#ifndef Musique_Internal_HH #define Musique_Internal_HH #include #include #include #include /// Allows creation of guards that ensure proper type template struct Guard { std::string_view name; std::array possibilities; errors::Unsupported_Types_For::Type type = errors::Unsupported_Types_For::Function; inline Error yield_error() const { auto error = errors::Unsupported_Types_For { .type = type, .name = std::string(name), .possibilities = {} }; std::transform(possibilities.begin(), possibilities.end(), std::back_inserter(error.possibilities), [](auto s) { return std::string(s); }); return Error { std::move(error) }; } inline std::optional yield_result() const { return yield_error(); } inline std::optional operator()(bool(*predicate)(Value::Type), Value const& v) const { return predicate(v.type) ? std::optional{} : yield_result(); } }; /// Binary operation may be vectorized when there are two argument which one is indexable and other is not static inline bool may_be_vectorized(std::vector const& args) { return args.size() == 2 && (is_indexable(args[0].type) != is_indexable(args[1].type)); } struct Interpreter::Incoming_Midi_Callbacks { Value note_on{}; Value note_off{}; inline Incoming_Midi_Callbacks() = default; Incoming_Midi_Callbacks(Incoming_Midi_Callbacks &&) = delete; Incoming_Midi_Callbacks(Incoming_Midi_Callbacks const&) = delete; Incoming_Midi_Callbacks& operator=(Incoming_Midi_Callbacks &&) = delete; Incoming_Midi_Callbacks& operator=(Incoming_Midi_Callbacks const&) = delete; inline void add_callbacks(midi::Connection &midi, Interpreter &interpreter) { register_callback(midi.note_on_callback, note_on, interpreter); register_callback(midi.note_off_callback, note_off, interpreter); } template inline void register_callback(std::function &target, Value &callback, Interpreter &i) { if (&callback == ¬e_on || &callback == ¬e_off) { // This messages have MIDI note number as second value, so they should be represented // in our own note abstraction, not as numbers. target = [interpreter = &i, callback = &callback](T ...source_args) { if (callback->type != Value::Type::Nil) { std::vector args { Value::from(Number(source_args))... }; args[1] = Value::from(Chord { .notes { Note { .base = i32(args[1].n.num % 12), .octave = args[1].n.num / 12 }}}); auto result = (*callback)(*interpreter, std::move(args)); // We discard this since callback is running in another thread. (void) result; } }; } else { // Generic case, preserve all passed parameters as numbers target = [interpreter = &i, callback = &callback](T ...source_args) { if (callback->type != Value::Type::Nil) { auto result = (*callback)(*interpreter, { Value::from(Number(source_args))... }); // We discard this since callback is running in another thread. (void) result; } }; } } }; enum class Midi_Connection_Type { Output, Input }; std::optional ensure_midi_connection_available(Interpreter&, Midi_Connection_Type, std::string_view operation_name); constexpr std::size_t hash_combine(std::size_t lhs, std::size_t rhs) { return lhs ^= rhs + 0x9e3779b9 + (lhs << 6) + (lhs >> 2); } template Result wrap_value(Result &&value) { return std::move(value).map([](auto &&value) { return Value::from(std::move(value)); }); } Value wrap_value(auto &&value) { return Value::from(std::move(value)); } /// Generic algorithms support namespace algo { /// Check if predicate is true for all successive pairs of elements constexpr bool pairwise_all( std::ranges::forward_range auto &&range, auto &&binary_predicate) { auto it = std::begin(range); auto const end_it = std::end(range); for (auto next_it = std::next(it); it != end_it && next_it != end_it; ++it, ++next_it) { if (not binary_predicate(*it, *next_it)) { return false; } } return true; } /// Fold that stops iteration on error value via Result type template constexpr Result fold(auto&& range, T init, auto &&reducer) requires (is_template_v) { for (auto &&value : range) { init = Try(reducer(std::move(init), value)); } return init; } } #endif