Major seq.c progress & musyx header cleanup

include/musyx/hardware.h

@@ -1,13 +1,13 @@
 #ifndef _MUSYX_HARDWARE
 #define _MUSYX_HARDWARE
 
-
 #include "musyx/musyx_priv.h"
+
 #ifdef __cplusplus
 extern "C" {
 #endif
 
-u32 hwIsStudioActive(u8 studio);
+bool hwIsStudioActive(u8 studio);
 
 #ifdef __cplusplus
 }

include/musyx/musyx.h

@@ -434,16 +434,16 @@ bool sndAuxCallbackPrepareChorus(SND_AUX_CHORUS* ch);
 bool sndAuxCallbackShutdownChorus(SND_AUX_CHORUS* ch);
 bool sndAuxCallbackUpdateSettingsChorus(SND_AUX_CHORUS* ch);
 
-#define SND_CROSSFADE_STOP 0       // Stop old song after fadedown
-#define SND_CROSSFADE_PAUSE 1      // Pause old song after fadedown
-#define SND_CROSSFADE_CONTINUE 2   // Continue previously paused song as new one
-#define SND_CROSSFADE_START 0      // Start new song (no continue)
-#define SND_CROSSFADE_SYNC 4       // Crossfade should start syncronized by sync-controller (104)
-#define SND_CROSSFADE_PAUSENEW 8   // Pause new song before even starting it
-#define SND_CROSSFADE_TRACKMUTE 16 // Use trackmute informtion
-#define SND_CROSSFADE_SPEED 32     // Use speed informtion
-#define SND_CROSSFADE_MUTE 64      // Old song continues playing & gets muted after fade down
-#define SND_CROSSFADE_MUTENEW 128  // Mute new song after starting it
+#define SND_CROSSFADE_STOP 0x0       // Stop old song after fadedown
+#define SND_CROSSFADE_PAUSE 0x1      // Pause old song after fadedown
+#define SND_CROSSFADE_CONTINUE 0x2   // Continue previously paused song as new one
+#define SND_CROSSFADE_START 0x0      // Start new song (no continue)
+#define SND_CROSSFADE_SYNC 0x4       // Crossfade should start syncronized by sync-controller (104)
+#define SND_CROSSFADE_PAUSENEW 0x8   // Pause new song before even starting it
+#define SND_CROSSFADE_TRACKMUTE 0x10 // Use trackmute informtion
+#define SND_CROSSFADE_SPEED 0x20     // Use speed informtion
+#define SND_CROSSFADE_MUTE 0x40      // Old song continues playing & gets muted after fade down
+#define SND_CROSSFADE_MUTENEW 0x80   // Mute new song after starting it
 
 #define SND_CROSSFADE_DEFAULT 0
 
@@ -517,6 +517,33 @@ typedef struct SND_PROFILE_INFO {
 
 typedef void (*SND_PROF_USERCALLBACK)(struct SND_PROFILE_INFO*);
 extern SND_PROF_USERCALLBACK sndProfUserCallback;
+
+#define SND_MIDICTRL_MODULATION 0x01
+#define SND_MIDICTRL_VOLUME 0x07
+#define SND_MIDICTRL_PANNING 0x0A
+#define SND_MIDICTRL_PEDAL 0x40
+#define SND_MIDICTRL_PORTAMENTO 0x41
+#define SND_MIDICTRL_REVERB 0x5B
+#define SND_MIDICTRL_CHORUS 0x5D
+
+#define SND_MIDICTRL_PITCHBEND 0x80
+#define SND_MIDICTRL_SPANNING 0x83
+#define SND_MIDICTRL_DOPPLER 0x84
+
+#define SND_SEQVOL_CONTINUE 0
+#define SND_SEQVOL_STOP 1
+#define SND_SEQVOL_PAUSE 2
+#define SND_SEQVOL_MUTE 3
+#define SND_SEQVOL_MODEMASK 0xF
+
+#define SND_ID_ERROR 0xFFFFFFFF // ID is invalid
+
+#define SND_MAX_SEQINSTANCES 8
+#define SND_SEQ_ERROR_ID 0xFFFFFFFF
+#define SND_SEQ_CROSSFADE_ID 0x80000000
+
+#define SND_PAUSEVOL_NORMAL 127
+
 #ifdef __cplusplus
 }
 #endif

include/musyx/musyx_priv.h

@@ -2,6 +2,7 @@
 #define _MUSYX_MUSYX_PRIV
 
 #include "musyx/musyx.h"
+
 #include "musyx/assert.h"
 #include "musyx/hardware.h"
 
@@ -149,7 +150,7 @@ typedef struct _PBADPCM {
   u16 pred_scale; // offset 0x22, size 0x2
   u16 yn1;        // offset 0x24, size 0x2
   u16 yn2;        // offset 0x26, size 0x2
-} _PDADPCM;
+} _PBADPCM;
 
 typedef struct _PBSRC {
   // total size: 0xE
@@ -168,26 +169,26 @@ typedef struct _PBADPCMLOOP {
 
 typedef struct _PB {
   // total size: 0xBC
-  u16 nextHi;                    // offset 0x0, size 0x2
-  u16 nextLo;                    // offset 0x2, size 0x2
-  u16 currHi;                    // offset 0x4, size 0x2
-  u16 currLo;                    // offset 0x6, size 0x2
-  u16 srcSelect;                 // offset 0x8, size 0x2
-  u16 coefSelect;                // offset 0xA, size 0x2
-  u16 mixerCtrl;                 // offset 0xC, size 0x2
-  u16 state;                     // offset 0xE, size 0x2
-  u16 loopType;                  // offset 0x10, size 0x2
-  struct _PBMIX mix;             // offset 0x12, size 0x24
-  struct _PBITD itd;             // offset 0x36, size 0xE
-  struct _PBUPDATE update;       // offset 0x44, size 0xE
-  struct _PBDPOP dpop;           // offset 0x52, size 0x12
-  struct _PBVE ve;               // offset 0x64, size 0x4
-  struct _PBFIR fir;             // offset 0x68, size 0x6
-  struct _PBADDR addr;           // offset 0x6E, size 0x10
-  struct _PBADPCM adpcm;         // offset 0x7E, size 0x28
-  struct _PBSRC src;             // offset 0xA6, size 0xE
-  struct _PBADPCMLOOP adpcmLoop; // offset 0xB4, size 0x6
-  u16 streamLoopCnt;             // offset 0xBA, size 0x2
+  u16 nextHi;             // offset 0x0, size 0x2
+  u16 nextLo;             // offset 0x2, size 0x2
+  u16 currHi;             // offset 0x4, size 0x2
+  u16 currLo;             // offset 0x6, size 0x2
+  u16 srcSelect;          // offset 0x8, size 0x2
+  u16 coefSelect;         // offset 0xA, size 0x2
+  u16 mixerCtrl;          // offset 0xC, size 0x2
+  u16 state;              // offset 0xE, size 0x2
+  u16 loopType;           // offset 0x10, size 0x2
+  _PBMIX mix;             // offset 0x12, size 0x24
+  _PBITD itd;             // offset 0x36, size 0xE
+  _PBUPDATE update;       // offset 0x44, size 0xE
+  _PBDPOP dpop;           // offset 0x52, size 0x12
+  _PBVE ve;               // offset 0x64, size 0x4
+  _PBFIR fir;             // offset 0x68, size 0x6
+  _PBADDR addr;           // offset 0x6E, size 0x10
+  _PBADPCM adpcm;         // offset 0x7E, size 0x28
+  _PBSRC src;             // offset 0xA6, size 0xE
+  _PBADPCMLOOP adpcmLoop; // offset 0xB4, size 0x6
+  u16 streamLoopCnt;      // offset 0xBA, size 0x2
 } _PB;
 
 typedef struct SAMPLE_INFO {
@@ -236,20 +237,20 @@ typedef struct SAMPLE_HEADER {
 
 typedef struct SDIR_DATA {
   // total size: 0x20
-  u16 id;                      // offset 0x0, size 0x2
-  u16 ref_cnt;                 // offset 0x2, size 0x2
-  u32 offset;                  // offset 0x4, size 0x4
-  void* addr;                  // offset 0x8, size 0x4
-  struct SAMPLE_HEADER header; // offset 0xC, size 0x10
-  u32 extraData;               // offset 0x1C, size 0x4
+  u16 id;               // offset 0x0, size 0x2
+  u16 ref_cnt;          // offset 0x2, size 0x2
+  u32 offset;           // offset 0x4, size 0x4
+  void* addr;           // offset 0x8, size 0x4
+  SAMPLE_HEADER header; // offset 0xC, size 0x10
+  u32 extraData;        // offset 0x1C, size 0x4
 } SDIR_DATA;
 
 typedef struct SDIR_TAB {
   // total size: 0xC
-  struct SDIR_DATA* data; // offset 0x0, size 0x4
-  void* base;             // offset 0x4, size 0x4
-  u16 numSmp;             // offset 0x8, size 0x2
-  u16 res;                // offset 0xA, size 0x2
+  SDIR_DATA* data; // offset 0x0, size 0x4
+  void* base;      // offset 0x4, size 0x4
+  u16 numSmp;      // offset 0x8, size 0x2
+  u16 res;         // offset 0xA, size 0x2
 } SDIR_TAB;
 
 typedef struct DATA_TAB {
@@ -283,9 +284,9 @@ typedef struct MAC_SUBTAB {
 
 typedef struct GSTACK {
   // total size: 0xC
-  struct GROUP_DATA* gAddr;   // offset 0x0, size 0x4
-  struct SDIR_DATA* sdirAddr; // offset 0x4, size 0x4
-  void* prjAddr;              // offset 0x8, size 0x4
+  GROUP_DATA* gAddr;   // offset 0x0, size 0x4
+  SDIR_DATA* sdirAddr; // offset 0x4, size 0x4
+  void* prjAddr;       // offset 0x8, size 0x4
 } GSTACK;
 
 typedef struct VSampleInfo {
@@ -296,7 +297,7 @@ typedef struct VSampleInfo {
 } VSampleInfo;
 
 typedef struct DSPvoice {
-  struct _PB* pb;
+  _PB* pb;
   void* patchData;
   void* itdBuffer;
   struct DSPvoice* next;
@@ -374,8 +375,8 @@ typedef struct MSTEP {
 } MSTEP;
 
 typedef struct CALLSTACK {
-  struct MSTEP* addr;
-  struct MSTEP* curAddr;
+  MSTEP* addr;
+  MSTEP* curAddr;
 } CALLSTACK;
 
 typedef struct SYNTH_QUEUE {
@@ -407,25 +408,25 @@ typedef struct SYNTH_LFO {
 
 typedef struct SYNTHMasterFader {
   // total size: 0x30
-  float volume;         // offset 0x0, size 0x4
-  float target;         // offset 0x4, size 0x4
-  float start;          // offset 0x8, size 0x4
-  float time;           // offset 0xC, size 0x4
-  float deltaTime;      // offset 0x10, size 0x4
-  float pauseVol;       // offset 0x14, size 0x4
-  float pauseTarget;    // offset 0x18, size 0x4
-  float pauseStart;     // offset 0x1C, size 0x4
-  float pauseTime;      // offset 0x20, size 0x4
-  float pauseDeltaTime; // offset 0x24, size 0x4
-  u32 seqId;            // offset 0x28, size 0x4
-  u8 seqMode;           // offset 0x2C, size 0x1
-  u8 type;              // offset 0x2D, size 0x1
+  f32 volume;         // offset 0x0, size 0x4
+  f32 target;         // offset 0x4, size 0x4
+  f32 start;          // offset 0x8, size 0x4
+  f32 time;           // offset 0xC, size 0x4
+  f32 deltaTime;      // offset 0x10, size 0x4
+  f32 pauseVol;       // offset 0x14, size 0x4
+  f32 pauseTarget;    // offset 0x18, size 0x4
+  f32 pauseStart;     // offset 0x1C, size 0x4
+  f32 pauseTime;      // offset 0x20, size 0x4
+  f32 pauseDeltaTime; // offset 0x24, size 0x4
+  u32 seqId;          // offset 0x28, size 0x4
+  u8 seqMode;         // offset 0x2C, size 0x1
+  u8 type;            // offset 0x2D, size 0x1
 } SYNTHMasterFader;
 
 typedef struct CTRL_SOURCE {
   u8 midiCtrl;
   u8 combine;
-  long scale;
+  s32 scale;
 } CTRL_SOURCE;
 
 typedef struct CTRL_DEST {
@@ -469,7 +470,7 @@ typedef struct _VS {
   u8 voices[64];              // offset 0x908, size 0x40
   u16 nextInstID;             // offset 0x948, size 0x2
   u32 (*callback)(u8,
-                  struct SND_VIRTUALSAMPLE_INFO*); // offset 0x94C, size 0x4
+                  SND_VIRTUALSAMPLE_INFO*); // offset 0x94C, size 0x4
 } VS;
 
 extern VS vs;
@@ -500,7 +501,7 @@ typedef struct SYNTH_VOICE {
   u64 waitTime;
   u8 timeUsedByInput;
   u16 loop;
-  long local_vars[16];
+  s32 local_vars[16];
   u32 child;
   u32 parent;
   u32 id;
@@ -532,44 +533,44 @@ typedef struct SYNTH_VOICE {
   u16 portLastCtrlState;
   u32 portDuration;
   u32 portCurPitch;
-  u32 portTime;               // offset 0x13C, size 0x4
-  u8 vibKeyRange;             // offset 0x140, size 0x1
-  u8 vibCentRange;            // offset 0x141, size 0x1
-  u32 vibPeriod;              // offset 0x144, size 0x4
-  u32 vibCurTime;             // offset 0x148, size 0x4
-  long vibCurOffset;          // offset 0x14C, size 0x4
-  s16 vibModAddScale;         // offset 0x150, size 0x2
-  u32 volume;                 // offset 0x154, size 0x4
-  u32 orgVolume;              // offset 0x158, size 0x4
-  float lastVolFaderScale;    // offset 0x15C, size 0x4
-  u32 lastPan;                // offset 0x160, size 0x4
-  u32 lastSPan;               // offset 0x164, size 0x4
-  float treCurScale;          // offset 0x168, size 0x4
-  u16 treScale;               // offset 0x16C, size 0x2
-  u16 treModAddScale;         // offset 0x16E, size 0x2
-  u32 panning[2];             // offset 0x170, size 0x8
-  long panDelta[2];           // offset 0x178, size 0x8
-  u32 panTarget[2];           // offset 0x180, size 0x8
-  u32 panTime[2];             // offset 0x188, size 0x8
-  u8 revVolScale;             // offset 0x190, size 0x1
-  u8 revVolOffset;            // offset 0x191, size 0x1
-  u8 volTable;                // offset 0x192, size 0x1
-  u8 itdMode;                 // offset 0x193, size 0x1
-  long envDelta;              // offset 0x194, size 0x4
-  u32 envTarget;              // offset 0x198, size 0x4
-  u32 envCurrent;             // offset 0x19C, size 0x4
-  u32 sweepOff[2];            // offset 0x1A0, size 0x8
-  long sweepAdd[2];           // offset 0x1A8, size 0x8
-  long sweepCnt[2];           // offset 0x1B0, size 0x8
-  u8 sweepNum[2];             // offset 0x1B8, size 0x2
-  struct SYNTH_LFO lfo[2];    // offset 0x1BC, size 0x18
-  u8 lfoUsedByInput[2];       // offset 0x1D4, size 0x2
-  u8 pbLowerKeyRange;         // offset 0x1D6, size 0x1
-  u8 pbUpperKeyRange;         // offset 0x1D7, size 0x1
-  u16 pbLast;                 // offset 0x1D8, size 0x2
-  struct ADSR_VARS pitchADSR; // offset 0x1DC, size 0x28
-  s16 pitchADSRRange;         // offset 0x204, size 0x2
-  u16 curPitch;               // offset 0x206, size 0x2
+  u32 portTime;          // offset 0x13C, size 0x4
+  u8 vibKeyRange;        // offset 0x140, size 0x1
+  u8 vibCentRange;       // offset 0x141, size 0x1
+  u32 vibPeriod;         // offset 0x144, size 0x4
+  u32 vibCurTime;        // offset 0x148, size 0x4
+  s32 vibCurOffset;      // offset 0x14C, size 0x4
+  s16 vibModAddScale;    // offset 0x150, size 0x2
+  u32 volume;            // offset 0x154, size 0x4
+  u32 orgVolume;         // offset 0x158, size 0x4
+  f32 lastVolFaderScale; // offset 0x15C, size 0x4
+  u32 lastPan;           // offset 0x160, size 0x4
+  u32 lastSPan;          // offset 0x164, size 0x4
+  f32 treCurScale;       // offset 0x168, size 0x4
+  u16 treScale;          // offset 0x16C, size 0x2
+  u16 treModAddScale;    // offset 0x16E, size 0x2
+  u32 panning[2];        // offset 0x170, size 0x8
+  s32 panDelta[2];       // offset 0x178, size 0x8
+  u32 panTarget[2];      // offset 0x180, size 0x8
+  u32 panTime[2];        // offset 0x188, size 0x8
+  u8 revVolScale;        // offset 0x190, size 0x1
+  u8 revVolOffset;       // offset 0x191, size 0x1
+  u8 volTable;           // offset 0x192, size 0x1
+  u8 itdMode;            // offset 0x193, size 0x1
+  s32 envDelta;          // offset 0x194, size 0x4
+  u32 envTarget;         // offset 0x198, size 0x4
+  u32 envCurrent;        // offset 0x19C, size 0x4
+  u32 sweepOff[2];       // offset 0x1A0, size 0x8
+  s32 sweepAdd[2];       // offset 0x1A8, size 0x8
+  s32 sweepCnt[2];       // offset 0x1B0, size 0x8
+  u8 sweepNum[2];        // offset 0x1B8, size 0x2
+  SYNTH_LFO lfo[2];      // offset 0x1BC, size 0x18
+  u8 lfoUsedByInput[2];  // offset 0x1D4, size 0x2
+  u8 pbLowerKeyRange;    // offset 0x1D6, size 0x1
+  u8 pbUpperKeyRange;    // offset 0x1D7, size 0x1
+  u16 pbLast;            // offset 0x1D8, size 0x2
+  ADSR_VARS pitchADSR;   // offset 0x1DC, size 0x28
+  s16 pitchADSRRange;    // offset 0x204, size 0x2
+  u16 curPitch;          // offset 0x206, size 0x2
   struct setup {
     u8 vol;                     // offset 0x0, size 0x1
     u8 pan;                     // offset 0x1, size 0x1
@@ -598,7 +599,7 @@ typedef struct SYNTH_VOICE {
   u8 mesgNum;                   // offset 0x3EC, size 0x1
   u8 mesgRead;                  // offset 0x3ED, size 0x1
   u8 mesgWrite;                 // offset 0x3EE, size 0x1
-  long mesgQueue[4];            // offset 0x3F0, size 0x10
+  s32 mesgQueue[4];             // offset 0x3F0, size 0x10
   u16 curOutputVolume;          // offset 0x400, size 0x2
 } SYNTH_VOICE;
 
@@ -658,31 +659,31 @@ typedef struct POOL_DATA {
 
 typedef struct SAL_VOLINFO {
   // total size: 0x24
-  float volL;     // offset 0x0, size 0x4
-  float volR;     // offset 0x4, size 0x4
-  float volS;     // offset 0x8, size 0x4
-  float volAuxAL; // offset 0xC, size 0x4
-  float volAuxAR; // offset 0x10, size 0x4
-  float volAuxAS; // offset 0x14, size 0x4
-  float volAuxBL; // offset 0x18, size 0x4
-  float volAuxBR; // offset 0x1C, size 0x4
-  float volAuxBS; // offset 0x20, size 0x4
+  f32 volL;     // offset 0x0, size 0x4
+  f32 volR;     // offset 0x4, size 0x4
+  f32 volS;     // offset 0x8, size 0x4
+  f32 volAuxAL; // offset 0xC, size 0x4
+  f32 volAuxAR; // offset 0x10, size 0x4
+  f32 volAuxAS; // offset 0x14, size 0x4
+  f32 volAuxBL; // offset 0x18, size 0x4
+  f32 volAuxBR; // offset 0x1C, size 0x4
+  f32 volAuxBS; // offset 0x20, size 0x4
 } SAL_VOLINFO;
 
 typedef struct SAL_PANINFO {
   // total size: 0x30
-  u32 pan_i;     // offset 0x0, size 0x4
-  u32 pan_im;    // offset 0x4, size 0x4
-  u32 span_i;    // offset 0x8, size 0x4
-  u32 span_im;   // offset 0xC, size 0x4
-  u32 rpan_i;    // offset 0x10, size 0x4
-  u32 rpan_im;   // offset 0x14, size 0x4
-  float pan_f;   // offset 0x18, size 0x4
-  float pan_fm;  // offset 0x1C, size 0x4
-  float span_f;  // offset 0x20, size 0x4
-  float span_fm; // offset 0x24, size 0x4
-  float rpan_f;  // offset 0x28, size 0x4
-  float rpan_fm; // offset 0x2C, size 0x4
+  u32 pan_i;   // offset 0x0, size 0x4
+  u32 pan_im;  // offset 0x4, size 0x4
+  u32 span_i;  // offset 0x8, size 0x4
+  u32 span_im; // offset 0xC, size 0x4
+  u32 rpan_i;  // offset 0x10, size 0x4
+  u32 rpan_im; // offset 0x14, size 0x4
+  f32 pan_f;   // offset 0x18, size 0x4
+  f32 pan_fm;  // offset 0x1C, size 0x4
+  f32 span_f;  // offset 0x20, size 0x4
+  f32 span_fm; // offset 0x24, size 0x4
+  f32 rpan_f;  // offset 0x28, size 0x4
+  f32 rpan_fm; // offset 0x2C, size 0x4
 } SAL_PANINFO;
 
 typedef struct _SPB {
@@ -718,44 +719,44 @@ typedef struct _SPB {
 
 typedef struct DSPhostDPop {
   // total size: 0x24
-  long l;  // offset 0x0, size 0x4
-  long r;  // offset 0x4, size 0x4
-  long s;  // offset 0x8, size 0x4
-  long lA; // offset 0xC, size 0x4
-  long rA; // offset 0x10, size 0x4
-  long sA; // offset 0x14, size 0x4
-  long lB; // offset 0x18, size 0x4
-  long rB; // offset 0x1C, size 0x4
-  long sB; // offset 0x20, size 0x4
+  s32 l;  // offset 0x0, size 0x4
+  s32 r;  // offset 0x4, size 0x4
+  s32 s;  // offset 0x8, size 0x4
+  s32 lA; // offset 0xC, size 0x4
+  s32 rA; // offset 0x10, size 0x4
+  s32 sA; // offset 0x14, size 0x4
+  s32 lB; // offset 0x18, size 0x4
+  s32 rB; // offset 0x1C, size 0x4
+  s32 sB; // offset 0x20, size 0x4
 } DSPhostDPop;
 
 typedef struct DSPinput {
   // total size: 0xC
-  u8 studio;                     // offset 0x0, size 0x1
-  u16 vol;                       // offset 0x2, size 0x2
-  u16 volA;                      // offset 0x4, size 0x2
-  u16 volB;                      // offset 0x6, size 0x2
-  struct SND_STUDIO_INPUT* desc; // offset 0x8, size 0x4
+  u8 studio;              // offset 0x0, size 0x1
+  u16 vol;                // offset 0x2, size 0x2
+  u16 volA;               // offset 0x4, size 0x2
+  u16 volB;               // offset 0x6, size 0x2
+  SND_STUDIO_INPUT* desc; // offset 0x8, size 0x4
 } DSPinput;
 
 typedef struct DSPstudioinfo {
   // total size: 0xBC
-  struct _SPB* spb;                // offset 0x0, size 0x4
-  struct DSPhostDPop hostDPopSum;  // offset 0x4, size 0x24
-  long* main[2];                   // offset 0x28, size 0x8
-  long* auxA[3];                   // offset 0x30, size 0xC
-  long* auxB[3];                   // offset 0x3C, size 0xC
-  struct DSPvoice* voiceRoot;      // offset 0x48, size 0x4
-  struct DSPvoice* alienVoiceRoot; // offset 0x4C, size 0x4
-  u8 state;                        // offset 0x50, size 0x1
-  u8 isMaster;                     // offset 0x51, size 0x1
-  u8 numInputs;                    // offset 0x52, size 0x1
-  SND_STUDIO_TYPE type;            // offset 0x54, size 0x4
-  struct DSPinput in[7];           // offset 0x58, size 0x54
-  SND_AUX_CALLBACK auxAHandler;    // offset 0xAC, size 0x4
-  SND_AUX_CALLBACK auxBHandler;    // offset 0xB0, size 0x4
-  void* auxAUser;                  // offset 0xB4, size 0x4
-  void* auxBUser;                  // offset 0xB8, size 0x4
+  _SPB* spb;                    // offset 0x0, size 0x4
+  DSPhostDPop hostDPopSum;      // offset 0x4, size 0x24
+  s32* main[2];                 // offset 0x28, size 0x8
+  s32* auxA[3];                 // offset 0x30, size 0xC
+  s32* auxB[3];                 // offset 0x3C, size 0xC
+  DSPvoice* voiceRoot;          // offset 0x48, size 0x4
+  DSPvoice* alienVoiceRoot;     // offset 0x4C, size 0x4
+  u8 state;                     // offset 0x50, size 0x1
+  u8 isMaster;                  // offset 0x51, size 0x1
+  u8 numInputs;                 // offset 0x52, size 0x1
+  SND_STUDIO_TYPE type;         // offset 0x54, size 0x4
+  DSPinput in[7];               // offset 0x58, size 0x54
+  SND_AUX_CALLBACK auxAHandler; // offset 0xAC, size 0x4
+  SND_AUX_CALLBACK auxBHandler; // offset 0xB0, size 0x4
+  void* auxAUser;               // offset 0xB4, size 0x4
+  void* auxBUser;               // offset 0xB8, size 0x4
 } DSPstudioinfo;
 
 extern DSPstudioinfo dspStudio[8];
@@ -769,6 +770,7 @@ typedef struct CHANNEL_DEFAULTS {
   // total size: 0x1
   u8 pbRange; // offset 0x0, size 0x1
 } CHANNEL_DEFAULTS;
+
 typedef struct FX_TAB {
   // total size: 0xA
   u16 id;       // offset 0x0, size 0x2
@@ -783,16 +785,16 @@ typedef struct FX_TAB {
 
 typedef struct FX_DATA {
   // total size: 0xE
-  u16 num;             // offset 0x0, size 0x2
-  u16 reserverd;       // offset 0x2, size 0x2
-  struct FX_TAB fx[1]; // offset 0x4, size 0xA
+  u16 num;       // offset 0x0, size 0x2
+  u16 reserverd; // offset 0x2, size 0x2
+  FX_TAB fx[1];  // offset 0x4, size 0xA
 } FX_DATA;
 
 typedef struct FX_GROUP {
   // total size: 0x8
-  u16 gid;              // offset 0x0, size 0x2
-  u16 fxNum;            // offset 0x2, size 0x2
-  struct FX_TAB* fxTab; // offset 0x4, size 0x4
+  u16 gid;       // offset 0x0, size 0x2
+  u16 fxNum;     // offset 0x2, size 0x2
+  FX_TAB* fxTab; // offset 0x4, size 0x4
 } FX_GROUP;
 
 typedef struct PAGE {
@@ -825,12 +827,12 @@ typedef struct ADSR_INFO {
   union ai_data {
     struct {
       // total size: 0x14
-      long atime;  // offset 0x0, size 0x4
-      long dtime;  // offset 0x4, size 0x4
-      u16 slevel;  // offset 0x8, size 0x2
-      u16 rtime;   // offset 0xA, size 0x2
-      long ascale; // offset 0xC, size 0x4
-      long dscale; // offset 0x10, size 0x4
+      s32 atime;  // offset 0x0, size 0x4
+      s32 dtime;  // offset 0x4, size 0x4
+      u16 slevel; // offset 0x8, size 0x2
+      u16 rtime;  // offset 0xA, size 0x2
+      s32 ascale; // offset 0xC, size 0x4
+      s32 dscale; // offset 0x10, size 0x4
     } dls;
     struct {
       // total size: 0x8
@@ -850,7 +852,7 @@ u32 dataInsertMacro(u16 mid, void* macroaddr);
 u32 dataRemoveMacro(u16 mid);
 u32 dataInsertCurve(u16 cid, void* curvedata);
 u32 dataRemoveCurve(u16 sid);
-long dataGetSample(u16 sid, SAMPLE_INFO* newsmp);
+s32 dataGetSample(u16 sid, SAMPLE_INFO* newsmp);
 void* dataGetCurve(u16 cid);
 u32 dataAddSampleReference(u16 sid);
 u32 dataRemoveSampleReference(u16 sid);
@@ -863,7 +865,7 @@ FX_TAB* dataGetFX(u16 fid);
 s32 hwInit(u32* frq, u16 numVoices, u16 numStudios, u32 flags); /* extern */
 void hwInitSamplePlayback(u32 v, u16 smpID, void* newsmp, u32 set_defadsr, u32 prio,
                           u32 callbackUserValue, u32 setSRC, u8 itdMode);
-void hwSetVolume(u32 v, u8 table, float vol, u32 pan, u32 span, float auxa, float auxb);
+void hwSetVolume(u32 v, u8 table, f32 vol, u32 pan, u32 span, f32 auxa, f32 auxb);
 void hwSetPitch(u32 v, u16 speed);
 void hwEnableIrq();
 void hwDisableIrq();
@@ -885,14 +887,14 @@ void synthSetBpm(u32 pbm, u8 set, u8 section);
 void synthFXCloneMidiSetup(SYNTH_VOICE* dest, SYNTH_VOICE* src);
 void synthSetMusicVolumeType(u8 vGroup, u8 type);
 
-extern long synthGlobalVariable[16];
+extern s32 synthGlobalVariable[16];
 extern u16 voicePrioSortRootListRoot;
 extern u8 voiceMusicRunning;
 extern u8 voiceFxRunning;
 extern u8 voiceListInsert;
 extern u8 voiceListRoot;
-void voiceSetPriority(struct SYNTH_VOICE* svoice, u8 prio);
-u32 voiceIsLastStarted(struct SYNTH_VOICE* svoice);
+void voiceSetPriority(SYNTH_VOICE* svoice, u8 prio);
+u32 voiceIsLastStarted(SYNTH_VOICE* svoice);
 s32 voiceKillSound(u32 voiceid);
 
 extern u64 synthRealTime;
@@ -933,7 +935,7 @@ extern SND_MESSAGE_CALLBACK salMessageCallback;
 extern SYNTH_MESSAGE_CALLBACK synthMessageCallback;
 /* Math */
 void salApplyMatrix(const SND_FMATRIX* a, const SND_FVECTOR* b, SND_FVECTOR* out);
-float salNormalizeVector(SND_FVECTOR* vec);
+f32 salNormalizeVector(SND_FVECTOR* vec);
 void salCrossProduct(SND_FVECTOR* out, const SND_FVECTOR* a, const SND_FVECTOR* b);
 void salInvertMatrix(SND_FMATRIX* out, const SND_FMATRIX* in);
 
@@ -948,8 +950,8 @@ void salDeactivateVoice(DSPvoice* dsp_vptr);
 void salActivateStudio(u8 studio, u32 isMaster, SND_STUDIO_TYPE type);
 void salDeactivateStudio(u8 studio);
 void salActivateVoice(DSPvoice* dsp_vptr, u8 studio);
-void salCalcVolume(u8 voltab_index, SAL_VOLINFO* vi, float vol, u32 pan, u32 span, float auxa,
-                   float auxb, u32 itd, u32 dpl2);
+void salCalcVolume(u8 voltab_index, SAL_VOLINFO* vi, f32 vol, u32 pan, u32 span, f32 auxa, f32 auxb,
+                   u32 itd, u32 dpl2);
 void salReconnectVoice(DSPvoice* dsp_vptr, u8 studio);
 void* salMalloc(u32 len);
 void salFree(void* addr);
@@ -1015,8 +1017,9 @@ typedef struct STREAM_INFO {
 void streamOutputModeChanged();
 u8 inpTranslateExCtrl(u8 ctrl);
 void inpSetGlobalMIDIDirtyFlag(u8 chan, u8 midiSet, s32 flag);
-void inpAddCtrl(struct CTRL_DEST* dest, u8 ctrl, long scale, u8 comb, u32 isVar);
-void inpSetMidiCtrl(unsigned char ctrl, unsigned char channel, unsigned char set, unsigned char value);
+void inpAddCtrl(CTRL_DEST* dest, u8 ctrl, s32 scale, u8 comb, u32 isVar);
+void inpSetMidiCtrl(unsigned char ctrl, unsigned char channel, unsigned char set,
+                    unsigned char value);
 void inpSetMidiCtrl14(unsigned char ctrl, unsigned char channel, unsigned char set, u16 value);
 void inpSetExCtrl(SYNTH_VOICE* svoice, u8 ctrl, s16 v);
 CHANNEL_DEFAULTS* inpGetChannelDefaults(u8 midi, u8 midiSet);
@@ -1028,6 +1031,8 @@ u16 inpGetExCtrl(SYNTH_VOICE* svoice, u8 ctrl);
 u16 inpGetMidiCtrl(u8 ctrl, u8 channel, u8 set);
 void inpSetMidiLastNote(u8 midi, u8 midiSet, u8 key);
 u16 inpGetModulation(SYNTH_VOICE* svoice);
+void inpResetMidiCtrl(u8 ch, u8 set, u32 coldReset);
+void inpResetChannelDefaults(u8 midi, u8 midiSet);
 /* TODO: Figure out what `unk` is */
 void hwSetSRCType(u32 v, u8 salSRCType);
 void hwSetITDMode(u32 v, u8 mode);

include/musyx/seq.h

@@ -9,15 +9,18 @@ extern "C" {
 
 typedef struct ARR {
   // total size: 0x58
-  unsigned long tTab;          // offset 0x0, size 0x4
-  unsigned long pTab;          // offset 0x4, size 0x4
-  unsigned long tmTab;         // offset 0x8, size 0x4
-  unsigned long mTrack;        // offset 0xC, size 0x4
-  unsigned long info;          // offset 0x10, size 0x4
-  unsigned long loopPoint[16]; // offset 0x14, size 0x40
-  unsigned long tsTab;         // offset 0x54, size 0x4
+  u32 tTab;          // offset 0x0, size 0x4
+  u32 pTab;          // offset 0x4, size 0x4
+  u32 tmTab;         // offset 0x8, size 0x4
+  u32 mTrack;        // offset 0xC, size 0x4
+  u32 info;          // offset 0x10, size 0x4
+  u32 loopPoint[16]; // offset 0x14, size 0x40
+  u32 tsTab;         // offset 0x54, size 0x4
 } ARR;
 
+#define ARR_GET(arr, offset) ((void*)(offset + (u32)arr))
+#define ARR_GET_TYPE(arr, offset, ty) ((ty)ARR_GET(arr, offset))
+
 typedef struct TENTRY {
   // total size: 0xC
   u32 time;       // offset 0x0, size 0x4
@@ -117,7 +120,7 @@ typedef struct TICKS {
 
 typedef struct SEQ_SECTION {
   // total size: 0x38
-  struct MTRACK mTrack;       // offset 0x0, size 0x8
+  MTRACK mTrack;              // offset 0x0, size 0x8
   u32 bpm;                    // offset 0x8, size 0x4
   TICKS tickDelta[2];         // offset 0xC, size 0x10
   SEQ_EVENT* globalEventRoot; // offset 0x1C, size 0x4
@@ -159,21 +162,30 @@ typedef struct SEQ_INSTANCE {
   SEQ_SECTION section[16];     // offset 0x14E8, size 0x380
 } SEQ_INSTANCE;
 
+typedef struct SEQ_PATTERN {
+  // total size: 0x10
+  u32 headerLen;  // offset 0x0, size 0x4
+  u32 pitchBend;  // offset 0x4, size 0x4
+  u32 modulation; // offset 0x8, size 0x4
+  u32 noteData;   // offset 0xC, size 0x4
+} SEQ_PATTERN;
+
 extern u8 synthTrackVolume[64];
 extern SEQ_INSTANCE seqInstance[8];
 extern u16 seqMIDIPriority[8][16];
 
-void seqSpeed(unsigned long seqId, unsigned short speed);
-void seqVolume(unsigned char volume, unsigned short time, unsigned long seqId, unsigned char mode);
+void seqSpeed(u32 seqId, u16 speed);
+void seqVolume(u8 volume, u16 time, u32 seqId, u8 mode);
 void sndSeqStop(s32 unk);
 void sndSeqSpeed(u32 seqId, u16 speed);
 void sndSeqContinue(s32 unk);
 void sndSeqMute(s32 unk1, s32 unk2, s32 unk3);
-void sndSeqVolume(unsigned char volume, unsigned short time, unsigned long seqId,
-                  unsigned char mode);
-void seqStop(unsigned long seqId);
+void sndSeqVolume(u8 volume, u16 time, u32 seqId, u8 mode);
+u32 sndSeqPlayEx(u16 sgid, u16 sid, void* arrfile, SND_PLAYPARA* para, u8 studio);
+void seqStop(u32 seqId);
 u16 seqGetMIDIPriority(u8 set, u8 channel);
-void seqCrossFade(SND_CROSSFADE* ci, unsigned long* new_seqId, unsigned char irq_call);
+void seqCrossFade(SND_CROSSFADE* ci, u32* new_seqId, bool8 irq_call);
+u32 seqPlaySong(u16 sgid, u16 sid, void* arrfile, SND_PLAYPARA* para, u8 irq_call, u8 studio);
 
 #ifdef __cplusplus
 }

include/musyx/txwin.h

@@ -41,7 +41,7 @@ void winSetFontSize(u16 size);
 sWIN* winOpenLogWindow(s32 x1, s32 y1, s32 x2, s32 y2, char* caption, u16 num_lines, u32 flags);
 sWIN* winOpenWindow(s32 x1, s32 y1, s32 x2, s32 y2, char* caption, void* func, u32 flags);
 
-WXOpenWindow();
+// WXOpenWindow();
 
 #ifdef __cpluplus
 }

src/musyx/runtime/hw_dolphin.c

@@ -134,7 +134,7 @@ u32 salExitDsp() {
 void salStartDsp(u16* cmdList) {
   salDspIsDone = FALSE;
   PPCSync();
-  MUSY_ASSERT(((u32)cmdList & 0x1F)==0);
+  MUSY_ASSERT(((u32)cmdList & 0x1F) == 0);
   DSPSendMailToDSP(dspCmdFirstSize | 0xbabe0000);
 
   while (DSPCheckMailToDSP())

src/musyx/runtime/seq.c

@@ -222,7 +222,7 @@ static void HandleKeyOffNotes() {
     n = cseq->noteKeyOff;
     while (n != NULL) {
       nn = n->next;
-      if (n->id != -1 && sndFXCheck(n->id) == -1) {
+      if (n->id != SND_ID_ERROR && sndFXCheck(n->id) == SND_ID_ERROR) {
         seqFreeKeyOffNote(n);
       }
 
@@ -238,22 +238,43 @@ static void InitPublicIds() { seq_next_id = 0; }
 static u32 GetPublicId(u32 seqId) {
   u32 pub_id;       // r30
   SEQ_INSTANCE* si; // r31
-  si = &seqInstance[seqId];
+
+  do {
+    pub_id = seq_next_id;
+    seq_next_id = pub_id + 1;
+    seq_next_id &= ~SND_SEQ_CROSSFADE_ID;
+
+    for (si = seqActiveRoot; si != NULL; si = si->next) {
+      if (si->publicId == pub_id) {
+        pub_id = SND_SEQ_ERROR_ID;
+        break;
+      }
+    }
+    for (si = seqPausedRoot; si != NULL; si = si->next) {
+      if (si->publicId == pub_id) {
+        pub_id = SND_SEQ_ERROR_ID;
+        break;
+      }
+    }
+  } while (pub_id == SND_SEQ_ERROR_ID);
+
+  seqInstance[seqId].publicId = pub_id;
+  return pub_id;
 }
 
 u32 seqGetPrivateId(u32 seqId) {
   SEQ_INSTANCE* si; // r31
   for (si = seqActiveRoot; si != NULL; si = si->next) {
-    if (si->publicId == (seqId & 0x7fffffff)) {
-      return seqId & 0x80000000 | si->index;
+    if (si->publicId == (seqId & ~SND_SEQ_CROSSFADE_ID)) {
+      return si->index | seqId & SND_SEQ_CROSSFADE_ID;
     }
   }
   for (si = seqPausedRoot; si != NULL; si = si->next) {
-    if (si->publicId == (seqId & 0x7fffffff)) {
-      return seqId & 0x80000000 | si->index;
+    if (si->publicId == (seqId & ~SND_SEQ_CROSSFADE_ID)) {
+      return si->index | seqId & SND_SEQ_CROSSFADE_ID;
     }
   }
-  return 0xffffffff;
+  return SND_ID_ERROR;
 }
 
 static void DoPrgChange(SEQ_INSTANCE* seq, u8 prg, u8 midi) {
@@ -292,6 +313,9 @@ static void BuildTransTab(u8* tab, PAGE* page) {
   }
 }
 
+static void StartPause(SEQ_INSTANCE* si);
+static void InitTrackEvents();
+
 u32 seqStartPlay(PAGE* norm, PAGE* drum, MIDISETUP* midiSetup, u32* song, SND_PLAYPARA* para,
                  u8 studio, u16 sgid) {
   ARR* arr;              // r27
@@ -303,15 +327,15 @@ u32 seqStartPlay(PAGE* norm, PAGE* drum, MIDISETUP* midiSetup, u32* song, SND_PL
   u32 bpm;               // r25
 
   if ((nseq = seqFreeRoot) == NULL) {
-    return -1;
-  };
-  if ((seqFreeRoot = seqFreeRoot->next) != NULL) {
+    return SND_ID_ERROR;
+  }
+  if ((seqFreeRoot = nseq->next) != NULL) {
     seqFreeRoot->prev = NULL;
   }
-
   if ((nseq->next = seqActiveRoot) != NULL) {
     seqActiveRoot->prev = nseq;
   }
+
   nseq->prev = NULL;
   seqActiveRoot = nseq;
   nseq->state = 1;
@@ -340,7 +364,7 @@ u32 seqStartPlay(PAGE* norm, PAGE* drum, MIDISETUP* midiSetup, u32* song, SND_PL
       nseq->section[i].speed = 256;
     }
 
-    synthVolume(127, 0, nseq->defVGroup, 0, -1);
+    synthVolume(SND_PAUSEVOL_NORMAL, 0, nseq->defVGroup, 0, SND_ID_ERROR);
   } else {
     if (para->flags & SND_PLAYPARA_TRACKMUTE) {
       nseq->trackMute[0] = para->trackMute[0];
@@ -368,17 +392,19 @@ u32 seqStartPlay(PAGE* norm, PAGE* drum, MIDISETUP* midiSetup, u32* song, SND_PL
     }
 
     if (para->flags & SND_PLAYPARA_VOLUME) {
-      synthVolume(para->volume.target, para->volume.time, nseq->defVGroup, 0, -1);
+      synthVolume(para->volume.target, para->volume.time, nseq->defVGroup, SND_SEQVOL_CONTINUE,
+                  SND_SEQ_ERROR_ID);
 
       for (i = 0; i < para->numFaded; ++i) {
-        synthVolume(para->volume.target, para->volume.time, para->faded[i], 0, -1);
+        synthVolume(para->volume.target, para->volume.time, para->faded[i], SND_SEQVOL_CONTINUE,
+                    SND_SEQ_ERROR_ID);
       }
     }
   }
 
   arr = (ARR*)song;
   if (arr->info & 0x80000000) {
-    nseq->trackSectionTab = (u8*)(arr->tsTab + (u32)arr);
+    nseq->trackSectionTab = ARR_GET(arr, arr->tsTab);
   } else {
     nseq->trackSectionTab = NULL;
   }
@@ -394,7 +420,7 @@ u32 seqStartPlay(PAGE* norm, PAGE* drum, MIDISETUP* midiSetup, u32* song, SND_PL
     synthSetBpm(bpm >> 10, seqId & 0xFF, i & 0xFF);
 
     if (arr->mTrack != NULL) {
-      nseq->section[i].mTrack.base = (MTRACK_DATA*)(arr->mTrack + (u32)arr);
+      nseq->section[i].mTrack.base = ARR_GET(arr, arr->mTrack);
       nseq->section[i].mTrack.addr = nseq->section[i].mTrack.base;
     } else {
       nseq->section[i].mTrack.base = NULL;
@@ -404,14 +430,61 @@ u32 seqStartPlay(PAGE* norm, PAGE* drum, MIDISETUP* midiSetup, u32* song, SND_PL
     nseq->section[i].loopCnt = 0;
   }
 
-  tracktab = &arr->tTab;
-
+  tracktab = ARR_GET(arr, arr->tTab);
   for (i = 0; i < 64; ++i) {
-    synthTrackVolume[i] = 127;
+    synthTrackVolume[i] = SND_PAUSEVOL_NORMAL;
     nseq->pattern[i].addr = NULL;
-    // TODO: Finish
+    if (tracktab[i] != 0) {
+      nseq->track[i].addr = nseq->track[i].base = ARR_GET(arr, tracktab[i]);
+    } else {
+      nseq->track[i].addr = nseq->track[i].base = NULL;
+    }
   }
-  return -1;
+
+  nseq->noteUsed[0] = NULL;
+  nseq->noteUsed[1] = NULL;
+  nseq->noteKeyOff = NULL;
+
+  for (i = 0; i < 16; ++i) {
+    inpResetMidiCtrl(i, seqId, 1);
+  }
+  for (i = 0; i < 16; ++i) {
+    nseq->prgState[i].macId = 0xffff;
+  }
+  for (i = 0; i < 16; ++i) {
+    inpResetChannelDefaults(i, seqId);
+  }
+  if (midiSetup != NULL) {
+    for (i = 0; i < 16; ++i) {
+      DoPrgChange(nseq, midiSetup->channel[i].program, i);
+      inpSetMidiCtrl(SND_MIDICTRL_VOLUME, i, seqId, midiSetup->channel[i].volume);
+      inpSetMidiCtrl(SND_MIDICTRL_PANNING, i, seqId, midiSetup->channel[i].panning);
+      inpSetMidiCtrl(SND_MIDICTRL_REVERB, i, seqId, midiSetup->channel[i].reverb);
+      inpSetMidiCtrl(SND_MIDICTRL_CHORUS, i, seqId, midiSetup->channel[i].chorus);
+    }
+  }
+  for (i = 0; i < 16; ++i) {
+    seqMIDIPriority[seqId][i] = 0xffff;
+  }
+  for (i = 0; i < 16; ++i) {
+    nseq->section[i].time[0].high = 0;
+    nseq->section[i].time[0].low = 0;
+    nseq->section[i].time[1].high = 0;
+    nseq->section[i].time[1].low = 0;
+    nseq->section[i].timeIndex = 0;
+  }
+  nseq->keyOffCheck = 0;
+
+  if (para != NULL && (para->flags & SND_PLAYPARA_PAUSE) != 0) {
+    StartPause(nseq);
+  }
+
+  oldCSeq = cseq;
+  cseq = nseq;
+  InitTrackEvents();
+  cseq = oldCSeq;
+  seqId = GetPublicId(seqId);
+  return seqId;
 }
 
 static void SetTickDelta(SEQ_SECTION* section, u32 deltaTime) {
@@ -446,7 +519,7 @@ static void HandleMasterTrack(u8 secIndex) {
   }
 }
 
-static void RewindMTrack(unsigned char secIndex, unsigned long deltaTime) {
+static void RewindMTrack(u8 secIndex, u32 deltaTime) {
   if (cseq->section[secIndex].mTrack.base == NULL) {
     return;
   }
@@ -479,11 +552,11 @@ void seqPause(u32 seqId) {
   SEQ_INSTANCE* si; // r31
   seqId = seqGetPrivateId(seqId);
 
-  if (seqId == -1) {
+  if (seqId == SND_SEQ_ERROR_ID) {
     return;
   }
 
-  if (!(seqId & 0x80000000)) {
+  if ((seqId & SND_SEQ_CROSSFADE_ID) == 0) {
     si = &seqInstance[seqId];
     if (si->state == 1) {
       StartPause(si);
@@ -491,22 +564,21 @@ void seqPause(u32 seqId) {
       ResetNotes(si);
     }
   } else {
-    si = &seqInstance[seqId & 0x7fffffff];
+    si = &seqInstance[seqId & ~SND_SEQ_CROSSFADE_ID];
     if (si->state != 0) {
       si->syncCrossInfo.flags |= 8;
     }
   }
 }
 
-void seqStop(unsigned long seqId) {
+void seqStop(u32 seqId) {
   SEQ_INSTANCE* si; // r31
-  ;
 
-  if ((seqId = seqGetPrivateId(seqId)) == -1) {
+  if ((seqId = seqGetPrivateId(seqId)) == SND_SEQ_ERROR_ID) {
     return;
   }
 
-  if (!(seqId & 0x80000000)) {
+  if ((seqId & SND_SEQ_CROSSFADE_ID) == 0) {
     si = &seqInstance[seqId];
     switch (si->state) {
     case 1:
@@ -539,7 +611,7 @@ void seqStop(unsigned long seqId) {
     si->prev = NULL;
     seqFreeRoot = si;
   } else {
-    si = &seqInstance[seqId & 0x7fffffff];
+    si = &seqInstance[seqId & ~SND_SEQ_CROSSFADE_ID];
     if (si->state != 0) {
       si->syncSeqIdPtr = NULL;
     }
@@ -557,7 +629,7 @@ void seqKillAllInstances() {
   }
 }
 
-void seqKillInstancesByGroupID(unsigned short sgid) {
+void seqKillInstancesByGroupID(u16 sgid) {
   SEQ_INSTANCE* si; // r31
 
   for (si = seqActiveRoot; si != NULL; si = si->next) {
@@ -572,19 +644,20 @@ void seqKillInstancesByGroupID(unsigned short sgid) {
   }
 }
 
-void seqSpeed(unsigned long seqId, unsigned short speed) {
+void seqSpeed(u32 seqId, u16 speed) {
   u32 i; // r30
 
   seqId = seqGetPrivateId(seqId);
-  MUSY_ASSERT_MSG(seqId != -1, "Sequencer ID is not valid.");
+#line 1018
+  MUSY_ASSERT_MSG(seqId != SND_SEQ_ERROR_ID, "Sequencer ID is not valid.");
 
-  if (!(seqId & 0x80000000)) {
+  if ((seqId & SND_SEQ_CROSSFADE_ID) == 0) {
     for (i = 0; i < 16; ++i) {
       seqInstance[seqId].section[i].speed = speed;
     }
   } else {
-    seqId &= 0x7FFFFFFF;
-    seqInstance[seqId].syncCrossInfo.flags |= 0x20;
+    seqId &= ~SND_SEQ_CROSSFADE_ID;
+    seqInstance[seqId].syncCrossInfo.flags |= SND_CROSSFADE_SPEED;
     seqInstance[seqId].syncCrossInfo.speed2 = speed;
   }
 }
@@ -593,9 +666,10 @@ void seqContinue(u32 seqId) {
   struct SEQ_INSTANCE* si; // r31
 
   seqId = seqGetPrivateId(seqId);
-  MUSY_ASSERT_MSG(seqId != -1, "Sequencer ID is not valid.");
+#line 1043
+  MUSY_ASSERT_MSG(seqId != SND_SEQ_ERROR_ID, "Sequencer ID is not valid.");
 
-  if (!(seqId & 0x80000000)) {
+  if ((seqId & SND_SEQ_CROSSFADE_ID) == 0) {
     si = &seqInstance[seqId];
 
     if (si->state == 2) {
@@ -618,130 +692,370 @@ void seqContinue(u32 seqId) {
       si->state = 1;
     }
   } else {
-    seqInstance[seqId & 0x7FFFFFFF].syncCrossInfo.flags &= ~0x8;
+    seqInstance[seqId & ~SND_SEQ_CROSSFADE_ID].syncCrossInfo.flags &= ~SND_CROSSFADE_PAUSENEW;
   }
 }
 
-void seqMute(unsigned long seqId, unsigned long mask1, unsigned long mask2) {
+void seqMute(u32 seqId, u32 mask1, u32 mask2) {
   seqId = seqGetPrivateId(seqId);
-  if (seqId == 0xffffffff) {
+  if (seqId == SND_SEQ_ERROR_ID) {
     return;
   }
 
-  if (!(seqId & 0x80000000)) {
+  if ((seqId & SND_SEQ_CROSSFADE_ID) == 0) {
     seqInstance[seqId].trackMute[0] = mask1;
     seqInstance[seqId].trackMute[1] = mask2;
   } else {
-    seqId &= 0x7fffffff;
-    seqInstance[seqId].syncCrossInfo.flags |= 0x10;
+    seqId &= ~SND_SEQ_CROSSFADE_ID;
+    seqInstance[seqId].syncCrossInfo.flags |= SND_CROSSFADE_TRACKMUTE;
     seqInstance[seqId].syncCrossInfo.trackMute2[0] = mask1;
     seqInstance[seqId].syncCrossInfo.trackMute2[1] = mask2;
   }
 }
 
-void seqVolume(unsigned char volume, unsigned short time, unsigned long seqId, unsigned char mode) {
-  unsigned long i;      // r29
-  unsigned long pub_id; // r27
-  // TODO
-  // pub_id = seqId;
-  seqId = seqGetPrivateId(seqId);
+void seqVolume(u8 volume, u16 time, u32 seqId, u8 mode) {
+  u32 i;      // r29
+  u32 pub_id; // r27
 
-  if (seqId == -1) {
+  pub_id = seqId;
+  seqId = seqGetPrivateId(seqId);
+  if (seqId == SND_SEQ_ERROR_ID) {
     return;
   }
 
-  if (!(seqId & 0x80000000)) {
+  if ((seqId & SND_SEQ_CROSSFADE_ID) == 0) {
     synthVolume(volume, time, seqInstance[seqId].defVGroup, mode, pub_id);
     for (i = 0; i < 64; ++i) {
       if (seqInstance[seqId].trackVolGroup[i] != seqInstance[seqId].defVGroup) {
-        synthVolume(volume, time, seqInstance[seqId].trackVolGroup[i], 0, -1);
+        synthVolume(volume, time, seqInstance[seqId].trackVolGroup[i], SND_SEQVOL_CONTINUE,
+                    SND_SEQ_ERROR_ID);
       }
     }
   } else {
-    seqId &= 0x7fffffff;
-    switch (mode & 0xf) {
-    case 0:
+    seqId &= ~SND_SEQ_CROSSFADE_ID;
+    switch (mode & SND_SEQVOL_MODEMASK) {
+    case SND_SEQVOL_CONTINUE:
       seqInstance[seqId].syncCrossInfo.vol2 = volume;
       break;
-    case 1:
+    case SND_SEQVOL_STOP:
       seqInstance[seqId].syncSeqIdPtr = NULL;
       break;
-    case 2:
-      seqInstance[seqId].syncCrossInfo.flags |= 8;
+    case SND_SEQVOL_PAUSE:
+      seqInstance[seqId].syncCrossInfo.flags |= SND_CROSSFADE_PAUSENEW;
       seqInstance[seqId].syncCrossInfo.vol2 = volume;
       break;
-    case 3:
-      seqInstance[seqId].syncCrossInfo.flags |= 0x80;
+    case SND_SEQVOL_MUTE:
+      seqInstance[seqId].syncCrossInfo.flags |= SND_CROSSFADE_MUTENEW;
       seqInstance[seqId].syncCrossInfo.vol2 = volume;
       break;
     default:
+#line 1153
       MUSY_FATAL("Illegal sequencere fade mode detected.");
       break;
     }
   }
 }
 
-// TODO: very incomplete
-void seqCrossFade(SND_CROSSFADE* ci, unsigned long* new_seqId, unsigned char irq_call) {
-  SND_PLAYPARA pp;     // r1+0x14
-  unsigned long seqId; // r29
-  unsigned short time; // r27
-  seqId = seqGetPrivateId(ci->seqId1);
+void seqCrossFade(SND_CROSSFADE* ci, u32* new_seqId, bool8 irq_call) {
+  SND_PLAYPARA pp; // r1+0x14
+  u32 seqId;       // r29
+  u16 time;        // r27
 
-  if ((ci->flags & 0x4) != 0) {
+  seqId = seqGetPrivateId(ci->seqId1);
+#line 1170
+  MUSY_ASSERT_MSG(seqId != SND_SEQ_ERROR_ID, "Sequencer ID is not valid.");
+
+  if ((ci->flags & SND_CROSSFADE_SYNC) != 0) {
     seqInstance[seqId].syncCrossInfo = *ci;
     seqInstance[seqId].syncActive = TRUE;
     seqInstance[seqId].syncSeqIdPtr = new_seqId;
-    seqInstance[seqId].syncCrossInfo.flags &= ~0x4;
-    *new_seqId = ci->seqId1 | 0x80000000;
+    seqInstance[seqId].syncCrossInfo.flags &= ~SND_CROSSFADE_SYNC;
+    *new_seqId = ci->seqId1 | SND_SEQ_CROSSFADE_ID;
     return;
   }
 
-  if ((irq_call & 0xff) != 0) {
-    time = 5;
-    if (ci->time1 > 4) {
-      time = ci->time1;
-    }
-
-    if ((ci->flags & 0x1) != 0) {
-      seqVolume(0, time, seqId, 2);
-    } else if ((ci->flags & 0x40) != 0) {
-      seqVolume(0, time, seqId, 3);
+  if (irq_call) {
+    time = ci->time1 < 5 ? 5 : ci->time1;
+    if ((ci->flags & SND_CROSSFADE_PAUSE) != 0) {
+      seqVolume(0, time, ci->seqId1, SND_SEQVOL_PAUSE);
+    } else if ((ci->flags & SND_CROSSFADE_MUTE) != 0) {
+      seqVolume(0, time, ci->seqId1, SND_SEQVOL_MUTE);
     } else {
-      seqVolume(0, time, seqId, 1);
+      seqVolume(0, time, ci->seqId1, SND_SEQVOL_STOP);
     }
+  } else {
+    if ((ci->flags & SND_CROSSFADE_PAUSE) != 0) {
+      sndSeqVolume(0, ci->time1, ci->seqId1, SND_SEQVOL_PAUSE);
+    } else if ((ci->flags & SND_CROSSFADE_MUTE) != 0) {
+      sndSeqVolume(0, ci->time1, ci->seqId1, SND_SEQVOL_MUTE);
+    } else {
+      sndSeqVolume(0, ci->time1, ci->seqId1, SND_SEQVOL_STOP);
+    }
+  }
 
-    if (new_seqId != NULL) {
-      if ((ci->flags & 0x2) != 0) {
-        seqId = seqGetPrivateId(ci->seqId2);
-        if (seqId != 0xffffffff) {
-          if ((irq_call & 0xff) != 0) {
-            seqStop(ci->seqId2);
-          } else {
-            sndSeqContinue(ci->seqId2);
-            sndSeqVolume(ci->vol2, ci->time2, ci->seqId2, 0);
-            if ((ci->flags & 0x10) != 0) {
-              sndSeqMute(ci->seqId2, ci->trackMute2[0], ci->trackMute2[1]);
-            }
-            if ((ci->flags & 0x20) != 0) {
-              sndSeqSpeed(ci->seqId2, ci->speed2);
-            }
-          }
-          *new_seqId = ci->seqId2;
-        } else {
-          *new_seqId = 0xffffffff;
+  if (new_seqId == NULL) {
+    return;
+  }
+
+  if ((ci->flags & SND_CROSSFADE_CONTINUE) != 0) {
+    if (seqGetPrivateId(ci->seqId2) != SND_SEQ_ERROR_ID) {
+      if (irq_call) {
+        seqContinue(ci->seqId2);
+        seqVolume(ci->vol2, ci->time2, ci->seqId2, SND_SEQVOL_CONTINUE);
+        if ((ci->flags & SND_CROSSFADE_TRACKMUTE) != 0) {
+          seqMute(ci->seqId2, ci->trackMute2[0], ci->trackMute2[1]);
+        }
+        if ((ci->flags & SND_CROSSFADE_SPEED) != 0) {
+          seqSpeed(ci->seqId2, ci->speed2);
+        }
+      } else {
+        sndSeqContinue(ci->seqId2);
+        sndSeqVolume(ci->vol2, ci->time2, ci->seqId2, SND_SEQVOL_CONTINUE);
+        if ((ci->flags & SND_CROSSFADE_TRACKMUTE) != 0) {
+          sndSeqMute(ci->seqId2, ci->trackMute2[0], ci->trackMute2[1]);
+        }
+        if ((ci->flags & SND_CROSSFADE_SPEED) != 0) {
+          sndSeqSpeed(ci->seqId2, ci->speed2);
         }
       }
+      *new_seqId = ci->seqId2;
+    } else {
+      *new_seqId = SND_SEQ_ERROR_ID;
     }
-
-    return;
-  }
-
-  if ((ci->flags & 0x1) != 0) {
-    sndSeqVolume(0, ci->time1, seqId, 2);
-  } else if ((ci->flags & 0x40) != 0) {
-    sndSeqVolume(0, ci->time1, seqId, 3);
   } else {
-    sndSeqVolume(0, ci->time1, seqId, 1);
+    pp.flags = SND_PLAYPARA_VOLUME;
+    if ((ci->flags & SND_CROSSFADE_PAUSENEW) != 0) {
+      pp.flags |= SND_PLAYPARA_PAUSE;
+    }
+    if ((ci->flags & SND_CROSSFADE_SPEED) != 0) {
+      pp.flags |= SND_PLAYPARA_SPEED;
+      pp.speed = ci->speed2;
+    }
+    if ((ci->flags & SND_CROSSFADE_TRACKMUTE) != 0) {
+      pp.flags |= SND_PLAYPARA_TRACKMUTE;
+      pp.trackMute[0] = ci->trackMute2[0];
+      pp.trackMute[1] = ci->trackMute2[1];
+    }
+    pp.volume.time = ci->time2;
+    pp.volume.target = ci->vol2;
+    pp.numFaded = 0;
+    if (irq_call != 0) {
+      if ((*new_seqId = seqPlaySong(ci->gid2, ci->sid2, ci->arr2, &pp, TRUE, ci->studio2)) !=
+              SND_SEQ_ERROR_ID &&
+          (ci->flags & SND_CROSSFADE_MUTENEW) != 0) {
+        seqMute(*new_seqId, 0, 0);
+      }
+    } else {
+      if ((*new_seqId = sndSeqPlayEx(ci->gid2, ci->sid2, ci->arr2, &pp, ci->studio2)) !=
+              SND_SEQ_ERROR_ID &&
+          (ci->flags & SND_CROSSFADE_MUTENEW) != 0) {
+        sndSeqMute(*new_seqId, 0, 0);
+      }
+    }
   }
 }
+
+static u8* GetStreamValue(u8* stream, u16* deltaTime, s16* deltaData) {
+  u8 b1; // r31
+  u8 b2; // r29
+  s16 v; // r30
+
+  b1 = stream[0];
+  b2 = stream[1];
+  if (b1 == 0x80 && b2 == 0) {
+    return NULL;
+  }
+
+  if ((b1 & 0x80) != 0) {
+    *deltaTime = ((b1 & 0x7f) << 8) | b2;
+    stream += 2;
+  } else {
+    *deltaTime = b1;
+    stream += 1;
+  }
+
+  b1 = stream[0];
+  b2 = stream[1];
+  if ((b1 & 0x80) != 0) {
+    v = ((b1 & 0x7f) << 8) | b2;
+    v <<= 1;
+    v >>= 1;
+    *deltaData = v;
+    stream += 2;
+  } else {
+    v = b1;
+    v <<= 9;
+    v >>= 9;
+    *deltaData = v;
+    stream += 1;
+  }
+
+  return stream;
+}
+
+static void InitStream(SEQ_STREAM* stream, u32 streamDataOffset) {
+  u16 delta; // r1+0x10
+  if (streamDataOffset != 0) {
+    if ((stream->nextAddr = GetStreamValue(ARR_GET(cseq->arrbase, streamDataOffset), &delta,
+                                           &stream->nextDelta)) != NULL) {
+      stream->nextTime = delta;
+    } else {
+      stream->nextTime = 0x7fffffff;
+    }
+  } else {
+    stream->nextTime = 0x7fffffff;
+  }
+}
+
+static u16 HandleStream(SEQ_STREAM* stream) {
+  u16 delta; // r1+0xC
+  stream->value += stream->nextDelta;
+  if (stream->nextAddr != NULL) {
+    if ((stream->nextAddr = GetStreamValue(stream->nextAddr, &delta, &stream->nextDelta)) != NULL) {
+      stream->nextTime += delta;
+    } else {
+      stream->nextTime = 0x7fffffff;
+    }
+  } else {
+    stream->nextTime = 0x7fffffff;
+  }
+  return stream->value;
+}
+
+static SEQ_EVENT* GenerateNextTrackEvent(u8 trackId) {
+  TRACK* track;    // r29
+  CPAT* pattern;   // r31
+  SEQ_EVENT* ev;   // r30
+  u32 patternTime; // r28
+  u32 pitchTime;   // r27
+  u32 modTime;     // r26
+
+  track = &cseq->track[trackId];
+  pattern = &cseq->pattern[trackId];
+
+  if (track->addr != NULL) {
+    ev = &cseq->event[trackId];
+    ev->trackId = trackId;
+    ev->info.pattern.base = pattern;
+
+    if (pattern->addr == NULL) {
+    null_pattern_addr:
+      if (track->addr->pattern == 0xffff) {
+        track->addr = NULL;
+        return NULL;
+      } else if (track->addr->pattern == 0xfffe) {
+        if (cseq->trackSectionTab == NULL) {
+          if (cseq->section[0].loopDisable) {
+            track->addr = NULL;
+            return NULL;
+          }
+        } else if (cseq->section[cseq->trackSectionTab[trackId]].loopDisable) {
+          track->addr = NULL;
+          return NULL;
+        }
+
+        ev->type = 3;
+        ev->time = track->addr->time;
+        track->addr = &track->base[*((u16*)&track->addr->transpose)];
+        return ev;
+      }
+
+      ev->type = 4;
+      ev->time = track->addr->time;
+      ev->info.trackAddr = track->addr;
+      ++track->addr;
+      return ev;
+    }
+
+    pitchTime = pattern->pitchBend.nextTime;
+    modTime = pattern->modulation.nextTime;
+
+  loop:
+    patternTime = pattern->addr->time + pattern->lTime;
+    if (patternTime >= pitchTime) {
+      goto use_pitch_time;
+    }
+    if (patternTime >= modTime) {
+      goto use_mod_time;
+    }
+    if (pattern->addr->key == 0xff && pattern->addr->velocity == 0xff) {
+      pattern->addr = NULL;
+      goto null_pattern_addr;
+    }
+
+    ev->info.trackAddr = (TENTRY*)pattern->addr;
+    pattern->lTime = patternTime;
+
+    if ((pattern->addr->key & 0x80) != 0) {
+      pattern->addr = (NOTE_DATA*)((u8*)pattern->addr + 4);
+      goto use_pattern_time;
+    }
+    if ((pattern->addr->key | pattern->addr->velocity) == 0) {
+      pattern->addr = (NOTE_DATA*)((u8*)pattern->addr + 4);
+      goto loop;
+    }
+    ++pattern->addr;
+
+  use_pattern_time:
+    ev->type = 0;
+    ev->time = patternTime + pattern->baseTime;
+    goto end;
+
+  use_pitch_time:
+    if (pitchTime < modTime) {
+      ev->time = pitchTime + pattern->baseTime;
+      ev->type = 2;
+    } else {
+    use_mod_time:
+      ev->time = modTime + pattern->baseTime;
+      ev->type = 1;
+    }
+
+  end:
+    return ev;
+  }
+
+  return NULL;
+}
+
+static void InsertGlobalEvent(SEQ_SECTION* section, SEQ_EVENT* event) {
+  SEQ_EVENT* el;      // r31
+  SEQ_EVENT* last_el; // r30
+
+  last_el = NULL;
+  el = section->globalEventRoot;
+  for (; el != NULL; last_el = el, el = el->next) {
+    if (el->time > event->time) {
+      event->next = el;
+      event->prev = last_el;
+      if (last_el != NULL) {
+        last_el->next = event;
+      } else {
+        section->globalEventRoot = event;
+      }
+      el->prev = event;
+      return;
+    }
+  }
+
+  event->prev = last_el;
+  if (last_el != NULL) {
+    last_el->next = event;
+  } else {
+    section->globalEventRoot = event;
+  }
+  event->next = NULL;
+}
+
+static u32 GetNextEventTime(SEQ_SECTION* section) {
+  return section->globalEventRoot == NULL ? 0 : section->globalEventRoot->time;
+}
+
+static SEQ_EVENT* GetGlobalEvent(SEQ_SECTION* section) {
+  SEQ_EVENT* ev; // r31
+  ev = section->globalEventRoot;
+  if (ev != NULL && ((section->globalEventRoot = ev->next) != NULL)) {
+    section->globalEventRoot->prev = NULL;
+  }
+  return ev;
+}