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/*
* Copyright (c) 2021, Itamar S. <itamar8910@gmail.com>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include "Preprocessor.h"
#include <AK/Assertions.h>
#include <AK/GenericLexer.h>
#include <AK/StringBuilder.h>
#include <LibCpp/Lexer.h>
#include <ctype.h>
namespace Cpp {
Preprocessor::Preprocessor(const String& filename, StringView program)
: m_filename(filename)
, m_program(program)
{
}
Vector<Token> Preprocessor::process_and_lex()
{
Lexer lexer { m_program };
lexer.set_ignore_whitespace(true);
auto tokens = lexer.lex();
m_unprocessed_tokens = tokens;
for (size_t token_index = 0; token_index < tokens.size(); ++token_index) {
auto& token = tokens[token_index];
m_current_line = token.start().line;
if (token.type() == Token::Type::PreprocessorStatement) {
handle_preprocessor_statement(token.text());
m_processed_tokens.append(tokens[token_index]);
continue;
}
if (m_state != State::Normal)
continue;
if (token.type() == Token::Type::IncludeStatement) {
if (token_index >= tokens.size() - 1 || tokens[token_index + 1].type() != Token::Type::IncludePath)
continue;
handle_include_statement(tokens[token_index + 1].text());
if (m_options.keep_include_statements) {
m_processed_tokens.append(tokens[token_index]);
m_processed_tokens.append(tokens[token_index + 1]);
}
++token_index; // Also skip IncludePath token
continue;
}
if (token.type() == Token::Type::Identifier) {
if (auto defined_value = m_definitions.find(token.text()); defined_value != m_definitions.end()) {
auto last_substituted_token_index = do_substitution(tokens, token_index, defined_value->value);
token_index = last_substituted_token_index;
continue;
}
}
m_processed_tokens.append(token);
}
return m_processed_tokens;
}
static void consume_whitespace(GenericLexer& lexer)
{
auto ignore_line = [&] {
for (;;) {
if (lexer.consume_specific("\\\n"sv)) {
lexer.ignore(2);
} else {
lexer.ignore_until('\n');
break;
}
}
};
for (;;) {
if (lexer.consume_specific("//"sv))
ignore_line();
else if (lexer.consume_specific("/*"sv))
lexer.ignore_until("*/");
else if (lexer.next_is("\\\n"sv))
lexer.ignore(2);
else if (lexer.is_eof() || !lexer.next_is(isspace))
break;
else
lexer.ignore();
}
}
void Preprocessor::handle_preprocessor_statement(StringView line)
{
GenericLexer lexer(line);
consume_whitespace(lexer);
lexer.consume_specific('#');
consume_whitespace(lexer);
auto keyword = lexer.consume_until(' ');
lexer.ignore();
if (keyword.is_empty() || keyword.is_null() || keyword.is_whitespace())
return;
handle_preprocessor_keyword(keyword, lexer);
}
void Preprocessor::handle_include_statement(StringView include_path)
{
m_included_paths.append(include_path);
if (definitions_in_header_callback) {
for (auto& def : definitions_in_header_callback(include_path))
m_definitions.set(def.key, def.value);
}
}
void Preprocessor::handle_preprocessor_keyword(StringView keyword, GenericLexer& line_lexer)
{
if (keyword == "include") {
// Should have called 'handle_include_statement'.
VERIFY_NOT_REACHED();
}
if (keyword == "else") {
if (m_options.ignore_invalid_statements && m_current_depth == 0)
return;
VERIFY(m_current_depth > 0);
if (m_depths_of_not_taken_branches.contains_slow(m_current_depth - 1)) {
m_depths_of_not_taken_branches.remove_all_matching([this](auto x) { return x == m_current_depth - 1; });
m_state = State::Normal;
}
if (m_depths_of_taken_branches.contains_slow(m_current_depth - 1)) {
m_state = State::SkipElseBranch;
}
return;
}
if (keyword == "endif") {
if (m_options.ignore_invalid_statements && m_current_depth == 0)
return;
VERIFY(m_current_depth > 0);
--m_current_depth;
if (m_depths_of_not_taken_branches.contains_slow(m_current_depth)) {
m_depths_of_not_taken_branches.remove_all_matching([this](auto x) { return x == m_current_depth; });
}
if (m_depths_of_taken_branches.contains_slow(m_current_depth)) {
m_depths_of_taken_branches.remove_all_matching([this](auto x) { return x == m_current_depth; });
}
m_state = State::Normal;
return;
}
if (keyword == "define") {
if (m_state == State::Normal) {
auto definition = create_definition(line_lexer.consume_all());
if (definition.has_value())
m_definitions.set(definition->key, *definition);
}
return;
}
if (keyword == "undef") {
if (m_state == State::Normal) {
auto key = line_lexer.consume_until(' ');
line_lexer.consume_all();
m_definitions.remove(key);
}
return;
}
if (keyword == "ifdef") {
++m_current_depth;
if (m_state == State::Normal) {
auto key = line_lexer.consume_until(' ');
line_lexer.ignore();
if (m_definitions.contains(key)) {
m_depths_of_taken_branches.append(m_current_depth - 1);
return;
} else {
m_depths_of_not_taken_branches.append(m_current_depth - 1);
m_state = State::SkipIfBranch;
return;
}
}
return;
}
if (keyword == "ifndef") {
++m_current_depth;
if (m_state == State::Normal) {
auto key = line_lexer.consume_until(' ');
line_lexer.ignore();
if (!m_definitions.contains(key)) {
m_depths_of_taken_branches.append(m_current_depth - 1);
return;
} else {
m_depths_of_not_taken_branches.append(m_current_depth - 1);
m_state = State::SkipIfBranch;
return;
}
}
return;
}
if (keyword == "if") {
++m_current_depth;
if (m_state == State::Normal) {
// FIXME: Implement #if logic
// We currently always take #if branches.
m_depths_of_taken_branches.append(m_current_depth - 1);
}
return;
}
if (keyword == "elif") {
if (m_options.ignore_invalid_statements && m_current_depth == 0)
return;
VERIFY(m_current_depth > 0);
// FIXME: Evaluate the elif expression
// We currently always treat the expression in #elif as true.
if (m_depths_of_not_taken_branches.contains_slow(m_current_depth - 1) /* && should_take*/) {
m_depths_of_not_taken_branches.remove_all_matching([this](auto x) { return x == m_current_depth - 1; });
m_state = State::Normal;
}
if (m_depths_of_taken_branches.contains_slow(m_current_depth - 1)) {
m_state = State::SkipElseBranch;
}
return;
}
if (keyword == "pragma") {
line_lexer.consume_all();
return;
}
if (!m_options.ignore_unsupported_keywords) {
dbgln("Unsupported preprocessor keyword: {}", keyword);
VERIFY_NOT_REACHED();
}
}
size_t Preprocessor::do_substitution(Vector<Token> const& tokens, size_t token_index, Definition const& defined_value)
{
if (defined_value.value.is_null())
return token_index;
Substitution sub;
sub.defined_value = defined_value;
auto macro_call = parse_macro_call(tokens, token_index);
if (!macro_call.has_value())
return token_index;
Vector<Token> original_tokens;
for (size_t i = token_index; i <= macro_call->end_token_index; ++i) {
original_tokens.append(tokens[i]);
}
VERIFY(!original_tokens.is_empty());
auto processed_value = evaluate_macro_call(*macro_call, defined_value);
m_substitutions.append({ original_tokens, defined_value, processed_value });
Lexer lexer(processed_value);
lexer.lex_iterable([&](auto token) {
if (token.type() == Token::Type::Whitespace)
return;
token.set_start(original_tokens.first().start());
token.set_end(original_tokens.first().end());
m_processed_tokens.append(token);
});
return macro_call->end_token_index;
}
Optional<Preprocessor::MacroCall> Preprocessor::parse_macro_call(Vector<Token> const& tokens, size_t token_index)
{
auto name = tokens[token_index];
++token_index;
if (token_index >= tokens.size() || tokens[token_index].type() != Token::Type::LeftParen)
return MacroCall { name, {}, token_index - 1 };
++token_index;
Vector<MacroCall::Argument> arguments;
MacroCall::Argument current_argument;
size_t paren_depth = 1;
for (; token_index < tokens.size(); ++token_index) {
auto& token = tokens[token_index];
if (token.type() == Token::Type::LeftParen)
++paren_depth;
if (token.type() == Token::Type::RightParen)
--paren_depth;
if (paren_depth == 0) {
arguments.append(move(current_argument));
break;
}
if (paren_depth == 1 && token.type() == Token::Type::Comma) {
arguments.append(move(current_argument));
current_argument = {};
} else {
current_argument.tokens.append(token);
}
}
if (token_index >= tokens.size())
return {};
return MacroCall { name, move(arguments), token_index };
}
Optional<Preprocessor::Definition> Preprocessor::create_definition(StringView line)
{
Lexer lexer { line };
lexer.set_ignore_whitespace(true);
auto tokens = lexer.lex();
if (tokens.is_empty())
return {};
if (tokens.first().type() != Token::Type::Identifier)
return {};
Definition definition;
definition.filename = m_filename;
definition.line = m_current_line;
definition.key = tokens.first().text();
if (tokens.size() == 1)
return definition;
size_t token_index = 1;
// Parse macro parameters (if any)
if (tokens[token_index].type() == Token::Type::LeftParen) {
++token_index;
while (token_index < tokens.size() && tokens[token_index].type() != Token::Type::RightParen) {
auto param = tokens[token_index];
if (param.type() != Token::Type::Identifier)
return {};
if (token_index + 1 >= tokens.size())
return {};
++token_index;
if (tokens[token_index].type() == Token::Type::Comma)
++token_index;
else if (tokens[token_index].type() != Token::Type::RightParen)
return {};
definition.parameters.empend(param.text());
}
if (token_index >= tokens.size())
return {};
++token_index;
}
if (token_index < tokens.size())
definition.value = remove_escaped_newlines(line.substring_view(tokens[token_index].start().column));
return definition;
}
String Preprocessor::remove_escaped_newlines(StringView value)
{
static constexpr auto escaped_newline = "\\\n"sv;
AK::StringBuilder processed_value;
GenericLexer lexer { value };
while (!lexer.is_eof()) {
processed_value.append(lexer.consume_until(escaped_newline));
lexer.ignore(escaped_newline.length());
}
return processed_value.to_string();
}
String Preprocessor::evaluate_macro_call(MacroCall const& macro_call, Definition const& definition)
{
if (macro_call.arguments.size() != definition.parameters.size()) {
dbgln("mismatch in # of arguments for macro call: {}", macro_call.name.text());
return {};
}
Lexer lexer { definition.value };
StringBuilder processed_value;
lexer.lex_iterable([&](auto token) {
if (token.type() != Token::Type::Identifier) {
processed_value.append(token.text());
return;
}
auto param_index = definition.parameters.find_first_index(token.text());
if (!param_index.has_value()) {
processed_value.append(token.text());
return;
}
auto& argument = macro_call.arguments[*param_index];
for (auto& arg_token : argument.tokens) {
processed_value.append(arg_token.text());
}
});
return processed_value.to_string();
}
};
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