/*
* Copyright (c) 2020-2021, SerenityOS developers
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met:
*
* 1. Redistributions of source code must retain the above copyright notice, this
* list of conditions and the following disclaimer.
*
* 2. Redistributions in binary form must reproduce the above copyright notice,
* this list of conditions and the following disclaimer in the documentation
* and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
* DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
* SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
* CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
* OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
#include <AK/NonnullOwnPtrVector.h>
#include <AK/Vector.h>
#include <LibWeb/CSS/CSSStyleRule.h>
#include <LibWeb/CSS/Parser/AtStyleRule.h>
#include <LibWeb/CSS/Parser/DeclarationOrAtRule.h>
#include <LibWeb/CSS/Parser/Parser.h>
#include <LibWeb/CSS/Parser/QualifiedStyleRule.h>
#include <LibWeb/CSS/Parser/StyleBlockRule.h>
#include <LibWeb/CSS/Parser/StyleComponentValueRule.h>
#include <LibWeb/CSS/Parser/StyleFunctionRule.h>
#include <LibWeb/CSS/Selector.h>
#define CSS_PARSER_TRACE 1
#define PARSE_ERROR() \
do { \
dbgln_if(CSS_PARSER_TRACE, "Parse error (CSS) {} @ {}", __PRETTY_FUNCTION__, __LINE__); \
} while (0)
namespace Web::CSS {
Parser::Parser(const StringView& input, const String& encoding)
: m_tokenizer(input, encoding)
{
m_tokens = m_tokenizer.parse();
}
Parser::~Parser()
{
}
Token Parser::peek_token()
{
size_t next_offset = m_iterator_offset + 1;
if (next_offset < m_tokens.size()) {
return m_tokens.at(next_offset);
}
return m_tokens.at(m_iterator_offset);
}
Token Parser::next_token()
{
if (m_iterator_offset < (int)m_tokens.size()) {
++m_iterator_offset;
}
auto token = m_tokens.at(m_iterator_offset);
return token;
}
Token Parser::current_token()
{
return m_tokens.at(m_iterator_offset);
}
Vector<QualifiedStyleRule> Parser::parse_as_stylesheet()
{
auto rules = consume_a_list_of_rules(true);
dbgln("Printing rules:");
for (auto& rule : rules) {
dbgln("PRE:");
for (auto& pre : rule.m_prelude) {
dbgln("{}", pre);
}
dbgln("BLOCK:");
dbgln("{}", rule.m_block.to_string());
dbgln("");
auto selectors = parse_selectors(rule.m_prelude);
}
return rules;
}
Vector<CSS::Selector::ComplexSelector> Parser::parse_selectors(Vector<String> parts)
{
(void)parts;
Vector<CSS::Selector::ComplexSelector> selectors;
return selectors;
}
void Parser::dump_all_tokens()
{
dbgln("Dumping all tokens:");
for (auto& token : m_tokens)
dbgln("{}", token.to_string());
}
void Parser::reconsume_current_input_token()
{
--m_iterator_offset;
}
Vector<QualifiedStyleRule> Parser::consume_a_list_of_rules(bool top_level)
{
Vector<QualifiedStyleRule> rules;
for (;;) {
auto token = next_token();
if (token.is_whitespace()) {
continue;
}
if (token.is_eof()) {
break;
}
if (token.is_cdo() || token.is_cdc()) {
if (top_level) {
continue;
}
reconsume_current_input_token();
auto maybe_qualified = consume_a_qualified_rule();
if (maybe_qualified.has_value()) {
rules.append(maybe_qualified.value());
}
continue;
}
if (token.is_at()) {
reconsume_current_input_token();
rules.append(consume_an_at_rule());
continue;
}
reconsume_current_input_token();
auto maybe_qualified = consume_a_qualified_rule();
if (maybe_qualified.has_value()) {
rules.append(maybe_qualified.value());
}
}
return rules;
}
AtStyleRule Parser::consume_an_at_rule()
{
auto initial = next_token();
AtStyleRule rule;
rule.m_name = initial.m_value.to_string();
for (;;) {
auto token = next_token();
if (token.is_semicolon()) {
return rule;
}
if (token.is_eof()) {
PARSE_ERROR();
return rule;
}
if (token.is_open_curly()) {
rule.m_block = consume_a_simple_block();
return rule;
}
// how is "simple block with an associated token of <{-token>" a valid token?
reconsume_current_input_token();
auto value = consume_a_component_value();
if (value.m_type == StyleComponentValueRule::ComponentType::Token) {
if (value.m_token.is_whitespace()) {
continue;
}
}
rule.m_prelude.append(value.to_string());
}
}
Optional<QualifiedStyleRule> Parser::consume_a_qualified_rule()
{
QualifiedStyleRule rule;
for (;;) {
auto token = next_token();
if (token.is_eof()) {
PARSE_ERROR();
return {};
}
if (token.is_open_curly()) {
rule.m_block = consume_a_simple_block();
return rule;
}
// how is "simple block with an associated token of <{-token>" a valid token?
reconsume_current_input_token();
auto value = consume_a_component_value();
if (value.m_type == StyleComponentValueRule::ComponentType::Token) {
if (value.m_token.is_whitespace()) {
continue;
}
}
rule.m_prelude.append(value.to_string());
}
return rule;
}
StyleComponentValueRule Parser::consume_a_component_value()
{
auto token = next_token();
if (token.is_open_curly() || token.is_open_square() || token.is_open_paren()) {
auto component = StyleComponentValueRule(StyleComponentValueRule::ComponentType::Block);
component.m_block = consume_a_simple_block();
return component;
}
if (token.is_function()) {
auto component = StyleComponentValueRule(StyleComponentValueRule::ComponentType::Function);
component.m_function = consume_a_function();
return component;
}
auto component = StyleComponentValueRule(StyleComponentValueRule::ComponentType::Token);
component.m_token = token;
return component;
}
StyleBlockRule Parser::consume_a_simple_block()
{
auto ending_token = current_token().mirror_variant();
StyleBlockRule block;
block.m_token = current_token();
for (;;) {
auto token = next_token();
if (token.m_type == ending_token) {
return block;
}
if (token.is_eof()) {
PARSE_ERROR();
return block;
}
reconsume_current_input_token();
auto value = consume_a_component_value();
if (value.m_type == StyleComponentValueRule::ComponentType::Token) {
if (value.m_token.is_whitespace()) {
continue;
}
}
block.m_values.append(value.to_string());
}
}
StyleFunctionRule Parser::consume_a_function()
{
StyleFunctionRule function;
function.m_name = current_token().m_value.to_string();
for (;;) {
auto token = next_token();
if (token.is_close_paren()) {
return function;
}
if (token.is_eof()) {
PARSE_ERROR();
return function;
}
reconsume_current_input_token();
auto value = consume_a_component_value();
if (value.m_type == StyleComponentValueRule::ComponentType::Token) {
if (value.m_token.is_whitespace()) {
continue;
}
}
function.m_values.append(value.to_string());
}
return function;
}
Optional<StyleDeclarationRule> Parser::consume_a_declaration(Vector<StyleComponentValueRule>)
{
TODO();
}
Optional<StyleDeclarationRule> Parser::consume_a_declaration()
{
auto token = next_token();
StyleDeclarationRule declaration;
declaration.m_name = token.m_value.to_string();
for (;;) {
if (!peek_token().is_whitespace()) {
break;
}
next_token();
}
auto colon = next_token();
if (!colon.is_colon()) {
PARSE_ERROR();
return {};
}
for (;;) {
if (!peek_token().is_whitespace()) {
break;
}
next_token();
}
for (;;) {
if (peek_token().is_eof()) {
break;
}
declaration.m_values.append(consume_a_component_value());
}
auto second_last = declaration.m_values.at(declaration.m_values.size() - 2);
auto last = declaration.m_values.at(declaration.m_values.size() - 1);
if (second_last.m_type == StyleComponentValueRule::ComponentType::Token && last.m_type == StyleComponentValueRule::ComponentType::Token) {
auto last_token = last.m_token;
auto second_last_token = second_last.m_token;
if (second_last_token.is_delim() && second_last_token.m_value.to_string().equals_ignoring_case("!")) {
if (last_token.is_ident() && last_token.m_value.to_string().equals_ignoring_case("important")) {
declaration.m_values.remove(declaration.m_values.size() - 2);
declaration.m_values.remove(declaration.m_values.size() - 1);
declaration.m_important = true;
}
}
}
for (;;) {
auto maybe_whitespace = declaration.m_values.at(declaration.m_values.size() - 1);
if (!(maybe_whitespace.m_type == StyleComponentValueRule::ComponentType::Token && maybe_whitespace.m_token.is_whitespace())) {
break;
}
declaration.m_values.remove(declaration.m_values.size() - 1);
}
return declaration;
}
Vector<DeclarationOrAtRule> Parser::consume_a_list_of_declarations()
{
Vector<DeclarationOrAtRule> list;
for (;;) {
auto token = next_token();
if (token.is_whitespace() || token.is_semicolon()) {
continue;
}
if (token.is_eof()) {
return list;
}
if (token.is_at()) {
reconsume_current_input_token();
list.append(DeclarationOrAtRule(consume_an_at_rule()));
continue;
}
if (token.is_ident()) {
Vector<StyleComponentValueRule> temp;
auto component = StyleComponentValueRule(StyleComponentValueRule::ComponentType::Token);
component.m_token = token;
temp.append(component);
for (;;) {
auto peek = peek_token();
if (peek.is_semicolon() || peek.is_eof()) {
break;
}
temp.append(consume_a_component_value());
}
auto maybe_declaration = consume_a_declaration(temp);
if (maybe_declaration.has_value()) {
list.append(DeclarationOrAtRule(maybe_declaration.value()));
}
}
PARSE_ERROR();
reconsume_current_input_token();
auto peek = peek_token();
if (!(peek.is_semicolon() || peek.is_eof())) {
consume_a_component_value();
}
}
return list;
}
Optional<QualifiedStyleRule> Parser::parse_as_rule()
{
Optional<QualifiedStyleRule> rule;
for (;;) {
auto maybe_whitespace = peek_token();
if (!maybe_whitespace.is_whitespace()) {
break;
}
next_token();
}
auto token = peek_token();
if (token.is_eof()) {
return {};
}
if (token.is_at()) {
rule = consume_an_at_rule();
} else {
rule = consume_a_qualified_rule();
}
for (;;) {
auto maybe_whitespace = peek_token();
if (!token.is_whitespace()) {
break;
}
next_token();
}
auto maybe_eof = peek_token();
if (maybe_eof.is_eof()) {
return rule;
}
return {};
}
Vector<QualifiedStyleRule> Parser::parse_as_list_of_rules()
{
return consume_a_list_of_rules(false);
}
Optional<StyleDeclarationRule> Parser::parse_as_declaration()
{
for (;;) {
auto maybe_whitespace = peek_token();
if (!maybe_whitespace.is_whitespace()) {
break;
}
next_token();
}
auto token = peek_token();
if (!token.is_ident()) {
return {};
}
return consume_a_declaration();
}
Vector<DeclarationOrAtRule> Parser::parse_as_list_of_declarations()
{
return consume_a_list_of_declarations();
}
Optional<StyleComponentValueRule> Parser::parse_as_component_value()
{
for (;;) {
auto maybe_whitespace = peek_token();
if (!maybe_whitespace.is_whitespace()) {
break;
}
next_token();
}
auto token = peek_token();
if (token.is_eof()) {
return {};
}
auto value = consume_a_component_value();
for (;;) {
auto maybe_whitespace = peek_token();
if (!token.is_whitespace()) {
break;
}
next_token();
}
auto maybe_eof = peek_token();
if (maybe_eof.is_eof()) {
return value;
}
return {};
}
Vector<StyleComponentValueRule> Parser::parse_as_list_of_component_values()
{
Vector<StyleComponentValueRule> rules;
for (;;) {
if (peek_token().is_eof()) {
break;
}
rules.append(consume_a_component_value());
}
return rules;
}
Vector<StyleComponentValueRule> Parser::parse_as_list_of_comma_separated_component_values()
{
Vector<StyleComponentValueRule> rules;
for (;;) {
rules.append(consume_a_component_value());
if (peek_token().is_comma())
continue;
if (peek_token().is_eof())
break;
}
return rules;
}
}