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serenity/Userland/Libraries/LibWeb/HTML/Parser/HTMLToken.h
Max Wipfli 519a1cdc22 LibWeb: Change HTMLToken storage architecture 
This completely changes how HTMLTokens store their data. Previously,
space was allocated for all token types separately. Now, the HTMLToken's
data is stored in just a String, two booleans and a Variant.

This change reduces sizeof(HTMLToken) from 68 to 32. Also, this reduces
raw tokenization time by around 20 to 50 percent, depending on the page.
Full document parsing time (with HTMLDocumentParser, on a local HTML
page without any dependency files) is reduced by between 4 and 20
percent, depending on the page.

Since tokenizing HTML pages can easily generated 50'000 tokens and more,
the storage has been designed in a way that avoids heap allocations
where possible, while trying to reduce the size of the tokens. The only
tokens which need to allocate on the heap are thus DOCTYPE tokens (max.
1 per document), and tag tokens (but only if they have attributes). This
way, only around 5 percent of all tokens generated need to allocate on
the heap (except for StringImpl allocations).
2021-07-17 16:24:57 +04:30

361 lines
9.2 KiB
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/*
* Copyright (c) 2020, Andreas Kling <kling@serenityos.org>
* Copyright (c) 2021, Max Wipfli <max.wipfli@serenityos.org>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#pragma once
#include <AK/FlyString.h>
#include <AK/Function.h>
#include <AK/OwnPtr.h>
#include <AK/String.h>
#include <AK/Types.h>
#include <AK/Variant.h>
#include <AK/Vector.h>
namespace Web::HTML {
class HTMLTokenizer;
class HTMLToken {
AK_MAKE_NONCOPYABLE(HTMLToken);
public:
enum class Type : u8 {
Invalid,
DOCTYPE,
StartTag,
EndTag,
Comment,
Character,
EndOfFile,
};
struct Position {
size_t line { 0 };
size_t column { 0 };
};
struct Attribute {
String prefix;
String local_name;
String namespace_;
String value;
Position name_start_position;
Position value_start_position;
Position name_end_position;
Position value_end_position;
};
struct DoctypeData {
// NOTE: "Missing" is a distinct state from the empty string.
String name;
String public_identifier;
String system_identifier;
bool missing_name { true };
bool missing_public_identifier { true };
bool missing_system_identifier { true };
bool force_quirks { false };
};
static HTMLToken make_character(u32 code_point)
{
HTMLToken token { Type::Character };
token.set_code_point(code_point);
return token;
}
static HTMLToken make_start_tag(FlyString const& tag_name)
{
HTMLToken token { Type::StartTag };
token.set_tag_name(tag_name);
return token;
}
HTMLToken() = default;
HTMLToken(Type type)
: m_type(type)
{
switch (m_type) {
case Type::Character:
m_data.set(0u);
break;
case Type::DOCTYPE:
m_data.set(OwnPtr<DoctypeData> {});
break;
case Type::StartTag:
case Type::EndTag:
m_data.set(OwnPtr<Vector<Attribute>>());
break;
default:
break;
}
}
HTMLToken(HTMLToken&&) = default;
HTMLToken& operator=(HTMLToken&&) = default;
bool is_doctype() const { return m_type == Type::DOCTYPE; }
bool is_start_tag() const { return m_type == Type::StartTag; }
bool is_end_tag() const { return m_type == Type::EndTag; }
bool is_comment() const { return m_type == Type::Comment; }
bool is_character() const { return m_type == Type::Character; }
bool is_end_of_file() const { return m_type == Type::EndOfFile; }
u32 code_point() const
{
VERIFY(is_character());
return m_data.get<u32>();
}
bool is_parser_whitespace() const
{
// NOTE: The parser considers '\r' to be whitespace, while the tokenizer does not.
if (!is_character())
return false;
switch (code_point()) {
case '\t':
case '\n':
case '\f':
case '\r':
case ' ':
return true;
default:
return false;
}
}
void set_code_point(u32 code_point)
{
VERIFY(is_character());
m_data.get<u32>() = code_point;
}
String const& comment() const
{
VERIFY(is_comment());
return m_string_data;
}
void set_comment(String comment)
{
VERIFY(is_comment());
m_string_data = move(comment);
}
String const& tag_name() const
{
VERIFY(is_start_tag() || is_end_tag());
return m_string_data;
}
void set_tag_name(String name)
{
VERIFY(is_start_tag() || is_end_tag());
m_string_data = move(name);
}
bool is_self_closing() const
{
VERIFY(is_start_tag() || is_end_tag());
return m_tag_self_closing;
}
void set_self_closing(bool self_closing)
{
VERIFY(is_start_tag() || is_end_tag());
m_tag_self_closing = self_closing;
}
bool has_acknowledged_self_closing_flag() const
{
VERIFY(is_self_closing());
return m_tag_self_closing_acknowledged;
}
void acknowledge_self_closing_flag_if_set()
{
if (is_self_closing())
m_tag_self_closing_acknowledged = true;
}
bool has_attributes() const
{
VERIFY(is_start_tag() || is_end_tag());
auto* ptr = tag_attributes();
return ptr && !ptr->is_empty();
}
size_t attribute_count() const
{
VERIFY(is_start_tag() || is_end_tag());
if (auto* ptr = tag_attributes())
return ptr->size();
return 0;
}
void add_attribute(Attribute attribute)
{
VERIFY(is_start_tag() || is_end_tag());
ensure_tag_attributes().append(move(attribute));
}
Attribute const& last_attribute() const
{
VERIFY(is_start_tag() || is_end_tag());
VERIFY(has_attributes());
return tag_attributes()->last();
}
Attribute& last_attribute()
{
VERIFY(is_start_tag() || is_end_tag());
VERIFY(has_attributes());
return tag_attributes()->last();
}
void drop_attributes()
{
VERIFY(is_start_tag() || is_end_tag());
m_data.get<OwnPtr<Vector<Attribute>>>().clear();
}
void for_each_attribute(Function<IterationDecision(Attribute const&)> callback) const
{
VERIFY(is_start_tag() || is_end_tag());
auto* ptr = tag_attributes();
if (!ptr)
return;
for (auto& attribute : *ptr) {
if (callback(attribute) == IterationDecision::Break)
break;
}
}
void for_each_attribute(Function<IterationDecision(Attribute&)> callback)
{
VERIFY(is_start_tag() || is_end_tag());
auto* ptr = tag_attributes();
if (!ptr)
return;
for (auto& attribute : *ptr) {
if (callback(attribute) == IterationDecision::Break)
break;
}
}
StringView attribute(FlyString const& attribute_name)
{
VERIFY(is_start_tag() || is_end_tag());
auto* ptr = tag_attributes();
if (!ptr)
return {};
for (auto& attribute : *ptr) {
if (attribute_name == attribute.local_name)
return attribute.value;
}
return {};
}
bool has_attribute(FlyString const& attribute_name)
{
return !attribute(attribute_name).is_null();
}
void adjust_tag_name(FlyString const& old_name, FlyString const& new_name)
{
VERIFY(is_start_tag() || is_end_tag());
if (old_name == tag_name())
set_tag_name(new_name);
}
void adjust_attribute_name(FlyString const& old_name, FlyString const& new_name)
{
VERIFY(is_start_tag() || is_end_tag());
for_each_attribute([&](Attribute& attribute) {
if (old_name == attribute.local_name)
attribute.local_name = new_name;
return IterationDecision::Continue;
});
}
void adjust_foreign_attribute(FlyString const& old_name, FlyString const& prefix, FlyString const& local_name, FlyString const& namespace_)
{
VERIFY(is_start_tag() || is_end_tag());
for_each_attribute([&](Attribute& attribute) {
if (old_name == attribute.local_name) {
attribute.prefix = prefix;
attribute.local_name = local_name;
attribute.namespace_ = namespace_;
}
return IterationDecision::Continue;
});
}
DoctypeData const& doctype_data() const
{
VERIFY(is_doctype());
auto* ptr = m_data.get<OwnPtr<DoctypeData>>().ptr();
VERIFY(ptr);
return *ptr;
}
DoctypeData& doctype_data()
{
VERIFY(is_doctype());
auto& ptr = m_data.get<OwnPtr<DoctypeData>>();
if (!ptr)
ptr = make<DoctypeData>();
return *ptr;
}
Type type() const { return m_type; }
String to_string() const;
Position const& start_position() const { return m_start_position; }
Position const& end_position() const { return m_end_position; }
void set_start_position(Badge<HTMLTokenizer>, Position start_position) { m_start_position = start_position; }
void set_end_position(Badge<HTMLTokenizer>, Position end_position) { m_end_position = end_position; }
private:
Vector<Attribute> const* tag_attributes() const
{
return m_data.get<OwnPtr<Vector<Attribute>>>().ptr();
}
Vector<Attribute>* tag_attributes()
{
return m_data.get<OwnPtr<Vector<Attribute>>>().ptr();
}
Vector<Attribute>& ensure_tag_attributes()
{
VERIFY(is_start_tag() || is_end_tag());
auto& ptr = m_data.get<OwnPtr<Vector<Attribute>>>();
if (!ptr)
ptr = make<Vector<Attribute>>();
return *ptr;
}
Type m_type { Type::Invalid };
// Type::StartTag and Type::EndTag
bool m_tag_self_closing { false };
bool m_tag_self_closing_acknowledged { false };
// Type::Comment (comment data), Type::StartTag and Type::EndTag (tag name)
String m_string_data;
Variant<Empty, u32, OwnPtr<DoctypeData>, OwnPtr<Vector<Attribute>>> m_data { Empty {} };
Position m_start_position;
Position m_end_position;
};
}
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