#ifndef CRUMBLEVOICE_HPP #define CRUMBLEVOICE_HPP #include "RetroTypes.hpp" namespace urde { enum class ERumbleFxId { Seven = 7 }; enum class ERumblePriority { None = 0, One = 1, Two = 2 }; struct SAdsrData; class CRumbleVoice { public: CRumbleVoice() {} CRumbleVoice(const SAdsrData& data); }; struct SAdsrData { float x0 = 0.f; float x4 = 0.f; float x8 = 0.f; float xc = 0.f; float x10 = 0.f; float x14 = 0.f; union { struct { bool x18_24 : 1; bool x18_25 : 1; }; u8 dummy = 0; }; SAdsrData() = default; SAdsrData(float a, float b, float c, float d, float e, float f, bool g, bool h) : x0(a), x4(b), x8(c), xc(d), x10(e), x14(f) { x18_24 = g; x18_25 = h; } }; struct SAdsrDelta { enum class EPhase { Stop, Start, }; float x0 = 0.f; float x4 = 0.f; float x8 = 0.f; float xc = 0.f; float x10 = 0.f; ERumblePriority x1c_priority; EPhase x20_phase; SAdsrDelta(EPhase phase, ERumblePriority priority) : x1c_priority(priority), x20_phase(phase) {} SAdsrDelta(EPhase phase) : x1c_priority(ERumblePriority::None), x20_phase(phase) {} static SAdsrDelta Stopped() { return SAdsrDelta(EPhase::Stop); } static SAdsrDelta Start(ERumblePriority priority) { return SAdsrDelta(EPhase::Start, priority); } }; } #endif // CRUMBLEVOICE_HPP