File pkgdir = file("$destdir/$basename-$ver")
if (!pkgdir.isDirectory()) {
rootProject.dependencies.add(fetchToolsConfig, "javafx:$basename:$ver", {
artifact {
name = basename
type = ext
}
})
println "adding $pkgname as a downloadable item did not find $pkgdir"
fetchedPackages.add(pkgname)
fetchCount++
}
}
//fetch all the missing packages
if (fetchedPackages.size() > 0) {
destdir.mkdirs()
logger.quiet "fetching missing packages $fetchedPackages"
copy {
from rootProject.configurations[fetchToolsConfig]
into destdir
}
// unpack the fetched packages
fetchedPackages.each { pkgname->
logger.quiet "expanding the package $pkgname"
def srcball = file("${destdir}/${pkgname}")
if (!srcball.exists()) {
throw new GradleException("Failed to fetch $pkgname");
}
def String basename = pkgname.substring(0,pkgname.lastIndexOf("."))
def File pkgdir = file("$destdir/$basename")
if (pkgname.endsWith(".tgz") || pkgname.endsWith("tar.gz")) {
if (IS_LINUX || IS_MAC) {
// use native tar to support symlinks
pkgdir.mkdirs()
exec {
workingDir pkgdir
commandLine "tar", "zxf", "${srcball}"
}
} else {
copy {
from tarTree(resources.gzip("${srcball}"))
into pkgdir
}
}
} else if (pkgname.endsWith(".zip")) {
copy {
from zipTree("${srcball}")
into pkgdir
}
} else {
throw new GradleException("Unhandled package type for compile package ${pkgname}")
}
srcball.delete();
}
} else {
logger.quiet "all tool packages are present $packages"
}
} else { // !doFetch - so just check they are present
// check that all the dirs are really there
def List<String> errors = []
packages.each { pkgname->
def String basename = pkgname.substring(0,pkgname.lastIndexOf("."))
def File pkgdir = file("$destdir/$basename")
if (!pkgdir.isDirectory()) {
errors.add(pkgname)
}
}
if (errors.size() > 0) {
throw new GradleException("Error: missing tool packages: $errors")
} else {
logger.quiet "all tool packages are present $packages"
}
}
}
// Make a forked ANT call.
// This needs to be forked so that ant can be used with the right JDK and updated modules
// for testing obscure things like packaging of apps
void ant(String conf, // platform configuration
String dir, // directory to run from
String target, // ant target
List<String> params // parameters (usually -Dxxx=yyy)
) {
// Try to use ANT_HOME
String antHomeEnv = System.getenv("ANT_HOME")
String antHome = antHomeEnv != null ? cygpath(antHomeEnv) : null;
String ant = (antHome != null && !antHome.equals("")) ? "$antHome/bin/ant" : "ant";
List<String> cmdArgs = new ArrayList<String>()
if (IS_WINDOWS) {
cmdArgs += !ant.matches("\\s+") ? '"' + ant + '"' : ant
}
cmdArgs += "-Dbuild.compiler=javac1.7"
if ((conf != null) && !rootProject.defaultHostTarget.equals(conf)) {
def targetProperties = rootProject.ext[conf.trim().toUpperCase()]
cmdArgs += "-Dcross.platform=$conf"
if (targetProperties.containsKey('arch')) {
cmdArgs += "-Dcross.platform.arch=${targetProperties.arch}"
}
}
if (params != null) {
params.each() { s->
cmdArgs += IS_WINDOWS && !s.matches("\\s+") ? '"' + s + '"' : s
}
}
if (IS_MILESTONE_FCS) {
cmdArgs += '-Djfx.release.suffix=""'
}
cmdArgs += target
exec {
workingDir = dir
environment("JDK_HOME", JDK_HOME)
environment("JAVA_HOME", JDK_HOME)
if (IS_WINDOWS) {
environment([
"VCINSTALLDIR" : WINDOWS_VS_VCINSTALLDIR,
"VSINSTALLDIR" : WINDOWS_VS_VSINSTALLDIR,
"DEVENVDIR" : WINDOWS_VS_DEVENVDIR,
"MSVCDIR" : WINDOWS_VS_MSVCDIR,
"INCLUDE" : WINDOWS_VS_INCLUDE,
"LIB" : WINDOWS_VS_LIB,
"LIBPATH" : WINDOWS_VS_LIBPATH,
"DXSDK_DIR" : WINDOWS_DXSDK_DIR,
"PATH" : WINDOWS_VS_PATH
]);
commandLine "cmd", "/s", "/c", '"' + String.join(" ", cmdArgs) + '"'
} else {
commandLine ant
args(cmdArgs)
}
}
}
List<String> computeLibraryPath(boolean working) {
List<String> lp = []
if (HAS_JAVAFX_MODULES) {
List<String> modsWithNative = [ 'graphics', 'media', 'web' ]
// the build/modular-sdk area
def platformPrefix = ""
def bundledSdkDirName = "${platformPrefix}modular-sdk"
def bundledSdkDir = "${rootProject.buildDir}/${bundledSdkDirName}"
def modulesLibsDir = "${bundledSdkDir}/modules_libs"
modsWithNative.each() { m ->
lp << cygpath("${modulesLibsDir}/javafx.${m}")
}
} else {
def platformPrefix = ""
def standaloneSdkDirName = "${platformPrefix}sdk"
def standaloneSdkDir = "${rootProject.buildDir}/${standaloneSdkDirName}"
def modulesLibName = IS_WINDOWS ? "bin" : "lib"
def modulesLibsDir = "${standaloneSdkDir}/${modulesLibName}"
lp << cygpath("${modulesLibsDir}")
}
return lp
}
// Return list with the arguments needed for --patch-module or --module-path
// for the provided projects. Used with Java executables ie. tests
List<String> computePatchModuleArgs(List<String> deps, boolean test, boolean includeJLP) {
List<String> pma = []
if (HAS_JAVAFX_MODULES) {
deps.each { String projname ->
def proj = project(projname)
if (proj.hasProperty("moduleName")) {
File dir;
if (test && proj.sourceSets.hasProperty('shims')) {
dir = file("${rootProject.buildDir}/shims")
} else {
dir = file("${rootProject.buildDir}/modular-sdk/modules")
}
String moduleName = proj.ext.moduleName
String dirpath = cygpath("${dir}/${moduleName}")
pma += "--patch-module=${moduleName}=${dirpath}"
}
}
} else {
String mp = null
deps.each { String projname ->
def proj = project(projname)
if (proj.hasProperty("moduleName")) {
String moduleName = proj.ext.moduleName
File dir;
if (test && proj.sourceSets.hasProperty('shims')) {
dir = file("${rootProject.buildDir}/shims/${moduleName}")
} else {
dir = file("${rootProject.buildDir}/sdk/lib/${moduleName}.jar")
}
if (mp == null) {
mp = dir.path
} else {
mp = mp + File.pathSeparator + dir.path
}
}
}
// in some cases like base we could end up with an empty
// path... make sure we don't pass one back
if (mp == null) {
return null
}
pma += '--module-path'
pma += mp
String addm = null
deps.each {String projname ->
def proj = project(projname)
if (proj.hasProperty("moduleName") && proj.buildModule) {
if (addm == null) {
addm = proj.moduleName
} else {
addm = addm + "," + proj.moduleName
}
}
}
if (addm != null) {
pma += "--add-modules=${addm}"
}
}
if (includeJLP) {
pma += "-Djava.library.path=" + computeLibraryPath(true).join(File.pathSeparator)
}
return pma
}
// Return a list containing the --upgrade-module-path or --module-path
// used with Javac
List<String> computeModulePathArgs(String pname, List<String> deps, boolean test) {
List<String> mpa = HAS_JAVAFX_MODULES ? [ '--upgrade-module-path' ] : [ '--module-path' ]
String mp = null
deps.each { String projname ->
def proj = project(projname)
// for a non test set of args, we don't want the current module in the list
// for a test test, we do need it to update what we built
if (proj.hasProperty("moduleName") &&
proj.buildModule &&
!(!test && proj.name.equals(pname))) {
File dir;
if (test && proj.sourceSets.hasProperty('shims')) {
dir = new File(proj.sourceSets.shims.java.outputDir, proj.ext.moduleName);
} else {
dir = new File(proj.sourceSets.main.java.outputDir, proj.ext.moduleName);
}
if (mp == null) {
mp = dir.path
} else {
mp = mp + File.pathSeparator + dir.path
}
}
}
// in some cases like base we could end up with an empty
// path... make sure we don't pass one back
if (mp == null) {
return null
}
mpa += mp
if (!HAS_JAVAFX_MODULES) {
String addm = null
deps.each {String projname ->
def proj = project(projname)
// for a non test set of args, we don't want the current module in the list
// for a test test, we do need it to update what we built
if (proj.hasProperty("moduleName") &&
proj.buildModule &&
!(!test && proj.name.equals(pname))) {
if (addm == null) {
addm = proj.moduleName
} else {
addm = addm + "," + proj.moduleName
}
}
}
if (addm != null) {
mpa += "--add-modules=${addm}"
}
}
return mpa
}
void writeRunArgsFile(File dest, List<String> libpath, List<String> modpath, List<String> modules) {
dest.delete()
logger.info("Creating file ${dest.path}")
if (libpath != null) {
dest << "-Djava.library.path=\"\\\n"
libpath.each() { e->
dest << " "
dest << e
dest << File.pathSeparator
dest << "\\\n"
}
dest << " \"\n"
}
if (HAS_JAVAFX_MODULES) {
modpath.each { e ->
dest << "--patch-module=\""
dest << e
dest << "\"\n"
}
} else {
if (modpath.size() == 1) {
dest << "--module-path=\""
dest << modpath[0]
dest << "\"\n"
} else {
dest << "--module-path=\"\\\n"
modpath.each() { e->
dest << " "
dest << e
dest << File.pathSeparator
dest << "\\\n"
}
dest << " \"\n"
}
}
if (modules != null) {
dest << "--add-modules="
dest << modules.join(",")
dest << "\n"
}
}
// perform common project manipulation for modules
void commonModuleSetup(Project p, List<String> moduleChain) {
p.ext.moduleChain = moduleChain
if (p.hasProperty("moduleName")) {
p.ext.moduleDir = new File (p.sourceSets.main.java.outputDir, "${p.moduleName}")
if (p.sourceSets.hasProperty('shims')) {
p.ext.moduleShimsDir = new File (p.sourceSets.shims.java.outputDir, "${p.moduleName}")
}
}
def mpa = computeModulePathArgs(p.name, moduleChain, false)
if (mpa != null) {
p.ext.modulePathArgs = mpa
}
p.ext.testModulePathArgs = computePatchModuleArgs(moduleChain, true, false)
p.ext.patchModuleArgs = computePatchModuleArgs(moduleChain ,false, true)
p.ext.testPatchModuleArgs = computePatchModuleArgs(moduleChain, true, true)
moduleChain.each() {e ->
if (!e.equals(p.name)) {
p.compileJava.dependsOn(project(e).classes)
p.compileTestJava.dependsOn(project(e).testClasses)
}
}
// read in any addExports file
File addExportsFile = new File(p.projectDir,"src/test/addExports")
if (addExportsFile.exists()) {
List<String> ae = []
addExportsFile.eachLine { line ->
line = line.trim()
if (!(line.startsWith("#") || line.equals(""))) {
ae += line.split(' ')
}
}
p.ext.testAddExports = ae.flatten()
}
// read in the temporary addExports file EXTRAADDEXPORTS)
//
// These extra --add-exports will be used in two places and so we
// create/modify two items:
// p.testAddExports - add the extra items so they are included in test builds
//
// p.extraAddExports - for use in any other place where we don't automatically update
// for example any non modular, non 'test' compile, any compile that does not
// use a module-source-path that includes the dependent modules
//
// Note that we don't modify the modular build (main, shims) because they use
// module-info directly, and we don't want to cover up any missing items there.
//
if (!rootProject.hasProperty("EXTRA_ADDEXPORTS_ARGS")) {
List<String> extraAddExportsList = []
String fullae = ""
File tmpaddExportsFile = new File(rootProject.projectDir, EXTRAADDEXPORTS)
if (tmpaddExportsFile.exists()) {
String nl = System.getProperty("line.separator")
tmpaddExportsFile.eachLine { line ->
line = line.trim()
fullae += line + nl
if (!(line.startsWith("#") || line.equals(""))) {
extraAddExportsList += line.split(' ')
}
}
}
// This string is used in the creation of the build/*.args files
// so we preserve comments
if (!extraAddExportsList.isEmpty()) {
rootProject.ext.EXTRA_ADDEXPORTS_STRING = fullae
}
rootProject.ext.EXTRA_ADDEXPORTS_ARGS = extraAddExportsList
}
if (HAS_JAVAFX_MODULES) {
// use this variable, because it shows we have a non empty addition
if (rootProject.hasProperty("EXTRA_ADDEXPORTS_STRING")) {
p.ext.extraAddExports = EXTRA_ADDEXPORTS_ARGS.flatten()
if (p.hasProperty("testAddExports")) {
p.testAddExports += EXTRA_ADDEXPORTS_ARGS.flatten()
}
}
}
}
if (BUILD_TOOLS_DOWNLOAD_SCRIPT != "") {
println "Include build tools download script:${BUILD_TOOLS_DOWNLOAD_SCRIPT}"
apply from: BUILD_TOOLS_DOWNLOAD_SCRIPT
}
// Now we need to define the native compilation tasks. The set of parameters to
// native compilation depends on the target platform (and also to some extent what platform
// you are compiling on). These settings are contained in various gradle files
// such as mac.gradle and linux.gradle and armhf.gradle. Additionally, the developer
// can specify COMPILE_FLAGS_FILE to be a URL or path to a different gradle file
// that will contain the appropriate flags.
defineProperty("COMPILE_FLAGS_FILES", COMPILE_TARGETS.split(",").collect {"buildSrc/${it.trim()}.gradle"}.join(","))
if (COMPILE_TARGETS == "all") {
def tmp = []
File buildSrcDir = file("buildSrc")
buildSrcDir.listFiles().each { File f ->
if (f.isFile() && f.name.endsWith(".gradle") && !f.name.equals("build.gradle")) {
def target = f.name.substring(0, f.name.lastIndexOf('.gradle')).toUpperCase(Locale.ROOT)
apply from: f
if (project.ext["${target}"].canBuild) {
tmp.add(target)
}
}
}
COMPILE_FLAGS_FILES = tmp.collect { "buildSrc/${it}.gradle"}.join(",")
COMPILE_TARGETS = tmp.collect { "${it.toLowerCase()}"}.join(",")
} else {
COMPILE_FLAGS_FILES.split(",").each {
logger.info("Applying COMPILE_FLAGS_FILE '$it'")
apply from: it
}
}
if (COMPILE_TARGETS != "") {
def tmp = []
COMPILE_TARGETS.split(",").each {target ->
if (project.ext["${target.toUpperCase(Locale.ROOT)}"].canBuild) {
tmp.add(target)
}
}
COMPILE_TARGETS = tmp.collect { "${it.toLowerCase()}"}.join(",")
}
// Sanity check the expected properties all exist
compileTargets { t ->
// Every platform must define these variables
if (!project.hasProperty(t.upper)) throw new Exception("ERROR: Incorrectly configured compile flags file, missing ${t.name} property")
def props = project.ext[t.upper];
// TODO: we could remove libDest in favor of modLibDest
["compileSwing", "compileSWT", "libDest"].each { prop ->
if (!props.containsKey(prop)) throw new Exception("ERROR: Incorrectly configured compile flags file, missing ${prop} property on ${t.name}")
}
}
// Various build flags may be set by the different target files, such as
// whether to build Swing, SWT, etc. We iterate over all
// compile targets and look for these settings in our properties. Note that
// these properties cannot be set from the command line, but are set by
// the target build files such as armv6hf.gradle or mac.gradle.
ext.COMPILE_SWING = false;
ext.COMPILE_SWT = false;
compileTargets { t ->
def targetProperties = project.rootProject.ext[t.upper]
if (targetProperties.compileSwing) COMPILE_SWING = true
if (targetProperties.compileSWT) COMPILE_SWT = true
if (!targetProperties.containsKey('compileWebnodeNative')) {
// unless specified otherwise, we will compile native Webnode if IS_COMPILE_WEBKIT
targetProperties.compileWebnodeNative = true
}
if (!targetProperties.containsKey('compileMediaNative')) {
// unless specified otherwise, we will compile native Media if IS_COMPILE_MEDIA
targetProperties.compileMediaNative = true
}
if (!targetProperties.containsKey('includeSWT')) targetProperties.includeSWT = true
if (!targetProperties.containsKey('includeSwing')) targetProperties.includeSwing = true
if (!targetProperties.containsKey('includeNull3d')) targetProperties.includeNull3d = true
if (!targetProperties.containsKey('includeMonocle')) targetProperties.includeMonocle = false
if (!targetProperties.containsKey('includeEGL')) targetProperties.includeEGL = false
if (!targetProperties.containsKey('includeGTK')) targetProperties.includeGTK = IS_LINUX
if (!targetProperties.containsKey('modLibDest')) targetProperties.modLibDest = targetProperties.libDest
// This value is used as a prefix for various directories under ./build,
// such as sdk, to allow for a common name for the hosted build
// (for use when building apps) and a unique name for cross builds.
if (rootProject.defaultHostTarget.equals(t.name)) {
// use a simple common default for the "host" build
targetProperties.platformPrefix=""
} else {
// and a more complex one for cross builds
targetProperties.platformPrefix="${t.name}-"
}
}
/******************************************************************************
* *
* Build Setup Sanity Checks *
* *
* Here we do a variety of checks so that if the version of Java you are *
* building with is misconfigured, or you are using the wrong version of *
* gradle, etc you will get some kind of helpful error / warning message *
* *
*****************************************************************************/
// Sanity check that we actually have a list of compile targets to execute
if (COMPILE_TARGETS == null || COMPILE_TARGETS == "") {
throw new Exception("Unable to determine compilation platform, must specify valid COMPILE_TARGETS!")
}
// Verify that CONF is something useful
if (CONF != "Release" && CONF != "Debug" && CONF != "DebugNative") {
logger.warn("Unknown configuration CONF='$CONF'. Treating as 'Release'")
}
// If the number of compile threads is less than 1 then we have a problem!
if (Integer.parseInt(NUM_COMPILE_THREADS.toString()) < 1) {
logger.warn("NUM_COMPILE_THREADS was specified as '$NUM_COMPILE_THREADS' which is less than the minimum value of 1. " +
"Building with a value of 1 instead.")
NUM_COMPILE_THREADS = 1
}
// Check gradle version
if (gradle.gradleVersion != jfxGradleVersion) {
def ver = gradle.gradleVersion.split("[\\.]");
def verMin = jfxGradleVersionMin.split("[\\.]");
def gradleMajor = Integer.parseInt(ver[0]);
def gradleMinor = Integer.parseInt(ver[1].split("[^0-9]")[0]);
def gradleMajorMin = Integer.parseInt(verMin[0]);
def gradleMinorMin = Integer.parseInt(verMin[1].split("[^0-9]")[0]);
def err = "";
if (gradleMajor < gradleMajorMin || (gradleMajor == gradleMajorMin && gradleMinor < gradleMinorMin)) {
err = "Gradle version too old: ${gradle.gradleVersion}; must be at least ${jfxGradleVersionMin}"
}
if (IS_GRADLE_VERSION_CHECK && err != "") {
fail(err);
}
logger.warn("*****************************************************************");
logger.warn("Unsupported gradle version $gradle.gradleVersion in use.");
logger.warn("Only version $jfxGradleVersion is supported. Use this version at your own risk");
if ( err != "") logger.warn(err);
logger.warn("*****************************************************************");
}
// Look for stub runtime in bundled sdk, standalone sdk, or boot JDK
// Allows automatic provisioning of webkit+media shared libraries
// from official OpenJFX releases, downloaded from MavenCentral
defineProperty("STUB_RUNTIME_OPENJFX", "")
ext.IS_STUB_RUNTIME_OPENJFX = !STUB_RUNTIME_OPENJFX.isBlank()
def String cachedBundledRuntime = cygpath("$projectDir") + "/../caches/modular-sdk"
def String cachedStandaloneRuntime = cygpath("$projectDir") + "/../caches/sdk"
def String jdkStubRuntime = cygpath("$JDK_HOME")
def String openjfxStubRuntime = cygpath("$projectDir") + "/buildSrc/build/openjfxStub"
def defaultStubRuntime = ""
if (file(cachedBundledRuntime).exists()) {
defaultStubRuntime = cachedBundledRuntime
} else if (file(cachedStandaloneRuntime).exists()) {
defaultStubRuntime = cachedStandaloneRuntime
} else if (BUILD_CLOSED) {
defaultStubRuntime = cachedBundledRuntime
} else if (IS_STUB_RUNTIME_OPENJFX) {
defaultStubRuntime = openjfxStubRuntime
} else {
defaultStubRuntime = jdkStubRuntime
}
defineProperty("STUB_RUNTIME", defaultStubRuntime)
if (STUB_RUNTIME.endsWith("/modular-sdk")) {
def stubModulesLib = "$STUB_RUNTIME/modules_libs"
defineProperty("MEDIA_STUB", "$stubModulesLib/javafx.media")
defineProperty("WEB_STUB", "$stubModulesLib/javafx.web")
} else {
def libraryStub = IS_WINDOWS ? "$STUB_RUNTIME/bin" : "$STUB_RUNTIME/lib"
defineProperty("MEDIA_STUB", libraryStub)
defineProperty("WEB_STUB", libraryStub)
}
ext.UPDATE_STUB_CACHE = (BUILD_CLOSED && STUB_RUNTIME != "" && !file(STUB_RUNTIME).isDirectory())
/******************************************************************************
* *
* Logging of Properties and Settings *
* *
* Log some of the settings we've determined. We could log more here, it *
* doesn't really hurt. *
* *
*****************************************************************************/
logger.quiet("gradle.gradleVersion: $gradle.gradleVersion")
logger.quiet("OS_NAME: $OS_NAME")
logger.quiet("OS_ARCH: $OS_ARCH")
logger.quiet("JAVA_HOME: $JAVA_HOME")
logger.quiet("JDK_HOME: $JDK_HOME")
logger.quiet("java.runtime.version: ${javaRuntimeVersion}")
logger.quiet("java version: ${javaVersion}")
logger.quiet("java build number: ${javaBuildNumber}")
logger.quiet("jdk.runtime.version: ${jdkRuntimeVersion}")
logger.quiet("jdk version: ${jdkVersion}")
logger.quiet("jdk build number: ${jdkBuildNumber}")
logger.quiet("minimum jdk version: ${jfxBuildJdkVersionMin}")
logger.quiet("minimum jdk build number: ${jfxBuildJdkBuildnumMin}")
logger.quiet("Java target version: ${JAVA_TARGET_VERSION}")
if (IS_LINUX) {
logger.quiet("GCC version: ${jfxBuildLinuxGccVersion}")
} else if (IS_WINDOWS) {
logger.quiet("MSVC version: ${jfxBuildWindowsMsvcVersion}")
} else if (IS_MAC) {
logger.quiet("XCODE version: ${jfxBuildMacosxXcodeVersion}")
}
logger.quiet("cmake version: ${jfxBuildCmakeVersion}")
logger.quiet("ninja version: ${jfxBuildNinjaVersion}")
logger.quiet("ant version: ${jfxBuildAntVersion}")
logger.quiet("HAS_JAVAFX_MODULES: $HAS_JAVAFX_MODULES")
logger.quiet("STUB_RUNTIME: $STUB_RUNTIME")
logger.quiet("CONF: $CONF")
logger.quiet("NUM_COMPILE_THREADS: $NUM_COMPILE_THREADS")
logger.quiet("COMPILE_TARGETS: $COMPILE_TARGETS")
logger.quiet("COMPILE_FLAGS_FILES: $COMPILE_FLAGS_FILES")
logger.quiet("HUDSON_JOB_NAME: $HUDSON_JOB_NAME")
logger.quiet("HUDSON_BUILD_NUMBER: $HUDSON_BUILD_NUMBER")
logger.quiet("PROMOTED_BUILD_NUMBER: $PROMOTED_BUILD_NUMBER")
logger.quiet("PRODUCT_NAME: $PRODUCT_NAME")
logger.quiet("RELEASE_VERSION: $RELEASE_VERSION")
logger.quiet("RELEASE_SUFFIX: $RELEASE_SUFFIX")
logger.quiet("RELEASE_VERSION_SHORT: $RELEASE_VERSION_SHORT")
logger.quiet("RELEASE_VERSION_LONG: $RELEASE_VERSION_LONG")
logger.quiet("RELEASE_VERSION_PADDED: $RELEASE_VERSION_PADDED")
logger.quiet("MAVEN_PUBLISH: $MAVEN_PUBLISH")
logger.quiet("MAVEN_VERSION: $MAVEN_VERSION")
logger.quiet("UPDATE_STUB_CACHE: $UPDATE_STUB_CACHE")
/******************************************************************************
* *
* Definition of Native Code Compilation Tasks *
* *
* - CCTask compiles native code. Specifically it will compile .m, .c, *
* .cpp, or .cc files. It uses the headers provided by running *
* 'javac -h' plus additional platform specific headers. It will *
* compile into .obj files. *
* - LinkTask will perform native linking and create the .dll / .so / *
* .dylib as necessary. *
* *
*****************************************************************************/
// Save a reference to the buildSrc.jar file because we need it for actually
// compiling things, not just for the sake of this build script
// (such as generating the JSL files, etc)
ext.BUILD_SRC = rootProject.files("buildSrc/build/libs/buildSrc.jar")
/**
* Convenience method for creating cc, link, and "native" tasks in the given project. These
* tasks are parameterized by name, so that we can produce, for example, ccGlass, etc
* named tasks.
*
* @param project The project to add tasks to
* @param name The name of the project, such as "prism-common". This name is used
* in the name of the generated task, such as ccPrismCommon, and also
* in the name of the final library, such as libprism-common.dylib.
*/
void addNative(Project project, String name) {
// TODO if we want to handle 32/64 bit windows in the same build,
// Then we will need to modify the win compile target to be win32 or win64
def capitalName = name.split("-").collect{it.capitalize()}.join()
def nativeTask = project.task("native$capitalName", group: "Build") {
description = "Generates JNI headers, compiles, and builds native dynamic library for $name for all compile targets"
}
def cleanTask = project.task("cleanNative$capitalName", type: Delete, group: "Build") {
description = "Clean native objects for $name"
}
if (project.hasProperty("nativeAllTask")) project.nativeAllTask.dependsOn nativeTask
project.assemble.dependsOn(nativeTask)
if (project.hasProperty("cleanNativeAllTask")) project.cleanNativeAllTask.dependsOn cleanTask
// Each of the different compile targets will be placed in a sub directory
// of these root dirs, with the name of the dir being the name of the target
def nativeRootDir = project.file("$project.buildDir/native/$name")
def libRootDir = project.file("$project.buildDir/libs/$name")
// For each compile target, create a cc / link pair
compileTargets { t ->
def targetProperties = project.rootProject.ext[t.upper]
def library = targetProperties.library
def properties = targetProperties.get(name)
def nativeDir = file("$nativeRootDir/${t.name}")
def headerDir = file("${project.buildDir}/gensrc/headers/${project.moduleName}")
// If there is not a library clause in the properties, assume it is not wanted
if (!targetProperties.containsKey(name)) {
println("Ignoring native library ${name}. Not defined in ${t.name} project properties");
return
}
// check for the property disable${name} = true
def String disableKey = "disable${name}"
def boolean disabled = targetProperties.containsKey(disableKey) ? targetProperties.get(disableKey) : false
if (disabled) {
println("Native library ${name} disabled in ${t.name} project properties");
return
}
def variants = properties.containsKey("variants") ? properties.variants : [""];
variants.each { variant ->
def variantProperties = variant == "" ? properties : properties.get(variant)
def capitalVariant = variant.capitalize()
def ccOutput = variant == "" ? nativeDir : file("$nativeDir/$variant")
def ccTask = project.task("cc${t.capital}$capitalName$capitalVariant", type: CCTask, group: "Build") {
description = "Compiles native sources for ${name} for ${t.name}${capitalVariant != '' ? ' for variant ' + capitalVariant : ''}"
matches = ".*\\.c|.*\\.cpp|.*\\.m|.*\\.cc"
headers = headerDir
output(ccOutput)
params.addAll(variantProperties.ccFlags)
compiler = variantProperties.compiler
source(variantProperties.nativeSource)
cleanTask.delete ccOutput
}
def linkTask = project.task("link${t.capital}$capitalName$capitalVariant", type: LinkTask, dependsOn: ccTask, group: "Build") {
description = "Creates native dynamic library for $name for ${t.name}${capitalVariant != '' ? ' for variant ' + capitalVariant : ''}"
objectDir = ccOutput
linkParams.addAll(variantProperties.linkFlags)
lib = file("$libRootDir/${t.name}/${variant == '' ? library(properties.lib) : library(variantProperties.lib)}")
linker = variantProperties.linker
cleanTask.delete "$libRootDir/${t.name}"
}
nativeTask.dependsOn(linkTask)
if (IS_WINDOWS && t.name == "win" && (!IS_STATIC_BUILD || name == "glass")) {
def rcTask = project.task("rc$capitalName$capitalVariant", type: CompileResourceTask, group: "Build") {
description = "Compiles native sources for $name"
matches = ".*\\.rc"
compiler = variantProperties.rcCompiler
source(variantProperties.rcSource)
if (variantProperties.rcFlags) {
rcParams.addAll(variantProperties.rcFlags)
}
output(ccOutput)
}
linkTask.dependsOn rcTask;
}
}
def useLipo = targetProperties.containsKey('useLipo') ? targetProperties.useLipo : false
if (useLipo) {
def lipoTask = project.task("lipo${t.capital}$capitalName", type: LipoTask, group: "Build") {
description = "Creates native fat library for $name for ${t.name}"
libDir = file("$libRootDir/${t.name}")
lib = file("$libRootDir/${t.name}/${library(properties.lib)}")
}
nativeTask.dependsOn(lipoTask)
}
}
}
void addJSL(Project project, String name, String pkg, List<String> addExports, Closure compile) {
def lowerName = name.toLowerCase()
def modulePath = "${project.sourceSets.main.java.outputDir}"
modulePath += File.pathSeparator + "${rootProject.projectDir}/modules/javafx.base/build/classes/java/main"
def compileCompilers = project.task("compile${name}Compilers",
type: JavaCompile,
dependsOn: project.compileJava) {
description = "Compile the $name JSL Compilers"
classpath =
project.files(project.sourceSets.jslc.java.outputDir) +
project.configurations.antlr
source = [project.file("src/main/jsl-$lowerName")]
destinationDir = project.file("$project.buildDir/classes/jsl-compilers/$lowerName")
options.compilerArgs.addAll([
"-implicit:none",
"--module-path", modulePath,
"--add-modules=javafx.graphics"
])
if (addExports != null) {
options.compilerArgs.addAll(addExports)
}
}
def generateShaders = project.task("generate${name}Shaders",
dependsOn: compileCompilers) {
description = "Generate $name shaders from JSL"
def sourceDir = project.file("src/main/jsl-$lowerName")
def destinationDir = project.file("$project.buildDir/gensrc/jsl-$lowerName")
inputs.dir sourceDir
outputs.dir destinationDir
doLast {
compile(sourceDir, destinationDir)
}
}
def compileHLSLShaders = project.task("compile${name}HLSLShaders",
dependsOn: generateShaders,
type: CompileHLSLTask) {
enabled = IS_WINDOWS
description = "Compile $name HLSL files into .obj files"
matches = ".*\\.hlsl"
output project.file("$project.buildDir/hlsl/$name/$pkg")
source project.file("$project.buildDir/gensrc/jsl-$lowerName/$pkg")
}
def processShaders = project.task("process${name}Shaders",
dependsOn: [generateShaders, compileHLSLShaders],
type: Copy,
description: "Copy hlsl / frag shaders to build/resources/jsl-$lowerName") {
from("$project.buildDir/hlsl/$name") {
include "**/*.obj"
}
from("$project.buildDir/gensrc/jsl-$lowerName") {
include("**/*.frag")
}
into project.moduleDir
}
project.processShaders.dependsOn(processShaders)
project.sourceSets.shaders.output.dir("$project.buildDir/gensrc/jsl-$lowerName", builtBy: processShaders )
def processShimsShaders = project.task("process${name}ShimsShaders",
dependsOn: [generateShaders, compileHLSLShaders],
type: Copy,
description: "Copy hlsl / frag shaders to shims") {
from("$project.buildDir/hlsl/$name") {
include "**/*.obj"
}
from("$project.buildDir/gensrc/jsl-$lowerName") {
include("**/*.frag")
}
into project.moduleShimsDir
}
project.processShimsShaders.dependsOn(processShimsShaders)
}
void addMavenPublication(Project project, List<String> projectDependencies) {
if (!IS_MAVEN_PUBLISH) {
return
}
project.apply plugin: 'maven-publish'
project.group = MAVEN_GROUP_ID
project.version = MAVEN_VERSION
if (project.name == 'base') {
project.publishing {
publications {
javafx(MavenPublication) {
artifactId = 'javafx'
artifacts = []
}
}
}
}
gradle.taskGraph.whenReady { g ->
project.tasks.findAll { it.name == 'generatePomFileForJavafxPublication'}.each { it ->
it.doLast {
copy {
into project.file("${project.buildDir}/publications/javafx")
from file("${rootProject.projectDir}/javafx.pom")
rename "javafx.pom", "pom-default.xml"
filter { line ->
line.replaceAll("@VERSION@", MAVEN_VERSION)
}
}
}
}
}
project.publishing {
repositories {
maven {
def repositoryUrl = project.hasProperty('repositoryUrl') ? project.getProperty('repositoryUrl') : ""
def repositoryUsername = project.hasProperty('repositoryUsername') ? project.getProperty('repositoryUsername') : ""
def repositoryPassword = project.hasProperty('repositoryPassword') ? project.getProperty('repositoryPassword') : ""
url repositoryUrl
credentials {
username repositoryUsername
password repositoryPassword
}
}
}
}
compileTargets { t ->
project.publishing {
publications {
maven(MavenPublication) {
artifactId = "javafx-${project.name}"
afterEvaluate {
artifact project.tasks."moduleEmptyPublicationJar$t.capital"
artifact project.tasks."modularPublicationJar$t.capital" {
classifier "$t.name"
}
}
pom.withXml {
Node parent = asNode().appendNode("parent")
parent.appendNode("groupId", MAVEN_GROUP_ID)
parent.appendNode("artifactId", "javafx")
parent.appendNode("version", MAVEN_VERSION)
Node dependencies = asNode().appendNode("dependencies")
Node projectDependencyPlatform = dependencies.appendNode("dependency")
projectDependencyPlatform.appendNode("groupId", MAVEN_GROUP_ID)
projectDependencyPlatform.appendNode("artifactId", "javafx-${project.name}")
projectDependencyPlatform.appendNode("version", MAVEN_VERSION)
projectDependencyPlatform.appendNode("classifier", "\${javafx.platform}")
if (!projectDependencies.empty) {
projectDependencies.each { dep ->
Node projectDependency = dependencies.appendNode("dependency")
projectDependency.appendNode("groupId", MAVEN_GROUP_ID)
projectDependency.appendNode("artifactId", "javafx-$dep")
projectDependency.appendNode("version", MAVEN_VERSION)
}
}
}
}
}
}
}
}
/**
* Verifies that all of the *.java files in a source tree have the
* correct package name. If not, fail the build.
*
* @param sourceRoot the root of the source tree to check
* @param hasModuleName true if the sources under sourceRoot are being
* compiled as modules, with the immediate child directories being the
* root(s) of the named modules being compiled. In this case the package
* root is one directory below the sourceRoot.
*/
void validatePackages(File sourceRoot, boolean hasModuleName) {
if (!sourceRoot.isDirectory()) {
return;
}
def err = false;
String sourceString = sourceRoot.toString().replace("\\", "/")
def startPos = sourceString.length() + 1
logger.info("validating packages for ${sourceRoot}")
def inputFiles = fileTree(dir: sourceRoot, include: "**/*.java")
inputFiles.each { file ->
def packageRoot = file.toString().replace("\\", "/").substring(startPos)
if (hasModuleName) {
packageRoot = packageRoot.substring(packageRoot.indexOf("/") + 1)
}
def endPos = packageRoot.lastIndexOf("/")
def pkgEx = endPos > -1 ? packageRoot.substring(0, endPos).replace("/", ".") : ""
def pkg = ""
file.withReader { reader ->
def line
while ((line = reader.readLine()) != null) {
def words = line.trim().split("[ ;]+")
if (words.length > 1 && words[0] == "package") {
pkg = words[1]
break;
}
}
}
if (pkg != pkgEx) {
err = true
println "*** ERROR: File location <${file}> does not match package name <${pkg}>"
}
}
if (err) {
fail("Package validation failed")
}
}
/**
* Add a task to the given project to validate that the package names
* of all java files in the given source sets have the correct package
* name. If not, fail the build.
*/
void addValidateSourceSets(Project project,
Collection<SourceSet> sourceSets,
Collection<SourceSet> modSourceSets) {
def validateSourceSetsTask = project.task("validateSourceSets") {
doLast {
// Accumulate the root directories from all sourceSets.
// We use a Set to elide duplicates (the shims sourceset
// will include the dirs from the main sourceset)
Set<File> sourceRoots = []
sourceSets.each { srcSet ->
srcSet.java.srcDirs.each { rootDir ->
sourceRoots += rootDir
}
}
sourceRoots.each { rootDir ->
validatePackages(rootDir, false)
}
Set<File> modSourceRoots = []
modSourceSets.each { srcSet ->
srcSet.java.srcDirs.each { rootDir ->
modSourceRoots += rootDir
}
}
modSourceRoots.each { rootDir ->
validatePackages(rootDir, true)
}
}
}
// Run this for all projects when compiling the test sources
// (i.e., when running "gradle test")
project.compileTestJava.dependsOn(validateSourceSetsTask)
}
void addValidateSourceSets(Project project, Collection<SourceSet> sourceSets) {
addValidateSourceSets(project, sourceSets, []);
}
/**
* Parses a JDK version string. The string must be in one of the following
* two formats:
*
* major.minor.subminor
* or
* major.minor.subminor_update
*
* In both cases a list of 4 integers is returned, with element 3 set to
* 0 in the former case.
*/
List parseJdkVersion(String version) {
def arr = version.split("[_\\.]");
def intArr = [];
arr.each { s -> intArr += Integer.parseInt(s); }
while (intArr.size() < 4) intArr += 0;
return intArr;
}
/**
* Returns -1, 0, or 1 depending on whether JDK version "a" is less than,
* equal to, or grater than version "b".
*/
int compareJdkVersion(String a, String b) {
def aIntArr = parseJdkVersion(a);
def bIntArr = parseJdkVersion(b);
for (int i = 0; i < 4; i++) {
if (aIntArr[i] < bIntArr[i]) return -1;
if (aIntArr[i] > bIntArr[i]) return 1;
}
return 0;
}
// Task to verify the minimum level of Java needed to build JavaFX
task verifyJava() {
doLast {
def status = compareJdkVersion(jdkVersion, jfxBuildJdkVersionMin);
if (status < 0) {
fail("java version mismatch: JDK version (${jdkVersion}) < minimum version (${jfxBuildJdkVersionMin})")
} else if (status == 0) {
def buildNum = Integer.parseInt(jdkBuildNumber)
def minBuildNum = Integer.parseInt(jfxBuildJdkBuildnumMin)
if (buildNum != 0 && buildNum < minBuildNum) {
fail("JDK build number ($buildNum) < minimum build number ($minBuildNum)")
}
}
}
}
task updateCacheIfNeeded() {
// an empty task we can add to as needed for UPDATE_STUB_CACHE
}
task createTestArgfiles {
// an empty task we can add to as needed
}
/*****************************************************************************
* Project definitions (dependencies, etc) *
*****************************************************************************/
void addJCov(p, test) {
test.doFirst {
def jcovJVMArgument =
"include=javafx," +
"include=com.sun.javafx," +
"include=com.sun.glass," +
"include=com.sun.openpisces," +
"include=com.sun.pisces," +
"include=com.sun.prism," +
"include=com.sun.scenario," +
"include=com.sun.webkit," +
"exclude=com," +
"exclude=java," +
"exclude=javax," +
"exclude=\"**.test\"," +
"exclude=\"**.*Test\"," +
"file=build/reports/jcov/report.xml," +
"merge=merge";
test.jvmArgs("-javaagent:${p.configurations.testClasspath.files.find { it.name.startsWith('jcov') }}=$jcovJVMArgument");
p.mkdir p.file("build/reports/jcov")
}
test.doLast {
def reportFile = p.file("build/reports/jcov/report.xml")
if (reportFile.exists()) {
p.javaexec {
workingDir = p.file("build/reports/jcov")
classpath = p.files(p.configurations.testClasspath.files.find { it.name.startsWith('jcov') })
main = "com.sun.tdk.jcov.Helper"
args = [
"RepGen",
"-exclude", "\"**.test\"",
"-exclude", "\"**.*Test\"",
"-output", ".",
"-source", p.sourceSets.main.java.srcDirs.collect{p.file(it)}.join(":"),
"report.xml"
]
}
}
}
}
allprojects {
// Setup the repositories that we'll download libraries from.
// By default we use Maven Central for most things. The custom "ivy"
// repo is for downloading SWT. The way it works is to setup the
// download URL such that it will resolve to the actual jar file to
// download. See SWT_FILE_NAME for the name of the jar that will be
// used as the "artifact" in the pattern below.
// If JFX_DEPS_URL is set, then that overrides the default
// repositories. This allows the dependencies to be cached locally.
if (JFX_DEPS_URL != "") {
repositories {
ivy {
url JFX_DEPS_URL
metadataSources {
artifact()
}
patternLayout {
artifact "[artifact]-[revision](-[classifier]).[ext]"
artifact "[artifact].[ext]"
}
}
}
}
if (JFX_DEPS_URL == "") {
repositories {
mavenCentral()
ivy {
url "https://download.eclipse.org/eclipse/updates/4.6/R-4.6.3-201703010400/plugins/"
metadataSources {
artifact()
}
patternLayout {
artifact "[artifact].[ext]"
}
}
}
}
if (JFX_DEPS_URL == "" && IS_BUILD_LIBAV_STUBS) {
repositories {
ivy {
url libAVRepositoryURL
metadataSources {
artifact()
}
patternLayout {
artifact "[artifact].[ext]"
}
}
ivy {
url FFmpegRepositoryURL
metadataSources {
artifact()
}
patternLayout {
artifact "[artifact].[ext]"
}
}
}
}
if (JFX_DEPS_URL == "" && IS_COMPILE_WEBKIT) {
def icuReleaseVersion = icuVersion.replaceAll('\\.', '-')
repositories {
ivy {
url icuRepositoryURL
metadataSources {
artifact()
}
patternLayout {
artifact "download/release-$icuReleaseVersion/[artifact].[ext]"
}
}
}
}
// We want to configure all projects as java projects and use the same compile settings
// etc, except for the root project which we just want to ignore (and for now media)
if (project == rootProject) {
return
}
if (project.path.startsWith(":apps")) {
// Lets handle the apps tree differently, as it is a collection of ant builds,
// and the ant importer collides with the 'apply plugin:java'
return
}
// All of our projects are java projects
apply plugin: "java"
// Set sourceCompatibility to the target release of Java. Most modules
// set compiler.options.release (to the same target version), which will
// override this setting, but it is needed for those modules that can't.
sourceCompatibility = JAVA_TARGET_VERSION
// By default all of our projects require junit for testing so we can just
// setup this dependency here.
dependencies {
testImplementation group: "junit", name: "junit", version: "4.13.2"
testImplementation group: "org.hamcrest", name: "hamcrest-core", version: "1.3"
testImplementation group: "org.junit.jupiter", name: "junit-jupiter", version: "5.8.1"
testImplementation group: "org.junit.jupiter", name: "junit-jupiter-api", version: "5.8.1"
testImplementation group: "org.junit.jupiter", name: "junit-jupiter-params", version: "5.8.1"
testImplementation group: "org.opentest4j", name: "opentest4j", version: "1.2.0"
testRuntimeOnly group: "org.apiguardian", name: "apiguardian-api", version: "1.1.2"
testRuntimeOnly group: "org.junit.jupiter", name: "junit-jupiter-engine", version: "5.8.1"
testRuntimeOnly group: "org.junit.platform", name: "junit-platform-commons", version: "1.8.1"
testRuntimeOnly group: "org.junit.platform", name: "junit-platform-engine", version: "1.8.1"
testRuntimeOnly group: "org.junit.vintage", name: "junit-vintage-engine", version: "5.8.1"
if (BUILD_CLOSED && DO_JCOV) {
testImplementation name: "jcov"
}
}
compileJava.dependsOn verifyJava
// At the moment the ASM library shipped with Gradle that is used to
// discover the different test classes fails on Java 8, so in order
// to have sourceCompatibility set to 1.8 I have to also turn scanForClasses off
// and manually specify the includes / excludes. At the moment we use
// Java 7 but when we switch to 8 this will be needed, and probably again when
// we start building with Java 9.
test {
useJUnitPlatform();
executable = JAVA;
enableAssertions = true;
testLogging.exceptionFormat = "full";
scanForTestClasses = true;
include("**/*.*");
if (BUILD_CLOSED && DO_JCOV) {
addJCov(project, test)
}
if (IS_HEADLESS_TEST) {
systemProperty 'glass.platform', 'Monocle'
systemProperty 'monocle.platform', 'Headless'
systemProperty 'prism.order', 'sw'
systemProperty 'com.sun.javafx.gestures.zoom', 'true'
systemProperty 'com.sun.javafx.gestures.rotate', 'true'
systemProperty 'com.sun.javafx.gestures.scroll', 'true'
}
systemProperty 'unstable.test', IS_UNSTABLE_TEST
}
compileTestJava {
}
}
// These strings define the module-source-path to be used in compilation.
// They need to contain the full paths to the sources and the * will be
// used to infer the module name that is used.
project.ext.defaultModuleSourcePath =
cygpath(rootProject.projectDir.path + '/modules/*/src/main/java') +
File.pathSeparator +
cygpath(rootProject.projectDir.path + '/modules/*/build/gensrc/{java,jsl-decora,jsl-prism}')
// graphics pass one
project.ext.defaultModuleSourcePath_GraphicsOne =
cygpath(rootProject.projectDir.path + '/modules/*/src/main/java') +
File.pathSeparator +
cygpath(rootProject.projectDir.path + '/modules/*/build/gensrc/{java,jsl-decora,jsl-prism}')
// web pass one
project.ext.defaultModuleSourcePath_WebOne =
cygpath(rootProject.projectDir.path + '/modules/*/src/main/java')
// Compiling the test shim files too.
project.ext.defaultModuleSourcePathShim =
cygpath(rootProject.projectDir.path + '/modules/*/src/{main,shims}/java') +
File.pathSeparator +
cygpath(rootProject.projectDir.path + '/modules/*/build/gensrc/{java,jsl-decora,jsl-prism}')
// The "base" project is our first module and the most basic one required for
// all other modules. It is useful even for non-GUI applications.
project(":base") {
project.ext.buildModule = true
project.ext.includeSources = true
project.ext.moduleRuntime = true
project.ext.moduleName = "javafx.base"
sourceSets {
main
shims {
java {
compileClasspath += sourceSets.main.output
runtimeClasspath += sourceSets.main.output
}
}
test {
java {
compileClasspath += sourceSets.shims.output
runtimeClasspath += sourceSets.shims.output
}
}
}
dependencies {
testImplementation sourceSets.main.output
testImplementation sourceSets.shims.output
}
commonModuleSetup(project, [ 'base' ])
project.ext.moduleSourcePath = defaultModuleSourcePath
project.ext.moduleSourcePathShim = defaultModuleSourcePathShim
// We need to take the VersionInfo.java file and replace the various
// properties within it
def replacements = [
"BUILD_TIMESTAMP": BUILD_TIMESTAMP,
"HUDSON_JOB_NAME": HUDSON_JOB_NAME,
"HUDSON_BUILD_NUMBER": HUDSON_BUILD_NUMBER,
"PROMOTED_BUILD_NUMBER": PROMOTED_BUILD_NUMBER,
"PRODUCT_NAME": PRODUCT_NAME,
"RELEASE_VERSION": RELEASE_VERSION,
"RELEASE_SUFFIX": RELEASE_SUFFIX];
task processVersionInfo(type: Copy, description: "Replace params in VersionInfo and copy file to destination") {
doFirst { mkdir "$buildDir/gensrc/java" }
from "src/main/version-info"
into "$buildDir/gensrc/java/com/sun/javafx/runtime"
filter {line->
replacements.each() {k, v ->
line = line.replace("@$k@", v.toString());
}
line
}
}
// Make sure to include $buildDir/gensrc/java that we previously created.
// We DO NOT want to include src/main/version-info
sourceSets.main.java.srcDirs += "$buildDir/gensrc/java"
compileJava.dependsOn processVersionInfo
addMavenPublication(project, [])
addValidateSourceSets(project, sourceSets)
}
// The graphics module is needed for any graphical JavaFX application. It requires
// the base module and includes the scene graph, layout, css, prism, windowing, etc.
// This is a fairly complicated module. There are many different types of native components
// that all need to be compiled.
project(":graphics") {
project.ext.buildModule = true
project.ext.includeSources = true
project.ext.moduleRuntime = true
project.ext.moduleName = "javafx.graphics"
getConfigurations().create("antlr");
sourceSets {
jslc // JSLC gramar subset
main
shims {
java {
compileClasspath += sourceSets.main.output
runtimeClasspath += sourceSets.main.output
}
}
shaders // generated shaders (prism & decora)
test {
java {
compileClasspath += sourceSets.shims.output
runtimeClasspath += sourceSets.shims.output
}
}
stub
}
dependencies {
antlr group: "org.antlr", name: "antlr4", version: "4.7.2", classifier: "complete"
testImplementation project(":base").sourceSets.test.output
implementation project(':base')
}
project.ext.moduleSourcePath = defaultModuleSourcePath_GraphicsOne
project.ext.moduleSourcePathShim = defaultModuleSourcePathShim
commonModuleSetup(project, [ 'base', 'graphics' ])
List<String> decoraAddExports = [
'--add-exports=javafx.graphics/com.sun.scenario.effect=ALL-UNNAMED',
'--add-exports=javafx.graphics/com.sun.scenario.effect.light=ALL-UNNAMED',
'--add-exports=javafx.graphics/com.sun.scenario.effect.impl.state=ALL-UNNAMED'
]
/*
Graphics compilation is "complicated" by the generated shaders.
We have two shader groups - Decora and Prism.
The shader groups each will generate a custom compiler that
then genarates the shader code. These compilers rely on the JSLC
gramar parser which is antlr generated and compile separately.
The decora compiler relies on compileJava - which is sourceSet.main.java
It also accesses module private packages, so will need add-exports
Once the shader java code is generated, we can compileFullJava
After that, we can generate the required native header and then build the native code
*/
project.task("processShaders") {
// an empty task to hang the prism and decora shaders on
}
project.task("processShimsShaders") {
// an empty task to hang the prism and decora shaders on
}
compileShimsJava.dependsOn("processShimsShaders")
// Generate the JSLC support grammar
project.task("generateGrammarSource", type: JavaExec) {
// use antlr to generate our grammar.
// note: the antlr plugin creates some issues with the other compiles
// so we will do this by hand
File wd = file(project.projectDir.path + "/src/jslc/antlr")
File outDir = file("$buildDir/gensrc/antlr")
def inJSL = "com/sun/scenario/effect/compiler/JSL.g4"
if (IS_WINDOWS) {
// antlr needs backslashes on Windows
inJSL = inJSL.replace("/", "\\")
}
executable = JAVA
classpath = project.configurations.antlr
workingDir = wd
main = "org.antlr.v4.Tool"
args = [
"-o",
outDir.toString(),
"-package",
"com.sun.scenario.effect.compiler",
"-visitor",
inJSL ]
inputs.dir wd
outputs.dir outDir
}
sourceSets.jslc.java.srcDirs += "$buildDir/gensrc/antlr"
// and compile the JSLC support classes
compileJslcJava.dependsOn(generateGrammarSource)
compileJslcJava.classpath = project.configurations.antlr
compileJava.dependsOn(compileJslcJava)
// this task is the "second pass" compile of all of the module classes
project.task("compileFullJava", type: JavaCompile, dependsOn: processShaders) {
description = "Compile all of the graphics java classes - main and shaders"
classpath = configurations.compileClasspath
source = project.sourceSets.main.java.srcDirs
source += "$buildDir/gensrc/java"
source += project.sourceSets.shaders.output
destinationDir = project.sourceSets.main.java.outputDir
options.compilerArgs.addAll([
'-h', "$buildDir/gensrc/headers/", // Note: this creates the native headers
'-implicit:none',
'--module-version', "$RELEASE_VERSION_SHORT",
'--module-source-path', defaultModuleSourcePath
] )
}
classes.dependsOn(compileFullJava)
project.sourceSets.shims.java.srcDirs += project.sourceSets.shaders.output
project.sourceSets.shims.java.srcDirs += "$buildDir/gensrc/jsl-prism"
project.sourceSets.shims.java.srcDirs += "$buildDir/gensrc/jsl-decora"
compileShimsJava.dependsOn(compileFullJava)
// Create a single "native" task which will depend on all the individual native tasks for graphics
project.ext.nativeAllTask = task("native", group: "Build", description: "Compiles and Builds all native libraries for Graphics");
project.ext.cleanNativeAllTask = task("cleanNative", group: "Build", description: "Clean all native libraries and objects for Graphics");
// Add tasks for native compilation
addNative(project, "glass");
addNative(project, "prism")
addNative(project, "prismSW")
addNative(project, "font")
addNative(project, "iio")
if (IS_INCLUDE_ES2) {
addNative(project, "prismES2")
}
if (IS_COMPILE_PANGO) {
addNative(project, "fontFreetype")
addNative(project, "fontPango")
}
if (IS_WINDOWS) {
addNative(project, "prismD3D")
// TODO need to hook this up to be executed only if PassThroughVS.h is missing or PassThroughVS.hlsl is changed
task generateD3DHeaders(group: "Build") {
enabled = IS_WINDOWS
inputs.file "src/main/native-prism-d3d/hlsl/Mtl1PS.hlsl"
inputs.file "src/main/native-prism-d3d/hlsl/Mtl1VS.hlsl"
inputs.file "src/main/native-prism-d3d/PassThroughVS.hlsl"
outputs.dir "$buildDir/headers/PrismD3D/"
outputs.dir "$buildDir/headers/PrismD3D/hlsl/"
description = "Generate headers by compiling hlsl files"
doLast {
mkdir file("$buildDir/headers/PrismD3D/hlsl")
def PS_3D_SRC = file("src/main/native-prism-d3d/hlsl/Mtl1PS.hlsl")
def VS_3D_SRC = file("src/main/native-prism-d3d/hlsl/Mtl1VS.hlsl")
def PASSTHROUGH_VS_SRC = file("src/main/native-prism-d3d/PassThroughVS.hlsl")
def jobs = [
["$FXC", "/nologo", "/T", "vs_3_0", "/Fh", "$buildDir/headers/PrismD3D/PassThroughVS.h", "/E", "passThrough", "$PASSTHROUGH_VS_SRC"],
["$FXC", "/nologo", "/T", "ps_3_0", "/Fh", "$buildDir/headers/PrismD3D/hlsl/Mtl1PS.h", "/DSpec=0", "/DSType=0", "$PS_3D_SRC"],
["$FXC", "/nologo", "/T", "ps_3_0", "/Fh", "$buildDir/headers/PrismD3D/hlsl/Mtl1PS_i.h", "/DSpec=0", "/DSType=0", "/DIllumMap=1", "$PS_3D_SRC"],
["$FXC", "/nologo", "/T", "ps_3_0", "/Fh", "$buildDir/headers/PrismD3D/hlsl/Mtl1PS_s1n.h", "/DSpec=1", "/DSType=0", "$PS_3D_SRC"],
["$FXC", "/nologo", "/T", "ps_3_0", "/Fh", "$buildDir/headers/PrismD3D/hlsl/Mtl1PS_s2n.h", "/DSpec=2", "/DSType=0", "$PS_3D_SRC"],
["$FXC", "/nologo", "/T", "ps_3_0", "/Fh", "$buildDir/headers/PrismD3D/hlsl/Mtl1PS_s3n.h", "/DSpec=3", "/DSType=0", "$PS_3D_SRC"],
["$FXC", "/nologo", "/T", "ps_3_0", "/Fh", "$buildDir/headers/PrismD3D/hlsl/Mtl1PS_s1t.h", "/DSpec=1", "/DSType=1", "$PS_3D_SRC"],
["$FXC", "/nologo", "/T", "ps_3_0", "/Fh", "$buildDir/headers/PrismD3D/hlsl/Mtl1PS_s2t.h", "/DSpec=2", "/DSType=1", "$PS_3D_SRC"],
["$FXC", "/nologo", "/T", "ps_3_0", "/Fh", "$buildDir/headers/PrismD3D/hlsl/Mtl1PS_s3t.h", "/DSpec=3", "/DSType=1", "$PS_3D_SRC"],
["$FXC", "/nologo", "/T", "ps_3_0", "/Fh", "$buildDir/headers/PrismD3D/hlsl/Mtl1PS_s1c.h", "/DSpec=1", "/DSType=2", "$PS_3D_SRC"],
["$FXC", "/nologo", "/T", "ps_3_0", "/Fh", "$buildDir/headers/PrismD3D/hlsl/Mtl1PS_s2c.h", "/DSpec=2", "/DSType=2", "$PS_3D_SRC"],
["$FXC", "/nologo", "/T", "ps_3_0", "/Fh", "$buildDir/headers/PrismD3D/hlsl/Mtl1PS_s3c.h", "/DSpec=3", "/DSType=2", "$PS_3D_SRC"],
["$FXC", "/nologo", "/T", "ps_3_0", "/Fh", "$buildDir/headers/PrismD3D/hlsl/Mtl1PS_s1m.h", "/DSpec=1", "/DSType=3", "$PS_3D_SRC"],
["$FXC", "/nologo", "/T", "ps_3_0", "/Fh", "$buildDir/headers/PrismD3D/hlsl/Mtl1PS_s2m.h", "/DSpec=2", "/DSType=3", "$PS_3D_SRC"],
["$FXC", "/nologo", "/T", "ps_3_0", "/Fh", "$buildDir/headers/PrismD3D/hlsl/Mtl1PS_s3m.h", "/DSpec=3", "/DSType=3", "$PS_3D_SRC"],
["$FXC", "/nologo", "/T", "ps_3_0", "/Fh", "$buildDir/headers/PrismD3D/hlsl/Mtl1PS_b1n.h", "/DSpec=1", "/DSType=0", "/DBump=1", "$PS_3D_SRC"],
["$FXC", "/nologo", "/T", "ps_3_0", "/Fh", "$buildDir/headers/PrismD3D/hlsl/Mtl1PS_b2n.h", "/DSpec=2", "/DSType=0", "/DBump=1", "$PS_3D_SRC"],
["$FXC", "/nologo", "/T", "ps_3_0", "/Fh", "$buildDir/headers/PrismD3D/hlsl/Mtl1PS_b3n.h", "/DSpec=3", "/DSType=0", "/DBump=1", "$PS_3D_SRC"],
["$FXC", "/nologo", "/T", "ps_3_0", "/Fh", "$buildDir/headers/PrismD3D/hlsl/Mtl1PS_b1t.h", "/DSpec=1", "/DSType=1", "/DBump=1", "$PS_3D_SRC"],
["$FXC", "/nologo", "/T", "ps_3_0", "/Fh", "$buildDir/headers/PrismD3D/hlsl/Mtl1PS_b2t.h", "/DSpec=2", "/DSType=1", "/DBump=1", "$PS_3D_SRC"],
["$FXC", "/nologo", "/T", "ps_3_0", "/Fh", "$buildDir/headers/PrismD3D/hlsl/Mtl1PS_b3t.h", "/DSpec=3", "/DSType=1", "/DBump=1", "$PS_3D_SRC"],
["$FXC", "/nologo", "/T", "ps_3_0", "/Fh", "$buildDir/headers/PrismD3D/hlsl/Mtl1PS_b1c.h", "/DSpec=1", "/DSType=2", "/DBump=1", "$PS_3D_SRC"],
["$FXC", "/nologo", "/T", "ps_3_0", "/Fh", "$buildDir/headers/PrismD3D/hlsl/Mtl1PS_b2c.h", "/DSpec=2", "/DSType=2", "/DBump=1", "$PS_3D_SRC"],
["$FXC", "/nologo", "/T", "ps_3_0", "/Fh", "$buildDir/headers/PrismD3D/hlsl/Mtl1PS_b3c.h", "/DSpec=3", "/DSType=2", "/DBump=1", "$PS_3D_SRC"],
["$FXC", "/nologo", "/T", "ps_3_0", "/Fh", "$buildDir/headers/PrismD3D/hlsl/Mtl1PS_b1m.h", "/DSpec=1", "/DSType=3", "/DBump=1", "$PS_3D_SRC"],
["$FXC", "/nologo", "/T", "ps_3_0", "/Fh", "$buildDir/headers/PrismD3D/hlsl/Mtl1PS_b2m.h", "/DSpec=2", "/DSType=3", "/DBump=1", "$PS_3D_SRC"],
["$FXC", "/nologo", "/T", "ps_3_0", "/Fh", "$buildDir/headers/PrismD3D/hlsl/Mtl1PS_b3m.h", "/DSpec=3", "/DSType=3", "/DBump=1", "$PS_3D_SRC"],
["$FXC", "/nologo", "/T", "ps_3_0", "/Fh", "$buildDir/headers/PrismD3D/hlsl/Mtl1PS_s1ni.h", "/DSpec=1", "/DSType=0", "/DIllumMap=1", "$PS_3D_SRC"],
["$FXC", "/nologo", "/T", "ps_3_0", "/Fh", "$buildDir/headers/PrismD3D/hlsl/Mtl1PS_s2ni.h", "/DSpec=2", "/DSType=0", "/DIllumMap=1", "$PS_3D_SRC"],
["$FXC", "/nologo", "/T", "ps_3_0", "/Fh", "$buildDir/headers/PrismD3D/hlsl/Mtl1PS_s3ni.h", "/DSpec=3", "/DSType=0", "/DIllumMap=1", "$PS_3D_SRC"],
["$FXC", "/nologo", "/T", "ps_3_0", "/Fh", "$buildDir/headers/PrismD3D/hlsl/Mtl1PS_s1ti.h", "/DSpec=1", "/DSType=1", "/DIllumMap=1", "$PS_3D_SRC"],
["$FXC", "/nologo", "/T", "ps_3_0", "/Fh", "$buildDir/headers/PrismD3D/hlsl/Mtl1PS_s2ti.h", "/DSpec=2", "/DSType=1", "/DIllumMap=1", "$PS_3D_SRC"],
["$FXC", "/nologo", "/T", "ps_3_0", "/Fh", "$buildDir/headers/PrismD3D/hlsl/Mtl1PS_s3ti.h", "/DSpec=3", "/DSType=1", "/DIllumMap=1", "$PS_3D_SRC"],
["$FXC", "/nologo", "/T", "ps_3_0", "/Fh", "$buildDir/headers/PrismD3D/hlsl/Mtl1PS_s1ci.h", "/DSpec=1", "/DSType=2", "/DIllumMap=1", "$PS_3D_SRC"],
["$FXC", "/nologo", "/T", "ps_3_0", "/Fh", "$buildDir/headers/PrismD3D/hlsl/Mtl1PS_s2ci.h", "/DSpec=2", "/DSType=2", "/DIllumMap=1", "$PS_3D_SRC"],
["$FXC", "/nologo", "/T", "ps_3_0", "/Fh", "$buildDir/headers/PrismD3D/hlsl/Mtl1PS_s3ci.h", "/DSpec=3", "/DSType=2", "/DIllumMap=1", "$PS_3D_SRC"],
["$FXC", "/nologo", "/T", "ps_3_0", "/Fh", "$buildDir/headers/PrismD3D/hlsl/Mtl1PS_s1mi.h", "/DSpec=1", "/DSType=3", "/DIllumMap=1", "$PS_3D_SRC"],
["$FXC", "/nologo", "/T", "ps_3_0", "/Fh", "$buildDir/headers/PrismD3D/hlsl/Mtl1PS_s2mi.h", "/DSpec=2", "/DSType=3", "/DIllumMap=1", "$PS_3D_SRC"],
["$FXC", "/nologo", "/T", "ps_3_0", "/Fh", "$buildDir/headers/PrismD3D/hlsl/Mtl1PS_s3mi.h", "/DSpec=3", "/DSType=3", "/DIllumMap=1", "$PS_3D_SRC"],
["$FXC", "/nologo", "/T", "ps_3_0", "/Fh", "$buildDir/headers/PrismD3D/hlsl/Mtl1PS_b1ni.h", "/DSpec=1", "/DSType=0", "/DBump=1", "/DIllumMap=1", "$PS_3D_SRC"],
["$FXC", "/nologo", "/T", "ps_3_0", "/Fh", "$buildDir/headers/PrismD3D/hlsl/Mtl1PS_b2ni.h", "/DSpec=2", "/DSType=0", "/DBump=1", "/DIllumMap=1", "$PS_3D_SRC"],
["$FXC", "/nologo", "/T", "ps_3_0", "/Fh", "$buildDir/headers/PrismD3D/hlsl/Mtl1PS_b3ni.h", "/DSpec=3", "/DSType=0", "/DBump=1", "/DIllumMap=1", "$PS_3D_SRC"],
["$FXC", "/nologo", "/T", "ps_3_0", "/Fh", "$buildDir/headers/PrismD3D/hlsl/Mtl1PS_b1ti.h", "/DSpec=1", "/DSType=1", "/DBump=1", "/DIllumMap=1", "$PS_3D_SRC"],
["$FXC", "/nologo", "/T", "ps_3_0", "/Fh", "$buildDir/headers/PrismD3D/hlsl/Mtl1PS_b2ti.h", "/DSpec=2", "/DSType=1", "/DBump=1", "/DIllumMap=1", "$PS_3D_SRC"],
["$FXC", "/nologo", "/T", "ps_3_0", "/Fh", "$buildDir/headers/PrismD3D/hlsl/Mtl1PS_b3ti.h", "/DSpec=3", "/DSType=1", "/DBump=1", "/DIllumMap=1", "$PS_3D_SRC"],
["$FXC", "/nologo", "/T", "ps_3_0", "/Fh", "$buildDir/headers/PrismD3D/hlsl/Mtl1PS_b1ci.h", "/DSpec=1", "/DSType=2", "/DBump=1", "/DIllumMap=1", "$PS_3D_SRC"],
["$FXC", "/nologo", "/T", "ps_3_0", "/Fh", "$buildDir/headers/PrismD3D/hlsl/Mtl1PS_b2ci.h", "/DSpec=2", "/DSType=2", "/DBump=1", "/DIllumMap=1", "$PS_3D_SRC"],
["$FXC", "/nologo", "/T", "ps_3_0", "/Fh", "$buildDir/headers/PrismD3D/hlsl/Mtl1PS_b3ci.h", "/DSpec=3", "/DSType=2", "/DBump=1", "/DIllumMap=1", "$PS_3D_SRC"],
["$FXC", "/nologo", "/T", "ps_3_0", "/Fh", "$buildDir/headers/PrismD3D/hlsl/Mtl1PS_b1mi.h", "/DSpec=1", "/DSType=3", "/DBump=1", "/DIllumMap=1", "$PS_3D_SRC"],
["$FXC", "/nologo", "/T", "ps_3_0", "/Fh", "$buildDir/headers/PrismD3D/hlsl/Mtl1PS_b2mi.h", "/DSpec=2", "/DSType=3", "/DBump=1", "/DIllumMap=1", "$PS_3D_SRC"],
["$FXC", "/nologo", "/T", "ps_3_0", "/Fh", "$buildDir/headers/PrismD3D/hlsl/Mtl1PS_b3mi.h", "/DSpec=3", "/DSType=3", "/DBump=1", "/DIllumMap=1", "$PS_3D_SRC"],
["$FXC", "/nologo", "/T", "vs_3_0", "/Fh", "$buildDir/headers/PrismD3D/hlsl/Mtl1VS_Obj.h", "/DVertexType=ObjVertex", "$VS_3D_SRC"]
]
final ExecutorService executor = Executors.newFixedThreadPool(Integer.parseInt(project.NUM_COMPILE_THREADS.toString()));
final CountDownLatch latch = new CountDownLatch(jobs.size());
List futures = new ArrayList<Future>();
jobs.each { cmd ->
futures.add(executor.submit(new Runnable() {
@Override public void run() {
try {
exec {
commandLine cmd
}
} finally {
latch.countDown();
}
}
}));
}
latch.await();
// Looking for whether an exception occurred while executing any of the futures.
// By calling "get()" on each future an exception will be thrown if one had occurred
// on the background thread.
futures.each {it.get();}
}
}
ccWinPrismD3D.dependsOn generateD3DHeaders
}
// The Decora and Prism JSL files have to be generated in a very specific set of steps.
// 1) Compile the *Compile.java classes. These live in src/main/jsl-* and will be
// output to $buildDir/classes/jsl-compilers/* (where * == decora or prism).
// 2) Generate source files from the JSL files contained in src/main/jsl-*. These
// will be output to $buildDir/gensrc/jsl-*
// 3) Compile the JSL Java sources in $buildDir/gensrc/jsl-* and put the output
// into classes/jsl-*
// 4) Compile the native JSL sources in $buildDir/gensrc/jsl-* and put the obj
// files into native/jsl-* and the resulting library into libs/jsl-*.dll|so|dylib
// 5) Modify the jar step to include classes/jsl-*
// The native library must be copied over during SDK creation time in the "sdk" task. In
// addition to these steps, the clean task is created. Note that I didn't bother to create
// a new task for each of the decora files, preferring instead just to create a rule?? Also
// need "clean" tasks for each compile task.
def modulePath = "${project.sourceSets.main.java.outputDir}"
modulePath += File.pathSeparator + "${rootProject.projectDir}/modules/javafx.base/build/classes/java/main"
addJSL(project, "Decora", "com/sun/scenario/effect/impl/hw/d3d/hlsl", decoraAddExports) { sourceDir, destinationDir ->
[[fileName: "ColorAdjust", generator: "CompileJSL", outputs: "-all"],
[fileName: "Brightpass", generator: "CompileJSL", outputs: "-all"],
[fileName: "SepiaTone", generator: "CompileJSL", outputs: "-all"],
[fileName: "PerspectiveTransform", generator: "CompileJSL", outputs: "-all"],
[fileName: "DisplacementMap", generator: "CompileJSL", outputs: "-all"],
[fileName: "InvertMask", generator: "CompileJSL", outputs: "-all"],
[fileName: "Blend", generator: "CompileBlend", outputs: "-all"],
[fileName: "PhongLighting", generator: "CompilePhong", outputs: "-all"],
[fileName: "LinearConvolve", generator: "CompileLinearConvolve", outputs: "-hw"],
[fileName: "LinearConvolveShadow", generator: "CompileLinearConvolve", outputs: "-hw"]].each { settings ->
javaexec {
executable = JAVA
workingDir = project.projectDir
main = settings.generator
classpath = configurations.compileClasspath + configurations.antlr
classpath += files(project.sourceSets.jslc.java.outputDir)
classpath += files("${project.projectDir}/src/jslc/resources")
classpath += files("$buildDir/classes/jsl-compilers/decora")
jvmArgs += "--module-path=$modulePath"
jvmArgs += "--add-modules=javafx.graphics"
jvmArgs += decoraAddExports
args += ["-i", sourceDir, "-o", destinationDir, "-t", "-pkg", "com/sun/scenario/effect", "$settings.outputs", "$settings.fileName"]
}
}
}
task nativeDecora(dependsOn: compileDecoraHLSLShaders, group: "Build") {
description = "Generates JNI headers, compiles, and builds native dynamic library for Decora"
}
task cleanNativeDecora(type: Delete, group: "Build") {
description = "Clean native objects for Decora"
}
def headerDir = file("$buildDir/gensrc/headers/javafx.graphics")
def nativeRootDir = project.file("$project.buildDir/native/jsl-decora")
def libRootDir = project.file("$project.buildDir/libs/jsl-decora")
// For each compile target, create cc and link tasks
compileTargets { t ->
def target = t.name
def upperTarget = t.upper
def capitalTarget = t.capital
def targetProperties = rootProject.ext[upperTarget];
def library = targetProperties.library
def properties = targetProperties.get('decora')
def nativeDir = file("$nativeRootDir/$target");
def variants = properties.containsKey("variants") ? properties.variants : [""];
variants.each { variant ->
def variantProperties = variant == "" ? properties : properties.get(variant)
def capitalVariant = variant.capitalize()
def ccOutput = variant == "" ? nativeDir : file("$nativeDir/$variant")
def ccTask = task("compileDecoraNativeShaders$capitalTarget$capitalVariant", type: CCTask ) {
description = "Compiles Decora SSE natives for ${t.name}${capitalVariant != '' ? ' for variant ' + capitalVariant : ''}"
matches = ".*\\.cc"
source file("$buildDir/gensrc/jsl-decora")
source file(project.projectDir.path + "/src/main/native-decora")
headers = headerDir
params.addAll(variantProperties.ccFlags)
output(ccOutput)
compiler = variantProperties.compiler
cleanNativeDecora.delete ccOutput
}
def linkTask = task("linkDecoraNativeShaders$capitalTarget$capitalVariant", type: LinkTask, dependsOn: ccTask) {
description = "Creates native dynamic library for Decora SSE ${t.name}${capitalVariant != '' ? ' for variant ' + capitalVariant : ''}"
objectDir = ccOutput
linkParams.addAll(variantProperties.linkFlags)
lib = file("$libRootDir/$t.name/${library(variantProperties.lib)}")
linker = variantProperties.linker
cleanNativeDecora.delete "$libRootDir/$t.name/"
}
if (IS_WINDOWS && target == "win") {
def rcTask = project.task("rcDecoraNativeShaders$capitalTarget$capitalVariant", type: CompileResourceTask) {
description = "Compiles native sources for Decora SSE"
matches = ".*\\.rc"
compiler = variantProperties.rcCompiler
source(variantProperties.rcSource)
if (variantProperties.rcFlags) {
rcParams.addAll(variantProperties.rcFlags)
}
output(ccOutput)
}
linkTask.dependsOn rcTask;
}
nativeDecora.dependsOn(linkTask)
}
}
// Prism JSL
addJSL(project, "Prism", "com/sun/prism/d3d/hlsl", null) { sourceDir, destinationDir ->
def inputFiles = fileTree(dir: sourceDir)
inputFiles.include "**/*.jsl"
inputFiles.each { file ->
javaexec {
executable = JAVA
workingDir = project.projectDir
main = "CompileJSL"
classpath = configurations.compileClasspath + configurations.antlr
classpath += files(project.sourceSets.jslc.java.outputDir)
classpath += files(project.sourceSets.jslc.resources)
classpath += files("$buildDir/classes/jsl-compilers/prism",
project.projectDir.path + "/src/main/jsl-prism") // for the .stg
args = ["-i", sourceDir, "-o", destinationDir, "-t", "-pkg", "com/sun/prism", "-d3d", "-es2", "-name", "$file"]
}
}
}
task initShaderDirs() {
doLast {
// Create empty hlsl dirs on all platforms for IDE support
file("$project.buildDir/hlsl/Decora").mkdirs()
file("$project.buildDir/hlsl/Prism").mkdirs()
file("$project.buildDir/gensrc/jsl-prism").mkdirs()
file("$project.buildDir/gensrc/jsl-decora").mkdirs()
}
}
project.processShaders.dependsOn(initShaderDirs)
nativePrism.dependsOn compilePrismHLSLShaders;
project.nativeAllTask.dependsOn nativeDecora
project.cleanNativeAllTask.dependsOn cleanNativeDecora
assemble.dependsOn nativeDecora
processResources.dependsOn processDecoraShaders, processPrismShaders
test {
def cssDir = file("$buildDir/classes/java/main/${moduleName}/javafx")
jvmArgs "-Djavafx.toolkit=test.com.sun.javafx.pgstub.StubToolkit",
"-DCSS_META_DATA_TEST_DIR=$cssDir"
enableAssertions = true
testLogging.exceptionFormat = "full"
scanForTestClasses = true
include "**/*.*"
if (BUILD_CLOSED && DO_JCOV) {
addJCov(project, test)
}
}
// To enable the IDEs to all be happy (no red squiggles) we need to have the libraries
// available in some known location. Maybe in the future the Gradle plugins to each
// of the IDEs will be good enough that we won't need this hack anymore.
classes {
doLast {
// Copy all of the download libraries to the libs directory for the sake of the IDEs
File libsDir = rootProject.file("build/libs");
// In some IDEs (Eclipse for example), touching these libraries
// cauese a full build within the IDE. When gradle is used
// outside of the IDE, for example to build the native code,
// a full rebuild is caused within the IDE. The fix is to check
// for the presence of the target files in the lib directory
// and not copy the files if all are present.
libsDir.mkdirs();
def allLibsPresent = true
def libNames = [ "antlr4-4.7.2-complete.jar" ]
libNames.each { name ->
File f = new File(libsDir, name)
if (!f.exists()) allLibsPresent = false
}
if (allLibsPresent) return;
for (File f : [configurations.compileClasspath.files, configurations.antlr.files].flatten()) {
copy {
into libsDir
from f.getParentFile()
include "**/antlr4-4.7.2-complete.jar"
includeEmptyDirs = false
}
}
}
}
addMavenPublication(project, [ 'base' ])
addValidateSourceSets(project, sourceSets)
}
project(":controls") {
project.ext.buildModule = true
project.ext.includeSources = true
project.ext.moduleRuntime = true
project.ext.moduleName = "javafx.controls"
sourceSets {
main
shims {
java {
compileClasspath += sourceSets.main.output
runtimeClasspath += sourceSets.main.output
}
}
test {
java {
compileClasspath += sourceSets.shims.output
runtimeClasspath += sourceSets.shims.output
}
}
}
project.ext.moduleSourcePath = defaultModuleSourcePath
project.ext.moduleSourcePathShim = defaultModuleSourcePathShim
commonModuleSetup(project, [ 'base', 'graphics', 'controls' ])
dependencies {
testImplementation project(":graphics").sourceSets.test.output
testImplementation project(":base").sourceSets.test.output
implementation project(':base')
implementation project(':graphics')
}
test {
def cssDir = file("$buildDir/classes/java/main/${moduleName}/javafx")
jvmArgs "-Djavafx.toolkit=test.com.sun.javafx.pgstub.StubToolkit",
"-DCSS_META_DATA_TEST_DIR=$cssDir"
}
def modulePath = "${project.sourceSets.main.java.outputDir}"
modulePath += File.pathSeparator + "${rootProject.projectDir}/modules/javafx.graphics/build/classes/java/main"
modulePath += File.pathSeparator + "${rootProject.projectDir}/modules/javafx.base/build/classes/java/main"
processResources {
doLast {
def cssFiles = fileTree(dir: "$moduleDir/com/sun/javafx/scene/control/skin")
cssFiles.include "**/*.css"
cssFiles.each { css ->
logger.info("converting CSS to BSS ${css}");
javaexec {
executable = JAVA
workingDir = project.projectDir
jvmArgs += patchModuleArgs
jvmArgs += "--module-path=$modulePath"
jvmArgs += "--add-modules=javafx.graphics"
main = "com.sun.javafx.css.parser.Css2Bin"
args css
}
}
}
}
processShimsResources.dependsOn(project.task("copyShimBss", type: Copy) {
from project.moduleDir
into project.moduleShimsDir
include "**/*.bss"
})
addMavenPublication(project, [ 'graphics' ])
addValidateSourceSets(project, sourceSets)
}
project(":swing") {
// We need to skip setting compiler.options.release for this module,
// since javafx.swing requires jdk.unsupported.desktop, which is
// excluded by "--release NN". This will fall back to using
// "-source NN -target NN" for this module.
project.ext.skipJavaCompilerOptionRelease = true
tasks.all {
if (!COMPILE_SWING) it.enabled = false
}
project.ext.buildModule = COMPILE_SWING
project.ext.includeSources = true
project.ext.moduleRuntime = true
project.ext.moduleName = "javafx.swing"
sourceSets {
main
shims {
java {
compileClasspath += sourceSets.main.output
runtimeClasspath += sourceSets.main.output
}
}
test {
java {
compileClasspath += sourceSets.shims.output
runtimeClasspath += sourceSets.shims.output
}
}
}
project.ext.moduleSourcePath = defaultModuleSourcePath
project.ext.moduleSourcePathShim = defaultModuleSourcePathShim
commonModuleSetup(project, [ 'base', 'graphics', 'swing' ])
dependencies {
implementation project(":base")
implementation project(":graphics")
}
test {
enabled = IS_FULL_TEST && IS_AWT_TEST
}
if (COMPILE_SWING) {
addMavenPublication(project, [ 'graphics' ])
}
addValidateSourceSets(project, sourceSets)
}
project(":swt") {
tasks.all {
if (!COMPILE_SWT) it.enabled = false
}
// javafx.swt is an automatic module
project.ext.buildModule = false
commonModuleSetup(project, [ 'base', 'graphics' ])
dependencies {
implementation name: SWT_FILE_NAME
}
classes {
doLast {
// Copy all of the download libraries to libs directory for the sake of the IDEs
File libsDir = rootProject.file("build/libs");
File swtLib = new File(libsDir, "swt-debug.jar")
libsDir.mkdirs();
// Skip copy if file is present.
if (swtLib.exists()) return;
for (File f : configurations.compileClasspath.files) {
// Have to rename the swt jar because it is some platform specific name but
// for the sake of the IDEs we need to have a single stable name that works
// on every platform
copy {
into libsDir
from f.getParentFile()
include "**/*swt*.jar"
includeEmptyDirs = false
rename ".*swt.*jar", "swt-debug\\.jar"
}
}
}
}
compileJava.options.compilerArgs.addAll([
"--add-exports=javafx.graphics/com.sun.glass.ui=ALL-UNNAMED",
"--add-exports=javafx.graphics/com.sun.javafx.cursor=ALL-UNNAMED",
"--add-exports=javafx.graphics/com.sun.javafx.embed=ALL-UNNAMED",
"--add-exports=javafx.graphics/com.sun.javafx.stage=ALL-UNNAMED",
"--add-exports=javafx.graphics/com.sun.javafx.tk=ALL-UNNAMED",
])
test {
//enabled = IS_FULL_TEST && IS_SWT_TEST
enabled = false // FIXME: JIGSAW -- support this with modules
logger.info("JIGSAW Testing disabled for swt")
if (IS_MAC) {
enabled = false
logger.info("SWT tests are disabled on MAC, because Gradle test runner does not handle -XstartOnFirstThread properly (https://issues.gradle.org/browse/GRADLE-3290).")
}
}
addValidateSourceSets(project, sourceSets)
}
project(":fxml") {
project.ext.buildModule = true
project.ext.includeSources = true
project.ext.moduleRuntime = true
project.ext.moduleName = "javafx.fxml"
sourceSets {
main
shims {
java {
compileClasspath += sourceSets.main.output
runtimeClasspath += sourceSets.main.output
}
}
test {
java {
compileClasspath += sourceSets.shims.output
runtimeClasspath += sourceSets.shims.output
}
}
}
project.ext.moduleSourcePath = defaultModuleSourcePath
project.ext.moduleSourcePathShim = defaultModuleSourcePathShim
commonModuleSetup(project, [ 'base', 'graphics', 'controls', 'fxml' ])
dependencies {
testImplementation project(":graphics").sourceSets.test.output
testImplementation project(":base").sourceSets.test.output
implementation project(":base")
implementation project(":graphics")
}
test {
// StubToolkit is not *really* needed here, but because some code inadvertently invokes performance
// tracker and this attempts to fire up the toolkit and this looks for native libraries and fails,
// we have to use the stub toolkit for now.
jvmArgs "-Djavafx.toolkit=test.com.sun.javafx.pgstub.StubToolkit"
// FIXME: change this to also allow JDK 9 boot jdk
classpath += files("$JDK_HOME/jre/lib/ext/nashorn.jar")
}
addMavenPublication(project, [ 'controls' ])
addValidateSourceSets(project, sourceSets)
}
project(":media") {
configurations {
media
}
project.ext.buildModule = true
project.ext.includeSources = true
project.ext.moduleRuntime = true
project.ext.moduleName = "javafx.media"
sourceSets {
main
//shims // no test shims needed
test
tools {
java.srcDir "src/tools/java"
}
}
project.ext.moduleSourcePath = defaultModuleSourcePath
project.ext.moduleSourcePathShim = defaultModuleSourcePathShim
commonModuleSetup(project, [ 'base', 'graphics', 'media' ])
dependencies {
if (IS_BUILD_LIBAV_STUBS) {
media name: "libav-9.14", ext: "tar.gz"
media name: "libav-11.4", ext: "tar.gz"
media name: "libav-12.1", ext: "tar.gz"
media name: "ffmpeg-3.3.3", ext: "tar.gz"
media name: "ffmpeg-4.0.2", ext: "tar.gz"
media name: "ffmpeg-5.1.2", ext: "tar.gz"
}
implementation project(":base")
implementation project(":graphics")
}
compileJava.dependsOn updateCacheIfNeeded
compileJava {
// generate the native headers during compile
options.compilerArgs.addAll([
'-h', "${project.buildDir}/gensrc/headers"
])
}
compileToolsJava {
enabled = IS_COMPILE_MEDIA
def modulePath = "${project.sourceSets.main.java.outputDir}"
options.compilerArgs.addAll([
"--module-path=$modulePath",
"--add-modules=javafx.media",
'--add-exports', 'javafx.media/com.sun.media.jfxmedia=ALL-UNNAMED',
])
}
project.ext.makeJobsFlag = IS_WINDOWS && IS_DEBUG_NATIVE ? "-j1" : "-j5";
project.ext.buildType = IS_DEBUG_NATIVE ? "Debug" : "Release";
def nativeSrcDir = file("${projectDir}/src/main/native")
def generatedHeadersDir = file("${buildDir}/gensrc/headers/${project.moduleName}")
task generateMediaErrorHeader(dependsOn: [compileJava, compileToolsJava]) {
enabled = IS_COMPILE_MEDIA
def headerpath = file("$generatedHeadersDir/jfxmedia_errors.h");
doLast {
def classpath = files(sourceSets.tools.output);
def sourcepath = sourceSets.main.java.srcDirs;
def srcRoot = (sourcepath.toArray())[0];
mkdir generatedHeadersDir;
def modulePath = "${project.sourceSets.main.java.outputDir}"
modulePath += File.pathSeparator + "${rootProject.projectDir}/modules/javafx.graphics/build/classes/java/main"
modulePath += File.pathSeparator + "${rootProject.projectDir}/modules/javafx.base/build/classes/java/main"
exec {
commandLine("$JAVA");
args += patchModuleArgs
args += [ "--module-path=$modulePath" ]
args += [ "--add-modules=javafx.media" ]
args += [ '--add-exports=javafx.media/com.sun.media.jfxmedia=ALL-UNNAMED' ]
args += [ '-classpath', "${classpath.asPath}" ]
args += [ "headergen.HeaderGen", "$headerpath", "$srcRoot" ]
}
}
outputs.file(project.file("$headerpath"))
}
task buildNativeTargets {
enabled = IS_COMPILE_MEDIA
}
compileTargets { t->
def targetProperties = project.rootProject.ext[t.upper]
def nativeOutputDir = file("${buildDir}/native/${t.name}")
def projectDir = t.name.startsWith("arm") ? "linux" : t.name
def mediaProperties = targetProperties.media
// Makefile for OSX needs to know if we're building for parfait
def compileParfait = IS_COMPILE_PARFAIT ? "true" : "false"
def buildNative = task("build${t.capital}Native", dependsOn: [generateMediaErrorHeader]) {
enabled = targetProperties.compileMediaNative
if (!targetProperties.compileMediaNative) {
println("Not compiling native Media for ${t.name} per configuration request");
}
doLast {
exec {
commandLine ("make", "${makeJobsFlag}", "-C", "${nativeSrcDir}/jfxmedia/projects/${projectDir}")
args("JAVA_HOME=${JDK_HOME}", "GENERATED_HEADERS_DIR=${generatedHeadersDir}",
"OUTPUT_DIR=${nativeOutputDir}", "BUILD_TYPE=${buildType}", "BASE_NAME=jfxmedia",
"COMPILE_PARFAIT=${compileParfait}",
"ARCH=${ARCH_NAME}",
"CC=${mediaProperties.compiler}", "LINKER=${mediaProperties.linker}")
if (t.name == "win") {
environment(WINDOWS_NATIVE_COMPILE_ENVIRONMENT)
args( "RESOURCE=${nativeOutputDir}/${buildType}/${WIN.media.jfxmediaRcFile}")
} else {
if (t.name.startsWith("arm")) {
args("EXTRA_CFLAGS=${mediaProperties.extra_cflags}", "EXTRA_LDFLAGS=${mediaProperties.extra_ldflags}")
} else {
args("HOST_COMPILE=1")
}
}
}
}
}
// check for the property disable${name} = true
def boolean disabled = targetProperties.containsKey('disableMedia') ? targetProperties.get('disableMedia') : false
if (!disabled) {
// Building GStreamer
def buildGStreamer = task("build${t.capital}GStreamer") {
enabled = IS_COMPILE_MEDIA
doLast {
exec {
commandLine ("make", "${makeJobsFlag}", "-C", "${nativeSrcDir}/gstreamer/projects/${projectDir}/gstreamer-lite")
args("OUTPUT_DIR=${nativeOutputDir}", "BUILD_TYPE=${buildType}", "BASE_NAME=gstreamer-lite",
"ARCH=${ARCH_NAME}", "CC=${mediaProperties.compiler}",
"AR=${mediaProperties.ar}", "LINKER=${mediaProperties.linker}")
if (t.name == "win") {
environment(WINDOWS_NATIVE_COMPILE_ENVIRONMENT)
args("RESOURCE=${nativeOutputDir}/${buildType}/${WIN.media.gstreamerRcFile}")
}
}
}
}
def buildPlugins = task("build${t.capital}Plugins", dependsOn: buildGStreamer) {
enabled = IS_COMPILE_MEDIA
doLast {
exec {
commandLine ("make", "${makeJobsFlag}", "-C", "${nativeSrcDir}/gstreamer/projects/${projectDir}/fxplugins")
args("OUTPUT_DIR=${nativeOutputDir}", "BUILD_TYPE=${buildType}", "BASE_NAME=fxplugins",
"ARCH=${ARCH_NAME}",
"CC=${mediaProperties.compiler}", "AR=${mediaProperties.ar}", "LINKER=${mediaProperties.linker}")
if (t.name == "win") {
environment(WINDOWS_NATIVE_COMPILE_ENVIRONMENT)
args("RESOURCE=${nativeOutputDir}/${buildType}/${WIN.media.fxpluginsRcFile}")
}
}
}
}
buildNative.dependsOn buildPlugins
if (t.name == "linux") {
// Pre-defined command line arguments
def cfgCMDArgs = ["sh", "configure"]
def commonCfgArgs = ["--enable-shared", "--disable-debug", "--disable-static", "--disable-yasm", "--disable-doc", "--disable-programs", "--disable-everything"]
def codecsCfgArgs = ["--enable-decoder=aac,mp3,mp3float,h264,hevc", "--enable-parser=aac,h264,hevc", "--enable-demuxer=aac,h264,hevc,mpegts,mpegtsraw"]
def copyLibAVStubs = {String fromDir, String toDir ->
FileCollection config = files("config.h")
FileCollection libavcodec = files("avcodec.h", "avfft.h", "dxva2.h", "vaapi.h", "vda.h",
"vdpau.h", "version.h", "xvmc.h", "old_codec_ids.h",
"codec.h", "codec_desc.h", "codec_par.h", "codec_id.h",
"defs.h", "packet.h", "version_major.h")
FileCollection libavdevice = files("avdevice.h", "version.h")
FileCollection libavfilter = files("avfiltergraph.h", "avfilter.h", "buffersink.h", "buffersrc.h", "version.h");
FileCollection libavformat = files("avformat.h", "avio.h", "version.h", "version_major.h")
FileCollection libavresample = files("avresample.h", "version.h")
FileCollection libavutil = files("adler32.h", "blowfish.h", "error.h", "log.h", "pixfmt.h",
"aes.h", "bswap.h", "eval.h", "lzo.h", "random_seed.h",
"attributes.h", "buffer.h", "fifo.h", "macros.h", "rational.h",
"audio_fifo.h", "channel_layout.h", "file.h", "mathematics.h", "samplefmt.h",
"avassert.h", "common.h", "frame.h", "md5.h", "sha.h",
"avconfig.h", "imgutils.h", "mem.h", "time.h", "avstring.h",
"cpu_internal.h", "intfloat.h", "opt.h", "version.h", "avutil.h",
"crc.h", "intreadwrite.h", "parseutils.h", "xtea.h", "base64.h",
"dict.h", "lfg.h", "pixdesc.h", "intfloat_readwrite.h", "old_pix_fmts.h", "audioconvert.h",
"cpu.h", "hwcontext.h")
FileCollection libavutil_x86 = files("cpu.h") // Use cpu.h from x86 instead of libavutil root if exist
FileCollection libswscale = files("swscale.h", "version.h", "version_major.h")
def copyLibAVFiles = {FileCollection files, String fDir, String tDir ->
File dir = file(tDir)
dir.mkdirs()
files.each { File file ->
copy {
from fDir
into tDir
include file.name
}
}
}
copyLibAVFiles(config, fromDir, "${toDir}/include")
copyLibAVFiles(libavcodec, "${fromDir}/libavcodec", "${toDir}/include/libavcodec")
copyLibAVFiles(libavdevice, "${fromDir}/libavdevice", "${toDir}/include/libavdevice")
copyLibAVFiles(libavfilter, "${fromDir}/libavfilter", "${toDir}/include/libavfilter")
copyLibAVFiles(libavformat, "${fromDir}/libavformat", "${toDir}/include/libavformat")
copyLibAVFiles(libavresample, "${fromDir}/libavresample", "${toDir}/include/libavresample")
copyLibAVFiles(libavutil, "${fromDir}/libavutil", "${toDir}/include/libavutil")
copyLibAVFiles(libavutil_x86, "${fromDir}/libavutil/x86", "${toDir}/include/libavutil")
copyLibAVFiles(libswscale, "${fromDir}/libswscale", "${toDir}/include/libswscale")
// Copy libs
FileTree libs = fileTree(dir: "${fromDir}", include: "**/*.so*")
libs.each {File file ->
copy {
from file
into "${toDir}/lib"
}
}
}
def buildLibAVStubs = task("buildLibAVStubs", dependsOn: []) {
enabled = IS_BUILD_LIBAV_STUBS
doLast {
project.ext.libav = [:]
project.ext.libav.basedir = "${buildDir}/native/linux/libav"
project.ext.libav.versions = [ "9.14", "11.4", "12.1" ]
project.ext.libav.versionmap = [ "9.14" : "54", "11.4" : "56", "12.1" : "57" ]
libav.versions.each { version ->
def libavDir = "${libav.basedir}/libav-${version}"
for (File f : configurations.media.files) {
if (f.name.startsWith("libav-${version}")) {
File dir = file(libavDir)
dir.mkdirs()
def libavTar = "${libav.basedir}/libav-${version}.tar"
ant.gunzip(src: f, dest: libavTar)
ant.untar(src: libavTar, dest: libav.basedir)
}
}
}
libav.versions.each { version ->
def libavDir = "${libav.basedir}/libav-${version}"
File dir = file(libavDir)
if (dir.exists()) {
def configFile = "${libav.basedir}/libav-${version}/config.h"
File cfgFile = file(configFile)
if (!cfgFile.exists()) {
// Add execute permissions to version.sh, otherwise build fails
exec {
workingDir("$libavDir")
commandLine("chmod", "+x", "version.sh")
}
exec {
workingDir("$libavDir")
if (IS_BUILD_WORKING_LIBAV) {
commandLine(cfgCMDArgs + commonCfgArgs + codecsCfgArgs)
} else {
commandLine(cfgCMDArgs + commonCfgArgs)
}
}
}
exec {
workingDir("$libavDir")
commandLine("make")
}
}
}
libav.versions.each { version ->
def fromDir = "${libav.basedir}/libav-${version}"
def majorVersion = libav.versionmap[version]
def toDir = "${libav.basedir}/libav-${majorVersion}"
copyLibAVStubs(fromDir, toDir)
}
}
}
def buildLibAVFFmpegStubs = task("buildLibAVFFmpegStubs", dependsOn: []) {
enabled = IS_BUILD_LIBAV_STUBS
def extraCfgArgs = ["--build-suffix=-ffmpeg"]
doLast {
project.ext.libav = [:]
project.ext.libav.basedir = "${buildDir}/native/linux/libavffmpeg"
project.ext.libav.versions = [ "11.4" ]
project.ext.libav.versionmap = [ "11.4" : "56" ]
libav.versions.each { version ->
def libavDir = "${libav.basedir}/libav-${version}"
for (File f : configurations.media.files) {
if (f.name.startsWith("libav-${version}")) {
File dir = file(libavDir)
dir.mkdirs()
def libavTar = "${libav.basedir}/libav-${version}.tar"
ant.gunzip(src: f, dest: libavTar)
ant.untar(src: libavTar, dest: libav.basedir)
}
}
}
libav.versions.each { version ->
def libavDir = "${libav.basedir}/libav-${version}"
File dir = file(libavDir)
if (dir.exists()) {
def configFile = "${libav.basedir}/libav-${version}/config.h"
File cfgFile = file(configFile)
if (!cfgFile.exists()) {
// Patch *.v files, so we have *_FFMPEG_$MAJOR instead of *_$MAJOR, otherwise library will not be loaded
FileTree vfiles = fileTree(dir: "${libavDir}", include: "**/*.v")
vfiles.each {File file ->
String data = file.getText("UTF-8")
data = data.replace("_\$MAJOR", "_FFMPEG_\$MAJOR")
file.write(data, "UTF-8")
}
// Add execute permissions to version.sh, otherwise build fails
exec {
workingDir("$libavDir")
commandLine("chmod", "+x", "version.sh")
}
exec {
workingDir("$libavDir")
if (IS_BUILD_WORKING_LIBAV) {
commandLine(cfgCMDArgs + commonCfgArgs + codecsCfgArgs + extraCfgArgs)
} else {
commandLine(cfgCMDArgs + commonCfgArgs + extraCfgArgs)
}
}
}
exec {
workingDir("$libavDir")
commandLine("make")
}
}
}
libav.versions.each { version ->
def fromDir = "${libav.basedir}/libav-${version}"
def majorVersion = libav.versionmap[version]
def toDir = "${libav.basedir}/libav-${majorVersion}"
copyLibAVStubs(fromDir, toDir)
// Special case to copy *-ffmpeg.so to *.so
FileTree libs = fileTree(dir: "${fromDir}", include: "**/*-ffmpeg.so")
libs.each {File file ->
copy {
from file
into "${toDir}/lib"
rename { String fileName ->
fileName.replace("-ffmpeg", "")
}
}
}
}
}
}
def buildFFmpegStubs = task("buildFFmpegStubs", dependsOn: []) {
enabled = IS_BUILD_LIBAV_STUBS
doLast {
project.ext.libav = [:]
project.ext.libav.basedir = "${buildDir}/native/linux/ffmpeg"
project.ext.libav.versions = [ "3.3.3", "4.0.2", "5.1.2" ]
project.ext.libav.versionmap = [ "3.3.3" : "57", "4.0.2" : "58", "5.1.2" : "59" ]
libav.versions.each { version ->
def libavDir = "${libav.basedir}/ffmpeg-${version}"
for (File f : configurations.media.files) {
if (f.name.startsWith("ffmpeg-${version}")) {
File dir = file(libavDir)
dir.mkdirs()
def libavTar = "${libav.basedir}/ffmpeg-${version}.tar"
ant.gunzip(src: f, dest: libavTar)
ant.untar(src: libavTar, dest: libav.basedir)
}
}
}
libav.versions.each { version ->
def libavDir = "${libav.basedir}/ffmpeg-${version}"
File dir = file(libavDir)
if (dir.exists()) {
def configFile = "${libavDir}/config.h"
File cfgFile = file(configFile)
if (!cfgFile.exists()) {
// Add execute permissions to version.sh, otherwise build fails
def versionFile = "${libavDir}/version.sh"
File verFile = file(versionFile)
if (verFile.exists()) {
exec {
workingDir("$libavDir")
commandLine("chmod", "+x", "version.sh")
}
} else {
versionFile = "${libavDir}/ffbuild/version.sh"
verFile = file(versionFile)
if (verFile.exists()) {
exec {
workingDir("${libavDir}/ffbuild")
commandLine("chmod")
args += "+x"
args += ["version.sh", "libversion.sh", "pkgconfig_generate.sh"]
}
}
}
exec {
workingDir("$libavDir")
if (IS_BUILD_WORKING_LIBAV) {
commandLine(cfgCMDArgs + commonCfgArgs + codecsCfgArgs)
} else {
commandLine(cfgCMDArgs + commonCfgArgs)
}
}
}
exec {
workingDir("$libavDir")
commandLine("make")
}
}
}
libav.versions.each { version ->
def fromDir = "${libav.basedir}/ffmpeg-${version}"
def majorVersion = libav.versionmap[version]
def toDir = "${libav.basedir}/ffmpeg-${majorVersion}"
copyLibAVStubs(fromDir, toDir)
}
}
}
def buildAVPlugin = task( "buildAVPlugin", dependsOn: [buildPlugins, buildLibAVStubs, buildLibAVFFmpegStubs, buildFFmpegStubs]) {
enabled = IS_COMPILE_MEDIA
doLast {
if (IS_BUILD_LIBAV_STUBS) {
project.ext.libav = [:]
project.ext.libav.basedir = "${buildDir}/native/linux/libav/libav"
project.ext.libav.versions = [ "53", "54", "55", "56", "57" ]
project.ext.libav.libavffmpeg = [:]
project.ext.libav.libavffmpeg.basedir = "${buildDir}/native/linux/libavffmpeg/libav"
project.ext.libav.libavffmpeg.versions = [ "56" ]
project.ext.libav.ffmpeg = [:]
project.ext.libav.ffmpeg.basedir = "${buildDir}/native/linux/ffmpeg/ffmpeg"
project.ext.libav.ffmpeg.versions = [ "57", "58", "59" ]
project.ext.libav.versions.each { version ->
def libavDir = "${project.ext.libav.basedir}-${version}"
File dir = file(libavDir)
if (dir.exists()) {
exec {
commandLine ("make", "${makeJobsFlag}", "-C", "${nativeSrcDir}/gstreamer/projects/linux/avplugin")
args("CC=${mediaProperties.compiler}", "LINKER=${mediaProperties.linker}",
"OUTPUT_DIR=${nativeOutputDir}", "BUILD_TYPE=${buildType}",
"BASE_NAME=avplugin", "VERSION=${version}", "LIBAV_DIR=${libavDir}",
"SUFFIX=", "ARCH=${ARCH_NAME}",
"STATIC=${IS_STATIC_BUILD}")
}
}
}
project.ext.libav.libavffmpeg.versions.each { version ->
def libavDir = "${project.ext.libav.libavffmpeg.basedir}-${version}"
File dir = file(libavDir)
if (dir.exists()) {
exec {
commandLine ("make", "${makeJobsFlag}", "-C", "${nativeSrcDir}/gstreamer/projects/linux/avplugin")
args("CC=${mediaProperties.compiler}", "LINKER=${mediaProperties.linker}",
"OUTPUT_DIR=${nativeOutputDir}", "BUILD_TYPE=${buildType}",
"BASE_NAME=avplugin", "VERSION=${version}", "LIBAV_DIR=${libavDir}",
"SUFFIX=-ffmpeg",
"ARCH=${ARCH_NAME}")
}
}
}
project.ext.libav.ffmpeg.versions.each { version ->
def libavDir = "${project.ext.libav.ffmpeg.basedir}-${version}"
File dir = file(libavDir)
if (dir.exists()) {
exec {
commandLine ("make", "${makeJobsFlag}", "-C", "${nativeSrcDir}/gstreamer/projects/linux/avplugin")
args("CC=${mediaProperties.compiler}", "LINKER=${mediaProperties.linker}",
"OUTPUT_DIR=${nativeOutputDir}", "BUILD_TYPE=${buildType}",
"BASE_NAME=avplugin", "VERSION=${version}", "LIBAV_DIR=${libavDir}",
"SUFFIX=-ffmpeg",
"ARCH=${ARCH_NAME}")
}
}
}
} else {
// Building fxavcodec plugin (libav plugin)
exec {
commandLine ("make", "${makeJobsFlag}", "-C", "${nativeSrcDir}/gstreamer/projects/linux/avplugin")
args("CC=${mediaProperties.compiler}", "LINKER=${mediaProperties.linker}",
"OUTPUT_DIR=${nativeOutputDir}", "BUILD_TYPE=${buildType}",
"BASE_NAME=avplugin", "ARCH=${ARCH_NAME}")
}
}
}
}
buildNative.dependsOn buildAVPlugin
}
if (t.name == "win") {
def buildResources = task("buildResources") {
doLast {
def rcOutputDir = "${nativeOutputDir}/${buildType}"
mkdir rcOutputDir
exec {
environment(WINDOWS_NATIVE_COMPILE_ENVIRONMENT)
commandLine (WIN.media.rcCompiler)
args(WIN.media.glibRcFlags)
args("/Fo${rcOutputDir}/${WIN.media.glibRcFile}", WIN.media.rcSource)
}
exec {
environment(WINDOWS_NATIVE_COMPILE_ENVIRONMENT)
commandLine (WIN.media.rcCompiler)
args(WIN.media.gstreamerRcFlags)
args("/Fo${rcOutputDir}/${WIN.media.gstreamerRcFile}", WIN.media.rcSource)
}
exec {
environment(WINDOWS_NATIVE_COMPILE_ENVIRONMENT)
commandLine (WIN.media.rcCompiler)
args(WIN.media.fxpluginsRcFlags)
args("/Fo${rcOutputDir}/${WIN.media.fxpluginsRcFile}", WIN.media.rcSource)
}
exec {
environment(WINDOWS_NATIVE_COMPILE_ENVIRONMENT)
commandLine (WIN.media.rcCompiler)
args(WIN.media.jfxmediaRcFlags)
args("/Fo${rcOutputDir}/${WIN.media.jfxmediaRcFile}", WIN.media.rcSource)
}
}
}
def buildGlib = task("build${t.capital}Glib", dependsOn: [buildResources]) {
enabled = IS_COMPILE_MEDIA
doLast {
exec {
environment(WINDOWS_NATIVE_COMPILE_ENVIRONMENT)
commandLine ("make", "${makeJobsFlag}", "-C", "${nativeSrcDir}/gstreamer/projects/${projectDir}/glib-lite")
args("OUTPUT_DIR=${nativeOutputDir}", "BUILD_TYPE=${buildType}", "BASE_NAME=glib-lite",
IS_64 ? "ARCH=x64" : "ARCH=x32", "RESOURCE=${nativeOutputDir}/${buildType}/${WIN.media.glibRcFile}",
"CC=${mediaProperties.compiler}", "AR=${mediaProperties.ar}", "LINKER=${mediaProperties.linker}")
}
}
}
buildGStreamer.dependsOn buildGlib
} else if (t.name == "mac") {
def buildGlib = task("build${t.capital}Glib") {
enabled = IS_COMPILE_MEDIA
doLast {
exec {
commandLine ("make", "${makeJobsFlag}", "-C", "${nativeSrcDir}/gstreamer/projects/${projectDir}/libffi")
args("OUTPUT_DIR=${nativeOutputDir}", "BUILD_TYPE=${buildType}", "BASE_NAME=ffi", "ARCH=$TARGET_ARCH")
args ("CC=${mediaProperties.compiler}", "LINKER=${mediaProperties.linker}", "AR=${mediaProperties.ar}")
}
exec {
commandLine ("make", "${makeJobsFlag}", "-C", "${nativeSrcDir}/gstreamer/projects/${projectDir}/glib-lite")
args("OUTPUT_DIR=${nativeOutputDir}", "BUILD_TYPE=${buildType}", "BASE_NAME=glib-lite", "ARCH=$TARGET_ARCH")
args ("CC=${mediaProperties.compiler}", "LINKER=${mediaProperties.linker}")
}
}
}
buildGStreamer.dependsOn buildGlib
}
}
buildNativeTargets.dependsOn buildNative
}
jar {
exclude("headergen/**")
dependsOn compileJava
if (IS_COMPILE_MEDIA) {
dependsOn buildNativeTargets
}
}
addMavenPublication(project, [ 'graphics' ])
addValidateSourceSets(project, sourceSets)
}
project(":web") {
configurations {
webkit
}
project.ext.buildModule = true
project.ext.includeSources = true
project.ext.moduleRuntime = true
project.ext.moduleName = "javafx.web"
getConfigurations().create("icu");
sourceSets {
main
shims {
java {
compileClasspath += sourceSets.main.output
runtimeClasspath += sourceSets.main.output
}
}
test {
java {
compileClasspath += sourceSets.shims.output
runtimeClasspath += sourceSets.shims.output
}
}
}
project.ext.moduleSourcePath = defaultModuleSourcePath
project.ext.moduleSourcePathShim = defaultModuleSourcePathShim
commonModuleSetup(project, [ 'base', 'graphics', 'controls', 'media', 'web' ])
dependencies {
if (IS_COMPILE_WEBKIT) {
def icuFileVersion = icuVersion.replaceAll('\\.', '_')
icu name: "icu4c-${icuFileVersion}-data-bin-l", ext: "zip"
}
implementation project(":base")
implementation project(":graphics")
implementation project(":controls")
implementation project(":media")
}
compileJava.dependsOn updateCacheIfNeeded
task webArchiveJar(type: Jar) {
from (project.file("$projectDir/src/test/resources/test/html")) {
include "**/archive-*.*"
}
archiveFileName = "webArchiveJar.jar"
destinationDirectory = file("$buildDir/testing/resources")
}
def gensrcDir = "${buildDir}/gensrc/java"
// add in the wrappers to the compile
sourceSets.main.java.srcDirs += "${gensrcDir}"
if (IS_COMPILE_WEBKIT) {
compileJava {
// generate the native headers during compile
// only needed if we are doing the native compile
options.compilerArgs.addAll([
'-h', "${project.buildDir}/gensrc/headers"
])
}
}
// Copy these to a common location in the moduleSourcePath
def copyWrappers = project.task("copyPreGeneratedWrappers", type: Copy) {
from "src/main/native/Source/WebCore/bindings/java/dom3/java"
into "${gensrcDir}"
}
compileJava.dependsOn(copyWrappers);
test {
doFirst {
if (IS_STUB_RUNTIME_OPENJFX) {
println "********************************************************"
println "WARNING: running web tests with officially built webkit."
println "The webkit native library may not be compatible with the"
println "source tree you are using."
println "If tests fail, try compiling webkit instead."
println "See WEBKIT-MEDIA-STUBS.md"
println "********************************************************"
} else if (!IS_COMPILE_WEBKIT) {
println "******************************************************"
println "WARNING: running web tests without building webkit."
println "The webkit native library will be copied from the JDK,"
println "which might lead to failures in some web tests."
println "See WEBKIT-MEDIA-STUBS.md"
println "******************************************************"
}
}
// Run web tests in headless mode
systemProperty 'glass.platform', 'Monocle'
systemProperty 'monocle.platform', 'Headless'
systemProperty 'prism.order', 'sw'
dependsOn webArchiveJar
def testResourceDir = file("$buildDir/testing/resources")
jvmArgs "-DWEB_ARCHIVE_JAR_TEST_DIR=$testResourceDir"
systemProperty 'java.security.manager', 'allow'
}
task compileJavaDOMBinding()
compileTargets { t ->
def targetProperties = project.rootProject.ext[t.upper]
def webkitProperties = targetProperties.webkit
def webkitOutputDir = cygpath("$buildDir/${t.name}")
def webkitConfig = IS_DEBUG_NATIVE ? "Debug" : "Release"
File nativeBuildDir = new File("${webkitOutputDir}")
nativeBuildDir.mkdirs()
def getICUFile = task("copyICUFile", type: Copy) {
enabled = IS_COMPILE_WEBKIT
from configurations.icu.files
into "$webkitOutputDir/$webkitConfig/icu/data"
}
def compileNativeTask = task("compileNative${t.capital}", dependsOn: [compileJava, getICUFile]) {
println "Building Webkit configuration /$webkitConfig/ into $webkitOutputDir"
enabled = (IS_COMPILE_WEBKIT)
doLast {
exec {
workingDir("$webkitOutputDir")
commandLine("perl", "$projectDir/src/main/native/Tools/Scripts/set-webkit-configuration", "--$webkitConfig")
environment(["WEBKIT_OUTPUTDIR" : webkitOutputDir])
}
exec {
workingDir("$webkitOutputDir")
def cmakeArgs = "-DENABLE_TOOLS=1"
if (IS_STATIC_BUILD) {
cmakeArgs = " $cmakeArgs -DSTATIC_BUILD=1 -DUSE_THIN_ARCHIVES=OFF";
}
cmakeArgs = " $cmakeArgs -DCMAKE_C_COMPILER='${webkitProperties.compiler}'"
if (t.name == "win") {
// To enable ninja build on Windows
environment(WINDOWS_NATIVE_COMPILE_ENVIRONMENT)
} else if (t.name == "mac") {
cmakeArgs = " $cmakeArgs -DCMAKE_OSX_DEPLOYMENT_TARGET=$MACOSX_MIN_VERSION -DCMAKE_OSX_SYSROOT=$MACOSX_SDK_PATH"
} else if (t.name == "linux") {
cmakeArgs = " $cmakeArgs -DCMAKE_SYSTEM_NAME=Linux"
if (IS_64) {
if (IS_AARCH64) {
cmakeArgs = "$cmakeArgs -DCMAKE_SYSTEM_PROCESSOR=aarch64"
} else if (IS_LOONGARCH64) {
cmakeArgs = "$cmakeArgs -DCMAKE_SYSTEM_PROCESSOR=loongarch64"
} else {
cmakeArgs = "$cmakeArgs -DCMAKE_SYSTEM_PROCESSOR=x86_64"
}
} else {
cmakeArgs = "$cmakeArgs -DCMAKE_SYSTEM_PROCESSOR=i586"
}
// TODO: Use cflags and ldflags from all platforms
def cFlags = webkitProperties.ccFlags?.join(' ') ?: ''
def lFlags = webkitProperties.linkFlags?.join(' ') ?: ''
if (IS_STATIC_BUILD) {
cFlags = " $cFlags -DSTATIC_BUILD=1";
}
// -shared flag should be omitted while creating executable.
def exeFlags = webkitProperties.linkFlags?.join(' ')?.replace('-shared', '') ?: ''
cmakeArgs = "$cmakeArgs -DCMAKE_C_FLAGS='${cFlags}' -DCMAKE_CXX_FLAGS='${cFlags}'"
cmakeArgs = "$cmakeArgs -DCMAKE_SHARED_LINKER_FLAGS='${lFlags}' -DCMAKE_EXE_LINKER_FLAGS='${exeFlags}'"
} else if (t.name.startsWith("arm")) {
fail("ARM target is not supported as of now.")
}
if (IS_COMPILE_PARFAIT) {
environment([
"COMPILE_PARFAIT" : "true"
])
environment "PATH", System.env.PARFAIT_PATH + File.pathSeparator + environment.PATH
cmakeArgs = "-DCMAKE_C_COMPILER=parfait-gcc -DCMAKE_CXX_COMPILER=parfait-g++"
}
if (project.hasProperty('toolsPath')) {
environment "PATH", toolsPath + File.pathSeparator + environment.PATH
}
environment([
"JAVA_HOME" : JDK_HOME,
"WEBKIT_OUTPUTDIR" : webkitOutputDir,
"PYTHONDONTWRITEBYTECODE" : "1",
])
def targetCpuBitDepthSwitch = ""
if (IS_64) {
targetCpuBitDepthSwitch = "--64-bit"
} else {
targetCpuBitDepthSwitch = "--32-bit"
}
cmakeArgs += " -DJAVAFX_RELEASE_VERSION=${jfxReleaseMajorVersion}"
commandLine("perl", "$projectDir/src/main/native/Tools/Scripts/build-webkit",
"--java", "--icu-unicode", targetCpuBitDepthSwitch,
"--no-experimental-features", "--cmakeargs=${cmakeArgs}")
}
}
}
// Cmake places Windows DLL in bin directory
def dllDir = IS_WINDOWS ? "bin" : "lib"
def copyDumpTreeNativeTask = task("copyDumpTreeNative${t.capital}", type: Copy,
dependsOn: [ compileNativeTask]) {
def library = rootProject.ext[t.upper].library
from "$webkitOutputDir/$webkitConfig/$dllDir/${library('DumpRenderTreeJava')}"
into "$buildDir/test/${t.name}"
}
def copyNativeTask = task("copyNative${t.capital}", type: Copy,
dependsOn: [compileNativeTask, copyDumpTreeNativeTask]) {
enabled = (IS_COMPILE_WEBKIT)
def library = rootProject.ext[t.upper].library
from "$webkitOutputDir/$webkitConfig/$dllDir/${library('jfxwebkit')}"
into "$buildDir/libs/${t.name}"
}
if (IS_WINDOWS && t.name == "win") {
def rcTask = project.task("rc${t.capital}", type: CompileResourceTask) {
compiler = webkitProperties.rcCompiler
source(webkitProperties.rcSource)
if (webkitProperties.rcFlags) {
rcParams.addAll(webkitProperties.rcFlags)
}
output(file("$webkitOutputDir/$webkitConfig/WebCore/obj"))
}
compileNativeTask.dependsOn rcTask
}
def compileJavaDOMBindingTask = task("compileJavaDOMBinding${t.capital}", type: JavaCompile,
dependsOn: [compileJava, compileNativeTask, copyNativeTask]) {
destinationDir = file("$buildDir/classes/java/main")
classpath = configurations.compileClasspath
source = project.sourceSets.main.java.srcDirs
options.compilerArgs.addAll([
'-implicit:none',
'--module-version', "$RELEASE_VERSION_SHORT",
'--module-source-path', defaultModuleSourcePath
])
}
compileJavaDOMBinding.dependsOn compileJavaDOMBindingTask
if (!targetProperties.compileWebnodeNative) {
println("Not compiling native Webkit for ${t.name} per configuration request");
compileNativeTask.enabled = false
}
}
def drtClasses = "**/com/sun/javafx/webkit/drt/**"
task drtJar(type: Jar, dependsOn: compileJava) {
archiveFileName = "drt.jar"
destinationDirectory = file("$buildDir/test")
from "$buildDir/classes/java/main/javafx.web/"
include drtClasses
includeEmptyDirs = false
}
if (IS_COMPILE_WEBKIT) {
assemble.dependsOn compileJavaDOMBinding, drtJar
}
addMavenPublication(project, [ 'controls', 'media' ])
addValidateSourceSets(project, sourceSets)
}
// This project is for system tests that need to run with a full SDK.
// Most of them display a stage or do other things that preclude running
// them in a shared JVM or as part of the "smoke test" run (which must
// not pop up any windows or use audio). As such, they are only enabled
// when FULL_TEST is specified, and each test runs in its own JVM
project(":systemTests") {
sourceSets {
test
// Source sets for standalone test apps (used for launcher tests)
testapp1
// Modular applications
testapp2
testapp3
testapp4
testapp5
testapp6
testapp7
testscriptapp1
testscriptapp2
}
def nonModSrcSets = [
sourceSets.test,
sourceSets.testapp1
]
def modSrcSets = [
sourceSets.testapp2,
sourceSets.testapp3,
sourceSets.testapp4,
sourceSets.testapp5,
sourceSets.testapp6,
sourceSets.testapp7,
sourceSets.testscriptapp1,
sourceSets.testscriptapp2
]
// We need to skip setting compiler.options.release for system tests,
// since the tests export an internal package from java.desktop, which
// is disallowed by "--release NN". This will fall back to using
// "-source NN -target NN" for the system tests.
project.ext.skipJavaCompilerOptionRelease = true
project.ext.buildModule = false
project.ext.moduleRuntime = false
project.ext.moduleName = "systemTests"
dependencies {
testImplementation project(":graphics").sourceSets.test.output
testImplementation project(":base").sourceSets.test.output
testImplementation project(":controls").sourceSets.test.output
testImplementation project(":swing").sourceSets.test.output
}
def dependentProjects = [ 'base', 'graphics', 'controls', 'media', 'web', 'swing', 'fxml' ]
commonModuleSetup(project, dependentProjects)
File testJavaPolicyFile = new File(rootProject.buildDir, TESTJAVAPOLICYFILE);
File testRunArgsFile = new File(rootProject.buildDir,TESTRUNARGSFILE);
File stRunArgsFile = new File(project.buildDir,"st.run.args");
def sts = task("systemTestSetup") {
outputs.file(stRunArgsFile)
doLast() {
stRunArgsFile.delete()
logger.info("Creating patchmodule.args file ${stRunArgsFile}")
// Create an argfile with the information needed to launch
// the stand alone system unit tests.
//First add in all of the patch-module args we use for the
//normal unit tests, copied from test.run.args
testRunArgsFile.eachLine { str ->
stRunArgsFile << "${str}\n"
}
// Now add in the working classpath elements (junit, test classes...)
stRunArgsFile << "-cp \"\\\n"
test.classpath.each() { elem ->
def e = cygpath("${elem}")
stRunArgsFile << " ${e}${File.pathSeparator}\\\n"
}
stRunArgsFile << "\"\n"
}
}
test.dependsOn(sts)
test.dependsOn(createTestArgfiles);
// Tasks to create standalone test applications for the launcher tests
if (project.hasProperty('testModulePathArgs')) {
compileTestapp1Java.options.compilerArgs.addAll(testModulePathArgs)
}
dependentProjects.each { e ->
compileTestapp1Java.dependsOn(rootProject.project(e).testClasses)
}
def testapp1JarName = "testapp1.jar"
task createTestapp1Jar1(type: Jar) {
dependsOn compileTestapp1Java
enabled = IS_FULL_TEST
destinationDirectory = file("$buildDir/testapp1")
archiveFileName = testapp1JarName
includeEmptyDirs = false
from project.sourceSets.testapp1.java.outputDir
include("testapp/**")
include("com/javafx/main/**")
manifest {
attributes(
"Main-Class" : "com.javafx.main.Main",
"JavaFX-Version" : "2.2",
"JavaFX-Application-Class" : "testapp.HelloWorld",
"JavaFX-Class-Path" : "jar2.jar"
)
}
}
task createTestapp1Jar2(type: Jar) {
dependsOn compileTestapp1Java
enabled = IS_FULL_TEST
destinationDirectory = file("$buildDir/testapp1")
archiveFileName = "jar2.jar";
includeEmptyDirs = false
from project.sourceSets.testapp1.java.outputDir
include("pkg2/**")
}
task createTestApps() {
dependsOn(createTestapp1Jar1)
dependsOn(createTestapp1Jar2)
}
test.dependsOn(createTestApps);
def modtestapps = [ "testapp2", "testapp3", "testapp4", "testapp5", "testapp6", "testapp7", "testscriptapp1", "testscriptapp2" ]
modtestapps.each { testapp ->
def testappCapital = testapp.capitalize()
def copyTestAppTask = task("copy${testappCapital}", type: Copy) {
from project.sourceSets."${testapp}".java.outputDir
from project.sourceSets."${testapp}".output.resourcesDir
into "${project.buildDir}/modules/${testapp}"
}
def List<String> testAppSourceDirs = []
project.sourceSets."${testapp}".java.srcDirs.each { dir ->
testAppSourceDirs += dir
}
def testappCompileTasks = project.getTasksByName("compile${testappCapital}Java", true);
def testappResourceTasks = project.getTasksByName("process${testappCapital}Resources", true);
testappCompileTasks.each { appCompileTask ->
appCompileTask.options.compilerArgs.addAll([
'-implicit:none',
'--module-source-path', testAppSourceDirs.join(File.pathSeparator),
] )
if (project.hasProperty('testModulePathArgs')) {
appCompileTask.options.compilerArgs.addAll(testModulePathArgs)
}
dependentProjects.each { e ->
appCompileTask.dependsOn(rootProject.project(e).testClasses)
}
copyTestAppTask.dependsOn(appCompileTask)
}
testappResourceTasks.each { appResourceTask ->
copyTestAppTask.dependsOn(appResourceTask)
}
createTestApps.dependsOn(copyTestAppTask)
}
test {
enabled = IS_FULL_TEST
// Parse testPatchModuleArgs looking for "--module-path".
// Save path if found so we can pass it to the module launcher tests
def pendingModulePath = false
testPatchModuleArgs.each { str ->
if (pendingModulePath) {
project.ext.launcherModulePath = str;
pendingModulePath = false
} else if (str == "--module-path") {
pendingModulePath = true
}
}
// Properties passed to launcher tests
systemProperty "launchertest.testapp1.jar", "build/testapp1/$testapp1JarName"
modtestapps.each { testapp ->
systemProperty "launchertest.${testapp}.module.path",
"${project.buildDir}/modules/${testapp}"
}
// Properties passed to test.util.Util
systemProperties 'worker.debug': IS_WORKER_DEBUG
systemProperties 'worker.patchmodule.file': cygpath(stRunArgsFile.path)
if (project.hasProperty("launcherModulePath")) {
systemProperties 'worker.module.path': launcherModulePath
}
systemProperties 'worker.patch.policy': cygpath(testJavaPolicyFile.path)
systemProperties 'worker.java.cmd': JAVA
if (rootProject.hasProperty("ClipShapeTest.numTests")) {
systemProperty "ClipShapeTest.numTests", rootProject.getProperty("ClipShapeTest.numTests")
}
systemProperty 'java.security.manager', 'allow'
if (!IS_USE_ROBOT) {
// Disable all robot-based visual tests
exclude("test/robot/**");
}
if (!IS_UNSTABLE_TEST) {
// JDK-8196607 Don't run monocle test cases
exclude("test/robot/com/sun/glass/ui/monocle/**");
}
if (!IS_AWT_TEST) {
// Disable all AWT-based tests
exclude("**/javafx/embed/swing/*.*");
exclude("**/com/sun/javafx/application/Swing*.*");
}
forkEvery = 1
}
addValidateSourceSets(project, nonModSrcSets, modSrcSets)
}
allprojects {
// The following block is a workaround for the fact that presently Gradle
// can't set the -XDignore.symbol.file flag, because it appears that the
// javac API is lacking support for it. So what we'll do is find any Compile
// task and manually provide the options necessary to fire up the
// compiler with the right settings.
tasks.withType(JavaCompile) { compile ->
if (compile.options.hasProperty("useAnt")) {
compile.options.useAnt = true
compile.options.useDepend = IS_USE_DEPEND
} else if (compile.options.hasProperty("incremental")) {
compile.options.incremental = IS_INCREMENTAL
}
if (project.hasProperty('skipJavaCompilerOptionRelease') &&
project.ext.skipJavaCompilerOptionRelease) {
logger.info "Using 'javac -source/-target' for ${compile}"
} else {
compile.options.release = JAVA_TARGET_VERSION
}
compile.options.debug = true // we always generate debugging info in the class files
compile.options.debugOptions.debugLevel = IS_DEBUG_JAVA ? "source,lines,vars" : "source,lines"
compile.options.fork = true
compile.options.forkOptions.executable = JAVAC
compile.options.warnings = IS_LINT
compile.options.compilerArgs += ["-XDignore.symbol.file", "-encoding", "UTF-8"]
// we use a custom javadoc command
project.javadoc.enabled = false
// Add in the -Xlint options
if (IS_LINT) {
LINT.split("[, ]").each { s ->
compile.options.compilerArgs += "-Xlint:$s"
}
}
} // tasks with javaCompile
// If I am a module....
if (project.hasProperty('moduleSourcePath') &&
(project.hasProperty('buildModule') && project.buildModule)) {
project.compileJava {
options.compilerArgs.addAll([
'-implicit:none',
'--module-version', "$RELEASE_VERSION_SHORT",
'--module-source-path', project.moduleSourcePath
])
}
// no jars needed for modules
project.jar.enabled = false
// and redirect the resources into the module
project.sourceSets.main.output.resourcesDir = project.moduleDir
project.processResources.destinationDir = project.moduleDir
}
if (project.hasProperty('moduleSourcePathShim') &&
project.sourceSets.hasProperty('shims')) {
// sync up the obvious source directories with the shims
// others (like the shaders in graphics) should be added in there
project.sourceSets.shims.java.srcDirs += project.sourceSets.main.java.srcDirs
project.sourceSets.shims.java.srcDirs += "$buildDir/gensrc/java"
project.compileShimsJava {
options.compilerArgs.addAll([
'-implicit:none',
'--module-version', "$RELEASE_VERSION_SHORT",
'--module-source-path', project.moduleSourcePathShim
])
}
project.compileShimsJava.dependsOn(project.compileJava)
def copyGeneratedShimsTask = task("copyGeneratedShims", type: Copy, dependsOn: [compileShimsJava, processShimsResources]) {
from project.sourceSets.shims.java.outputDir
into "${rootProject.buildDir}/shims"
if (HAS_JAVAFX_MODULES) {
exclude("*/module-info.class")
}
}
project.processShimsResources.dependsOn(project.processResources)
// shims resources should have the main resouces as a base
project.sourceSets.shims.resources.srcDirs += project.sourceSets.main.resources.srcDirs
// and redirect the resources into the module
project.sourceSets.shims.output.resourcesDir = project.moduleShimsDir
project.processShimsResources.destinationDir = project.moduleShimsDir
compileTestJava.dependsOn(copyGeneratedShimsTask)
}
if (project.hasProperty('modulePathArgs')) {
project.compileJava.options.compilerArgs.addAll(modulePathArgs)
}
if (project.hasProperty('testModulePathArgs')) {
project.compileTestJava.options.compilerArgs.addAll(testModulePathArgs)
}
if (project.hasProperty('testPatchModuleArgs')) {
project.test.jvmArgs += testPatchModuleArgs
}
/* Note: we should not have to add extraAddExports to the normal
* modular compile, as it contains all of the module-info files.
* In fact doing so might cover up a module-info issue.
* so we don't do it, and I will leave this commented out
* block as a reminder of this fact.
if (project.hasProperty('extraAddExports')) {
project.compileJava.options.compilerArgs.addAll(extraAddExports);
}
*/
if (project.hasProperty('testAddExports')) {
project.compileTestJava.options.compilerArgs.addAll(testAddExports);
project.test.jvmArgs += testAddExports
}
if (rootProject.hasProperty("EXTRA_TEST_ARGS") && project.hasProperty('test')) {
EXTRA_TEST_ARGS.split(' ').each() { e ->
project.test.jvmArgs += e
}
}
if (rootProject.hasProperty("EXTRA_COMPILE_ARGS") && project.hasProperty('compileJava')) {
project.compileJava.options.compilerArgs.addAll(EXTRA_COMPILE_ARGS.split(' '))
}
if (rootProject.hasProperty("EXTRA_COMPILE_ARGS") && project.hasProperty('compileTestJava')) {
project.compileTestJava.options.compilerArgs.addAll(EXTRA_COMPILE_ARGS.split(' '))
}
}
/******************************************************************************
* *
* Top Level Tasks *
* *
* These are the tasks which are defined only for the top level project and *
* not for any sub projects. These are generally the entry point that is *
* used by Hudson and by the continuous build system. *
* *
*****************************************************************************/
task clean() {
group = "Basic"
description = "Deletes the build directory and the build directory of all sub projects"
getSubprojects().each { subProject ->
dependsOn(subProject.getTasksByName("clean", true));
}
doLast {
delete(buildDir);
}
}
task cleanAll() {
group = "Basic"
description = "Scrubs the repo of build artifacts"
dependsOn(clean)
doLast {
//delete(".gradle"); This causes problems on windows.
delete("buildSrc/build");
}
}
task createMSPfile() {
group = "Build"
File mspFile = new File(rootProject.buildDir,MODULESOURCEPATH)
outputs.file(mspFile)
doLast {
mspFile.delete()
mspFile << "--module-source-path\n"
mspFile << defaultModuleSourcePath
mspFile << "\n"
}
}
task javadoc(type: Javadoc, dependsOn: createMSPfile) {
group = "Basic"
description = "Generates the JavaDoc for all the public API"
executable = JAVADOC
def projectsToDocument = [
project(":base"), project(":graphics"), project(":controls"), project(":media"),
project(":swing"), /*project(":swt"),*/ project(":fxml"), project(":web")]
source(projectsToDocument.collect({
[it.sourceSets.main.java]
}));
setDestinationDir(new File(buildDir, 'javadoc'));
exclude("com/**/*", "Compile*", "javafx/builder/**/*", "javafx/scene/accessibility/**/*");
options.tags("apiNote:a:API Note:")
options.tags("implSpec:a:Implementation Requirements:")
options.tags("implNote:a:Implementation Note:")
options.tags("param")
options.tags("return")
options.tags("throws")
options.tags("moduleGraph:X")
options.tags("since")
options.tags("version")
options.tags("serialData")
options.tags("factory")
options.tags("see")
options.windowTitle("${javadocTitle}")
options.header("${javadocHeader}")
options.bottom("${javadocBottom}")
options.locale("en");
if (JDK_DOCS_LINK != "") {
options.linksOffline(JDK_DOCS, JDK_DOCS_LINK);
} else {
options.links(JDK_DOCS);
}
options.addBooleanOption("XDignore.symbol.file").setValue(true);
options.addBooleanOption("Xdoclint:${DOC_LINT}").setValue(IS_DOC_LINT);
options.addBooleanOption("html5").setValue(true);
options.addBooleanOption("javafx").setValue(true);
options.addBooleanOption("use").setValue(true);
// Suppress generating overridden methods with no additional documentation
// The leading '-' is necessary, since this option starts with '--' and gradle adds '-' when passing an option to javadoc
options.addBooleanOption("-override-methods=summary").setValue(true);
options.setOptionFiles([
new File(rootProject.buildDir,MODULESOURCEPATH)
]);
doLast {
projectsToDocument.each { p ->
def destDir = "$buildDir/javadoc/${p.ext.moduleName}"
copy {
from("$p.projectDir/src/main/docs") {
include "**/*.html"
filter { line->
line = line.replace("@FXVERSION@", RELEASE_VERSION)
}
}
from("$p.projectDir/src/main/docs") {
exclude "**/*.html"
}
into destDir
}
}
}
dependsOn(projectsToDocument.collect { project -> project.getTasksByName("classes", true)});
}
task sdk() {
if (DO_BUILD_SDK_FOR_TEST) {
rootProject.getTasksByName("test", true).each { t ->
if (t.enabled) t.dependsOn(sdk)
}
}
}
task jmods() {
dependsOn(sdk)
// real work items added later.
}
task appsjar() {
dependsOn(sdk)
// Note: the jar dependencies get added elsewhere see project(":apps")
}
// these are empty tasks, allowing us to depend on the task, which may have other
// real work items added later.
task copyAppsArtifacts() {
dependsOn(appsjar)
}
task apps() {
dependsOn(sdk)
dependsOn(appsjar)
dependsOn(copyAppsArtifacts)
}
task findbugs() {
dependsOn(sdk)
doLast {
if (!BUILD_CLOSED) {
println "findbugs task is only run for a closed build"
}
}
}
// create the zip file of modules for a JDK build
task jdkZip {
dependsOn(sdk)
}
// The following tasks are for the closed build only. They are a no-op for the open build
task checkCache() {
dependsOn(updateCacheIfNeeded)
}
task publicExports() {
dependsOn(sdk, jmods, apps, javadoc, jdkZip)
// note the real work is below in the compileTargets
}
task perf() {
dependsOn(sdk, apps)
doLast {
if (!BUILD_CLOSED) {
println "perf task is only run for a closed build"
}
}
}
task zips() {
dependsOn(sdk, jmods, javadoc, apps, jdkZip, publicExports, perf)
// note the real work is below in the compileTargets
}
task all() {
dependsOn(sdk,publicExports,apps,perf,zips)
}
// Construct list of subprojects that are modules
ext.moduleProjList = []
subprojects {
if (project.hasProperty("buildModule") && project.ext.buildModule) {
rootProject.ext.moduleProjList += project
println "module: $project (buildModule=YES)"
} else {
println "module: $project (buildModule=NO)"
}
}
// Define the sdk task, which also produces the javafx.swt modular jar
compileTargets { t ->
def javafxSwtTask = task("javafxSwt$t.capital", type: Jar) {
enabled = COMPILE_SWT
group = "Basic"
description = "Creates the javafx-swt.jar for the $t.name target"
destinationDirectory = file("${project(":swt").buildDir}/libs")
archiveFileName = "javafx-swt.jar"
includeEmptyDirs = false
from("${project(":swt").buildDir}/classes/java/main");
include("**/javafx/embed/swt/**")
dependsOn(
project(":swt").compileJava,
project(":swt").processResources,
// note: assemble and classes are not enough for DidWork
project(":swt").classes,
// classes is needed for a jar copy
)
}
// FIXME: do we really need the index task for this modular jar?
def javafxSwtIndexTask = task("javafxSwtIndex$t.capital") {
//the following is a workaround for the lack of indexing in gradle 1.4 through 1.7
dependsOn(javafxSwtTask)
doLast() {
def destDir = javafxSwtTask.destinationDirectory.get()
def afName = javafxSwtTask.archiveFileName.get()
ant.jar (update: true, index: true, destfile: "${destDir}/${afName}")
}
}
def sdkTask = task("sdk$t.capital") {
group = "Basic"
dependsOn(javafxSwtIndexTask)
}
sdk.dependsOn(sdkTask)
}
project(":apps") {
// The apps build is Ant based, we will exec ant from gradle.
// Download the Lucene libraries needed for the Ensemble8 app
def luceneVersion = "7.7.3"
getConfigurations().create("lucene");
dependencies {
lucene group: "org.apache.lucene", name: "lucene-core", version: luceneVersion
lucene group: "org.apache.lucene", name: "lucene-grouping", version: luceneVersion
lucene group: "org.apache.lucene", name: "lucene-queryparser", version: luceneVersion
}
// Copy Lucene libraries into the Ensemble8/lib directory
File ensembleLibDir = rootProject.file("apps/samples/Ensemble8/lib");
def libNames = [ "lucene-core-${luceneVersion}.jar",
"lucene-grouping-${luceneVersion}.jar",
"lucene-queryparser-${luceneVersion}.jar" ]
task getLucene(type: Copy) {
doFirst {
ensembleLibDir.mkdirs();
}
into ensembleLibDir
includeEmptyDirs = false
configurations.lucene.files.each { f ->
libNames.each { name ->
if (name == f.getName()) {
from f.getPath()
}
}
}
}
compileTargets { t ->
List<String> params = []
params << "-DtargetBld=$t.name"
if (!rootProject.ext[t.upper].compileSwing) {
params << "-DJFX_CORE_ONLY=true"
}
params << "-Dplatforms.JDK_1.9.home=${rootProject.ext.JDK_HOME}"
params << "-Dcompile.patch=@${rootProject.buildDir}/${COMPILEARGSFILE}"
params << "-Drun.patch=@${rootProject.buildDir}/${RUNARGSFILE}"
def appsJar = project.task("appsJar${t.capital}") {
dependsOn(sdk, getLucene)
doLast() {
ant(t.name,
projectDir.path,
"appsJar",
params);
}
}
rootProject.appsjar.dependsOn(appsJar)
def appsClean = project.task("clean${t.capital}") {
doLast() {
ant(t.name,
project.projectDir.path,
"clean",
params);
delete(ensembleLibDir);
}
}
rootProject.clean.dependsOn(appsClean)
}
}
// Tasks to create the disk layout for the sdk, jmods, and docs
// in the artifacts directory (publicExports), and zip them up in
// artifacts/bundles (zips)
// These tasks are only used for the standalone SDK.
compileTargets { t ->
if (!HAS_JAVAFX_MODULES) {
def targetProperties = rootProject.ext[t.upper]
def platformPrefix = targetProperties.platformPrefix
def artifactsDir = "${rootProject.buildDir}/artifacts"
def bundlesDir = "${artifactsDir}/bundles"
def sdkDirName = "${platformPrefix}sdk"
def sdkDir = "${rootProject.buildDir}/${sdkDirName}"
def sdkBundleName = "javafx-sdk-${RELEASE_VERSION}"
def sdkArtifactsDir = "${artifactsDir}/${sdkBundleName}"
def docsDirName = "javadoc"
def docsDir = "${rootProject.buildDir}/${docsDirName}"
def docsBundleName = "javafx-docs-${RELEASE_VERSION}"
def docsArtifactsDir = "${artifactsDir}/${docsBundleName}"
def jmodsDirName = "jmods"
def jmodsDir = "${rootProject.buildDir}/${jmodsDirName}"
def jmodsBundleName = "javafx-jmods-${RELEASE_VERSION}"
def jmodsArtifactsDir = "${artifactsDir}/${jmodsBundleName}"
def publicExportsTask = task ("publicExportsStandalone${t.capital}") {
group = "Basic"
description = "Creates the disk layout for sdk, jmods, and docs"
}
publicExports.dependsOn(publicExportsTask)
def copyArtifactsSdkTask = task("copyArtifactsSdk$t.capital", type: Copy, dependsOn: [sdk,jmods,apps,javadoc]) {
from sdkDir
into sdkArtifactsDir
}
publicExportsTask.dependsOn(copyArtifactsSdkTask)
// Need to modify file permissions Windows to make sure that the
// execute bit is set, and that the files are world readable
def chmodArtifactsSdkTask = task("chmodArtifactsSdk$t.capital", dependsOn: copyArtifactsSdkTask) {
if (IS_WINDOWS && IS_USE_CYGWIN) {
doLast {
exec {
workingDir(sdkArtifactsDir)
commandLine("chmod", "-R", "755", ".")
}
}
}
}
publicExportsTask.dependsOn(chmodArtifactsSdkTask)
def copyArtifactsDocsTask = task("copyArtifactsDocs$t.capital", type: Copy, dependsOn: chmodArtifactsSdkTask) {
from docsDir
into "${docsArtifactsDir}/api"
}
publicExportsTask.dependsOn(copyArtifactsDocsTask)
def copyArtifactsJmodsTask = task("copyArtifactsJmods$t.capital", type: Copy, dependsOn: copyArtifactsDocsTask) {
from jmodsDir
into "${jmodsArtifactsDir}"
}
publicExportsTask.dependsOn(copyArtifactsJmodsTask)
def zipsTask = task ("zipsStandalone${t.capital}") {
group = "Basic"
description = "Creates the public zip bundles"
}
zips.dependsOn(zipsTask)
// Use native zip tool so that file permissions are preserved on Windows
def zipSdkTask = task("zipSdk$t.capital", dependsOn: publicExportsTask) {
doLast {
def outZipFile = "${bundlesDir}/${sdkBundleName}.zip"
mkdir bundlesDir
exec {
workingDir(artifactsDir)
commandLine("zip", "-q", "-r", outZipFile, sdkBundleName)
}
}
}
zipsTask.dependsOn(zipSdkTask)
def zipDocsTask = task("zipDocs$t.capital", type: Zip, dependsOn: zipSdkTask) {
destinationDirectory = file("${bundlesDir}")
archiveFileName = "${docsBundleName}.zip"
includeEmptyDirs = false
from docsArtifactsDir
into "${docsBundleName}"
}
zipsTask.dependsOn(zipDocsTask)
def zipJmodsTask = task("zipJmods$t.capital", type: Zip, dependsOn: zipDocsTask) {
destinationDirectory = file("${bundlesDir}")
archiveFileName = "${jmodsBundleName}.zip"
includeEmptyDirs = false
from jmodsArtifactsDir
into "${jmodsBundleName}"
}
zipsTask.dependsOn(zipJmodsTask)
}
}
/******************************************************************************
* *
* OpenJFX Stubs *
* *
*****************************************************************************/
configurations {
openjfxStubs
}
if (IS_STUB_RUNTIME_OPENJFX) {
def String platform = IS_MAC ? "mac" : IS_WINDOWS ? "win" : IS_LINUX ? "linux" : ""
dependencies {
openjfxStubs "org.openjfx:javafx-media:$STUB_RUNTIME_OPENJFX:$platform@jar"
openjfxStubs "org.openjfx:javafx-web:$STUB_RUNTIME_OPENJFX:$platform@jar"
}
}
// Extract binary libraries from OpenJFX artifacts for use as stubs
task prepOpenJfxStubs(type: Copy) {
enabled = IS_STUB_RUNTIME_OPENJFX
from configurations.openjfxStubs.files.collect { zipTree(it) }
include("*.dll")
include("*.dylib")
include("*.so")
into IS_WINDOWS ? file("$openjfxStubRuntime/bin") : file("$openjfxStubRuntime/lib")
}
/******************************************************************************
* *
* Modules *
* *
*****************************************************************************/
ext.moduleDependencies = [file("dependencies")]
task buildModules {
}
// Combine the classes, lib, and bin for each module
compileTargets { t ->
def targetProperties = project.ext[t.upper]
def platformPrefix = targetProperties.platformPrefix
def bundledSdkDirName = "${platformPrefix}modular-sdk"
def bundledSdkDir = "${rootProject.buildDir}/${bundledSdkDirName}"
def modulesDir = "${bundledSdkDir}/modules"
def modulesCmdsDir = "${bundledSdkDir}/modules_cmds"
def modulesLibsDir = "${bundledSdkDir}/modules_libs"
def modulesSrcDir = "${bundledSdkDir}/modules_src"
def modulesConfDir = "${bundledSdkDir}/modules_conf"
def modulesLegalDir = "${bundledSdkDir}/modules_legal"
def modulesMakeDir = "${bundledSdkDir}/make"
final File runArgsFile = file("${rootProject.buildDir}/${RUNARGSFILE}")
final File compileArgsFile = file("${rootProject.buildDir}/${COMPILEARGSFILE}")
project.files(runArgsFile);
def buildModulesTask = task("buildModules$t.capital", group: "Build") {
// BUNDLED SDK
// Copy dependencies/*/module-info.java.extra
// merging as needed, removing duplicates
// only lines with 'exports' will be copied
def dependencyRoots = moduleDependencies
if (rootProject.hasProperty("closedModuleDepedencies")) {
dependencyRoots = [dependencyRoots, closedModuleDepedencies].flatten()
}
// Create the inputs/outputs list first to support UP-TO-DATE
ArrayList outputNames = new ArrayList()
dependencyRoots.each { root ->
FileTree ft = fileTree(root).include('**/*.extra')
ft.each() { e->
inputs.file(e)
String usename = e.path
String filePath = e.getAbsolutePath()
String folderPath = root.getAbsolutePath()
if (filePath.startsWith(folderPath)) {
usename = filePath.substring(folderPath.length() + 1);
}
if (! outputNames.contains(usename) ) {
outputNames.add(usename)
}
}
}
outputNames.each() { e->
File f = new File(modulesSrcDir, e)
outputs.file(f)
}
def outputPolicyDir = "${modulesConfDir}/java.base/security"
def outputPolicyFile = file("${outputPolicyDir}/java.policy.extra")
outputs.file(outputPolicyFile)
moduleProjList.each { project ->
def policyDir = "${project.projectDir}/src/main/conf/security"
def policyFile = file("${policyDir}/java.policy")
if (policyFile.exists()) {
inputs.file(policyFile)
}
}
doLast {
Map extras = [:]
dependencyRoots.each { root ->
FileTree ft = fileTree(root).include('**/*.extra')
ft.each() { e->
String usename = e.path
String filePath = e.getAbsolutePath()
String folderPath = root.getAbsolutePath()
if (filePath.startsWith(folderPath)) {
usename = filePath.substring(folderPath.length() + 1);
}
if (extras.containsKey(usename)) {
List<String> lines = extras.get(usename)
e.eachLine { line ->
line = line.trim()
if (line.length() > 1 && Character.isLetter(line.charAt(0))) {
lines << line
}
}
} else {
List<String> lines = []
e.eachLine { line ->
line = line.trim()
if (line.length() > 1 && Character.isLetter(line.charAt(0))) {
lines << line
}
}
extras.put(usename,lines)
}
}
}
extras.keySet().each() { e->
File f = new File(modulesSrcDir, e)
f.getParentFile().mkdirs()
f.delete()
extras.get(e).unique().each() { l->
f << l
f << "\n"
}
}
// concatecate java.policy files into a single file
//
mkdir outputPolicyDir
outputPolicyFile.delete()
moduleProjList.each { project ->
def policyDir = "${project.projectDir}/src/main/conf/security"
def policyFile = file("${policyDir}/java.policy")
if (policyFile.exists()) outputPolicyFile << policyFile.text
}
}
}
buildModules.dependsOn(buildModulesTask)
// BUNDLED SDK
moduleProjList.each { project ->
// Copy classes, bin, and lib directories
def moduleName = project.ext.moduleName
def buildDir = project.buildDir
def srcClassesDir = "${buildDir}/${platformPrefix}module-classes"
def dstClassesDir = "${modulesDir}/${moduleName}"
def copyClassFilesTask = project.task("copyClassFiles$t.capital", type: Copy, dependsOn: project.assemble) {
from srcClassesDir
into dstClassesDir
exclude("module-info.class")
}
def srcCmdsDir = "${buildDir}/${platformPrefix}module-bin"
def dstCmdsDir = "${modulesCmdsDir}/${moduleName}"
def copyBinFilesTask = project.task("copyBinFiles$t.capital", type: Copy, dependsOn: copyClassFilesTask) {
from srcCmdsDir
into dstCmdsDir
}
def srcLibsDir = "${buildDir}/${platformPrefix}module-lib"
def dstLibsDir = "${modulesLibsDir}/${moduleName}"
def copyLibFilesTask = project.task("copyLibFiles$t.capital", type: Copy, dependsOn: copyBinFilesTask) {
from srcLibsDir
into dstLibsDir
}
// Copy module sources
// FIXME: javafx.swt sources?
def copySources = project.hasProperty("includeSources") && project.includeSources
def copySourceFilesTask = project.task("copySourceFiles$t.capital", type: Copy, dependsOn: copyLibFilesTask) {
if (copySources) {
from "${project.projectDir}/src/main/java"
if (project.name.equals("base")) {
from "${project.projectDir}/build/gensrc/java"
}
if (project.name.equals("web")) {
from "${project.projectDir}/src/main/native/Source/WebCore/bindings/java/dom3/java"
}
} else {
from "${project.projectDir}/src/main/java/module-info.java"
}
into "${modulesSrcDir}/${moduleName}"
include "**/*.java"
if (project.hasProperty("sourceFilter")) {
filter(project.sourceFilter)
}
}
// Copy .html and other files needed for doc bundles
def copyDocFiles = project.task("copyDocFiles$t.capital", type: Copy, dependsOn: copySourceFilesTask) {
if (copySources) {
from("${project.projectDir}/src/main/docs") {
include "**/*.html"
filter { line->
line = line.replace("@FXVERSION@", RELEASE_VERSION)
}
}
from("${project.projectDir}/src/main/docs") {
exclude "**/*.html"
}
from("${project.projectDir}/src/main/java") {
exclude "**/*.java"
}
into "${modulesSrcDir}/${moduleName}"
}
}
// Copy make/build.properties
def srcMakeDir = "${project.projectDir}/make"
def dstMakeDir = "${modulesMakeDir}/${moduleName}"
def copyBuildPropertiesTask = project.task("copyBuildProperties$t.capital", type: Copy, dependsOn: copyDocFiles) {
from srcMakeDir
into dstMakeDir
}
// Copy legal files
def srcLegalDir = "${project.projectDir}/src/main/legal"
def dstLegalDir = "${modulesLegalDir}/${moduleName}"
def copyLegalTask = project.task("copyLegal$t.capital", type: Copy, dependsOn: copyBuildPropertiesTask) {
from srcLegalDir
into dstLegalDir
// Exclude ANGLE since we (currently) do not use it
exclude("angle.md")
}
buildModulesTask.dependsOn(
copyClassFilesTask,
copyLibFilesTask,
copySourceFilesTask,
copyDocFiles,
copyBuildPropertiesTask,
copyLegalTask)
}
// ============================================================
def standaloneSdkDirName = "${platformPrefix}sdk"
def standaloneSdkDir = "${rootProject.buildDir}/${standaloneSdkDirName}"
def standaloneLibDir = "${standaloneSdkDir}/lib"
def libDest=targetProperties.libDest
def standaloneNativeDir = "${standaloneSdkDir}/${libDest}"
def standaloneLegalDir = "${standaloneSdkDir}/legal"
def standaloneSrcZipName = "src.zip"
// STANDALONE SDK
moduleProjList.each { project ->
// Copy classes, bin, and lib directories
def moduleName = project.ext.moduleName
def buildDir = project.buildDir
// Create modular jars
def srcClassesDir = "${buildDir}/${platformPrefix}module-classes"
def srcLibsDir = "${buildDir}/${platformPrefix}module-lib"
def dstModularJarDir = "${standaloneLibDir}"
def modularJarName = "${moduleName}.jar"
def modularJarTask = project.task("modularJarStandalone$t.capital", type: Jar, dependsOn: project.assemble) {
destinationDirectory = file("${dstModularJarDir}")
archiveFileName = modularJarName
includeEmptyDirs = false
from srcClassesDir
}
// Copy native libraries
def srcNativeDir = "${buildDir}/${platformPrefix}module-lib"
def dstNativeDir = "${standaloneNativeDir}"
def copyNativeFilesTask = project.task("copyNativeFilesStandalone$t.capital", type: Copy, dependsOn: modularJarTask) {
from srcNativeDir
into dstNativeDir
include("*.dll")
}
// Copy other lib files
def dstLibsDir = "${standaloneLibDir}"
def copyLibFilesTask = project.task("copyLibFilesStandalone$t.capital", type: Copy, dependsOn: copyNativeFilesTask) {
from srcLibsDir
into dstLibsDir
exclude("*.dll")
}
// Copy legal files
def licenseFiles = [ "ADDITIONAL_LICENSE_INFO", "ASSEMBLY_EXCEPTION", "LICENSE" ]
def srcLegalDir = "${project.projectDir}/src/main/legal"
def dstLegalDir = "${standaloneLegalDir}/${moduleName}"
def copyLegalTask = project.task("copyLegalStandalone$t.capital", type: Copy, dependsOn: copyLibFilesTask) {
def rtDir = rootProject.file('.')
licenseFiles.each { lFile ->
from "${rtDir}/${lFile}"
}
from srcLegalDir
into dstLegalDir
// Exclude ANGLE since we (currently) do not use it
exclude("angle.md")
}
buildModulesTask.dependsOn(
modularJarTask,
copyNativeFilesTask,
copyLibFilesTask,
copyLegalTask)
}
// Zip module sources for standalone SDK
//
// NOTE: the input is taken from the modular-sdk/modules_src dir
// so that we don't have to duplicate the logic and create another
// temporary directory. This is somewhat inelegant, since the bundled sdk
// and the standalone sdk should be independent of one another, but seems
// better than the alternatives.
def zipSourceFilesTask = project.task("zipSourceFilesStandalone$t.capital", type: Zip, dependsOn: buildModulesTask) {
destinationDirectory = file("${standaloneSdkDir}")
archiveFileName = standaloneSrcZipName
includeEmptyDirs = false
from modulesSrcDir
include "**/*.java"
}
buildModules.dependsOn(zipSourceFilesTask)
// ============================================================
// Maven Publications
def publicationDirName = "${platformPrefix}publications"
def publicationDir = "${rootProject.buildDir}/${publicationDirName}"
moduleProjList.each { project ->
// Create publications to be uploaded
def moduleName = project.ext.moduleName
def buildDir = project.buildDir
def dstModularJarDir="${publicationDir}"
def srcClassesDir = "${buildDir}/${platformPrefix}module-classes"
def srcLibsDir = "${buildDir}/${platformPrefix}module-lib"
def modularEmptyPublicationJarName = "${moduleName}.jar"
def modularEmptyPublicationJarTask = project.task("moduleEmptyPublicationJar${t.capital}", type: Jar) {
destinationDirectory = file("${dstModularJarDir}")
archiveFileName = modularEmptyPublicationJarName
manifest {
attributes(
'Automatic-Module-Name':"${moduleName}Empty"
)
}
}
def modularPublicationJarName = "${moduleName}-${t.name}.jar"
def modularPublicationJarTask = project.task("modularPublicationJar${t.capital}", type: Jar, dependsOn: modularEmptyPublicationJarTask) {
destinationDirectory = file("${dstModularJarDir}")
archiveFileName = modularPublicationJarName
from srcLibsDir
from srcClassesDir
}
buildModulesTask.dependsOn(modularPublicationJarTask)
}
// ============================================================
def buildRunArgsTask = task("buildRunArgs$t.capital",
group: "Build", dependsOn: buildModulesTask) {
outputs.file(runArgsFile);
inputs.file(EXTRAADDEXPORTS);
doLast() {
List<String>modpath = []
List<String>modnames = []
moduleProjList.each { project ->
def moduleName = project.ext.moduleName
def dstModuleDir = cygpath("${modulesDir}/${moduleName}")
if (HAS_JAVAFX_MODULES) {
modpath << "${moduleName}=${dstModuleDir}"
} else {
modnames << moduleName
}
}
if (HAS_JAVAFX_MODULES) {
writeRunArgsFile(runArgsFile, computeLibraryPath(true), modpath, null)
writeRunArgsFile(compileArgsFile, null, modpath, null)
if (rootProject.hasProperty("EXTRA_ADDEXPORTS_STRING")) {
runArgsFile << EXTRA_ADDEXPORTS_STRING
compileArgsFile << EXTRA_ADDEXPORTS_STRING
}
} else {
modpath = [ cygpath("${standaloneLibDir}") ]
writeRunArgsFile(runArgsFile, null, modpath, modnames)
writeRunArgsFile(compileArgsFile, null, modpath, modnames)
}
}
}
buildModules.dependsOn(buildRunArgsTask)
def isWindows = IS_WINDOWS && t.name == "win";
def isMac = IS_MAC && t.name == "mac";
// Create layout for modular classes
moduleProjList.each { project ->
def buildModuleClassesTask = project.task("buildModule$t.capital", group: "Build", type: Copy) {
dependsOn(project.assemble)
def buildDir = project.buildDir
def sourceBuildDirs = [
"${buildDir}/classes/java/main/${project.moduleName}",
]
def moduleClassesDir = "$buildDir/${platformPrefix}module-classes"
includeEmptyDirs = false
sourceBuildDirs.each { d ->
from d
}
into moduleClassesDir
// Exclude obsolete, experimental, or non-shipping code
exclude("version.rc")
exclude("com/sun/glass/ui/swt")
exclude("com/sun/javafx/tools/ant")
exclude("com/javafx/main")
exclude("com/sun/javafx/webkit/drt")
if (!IS_INCLUDE_NULL3D) {
exclude ("com/sun/prism/null3d")
}
if (!IS_INCLUDE_ES2) {
exclude("com/sun/prism/es2",
"com/sun/scenario/effect/impl/es2")
}
// Exclude platform-specific classes for other platforms
if (!isMac) {
exclude ("com/sun/media/jfxmediaimpl/platform/osx",
"com/sun/prism/es2/MacGL*",
"com/sun/glass/events/mac",
"com/sun/glass/ui/mac",
)
}
if (!isWindows) {
exclude ("**/*.hlsl",
"com/sun/glass/ui/win",
"com/sun/prism/d3d",
"com/sun/prism/es2/WinGL*",
"com/sun/scenario/effect/impl/hw/d3d"
)
}
if (!targetProperties.includeGTK) { //usually IS_LINUX
exclude (
"com/sun/glass/ui/gtk",
"com/sun/prism/es2/EGL*",
"com/sun/prism/es2/X11GL*"
)
}
if (!targetProperties.includeEGL) {
exclude ("com/sun/prism/es2/EGL*")
}
if (!targetProperties.includeMonocle) {
exclude ("com/sun/glass/ui/monocle")
exclude("com/sun/prism/es2/Monocle*")
}
if (t.name != 'ios') {
exclude ("com/sun/media/jfxmediaimpl/platform/ios",
"com/sun/glass/ui/ios",
"com/sun/prism/es2/IOS*"
)
}
if (t.name != 'android' && t.name != 'dalvik') {
exclude ("com/sun/glass/ui/android")
}
// Filter out other platform-specific classes
if (targetProperties.containsKey('jfxrtJarExcludes')) {
exclude(targetProperties.jfxrtJarExcludes)
}
/* FIXME: JIGSAW -- handle this in the module itself
String webbld = project(":web").buildDir.path
String ctrlbld = project(":controls").buildDir.path
if (t.name == 'android') {
from ("${webbld}/classes/android",
"${webbld}/resources/android",
"${ctrlbld}/classes/android",
"${ctrlbld}/resources/android")
} else if (t.name == 'ios') {
from ("${webbld}/classes/ios",
"${webbld}/resources/ios")
} else {
from ("${webbld}/classes/java/main")
}
*/
}
buildModulesTask.dependsOn(buildModuleClassesTask)
}
def buildModuleLibsTask = task("buildModuleLibs$t.capital") {
group = "Basic"
def baseProject = project(":base");
def graphicsProject = project(":graphics");
def mediaProject = project(":media");
def webProject = project(":web");
dependsOn(webProject.assemble)
def swtProject = project(":swt");
def library = targetProperties.library
def doStrip = targetProperties.containsKey('strip') && IS_RELEASE
def strip = doStrip ? targetProperties.strip : null
def stripArgs = doStrip ? targetProperties.stripArgs : null
def doSign = rootProject.hasProperty('codeSignCmd') && IS_RELEASE
def signCmd = doSign ? rootProject.ext.codeSignCmd : null
def signArgs = doSign ? rootProject.ext.codeSignArgs : null
def useLipo = targetProperties.containsKey('useLipo') ? targetProperties.useLipo : false
def modLibDest = targetProperties.modLibDest
def moduleNativeDirName = "${platformPrefix}module-$modLibDest"
def buildModuleBaseTask = task("buildModuleBase$t.capital", dependsOn: baseProject.assemble) {
group = "Basic"
description = "creates javafx.base property files"
def moduleLibDir = "${baseProject.buildDir}/${platformPrefix}module-lib"
final File javafxProperties = file("${moduleLibDir}/javafx.properties")
outputs.file(javafxProperties)
if (targetProperties.containsKey("javafxPlatformProperties")) {
final File javafxPlatformProperties = file("${moduleLibDir}/javafx.platform.properties")
outputs.file(javafxPlatformProperties)
}
doLast {
mkdir moduleLibDir
javafxProperties.delete()
javafxProperties << "javafx.version=$RELEASE_VERSION_SHORT";
javafxProperties << "\n"
javafxProperties << "javafx.runtime.version=$RELEASE_VERSION_LONG";
javafxProperties << "\n"
javafxProperties << "javafx.runtime.build=$PROMOTED_BUILD_NUMBER";
javafxProperties << "\n"
// Include any properties that have been defined (most likely in
// one of the various platform gradle files)
if (targetProperties.containsKey("javafxProperties")) {
javafxProperties << targetProperties.javafxProperties
javafxProperties << "\n"
}
// Embedded builds define this file as well
if (targetProperties.containsKey("javafxPlatformProperties")) {
final File javafxPlatformProperties = file("${moduleLibDir}/javafx.platform.properties")
javafxPlatformProperties.delete()
javafxPlatformProperties << targetProperties.javafxPlatformProperties
javafxPlatformProperties << "\n"
}
}
}
def buildModuleGraphicsTask = task("buildModuleGraphics$t.capital", type: Copy, dependsOn: graphicsProject.assemble) {
group = "Basic"
description = "copies javafx.graphics native libraries"
def destDirName = "${graphicsProject.buildDir}/${moduleNativeDirName}"
into destDirName
from("${graphicsProject.buildDir}/libs/jsl-decora/${t.name}/${library(targetProperties.decora.lib)}")
def libs = ['font', 'prism', 'prismSW', 'glass', 'iio']
if (IS_INCLUDE_ES2) {
libs += ['prismES2'];
}
if (IS_COMPILE_PANGO) {
libs += ['fontFreetype', 'fontPango'];
}
libs.each { lib ->
def variants = targetProperties[lib].containsKey('variants') && !useLipo ? targetProperties[lib].variants : [null]
variants.each { variant ->
def variantProperties = variant ? targetProperties[lib][variant] : targetProperties[lib]
from ("${graphicsProject.buildDir}/libs/$lib/$t.name/${library(variantProperties.lib)}")
}
}
if (IS_WINDOWS) {
from ("${graphicsProject.buildDir}/libs/prismD3D/${t.name}/${library(targetProperties.prismD3D.lib)}");
targetProperties.VS2017DLLs.each { vslib ->
from ("$vslib");
}
targetProperties.WinSDKDLLs.each { winsdklib ->
from ("$winsdklib");
}
}
if (doStrip) {
doLast {
def inputFiles = fileTree(dir: destDirName)
inputFiles.include("*.dll")
inputFiles.include("*.dylib")
inputFiles.include("*.so")
// FIXME: if we ever need to strip on Windows platforms, we must
// exclude the Microsoft DLLs (VS2017DLLNames and WinSDKDLLNames)
inputFiles.each { file ->
exec {
def cmd = [ strip, stripArgs, file ].flatten()
commandLine(cmd)
}
}
}
}
if (doSign) {
doLast {
def inputFiles = fileTree(dir: destDirName)
inputFiles.include("*.dll")
inputFiles.include("*.dylib")
inputFiles.include("*.so")
// FIXME: if we ever need to sign on Windows platforms, we must
// exclude the Microsoft DLLs (VS2017DLLNames and WinSDKDLLNames)
inputFiles.each { file ->
exec {
def cmd = [ signCmd, signArgs, file ].flatten()
commandLine(cmd)
}
}
}
}
}
def buildModuleMediaTask = task("buildModuleMedia$t.capital", type: Copy, dependsOn: [mediaProject.assemble, prepOpenJfxStubs]) {
group = "Basic"
description = "copies javafx.media native libraries"
def destDirName = "${mediaProject.buildDir}/${moduleNativeDirName}"
into destDirName
def mediaBuildType = project(":media").ext.buildType
if (IS_COMPILE_MEDIA) {
[ "fxplugins", "gstreamer-lite", "jfxmedia" ].each { name ->
from ("${mediaProject.buildDir}/native/${t.name}/${mediaBuildType}/${library(name)}") }
if (t.name == "mac") {
// OSX media natives
[ "jfxmedia_qtkit", "jfxmedia_avf", "glib-lite" ].each { name ->
from ("${mediaProject.buildDir}/native/${t.name}/${mediaBuildType}/${library(name)}") }
} else if (t.name == "linux") {
from("${mediaProject.buildDir}/native/${t.name}/${mediaBuildType}") { include "libavplugin*.so" }
} else from ("${mediaProject.buildDir}/native/${t.name}/${mediaBuildType}/${library("glib-lite")}")
} else {
if (t.name != "android" && t.name != "dalvik" ) {
[ "fxplugins", "gstreamer-lite", "jfxmedia" ].each { name ->
from ("$MEDIA_STUB/${library(name)}") }
}
if (t.name == "mac") {
// copy libjfxmedia_{avf,qtkit}.dylib if they exist
[ "jfxmedia_qtkit", "jfxmedia_avf", "glib-lite" ].each { name ->
from ("$MEDIA_STUB/${library(name)}") }
} else if (t.name == "linux") {
from(MEDIA_STUB) { include "libavplugin*.so" }
}
else if (t.name != "android" && t.name != "dalvik" ) {
from ("$MEDIA_STUB/${library("glib-lite")}")
}
}
if (doStrip && IS_COMPILE_MEDIA) {
doLast {
def inputFiles = fileTree(dir: destDirName)
inputFiles.include("*.dll")
inputFiles.include("*.dylib")
inputFiles.include("*.so")
inputFiles.each { file ->
exec {
def cmd = [ strip, stripArgs, file ].flatten()
commandLine(cmd)
}
}
}
}
if (doSign && IS_COMPILE_MEDIA) {
doLast {
def inputFiles = fileTree(dir: destDirName)
inputFiles.include("*.dll")
inputFiles.include("*.dylib")
inputFiles.include("*.so")
// FIXME: if we ever need to sign on Windows platforms, we must
// exclude the Microsoft DLLs (VS2017DLLNames and WinSDKDLLNames)
inputFiles.each { file ->
exec {
def cmd = [ signCmd, signArgs, file ].flatten()
commandLine(cmd)
}
}
}
}
}
def buildModuleWeb = task("buildModuleWeb$t.capital", type: Copy, dependsOn: [webProject.assemble, prepOpenJfxStubs]) {
group = "Basic"
description = "copies javafx.web native libraries"
def destDirName = "${webProject.buildDir}/${moduleNativeDirName}"
into destDirName
if (IS_COMPILE_WEBKIT) {
from ("${webProject.buildDir}/libs/${t.name}/${library('jfxwebkit')}")
} else {
if (t.name != "android" && t.name != "ios" && t.name != "dalvik") {
from ("$WEB_STUB/${library('jfxwebkit')}")
}
}
if (doStrip && IS_COMPILE_WEBKIT) {
doLast {
def inputFiles = fileTree(dir: destDirName)
inputFiles.include("*.dll")
inputFiles.include("*.dylib")
inputFiles.include("*.so")
inputFiles.each { file ->
exec {
def cmd = [ strip, stripArgs, file ].flatten()
commandLine(cmd)
}
}
}
}
if (doSign && IS_COMPILE_WEBKIT) {
doLast {
def inputFiles = fileTree(dir: destDirName)
inputFiles.include("*.dll")
inputFiles.include("*.dylib")
inputFiles.include("*.so")
// FIXME: if we ever need to sign on Windows platforms, we must
// exclude the Microsoft DLLs (VS2017DLLNames and WinSDKDLLNames)
inputFiles.each { file ->
exec {
def cmd = [ signCmd, signArgs, file ].flatten()
commandLine(cmd)
}
}
}
}
}
def buildModuleSWT = task("buildModuleSWT$t.capital", type: Copy) {
group = "Basic"
description = "copies SWT JAR"
// FIXME: the following is a hack to workaround the fact that there
// is no way to deliver javafx-swt.jar other than in one of the
// existing runtime modules.
dependsOn(buildModuleGraphicsTask) // we copy to the graphics module
if (COMPILE_SWT) {
def javafxSwtIndexTask = tasks.getByName("javafxSwtIndex${t.capital}");
dependsOn(javafxSwtIndexTask)
//enabled = COMPILE_SWT
}
// Copy javafx-swt.jar to the javafx-graphics module lib dir
from "${swtProject.buildDir}/libs/javafx-swt.jar"
into "${graphicsProject.buildDir}/${platformPrefix}module-lib"
}
dependsOn(
buildModuleBaseTask,
buildModuleGraphicsTask,
buildModuleMediaTask,
buildModuleWeb,
buildModuleSWT,
)
}
buildModulesTask.dependsOn(buildModuleLibsTask)
def zipTask = project.task("buildModuleZip$t.capital", type: Zip, group: "Build",
dependsOn: buildModulesTask ) {
// FIXME: JIGSAW -- this should be moved to a sub-directory so we can keep the same name
def jfxBundle = "${platformPrefix}javafx-exports.zip"
doFirst() {
file("${rootProject.buildDir}/${jfxBundle}").delete()
}
archiveFileName = jfxBundle
destinationDirectory = file("${rootProject.buildDir}")
includeEmptyDirs = false
from "${bundledSdkDir}"
}
jdkZip.dependsOn(zipTask)
Task testArgFiles = task("createTestArgfiles${t.capital}") {
File testRunArgsFile = new File(rootProject.buildDir, TESTRUNARGSFILE)
//test (shimed) version
File testCompileArgsFile = new File(rootProject.buildDir, TESTCOMPILEARGSFILE)
// And a test java.policy file
File testJavaPolicyFile = new File(rootProject.buildDir, TESTJAVAPOLICYFILE)
// and the non-test version to go with run.args
File runJavaPolicyFile = new File(rootProject.buildDir, RUNJAVAPOLICYFILE);
outputs.file(testRunArgsFile)
outputs.file(testCompileArgsFile)
outputs.file(testJavaPolicyFile)
outputs.file(runJavaPolicyFile)
inputs.file(EXTRAADDEXPORTS);
doLast() {
rootProject.buildDir.mkdir()
List<String> projNames = []
moduleProjList.each { project ->
projNames << project.name
}
// And the test (shimed) variation...
testRunArgsFile.delete()
testCompileArgsFile.delete()
testJavaPolicyFile.delete()
runJavaPolicyFile.delete()
List<String> modpath = []
if (HAS_JAVAFX_MODULES) {
moduleProjList.each { project ->
if (project.hasProperty("moduleName") && project.buildModule) {
File dir;
if (project.sourceSets.hasProperty('shims')) {
dir = new File(rootProject.buildDir, "shims/${project.ext.moduleName}")
} else {
dir = new File(rootProject.buildDir, "modular-sdk/modules/${project.ext.moduleName}")
}
def dstModuleDir = cygpath(dir.path)
modpath << "${project.ext.moduleName}=${dstModuleDir}"
String themod = dir.toURI()
testJavaPolicyFile << "grant codeBase \"${themod}\" {\n" +
" permission java.security.AllPermission;\n" +
"};\n"
dir = new File(rootProject.buildDir, "modular-sdk/modules/${project.ext.moduleName}")
themod = dir.toURI()
runJavaPolicyFile << "grant codeBase \"${themod}\" {\n" +
" permission java.security.AllPermission;\n" +
"};\n"
}
}
writeRunArgsFile(testCompileArgsFile, null, modpath, null)
writeRunArgsFile(testRunArgsFile, computeLibraryPath(true), modpath, null)
if (rootProject.hasProperty("EXTRA_ADDEXPORTS_STRING")) {
testCompileArgsFile << EXTRA_ADDEXPORTS_STRING
testRunArgsFile << EXTRA_ADDEXPORTS_STRING
}
} else {
def modnames = []
moduleProjList.each { project ->
if (project.hasProperty("moduleName") && project.buildModule) {
modnames << project.ext.moduleName
File dir;
if (project.sourceSets.hasProperty('shims')) {
dir = new File(rootProject.buildDir, "shims/${project.ext.moduleName}")
} else {
dir = new File(rootProject.buildDir, "sdk/lib/${project.ext.moduleName}.jar")
}
def dstModuleDir = cygpath(dir.path)
modpath << "${dstModuleDir}"
String themod = dir.toURI()
testJavaPolicyFile << "grant codeBase \"${themod}\" {\n" +
" permission java.security.AllPermission;\n" +
"};\n"
dir = new File(rootProject.buildDir, "sdk/lib/${project.ext.moduleName}.jar")
themod = dir.toURI()
runJavaPolicyFile << "grant codeBase \"${themod}\" {\n" +
" permission java.security.AllPermission;\n" +
"};\n"
}
}
writeRunArgsFile(testCompileArgsFile, null, modpath, modnames)
writeRunArgsFile(testRunArgsFile, computeLibraryPath(true), modpath, modnames)
}
}
}
sdk.dependsOn(testArgFiles)
createTestArgfiles.dependsOn(testArgFiles)
def sdkTask = tasks.getByName("sdk${t.capital}");
sdkTask.dependsOn(buildModulesTask)
}
sdk.dependsOn(buildModules)
// Build the jmod for each module for the standalone SDK only.
compileTargets { t ->
if (!HAS_JAVAFX_MODULES) {
def targetProperties = project.ext[t.upper]
def platformPrefix = targetProperties.platformPrefix
def jmodsDirName = "${platformPrefix}jmods"
def jmodsDir = "${rootProject.buildDir}/${jmodsDirName}"
def standaloneSdkDirName = "${platformPrefix}sdk"
def standaloneSdkDir = "${rootProject.buildDir}/${standaloneSdkDirName}"
def standaloneLegalDir = "${standaloneSdkDir}/legal"
moduleProjList.each { project ->
def moduleName = project.ext.moduleName
def buildDir = project.buildDir
def srcClassesDir = "${buildDir}/${platformPrefix}module-classes"
def srcLibDir = "${buildDir}/${platformPrefix}module-lib"
def srcLegalDir = "${standaloneLegalDir}/${moduleName}"
def jmodLibDir = srcLibDir
if (IS_WINDOWS) {
jmodLibDir = "${srcLibDir}-jmod"
}
def jmodName = "${moduleName}.jmod"
def jmodFile = "${jmodsDir}/${jmodName}"
// On Windows, copy the native libraries in the jmod image
// to a "javafx" subdir to avoid conflicting with the Microsoft
// DLLs that are shipped with the JDK
def jmodCopyLibTask = project.task("jmodCopyLib$t.capital", type: Copy, dependsOn: sdk) {
enabled = IS_WINDOWS
group = "Basic"
description = "copied Windows DLLs into javafx subdir for jmods"
into jmodLibDir
from (srcLibDir) {
exclude("*.dll")
}
from (srcLibDir) {
include("*.dll")
into("javafx")
}
}
def jmodTask = project.task("jmod$t.capital", group: "Build", dependsOn: [sdk, jmodCopyLibTask]) {
doLast {
mkdir jmodsDir
delete(jmodFile);
exec {
commandLine(JMOD)
args("create")
args("--class-path")
args(srcClassesDir)
args("--module-version", "$RELEASE_VERSION_SHORT")
// Not all modules have a "lib" dir
if (file(jmodLibDir).isDirectory()) {
args("--libs")
args(jmodLibDir)
}
args("--legal-notices")
args(srcLegalDir)
args(jmodFile)
}
}
}
jmods.dependsOn(jmodTask)
}
}
}
/******************************************************************************
* *
* BUILD_CLOSED *
* *
* This next section should remain at the end of the build script. It allows *
* for a "supplemental" gradle file to be used to extend the normal build *
* structure. For example, this is used for passing a supplemental gradle *
* file for producing official JavaFX builds. *
* *
*****************************************************************************/
if (BUILD_CLOSED) {
apply from: supplementalBuildFile
}
task showFlags {
}
compileTargets { t ->
// Every platform must define these variables
def props = project.ext[t.upper];
showFlags.dependsOn(
project.task("showFlags$t.upper") {
doLast() {
println "Properties set for $t.upper"
props.each { println it }
}
}
)
}
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