#include "scenery.hpp" #include "compat/assert.hpp" #include "compat/exception.hpp" #include "tile-constants.hpp" #include "anim-atlas.hpp" #include "rotation.inl" #include "nanosecond.hpp" #include "world.hpp" #include "shaders/shader.hpp" #include namespace floormat { namespace { template struct [[maybe_unused]] overloaded : Ts... { using Ts::operator()...; }; #if defined __GNUG__ && !defined __clang__ #pragma GCC diagnostic push // gcc doesn't support [[attributes]] on deduction guides #pragma GCC diagnostic ignored "-Wunused" #endif template #ifdef __clang__ [[maybe_unused]] #endif overloaded(Ts...) -> overloaded; #if defined __GNUG__ && !defined __clang__ #pragma GCC diagnostic pop #endif template struct proto_to_scenery_; template<> struct proto_to_scenery_ { using type = generic_scenery; }; template<> struct proto_to_scenery_ { using type = door_scenery; }; template using proto_to_scenery = typename proto_to_scenery_::type; template struct scenery_to_proto_; template<> struct scenery_to_proto_ { using type = generic_scenery_proto; }; template<> struct scenery_to_proto_ { using type = door_scenery_proto; }; template using scenery_to_proto = typename scenery_to_proto_::type; } // namespace scenery_proto::scenery_proto() noexcept { type = object_type::scenery; } scenery_proto& scenery_proto::operator=(const scenery_proto&) noexcept = default; scenery_proto::scenery_proto(const scenery_proto&) noexcept = default; scenery_proto::~scenery_proto() noexcept = default; scenery_proto::operator bool() const { return atlas != nullptr; } bool generic_scenery_proto::operator==(const generic_scenery_proto& p) const = default; enum scenery_type generic_scenery_proto::scenery_type() const { return scenery_type::generic; } void generic_scenery::update(scenery&, size_t, Ns) {} Vector2 generic_scenery::ordinal_offset(const scenery&, Vector2b offset) const { return Vector2(offset); } bool generic_scenery::can_activate(const scenery&, size_t) const { return interactive; } bool generic_scenery::activate(floormat::scenery&, size_t) { return false; } enum scenery_type generic_scenery::scenery_type() const { return scenery_type::generic; } enum scenery_type scenery_proto::scenery_type() const { return std::visit( [&](const T& x) { return x.scenery_type(); }, subtype ); } generic_scenery::operator generic_scenery_proto() const { return { .active = active, .interactive = interactive, }; } generic_scenery::generic_scenery(object_id, class chunk&, const generic_scenery_proto& p) : active{p.active}, interactive{p.interactive} {} bool door_scenery_proto::operator==(const door_scenery_proto& p) const = default; enum scenery_type door_scenery_proto::scenery_type() const { return scenery_type::door; } enum scenery_type door_scenery::scenery_type() const { return scenery_type::door; } door_scenery::operator door_scenery_proto() const { return { .active = active, .interactive = interactive, .closing = closing, }; } door_scenery::door_scenery(object_id, class chunk&, const door_scenery_proto& p) : closing{p.closing}, active{p.active}, interactive{p.interactive} {} void door_scenery::update(scenery& s, size_t, Ns dt) { if (!s.atlas || !active) return; fm_assert(s.atlas); auto& anim = *s.atlas; const auto nframes = (int)anim.info().nframes; const auto n = (int)s.alloc_frame_time(dt, s.delta, s.atlas->info().fps, 1); if (n == 0) return; const int8_t dir = closing ? 1 : -1; const int fr = s.frame + dir*n; active = fr > 0 && fr < nframes-1; pass_mode p; if (fr <= 0) p = pass_mode::pass; else if (fr >= nframes-1) p = pass_mode::blocked; else p = pass_mode::see_through; s.set_bbox(s.offset, s.bbox_offset, s.bbox_size, p); const auto new_frame = (uint16_t)Math::clamp(fr, 0, nframes-1); //Debug{} << "frame" << new_frame << nframes-1; s.frame = new_frame; if (!active) s.delta = closing = 0; //if ((p == pass_mode::pass) != (old_pass == pass_mode::pass)) Debug{} << "update: need reposition" << (s.frame == 0 ? "-1" : "1"); } Vector2 door_scenery::ordinal_offset(const scenery& s, Vector2b offset) const { constexpr auto bTILE_SIZE = Vector2b(iTILE_SIZE2); constexpr auto off_closed_ = Vector2b(0, -bTILE_SIZE[1]/2+2); constexpr auto off_opened_ = Vector2b(-bTILE_SIZE[0]+2, -bTILE_SIZE[1]/2+2); const auto off_closed = rotate_point(off_closed_, rotation::N, s.r); const auto off_opened = rotate_point(off_opened_, rotation::N, s.r); const auto vec = s.frame == s.atlas->info().nframes-1 ? off_closed : off_opened; return Vector2(offset) + Vector2(vec); } bool door_scenery::can_activate(const scenery&, size_t) const { return interactive; } bool door_scenery::activate(scenery& s, size_t) { if (active) return false; fm_assert(s.frame == 0 || s.frame == s.atlas->info().nframes-1); closing = s.frame == 0; s.frame += closing ? 1 : -1; active = true; return true; } bool scenery::can_activate(size_t i) const { if (!atlas) return false; return std::visit( [&](const T& sc) { return sc.can_activate(*this, i); }, subtype ); } void scenery::update(size_t i, Ns dt) { return std::visit( [&](T& sc) { sc.update(*this, i, dt); }, subtype ); } Vector2 scenery::ordinal_offset(Vector2b offset) const { return std::visit( [&](const T& sc) { return sc.ordinal_offset(*this, offset); }, subtype ); } float scenery::depth_offset() const { constexpr auto inv_tile_size = 1.f/TILE_SIZE2; Vector2 offset; offset += Vector2(atlas->group(r).depth_offset) * inv_tile_size; float ret = 0; ret += offset[1]*TILE_MAX_DIM + offset[0]; ret += tile_shader::scenery_depth_offset; return ret; } bool scenery::activate(size_t i) { return std::visit( [&](T& sc) { return sc.activate(*this, i); }, subtype ); } bool scenery_proto::operator==(const object_proto& e0) const { if (type != e0.type) return false; if (!object_proto::operator==(e0)) return false; const auto& sc = static_cast(e0); if (subtype.index() != sc.subtype.index()) return false; return std::visit( [](const auto& a, const auto& b) { if constexpr(std::is_same_v< std::decay_t, std::decay_t >) return a == b; else { std::unreachable(); return false; } }, subtype, sc.subtype ); } object_type scenery::type() const noexcept { return object_type::scenery; } scenery::operator scenery_proto() const { scenery_proto ret; static_cast(ret) = object::operator object_proto(); std::visit( [&](const T& s) { ret.subtype = scenery_to_proto(s); }, subtype ); return ret; } enum scenery_type scenery::scenery_type() const { return std::visit( [&](const T& sc) { return sc.scenery_type(); }, subtype ); } scenery_variants scenery::subtype_from_proto(object_id id, class chunk& c, const scenery_proto_variants& variant) { return std::visit( [&](const T& p) { return scenery_variants { std::in_place_type_t>{}, id, c, p }; }, variant ); } scenery_variants scenery::subtype_from_scenery_type(object_id id, class chunk& c, enum scenery_type type) { switch (type) { case scenery_type::generic: return generic_scenery{id, c, {}}; case scenery_type::door: return door_scenery{id, c, {}}; case scenery_type::none: break; } fm_throw("invalid scenery type"_cf, (int)type); } scenery::scenery(object_id id, class chunk& c, const scenery_proto& proto) : object{id, c, proto}, subtype{ subtype_from_proto(id, c, proto.subtype) } { #ifndef FM_NO_DEBUG if (id != 0) fm_debug_assert(atlas); // todo add placeholder graphic #endif } } // namespace floormat