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serenity/Meta/Lagom/Tools/CodeGenerators/JSSpecCompiler/Parser/SpecParser.cpp
Dan Klishch cd8f4aaa7d JSSpecCompiler: Introduce Function and ExecutionContext classes 
Currently, they are not extremely useful, but the plan is to store
all function-local state in JSSpecCompiler::Function and all
"translation unit" state in ExecutionContext.
2023-09-02 19:57:06 +02:00

176 lines
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/*
* Copyright (c) 2023, Dan Klishch <danilklishch@gmail.com>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include <AK/NonnullOwnPtr.h>
#include "Parser/Lexer.h"
#include "Parser/SpecParser.h"
#include "Parser/TextParser.h"
#include "Parser/XMLUtils.h"
namespace JSSpecCompiler {
ParseErrorOr<AlgorithmStep> AlgorithmStep::create(XML::Node const* node)
{
VERIFY(node->as_element().name == tag_li);
auto [tokens, substeps] = TRY(tokenize_tree(node, true));
AlgorithmStep result { .m_tokens = move(tokens), .m_node = node };
if (substeps)
result.m_substeps = TRY(AlgorithmStepList::create(substeps->as_element())).m_expression;
result.m_expression = TRY(result.parse());
return result;
}
ParseErrorOr<Tree> AlgorithmStep::parse()
{
TextParser parser(m_tokens, m_node);
if (m_substeps)
return parser.parse_step_with_substeps(RefPtr(m_substeps).release_nonnull());
else
return parser.parse_step_without_substeps();
}
ParseErrorOr<AlgorithmStepList> AlgorithmStepList::create(XML::Node::Element const& element)
{
VERIFY(element.name == tag_ol);
AlgorithmStepList result;
auto& steps = result.m_steps;
Vector<Tree> step_expressions;
for (auto const& child : element.children) {
TRY(child->content.visit(
[&](XML::Node::Element const& element) -> ParseErrorOr<void> {
if (element.name != tag_li)
return ParseError::create("<emu-alg> <ol> > :not(<li>) should not match any elements"sv, child);
steps.append(TRY(AlgorithmStep::create(child)));
step_expressions.append(steps.last().m_expression);
return {};
},
[&](XML::Node::Text const&) -> ParseErrorOr<void> {
if (!contains_empty_text(child))
return ParseError::create("<emu-alg> <ol> should not have non-empty child text nodes"sv, child);
return {};
},
move(ignore_comments)));
}
result.m_expression = make_ref_counted<TreeList>(move(step_expressions));
return result;
}
ParseErrorOr<Algorithm> Algorithm::create(XML::Node const* node)
{
VERIFY(node->as_element().name == tag_emu_alg);
XML::Node::Element const* steps_list = nullptr;
for (auto const& child : node->as_element().children) {
TRY(child->content.visit(
[&](XML::Node::Element const& element) -> ParseErrorOr<void> {
if (element.name == tag_ol) {
if (steps_list != nullptr)
return ParseError::create("<emu-alg> should have exactly one <ol> child"sv, child);
steps_list = &element;
return {};
} else {
return ParseError::create("<emu-alg> should not have children other than <ol>"sv, child);
}
},
[&](XML::Node::Text const&) -> ParseErrorOr<void> {
if (!contains_empty_text(child))
return ParseError::create("<emu-alg> should not have non-empty child text nodes"sv, child);
return {};
},
move(ignore_comments)));
}
if (steps_list == nullptr)
return ParseError::create("<emu-alg> should have exactly one <ol> child"sv, node);
Algorithm algorithm;
algorithm.m_steps = TRY(AlgorithmStepList::create(*steps_list));
algorithm.m_tree = algorithm.m_steps.m_expression;
return algorithm;
}
ParseErrorOr<SpecFunction> SpecFunction::create(XML::Node const* element)
{
VERIFY(element->as_element().name == tag_emu_clause);
SpecFunction result;
result.m_id = TRY(get_attribute_by_name(element, attribute_id));
result.m_name = TRY(get_attribute_by_name(element, attribute_aoid));
u32 children_count = 0;
bool has_definition = false;
XML::Node const* algorithm_node = nullptr;
XML::Node const* prose_node = nullptr;
for (auto const& child : element->as_element().children) {
TRY(child->content.visit(
[&](XML::Node::Element const& element) -> ParseErrorOr<void> {
++children_count;
if (element.name == tag_h1) {
if (children_count != 1)
return ParseError::create("<h1> should be the first child of a <emu-clause>"sv, child);
TRY(result.parse_definition(child));
has_definition = true;
} else if (element.name == tag_p) {
if (prose_node == nullptr)
prose_node = child;
} else if (element.name == tag_emu_alg) {
algorithm_node = child;
} else {
return ParseError::create("Unknown child of <emu-clause>"sv, child);
}
return {};
},
[&](XML::Node::Text const&) -> ParseErrorOr<void> {
if (!contains_empty_text(child)) {
return ParseError::create("<emu-clause> should not have non-empty child text nodes"sv, child);
}
return {};
},
move(ignore_comments)));
}
if (algorithm_node == nullptr)
return ParseError::create("No <emu-alg>"sv, element);
if (prose_node == nullptr)
return ParseError::create("No prose element"sv, element);
if (!has_definition)
return ParseError::create("Definition was not found"sv, element);
result.m_algorithm = TRY(Algorithm::create(algorithm_node));
return result;
}
ParseErrorOr<void> SpecFunction::parse_definition(XML::Node const* element)
{
auto tokens = TRY(tokenize_tree(element));
TextParser parser(tokens.tokens, element);
auto [section_number, function_name, arguments] = TRY(parser.parse_definition());
if (function_name != m_name)
return ParseError::create("Function name in definition differs from <emu-clause>[aoid]"sv, element);
m_section_number = section_number;
for (auto const& argument : arguments)
m_arguments.append({ argument });
return {};
}
}
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