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effect_preprocessor.cpp
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effect_preprocessor.cpp
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/*
* Copyright (C) 2014 Patrick Mours. All rights reserved.
* License: https://github.com/crosire/reshade#license
*/
#include "effect_lexer.hpp"
#include "effect_preprocessor.hpp"
#include <cassert>
#ifndef _WIN32
// On Linux systems the native path encoding is UTF-8 already, so no conversion necessary
#define u8path(p) path(p)
#define u8string() string()
#endif
enum op_type
{
op_none = -1,
op_or,
op_and,
op_bitor,
op_bitxor,
op_bitand,
op_not_equal,
op_equal,
op_less,
op_greater,
op_less_equal,
op_greater_equal,
op_leftshift,
op_rightshift,
op_add,
op_subtract,
op_modulo,
op_divide,
op_multiply,
op_plus,
op_negate,
op_not,
op_bitnot,
op_parentheses
};
enum macro_replacement
{
macro_replacement_start = '\x00',
macro_replacement_argument = '\xFA',
macro_replacement_concat = '\xFF',
macro_replacement_stringize = '\xFE',
macro_replacement_space = '\xFD',
macro_replacement_break = '\xFC',
macro_replacement_expand = '\xFB',
};
static const int precedence_lookup[] = {
0, 1, 2, 3, 4, // bitwise operators
5, 6, 7, 7, 7, 7, // logical operators
8, 8, // left shift, right shift
9, 9, // add, subtract
10, 10, 10, // modulo, divide, multiply
11, 11, 11, 11 // unary operators
};
static bool read_file(const std::filesystem::path &path, std::string &data)
{
#ifdef _WIN32
FILE *file = nullptr;
if (_wfopen_s(&file, path.c_str(), L"rb") != 0)
return false;
#else
FILE *const file = fopen(path.c_str(), "rb");
if (file == nullptr)
return false;
#endif
// Read file contents into memory
std::vector<char> file_mem(static_cast<size_t>(std::filesystem::file_size(path) + 1));
const size_t eof = fread(file_mem.data(), 1, file_mem.size() - 1, file);
// Append a new line feed to the end of the input string to avoid issues with parsing
file_mem[eof] = '\n';
// No longer need to have a handle open to the file, since all data was read, so can safely close it
fclose(file);
std::string_view file_data(file_mem.data(), file_mem.size());
// Remove BOM (0xefbbbf means 0xfeff)
if (file_data.size() >= 3 &&
static_cast<unsigned char>(file_data[0]) == 0xef &&
static_cast<unsigned char>(file_data[1]) == 0xbb &&
static_cast<unsigned char>(file_data[2]) == 0xbf)
file_data = std::string_view(file_data.data() + 3, file_data.size() - 3);
data = file_data;
return true;
}
static std::string escape_string(std::string s)
{
for (size_t offset = 0; (offset = s.find('\\', offset)) != std::string::npos; offset += 2)
s.insert(offset, "\\", 1);
return '\"' + s + '\"';
}
reshadefx::preprocessor::preprocessor()
{
}
reshadefx::preprocessor::~preprocessor()
{
}
void reshadefx::preprocessor::add_include_path(const std::filesystem::path &path)
{
assert(!path.empty());
_include_paths.push_back(path);
}
bool reshadefx::preprocessor::add_macro_definition(const std::string &name, const macro ¯o)
{
assert(!name.empty());
return _macros.emplace(name, macro).second;
}
bool reshadefx::preprocessor::append_file(const std::filesystem::path &path)
{
std::string data;
if (!read_file(path, data))
return false;
_success = true; // Clear success flag before parsing a new file
push(std::move(data), path.u8string());
parse();
return _success;
}
bool reshadefx::preprocessor::append_string(const std::string &source_code)
{
// Enforce all input strings to end with a line feed
assert(!source_code.empty() && source_code.back() == '\n');
_success = true; // Clear success flag before parsing a new string
push(source_code);
parse();
return _success;
}
std::vector<std::filesystem::path> reshadefx::preprocessor::included_files() const
{
std::vector<std::filesystem::path> files;
files.reserve(_file_cache.size());
for (const auto &it : _file_cache)
files.push_back(std::filesystem::u8path(it.first));
return files;
}
std::vector<std::pair<std::string, std::string>> reshadefx::preprocessor::used_macro_definitions() const
{
std::vector<std::pair<std::string, std::string>> defines;
defines.reserve(_used_macros.size());
for (const std::string &name : _used_macros)
if (const auto it = _macros.find(name);
// Do not include function-like macros, since they are more likely to contain a complex replacement list
it != _macros.end() && !it->second.is_function_like)
defines.push_back({ name, it->second.replacement_list });
return defines;
}
void reshadefx::preprocessor::error(const location &location, const std::string &message)
{
_errors += location.source + '(' + std::to_string(location.line) + ", " + std::to_string(location.column) + ')' + ": preprocessor error: " + message + '\n';
_success = false; // Unset success flag
}
void reshadefx::preprocessor::warning(const location &location, const std::string &message)
{
_errors += location.source + '(' + std::to_string(location.line) + ", " + std::to_string(location.column) + ')' + ": preprocessor warning: " + message + '\n';
}
void reshadefx::preprocessor::push(std::string input, const std::string &name)
{
location start_location = !name.empty() ?
// Start at the beginning of the file when pushing a new file
location(name, 1) :
// Start with last known token location when pushing an unnamed string
_token.location;
input_level level = { name };
level.lexer.reset(new lexer(
std::move(input),
true /* ignore_comments */,
false /* ignore_whitespace */,
false /* ignore_pp_directives */,
false /* ignore_line_directives */,
true /* ignore_keywords */,
false /* escape_string_literals */,
start_location));
level.next_token.id = tokenid::unknown;
level.next_token.location = start_location; // This is used in 'consume' to initialize the output location
// Inherit hidden macros from parent
if (!_input_stack.empty())
level.hidden_macros = _input_stack.back().hidden_macros;
_input_stack.push_back(std::move(level));
_next_input_index = _input_stack.size() - 1;
// Advance into the input stack to update next token
consume();
}
bool reshadefx::preprocessor::peek(tokenid token) const
{
return _input_stack[_next_input_index].next_token == token;
}
bool reshadefx::preprocessor::consume()
{
_current_input_index = _next_input_index;
if (_input_stack.empty())
{
// End of input has been reached already (this can happen when the input text is not terminated with a new line)
assert(_current_input_index == 0);
return false;
}
// Clear out input stack, now that the current token is overwritten
while (_input_stack.size() > (_current_input_index + 1))
_input_stack.pop_back();
// Update location information after switching input levels
input_level &input = _input_stack[_current_input_index];
if (!input.name.empty() && input.name != _output_location.source)
{
_output += "#line " + std::to_string(input.next_token.location.line) + " \"" + input.name + "\"\n";
_output_location.line = input.next_token.location.line;
_output_location.source = input.name;
}
// Set current token
_token = std::move(input.next_token);
_current_token_raw_data = input.lexer->input_string().substr(_token.offset, _token.length);
// Get the next token
input.next_token = input.lexer->lex();
// Verify string literals (since the lexer cannot throw errors itself)
if (_token == tokenid::string_literal && _current_token_raw_data.back() != '\"')
error(_token.location, "unterminated string literal");
// Pop input level if lexical analysis has reached the end of it
// This ensures the EOF token is not consumed until the very last file
while (peek(tokenid::end_of_file))
{
// Remove any unterminated blocks from the stack
for (; !_if_stack.empty() && _if_stack.back().input_index >= _next_input_index; _if_stack.pop_back())
error(_if_stack.back().pp_token.location, "unterminated #if");
if (_next_input_index == 0)
{
// End of input has been reached, so cannot pop further and this is the last token
_input_stack.pop_back();
return false;
}
else
{
_next_input_index -= 1;
}
}
return true;
}
void reshadefx::preprocessor::consume_until(tokenid token)
{
while (!accept(token) && !peek(tokenid::end_of_file))
{
consume();
}
}
bool reshadefx::preprocessor::accept(tokenid token)
{
while (peek(tokenid::space))
{
consume();
}
if (peek(token))
{
consume();
return true;
}
return false;
}
bool reshadefx::preprocessor::expect(tokenid token)
{
if (!accept(token))
{
auto actual_token = _input_stack[_next_input_index].next_token;
actual_token.location.source = _output_location.source;
error(actual_token.location, "syntax error: unexpected token '" +
_input_stack[_next_input_index].lexer->input_string().substr(actual_token.offset, actual_token.length) + '\'');
return false;
}
return true;
}
void reshadefx::preprocessor::parse()
{
std::string line;
while (consume())
{
_recursion_count = 0;
const bool skip = !_if_stack.empty() && _if_stack.back().skipping;
switch (_token)
{
case tokenid::hash_if:
parse_if();
if (!expect(tokenid::end_of_line))
consume_until(tokenid::end_of_line);
continue;
case tokenid::hash_ifdef:
parse_ifdef();
if (!expect(tokenid::end_of_line))
consume_until(tokenid::end_of_line);
continue;
case tokenid::hash_ifndef:
parse_ifndef();
if (!expect(tokenid::end_of_line))
consume_until(tokenid::end_of_line);
continue;
case tokenid::hash_else:
parse_else();
if (!expect(tokenid::end_of_line))
consume_until(tokenid::end_of_line);
continue;
case tokenid::hash_elif:
parse_elif();
if (!expect(tokenid::end_of_line))
consume_until(tokenid::end_of_line);
continue;
case tokenid::hash_endif:
parse_endif();
if (!expect(tokenid::end_of_line))
consume_until(tokenid::end_of_line);
continue;
default:
// All other tokens are handled below
break;
}
if (skip)
continue;
switch (_token)
{
case tokenid::hash_def:
parse_def();
if (!expect(tokenid::end_of_line))
consume_until(tokenid::end_of_line);
continue;
case tokenid::hash_undef:
parse_undef();
if (!expect(tokenid::end_of_line))
consume_until(tokenid::end_of_line);
continue;
case tokenid::hash_error:
parse_error();
if (!expect(tokenid::end_of_line))
consume_until(tokenid::end_of_line);
continue;
case tokenid::hash_warning:
parse_warning();
if (!expect(tokenid::end_of_line))
consume_until(tokenid::end_of_line);
continue;
case tokenid::hash_pragma:
parse_pragma();
if (!expect(tokenid::end_of_line))
consume_until(tokenid::end_of_line);
continue;
case tokenid::hash_include:
parse_include();
continue;
case tokenid::hash_unknown:
error(_token.location, "unrecognized preprocessing directive '" + _token.literal_as_string + '\'');
consume_until(tokenid::end_of_line);
continue;
case tokenid::end_of_line:
if (line.empty())
continue;
_output_location.line++;
if (_output_location.line != _token.location.line)
{
_output += "#line " + std::to_string(_token.location.line) + '\n';
_output_location.line = _token.location.line;
}
_output += line;
_output += '\n';
line.clear();
continue;
case tokenid::identifier:
if (evaluate_identifier_as_macro())
continue;
// fall through
default:
line += _current_token_raw_data;
break;
}
}
// Append the last line after the EOF was reached to the output
_output += line;
_output += '\n';
}
void reshadefx::preprocessor::parse_def()
{
if (!expect(tokenid::identifier))
return;
else if (_token.literal_as_string == "defined")
return warning(_token.location, "macro name 'defined' is reserved");
macro m;
const auto location = std::move(_token.location);
const auto macro_name = std::move(_token.literal_as_string);
const auto macro_name_end_offset = _token.offset + _token.length;
// Check input string here directly to ensure the parenthesis follows the macro name without any whitespace between
if (_input_stack[_current_input_index].lexer->input_string()[macro_name_end_offset] == '(')
{
accept(tokenid::parenthesis_open);
m.is_function_like = true;
while (accept(tokenid::identifier))
{
m.parameters.push_back(_token.literal_as_string);
if (!accept(tokenid::comma))
break;
}
if (accept(tokenid::ellipsis))
{
m.is_variadic = true;
m.parameters.push_back("__VA_ARGS__");
// TODO: Implement variadic macros
error(_token.location, "variadic macros are not currently supported");
return;
}
if (!expect(tokenid::parenthesis_close))
return;
}
create_macro_replacement_list(m);
if (!add_macro_definition(macro_name, m))
return error(location, "redefinition of '" + macro_name + "'");
}
void reshadefx::preprocessor::parse_undef()
{
if (!expect(tokenid::identifier))
return;
else if (_token.literal_as_string == "defined")
return warning(_token.location, "macro name 'defined' is reserved");
_macros.erase(_token.literal_as_string);
}
void reshadefx::preprocessor::parse_if()
{
if_level level;
level.pp_token = _token;
level.input_index = _current_input_index;
// Evaluate expression after updating 'pp_token', so that it points at the beginning # token
level.value = evaluate_expression();
const bool parent_skipping = !_if_stack.empty() && _if_stack.back().skipping;
level.skipping = parent_skipping || !level.value;
_if_stack.push_back(std::move(level));
}
void reshadefx::preprocessor::parse_ifdef()
{
if_level level;
level.pp_token = _token;
level.input_index = _current_input_index;
if (!expect(tokenid::identifier))
return;
level.value = _macros.find(_token.literal_as_string) != _macros.end() ||
// Check built-in macros as well
_token.literal_as_string == "__LINE__" ||
_token.literal_as_string == "__FILE__" ||
_token.literal_as_string == "__FILE_NAME__" ||
_token.literal_as_string == "__FILE_STEM__";
const bool parent_skipping = !_if_stack.empty() && _if_stack.back().skipping;
level.skipping = parent_skipping || !level.value;
_if_stack.push_back(std::move(level));
if (!parent_skipping) // Only add if this #ifdef is active
_used_macros.emplace(_token.literal_as_string);
}
void reshadefx::preprocessor::parse_ifndef()
{
if_level level;
level.pp_token = _token;
level.input_index = _current_input_index;
if (!expect(tokenid::identifier))
return;
level.value = _macros.find(_token.literal_as_string) == _macros.end() &&
_token.literal_as_string != "__LINE__" &&
_token.literal_as_string != "__FILE__" &&
_token.literal_as_string != "__FILE_NAME__" &&
_token.literal_as_string != "__FILE_STEM__";
const bool parent_skipping = !_if_stack.empty() && _if_stack.back().skipping;
level.skipping = parent_skipping || !level.value;
_if_stack.push_back(std::move(level));
if (!parent_skipping) // Only add if this #ifndef is active
_used_macros.emplace(_token.literal_as_string);
}
void reshadefx::preprocessor::parse_elif()
{
if (_if_stack.empty())
return error(_token.location, "missing #if for #elif");
if_level &level = _if_stack.back();
if (level.pp_token == tokenid::hash_else)
return error(_token.location, "#elif is not allowed after #else");
// Update 'pp_token' before evaluating expression, so that it points at the beginning # token
level.pp_token = _token;
level.input_index = _current_input_index;
const bool parent_skipping = _if_stack.size() > 1 && _if_stack[_if_stack.size() - 2].skipping;
const bool condition_result = evaluate_expression();
level.skipping = parent_skipping || level.value || !condition_result;
if (!level.value) level.value = condition_result;
}
void reshadefx::preprocessor::parse_else()
{
if (_if_stack.empty())
return error(_token.location, "missing #if for #else");
if_level &level = _if_stack.back();
if (level.pp_token == tokenid::hash_else)
return error(_token.location, "#else is not allowed after #else");
level.pp_token = _token;
level.input_index = _current_input_index;
const bool parent_skipping = _if_stack.size() > 1 && _if_stack[_if_stack.size() - 2].skipping;
level.skipping = parent_skipping || level.value;
if (!level.value) level.value = true;
}
void reshadefx::preprocessor::parse_endif()
{
if (_if_stack.empty())
error(_token.location, "missing #if for #endif");
else
_if_stack.pop_back();
}
void reshadefx::preprocessor::parse_error()
{
const auto keyword_location = std::move(_token.location);
if (!expect(tokenid::string_literal))
return;
error(keyword_location, _token.literal_as_string);
}
void reshadefx::preprocessor::parse_warning()
{
const auto keyword_location = std::move(_token.location);
if (!expect(tokenid::string_literal))
return;
warning(keyword_location, _token.literal_as_string);
}
void reshadefx::preprocessor::parse_pragma()
{
const auto keyword_location = std::move(_token.location);
if (!expect(tokenid::identifier))
return;
std::string pragma = std::move(_token.literal_as_string);
while (!peek(tokenid::end_of_line) && !peek(tokenid::end_of_file))
{
consume();
if (_token == tokenid::identifier && evaluate_identifier_as_macro())
continue;
pragma += _current_token_raw_data;
}
if (pragma == "once")
{
if (const auto it = _file_cache.find(_output_location.source); it != _file_cache.end())
it->second.clear();
return;
}
warning(keyword_location, "unknown pragma ignored");
}
void reshadefx::preprocessor::parse_include()
{
const auto keyword_location = std::move(_token.location);
while (accept(tokenid::identifier))
{
if (evaluate_identifier_as_macro())
continue;
error(_token.location, "syntax error: unexpected identifier in #include");
consume_until(tokenid::end_of_line);
return;
}
if (!expect(tokenid::string_literal))
{
consume_until(tokenid::end_of_line);
return;
}
std::filesystem::path file_name = std::filesystem::u8path(_token.literal_as_string);
std::filesystem::path file_path = std::filesystem::u8path(_output_location.source);
file_path.replace_filename(file_name);
if (std::error_code ec; !std::filesystem::exists(file_path, ec))
for (const std::filesystem::path &include_path : _include_paths)
if (std::filesystem::exists(file_path = include_path / file_name, ec))
break;
const std::string file_path_string = file_path.u8string();
// Detect recursive include and abort to avoid infinite loop
if (std::find_if(_input_stack.begin(), _input_stack.end(),
[&file_path_string](const input_level &level) { return level.name == file_path_string; }) != _input_stack.end())
{
error(_token.location, "recursive #include");
return;
}
std::string data;
if (auto it = _file_cache.find(file_path_string);
it != _file_cache.end())
{
data = it->second;
}
else
{
if (!read_file(file_path, data))
{
error(keyword_location, "could not open included file '" + file_path_string + '\'');
consume_until(tokenid::end_of_line);
return;
}
_file_cache.emplace(file_path_string, data);
}
// Clear out input stack before pushing include so that hidden macros do not bleed into the include
while (_input_stack.size() > (_next_input_index + 1))
_input_stack.pop_back();
push(std::move(data), file_path_string);
}
bool reshadefx::preprocessor::evaluate_expression()
{
struct rpn_token
{
int value;
bool is_op;
};
size_t rpn_index = 0;
size_t stack_index = 0;
const size_t STACK_SIZE = 128;
rpn_token rpn[STACK_SIZE];
int stack[STACK_SIZE];
// Keep track of previous token to figure out data type of expression
tokenid previous_token = _token;
// Run shunting-yard algorithm
while (!peek(tokenid::end_of_line))
{
if (stack_index >= STACK_SIZE || rpn_index >= STACK_SIZE)
{
error(_token.location, "expression evaluator ran out of stack space");
return false;
}
int op = op_none;
bool is_left_associative = true;
bool parenthesis_matched = false;
consume();
switch (_token)
{
case tokenid::space:
continue;
case tokenid::backslash:
// Skip to next line if the line ends with a backslash
if (accept(tokenid::end_of_line))
continue;
else // Otherwise continue on processing the token (it is not valid here, but make that an error below)
break;
case tokenid::exclaim:
op = op_not;
is_left_associative = false;
break;
case tokenid::percent:
op = op_modulo;
break;
case tokenid::ampersand:
op = op_bitand;
break;
case tokenid::star:
op = op_multiply;
break;
case tokenid::plus:
is_left_associative =
previous_token == tokenid::int_literal ||
previous_token == tokenid::uint_literal ||
previous_token == tokenid::identifier ||
previous_token == tokenid::parenthesis_close;
op = is_left_associative ? op_add : op_plus;
break;
case tokenid::minus:
is_left_associative =
previous_token == tokenid::int_literal ||
previous_token == tokenid::uint_literal ||
previous_token == tokenid::identifier ||
previous_token == tokenid::parenthesis_close;
op = is_left_associative ? op_subtract : op_negate;
break;
case tokenid::slash:
op = op_divide;
break;
case tokenid::less:
op = op_less;
break;
case tokenid::greater:
op = op_greater;
break;
case tokenid::caret:
op = op_bitxor;
break;
case tokenid::pipe:
op = op_bitor;
break;
case tokenid::tilde:
op = op_bitnot;
is_left_associative = false;
break;
case tokenid::exclaim_equal:
op = op_not_equal;
break;
case tokenid::ampersand_ampersand:
op = op_and;
break;
case tokenid::less_less:
op = op_leftshift;
break;
case tokenid::less_equal:
op = op_less_equal;
break;
case tokenid::equal_equal:
op = op_equal;
break;
case tokenid::greater_greater:
op = op_rightshift;
break;
case tokenid::greater_equal:
op = op_greater_equal;
break;
case tokenid::pipe_pipe:
op = op_or;
break;
default:
// This is not an operator token
break;
}
switch (_token)
{
case tokenid::parenthesis_open:
stack[stack_index++] = op_parentheses;
break;
case tokenid::parenthesis_close:
parenthesis_matched = false;
while (stack_index > 0)
{
const int op2 = stack[--stack_index];
if (op2 == op_parentheses)
{
parenthesis_matched = true;
break;
}
rpn[rpn_index++] = { op2, true };
}
if (!parenthesis_matched)
{
error(_token.location, "unmatched ')'");
return false;
}
break;
case tokenid::identifier:
if (evaluate_identifier_as_macro())
continue;
if (_token.literal_as_string == "exists")
{
const bool has_parentheses = accept(tokenid::parenthesis_open);
while (accept(tokenid::identifier))
{
if (!evaluate_identifier_as_macro())
{
error(_token.location, "syntax error: unexpected identifier after 'exists'");
return false;
}
}
if (!expect(tokenid::string_literal))
return false;
std::filesystem::path file_name = std::filesystem::u8path(_token.literal_as_string);
if (has_parentheses && !expect(tokenid::parenthesis_close))
return false;
std::filesystem::path file_path = std::filesystem::u8path(_output_location.source);
file_path.replace_filename(file_name);
std::error_code ec;
if (!std::filesystem::exists(file_path, ec))
for (const std::filesystem::path &include_path : _include_paths)
if (std::filesystem::exists(file_path = include_path / file_name, ec))
break;
rpn[rpn_index++] = { std::filesystem::exists(file_path, ec) ? 1 : 0, false };
continue;
}
if (_token.literal_as_string == "defined")
{
const bool has_parentheses = accept(tokenid::parenthesis_open);
if (!expect(tokenid::identifier))
return false;
const std::string macro_name = std::move(_token.literal_as_string);
if (has_parentheses && !expect(tokenid::parenthesis_close))
return false;
rpn[rpn_index++] = { _macros.find(macro_name) != _macros.end() ? 1 : 0, false };
continue;
}
// An identifier that cannot be replaced with a number becomes zero
rpn[rpn_index++] = { 0, false };
break;
case tokenid::int_literal:
case tokenid::uint_literal:
rpn[rpn_index++] = { _token.literal_as_int, false };
break;
default:
if (op == op_none)
{
error(_token.location, "invalid expression");
return false;
}
while (stack_index > 0)
{
const int prev_op = stack[stack_index - 1];
if (prev_op == op_parentheses)
break;
if (is_left_associative ?
(precedence_lookup[op] > precedence_lookup[prev_op]) :
(precedence_lookup[op] >= precedence_lookup[prev_op]))
break;
stack_index--;
rpn[rpn_index++] = { prev_op, true };
}
stack[stack_index++] = op;
break;
}
previous_token = _token;
}
while (stack_index > 0)
{
const int op = stack[--stack_index];
if (op == op_parentheses)
{
error(_token.location, "unmatched ')'");
return false;
}
rpn[rpn_index++] = { op, true };
}
#define UNARY_OPERATION(op) { \
if (stack_index < 1) \
return error(_token.location, "invalid expression"), 0; \
stack[stack_index - 1] = op stack[stack_index - 1]; \
}
#define BINARY_OPERATION(op) { \
if (stack_index < 2) \
return error(_token.location, "invalid expression"), 0; \
stack[stack_index - 2] = stack[stack_index - 2] op stack[stack_index - 1]; \
stack_index--; \
}
// Evaluate reverse polish notation output
for (rpn_token *token = rpn; rpn_index--; token++)
{
if (token->is_op)
{
switch (token->value)
{
case op_or:
BINARY_OPERATION(||);
break;
case op_and:
BINARY_OPERATION(&&);
break;
case op_bitor:
BINARY_OPERATION(|);
break;
case op_bitxor:
BINARY_OPERATION(^);
break;
case op_bitand:
BINARY_OPERATION(&);
break;
case op_not_equal:
BINARY_OPERATION(!=);
break;
case op_equal:
BINARY_OPERATION(==);
break;
case op_less:
BINARY_OPERATION(<);
break;
case op_greater:
BINARY_OPERATION(>);
break;
case op_less_equal:
BINARY_OPERATION(<=);
break;
case op_greater_equal:
BINARY_OPERATION(>=);
break;
case op_leftshift:
BINARY_OPERATION(<<);
break;
case op_rightshift:
BINARY_OPERATION(>>);
break;
case op_add:
BINARY_OPERATION(+);
break;
case op_subtract:
BINARY_OPERATION(-);
break;
case op_modulo:
BINARY_OPERATION(%);
break;
case op_divide:
BINARY_OPERATION(/);
break;
case op_multiply:
BINARY_OPERATION(*);
break;
case op_plus: