platform_build_soong/java/builder.go

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// Copyright 2015 Google Inc. All rights reserved.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
package java
// This file generates the final rules for compiling all Java. All properties related to
// compiling should have been translated into javaBuilderFlags or another argument to the Transform*
// functions.
import (
"path/filepath"
"strconv"
"strings"
"github.com/google/blueprint"
"github.com/google/blueprint/proptools"
"android/soong/android"
"android/soong/remoteexec"
)
var (
pctx = android.NewPackageContext("android/soong/java")
// Compiling java is not conducive to proper dependency tracking. The path-matches-class-name
// requirement leads to unpredictable generated source file names, and a single .java file
// will get compiled into multiple .class files if it contains inner classes. To work around
// this, all java rules write into separate directories and then are combined into a .jar file
// (if the rule produces .class files) or a .srcjar file (if the rule produces .java files).
// .srcjar files are unzipped into a temporary directory when compiled with javac.
// TODO(b/143658984): goma can't handle the --system argument to javac.
javac, javacRE = remoteexec.MultiCommandStaticRules(pctx, "javac",
blueprint.RuleParams{
Command: `rm -rf "$outDir" "$annoDir" "$srcJarDir" && mkdir -p "$outDir" "$annoDir" "$srcJarDir" && ` +
`${config.ZipSyncCmd} -d $srcJarDir -l $srcJarDir/list -f "*.java" $srcJars && ` +
`(if [ -s $srcJarDir/list ] || [ -s $out.rsp ] ; then ` +
`${config.SoongJavacWrapper} $javaTemplate${config.JavacCmd} ` +
`${config.JavacHeapFlags} ${config.JavacVmFlags} ${config.CommonJdkFlags} ` +
`$processorpath $processor $javacFlags $bootClasspath $classpath ` +
`-source $javaVersion -target $javaVersion ` +
`-d $outDir -s $annoDir @$out.rsp @$srcJarDir/list ; fi ) && ` +
`$zipTemplate${config.SoongZipCmd} -jar -o $out -C $outDir -D $outDir && ` +
`rm -rf "$srcJarDir"`,
CommandDeps: []string{
"${config.JavacCmd}",
"${config.SoongZipCmd}",
"${config.ZipSyncCmd}",
},
CommandOrderOnly: []string{"${config.SoongJavacWrapper}"},
Rspfile: "$out.rsp",
RspfileContent: "$in",
}, map[string]*remoteexec.REParams{
"$javaTemplate": &remoteexec.REParams{
Labels: map[string]string{"type": "compile", "lang": "java", "compiler": "javac"},
ExecStrategy: "${config.REJavacExecStrategy}",
Platform: map[string]string{remoteexec.PoolKey: "${config.REJavaPool}"},
},
"$zipTemplate": &remoteexec.REParams{
Labels: map[string]string{"type": "tool", "name": "soong_zip"},
Inputs: []string{"${config.SoongZipCmd}", "$outDir"},
OutputFiles: []string{"$out"},
ExecStrategy: "${config.REJavacExecStrategy}",
Platform: map[string]string{remoteexec.PoolKey: "${config.REJavaPool}"},
},
}, []string{"javacFlags", "bootClasspath", "classpath", "processorpath", "processor", "srcJars", "srcJarDir",
"outDir", "annoDir", "javaVersion"}, nil)
Support source code cross-referencing for C++ and Java Use Kythe (https://kythe.io) to build cross reference for the Android source code. ~generate the input for it during the build. This is done on demand: if XREF_CORPUS environment variable is set, build emits a Ninja rule to generate Kythe input for each compilation rule. It also emits two consolidation rules (`xref_cxx` and `xref_java`), that depend on all Kythe input generation rules for C++ and Java. The value of the XREF_CORPUS environment variable is recorded in the generated files and thus passed to Kythe. For the AOSP master branch it is `android.googlesource.com/platform/superproject`, so the command to build all input for Kythe on that branch is: ``` XREF_CORPUS=android.googlesource.com/platform/superproject m xref_cxx xref_java ``` Each Kythe input generation rule generates a single file with .kzip extension. Individual .kzip files have a lot of common information, so there will be a post-build consolidation step run to combine them. The consolidated .kzip file is then passed to Kythe backend. The tools to generate .kzip files are provided by Kythe (it calls them 'extractors'). We are going to build them in toolbuilding branches (clang-tools and build-tools) and check them in as binaries into master and other PDK branches: For C++, `prebuilts/clang-tools/linux-x86/bin/cxx_extractor` for Java, `prebuilts/build-tools/common/framework/javac_extractor.jar` Bug: 121267023 Test: 1) When XREF_CORPUS is set, build generates Ninja rules to create .kzip files; 2) When XREF_CORPUS is set, building `xref_cxx`/`xref_java` creates .kzip files; 3) Unless XREF_CORPUS is set, build generates the same Ninja rules as before Change-Id: If957b35d7abc82dbfbb3665980e7c34afe7c789e
2018-11-06 08:49:08 +08:00
_ = pctx.VariableFunc("kytheCorpus",
func(ctx android.PackageVarContext) string { return ctx.Config().XrefCorpusName() })
_ = pctx.VariableFunc("kytheCuEncoding",
func(ctx android.PackageVarContext) string { return ctx.Config().XrefCuEncoding() })
_ = pctx.SourcePathVariable("kytheVnames", "build/soong/vnames.json")
Support source code cross-referencing for C++ and Java Use Kythe (https://kythe.io) to build cross reference for the Android source code. ~generate the input for it during the build. This is done on demand: if XREF_CORPUS environment variable is set, build emits a Ninja rule to generate Kythe input for each compilation rule. It also emits two consolidation rules (`xref_cxx` and `xref_java`), that depend on all Kythe input generation rules for C++ and Java. The value of the XREF_CORPUS environment variable is recorded in the generated files and thus passed to Kythe. For the AOSP master branch it is `android.googlesource.com/platform/superproject`, so the command to build all input for Kythe on that branch is: ``` XREF_CORPUS=android.googlesource.com/platform/superproject m xref_cxx xref_java ``` Each Kythe input generation rule generates a single file with .kzip extension. Individual .kzip files have a lot of common information, so there will be a post-build consolidation step run to combine them. The consolidated .kzip file is then passed to Kythe backend. The tools to generate .kzip files are provided by Kythe (it calls them 'extractors'). We are going to build them in toolbuilding branches (clang-tools and build-tools) and check them in as binaries into master and other PDK branches: For C++, `prebuilts/clang-tools/linux-x86/bin/cxx_extractor` for Java, `prebuilts/build-tools/common/framework/javac_extractor.jar` Bug: 121267023 Test: 1) When XREF_CORPUS is set, build generates Ninja rules to create .kzip files; 2) When XREF_CORPUS is set, building `xref_cxx`/`xref_java` creates .kzip files; 3) Unless XREF_CORPUS is set, build generates the same Ninja rules as before Change-Id: If957b35d7abc82dbfbb3665980e7c34afe7c789e
2018-11-06 08:49:08 +08:00
// Run it with -add-opens=java.base/java.nio=ALL-UNNAMED to avoid JDK9's warning about
// "Illegal reflective access by com.google.protobuf.Utf8$UnsafeProcessor ...
// to field java.nio.Buffer.address"
kytheExtract = pctx.AndroidStaticRule("kythe",
blueprint.RuleParams{
Command: `${config.ZipSyncCmd} -d $srcJarDir ` +
`-l $srcJarDir/list -f "*.java" $srcJars && ` +
`( [ ! -s $srcJarDir/list -a ! -s $out.rsp ] || ` +
`KYTHE_ROOT_DIRECTORY=. KYTHE_OUTPUT_FILE=$out ` +
`KYTHE_CORPUS=${kytheCorpus} ` +
`KYTHE_VNAMES=${kytheVnames} ` +
`KYTHE_KZIP_ENCODING=${kytheCuEncoding} ` +
Support source code cross-referencing for C++ and Java Use Kythe (https://kythe.io) to build cross reference for the Android source code. ~generate the input for it during the build. This is done on demand: if XREF_CORPUS environment variable is set, build emits a Ninja rule to generate Kythe input for each compilation rule. It also emits two consolidation rules (`xref_cxx` and `xref_java`), that depend on all Kythe input generation rules for C++ and Java. The value of the XREF_CORPUS environment variable is recorded in the generated files and thus passed to Kythe. For the AOSP master branch it is `android.googlesource.com/platform/superproject`, so the command to build all input for Kythe on that branch is: ``` XREF_CORPUS=android.googlesource.com/platform/superproject m xref_cxx xref_java ``` Each Kythe input generation rule generates a single file with .kzip extension. Individual .kzip files have a lot of common information, so there will be a post-build consolidation step run to combine them. The consolidated .kzip file is then passed to Kythe backend. The tools to generate .kzip files are provided by Kythe (it calls them 'extractors'). We are going to build them in toolbuilding branches (clang-tools and build-tools) and check them in as binaries into master and other PDK branches: For C++, `prebuilts/clang-tools/linux-x86/bin/cxx_extractor` for Java, `prebuilts/build-tools/common/framework/javac_extractor.jar` Bug: 121267023 Test: 1) When XREF_CORPUS is set, build generates Ninja rules to create .kzip files; 2) When XREF_CORPUS is set, building `xref_cxx`/`xref_java` creates .kzip files; 3) Unless XREF_CORPUS is set, build generates the same Ninja rules as before Change-Id: If957b35d7abc82dbfbb3665980e7c34afe7c789e
2018-11-06 08:49:08 +08:00
`${config.SoongJavacWrapper} ${config.JavaCmd} ` +
`--add-opens=java.base/java.nio=ALL-UNNAMED ` +
`-jar ${config.JavaKytheExtractorJar} ` +
`${config.JavacHeapFlags} ${config.CommonJdkFlags} ` +
`$processorpath $processor $javacFlags $bootClasspath $classpath ` +
`-source $javaVersion -target $javaVersion ` +
`-d $outDir -s $annoDir @$out.rsp @$srcJarDir/list)`,
CommandDeps: []string{
"${config.JavaCmd}",
"${config.JavaKytheExtractorJar}",
"${kytheVnames}",
Support source code cross-referencing for C++ and Java Use Kythe (https://kythe.io) to build cross reference for the Android source code. ~generate the input for it during the build. This is done on demand: if XREF_CORPUS environment variable is set, build emits a Ninja rule to generate Kythe input for each compilation rule. It also emits two consolidation rules (`xref_cxx` and `xref_java`), that depend on all Kythe input generation rules for C++ and Java. The value of the XREF_CORPUS environment variable is recorded in the generated files and thus passed to Kythe. For the AOSP master branch it is `android.googlesource.com/platform/superproject`, so the command to build all input for Kythe on that branch is: ``` XREF_CORPUS=android.googlesource.com/platform/superproject m xref_cxx xref_java ``` Each Kythe input generation rule generates a single file with .kzip extension. Individual .kzip files have a lot of common information, so there will be a post-build consolidation step run to combine them. The consolidated .kzip file is then passed to Kythe backend. The tools to generate .kzip files are provided by Kythe (it calls them 'extractors'). We are going to build them in toolbuilding branches (clang-tools and build-tools) and check them in as binaries into master and other PDK branches: For C++, `prebuilts/clang-tools/linux-x86/bin/cxx_extractor` for Java, `prebuilts/build-tools/common/framework/javac_extractor.jar` Bug: 121267023 Test: 1) When XREF_CORPUS is set, build generates Ninja rules to create .kzip files; 2) When XREF_CORPUS is set, building `xref_cxx`/`xref_java` creates .kzip files; 3) Unless XREF_CORPUS is set, build generates the same Ninja rules as before Change-Id: If957b35d7abc82dbfbb3665980e7c34afe7c789e
2018-11-06 08:49:08 +08:00
"${config.ZipSyncCmd}",
},
CommandOrderOnly: []string{"${config.SoongJavacWrapper}"},
Rspfile: "$out.rsp",
RspfileContent: "$in",
},
"javacFlags", "bootClasspath", "classpath", "processorpath", "processor", "srcJars", "srcJarDir",
"outDir", "annoDir", "javaVersion")
extractMatchingApks = pctx.StaticRule(
"extractMatchingApks",
blueprint.RuleParams{
Command: `rm -rf "$out" && ` +
`${config.ExtractApksCmd} -o "${out}" -allow-prereleased=${allow-prereleased} ` +
`-sdk-version=${sdk-version} -abis=${abis} ` +
`--screen-densities=${screen-densities} --stem=${stem} ` +
`${in}`,
CommandDeps: []string{"${config.ExtractApksCmd}"},
},
"abis", "allow-prereleased", "screen-densities", "sdk-version", "stem")
turbine, turbineRE = remoteexec.StaticRules(pctx, "turbine",
blueprint.RuleParams{
Command: `rm -rf "$outDir" && mkdir -p "$outDir" && ` +
`$reTemplate${config.JavaCmd} ${config.JavaVmFlags} -jar ${config.TurbineJar} --output $out.tmp ` +
`--temp_dir "$outDir" --sources @$out.rsp --source_jars $srcJars ` +
`--javacopts ${config.CommonJdkFlags} ` +
`$javacFlags -source $javaVersion -target $javaVersion -- $bootClasspath $classpath && ` +
`${config.Ziptime} $out.tmp && ` +
`(if cmp -s $out.tmp $out ; then rm $out.tmp ; else mv $out.tmp $out ; fi )`,
CommandDeps: []string{
"${config.TurbineJar}",
"${config.JavaCmd}",
"${config.Ziptime}",
},
Rspfile: "$out.rsp",
RspfileContent: "$in",
Restat: true,
},
&remoteexec.REParams{Labels: map[string]string{"type": "tool", "name": "turbine"},
ExecStrategy: "${config.RETurbineExecStrategy}",
Inputs: []string{"${config.TurbineJar}", "${out}.rsp", "$implicits"},
RSPFile: "${out}.rsp",
OutputFiles: []string{"$out.tmp"},
OutputDirectories: []string{"$outDir"},
ToolchainInputs: []string{"${config.JavaCmd}"},
Platform: map[string]string{remoteexec.PoolKey: "${config.REJavaPool}"},
}, []string{"javacFlags", "bootClasspath", "classpath", "srcJars", "outDir", "javaVersion"}, []string{"implicits"})
jar, jarRE = remoteexec.StaticRules(pctx, "jar",
blueprint.RuleParams{
Command: `$reTemplate${config.SoongZipCmd} -jar -o $out @$out.rsp`,
CommandDeps: []string{"${config.SoongZipCmd}"},
Rspfile: "$out.rsp",
RspfileContent: "$jarArgs",
},
&remoteexec.REParams{
ExecStrategy: "${config.REJarExecStrategy}",
Inputs: []string{"${config.SoongZipCmd}", "${out}.rsp"},
RSPFile: "${out}.rsp",
OutputFiles: []string{"$out"},
Platform: map[string]string{remoteexec.PoolKey: "${config.REJavaPool}"},
}, []string{"jarArgs"}, nil)
zip, zipRE = remoteexec.StaticRules(pctx, "zip",
blueprint.RuleParams{
Command: `${config.SoongZipCmd} -o $out @$out.rsp`,
CommandDeps: []string{"${config.SoongZipCmd}"},
Rspfile: "$out.rsp",
RspfileContent: "$jarArgs",
},
&remoteexec.REParams{
ExecStrategy: "${config.REZipExecStrategy}",
Inputs: []string{"${config.SoongZipCmd}", "${out}.rsp", "$implicits"},
RSPFile: "${out}.rsp",
OutputFiles: []string{"$out"},
Platform: map[string]string{remoteexec.PoolKey: "${config.REJavaPool}"},
}, []string{"jarArgs"}, []string{"implicits"})
combineJar = pctx.AndroidStaticRule("combineJar",
blueprint.RuleParams{
Command: `${config.MergeZipsCmd} --ignore-duplicates -j $jarArgs $out $in`,
CommandDeps: []string{"${config.MergeZipsCmd}"},
},
"jarArgs")
jarjar = pctx.AndroidStaticRule("jarjar",
blueprint.RuleParams{
Command: "${config.JavaCmd} ${config.JavaVmFlags}" +
// b/146418363 Enable Android specific jarjar transformer to drop compat annotations
// for newly repackaged classes. Dropping @UnsupportedAppUsage on repackaged classes
// avoids adding new hiddenapis after jarjar'ing.
" -DremoveAndroidCompatAnnotations=true" +
" -jar ${config.JarjarCmd} process $rulesFile $in $out",
CommandDeps: []string{"${config.JavaCmd}", "${config.JarjarCmd}", "$rulesFile"},
},
"rulesFile")
packageCheck = pctx.AndroidStaticRule("packageCheck",
blueprint.RuleParams{
Command: "rm -f $out && " +
"${config.PackageCheckCmd} $in $packages && " +
"cp $in $out",
CommandDeps: []string{"${config.PackageCheckCmd}"},
},
"packages")
jetifier = pctx.AndroidStaticRule("jetifier",
blueprint.RuleParams{
Command: "${config.JavaCmd} ${config.JavaVmFlags} -jar ${config.JetifierJar} -l error -o $out -i $in",
CommandDeps: []string{"${config.JavaCmd}", "${config.JetifierJar}"},
},
)
zipalign = pctx.AndroidStaticRule("zipalign",
blueprint.RuleParams{
Command: "if ! ${config.ZipAlign} -c -p 4 $in > /dev/null; then " +
"${config.ZipAlign} -f -p 4 $in $out; " +
"else " +
"cp -f $in $out; " +
"fi",
CommandDeps: []string{"${config.ZipAlign}"},
},
)
)
func init() {
pctx.Import("android/soong/android")
pctx.Import("android/soong/java/config")
pctx.Import("android/soong/remoteexec")
}
type javaBuilderFlags struct {
javacFlags string
bootClasspath classpath
classpath classpath
java9Classpath classpath
processorPath classpath
processors []string
systemModules *systemModules
aidlFlags string
aidlDeps android.Paths
javaVersion javaVersion
errorProneExtraJavacFlags string
errorProneProcessorPath classpath
kotlincFlags string
kotlincClasspath classpath
proto android.ProtoFlags
}
func TransformJavaToClasses(ctx android.ModuleContext, outputFile android.WritablePath, shardIdx int,
srcFiles, srcJars android.Paths, flags javaBuilderFlags, deps android.Paths) {
// Compile java sources into .class files
desc := "javac"
if shardIdx >= 0 {
desc += strconv.Itoa(shardIdx)
}
transformJavaToClasses(ctx, outputFile, shardIdx, srcFiles, srcJars, flags, deps, "javac", desc)
}
func RunErrorProne(ctx android.ModuleContext, outputFile android.WritablePath,
srcFiles, srcJars android.Paths, flags javaBuilderFlags) {
flags.processorPath = append(flags.errorProneProcessorPath, flags.processorPath...)
if len(flags.errorProneExtraJavacFlags) > 0 {
if len(flags.javacFlags) > 0 {
flags.javacFlags += " " + flags.errorProneExtraJavacFlags
} else {
flags.javacFlags = flags.errorProneExtraJavacFlags
}
}
transformJavaToClasses(ctx, outputFile, -1, srcFiles, srcJars, flags, nil,
"errorprone", "errorprone")
}
Support source code cross-referencing for C++ and Java Use Kythe (https://kythe.io) to build cross reference for the Android source code. ~generate the input for it during the build. This is done on demand: if XREF_CORPUS environment variable is set, build emits a Ninja rule to generate Kythe input for each compilation rule. It also emits two consolidation rules (`xref_cxx` and `xref_java`), that depend on all Kythe input generation rules for C++ and Java. The value of the XREF_CORPUS environment variable is recorded in the generated files and thus passed to Kythe. For the AOSP master branch it is `android.googlesource.com/platform/superproject`, so the command to build all input for Kythe on that branch is: ``` XREF_CORPUS=android.googlesource.com/platform/superproject m xref_cxx xref_java ``` Each Kythe input generation rule generates a single file with .kzip extension. Individual .kzip files have a lot of common information, so there will be a post-build consolidation step run to combine them. The consolidated .kzip file is then passed to Kythe backend. The tools to generate .kzip files are provided by Kythe (it calls them 'extractors'). We are going to build them in toolbuilding branches (clang-tools and build-tools) and check them in as binaries into master and other PDK branches: For C++, `prebuilts/clang-tools/linux-x86/bin/cxx_extractor` for Java, `prebuilts/build-tools/common/framework/javac_extractor.jar` Bug: 121267023 Test: 1) When XREF_CORPUS is set, build generates Ninja rules to create .kzip files; 2) When XREF_CORPUS is set, building `xref_cxx`/`xref_java` creates .kzip files; 3) Unless XREF_CORPUS is set, build generates the same Ninja rules as before Change-Id: If957b35d7abc82dbfbb3665980e7c34afe7c789e
2018-11-06 08:49:08 +08:00
// Emits the rule to generate Xref input file (.kzip file) for the given set of source files and source jars
// to compile with given set of builder flags, etc.
func emitXrefRule(ctx android.ModuleContext, xrefFile android.WritablePath, idx int,
Support source code cross-referencing for C++ and Java Use Kythe (https://kythe.io) to build cross reference for the Android source code. ~generate the input for it during the build. This is done on demand: if XREF_CORPUS environment variable is set, build emits a Ninja rule to generate Kythe input for each compilation rule. It also emits two consolidation rules (`xref_cxx` and `xref_java`), that depend on all Kythe input generation rules for C++ and Java. The value of the XREF_CORPUS environment variable is recorded in the generated files and thus passed to Kythe. For the AOSP master branch it is `android.googlesource.com/platform/superproject`, so the command to build all input for Kythe on that branch is: ``` XREF_CORPUS=android.googlesource.com/platform/superproject m xref_cxx xref_java ``` Each Kythe input generation rule generates a single file with .kzip extension. Individual .kzip files have a lot of common information, so there will be a post-build consolidation step run to combine them. The consolidated .kzip file is then passed to Kythe backend. The tools to generate .kzip files are provided by Kythe (it calls them 'extractors'). We are going to build them in toolbuilding branches (clang-tools and build-tools) and check them in as binaries into master and other PDK branches: For C++, `prebuilts/clang-tools/linux-x86/bin/cxx_extractor` for Java, `prebuilts/build-tools/common/framework/javac_extractor.jar` Bug: 121267023 Test: 1) When XREF_CORPUS is set, build generates Ninja rules to create .kzip files; 2) When XREF_CORPUS is set, building `xref_cxx`/`xref_java` creates .kzip files; 3) Unless XREF_CORPUS is set, build generates the same Ninja rules as before Change-Id: If957b35d7abc82dbfbb3665980e7c34afe7c789e
2018-11-06 08:49:08 +08:00
srcFiles, srcJars android.Paths,
flags javaBuilderFlags, deps android.Paths) {
Support source code cross-referencing for C++ and Java Use Kythe (https://kythe.io) to build cross reference for the Android source code. ~generate the input for it during the build. This is done on demand: if XREF_CORPUS environment variable is set, build emits a Ninja rule to generate Kythe input for each compilation rule. It also emits two consolidation rules (`xref_cxx` and `xref_java`), that depend on all Kythe input generation rules for C++ and Java. The value of the XREF_CORPUS environment variable is recorded in the generated files and thus passed to Kythe. For the AOSP master branch it is `android.googlesource.com/platform/superproject`, so the command to build all input for Kythe on that branch is: ``` XREF_CORPUS=android.googlesource.com/platform/superproject m xref_cxx xref_java ``` Each Kythe input generation rule generates a single file with .kzip extension. Individual .kzip files have a lot of common information, so there will be a post-build consolidation step run to combine them. The consolidated .kzip file is then passed to Kythe backend. The tools to generate .kzip files are provided by Kythe (it calls them 'extractors'). We are going to build them in toolbuilding branches (clang-tools and build-tools) and check them in as binaries into master and other PDK branches: For C++, `prebuilts/clang-tools/linux-x86/bin/cxx_extractor` for Java, `prebuilts/build-tools/common/framework/javac_extractor.jar` Bug: 121267023 Test: 1) When XREF_CORPUS is set, build generates Ninja rules to create .kzip files; 2) When XREF_CORPUS is set, building `xref_cxx`/`xref_java` creates .kzip files; 3) Unless XREF_CORPUS is set, build generates the same Ninja rules as before Change-Id: If957b35d7abc82dbfbb3665980e7c34afe7c789e
2018-11-06 08:49:08 +08:00
deps = append(deps, srcJars...)
classpath := flags.classpath
Support source code cross-referencing for C++ and Java Use Kythe (https://kythe.io) to build cross reference for the Android source code. ~generate the input for it during the build. This is done on demand: if XREF_CORPUS environment variable is set, build emits a Ninja rule to generate Kythe input for each compilation rule. It also emits two consolidation rules (`xref_cxx` and `xref_java`), that depend on all Kythe input generation rules for C++ and Java. The value of the XREF_CORPUS environment variable is recorded in the generated files and thus passed to Kythe. For the AOSP master branch it is `android.googlesource.com/platform/superproject`, so the command to build all input for Kythe on that branch is: ``` XREF_CORPUS=android.googlesource.com/platform/superproject m xref_cxx xref_java ``` Each Kythe input generation rule generates a single file with .kzip extension. Individual .kzip files have a lot of common information, so there will be a post-build consolidation step run to combine them. The consolidated .kzip file is then passed to Kythe backend. The tools to generate .kzip files are provided by Kythe (it calls them 'extractors'). We are going to build them in toolbuilding branches (clang-tools and build-tools) and check them in as binaries into master and other PDK branches: For C++, `prebuilts/clang-tools/linux-x86/bin/cxx_extractor` for Java, `prebuilts/build-tools/common/framework/javac_extractor.jar` Bug: 121267023 Test: 1) When XREF_CORPUS is set, build generates Ninja rules to create .kzip files; 2) When XREF_CORPUS is set, building `xref_cxx`/`xref_java` creates .kzip files; 3) Unless XREF_CORPUS is set, build generates the same Ninja rules as before Change-Id: If957b35d7abc82dbfbb3665980e7c34afe7c789e
2018-11-06 08:49:08 +08:00
var bootClasspath string
if flags.javaVersion.usesJavaModules() {
Support source code cross-referencing for C++ and Java Use Kythe (https://kythe.io) to build cross reference for the Android source code. ~generate the input for it during the build. This is done on demand: if XREF_CORPUS environment variable is set, build emits a Ninja rule to generate Kythe input for each compilation rule. It also emits two consolidation rules (`xref_cxx` and `xref_java`), that depend on all Kythe input generation rules for C++ and Java. The value of the XREF_CORPUS environment variable is recorded in the generated files and thus passed to Kythe. For the AOSP master branch it is `android.googlesource.com/platform/superproject`, so the command to build all input for Kythe on that branch is: ``` XREF_CORPUS=android.googlesource.com/platform/superproject m xref_cxx xref_java ``` Each Kythe input generation rule generates a single file with .kzip extension. Individual .kzip files have a lot of common information, so there will be a post-build consolidation step run to combine them. The consolidated .kzip file is then passed to Kythe backend. The tools to generate .kzip files are provided by Kythe (it calls them 'extractors'). We are going to build them in toolbuilding branches (clang-tools and build-tools) and check them in as binaries into master and other PDK branches: For C++, `prebuilts/clang-tools/linux-x86/bin/cxx_extractor` for Java, `prebuilts/build-tools/common/framework/javac_extractor.jar` Bug: 121267023 Test: 1) When XREF_CORPUS is set, build generates Ninja rules to create .kzip files; 2) When XREF_CORPUS is set, building `xref_cxx`/`xref_java` creates .kzip files; 3) Unless XREF_CORPUS is set, build generates the same Ninja rules as before Change-Id: If957b35d7abc82dbfbb3665980e7c34afe7c789e
2018-11-06 08:49:08 +08:00
var systemModuleDeps android.Paths
bootClasspath, systemModuleDeps = flags.systemModules.FormJavaSystemModulesPath(ctx.Device())
deps = append(deps, systemModuleDeps...)
classpath = append(flags.java9Classpath, classpath...)
Support source code cross-referencing for C++ and Java Use Kythe (https://kythe.io) to build cross reference for the Android source code. ~generate the input for it during the build. This is done on demand: if XREF_CORPUS environment variable is set, build emits a Ninja rule to generate Kythe input for each compilation rule. It also emits two consolidation rules (`xref_cxx` and `xref_java`), that depend on all Kythe input generation rules for C++ and Java. The value of the XREF_CORPUS environment variable is recorded in the generated files and thus passed to Kythe. For the AOSP master branch it is `android.googlesource.com/platform/superproject`, so the command to build all input for Kythe on that branch is: ``` XREF_CORPUS=android.googlesource.com/platform/superproject m xref_cxx xref_java ``` Each Kythe input generation rule generates a single file with .kzip extension. Individual .kzip files have a lot of common information, so there will be a post-build consolidation step run to combine them. The consolidated .kzip file is then passed to Kythe backend. The tools to generate .kzip files are provided by Kythe (it calls them 'extractors'). We are going to build them in toolbuilding branches (clang-tools and build-tools) and check them in as binaries into master and other PDK branches: For C++, `prebuilts/clang-tools/linux-x86/bin/cxx_extractor` for Java, `prebuilts/build-tools/common/framework/javac_extractor.jar` Bug: 121267023 Test: 1) When XREF_CORPUS is set, build generates Ninja rules to create .kzip files; 2) When XREF_CORPUS is set, building `xref_cxx`/`xref_java` creates .kzip files; 3) Unless XREF_CORPUS is set, build generates the same Ninja rules as before Change-Id: If957b35d7abc82dbfbb3665980e7c34afe7c789e
2018-11-06 08:49:08 +08:00
} else {
deps = append(deps, flags.bootClasspath...)
if len(flags.bootClasspath) == 0 && ctx.Device() {
// explicitly specify -bootclasspath "" if the bootclasspath is empty to
// ensure java does not fall back to the default bootclasspath.
bootClasspath = `-bootclasspath ""`
} else {
bootClasspath = flags.bootClasspath.FormJavaClassPath("-bootclasspath")
}
}
deps = append(deps, classpath...)
Support source code cross-referencing for C++ and Java Use Kythe (https://kythe.io) to build cross reference for the Android source code. ~generate the input for it during the build. This is done on demand: if XREF_CORPUS environment variable is set, build emits a Ninja rule to generate Kythe input for each compilation rule. It also emits two consolidation rules (`xref_cxx` and `xref_java`), that depend on all Kythe input generation rules for C++ and Java. The value of the XREF_CORPUS environment variable is recorded in the generated files and thus passed to Kythe. For the AOSP master branch it is `android.googlesource.com/platform/superproject`, so the command to build all input for Kythe on that branch is: ``` XREF_CORPUS=android.googlesource.com/platform/superproject m xref_cxx xref_java ``` Each Kythe input generation rule generates a single file with .kzip extension. Individual .kzip files have a lot of common information, so there will be a post-build consolidation step run to combine them. The consolidated .kzip file is then passed to Kythe backend. The tools to generate .kzip files are provided by Kythe (it calls them 'extractors'). We are going to build them in toolbuilding branches (clang-tools and build-tools) and check them in as binaries into master and other PDK branches: For C++, `prebuilts/clang-tools/linux-x86/bin/cxx_extractor` for Java, `prebuilts/build-tools/common/framework/javac_extractor.jar` Bug: 121267023 Test: 1) When XREF_CORPUS is set, build generates Ninja rules to create .kzip files; 2) When XREF_CORPUS is set, building `xref_cxx`/`xref_java` creates .kzip files; 3) Unless XREF_CORPUS is set, build generates the same Ninja rules as before Change-Id: If957b35d7abc82dbfbb3665980e7c34afe7c789e
2018-11-06 08:49:08 +08:00
deps = append(deps, flags.processorPath...)
processor := "-proc:none"
if len(flags.processors) > 0 {
processor = "-processor " + strings.Join(flags.processors, ",")
Support source code cross-referencing for C++ and Java Use Kythe (https://kythe.io) to build cross reference for the Android source code. ~generate the input for it during the build. This is done on demand: if XREF_CORPUS environment variable is set, build emits a Ninja rule to generate Kythe input for each compilation rule. It also emits two consolidation rules (`xref_cxx` and `xref_java`), that depend on all Kythe input generation rules for C++ and Java. The value of the XREF_CORPUS environment variable is recorded in the generated files and thus passed to Kythe. For the AOSP master branch it is `android.googlesource.com/platform/superproject`, so the command to build all input for Kythe on that branch is: ``` XREF_CORPUS=android.googlesource.com/platform/superproject m xref_cxx xref_java ``` Each Kythe input generation rule generates a single file with .kzip extension. Individual .kzip files have a lot of common information, so there will be a post-build consolidation step run to combine them. The consolidated .kzip file is then passed to Kythe backend. The tools to generate .kzip files are provided by Kythe (it calls them 'extractors'). We are going to build them in toolbuilding branches (clang-tools and build-tools) and check them in as binaries into master and other PDK branches: For C++, `prebuilts/clang-tools/linux-x86/bin/cxx_extractor` for Java, `prebuilts/build-tools/common/framework/javac_extractor.jar` Bug: 121267023 Test: 1) When XREF_CORPUS is set, build generates Ninja rules to create .kzip files; 2) When XREF_CORPUS is set, building `xref_cxx`/`xref_java` creates .kzip files; 3) Unless XREF_CORPUS is set, build generates the same Ninja rules as before Change-Id: If957b35d7abc82dbfbb3665980e7c34afe7c789e
2018-11-06 08:49:08 +08:00
}
intermediatesDir := "xref"
if idx >= 0 {
intermediatesDir += strconv.Itoa(idx)
}
Support source code cross-referencing for C++ and Java Use Kythe (https://kythe.io) to build cross reference for the Android source code. ~generate the input for it during the build. This is done on demand: if XREF_CORPUS environment variable is set, build emits a Ninja rule to generate Kythe input for each compilation rule. It also emits two consolidation rules (`xref_cxx` and `xref_java`), that depend on all Kythe input generation rules for C++ and Java. The value of the XREF_CORPUS environment variable is recorded in the generated files and thus passed to Kythe. For the AOSP master branch it is `android.googlesource.com/platform/superproject`, so the command to build all input for Kythe on that branch is: ``` XREF_CORPUS=android.googlesource.com/platform/superproject m xref_cxx xref_java ``` Each Kythe input generation rule generates a single file with .kzip extension. Individual .kzip files have a lot of common information, so there will be a post-build consolidation step run to combine them. The consolidated .kzip file is then passed to Kythe backend. The tools to generate .kzip files are provided by Kythe (it calls them 'extractors'). We are going to build them in toolbuilding branches (clang-tools and build-tools) and check them in as binaries into master and other PDK branches: For C++, `prebuilts/clang-tools/linux-x86/bin/cxx_extractor` for Java, `prebuilts/build-tools/common/framework/javac_extractor.jar` Bug: 121267023 Test: 1) When XREF_CORPUS is set, build generates Ninja rules to create .kzip files; 2) When XREF_CORPUS is set, building `xref_cxx`/`xref_java` creates .kzip files; 3) Unless XREF_CORPUS is set, build generates the same Ninja rules as before Change-Id: If957b35d7abc82dbfbb3665980e7c34afe7c789e
2018-11-06 08:49:08 +08:00
ctx.Build(pctx,
android.BuildParams{
Rule: kytheExtract,
Description: "Xref Java extractor",
Output: xrefFile,
Inputs: srcFiles,
Implicits: deps,
Args: map[string]string{
"annoDir": android.PathForModuleOut(ctx, intermediatesDir, "anno").String(),
"bootClasspath": bootClasspath,
"classpath": classpath.FormJavaClassPath("-classpath"),
Support source code cross-referencing for C++ and Java Use Kythe (https://kythe.io) to build cross reference for the Android source code. ~generate the input for it during the build. This is done on demand: if XREF_CORPUS environment variable is set, build emits a Ninja rule to generate Kythe input for each compilation rule. It also emits two consolidation rules (`xref_cxx` and `xref_java`), that depend on all Kythe input generation rules for C++ and Java. The value of the XREF_CORPUS environment variable is recorded in the generated files and thus passed to Kythe. For the AOSP master branch it is `android.googlesource.com/platform/superproject`, so the command to build all input for Kythe on that branch is: ``` XREF_CORPUS=android.googlesource.com/platform/superproject m xref_cxx xref_java ``` Each Kythe input generation rule generates a single file with .kzip extension. Individual .kzip files have a lot of common information, so there will be a post-build consolidation step run to combine them. The consolidated .kzip file is then passed to Kythe backend. The tools to generate .kzip files are provided by Kythe (it calls them 'extractors'). We are going to build them in toolbuilding branches (clang-tools and build-tools) and check them in as binaries into master and other PDK branches: For C++, `prebuilts/clang-tools/linux-x86/bin/cxx_extractor` for Java, `prebuilts/build-tools/common/framework/javac_extractor.jar` Bug: 121267023 Test: 1) When XREF_CORPUS is set, build generates Ninja rules to create .kzip files; 2) When XREF_CORPUS is set, building `xref_cxx`/`xref_java` creates .kzip files; 3) Unless XREF_CORPUS is set, build generates the same Ninja rules as before Change-Id: If957b35d7abc82dbfbb3665980e7c34afe7c789e
2018-11-06 08:49:08 +08:00
"javacFlags": flags.javacFlags,
"javaVersion": flags.javaVersion.String(),
Support source code cross-referencing for C++ and Java Use Kythe (https://kythe.io) to build cross reference for the Android source code. ~generate the input for it during the build. This is done on demand: if XREF_CORPUS environment variable is set, build emits a Ninja rule to generate Kythe input for each compilation rule. It also emits two consolidation rules (`xref_cxx` and `xref_java`), that depend on all Kythe input generation rules for C++ and Java. The value of the XREF_CORPUS environment variable is recorded in the generated files and thus passed to Kythe. For the AOSP master branch it is `android.googlesource.com/platform/superproject`, so the command to build all input for Kythe on that branch is: ``` XREF_CORPUS=android.googlesource.com/platform/superproject m xref_cxx xref_java ``` Each Kythe input generation rule generates a single file with .kzip extension. Individual .kzip files have a lot of common information, so there will be a post-build consolidation step run to combine them. The consolidated .kzip file is then passed to Kythe backend. The tools to generate .kzip files are provided by Kythe (it calls them 'extractors'). We are going to build them in toolbuilding branches (clang-tools and build-tools) and check them in as binaries into master and other PDK branches: For C++, `prebuilts/clang-tools/linux-x86/bin/cxx_extractor` for Java, `prebuilts/build-tools/common/framework/javac_extractor.jar` Bug: 121267023 Test: 1) When XREF_CORPUS is set, build generates Ninja rules to create .kzip files; 2) When XREF_CORPUS is set, building `xref_cxx`/`xref_java` creates .kzip files; 3) Unless XREF_CORPUS is set, build generates the same Ninja rules as before Change-Id: If957b35d7abc82dbfbb3665980e7c34afe7c789e
2018-11-06 08:49:08 +08:00
"outDir": android.PathForModuleOut(ctx, "javac", "classes.xref").String(),
"processorpath": flags.processorPath.FormJavaClassPath("-processorpath"),
"processor": processor,
"srcJarDir": android.PathForModuleOut(ctx, intermediatesDir, "srcjars.xref").String(),
"srcJars": strings.Join(srcJars.Strings(), " "),
},
})
}
func TransformJavaToHeaderClasses(ctx android.ModuleContext, outputFile android.WritablePath,
srcFiles, srcJars android.Paths, flags javaBuilderFlags) {
var deps android.Paths
deps = append(deps, srcJars...)
classpath := flags.classpath
var bootClasspath string
if flags.javaVersion.usesJavaModules() {
var systemModuleDeps android.Paths
bootClasspath, systemModuleDeps = flags.systemModules.FormTurbineSystemModulesPath(ctx.Device())
deps = append(deps, systemModuleDeps...)
classpath = append(flags.java9Classpath, classpath...)
} else {
deps = append(deps, flags.bootClasspath...)
if len(flags.bootClasspath) == 0 && ctx.Device() {
// explicitly specify -bootclasspath "" if the bootclasspath is empty to
// ensure turbine does not fall back to the default bootclasspath.
bootClasspath = `--bootclasspath ""`
} else {
bootClasspath = flags.bootClasspath.FormTurbineClassPath("--bootclasspath ")
}
}
deps = append(deps, classpath...)
deps = append(deps, flags.processorPath...)
rule := turbine
args := map[string]string{
"javacFlags": flags.javacFlags,
"bootClasspath": bootClasspath,
"srcJars": strings.Join(srcJars.Strings(), " "),
"classpath": classpath.FormTurbineClassPath("--classpath "),
"outDir": android.PathForModuleOut(ctx, "turbine", "classes").String(),
"javaVersion": flags.javaVersion.String(),
}
if ctx.Config().IsEnvTrue("RBE_TURBINE") {
rule = turbineRE
args["implicits"] = strings.Join(deps.Strings(), ",")
}
ctx.Build(pctx, android.BuildParams{
Rule: rule,
Description: "turbine",
Output: outputFile,
Inputs: srcFiles,
Implicits: deps,
Args: args,
})
}
// transformJavaToClasses takes source files and converts them to a jar containing .class files.
// srcFiles is a list of paths to sources, srcJars is a list of paths to jar files that contain
// sources. flags contains various command line flags to be passed to the compiler.
//
// This method may be used for different compilers, including javac and Error Prone. The rule
// argument specifies which command line to use and desc sets the description of the rule that will
// be printed at build time. The stem argument provides the file name of the output jar, and
// suffix will be appended to various intermediate files and directories to avoid collisions when
// this function is called twice in the same module directory.
func transformJavaToClasses(ctx android.ModuleContext, outputFile android.WritablePath,
shardIdx int, srcFiles, srcJars android.Paths,
flags javaBuilderFlags, deps android.Paths,
intermediatesDir, desc string) {
deps = append(deps, srcJars...)
classpath := flags.classpath
var bootClasspath string
if flags.javaVersion.usesJavaModules() {
var systemModuleDeps android.Paths
bootClasspath, systemModuleDeps = flags.systemModules.FormJavaSystemModulesPath(ctx.Device())
deps = append(deps, systemModuleDeps...)
classpath = append(flags.java9Classpath, classpath...)
} else {
deps = append(deps, flags.bootClasspath...)
if len(flags.bootClasspath) == 0 && ctx.Device() {
// explicitly specify -bootclasspath "" if the bootclasspath is empty to
// ensure java does not fall back to the default bootclasspath.
bootClasspath = `-bootclasspath ""`
} else {
bootClasspath = flags.bootClasspath.FormJavaClassPath("-bootclasspath")
}
}
deps = append(deps, classpath...)
deps = append(deps, flags.processorPath...)
processor := "-proc:none"
if len(flags.processors) > 0 {
processor = "-processor " + strings.Join(flags.processors, ",")
}
srcJarDir := "srcjars"
outDir := "classes"
annoDir := "anno"
if shardIdx >= 0 {
shardDir := "shard" + strconv.Itoa(shardIdx)
srcJarDir = filepath.Join(shardDir, srcJarDir)
outDir = filepath.Join(shardDir, outDir)
annoDir = filepath.Join(shardDir, annoDir)
}
rule := javac
if ctx.Config().IsEnvTrue("RBE_JAVAC") {
rule = javacRE
}
ctx.Build(pctx, android.BuildParams{
Rule: rule,
Description: desc,
Output: outputFile,
Inputs: srcFiles,
Implicits: deps,
Args: map[string]string{
"javacFlags": flags.javacFlags,
"bootClasspath": bootClasspath,
"classpath": classpath.FormJavaClassPath("-classpath"),
"processorpath": flags.processorPath.FormJavaClassPath("-processorpath"),
"processor": processor,
"srcJars": strings.Join(srcJars.Strings(), " "),
"srcJarDir": android.PathForModuleOut(ctx, intermediatesDir, srcJarDir).String(),
"outDir": android.PathForModuleOut(ctx, intermediatesDir, outDir).String(),
"annoDir": android.PathForModuleOut(ctx, intermediatesDir, annoDir).String(),
"javaVersion": flags.javaVersion.String(),
},
})
}
func TransformResourcesToJar(ctx android.ModuleContext, outputFile android.WritablePath,
jarArgs []string, deps android.Paths) {
rule := jar
if ctx.Config().IsEnvTrue("RBE_JAR") {
rule = jarRE
}
ctx.Build(pctx, android.BuildParams{
Rule: rule,
Description: "jar",
Output: outputFile,
Implicits: deps,
Args: map[string]string{
"jarArgs": strings.Join(proptools.NinjaAndShellEscapeList(jarArgs), " "),
},
})
}
func TransformJarsToJar(ctx android.ModuleContext, outputFile android.WritablePath, desc string,
jars android.Paths, manifest android.OptionalPath, stripDirEntries bool, filesToStrip []string,
dirsToStrip []string) {
var deps android.Paths
var jarArgs []string
if manifest.Valid() {
jarArgs = append(jarArgs, "-m ", manifest.String())
deps = append(deps, manifest.Path())
}
for _, dir := range dirsToStrip {
jarArgs = append(jarArgs, "-stripDir ", dir)
}
for _, file := range filesToStrip {
jarArgs = append(jarArgs, "-stripFile ", file)
}
// Remove any module-info.class files that may have come from prebuilt jars, they cause problems
// for downstream tools like desugar.
jarArgs = append(jarArgs, "-stripFile module-info.class")
if stripDirEntries {
jarArgs = append(jarArgs, "-D")
}
ctx.Build(pctx, android.BuildParams{
Rule: combineJar,
Description: desc,
Output: outputFile,
Inputs: jars,
Implicits: deps,
Args: map[string]string{
"jarArgs": strings.Join(jarArgs, " "),
},
})
}
func TransformJarJar(ctx android.ModuleContext, outputFile android.WritablePath,
classesJar android.Path, rulesFile android.Path) {
ctx.Build(pctx, android.BuildParams{
Rule: jarjar,
Description: "jarjar",
Output: outputFile,
Input: classesJar,
Implicit: rulesFile,
Args: map[string]string{
"rulesFile": rulesFile.String(),
},
})
}
func CheckJarPackages(ctx android.ModuleContext, classesJar android.Path, permittedPackages []string) android.ModuleOutPath {
outputFile := android.PathForModuleOut(ctx, "package-check", classesJar.Base())
ctx.Build(pctx, android.BuildParams{
Rule: packageCheck,
Description: "packageCheck",
Output: outputFile,
Input: classesJar,
Args: map[string]string{
"packages": strings.Join(permittedPackages, " "),
},
})
return outputFile
}
func TransformJetifier(ctx android.ModuleContext, outputFile android.WritablePath,
inputFile android.Path) {
ctx.Build(pctx, android.BuildParams{
Rule: jetifier,
Description: "jetifier",
Output: outputFile,
Input: inputFile,
})
}
func GenerateMainClassManifest(ctx android.ModuleContext, outputFile android.WritablePath, mainClass string) {
ctx.Build(pctx, android.BuildParams{
Rule: android.WriteFile,
Description: "manifest",
Output: outputFile,
Args: map[string]string{
"content": "Main-Class: " + mainClass + "\n",
},
})
}
func TransformZipAlign(ctx android.ModuleContext, outputFile android.WritablePath, inputFile android.Path) {
ctx.Build(pctx, android.BuildParams{
Rule: zipalign,
Description: "align",
Input: inputFile,
Output: outputFile,
})
}
type classpath android.Paths
func (x *classpath) formJoinedClassPath(optName string, sep string) string {
if optName != "" && !strings.HasSuffix(optName, "=") && !strings.HasSuffix(optName, " ") {
optName += " "
}
if len(*x) > 0 {
return optName + strings.Join(x.Strings(), sep)
} else {
return ""
}
}
func (x *classpath) FormJavaClassPath(optName string) string {
return x.formJoinedClassPath(optName, ":")
}
func (x *classpath) FormTurbineClassPath(optName string) string {
return x.formJoinedClassPath(optName, " ")
}
// FormRepeatedClassPath returns a list of arguments with the given optName prefixed to each element of the classpath.
func (x *classpath) FormRepeatedClassPath(optName string) []string {
if x == nil || *x == nil {
return nil
}
flags := make([]string, len(*x))
for i, v := range *x {
flags[i] = optName + v.String()
}
return flags
}
// Convert a classpath to an android.Paths
func (x *classpath) Paths() android.Paths {
return append(android.Paths(nil), (*x)...)
}
func (x *classpath) Strings() []string {
if x == nil {
return nil
}
ret := make([]string, len(*x))
for i, path := range *x {
ret[i] = path.String()
}
return ret
}
type systemModules struct {
dir android.Path
deps android.Paths
}
// Returns a --system argument in the form javac expects with -source 1.9 and the list of files to
// depend on. If forceEmpty is true, returns --system=none if the list is empty to ensure javac
// does not fall back to the default system modules.
func (x *systemModules) FormJavaSystemModulesPath(forceEmpty bool) (string, android.Paths) {
if x != nil {
return "--system=" + x.dir.String(), x.deps
} else if forceEmpty {
return "--system=none", nil
} else {
return "", nil
}
}
// Returns a --system argument in the form turbine expects with -source 1.9 and the list of files to
// depend on. If forceEmpty is true, returns --bootclasspath "" if the list is empty to ensure turbine
// does not fall back to the default bootclasspath.
func (x *systemModules) FormTurbineSystemModulesPath(forceEmpty bool) (string, android.Paths) {
if x != nil {
return "--system " + x.dir.String(), x.deps
} else if forceEmpty {
return `--bootclasspath ""`, nil
} else {
return "", nil
}
}