/*
* Copyright (c) 2020, Andreas Kling <andreas@ladybird.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/Types.h>
#include <AK/Variant.h>
#include <AK/Vector.h>
namespace Web::HTML {
class HTMLTokenizer;
class HTMLToken {
AK_MAKE_NONCOPYABLE(HTMLToken);
AK_MAKE_DEFAULT_MOVABLE(HTMLToken);
public:
enum class Type : u8 {
Invalid,
DOCTYPE,
StartTag,
EndTag,
Comment,
Character,
EndOfFile,
};
struct Position {
size_t line { 0 };
size_t column { 0 };
size_t byte_offset { 0 };
};
struct Attribute {
Optional<FlyString> prefix;
FlyString local_name;
Optional<FlyString> 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;
}
}
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_comment_data;
}
void set_comment(String comment)
{
VERIFY(is_comment());
m_comment_data = move(comment);
}
FlyString const& tag_name() const
{
VERIFY(is_start_tag() || is_end_tag());
return m_string_data;
}
void set_tag_name(FlyString 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;
}
}
Optional<String> attribute(FlyString const& attribute_name) const
{
if (auto result = raw_attribute(attribute_name); result.has_value())
return result->value;
return {};
}
Optional<Attribute const&> raw_attribute(FlyString const& attribute_name) const
{
VERIFY(is_start_tag() || is_end_tag());
auto* ptr = tag_attributes();
if (!ptr)
return {};
for (auto const& attribute : *ptr) {
if (attribute_name == attribute.local_name)
return attribute;
}
return {};
}
bool has_attribute(FlyString const& attribute_name) const
{
return attribute(attribute_name).has_value();
}
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, Optional<FlyString> const& prefix, FlyString const& local_name, Optional<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& ensure_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; }
void normalize_attributes();
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::StartTag and Type::EndTag (tag name)
FlyString m_string_data;
// Type::Comment (comment data)
String m_comment_data;
Variant<Empty, u32, OwnPtr<DoctypeData>, OwnPtr<Vector<Attribute>>> m_data {};
Position m_start_position;
Position m_end_position;
};
}