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https://github.com/RPCS3/rpcs3.git
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SC_FUNC improved (faster compilation)
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parent
82781e620a
commit
096fc86f17
@ -57,7 +57,11 @@ void CallbackManager::Init()
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{
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CHECK_EMU_STATUS;
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if (!lock) lock.lock();
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if (!lock)
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{
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lock.lock();
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continue;
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}
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if (m_async_cb.size())
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{
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@ -8,7 +8,7 @@ namespace vm { using namespace ps3; }
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extern Module cellAvconfExt;
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s32 cellVideoOutConvertCursorColor()
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s32 cellVideoOutConvertCursorColor(PPUThread& CPU)
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{
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UNIMPLEMENTED_FUNC(cellAvconfExt);
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return CELL_OK;
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@ -6,18 +6,18 @@ using ppu_func_caller = void(*)(PPUThread&);
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namespace ppu_func_detail
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{
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enum arg_class : u8
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// argument type classification
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enum arg_class : u32
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{
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ARG_GENERAL,
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ARG_FLOAT,
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ARG_VECTOR,
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ARG_GENERAL, // argument is stored in GPR registers (from r3 to r10)
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ARG_FLOAT, // argument is stored in FPR registers (from f1 to f12)
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ARG_VECTOR, // argument is stored in VPR registers (from v2 to v13)
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ARG_STACK,
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};
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template<typename T, arg_class type, u8 g_count, u8 f_count, u8 v_count>
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struct bind_arg;
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template<typename T, arg_class type, u32 g_count, u32 f_count, u32 v_count> struct bind_arg;
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template<typename T, u8 g_count, u8 f_count, u8 v_count>
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template<typename T, u32 g_count, u32 f_count, u32 v_count>
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struct bind_arg<T, ARG_GENERAL, g_count, f_count, v_count>
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{
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static_assert(sizeof(T) <= 8, "Invalid function argument type for ARG_GENERAL");
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@ -28,7 +28,7 @@ namespace ppu_func_detail
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}
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};
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template<typename T, u8 g_count, u8 f_count, u8 v_count>
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template<typename T, u32 g_count, u32 f_count, u32 v_count>
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struct bind_arg<T, ARG_FLOAT, g_count, f_count, v_count>
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{
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static_assert(sizeof(T) <= 8, "Invalid function argument type for ARG_FLOAT");
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@ -39,7 +39,7 @@ namespace ppu_func_detail
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}
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};
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template<typename T, u8 g_count, u8 f_count, u8 v_count>
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template<typename T, u32 g_count, u32 f_count, u32 v_count>
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struct bind_arg<T, ARG_VECTOR, g_count, f_count, v_count>
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{
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static_assert(std::is_same<T, u128>::value, "Invalid function argument type for ARG_VECTOR");
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@ -50,7 +50,7 @@ namespace ppu_func_detail
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}
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};
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template<typename T, u8 g_count, u8 f_count, u8 v_count>
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template<typename T, u32 g_count, u32 f_count, u32 v_count>
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struct bind_arg<T, ARG_STACK, g_count, f_count, v_count>
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{
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static_assert(f_count <= 13, "TODO: Unsupported stack argument type (float)");
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@ -60,7 +60,7 @@ namespace ppu_func_detail
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static force_inline T get_arg(PPUThread& CPU)
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{
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// TODO: check stack argument displacement
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const u64 res = CPU.GetStackArg(8 + std::max(g_count - 8, 0) + std::max(f_count - 13, 0) + std::max(v_count - 12, 0));
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const u64 res = CPU.GetStackArg(8 + std::max<u32>(g_count - 8, 0) + std::max<u32>(f_count - 13, 0) + std::max<u32>(v_count - 12, 0));
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return cast_from_ppu_gpr<T>(res);
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}
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};
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@ -99,60 +99,56 @@ namespace ppu_func_detail
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}
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};
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struct arg_type_pack
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// wrapper for variadic argument info list, each value contains packed argument type and counts of GENERAL, FLOAT and VECTOR arguments
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template<u32... Values> struct arg_info_pack_t;
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template<u32 First, u32... Values> struct arg_info_pack_t<First, Values...>
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{
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arg_class type;
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u8 g_count;
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u8 f_count;
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u8 v_count;
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static const u32 last_value = arg_info_pack_t<Values...>::last_value;
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};
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template<typename T, u32 type_pack>
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struct bind_arg_packed
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template<u32 First> struct arg_info_pack_t<First>
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{
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static const u32 last_value = First;
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};
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template<> struct arg_info_pack_t<>
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{
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static const u32 last_value = 0;
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};
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// argument unpacker
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template<typename T, u32 type_pack> struct bind_arg_packed
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{
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static force_inline T get_arg(PPUThread& CPU)
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{
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return bind_arg<T, type_pack, (type_pack >> 8), (type_pack >> 16), (type_pack >> 24)>::get_arg(CPU);
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return bind_arg<T, static_cast<arg_class>(type_pack & 0xff), (type_pack >> 8) & 0xff, (type_pack >> 16) & 0xff, (type_pack >> 24)>::get_arg(CPU);
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}
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};
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template <typename RT, typename F, typename Tuple, bool Done, int Total, int... N>
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struct call_impl
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template<u32... Info, typename RT, typename... Args>
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force_inline RT call(PPUThread& CPU, RT(*func)(Args...), arg_info_pack_t<Info...>)
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{
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static force_inline RT call(F f, Tuple && t)
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{
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return call_impl<RT, F, Tuple, Total == 1 + sizeof...(N), Total, N..., sizeof...(N)>::call(f, std::forward<Tuple>(t));
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}
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};
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template <typename RT, typename F, typename Tuple, int Total, int... N>
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struct call_impl<RT, F, Tuple, true, Total, N...>
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{
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static force_inline RT call(F f, Tuple && t)
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{
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return f(std::get<N>(std::forward<Tuple>(t))...);
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}
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};
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template <typename RT, typename F, typename Tuple>
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force_inline RT call(F f, Tuple && t)
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{
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using ttype = std::decay_t<Tuple>;
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return ppu_func_detail::call_impl<RT, F, Tuple, 0 == std::tuple_size<ttype>::value, std::tuple_size<ttype>::value>::call(f, std::forward<Tuple>(t));
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return func(bind_arg_packed<Args, Info>::get_arg(CPU)...);
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}
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template<u32 g_count, u32 f_count, u32 v_count>
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force_inline std::tuple<> iterate(PPUThread& CPU)
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template<u32... Info, typename RT, typename... Args>
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force_inline RT call(PPUThread& CPU, RT(*func)(PPUThread&, Args...), arg_info_pack_t<Info...>)
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{
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// terminator
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return std::tuple<>();
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return func(CPU, bind_arg_packed<Args, Info>::get_arg(CPU)...);
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}
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template<u32 g_count, u32 f_count, u32 v_count, typename T, typename... A>
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force_inline std::tuple<T, A...> iterate(PPUThread& CPU)
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template<typename T, typename... Types, u32... Info, typename RT, typename... Args>
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force_inline RT call(PPUThread& CPU, RT(*func)(Args...), arg_info_pack_t<Info...> info)
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{
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static_assert(!std::is_pointer<T>::value, "Invalid function argument type (pointer)");
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static_assert(!std::is_reference<T>::value, "Invalid function argument type (reference)");
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// unpack previous type counts (0/0/0 for the first time)
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const u32 g_count = (info.last_value >> 8) & 0xff;
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const u32 f_count = (info.last_value >> 16) & 0xff;
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const u32 v_count = (info.last_value >> 24);
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// TODO: check calculations
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const bool is_float = std::is_floating_point<T>::value;
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const bool is_vector = std::is_same<T, u128>::value;
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@ -163,11 +159,10 @@ namespace ppu_func_detail
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const u32 f = f_count + (is_float ? 1 : 0);
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const u32 v = v_count + (is_vector ? 1 : 0);
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return std::tuple_cat(std::tuple<T>(bind_arg<T, t, g, f, v>::get_arg(CPU)), iterate<g, f, v, A...>(CPU));
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return call<Types...>(CPU, func, arg_info_pack_t<Info..., t | (g << 8) | (f << 16) | (v << 24)>{});
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}
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template<typename RT>
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struct result_type
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template<typename RT> struct result_type
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{
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static_assert(!std::is_pointer<RT>::value, "Invalid function result type (pointer)");
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static_assert(!std::is_reference<RT>::value, "Invalid function result type (reference)");
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@ -176,17 +171,16 @@ namespace ppu_func_detail
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static const arg_class value = is_float ? ARG_FLOAT : (is_vector ? ARG_VECTOR : ARG_GENERAL);
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};
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template<typename RT, typename... T>
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struct func_binder;
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template<typename RT, typename... T> struct func_binder;
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template<typename... T>
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struct func_binder<void, PPUThread&, T...>
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{
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using func_t = void(*)(PPUThread&, T...);
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static void do_call(PPUThread& CPU, func_t func)
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static force_inline void do_call(PPUThread& CPU, func_t func)
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{
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call<void>(func, std::tuple_cat(std::tuple<PPUThread&>(CPU), iterate<0, 0, 0, T...>(CPU)));
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call<T...>(CPU, func, arg_info_pack_t<>{});
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}
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};
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@ -195,9 +189,31 @@ namespace ppu_func_detail
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{
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using func_t = void(*)(T...);
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static void do_call(PPUThread& CPU, func_t func)
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static force_inline void do_call(PPUThread& CPU, func_t func)
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{
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call<void>(func, iterate<0, 0, 0, T...>(CPU));
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call<T...>(CPU, func, arg_info_pack_t<>{});
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}
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};
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template<>
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struct func_binder<void> // redundant specialization to bypass internal compiler error in MSVC
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{
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using func_t = void(*)();
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static force_inline void do_call(PPUThread& CPU, func_t func)
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{
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func();
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}
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};
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template<typename RT>
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struct func_binder<RT> // redundant specialization to bypass internal compiler error in MSVC
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{
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using func_t = RT(*)();
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static force_inline void do_call(PPUThread& CPU, func_t func)
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{
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bind_result<RT, result_type<RT>::value>::put_result(CPU, func());
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}
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};
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@ -206,9 +222,9 @@ namespace ppu_func_detail
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{
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using func_t = RT(*)(PPUThread&, T...);
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static void do_call(PPUThread& CPU, func_t func)
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static force_inline void do_call(PPUThread& CPU, func_t func)
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{
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bind_result<RT, result_type<RT>::value>::put_result(CPU, call<RT>(func, std::tuple_cat(std::tuple<PPUThread&>(CPU), iterate<0, 0, 0, T...>(CPU))));
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bind_result<RT, result_type<RT>::value>::put_result(CPU, call<T...>(CPU, func, arg_info_pack_t<>{}));
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}
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};
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@ -217,9 +233,9 @@ namespace ppu_func_detail
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{
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using func_t = RT(*)(T...);
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static void do_call(PPUThread& CPU, func_t func)
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static force_inline void do_call(PPUThread& CPU, func_t func)
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{
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bind_result<RT, result_type<RT>::value>::put_result(CPU, call<RT>(func, iterate<0, 0, 0, T...>(CPU)));
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bind_result<RT, result_type<RT>::value>::put_result(CPU, call<T...>(CPU, func, arg_info_pack_t<>{}));
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}
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};
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}
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@ -416,7 +416,7 @@ namespace loader
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if (!module)
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{
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LOG_WARNING(LOADER, "Unknown module '%s' in '%s' library", m.first.c_str(), info.name.c_str());
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LOG_ERROR(LOADER, "Unknown module '%s' in '%s' library", m.first.c_str(), info.name.c_str());
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}
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for (auto& f : m.second.exports)
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@ -680,7 +680,7 @@ namespace loader
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if (!module)
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{
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LOG_WARNING(LOADER, "Unknown module '%s'", module_name.c_str());
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LOG_ERROR(LOADER, "Unknown module '%s'", module_name.c_str());
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}
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for (u32 i = 0; i < stub->s_imports; ++i)
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