Пример #1
0
TEST(HTMLTreeBuilderSimulatorTest, SelfClosingMathFollowedByScript) {
    HTMLParserOptions options;
    HTMLTreeBuilderSimulator simulator(options);
    std::unique_ptr<HTMLTokenizer> tokenizer = HTMLTokenizer::create(options);
    SegmentedString input("<math/><script></script>");
    HTMLToken token;
    EXPECT_TRUE(tokenizer->nextToken(input, token));
    EXPECT_EQ(HTMLTreeBuilderSimulator::OtherToken,
              simulator.simulate(CompactHTMLToken(&token, TextPosition()),
                                 tokenizer.get()));

    token.clear();
    EXPECT_TRUE(tokenizer->nextToken(input, token));
    EXPECT_EQ(HTMLTreeBuilderSimulator::ScriptStart,
              simulator.simulate(CompactHTMLToken(&token, TextPosition()),
                                 tokenizer.get()));

    EXPECT_EQ(HTMLTokenizer::ScriptDataState, tokenizer->getState());

    token.clear();
    EXPECT_TRUE(tokenizer->nextToken(input, token));
    EXPECT_EQ(HTMLTreeBuilderSimulator::ScriptEnd,
              simulator.simulate(CompactHTMLToken(&token, TextPosition()),
                                 tokenizer.get()));
}
Пример #2
0
void HTMLDocumentParser::constructTreeFromHTMLToken(HTMLToken& rawToken)
{
    RefPtr<AtomicHTMLToken> token = AtomicHTMLToken::create(rawToken);

    // We clear the rawToken in case constructTreeFromAtomicToken
    // synchronously re-enters the parser. We don't clear the token immedately
    // for Character tokens because the AtomicHTMLToken avoids copying the
    // characters by keeping a pointer to the underlying buffer in the
    // HTMLToken. Fortunately, Character tokens can't cause us to re-enter
    // the parser.
    //
    // FIXME: Stop clearing the rawToken once we start running the parser off
    // the main thread or once we stop allowing synchronous JavaScript
    // execution from parseAttribute.
    if (rawToken.type() != HTMLTokenTypes::Character)
        rawToken.clear();

    m_treeBuilder->constructTree(token.get());

    // AtomicHTMLToken keeps a pointer to the HTMLToken's buffer instead
    // of copying the characters for performance.
    // Clear the external characters pointer before the raw token is cleared
    // to make sure that we won't have a dangling pointer.
    token->clearExternalCharacters();

    if (!rawToken.isUninitialized()) {
        ASSERT(rawToken.type() == HTMLTokenTypes::Character);
        rawToken.clear();
    }
}
void HTMLDocumentParser::constructTreeFromHTMLToken(HTMLToken& rawToken)
{
    AtomicHTMLToken token(rawToken);

    // We clear the rawToken in case constructTreeFromAtomicToken
    // synchronously re-enters the parser. We don't clear the token immedately
    // for Character tokens because the AtomicHTMLToken avoids copying the
    // characters by keeping a pointer to the underlying buffer in the
    // HTMLToken. Fortunately, Character tokens can't cause us to re-enter
    // the parser.
    //
    // FIXME: Stop clearing the rawToken once we start running the parser off
    // the main thread or once we stop allowing synchronous JavaScript
    // execution from parseAttribute.
    if (rawToken.type() != HTMLToken::Character)
        rawToken.clear();

    m_treeBuilder->constructTree(&token);

    if (!rawToken.isUninitialized()) {
        ASSERT(rawToken.type() == HTMLToken::Character);
        rawToken.clear();
    }
}