commit	99446b06ce330d3b8ecd99fc5987d8fa9a4c4a9d	[log] [tgz]
author	Mathias Rav <mathiasr@google.com>	Thu May 03 12:37:38 2018 +0200
committer	Mathias Rav <mathiasr@google.com>	Thu May 03 12:37:38 2018 +0200
tree	8b799a23b881f2a8b8936d0ad53221aace732ffd
parent	812b386634cec17c187c48d64449e36a12916db1 [diff]

IRBuilder: Distinguish incoming and outgoing locals for instructions

Split SourceCode.getCurrentLocal() into getIncomingLocal() and
getOutgoingLocal().  Similarly, split IRBuilder.getLocalValue() into
getIncomingLocalValue() and getOutgoingLocalValue() (which defer to the
SourceCode methods).

Allow calling IRBuilder.addDebugLocalStart(register, local) in the no-op
case when the most recent instruction introduced the local to start.
This makes it easier for JarSourceCode since it can just start all
locals, even those that were just written with new local info.

Make JarState transactional around each instruction: Before building an
instruction, JarState.beginTransaction() is called which reads the local
variable table to find locals that start/end right after the instruction
to build. JarState.writeLocal() doesn't update local information until
JarState.endTransaction() is called, at which point JarState verifies
that the updated local information matches the register writes.

Other small changes:

* CodeRewriter.simplifyDebugLocals(): Don't simplify if the local being
  simplified changes in-between.

* CodeRewriter.simplifyDebugLocals(): Move unrelated debug uses to
  previous instruction instead of inValue.definition.

* DexType.isInterface(): More helpful assertion error.

* JarState.pop(): More helpful assertion error.

* CfRegisterAllocator: Assert that unhandled does not contain Argument.

* Add more checks in IRCode.consistentBlockInstructions().

* JumpInstruction.toString(): Catch AssertionError in getNumber().

* Value.replaceDebugUser(): Remove DebugUse.START when moving it to its
  definition

Bug: 77522100
Change-Id: I808ca8c07135538f5764a70d197f4b54301d7743

28 files changed

tree: 8b799a23b881f2a8b8936d0ad53221aace732ffd

README.md

D8 dexer and R8 shrinker

The R8 repo contains two tools:

D8 is a dexer that converts java byte code to dex code.
R8 is a java program shrinking and minification tool that converts java byte code to optimized dex code.

D8 is a replacement for the DX dexer and R8 is a replacement for the Proguard shrinking and minification tool.

Downloading and building

The R8 project uses depot_tools from the chromium project to manage dependencies. Install depot_tools and add it to your path before proceeding.

The R8 project uses Java 8 language features and requires a Java 8 compiler and runtime system.

Typical steps to download and build:

$ git clone https://r8.googlesource.com/r8
$ cd r8
$ tools/gradle.py d8 r8

The tools/gradle.py script will bootstrap using depot_tools to download a version of gradle to use for building on the first run. This will produce two jar files: build/libs/d8.jar and build/libs/r8.jar.

Running D8

The D8 dexer has a simple command-line interface with only a few options.

The most important option is whether to build in debug or release mode. Debug is the default mode and includes debugging information in the resulting dex files. Debugging information contains information about local variables used when debugging dex code. This information is not useful when shipping final Android apps to users and therefore, final builds should use the --release flag to remove this debugging information to produce smaller dex files.

Typical invocations of D8 to produce dex file(s) in the out directoy:

Debug mode build:

$ java -jar build/libs/d8.jar --output out input.jar

Release mode build:

$ java -jar build/libs/d8.jar --release --output out input.jar

The full set of D8 options can be obtained by running the command line tool with the --help option.

Running R8

R8 is a Proguard replacement for whole-program optimization, shrinking and minification. R8 uses the Proguard keep rule format for specifying the entry points for an application.

Typical invocations of R8 to produce optimized dex file(s) in the out directory:

$ java -jar build/libs/r8.jar --release --output out --pg-conf proguard.cfg input.jar

The full set of R8 options can be obtained by running the command line tool with the --help option.

Testing

Typical steps to run tests:

$ tools/test.py --no_internal

The tools/test.py script will use depot_tools to download a lot of tests and test dependencies on the first run. This includes prebuilt version of the art runtime on which to validate the produced dex code.

Contributing

In order to contribute to D8/R8 you have to sign the Contributor License Agreement. If your contribution is owned by your employer you need the Corporate Contributor License Agreement.

Once the license agreement is in place, you can upload your patches using ‘git cl’ which is available in depot_tools. Once you have a change that you are happy with you should make sure that it passes all tests and then upload the change to our code review tool using:

$ git cl upload

On your first upload you will be asked to acquire credentials. Follow the instructions given by git cl upload.

On successful uploads a link to the code review is printed in the output of the upload command. In the code review tool you can assign reviewers and mark the change ready for review. At that point the code review tool will send emails to reviewers.

Getting help

For questions, reach out to us at r8-dev@googlegroups.com.

For D8, find known issues in the D8 issue tracker or file a new D8 bug report.

For R8, find known issues in the R8 issue tracker or file a new R8 bug report.