// license:BSD-3-Clause // copyright-holders:Vas Crabb /*************************************************************************** luaengine_render.cpp Controls execution of the core MAME system. ***************************************************************************/ #include "emu.h" #include "luaengine.ipp" #include "render.h" #include namespace { struct layout_file_views { layout_file_views(layout_file &f) : file(f) { } layout_file &file; }; struct layout_view_items { layout_view_items(layout_view &v) : view(v) { } layout_view &view; }; struct render_target_view_names { render_target_view_names(render_target &t) : target(t), count(-1) { } render_target ⌖ int count; }; } // anonymous namespace namespace sol { template <> struct is_container : std::true_type { }; template <> struct is_container : std::true_type { }; template <> struct is_container : std::true_type { }; template <> struct usertype_container : lua_engine::immutable_collection_helper { private: using view_list = layout_file::view_list; template static int next_pairs(lua_State *L) { indexed_iterator &i(stack::unqualified_get >(L, 1)); if (i.src.end() == i.it) return stack::push(L, lua_nil); int result; if constexpr (Indexed) result = stack::push(L, i.ix + 1); else result = stack::push_reference(L, i.it->unqualified_name()); result += stack::push_reference(L, *i.it); ++i; return result; } template static int start_pairs(lua_State *L) { layout_file_views &self(get_self(L)); stack::push(L, next_pairs); stack::push >(L, self.file.views(), self.file.views().begin()); stack::push(L, lua_nil); return 3; } public: static int at(lua_State *L) { layout_file_views &self(get_self(L)); std::ptrdiff_t const index(stack::unqualified_get(L, 2)); if ((0 >= index) || (self.file.views().size() < index)) return stack::push(L, lua_nil); else return stack::push_reference(L, *std::next(self.file.views().begin(), index - 1)); } static int get(lua_State *L) { layout_file_views &self(get_self(L)); char const *const name(stack::unqualified_get(L)); auto const found(std::find_if( self.file.views().begin(), self.file.views().end(), [&name] (layout_view &v) { return v.unqualified_name() == name; })); if (self.file.views().end() != found) return stack::push_reference(L, *found); else return stack::push(L, lua_nil); } static int index_get(lua_State *L) { return get(L); } static int index_of(lua_State *L) { layout_file_views &self(get_self(L)); layout_view &view(stack::unqualified_get(L, 2)); auto it(self.file.views().begin()); std::ptrdiff_t ix(0); while ((self.file.views().end() != it) && (&view != &*it)) { ++it; ++ix; } if (self.file.views().end() == it) return stack::push(L, lua_nil); else return stack::push(L, ix + 1); } static int size(lua_State *L) { layout_file_views &self(get_self(L)); return stack::push(L, self.file.views().size()); } static int empty(lua_State *L) { layout_file_views &self(get_self(L)); return stack::push(L, self.file.views().empty()); } static int next(lua_State *L) { return stack::push(L, next_pairs); } static int pairs(lua_State *L) { return start_pairs(L); } static int ipairs(lua_State *L) { return start_pairs(L); } }; template <> struct usertype_container : lua_engine::immutable_collection_helper { private: using item_list = layout_view::item_list; static int next_pairs(lua_State *L) { indexed_iterator &i(stack::unqualified_get >(L, 1)); if (i.src.end() == i.it) return stack::push(L, lua_nil); int result; result = stack::push(L, i.ix + 1); result += stack::push_reference(L, *i.it); ++i.it; ++i.ix; return result; } public: static int at(lua_State *L) { layout_view_items &self(get_self(L)); std::ptrdiff_t const index(stack::unqualified_get(L, 2)); if ((0 >= index) || (self.view.items().size() < index)) return stack::push(L, lua_nil); else return stack::push_reference(L, *std::next(self.view.items().begin(), index - 1)); } static int get(lua_State *L) { layout_view_items &self(get_self(L)); char const *const id(stack::unqualified_get(L)); layout_view::item *const item(self.view.get_item(id)); if (item) return stack::push_reference(L, *item); else return stack::push(L, lua_nil); } static int index_get(lua_State *L) { return get(L); } static int index_of(lua_State *L) { layout_view_items &self(get_self(L)); layout_view::item &item(stack::unqualified_get(L, 2)); auto it(self.view.items().begin()); std::ptrdiff_t ix(0); while ((self.view.items().end() != it) && (&item != &*it)) { ++it; ++ix; } if (self.view.items().end() == it) return stack::push(L, lua_nil); else return stack::push(L, ix + 1); } static int size(lua_State *L) { layout_view_items &self(get_self(L)); return stack::push(L, self.view.items().size()); } static int empty(lua_State *L) { layout_view_items &self(get_self(L)); return stack::push(L, self.view.items().empty()); } static int next(lua_State *L) { return stack::push(L, next_pairs); } static int pairs(lua_State *L) { return luaL_error(L, "sol: cannot call 'pairs' on type '%s': not iterable by ID", sol::detail::demangle().c_str()); } static int ipairs(lua_State *L) { layout_view_items &self(get_self(L)); stack::push(L, next_pairs); stack::push >(L, self.view.items(), self.view.items().begin()); stack::push(L, lua_nil); return 3; } }; template <> struct usertype_container : lua_engine::immutable_container_helper { private: struct iterator { iterator(render_target &t, unsigned i) : target(t), index(i) { } render_target ⌖ unsigned index; }; static int next_pairs(lua_State *L) { iterator &i(stack::unqualified_get >(L, 1)); char const *name(i.target.view_name(i.index)); if (!name) return stack::push(L, lua_nil); int result = stack::push(L, i.index + 1); result += stack::push(L, name); ++i.index; return result; } public: static int at(lua_State *L) { render_target_view_names &self(get_self(L)); unsigned const index(stack::unqualified_get(L, 2)); return stack::push(L, self.target.view_name(index - 1)); } static int get(lua_State *L) { return at(L); } static int index_get(lua_State *L) { return at(L); } static int find(lua_State *L) { render_target_view_names &self(get_self(L)); char const *const key(stack::unqualified_get(L, 2)); for (unsigned i = 0; ; ++i) { char const *const name(self.target.view_name(i)); if (!name) return stack::push(L, lua_nil); else if (!std::strcmp(key, name)) return stack::push(L, i + 1); } } static int index_of(lua_State *L) { return find(L); } static int size(lua_State *L) { render_target_view_names &self(get_self(L)); if (0 > self.count) for (self.count = 0; self.target.view_name(self.count); ++self.count) { } return stack::push(L, self.count); } static int empty(lua_State *L) { render_target_view_names &self(get_self(L)); return stack::push(L, !self.target.view_name(0)); } static int next(lua_State *L) { return stack::push(L, next_pairs); } static int pairs(lua_State *L) { render_target_view_names &self(get_self(L)); stack::push(L, next_pairs); stack::push >(L, self.target, 0); stack::push(L, lua_nil); return 3; } static int ipairs(lua_State *L) { return pairs(L); } }; } // namespace sol //------------------------------------------------- // initialize_render - register render user types //------------------------------------------------- void lua_engine::initialize_render(sol::table &emu) { auto bounds_type = emu.new_usertype( "render_bounds", sol::call_constructor, sol::initializers( [] (render_bounds &b) { new (&b) render_bounds{ 0.0F, 0.0F, 1.0F, 1.0F }; }, [] (render_bounds &b, float x0, float y0, float x1, float y1) { new (&b) render_bounds{ x0, y0, x1, y1 }; })); bounds_type["includes"] = &render_bounds::includes; bounds_type["set_xy"] = &render_bounds::set_xy; bounds_type["set_wh"] = &render_bounds::set_wh; bounds_type["x0"] = &render_bounds::x0; bounds_type["y0"] = &render_bounds::y0; bounds_type["x1"] = &render_bounds::x1; bounds_type["y1"] = &render_bounds::y1; bounds_type["width"] = sol::property(&render_bounds::width, [] (render_bounds &b, float w) { b.x1 = b.x0 + w; }); bounds_type["height"] = sol::property(&render_bounds::height, [] (render_bounds &b, float h) { b.y1 = b.y0 + h; }); bounds_type["aspect"] = sol::property(&render_bounds::aspect); auto color_type = emu.new_usertype( "render_color", sol::call_constructor, sol::initializers( [] (render_color &c) { new (&c) render_color{ 1.0F, 1.0F, 1.0F, 1.0F }; }, [] (render_color &c, float a, float r, float g, float b) { new (&c) render_color{ a, r, g, b }; })); color_type["set"] = &render_color::set; color_type["a"] = &render_color::a; color_type["r"] = &render_color::r; color_type["g"] = &render_color::g; color_type["b"] = &render_color::b; auto layout_view_type = sol().registry().new_usertype("layout_view", sol::no_constructor); layout_view_type["has_screen"] = &layout_view::has_screen; layout_view_type["set_prepare_items_callback"] = make_simple_callback_setter( &layout_view::set_prepare_items_callback, nullptr, "set_prepare_items_callback", nullptr); layout_view_type["set_preload_callback"] = make_simple_callback_setter( &layout_view::set_preload_callback, nullptr, "set_preload_callback", nullptr); layout_view_type["set_recomputed_callback"] = make_simple_callback_setter( &layout_view::set_recomputed_callback, nullptr, "set_recomputed_callback", nullptr); layout_view_type["items"] = sol::property([] (layout_view &v) { return layout_view_items(v); }); layout_view_type["name"] = sol::property(&layout_view::name); layout_view_type["unqualified_name"] = sol::property(&layout_view::unqualified_name); layout_view_type["visible_screen_count"] = sol::property(&layout_view::visible_screen_count); layout_view_type["effective_aspect"] = sol::property(&layout_view::effective_aspect); layout_view_type["bounds"] = sol::property(&layout_view::bounds); layout_view_type["has_art"] = sol::property(&layout_view::has_art); auto layout_view_item_type = sol().registry().new_usertype("layout_item", sol::no_constructor); layout_view_item_type["set_state"] = &layout_view::item::set_state; layout_view_item_type["set_element_state_callback"] = make_simple_callback_setter( &layout_view::item::set_element_state_callback, [] () { return 0; }, "set_element_state_callback", "element state"); layout_view_item_type["set_animation_state_callback"] = make_simple_callback_setter( &layout_view::item::set_animation_state_callback, [] () { return 0; }, "set_animation_state_callback", "animation state"); layout_view_item_type["set_bounds_callback"] = [this] (layout_view::item &i, sol::object cb) { if (cb == sol::lua_nil) { i.set_bounds_callback(layout_view::item::bounds_delegate()); } else if (cb.is()) { i.set_bounds_callback(layout_view::item::bounds_delegate( [this, cbfunc = cb.as()] (render_bounds &b) { auto result(invoke(cbfunc).get >()); if (result) { b = *result; } else { osd_printf_error("[LUA ERROR] invalid return from bounds callback\n"); b = render_bounds{ 0.0, 0.0, 1.0, 1.0 }; } })); } else { osd_printf_error("[LUA ERROR] must call set_bounds_callback with function or nil\n"); } }; layout_view_item_type["set_color_callback"] = [this] (layout_view::item &i, sol::object cb) { if (cb == sol::lua_nil) { i.set_color_callback(layout_view::item::color_delegate()); } else if (cb.is()) { i.set_color_callback(layout_view::item::color_delegate( [this, cbfunc = cb.as()] (render_color &c) { auto result(invoke(cbfunc).get >()); if (result) { c = *result; } else { osd_printf_error("[LUA ERROR] invalid return from color callback\n"); c = render_color{ 1.0, 1.0, 1.0, 1.0 }; } })); } else { osd_printf_error("[LUA ERROR] must call set_bounds_callback with function or nil\n"); } }; layout_view_item_type["id"] = sol::property( [this] (layout_view::item &i) -> sol::object { if (i.id().empty()) return sol::make_object(sol(), sol::lua_nil); else return sol::make_object(sol(), i.id()); }); layout_view_item_type["bounds_animated"] = sol::property(&layout_view::item::bounds_animated); layout_view_item_type["color_animated"] = sol::property(&layout_view::item::color_animated); layout_view_item_type["bounds"] = sol::property(&layout_view::item::bounds); layout_view_item_type["color"] = sol::property(&layout_view::item::color); layout_view_item_type["blend_mode"] = sol::property(&layout_view::item::blend_mode); layout_view_item_type["orientation"] = sol::property(&layout_view::item::orientation); layout_view_item_type["element_state"] = sol::property(&layout_view::item::element_state); layout_view_item_type["animation_state"] = sol::property(&layout_view::item::animation_state); auto layout_file_type = sol().registry().new_usertype("layout_file", sol::no_constructor); layout_file_type["set_resolve_tags_callback"] = make_simple_callback_setter( &layout_file::set_resolve_tags_callback, nullptr, "set_resolve_tags_callback", nullptr); layout_file_type["device"] = sol::property(&layout_file::device); layout_file_type["views"] = sol::property([] (layout_file &f) { return layout_file_views(f); }); auto target_type = sol().registry().new_usertype("target", sol::no_constructor); target_type["index"] = sol::property([] (render_target const &t) { return t.index() + 1; }); target_type["width"] = sol::property(&render_target::width); target_type["height"] = sol::property(&render_target::height); target_type["pixel_aspect"] = sol::property(&render_target::pixel_aspect); target_type["hidden"] = sol::property(&render_target::hidden); target_type["is_ui_target"] = sol::property(&render_target::is_ui_target); target_type["max_update_rate"] = sol::property(&render_target::max_update_rate, &render_target::set_max_update_rate); target_type["orientation"] = sol::property(&render_target::orientation, &render_target::set_orientation); target_type["view_names"] = sol::property([] (render_target &t) { return render_target_view_names(t); }); target_type["current_view"] = sol::property(&render_target::current_view); target_type["view_index"] = sol::property( [] (render_target const &t) { return t.view() + 1; }, [] (render_target &t, unsigned v) { t.set_view(v - 1); }); target_type["visibility_mask"] = sol::property(&render_target::visibility_mask); target_type["screen_overlay"] = sol::property(&render_target::screen_overlay_enabled, &render_target::set_screen_overlay_enabled); target_type["zoom_to_screen"] = sol::property(&render_target::zoom_to_screen, &render_target::set_zoom_to_screen); auto render_container_type = sol().registry().new_usertype("render_container", sol::no_constructor); render_container_type["user_settings"] = sol::property(&render_container::get_user_settings, &render_container::set_user_settings); render_container_type["orientation"] = sol::property( &render_container::orientation, [] (render_container &c, int v) { render_container::user_settings s(c.get_user_settings()); s.m_orientation = v; c.set_user_settings(s); }); render_container_type["xscale"] = sol::property( &render_container::xscale, [] (render_container &c, float v) { render_container::user_settings s(c.get_user_settings()); s.m_xscale = v; c.set_user_settings(s); }); render_container_type["yscale"] = sol::property( &render_container::yscale, [] (render_container &c, float v) { render_container::user_settings s(c.get_user_settings()); s.m_yscale = v; c.set_user_settings(s); }); render_container_type["xoffset"] = sol::property( &render_container::xoffset, [] (render_container &c, float v) { render_container::user_settings s(c.get_user_settings()); s.m_xoffset = v; c.set_user_settings(s); }); render_container_type["yoffset"] = sol::property( &render_container::yoffset, [] (render_container &c, float v) { render_container::user_settings s(c.get_user_settings()); s.m_yoffset = v; c.set_user_settings(s); }); render_container_type["is_empty"] = sol::property(&render_container::is_empty); auto user_settings_type = sol().registry().new_usertype("render_container_settings", sol::no_constructor); user_settings_type["orientation"] = &render_container::user_settings::m_orientation; user_settings_type["brightness"] = &render_container::user_settings::m_brightness; user_settings_type["contrast"] = &render_container::user_settings::m_contrast; user_settings_type["gamma"] = &render_container::user_settings::m_gamma; user_settings_type["xscale"] = &render_container::user_settings::m_xscale; user_settings_type["yscale"] = &render_container::user_settings::m_yscale; user_settings_type["xoffset"] = &render_container::user_settings::m_xoffset; user_settings_type["yoffset"] = &render_container::user_settings::m_yoffset; auto render_type = sol().registry().new_usertype("render", sol::no_constructor); render_type["max_update_rate"] = sol::property(&render_manager::max_update_rate); render_type["ui_target"] = sol::property(&render_manager::ui_target); render_type["ui_container"] = sol::property(&render_manager::ui_container); render_type["targets"] = sol::property([] (render_manager &m) { return simple_list_wrapper(m.targets()); }); }