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/*
* MRustC - Rust Compiler
* - By John Hodge (Mutabah/thePowersGang)
*
* trans/auto_impls.cpp
* - Automatic trait/method impls
*
* Handles implementing Clone (when in 1.29 mode)
*/
#include "main_bindings.hpp"
#include "trans_list.hpp"
#include <hir/hir.hpp>
#include <mir/mir.hpp>
#include <hir_typeck/common.hpp> // monomorph
#include <hir_typeck/static.hpp> // StaticTraitResolve
#include <deque>
#include <algorithm> // find_if
namespace {
struct State
{
::HIR::Crate& crate;
StaticTraitResolve resolve;
const TransList& trans_list;
::std::deque<::HIR::TypeRef> todo_list;
::std::set<::HIR::TypeRef> done_list;
::HIR::SimplePath lang_Clone;
State(::HIR::Crate& crate, const TransList& trans_list):
crate(crate),
resolve( crate ),
trans_list(trans_list)
{
lang_Clone = crate.get_lang_item_path(Span(), "clone");
}
void enqueue_type(const ::HIR::TypeRef& ty) {
if( this->trans_list.auto_clone_impls.count(ty) == 0 && this->done_list.count(ty) == 0 ) {
this->done_list.insert( ty.clone() );
this->todo_list.push_back( ty.clone() );
}
}
};
}
void Trans_AutoImpl_Clone(State& state, ::HIR::TypeRef ty)
{
Span sp;
TRACE_FUNCTION_F(ty);
// Create MIR
::MIR::Function mir_fcn;
if( state.resolve.type_is_copy(sp, ty) )
{
::MIR::BasicBlock bb;
bb.statements.push_back(::MIR::Statement::make_Assign({
::MIR::LValue::make_Return({}),
::MIR::RValue::make_Use( ::MIR::LValue::make_Deref({ box$(::MIR::LValue::make_Argument({ 0 })) }) )
}));
bb.terminator = ::MIR::Terminator::make_Return({});
mir_fcn.blocks.push_back(::std::move( bb ));
}
else
{
TODO(Span(), "auto Clone for " << ty << " - Not Copy");
}
// Function
::HIR::Function fcn {
/*m_save_code=*/false,
::HIR::Linkage {},
::HIR::Function::Receiver::BorrowShared,
/*m_abi=*/ABI_RUST,
/*m_unsafe =*/false,
/*m_const=*/false,
::HIR::GenericParams {},
/*m_args=*/::make_vec1(::std::make_pair(
::HIR::Pattern( ::HIR::PatternBinding(false, ::HIR::PatternBinding::Type::Move, "self", 0), ::HIR::Pattern::Data::make_Any({}) ),
::HIR::TypeRef::new_borrow(::HIR::BorrowType::Shared, ty.clone())
)),
/*m_variadic=*/false,
/*m_return=*/ty.clone(),
::HIR::ExprPtr {}
};
fcn.m_code.m_mir = ::MIR::FunctionPointer( new ::MIR::Function(mv$(mir_fcn)) );
// Impl
::HIR::TraitImpl impl;
impl.m_type = mv$(ty);
impl.m_methods.insert(::std::make_pair( ::std::string("clone"), ::HIR::TraitImpl::ImplEnt< ::HIR::Function> { false, ::std::move(fcn) } ));
// Add impl to the crate
state.crate.m_trait_impls.insert(::std::make_pair( state.lang_Clone, ::std::move(impl) ));
}
void Trans_AutoImpls(::HIR::Crate& crate, TransList& trans_list)
{
if( TARGETVER_1_19 )
return ;
State state { crate, trans_list };
// Generate for all
for(const auto& ty : trans_list.auto_clone_impls)
{
state.done_list.insert( ty.clone() );
Trans_AutoImpl_Clone(state, ty.clone());
}
while( !state.todo_list.empty() )
{
auto ty = ::std::move(state.todo_list.front());
state.todo_list.pop_back();
Trans_AutoImpl_Clone(state, mv$(ty));
}
const auto impl_range = crate.m_trait_impls.equal_range( state.lang_Clone );
for(const auto& ty : state.done_list)
{
// TODO: Find a way of turning a set into a vector so items can be erased.
auto p = ::HIR::Path(ty.clone(), ::HIR::GenericPath(state.lang_Clone), "clone");
//DEBUG("add_function(" << p << ")");
auto e = trans_list.add_function(::std::move(p));
auto it = ::std::find_if( impl_range.first, impl_range.second, [&](const auto& i){ return i.second.m_type == ty; });
assert( it->second.m_methods.size() == 1 );
e->ptr = &it->second.m_methods.begin()->second.data;
}
}
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