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511 lines (435 loc) · 23.9 KB
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// This file is distributed under the BSD License.
// See "license.txt" for details.
// Copyright 2009-2012, Jonathan Turner (jonathan@emptycrate.com)
// Copyright 2009-2018, Jason Turner (jason@emptycrate.com)
// http://www.chaiscript.com
// This is an open source non-commercial project. Dear PVS-Studio, please check it.
// PVS-Studio Static Code Analyzer for C, C++ and C#: http://www.viva64.com
#ifndef CHAISCRIPT_BOOTSTRAP_HPP_
#define CHAISCRIPT_BOOTSTRAP_HPP_
#include "../utility/utility.hpp"
#include "register_function.hpp"
/// \brief Classes and functions useful for bootstrapping of ChaiScript and adding of new types
namespace chaiscript::bootstrap {
template<typename T, typename = typename std::enable_if<std::is_array<T>::value>::type>
void array(const std::string &type, Module &m) {
using ReturnType = typename std::remove_extent<T>::type;
m.add(user_type<T>(), type);
m.add(fun([](T &t, size_t index) -> ReturnType & {
constexpr const auto extent = std::extent<T>::value;
if (extent > 0 && index >= extent) {
throw std::range_error("Array index out of range. Received: " + std::to_string(index) + " expected < "
+ std::to_string(extent));
} else {
return t[index];
}
}),
"[]");
m.add(fun([](const T &t, size_t index) -> const ReturnType & {
constexpr const auto extent = std::extent<T>::value;
if (extent > 0 && index >= extent) {
throw std::range_error("Array index out of range. Received: " + std::to_string(index) + " expected < "
+ std::to_string(extent));
} else {
return t[index];
}
}),
"[]");
m.add(fun([](const T &) { return std::extent<T>::value; }), "size");
}
/// \brief Adds a copy constructor for the given type to the given Model
/// \param[in] type The name of the type. The copy constructor will be named "type".
/// \param[in,out] m The Module to add the copy constructor to
/// \tparam T The type to add a copy constructor for
/// \returns The passed in Module
template<typename T>
void copy_constructor(const std::string &type, Module &m) {
m.add(constructor<T(const T &)>(), type);
}
/// \brief Add all comparison operators for the templated type. Used during bootstrap, also available to users.
/// \tparam T Type to create comparison operators for
/// \param[in,out] m module to add comparison operators to
/// \returns the passed in Module.
template<typename T>
void opers_comparison(Module &m) {
operators::equal<T>(m);
operators::greater_than<T>(m);
operators::greater_than_equal<T>(m);
operators::less_than<T>(m);
operators::less_than_equal<T>(m);
operators::not_equal<T>(m);
}
/// \brief Adds default and copy constructors for the given type
/// \param[in] type The name of the type to add the constructors for.
/// \param[in,out] m The Module to add the basic constructors to
/// \tparam T Type to generate basic constructors for
/// \returns The passed in Module
/// \sa copy_constructor
/// \sa constructor
template<typename T>
void basic_constructors(const std::string &type, Module &m) {
m.add(constructor<T()>(), type);
copy_constructor<T>(type, m);
}
/// \brief Adds a constructor for a POD type
/// \tparam T The type to add the constructor for
/// \param[in] type The name of the type
/// \param[in,out] m The Module to add the constructor to
template<typename T>
void construct_pod(const std::string &type, Module &m) {
m.add(fun([](const Boxed_Number &bn) { return bn.get_as<T>(); }), type);
}
/// Internal function for converting from a string to a value
/// uses ostream operator >> to perform the conversion
template<typename Input>
Input parse_string(const std::string &i) {
if constexpr (!std::is_same<Input, wchar_t>::value && !std::is_same<Input, char16_t>::value && !std::is_same<Input, char32_t>::value) {
std::stringstream ss(i);
Input t;
ss >> t;
return t;
} else {
throw std::runtime_error("Parsing of wide characters is not yet supported");
}
}
/// Add all common functions for a POD type. All operators, and
/// common conversions
template<typename T>
void bootstrap_pod_type(const std::string &name, Module &m) {
m.add(user_type<T>(), name);
m.add(constructor<T()>(), name);
construct_pod<T>(name, m);
m.add(fun(&parse_string<T>), "to_" + name);
m.add(fun([](const T t) { return t; }), "to_" + name);
}
/// "clone" function for a shared_ptr type. This is used in the case
/// where you do not want to make a deep copy of an object during cloning
/// but want to instead maintain the shared_ptr. It is needed internally
/// for handling of Proxy_Function object (that is,
/// function variables.
template<typename Type>
auto shared_ptr_clone(const std::shared_ptr<Type> &p) {
return p;
}
/// Specific version of shared_ptr_clone just for Proxy_Functions
template<typename Type>
std::shared_ptr<std::remove_const_t<Type>> shared_ptr_unconst_clone(const std::shared_ptr<std::add_const_t<Type>> &p) {
return std::const_pointer_cast<typename std::remove_const<Type>::type>(p);
}
/// Assignment function for shared_ptr objects, does not perform a copy of the
/// object pointed to, instead maintains the shared_ptr concept.
/// Similar to shared_ptr_clone. Used for Proxy_Function.
template<typename Type>
Boxed_Value ptr_assign(Boxed_Value lhs, const std::shared_ptr<Type> &rhs) {
if (lhs.is_undef() || (!lhs.get_type_info().is_const() && lhs.get_type_info().bare_equal(chaiscript::detail::Get_Type_Info<Type>::get()))) {
lhs.assign(Boxed_Value(rhs));
return lhs;
} else {
throw exception::bad_boxed_cast("type mismatch in pointer assignment");
}
}
/// Class consisting of only static functions. All default bootstrapping occurs
/// from this class.
class Bootstrap {
private:
/// Function allowing for assignment of an unknown type to any other value
static Boxed_Value unknown_assign(Boxed_Value lhs, Boxed_Value rhs) {
if (lhs.is_undef()) {
return (lhs.assign(rhs));
} else {
throw exception::bad_boxed_cast("boxed_value has a set type already");
}
}
static void print(const std::string &s) noexcept { fwrite(s.c_str(), 1, s.size(), stdout); }
static void println(const std::string &s) noexcept { puts(s.c_str()); }
/// Add all arithmetic operators for PODs
static void opers_arithmetic_pod(Module &m) {
m.add(fun(&Boxed_Number::equals), "==");
m.add(fun(&Boxed_Number::less_than), "<");
m.add(fun(&Boxed_Number::greater_than), ">");
m.add(fun(&Boxed_Number::greater_than_equal), ">=");
m.add(fun(&Boxed_Number::less_than_equal), "<=");
m.add(fun(&Boxed_Number::not_equal), "!=");
m.add(fun(&Boxed_Number::pre_decrement), "--");
m.add(fun(&Boxed_Number::pre_increment), "++");
m.add(fun(&Boxed_Number::sum), "+");
m.add(fun(&Boxed_Number::unary_plus), "+");
m.add(fun(&Boxed_Number::unary_minus), "-");
m.add(fun(&Boxed_Number::difference), "-");
m.add(fun(&Boxed_Number::assign_bitwise_and), "&=");
m.add(fun(&Boxed_Number::assign), "=");
m.add(fun(&Boxed_Number::assign_bitwise_or), "|=");
m.add(fun(&Boxed_Number::assign_bitwise_xor), "^=");
m.add(fun(&Boxed_Number::assign_remainder), "%=");
m.add(fun(&Boxed_Number::assign_shift_left), "<<=");
m.add(fun(&Boxed_Number::assign_shift_right), ">>=");
m.add(fun(&Boxed_Number::bitwise_and), "&");
m.add(fun(&Boxed_Number::bitwise_complement), "~");
m.add(fun(&Boxed_Number::bitwise_xor), "^");
m.add(fun(&Boxed_Number::bitwise_or), "|");
m.add(fun(&Boxed_Number::assign_product), "*=");
m.add(fun(&Boxed_Number::assign_quotient), "/=");
m.add(fun(&Boxed_Number::assign_sum), "+=");
m.add(fun(&Boxed_Number::assign_difference), "-=");
m.add(fun(&Boxed_Number::quotient), "/");
m.add(fun(&Boxed_Number::shift_left), "<<");
m.add(fun(&Boxed_Number::product), "*");
m.add(fun(&Boxed_Number::remainder), "%");
m.add(fun(&Boxed_Number::shift_right), ">>");
}
/// Create a bound function object. The first param is the function to bind
/// the remaining parameters are the args to bind into the result
static Boxed_Value bind_function(const Function_Params ¶ms) {
if (params.empty()) {
throw exception::arity_error(0, 1);
}
Const_Proxy_Function f = boxed_cast<Const_Proxy_Function>(params[0]);
if (f->get_arity() != -1 && size_t(f->get_arity()) != params.size() - 1) {
throw exception::arity_error(static_cast<int>(params.size()), f->get_arity());
}
return Boxed_Value(Const_Proxy_Function(
std::make_shared<dispatch::Bound_Function>(std::move(f), std::vector<Boxed_Value>(params.begin() + 1, params.end()))));
}
static bool has_guard(const Const_Proxy_Function &t_pf) noexcept {
auto pf = std::dynamic_pointer_cast<const dispatch::Dynamic_Proxy_Function>(t_pf);
return pf && pf->has_guard();
}
static Const_Proxy_Function get_guard(const Const_Proxy_Function &t_pf) {
const auto pf = std::dynamic_pointer_cast<const dispatch::Dynamic_Proxy_Function>(t_pf);
if (pf && pf->get_guard()) {
return pf->get_guard();
} else {
throw std::runtime_error("Function does not have a guard");
}
}
template<typename FunctionType>
static std::vector<Boxed_Value> do_return_boxed_value_vector(FunctionType f, const dispatch::Proxy_Function_Base *b) {
auto v = (b->*f)();
std::vector<Boxed_Value> vbv;
for (const auto &o : v) {
vbv.push_back(const_var(o));
}
return vbv;
}
static bool has_parse_tree(const chaiscript::Const_Proxy_Function &t_pf) noexcept {
const auto pf = std::dynamic_pointer_cast<const chaiscript::dispatch::Dynamic_Proxy_Function>(t_pf);
return bool(pf);
}
static const chaiscript::AST_Node &get_parse_tree(const chaiscript::Const_Proxy_Function &t_pf) {
const auto pf = std::dynamic_pointer_cast<const chaiscript::dispatch::Dynamic_Proxy_Function>(t_pf);
if (pf) {
return pf->get_parse_tree();
} else {
throw std::runtime_error("Function does not have a parse tree");
}
}
template<typename Function>
static auto return_boxed_value_vector(const Function &f) {
return [f](const dispatch::Proxy_Function_Base *b) { return do_return_boxed_value_vector(f, b); };
}
public:
/// \brief perform all common bootstrap functions for std::string, void and POD types
/// \param[in,out] m Module to add bootstrapped functions to
/// \returns passed in Module
static void bootstrap(Module &m) {
m.add(user_type<void>(), "void");
m.add(user_type<bool>(), "bool");
m.add(user_type<Boxed_Value>(), "Object");
m.add(user_type<Boxed_Number>(), "Number");
m.add(user_type<Proxy_Function>(), "Function");
m.add(user_type<dispatch::Assignable_Proxy_Function>(), "Assignable_Function");
m.add(user_type<std::exception>(), "exception");
m.add(fun(&dispatch::Proxy_Function_Base::get_arity), "get_arity");
m.add(fun(&dispatch::Proxy_Function_Base::operator==), "==");
m.add(fun(return_boxed_value_vector(&dispatch::Proxy_Function_Base::get_param_types)), "get_param_types");
m.add(fun(return_boxed_value_vector(&dispatch::Proxy_Function_Base::get_contained_functions)), "get_contained_functions");
m.add(fun([](const std::exception &e) { return std::string(e.what()); }), "what");
m.add(user_type<std::out_of_range>(), "out_of_range");
m.add(user_type<std::logic_error>(), "logic_error");
m.add(chaiscript::base_class<std::exception, std::logic_error>());
m.add(chaiscript::base_class<std::logic_error, std::out_of_range>());
m.add(chaiscript::base_class<std::exception, std::out_of_range>());
m.add(user_type<std::runtime_error>(), "runtime_error");
m.add(chaiscript::base_class<std::exception, std::runtime_error>());
m.add(constructor<std::runtime_error(const std::string &)>(), "runtime_error");
m.add(user_type<dispatch::Dynamic_Object>(), "Dynamic_Object");
m.add(constructor<dispatch::Dynamic_Object(const std::string &)>(), "Dynamic_Object");
m.add(constructor<dispatch::Dynamic_Object()>(), "Dynamic_Object");
m.add(fun(&dispatch::Dynamic_Object::get_type_name), "get_type_name");
m.add(fun(&dispatch::Dynamic_Object::get_attrs), "get_attrs");
m.add(fun(&dispatch::Dynamic_Object::set_explicit), "set_explicit");
m.add(fun(&dispatch::Dynamic_Object::is_explicit), "is_explicit");
m.add(fun(&dispatch::Dynamic_Object::has_attr), "has_attr");
m.add(fun(static_cast<Boxed_Value &(dispatch::Dynamic_Object::*)(const std::string &)>(&dispatch::Dynamic_Object::get_attr)), "get_attr");
m.add(fun(static_cast<const Boxed_Value &(dispatch::Dynamic_Object::*)(const std::string &) const>(&dispatch::Dynamic_Object::get_attr)),
"get_attr");
m.add(fun(static_cast<Boxed_Value &(dispatch::Dynamic_Object::*)(const std::string &)>(&dispatch::Dynamic_Object::method_missing)),
"method_missing");
m.add(fun(static_cast<const Boxed_Value &(dispatch::Dynamic_Object::*)(const std::string &) const>(
&dispatch::Dynamic_Object::method_missing)),
"method_missing");
m.add(fun(static_cast<Boxed_Value &(dispatch::Dynamic_Object::*)(const std::string &)>(&dispatch::Dynamic_Object::get_attr)), "[]");
m.add(fun(static_cast<const Boxed_Value &(dispatch::Dynamic_Object::*)(const std::string &) const>(&dispatch::Dynamic_Object::get_attr)),
"[]");
m.eval(R"chaiscript(
def Dynamic_Object::clone() {
auto &new_o = Dynamic_Object(this.get_type_name());
for_each(this.get_attrs(), fun[new_o](x) { new_o.get_attr(x.first) = x.second; } );
new_o;
}
def `=`(Dynamic_Object lhs, Dynamic_Object rhs) : lhs.get_type_name() == rhs.get_type_name()
{
for_each(rhs.get_attrs(), fun[lhs](x) { lhs.get_attr(x.first) = clone(x.second); } );
}
def `!=`(Dynamic_Object lhs, Dynamic_Object rhs) : lhs.get_type_name() == rhs.get_type_name()
{
var rhs_attrs := rhs.get_attrs();
var lhs_attrs := lhs.get_attrs();
if (rhs_attrs.size() != lhs_attrs.size()) {
true;
} else {
return any_of(rhs_attrs, fun[lhs](x) { !lhs.has_attr(x.first) || lhs.get_attr(x.first) != x.second; } );
}
}
def `==`(Dynamic_Object lhs, Dynamic_Object rhs) : lhs.get_type_name() == rhs.get_type_name()
{
var rhs_attrs := rhs.get_attrs();
var lhs_attrs := lhs.get_attrs();
if (rhs_attrs.size() != lhs_attrs.size()) {
false;
} else {
return all_of(rhs_attrs, fun[lhs](x) { lhs.has_attr(x.first) && lhs.get_attr(x.first) == x.second; } );
}
}
)chaiscript");
m.add(fun(&has_guard), "has_guard");
m.add(fun(&get_guard), "get_guard");
m.add(fun(&Boxed_Value::is_undef), "is_var_undef");
m.add(fun(&Boxed_Value::is_null), "is_var_null");
m.add(fun(&Boxed_Value::is_const), "is_var_const");
m.add(fun(&Boxed_Value::is_ref), "is_var_reference");
m.add(fun(&Boxed_Value::is_pointer), "is_var_pointer");
m.add(fun(&Boxed_Value::is_return_value), "is_var_return_value");
m.add(fun(&Boxed_Value::reset_return_value), "reset_var_return_value");
m.add(fun(&Boxed_Value::is_type), "is_type");
m.add(fun(&Boxed_Value::get_attr), "get_var_attr");
m.add(fun(&Boxed_Value::copy_attrs), "copy_var_attrs");
m.add(fun(&Boxed_Value::clone_attrs), "clone_var_attrs");
m.add(fun(&Boxed_Value::get_type_info), "get_type_info");
m.add(user_type<Type_Info>(), "Type_Info");
m.add(constructor<Type_Info(const Type_Info &)>(), "Type_Info");
operators::equal<Type_Info>(m);
m.add(fun(&Type_Info::is_const), "is_type_const");
m.add(fun(&Type_Info::is_reference), "is_type_reference");
m.add(fun(&Type_Info::is_void), "is_type_void");
m.add(fun(&Type_Info::is_undef), "is_type_undef");
m.add(fun(&Type_Info::is_pointer), "is_type_pointer");
m.add(fun(&Type_Info::is_arithmetic), "is_type_arithmetic");
m.add(fun(&Type_Info::name), "cpp_name");
m.add(fun(&Type_Info::bare_name), "cpp_bare_name");
m.add(fun(&Type_Info::bare_equal), "bare_equal");
basic_constructors<bool>("bool", m);
operators::assign<bool>(m);
operators::equal<bool>(m);
operators::not_equal<bool>(m);
m.add(fun([](const std::string &s) { return s; }), "to_string");
m.add(fun([](const bool b) { return std::string(b ? "true" : "false"); }), "to_string");
m.add(fun(&unknown_assign), "=");
m.add(fun([](const Boxed_Value &bv) { throw bv; }), "throw");
m.add(fun([](const char c) { return std::string(1, c); }), "to_string");
m.add(fun(&Boxed_Number::to_string), "to_string");
bootstrap_pod_type<double>("double", m);
bootstrap_pod_type<long double>("long_double", m);
bootstrap_pod_type<float>("float", m);
bootstrap_pod_type<int>("int", m);
bootstrap_pod_type<long>("long", m);
bootstrap_pod_type<unsigned int>("unsigned_int", m);
bootstrap_pod_type<unsigned long>("unsigned_long", m);
bootstrap_pod_type<long long>("long_long", m);
bootstrap_pod_type<unsigned long long>("unsigned_long_long", m);
bootstrap_pod_type<size_t>("size_t", m);
bootstrap_pod_type<char>("char", m);
bootstrap_pod_type<wchar_t>("wchar_t", m);
bootstrap_pod_type<char16_t>("char16_t", m);
bootstrap_pod_type<char32_t>("char32_t", m);
bootstrap_pod_type<std::int8_t>("int8_t", m);
bootstrap_pod_type<std::int16_t>("int16_t", m);
bootstrap_pod_type<std::int32_t>("int32_t", m);
bootstrap_pod_type<std::int64_t>("int64_t", m);
bootstrap_pod_type<std::uint8_t>("uint8_t", m);
bootstrap_pod_type<std::uint16_t>("uint16_t", m);
bootstrap_pod_type<std::uint32_t>("uint32_t", m);
bootstrap_pod_type<std::uint64_t>("uint64_t", m);
operators::logical_compliment<bool>(m);
opers_arithmetic_pod(m);
m.add(fun(&Build_Info::version_major), "version_major");
m.add(fun(&Build_Info::version_minor), "version_minor");
m.add(fun(&Build_Info::version_patch), "version_patch");
m.add(fun(&Build_Info::version), "version");
m.add(fun(&Build_Info::compiler_version), "compiler_version");
m.add(fun(&Build_Info::compiler_name), "compiler_name");
m.add(fun(&Build_Info::compiler_id), "compiler_id");
m.add(fun(&Build_Info::debug_build), "debug_build");
m.add(fun(&print), "print_string");
m.add(fun(&println), "println_string");
m.add(dispatch::make_dynamic_proxy_function(&bind_function), "bind");
m.add(fun(&shared_ptr_unconst_clone<dispatch::Proxy_Function_Base>), "clone");
m.add(fun(&ptr_assign<std::remove_const<dispatch::Proxy_Function_Base>::type>), "=");
m.add(fun(&ptr_assign<std::add_const<dispatch::Proxy_Function_Base>::type>), "=");
m.add(chaiscript::base_class<dispatch::Proxy_Function_Base, dispatch::Assignable_Proxy_Function>());
m.add(fun([](dispatch::Assignable_Proxy_Function &t_lhs, const std::shared_ptr<const dispatch::Proxy_Function_Base> &t_rhs) {
t_lhs.assign(t_rhs);
}),
"=");
m.add(fun(&Boxed_Value::type_match), "type_match");
m.add(chaiscript::fun(&has_parse_tree), "has_parse_tree");
m.add(chaiscript::fun(&get_parse_tree), "get_parse_tree");
m.add(chaiscript::base_class<std::runtime_error, chaiscript::exception::eval_error>());
m.add(chaiscript::base_class<std::exception, chaiscript::exception::eval_error>());
m.add(chaiscript::user_type<chaiscript::exception::arithmetic_error>(), "arithmetic_error");
m.add(chaiscript::base_class<std::runtime_error, chaiscript::exception::arithmetic_error>());
m.add(chaiscript::base_class<std::exception, chaiscript::exception::arithmetic_error>());
// chaiscript::bootstrap::standard_library::vector_type<std::vector<std::shared_ptr<chaiscript::AST_Node> >
// >("AST_NodeVector", m);
chaiscript::utility::add_class<chaiscript::exception::eval_error>(m,
"eval_error",
{},
{{fun(&chaiscript::exception::eval_error::reason), "reason"},
{fun(&chaiscript::exception::eval_error::pretty_print), "pretty_print"},
{fun([](const chaiscript::exception::eval_error &t_eval_error) {
std::vector<Boxed_Value> retval;
std::transform(t_eval_error.call_stack.begin(),
t_eval_error.call_stack.end(),
std::back_inserter(retval),
&chaiscript::var<const chaiscript::AST_Node_Trace &>);
return retval;
}),
"call_stack"}});
chaiscript::utility::add_class<chaiscript::File_Position>(m,
"File_Position",
{constructor<File_Position()>(), constructor<File_Position(int, int)>()},
{{fun(&File_Position::line), "line"},
{fun(&File_Position::column), "column"}});
chaiscript::utility::add_class<AST_Node>(m,
"AST_Node",
{},
{{fun(&AST_Node::text), "text"},
{fun(&AST_Node::identifier), "identifier"},
{fun(&AST_Node::filename), "filename"},
{fun(&AST_Node::start), "start"},
{fun(&AST_Node::end), "end"},
{fun(&AST_Node::to_string), "to_string"},
{fun([](const chaiscript::AST_Node &t_node) -> std::vector<Boxed_Value> {
std::vector<Boxed_Value> retval;
const auto children = t_node.get_children();
std::transform(children.begin(),
children.end(),
std::back_inserter(retval),
&chaiscript::var<const std::reference_wrapper<chaiscript::AST_Node> &>);
return retval;
}),
"children"}});
}
};
} // namespace chaiscript::bootstrap
#endif