third_party/java/proguard/proguard6.2.2/docs/manual/optimizations.md
The optimization step of ProGuard can be switched off with the
-dontoptimize option. For more fine-grained
control over individual optimizations, experts can use the
-optimizations option, with a filter based
on the optimization names listed below. The filter works like any
filter in ProGuard.
The following wildcards are supported:
| |
|-----|-------------------------------------------------------
| ? | matches any single character in an optimization name.
| * | matches any part of an optimization name.
An optimization that is preceded by an exclamation mark '!' is excluded from further attempts to match with subsequent optimization names in the filter. Make sure to specify filters correctly, since they are not checked for potential typos.
For example,
"code/simplification/variable,code/simplification/arithmetic" only
performs the two specified peephole optimizations.
For example, "!method/propagation/*" performs all optimizations,
except the ones that propagate values between methods.
For example, "!code/simplification/advanced,code/simplification/*"
only performs all peephole optimizations.
Some optimizations necessarily imply other optimizations. These are then indicated. Note that the list is likely to change for newer versions, as optimizations are added and reorganized.
library/gson
: Optimizes usages of the Gson library, whenever possible. See Gson
optimization for more details.
class/marking/final
: Marks classes as final, whenever possible.
class/unboxing/enum
: Simplifies enum types to integer constants, whenever possible.
class/merging/vertical
: Merges classes vertically in the class hierarchy, whenever possible.
class/merging/horizontal
: Merges classes horizontally in the class hierarchy, whenever possible.
class/merging/wrapper
: Merges wrapper classes with their wrapped classes, whenever possible.
field/removal/writeonly<div>(⇒ code/removal/advanced)</div>
: Removes write-only fields.
field/marking/private
: Marks fields as private, whenever possible.
field/propagation/value<div>(⇒ code/simplification/advanced)</div>
: Propagates the values of fields across methods.
method/marking/private
: Marks methods as private, whenever possible (devirtualization).
method/marking/static<div>(⇒ code/removal/advanced)</div>
: Marks methods as static, whenever possible (devirtualization).
method/marking/final
: Marks methods as final, whenever possible.
method/marking/synchronized
: Unmarks methods as synchronized, whenever possible.
method/removal/parameter<div>(⇒ code/removal/advanced)</div>
: Removes unused method parameters.
method/propagation/parameter<div>(⇒ code/simplification/advanced)</div>
: Propagates the values of method parameters from method invocations to the
invoked methods.
method/propagation/returnvalue<div>(⇒ code/simplification/advanced)</div>
: Propagates the values of method return values from methods to their
invocations.
method/inlining/short
: Inlines short methods.
method/inlining/unique
: Inlines methods that are only called once.
method/inlining/tailrecursion
: Simplifies tail recursion calls, whenever possible.
code/merging
: Merges identical blocks of code by modifying branch targets.
code/simplification/variable
: Performs peephole optimizations for variable loading and storing.
code/simplification/arithmetic
: Performs peephole optimizations for arithmetic instructions.
code/simplification/cast
: Performs peephole optimizations for casting operations.
code/simplification/field
: Performs peephole optimizations for field loading and storing.
code/simplification/branch<div>(⇒ code/removal/simple)</div>
: Performs peephole optimizations for branch instructions.
code/simplification/object
: Performs peephole optimizations for object instantiation.
code/simplification/string
: Performs peephole optimizations for constant strings.
code/simplification/math
: Performs peephole optimizations for Math method calls.
code/simplification/advanced<div>(best used with code/removal/advanced)</div>
: Simplifies code based on control flow analysis and data flow analysis.
code/removal/advanced<div>(⇒ code/removal/exception)</div>
: Removes dead code based on control flow analysis and data flow analysis.
code/removal/simple<div>(⇒ code/removal/exception)</div>
: Removes dead code based on a simple control flow analysis.
code/removal/variable
: Removes unused variables from the local variable frame.
code/removal/exception
: Removes exceptions with empty try blocks.
code/allocation/variable
: Optimizes variable allocation on the local variable frame.
ProGuard also provides some unofficial settings to control
optimizations, that may disappear in future versions. These are Java
system properties, which can be set as JVM arguments (with -D...):
maximum.inlined.code.length (default = 8 bytes)
: Specifies the maximum code length (expressed in bytes) of short methods
that are eligible to be inlined. Inlining methods that are too long may
unnecessarily inflate the code size.
maximum.resulting.code.length (default = 8000 bytes for JSE, 2000 bytes for JME)
: Specifies the maximum resulting code length (expressed in bytes) allowed
when inlining methods. Many Java virtual machines do not apply just-in-time
compilation to methods that are too long, so it's important not to let them
grow too large.
optimize.conservatively (default = unset)
: Allows input code with ordinary instructions intentionally throwing
NullPointerException, ArrayIndexOutOfBoundsException, or
ClassCastException, without any other useful purposes. By default,
ProGuard may just discard such seemingly useless instructions,
resulting in better optimization of most common code.
ProGuard optimizes Gson code by detecting which domain classes are serialized using the Gson library. It replaces the reflection-based implementation of GSON for reading and writing fields with injected and optimized code that accesses the fields of the domain classes directly when reading and writing JSON. The benefits of this optimization are the following:
The Gson optimization is enabled by default and doesn't require any additional configuration, as long as the application code doesn't use unsupported Gson features(see Known limitations).
ProGuard can not optimize the following use cases of Gson:
@JsonAdapter@Since@UntilexcludeFieldsWithModifiersetFieldNamingPolicyWhen one of the above Gson features is used, ProGuard automatically preserves the original Gson implementation for all affected domain classes.
This means that the serialized fields of these domain classes need to be explicitely kept again in the DexGuard configuration so that they can be safely accessed through reflection.