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v811_spc009/frameworks/base/tools/aapt2/xml/XmlPullParser.cpp

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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 <iostream>
#include <string>
#include "util/Maybe.h"
#include "util/Util.h"
#include "xml/XmlPullParser.h"
#include "xml/XmlUtil.h"
using ::aapt::io::InputStream;
using ::android::StringPiece;
namespace aapt {
namespace xml {
constexpr char kXmlNamespaceSep = 1;
XmlPullParser::XmlPullParser(InputStream* in) : in_(in), empty_(), depth_(0) {
parser_ = XML_ParserCreateNS(nullptr, kXmlNamespaceSep);
XML_SetUserData(parser_, this);
XML_SetElementHandler(parser_, StartElementHandler, EndElementHandler);
XML_SetNamespaceDeclHandler(parser_, StartNamespaceHandler,
EndNamespaceHandler);
XML_SetCharacterDataHandler(parser_, CharacterDataHandler);
XML_SetCommentHandler(parser_, CommentDataHandler);
XML_SetCdataSectionHandler(parser_, StartCdataSectionHandler, EndCdataSectionHandler);
event_queue_.push(EventData{Event::kStartDocument, 0, depth_++});
}
XmlPullParser::~XmlPullParser() {
XML_ParserFree(parser_);
}
XmlPullParser::Event XmlPullParser::Next() {
const Event currentEvent = event();
if (currentEvent == Event::kBadDocument || currentEvent == Event::kEndDocument) {
return currentEvent;
}
event_queue_.pop();
while (event_queue_.empty()) {
const char* buffer = nullptr;
size_t buffer_size = 0;
bool done = false;
if (!in_->Next(reinterpret_cast<const void**>(&buffer), &buffer_size)) {
if (in_->HadError()) {
error_ = in_->GetError();
event_queue_.push(EventData{Event::kBadDocument});
break;
}
done = true;
}
if (XML_Parse(parser_, buffer, buffer_size, done) == XML_STATUS_ERROR) {
error_ = XML_ErrorString(XML_GetErrorCode(parser_));
event_queue_.push(EventData{Event::kBadDocument});
break;
}
if (done) {
event_queue_.push(EventData{Event::kEndDocument, 0, 0});
}
}
Event next_event = event();
// Record namespace prefixes and package names so that we can do our own
// handling of references that use namespace aliases.
if (next_event == Event::kStartNamespace ||
next_event == Event::kEndNamespace) {
Maybe<ExtractedPackage> result =
ExtractPackageFromNamespace(namespace_uri());
if (next_event == Event::kStartNamespace) {
if (result) {
package_aliases_.emplace_back(
PackageDecl{namespace_prefix(), std::move(result.value())});
}
} else {
if (result) {
package_aliases_.pop_back();
}
}
}
return next_event;
}
XmlPullParser::Event XmlPullParser::event() const {
return event_queue_.front().event;
}
const std::string& XmlPullParser::error() const { return error_; }
const std::string& XmlPullParser::comment() const {
return event_queue_.front().data1;
}
size_t XmlPullParser::line_number() const {
return event_queue_.front().line_number;
}
size_t XmlPullParser::depth() const { return event_queue_.front().depth; }
const std::string& XmlPullParser::text() const {
if (event() != Event::kText) {
return empty_;
}
return event_queue_.front().data1;
}
const std::string& XmlPullParser::namespace_prefix() const {
const Event current_event = event();
if (current_event != Event::kStartNamespace &&
current_event != Event::kEndNamespace) {
return empty_;
}
return event_queue_.front().data1;
}
const std::string& XmlPullParser::namespace_uri() const {
const Event current_event = event();
if (current_event != Event::kStartNamespace &&
current_event != Event::kEndNamespace) {
return empty_;
}
return event_queue_.front().data2;
}
Maybe<ExtractedPackage> XmlPullParser::TransformPackageAlias(const StringPiece& alias) const {
if (alias.empty()) {
return ExtractedPackage{{}, false /*private*/};
}
const auto end_iter = package_aliases_.rend();
for (auto iter = package_aliases_.rbegin(); iter != end_iter; ++iter) {
if (alias == iter->prefix) {
if (iter->package.package.empty()) {
return ExtractedPackage{{}, iter->package.private_namespace};
}
return iter->package;
}
}
return {};
}
const std::string& XmlPullParser::element_namespace() const {
const Event current_event = event();
if (current_event != Event::kStartElement &&
current_event != Event::kEndElement) {
return empty_;
}
return event_queue_.front().data1;
}
const std::string& XmlPullParser::element_name() const {
const Event current_event = event();
if (current_event != Event::kStartElement &&
current_event != Event::kEndElement) {
return empty_;
}
return event_queue_.front().data2;
}
const std::vector<XmlPullParser::PackageDecl>& XmlPullParser::package_decls() const {
return package_aliases_;
}
XmlPullParser::const_iterator XmlPullParser::begin_attributes() const {
return event_queue_.front().attributes.begin();
}
XmlPullParser::const_iterator XmlPullParser::end_attributes() const {
return event_queue_.front().attributes.end();
}
size_t XmlPullParser::attribute_count() const {
if (event() != Event::kStartElement) {
return 0;
}
return event_queue_.front().attributes.size();
}
/**
* Extracts the namespace and name of an expanded element or attribute name.
*/
static void SplitName(const char* name, std::string* out_ns, std::string* out_name) {
const char* p = name;
while (*p != 0 && *p != kXmlNamespaceSep) {
p++;
}
if (*p == 0) {
out_ns->clear();
out_name->assign(name);
} else {
out_ns->assign(name, (p - name));
out_name->assign(p + 1);
}
}
void XMLCALL XmlPullParser::StartNamespaceHandler(void* user_data,
const char* prefix,
const char* uri) {
XmlPullParser* parser = reinterpret_cast<XmlPullParser*>(user_data);
std::string namespace_uri = uri != nullptr ? uri : std::string();
parser->namespace_uris_.push(namespace_uri);
parser->event_queue_.push(
EventData{Event::kStartNamespace,
XML_GetCurrentLineNumber(parser->parser_), parser->depth_++,
prefix != nullptr ? prefix : std::string(), namespace_uri});
}
void XMLCALL XmlPullParser::StartElementHandler(void* user_data,
const char* name,
const char** attrs) {
XmlPullParser* parser = reinterpret_cast<XmlPullParser*>(user_data);
EventData data = {Event::kStartElement,
XML_GetCurrentLineNumber(parser->parser_),
parser->depth_++};
SplitName(name, &data.data1, &data.data2);
while (*attrs) {
Attribute attribute;
SplitName(*attrs++, &attribute.namespace_uri, &attribute.name);
attribute.value = *attrs++;
// Insert in sorted order.
auto iter = std::lower_bound(data.attributes.begin(), data.attributes.end(),
attribute);
data.attributes.insert(iter, std::move(attribute));
}
// Move the structure into the queue (no copy).
parser->event_queue_.push(std::move(data));
}
void XMLCALL XmlPullParser::CharacterDataHandler(void* user_data, const char* s,
int len) {
XmlPullParser* parser = reinterpret_cast<XmlPullParser*>(user_data);
parser->event_queue_.push(EventData{Event::kText, XML_GetCurrentLineNumber(parser->parser_),
parser->depth_, std::string(s, len)});
}
void XMLCALL XmlPullParser::EndElementHandler(void* user_data,
const char* name) {
XmlPullParser* parser = reinterpret_cast<XmlPullParser*>(user_data);
EventData data = {Event::kEndElement,
XML_GetCurrentLineNumber(parser->parser_),
--(parser->depth_)};
SplitName(name, &data.data1, &data.data2);
// Move the data into the queue (no copy).
parser->event_queue_.push(std::move(data));
}
void XMLCALL XmlPullParser::EndNamespaceHandler(void* user_data,
const char* prefix) {
XmlPullParser* parser = reinterpret_cast<XmlPullParser*>(user_data);
parser->event_queue_.push(
EventData{Event::kEndNamespace, XML_GetCurrentLineNumber(parser->parser_),
--(parser->depth_), prefix != nullptr ? prefix : std::string(),
parser->namespace_uris_.top()});
parser->namespace_uris_.pop();
}
void XMLCALL XmlPullParser::CommentDataHandler(void* user_data,
const char* comment) {
XmlPullParser* parser = reinterpret_cast<XmlPullParser*>(user_data);
parser->event_queue_.push(EventData{Event::kComment,
XML_GetCurrentLineNumber(parser->parser_),
parser->depth_, comment});
}
void XMLCALL XmlPullParser::StartCdataSectionHandler(void* user_data) {
XmlPullParser* parser = reinterpret_cast<XmlPullParser*>(user_data);
parser->event_queue_.push(EventData{Event::kCdataStart,
XML_GetCurrentLineNumber(parser->parser_),
parser->depth_ });
}
void XMLCALL XmlPullParser::EndCdataSectionHandler(void* user_data) {
XmlPullParser* parser = reinterpret_cast<XmlPullParser*>(user_data);
parser->event_queue_.push(EventData{Event::kCdataEnd,
XML_GetCurrentLineNumber(parser->parser_),
parser->depth_ });
}
Maybe<StringPiece> FindAttribute(const XmlPullParser* parser,
const StringPiece& name) {
auto iter = parser->FindAttribute("", name);
if (iter != parser->end_attributes()) {
return StringPiece(util::TrimWhitespace(iter->value));
}
return {};
}
Maybe<StringPiece> FindNonEmptyAttribute(const XmlPullParser* parser,
const StringPiece& name) {
auto iter = parser->FindAttribute("", name);
if (iter != parser->end_attributes()) {
StringPiece trimmed = util::TrimWhitespace(iter->value);
if (!trimmed.empty()) {
return trimmed;
}
}
return {};
}
} // namespace xml
} // namespace aapt
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