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android_frameworks_base/tools/aapt2/java/JavaClassGenerator.cpp
Ryan Mitchell 326e35ffaf Add <macro> tag to aapt2 
AAPT2 Macros are compile-time resources definitions that are expanded
when referenced during the link phase.

A macro must be defined in the res/values.xml directory. A macro
definition for a macro named "foo" looks like the following:
 <macro name="foo">contents</macro>

When "@macro/foo" is used in the res/values directory or in a compiled
XML file, the contents of the macro replace the macro reference and
then the substituted contents are compiled and linked. If the macro
contents reference xml namespaces from its original definition, the
namespaces of the original macro definition will be used to determine
which package is being referenced.

Macros can be used anywhere resources can be referenced using the
@package:type/entry syntax.

Macros are not included in the final resource table or the R.java since
they are not actual resources.

Bug: 175616308
Test: aapt2_tests
Change-Id: I48b29ab6564357b32b4b4e32bff7ef06036382bc
2021-04-28 14:58:23 -07:00

674 lines
26 KiB
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/*
* Copyright (C) 2015 The Android Open Source Project
*
* 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.
*/
#include "java/JavaClassGenerator.h"
#include <algorithm>
#include <ostream>
#include <set>
#include <sstream>
#include <tuple>
#include "android-base/errors.h"
#include "android-base/logging.h"
#include "android-base/stringprintf.h"
#include "androidfw/StringPiece.h"
#include "NameMangler.h"
#include "Resource.h"
#include "ResourceTable.h"
#include "ResourceValues.h"
#include "SdkConstants.h"
#include "ValueVisitor.h"
#include "java/AnnotationProcessor.h"
#include "java/ClassDefinition.h"
#include "process/SymbolTable.h"
using ::aapt::io::OutputStream;
using ::aapt::text::Printer;
using ::android::StringPiece;
using ::android::base::StringPrintf;
namespace aapt {
static const std::set<StringPiece> sJavaIdentifiers = {
"abstract", "assert", "boolean", "break", "byte",
"case", "catch", "char", "class", "const",
"continue", "default", "do", "double", "else",
"enum", "extends", "final", "finally", "float",
"for", "goto", "if", "implements", "import",
"instanceof", "int", "interface", "long", "native",
"new", "package", "private", "protected", "public",
"return", "short", "static", "strictfp", "super",
"switch", "synchronized", "this", "throw", "throws",
"transient", "try", "void", "volatile", "while",
"true", "false", "null"};
static bool IsValidSymbol(const StringPiece& symbol) {
return sJavaIdentifiers.find(symbol) == sJavaIdentifiers.end();
}
// Java symbols can not contain . or -, but those are valid in a resource name.
// Replace those with '_'.
std::string JavaClassGenerator::TransformToFieldName(const StringPiece& symbol) {
std::string output = symbol.to_string();
for (char& c : output) {
if (c == '.' || c == '-') {
c = '_';
}
}
return output;
}
// Transforms an attribute in a styleable to the Java field name:
//
// <declare-styleable name="Foo">
// <attr name="android:bar" />
// <attr name="bar" />
// </declare-styleable>
//
// Foo_android_bar
// Foo_bar
static std::string TransformNestedAttr(const ResourceNameRef& attr_name,
const std::string& styleable_class_name,
const StringPiece& package_name_to_generate) {
std::string output = styleable_class_name;
// We may reference IDs from other packages, so prefix the entry name with
// the package.
if (!attr_name.package.empty() &&
package_name_to_generate != attr_name.package) {
output += "_" + JavaClassGenerator::TransformToFieldName(attr_name.package);
}
output += "_" + JavaClassGenerator::TransformToFieldName(attr_name.entry);
return output;
}
static void AddAttributeFormatDoc(AnnotationProcessor* processor, Attribute* attr) {
const uint32_t type_mask = attr->type_mask;
if (type_mask & android::ResTable_map::TYPE_REFERENCE) {
processor->AppendComment(
"<p>May be a reference to another resource, in the form\n"
"\"<code>@[+][<i>package</i>:]<i>type</i>/<i>name</i></code>\" or a "
"theme\n"
"attribute in the form\n"
"\"<code>?[<i>package</i>:]<i>type</i>/<i>name</i></code>\".");
}
if (type_mask & android::ResTable_map::TYPE_STRING) {
processor->AppendComment(
"<p>May be a string value, using '\\\\;' to escape characters such as\n"
"'\\\\n' or '\\\\uxxxx' for a unicode character;");
}
if (type_mask & android::ResTable_map::TYPE_INTEGER) {
processor->AppendComment(
"<p>May be an integer value, such as \"<code>100</code>\".");
}
if (type_mask & android::ResTable_map::TYPE_BOOLEAN) {
processor->AppendComment(
"<p>May be a boolean value, such as \"<code>true</code>\" or\n"
"\"<code>false</code>\".");
}
if (type_mask & android::ResTable_map::TYPE_COLOR) {
processor->AppendComment(
"<p>May be a color value, in the form of "
"\"<code>#<i>rgb</i></code>\",\n"
"\"<code>#<i>argb</i></code>\", \"<code>#<i>rrggbb</i></code>\", or \n"
"\"<code>#<i>aarrggbb</i></code>\".");
}
if (type_mask & android::ResTable_map::TYPE_FLOAT) {
processor->AppendComment(
"<p>May be a floating point value, such as \"<code>1.2</code>\".");
}
if (type_mask & android::ResTable_map::TYPE_DIMENSION) {
processor->AppendComment(
"<p>May be a dimension value, which is a floating point number "
"appended with a\n"
"unit such as \"<code>14.5sp</code>\".\n"
"Available units are: px (pixels), dp (density-independent pixels),\n"
"sp (scaled pixels based on preferred font size), in (inches), and\n"
"mm (millimeters).");
}
if (type_mask & android::ResTable_map::TYPE_FRACTION) {
processor->AppendComment(
"<p>May be a fractional value, which is a floating point number "
"appended with\n"
"either % or %p, such as \"<code>14.5%</code>\".\n"
"The % suffix always means a percentage of the base size;\n"
"the optional %p suffix provides a size relative to some parent "
"container.");
}
if (type_mask &
(android::ResTable_map::TYPE_FLAGS | android::ResTable_map::TYPE_ENUM)) {
if (type_mask & android::ResTable_map::TYPE_FLAGS) {
processor->AppendComment(
"<p>Must be one or more (separated by '|') of the following "
"constant values.</p>");
} else {
processor->AppendComment(
"<p>Must be one of the following constant values.</p>");
}
processor->AppendComment(
"<table>\n<colgroup align=\"left\" />\n"
"<colgroup align=\"left\" />\n"
"<colgroup align=\"left\" />\n"
"<tr><th>Constant</th><th>Value</th><th>Description</th></tr>\n");
for (const Attribute::Symbol& symbol : attr->symbols) {
std::stringstream line;
line << "<tr><td>" << symbol.symbol.name.value().entry << "</td>"
<< "<td>" << std::hex << symbol.value << std::dec << "</td>"
<< "<td>" << util::TrimWhitespace(symbol.symbol.GetComment())
<< "</td></tr>";
processor->AppendComment(line.str());
}
processor->AppendComment("</table>");
}
}
JavaClassGenerator::JavaClassGenerator(IAaptContext* context,
ResourceTable* table,
const JavaClassGeneratorOptions& options)
: context_(context), table_(table), options_(options) {}
bool JavaClassGenerator::SkipSymbol(Visibility::Level level) {
switch (options_.types) {
case JavaClassGeneratorOptions::SymbolTypes::kAll:
return false;
case JavaClassGeneratorOptions::SymbolTypes::kPublicPrivate:
return level == Visibility::Level::kUndefined;
case JavaClassGeneratorOptions::SymbolTypes::kPublic:
return level != Visibility::Level::kPublic;
}
return true;
}
// Whether or not to skip writing this symbol.
bool JavaClassGenerator::SkipSymbol(const Maybe<SymbolTable::Symbol>& symbol) {
return !symbol || (options_.types == JavaClassGeneratorOptions::SymbolTypes::kPublic &&
!symbol.value().is_public);
}
struct StyleableAttr {
const Reference* attr_ref = nullptr;
std::string field_name;
Maybe<SymbolTable::Symbol> symbol;
};
static bool operator<(const StyleableAttr& lhs, const StyleableAttr& rhs) {
const ResourceId lhs_id = lhs.attr_ref->id.value_or_default(ResourceId(0));
const ResourceId rhs_id = rhs.attr_ref->id.value_or_default(ResourceId(0));
if (lhs_id == rhs_id) {
return lhs.attr_ref->name.value() < rhs.attr_ref->name.value();
}
return cmp_ids_dynamic_after_framework(lhs_id, rhs_id);
}
static FieldReference GetRFieldReference(const ResourceName& name,
StringPiece fallback_package_name) {
const std::string package_name =
name.package.empty() ? fallback_package_name.to_string() : name.package;
const std::string entry = JavaClassGenerator::TransformToFieldName(name.entry);
return FieldReference(
StringPrintf("%s.R.%s.%s", package_name.c_str(), to_string(name.type).data(), entry.c_str()));
}
bool JavaClassGenerator::ProcessStyleable(const ResourceNameRef& name, const ResourceId& id,
const Styleable& styleable,
const StringPiece& package_name_to_generate,
ClassDefinition* out_class_def,
MethodDefinition* out_rewrite_method,
Printer* r_txt_printer) {
const std::string array_field_name = TransformToFieldName(name.entry);
std::unique_ptr<ResourceArrayMember> array_def =
util::make_unique<ResourceArrayMember>(array_field_name);
// The array must be sorted by resource ID.
std::vector<StyleableAttr> sorted_attributes;
sorted_attributes.reserve(styleable.entries.size());
for (const auto& attr : styleable.entries) {
// If we are not encoding final attributes, the styleable entry may have no
// ID if we are building a static library.
CHECK(!options_.use_final || attr.id) << "no ID set for Styleable entry";
CHECK(bool(attr.name)) << "no name set for Styleable entry";
// We will need the unmangled, transformed name in the comments and the field,
// so create it once and cache it in this StyleableAttr data structure.
StyleableAttr styleable_attr;
styleable_attr.attr_ref = &attr;
// The field name for this attribute is prefixed by the name of this styleable and
// the package it comes from.
styleable_attr.field_name =
TransformNestedAttr(attr.name.value(), array_field_name, package_name_to_generate);
Reference ref = attr;
if (attr.name.value().package.empty()) {
// If the resource does not have a package name, set the package to the unmangled package name
// of the styleable declaration because attributes without package names would have been
// declared in the same package as the styleable.
ref.name = ResourceName(package_name_to_generate, ref.name.value().type,
ref.name.value().entry);
}
// Look up the symbol so that we can write out in the comments what are possible legal values
// for this attribute.
const SymbolTable::Symbol* symbol = context_->GetExternalSymbols()->FindByReference(ref);
if (symbol && symbol->attribute) {
// Copy the symbol data structure because the returned instance can be destroyed.
styleable_attr.symbol = *symbol;
}
sorted_attributes.push_back(std::move(styleable_attr));
}
// Sort the attributes by ID.
std::sort(sorted_attributes.begin(), sorted_attributes.end());
// Build the JavaDoc comment for the Styleable array. This has references to child attributes
// and what possible values can be used for them.
const size_t attr_count = sorted_attributes.size();
if (out_class_def != nullptr && attr_count > 0) {
std::stringstream styleable_comment;
if (!styleable.GetComment().empty()) {
styleable_comment << styleable.GetComment() << "\n";
} else {
// Apply a default intro comment if the styleable has no comments of its own.
styleable_comment << "Attributes that can be used with a " << array_field_name << ".\n";
}
styleable_comment << "<p>Includes the following attributes:</p>\n"
"<table>\n"
"<colgroup align=\"left\" />\n"
"<colgroup align=\"left\" />\n"
"<tr><th>Attribute</th><th>Description</th></tr>\n";
// Removed and hidden attributes are public but hidden from the documentation, so don't emit
// them as part of the class documentation.
std::vector<StyleableAttr> documentation_attrs = sorted_attributes;
auto documentation_remove_iter = std::remove_if(documentation_attrs.begin(),
documentation_attrs.end(),
[&](StyleableAttr entry) -> bool {
if (SkipSymbol(entry.symbol)) {
return true;
}
const StringPiece attr_comment_line = entry.symbol.value().attribute->GetComment();
return attr_comment_line.contains("@removed") || attr_comment_line.contains("@hide");
});
documentation_attrs.erase(documentation_remove_iter, documentation_attrs.end());
// Build the table of attributes with their links and names.
for (const StyleableAttr& entry : documentation_attrs) {
const ResourceName& attr_name = entry.attr_ref->name.value();
styleable_comment << "<tr><td><code>{@link #" << entry.field_name << " "
<< (!attr_name.package.empty() ? attr_name.package
: package_name_to_generate)
<< ":" << attr_name.entry << "}</code></td>";
// Only use the comment up until the first '.'. This is to stay compatible with
// the way old AAPT did it (presumably to keep it short and to avoid including
// annotations like @hide which would affect this Styleable).
StringPiece attr_comment_line = entry.symbol.value().attribute->GetComment();
styleable_comment << "<td>" << AnnotationProcessor::ExtractFirstSentence(attr_comment_line)
<< "</td></tr>\n";
}
styleable_comment << "</table>\n";
// Generate the @see lines for each attribute.
for (const StyleableAttr& entry : documentation_attrs) {
styleable_comment << "@see #" << entry.field_name << "\n";
}
array_def->GetCommentBuilder()->AppendComment(styleable_comment.str());
}
if (r_txt_printer != nullptr) {
r_txt_printer->Print("int[] styleable ").Print(array_field_name).Print(" {");
}
// Add the ResourceIds to the array member.
for (size_t i = 0; i < attr_count; i++) {
const StyleableAttr& attr = sorted_attributes[i];
std::string r_txt_contents;
if (attr.symbol && attr.symbol.value().is_dynamic) {
if (!attr.attr_ref->name) {
error_ = "unable to determine R.java field name of dynamic resource";
return false;
}
const FieldReference field_name =
GetRFieldReference(attr.attr_ref->name.value(), package_name_to_generate);
array_def->AddElement(field_name);
r_txt_contents = field_name.ref;
} else {
const ResourceId attr_id = attr.attr_ref->id.value_or_default(ResourceId(0));
array_def->AddElement(attr_id);
r_txt_contents = to_string(attr_id);
}
if (r_txt_printer != nullptr) {
if (i != 0) {
r_txt_printer->Print(",");
}
r_txt_printer->Print(" ").Print(r_txt_contents);
}
}
if (r_txt_printer != nullptr) {
r_txt_printer->Println(" }");
}
// Add the Styleable array to the Styleable class.
if (out_class_def != nullptr) {
out_class_def->AddMember(std::move(array_def));
}
// Now we emit the indices into the array.
for (size_t i = 0; i < attr_count; i++) {
const StyleableAttr& styleable_attr = sorted_attributes[i];
if (SkipSymbol(styleable_attr.symbol)) {
continue;
}
if (out_class_def != nullptr) {
StringPiece comment = styleable_attr.attr_ref->GetComment();
if (styleable_attr.symbol.value().attribute && comment.empty()) {
comment = styleable_attr.symbol.value().attribute->GetComment();
}
if (comment.contains("@removed")) {
// Removed attributes are public but hidden from the documentation, so
// don't emit them as part of the class documentation.
continue;
}
const ResourceName& attr_name = styleable_attr.attr_ref->name.value();
StringPiece package_name = attr_name.package;
if (package_name.empty()) {
package_name = package_name_to_generate;
}
std::unique_ptr<IntMember> index_member =
util::make_unique<IntMember>(sorted_attributes[i].field_name, static_cast<uint32_t>(i));
AnnotationProcessor* attr_processor = index_member->GetCommentBuilder();
if (!comment.empty()) {
attr_processor->AppendComment("<p>\n@attr description");
attr_processor->AppendComment(comment);
} else {
std::stringstream default_comment;
default_comment << "<p>This symbol is the offset where the "
<< "{@link " << package_name << ".R.attr#"
<< TransformToFieldName(attr_name.entry) << "}\n"
<< "attribute's value can be found in the "
<< "{@link #" << array_field_name << "} array.";
attr_processor->AppendComment(default_comment.str());
}
attr_processor->AppendNewLine();
AddAttributeFormatDoc(attr_processor, styleable_attr.symbol.value().attribute.get());
attr_processor->AppendNewLine();
attr_processor->AppendComment(
StringPrintf("@attr name %s:%s", package_name.data(), attr_name.entry.data()));
out_class_def->AddMember(std::move(index_member));
}
if (r_txt_printer != nullptr) {
r_txt_printer->Println(
StringPrintf("int styleable %s %zd", sorted_attributes[i].field_name.c_str(), i));
}
}
return true;
}
void JavaClassGenerator::ProcessResource(const ResourceNameRef& name, const ResourceId& id,
const ResourceEntry& entry, ClassDefinition* out_class_def,
MethodDefinition* out_rewrite_method,
text::Printer* r_txt_printer) {
ResourceId real_id = id;
if (context_->GetMinSdkVersion() < SDK_O && name.type == ResourceType::kId &&
id.package_id() > kAppPackageId) {
// Workaround for feature splits using package IDs > 0x7F.
// See b/37498913.
real_id = ResourceId(kAppPackageId, id.package_id(), id.entry_id());
}
const std::string field_name = TransformToFieldName(name.entry);
if (out_class_def != nullptr) {
auto resource_member =
util::make_unique<ResourceMember>(field_name, real_id, entry.visibility.staged_api);
// Build the comments and annotations for this entry.
AnnotationProcessor* processor = resource_member->GetCommentBuilder();
// Add the comments from any <public> tags.
if (entry.visibility.level != Visibility::Level::kUndefined) {
processor->AppendComment(entry.visibility.comment);
}
// Add the comments from all configurations of this entry.
for (const auto& config_value : entry.values) {
processor->AppendComment(config_value->value->GetComment());
}
// If this is an Attribute, append the format Javadoc.
if (!entry.values.empty()) {
if (Attribute* attr = ValueCast<Attribute>(entry.values.front()->value.get())) {
// We list out the available values for the given attribute.
AddAttributeFormatDoc(processor, attr);
}
}
out_class_def->AddMember(std::move(resource_member));
}
if (r_txt_printer != nullptr) {
r_txt_printer->Print("int ")
.Print(to_string(name.type))
.Print(" ")
.Print(field_name)
.Print(" ")
.Println(real_id.to_string());
}
if (out_rewrite_method != nullptr) {
const StringPiece& type_str = to_string(name.type);
out_rewrite_method->AppendStatement(
StringPrintf("%s.%s = (%s.%s & 0x00ffffff) | packageIdBits;", type_str.data(),
field_name.data(), type_str.data(), field_name.data()));
}
}
Maybe<std::string> JavaClassGenerator::UnmangleResource(const StringPiece& package_name,
const StringPiece& package_name_to_generate,
const ResourceEntry& entry) {
if (SkipSymbol(entry.visibility.level)) {
return {};
}
std::string unmangled_package;
std::string unmangled_name = entry.name;
if (NameMangler::Unmangle(&unmangled_name, &unmangled_package)) {
// The entry name was mangled, and we successfully unmangled it.
// Check that we want to emit this symbol.
if (package_name_to_generate != unmangled_package) {
// Skip the entry if it doesn't belong to the package we're writing.
return {};
}
} else if (package_name_to_generate != package_name) {
// We are processing a mangled package name,
// but this is a non-mangled resource.
return {};
}
return {std::move(unmangled_name)};
}
bool JavaClassGenerator::ProcessType(const StringPiece& package_name_to_generate,
const ResourceTablePackage& package,
const ResourceTableType& type,
ClassDefinition* out_type_class_def,
MethodDefinition* out_rewrite_method_def,
Printer* r_txt_printer) {
for (const auto& entry : type.entries) {
const Maybe<std::string> unmangled_name =
UnmangleResource(package.name, package_name_to_generate, *entry);
if (!unmangled_name) {
continue;
}
// Create an ID if there is one (static libraries don't need one).
ResourceId id;
if (entry->id) {
id = entry->id.value();
}
// We need to make sure we hide the fact that we are generating kAttrPrivate attributes.
const ResourceNameRef resource_name(
package_name_to_generate,
type.type == ResourceType::kAttrPrivate ? ResourceType::kAttr : type.type,
unmangled_name.value());
// Check to see if the unmangled name is a valid Java name (not a keyword).
if (!IsValidSymbol(unmangled_name.value())) {
std::stringstream err;
err << "invalid symbol name '" << resource_name << "'";
error_ = err.str();
return false;
}
if (resource_name.type == ResourceType::kStyleable) {
CHECK(!entry->values.empty());
const auto styleable = reinterpret_cast<const Styleable*>(entry->values.front()->value.get());
if (!ProcessStyleable(resource_name, id, *styleable, package_name_to_generate,
out_type_class_def, out_rewrite_method_def, r_txt_printer)) {
return false;
}
} else {
ProcessResource(resource_name, id, *entry, out_type_class_def, out_rewrite_method_def,
r_txt_printer);
}
}
return true;
}
bool JavaClassGenerator::Generate(const StringPiece& package_name_to_generate, OutputStream* out,
OutputStream* out_r_txt) {
return Generate(package_name_to_generate, package_name_to_generate, out, out_r_txt);
}
static void AppendJavaDocAnnotations(const std::vector<std::string>& annotations,
AnnotationProcessor* processor) {
for (const std::string& annotation : annotations) {
std::string proper_annotation = "@";
proper_annotation += annotation;
processor->AppendComment(proper_annotation);
}
}
bool JavaClassGenerator::Generate(const StringPiece& package_name_to_generate,
const StringPiece& out_package_name, OutputStream* out,
OutputStream* out_r_txt) {
ClassDefinition r_class("R", ClassQualifier::kNone, true);
std::unique_ptr<MethodDefinition> rewrite_method;
std::unique_ptr<Printer> r_txt_printer;
if (out_r_txt != nullptr) {
r_txt_printer = util::make_unique<Printer>(out_r_txt);
}
// Generate an onResourcesLoaded() callback if requested.
if (out != nullptr && options_.rewrite_callback_options) {
rewrite_method =
util::make_unique<MethodDefinition>("public static void onResourcesLoaded(int p)");
for (const std::string& package_to_callback :
options_.rewrite_callback_options.value().packages_to_callback) {
rewrite_method->AppendStatement(
StringPrintf("%s.R.onResourcesLoaded(p);", package_to_callback.data()));
}
rewrite_method->AppendStatement("final int packageIdBits = p << 24;");
}
const bool is_public = (options_.types == JavaClassGeneratorOptions::SymbolTypes::kPublic);
for (const auto& package : table_->packages) {
for (const auto& type : package->types) {
if (type->type == ResourceType::kAttrPrivate || type->type == ResourceType::kMacro) {
// We generate kAttrPrivate as part of the kAttr type, so skip them here.
// Macros are not actual resources, so skip them as well.
continue;
}
// Stay consistent with AAPT and generate an empty type class if the R class is public.
const bool force_creation_if_empty = is_public;
std::unique_ptr<ClassDefinition> class_def;
if (out != nullptr) {
class_def = util::make_unique<ClassDefinition>(
to_string(type->type), ClassQualifier::kStatic, force_creation_if_empty);
}
if (!ProcessType(package_name_to_generate, *package, *type, class_def.get(),
rewrite_method.get(), r_txt_printer.get())) {
return false;
}
if (type->type == ResourceType::kAttr) {
// Also include private attributes in this same class.
if (const ResourceTableType* priv_type = package->FindType(ResourceType::kAttrPrivate)) {
if (!ProcessType(package_name_to_generate, *package, *priv_type, class_def.get(),
rewrite_method.get(), r_txt_printer.get())) {
return false;
}
}
}
if (out != nullptr && type->type == ResourceType::kStyleable && is_public) {
// When generating a public R class, we don't want Styleable to be part
// of the API. It is only emitted for documentation purposes.
class_def->GetCommentBuilder()->AppendComment("@doconly");
}
if (out != nullptr) {
AppendJavaDocAnnotations(options_.javadoc_annotations, class_def->GetCommentBuilder());
r_class.AddMember(std::move(class_def));
}
}
}
if (rewrite_method != nullptr) {
r_class.AddMember(std::move(rewrite_method));
}
if (out != nullptr) {
AppendJavaDocAnnotations(options_.javadoc_annotations, r_class.GetCommentBuilder());
ClassDefinition::WriteJavaFile(&r_class, out_package_name, options_.use_final, !is_public, out);
}
return true;
}
} // namespace aapt
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