qzdoom-gpl/src/s_sndseq.cpp
Christoph Oelckers 66d28a24b8 - disabled the scripted virtual function module after finding out that it only works if each single class that may serve as a parent for scripting is explicitly declared.
Needless to say, this is simply too volatile and would require constant active maintenance, not to mention a huge amount of work up front to get going.
It also hid a nasty problem with the Destroy method. Due to the way the garbage collector works, Destroy cannot be exposed to scripts as-is. It may be called from scripts but it may not be overridden from scripts because the garbage collector can call this function after all data needed for calling a scripted override has already been destroyed because if that data is also being collected there is no guarantee that proper order of destruction is observed. So for now Destroy is just a normal native method to scripted classes
2016-11-25 00:25:26 +01:00

1492 lines
34 KiB
C++

//**************************************************************************
//**
//** sn_sonix.c : Heretic 2 : Raven Software, Corp.
//**
//** $RCSfile: sn_sonix.c,v $
//** $Revision: 1.17 $
//** $Date: 95/10/05 18:25:44 $
//** $Author: paul $
//**
//**************************************************************************
#include <string.h>
#include <stdio.h>
#include "doomtype.h"
#include "doomstat.h"
#include "sc_man.h"
#include "m_random.h"
#include "s_sound.h"
#include "s_sndseq.h"
#include "w_wad.h"
#include "i_system.h"
#include "cmdlib.h"
#include "p_local.h"
#include "po_man.h"
#include "gi.h"
#include "templates.h"
#include "c_dispatch.h"
#include "g_level.h"
#include "serializer.h"
#include "d_player.h"
// MACROS ------------------------------------------------------------------
#define GetCommand(a) ((a) & 255)
#define GetData(a) (SDWORD(a) >> 8 )
#define GetFloatData(a) float((SDWORD(a) >> 8 )/65536.f)
#define MakeCommand(a,b) ((a) | ((b) << 8))
#define HexenPlatSeq(a) (a)
#define HexenDoorSeq(a) ((a) | 0x40)
#define HexenEnvSeq(a) ((a) | 0x80)
#define HexenLastSeq (0xff)
#define TIME_REFERENCE level.time
// TYPES -------------------------------------------------------------------
typedef enum
{
SS_STRING_PLAY,
SS_STRING_PLAYUNTILDONE,
SS_STRING_PLAYTIME,
SS_STRING_PLAYREPEAT,
SS_STRING_PLAYLOOP,
SS_STRING_DELAY,
SS_STRING_DELAYONCE,
SS_STRING_DELAYRAND,
SS_STRING_VOLUME,
SS_STRING_VOLUMEREL,
SS_STRING_VOLUMERAND,
SS_STRING_END,
SS_STRING_STOPSOUND,
SS_STRING_ATTENUATION,
SS_STRING_NOSTOPCUTOFF,
SS_STRING_SLOT,
SS_STRING_RANDOMSEQUENCE,
SS_STRING_RESTART,
// These must be last and in the same order as they appear in seqtype_t
SS_STRING_PLATFORM,
SS_STRING_DOOR,
SS_STRING_ENVIRONMENT
} ssstrings_t;
typedef enum
{
SS_CMD_NONE,
SS_CMD_PLAY,
SS_CMD_WAITUNTILDONE, // used by PLAYUNTILDONE
SS_CMD_PLAYTIME,
SS_CMD_PLAYREPEAT,
SS_CMD_PLAYLOOP,
SS_CMD_DELAY,
SS_CMD_DELAYRAND,
SS_CMD_VOLUME,
SS_CMD_VOLUMEREL,
SS_CMD_VOLUMERAND,
SS_CMD_STOPSOUND,
SS_CMD_ATTENUATION,
SS_CMD_RANDOMSEQUENCE,
SS_CMD_BRANCH,
SS_CMD_LAST2NOP,
SS_CMD_SELECT,
SS_CMD_END
} sscmds_t;
struct hexenseq_t
{
ENamedName Name;
BYTE Seqs[4];
};
class DSeqActorNode : public DSeqNode
{
DECLARE_CLASS(DSeqActorNode, DSeqNode)
HAS_OBJECT_POINTERS
public:
DSeqActorNode(AActor *actor, int sequence, int modenum);
void Destroy() override;
void Serialize(FSerializer &arc);
void MakeSound(int loop, FSoundID id)
{
S_Sound(m_Actor, CHAN_BODY|loop, id, clamp(m_Volume, 0.f, 1.f), m_Atten);
}
bool IsPlaying()
{
return S_IsActorPlayingSomething (m_Actor, CHAN_BODY, m_CurrentSoundID);
}
void *Source()
{
return m_Actor;
}
DSeqNode *SpawnChild(int seqnum)
{
return SN_StartSequence (m_Actor, seqnum, SEQ_NOTRANS, m_ModeNum, true);
}
private:
DSeqActorNode() {}
TObjPtr<AActor> m_Actor;
};
class DSeqPolyNode : public DSeqNode
{
DECLARE_CLASS(DSeqPolyNode, DSeqNode)
public:
DSeqPolyNode(FPolyObj *poly, int sequence, int modenum);
void Destroy() override;
void Serialize(FSerializer &arc);
void MakeSound(int loop, FSoundID id)
{
S_Sound (m_Poly, CHAN_BODY|loop, id, clamp(m_Volume, 0.f, 1.f), m_Atten);
}
bool IsPlaying()
{
return S_GetSoundPlayingInfo (m_Poly, m_CurrentSoundID);
}
void *Source()
{
return m_Poly;
}
DSeqNode *SpawnChild (int seqnum)
{
return SN_StartSequence (m_Poly, seqnum, SEQ_NOTRANS, m_ModeNum, true);
}
private:
DSeqPolyNode () {}
FPolyObj *m_Poly;
};
class DSeqSectorNode : public DSeqNode
{
DECLARE_CLASS(DSeqSectorNode, DSeqNode)
public:
DSeqSectorNode(sector_t *sec, int chan, int sequence, int modenum);
void Destroy() override;
void Serialize(FSerializer &arc);
void MakeSound(int loop, FSoundID id)
{
Channel = (Channel & 7) | CHAN_AREA | loop;
S_Sound(m_Sector, Channel, id, clamp(m_Volume, 0.f, 1.f), m_Atten);
}
bool IsPlaying()
{
return S_GetSoundPlayingInfo (m_Sector, m_CurrentSoundID);
}
void *Source()
{
return m_Sector;
}
DSeqNode *SpawnChild(int seqnum)
{
return SN_StartSequence (m_Sector, Channel, seqnum, SEQ_NOTRANS, m_ModeNum, true);
}
int Channel;
private:
DSeqSectorNode() {}
sector_t *m_Sector;
};
// When destroyed, destroy the sound sequences too.
struct FSoundSequencePtrArray : public TArray<FSoundSequence *>
{
~FSoundSequencePtrArray()
{
for (unsigned int i = 0; i < Size(); ++i)
{
M_Free((*this)[i]);
}
}
};
// PRIVATE FUNCTION PROTOTYPES ---------------------------------------------
static void AssignTranslations (FScanner &sc, int seq, seqtype_t type);
static void AssignHexenTranslations (void);
static void AddSequence (int curseq, FName seqname, FName slot, int stopsound, const TArray<DWORD> &ScriptTemp);
static int FindSequence (const char *searchname);
static int FindSequence (FName seqname);
static bool TwiddleSeqNum (int &sequence, seqtype_t type);
// PUBLIC DATA DEFINITIONS -------------------------------------------------
FSoundSequencePtrArray Sequences;
int ActiveSequences;
DSeqNode *DSeqNode::SequenceListHead;
// PRIVATE DATA DEFINITIONS ------------------------------------------------
static const char *SSStrings[] = {
"play",
"playuntildone",
"playtime",
"playrepeat",
"playloop",
"delay",
"delayonce",
"delayrand",
"volume",
"volumerel",
"volumerand",
"end",
"stopsound",
"attenuation",
"nostopcutoff",
"slot",
"randomsequence",
"restart",
// These must be last and in the same order as they appear in seqtype_t
"platform",
"door",
"environment",
NULL
};
struct SSAttenuation
{
const char *name;
float value;
};
static const SSAttenuation Attenuations[] = {
{ "none", ATTN_NONE },
{ "normal", ATTN_NORM },
{ "idle", ATTN_IDLE },
{ "static", ATTN_STATIC },
{ "surround", ATTN_NONE },
{ NULL, 0}
};
static const hexenseq_t HexenSequences[] = {
{ NAME_Platform, { HexenPlatSeq(0), HexenPlatSeq(1), HexenPlatSeq(3), HexenLastSeq } },
{ NAME_PlatformMetal, { HexenPlatSeq(2), HexenLastSeq } },
{ NAME_Silence, { HexenPlatSeq(4), HexenDoorSeq(4), HexenLastSeq } },
{ NAME_Lava, { HexenPlatSeq(5), HexenDoorSeq(5), HexenLastSeq } },
{ NAME_Water, { HexenPlatSeq(6), HexenDoorSeq(6), HexenLastSeq } },
{ NAME_Ice, { HexenPlatSeq(7), HexenDoorSeq(7), HexenLastSeq } },
{ NAME_Earth, { HexenPlatSeq(8), HexenDoorSeq(8), HexenLastSeq } },
{ NAME_PlatformMetal2, { HexenPlatSeq(9), HexenLastSeq } },
{ NAME_DoorNormal, { HexenDoorSeq(0), HexenLastSeq } },
{ NAME_DoorHeavy, { HexenDoorSeq(1), HexenLastSeq } },
{ NAME_DoorMetal, { HexenDoorSeq(2), HexenLastSeq } },
{ NAME_DoorCreak, { HexenDoorSeq(3), HexenLastSeq } },
{ NAME_DoorMetal2, { HexenDoorSeq(9), HexenLastSeq } },
{ NAME_Wind, { HexenEnvSeq(10), HexenLastSeq } },
{ NAME_None, {0} }
};
static int SeqTrans[64*3];
static FRandom pr_sndseq ("SndSeq");
// CODE --------------------------------------------------------------------
void DSeqNode::SerializeSequences (FSerializer &arc)
{
arc("sndseqlisthead", SequenceListHead);
}
IMPLEMENT_CLASS(DSeqNode, false, true)
IMPLEMENT_POINTERS_START(DSeqNode)
IMPLEMENT_POINTER(m_ChildSeqNode)
IMPLEMENT_POINTER(m_ParentSeqNode)
IMPLEMENT_POINTER(m_Next)
IMPLEMENT_POINTER(m_Prev)
IMPLEMENT_POINTERS_END
DSeqNode::DSeqNode ()
: m_SequenceChoices(0)
{
m_Next = m_Prev = m_ChildSeqNode = m_ParentSeqNode = NULL;
}
void DSeqNode::Serialize(FSerializer &arc)
{
int seqOffset;
unsigned int i;
FName seqName;
int delayTics = 0;
FSoundID id;
float volume;
float atten = ATTN_NORM;
int seqnum;
unsigned int numchoices;
// copy these to local variables so that the actual serialization code does not need to be duplicated for saving and loading.
if (arc.isWriting())
{
seqOffset = (int)SN_GetSequenceOffset(m_Sequence, m_SequencePtr);
delayTics = m_DelayUntilTic;
volume = m_Volume;
atten = m_Atten;
id = m_CurrentSoundID;
seqName = Sequences[m_Sequence]->SeqName;
numchoices = m_SequenceChoices.Size();
}
Super::Serialize(arc);
arc("seqoffset", seqOffset)
("delaytics", delayTics)
("volume", volume)
("atten", atten)
("modelnum", m_ModeNum)
("next", m_Next)
("prev", m_Prev)
("childseqnode", m_ChildSeqNode)
("parentseqnode", m_ParentSeqNode)
("id", id)
("seqname", seqName)
("numchoices", numchoices);
// The way this is saved makes it hard to encapsulate so just do it the hard way...
if (arc.isWriting())
{
if (numchoices > 0 && arc.BeginArray("choices"))
{
for (i = 0; i < m_SequenceChoices.Size(); ++i)
{
arc(nullptr, Sequences[m_SequenceChoices[i]]->SeqName);
}
arc.EndArray();
}
}
else
{
seqnum = FindSequence (seqName);
if (seqnum >= 0)
{
ActivateSequence (seqnum);
}
else
{
I_Error ("Unknown sound sequence '%s'\n", seqName.GetChars());
// Can I just Destroy() here instead of erroring out?
}
ChangeData (seqOffset, delayTics - TIME_REFERENCE, volume, id);
m_SequenceChoices.Resize(numchoices);
if (numchoices > 0 && arc.BeginArray("choices"))
{
for (i = 0; i < numchoices; ++i)
{
arc(nullptr, seqName);
m_SequenceChoices[i] = FindSequence(seqName);
}
arc.EndArray();
}
}
}
void DSeqNode::Destroy()
{
// If this sequence was launched by a parent sequence, advance that
// sequence now.
if (m_ParentSeqNode != NULL && m_ParentSeqNode->m_ChildSeqNode == this)
{
m_ParentSeqNode->m_SequencePtr++;
m_ParentSeqNode->m_ChildSeqNode = NULL;
m_ParentSeqNode = NULL;
}
if (SequenceListHead == this)
{
SequenceListHead = m_Next;
GC::WriteBarrier(m_Next);
}
if (m_Prev)
{
m_Prev->m_Next = m_Next;
GC::WriteBarrier(m_Prev, m_Next);
}
if (m_Next)
{
m_Next->m_Prev = m_Prev;
GC::WriteBarrier(m_Next, m_Prev);
}
ActiveSequences--;
Super::Destroy();
}
void DSeqNode::StopAndDestroy ()
{
if (m_ChildSeqNode != NULL)
{
m_ChildSeqNode->StopAndDestroy();
}
Destroy();
}
void DSeqNode::AddChoice (int seqnum, seqtype_t type)
{
if (TwiddleSeqNum (seqnum, type))
{
m_SequenceChoices.Push (seqnum);
}
}
FName DSeqNode::GetSequenceName () const
{
return Sequences[m_Sequence]->SeqName;
}
IMPLEMENT_CLASS(DSeqActorNode, false, true)
IMPLEMENT_POINTERS_START(DSeqActorNode)
IMPLEMENT_POINTER(m_Actor)
IMPLEMENT_POINTERS_END
void DSeqActorNode::Serialize(FSerializer &arc)
{
Super::Serialize (arc);
arc("actor", m_Actor);
}
IMPLEMENT_CLASS(DSeqPolyNode, false, false)
void DSeqPolyNode::Serialize(FSerializer &arc)
{
Super::Serialize (arc);
arc("poly", m_Poly);
}
IMPLEMENT_CLASS(DSeqSectorNode, false, false)
void DSeqSectorNode::Serialize(FSerializer &arc)
{
Super::Serialize (arc);
arc("sector",m_Sector)
("channel", Channel);
}
//==========================================================================
//
// AssignTranslations
//
//==========================================================================
static void AssignTranslations (FScanner &sc, int seq, seqtype_t type)
{
sc.Crossed = false;
while (sc.GetString() && !sc.Crossed)
{
if (IsNum(sc.String))
{
SeqTrans[(atoi(sc.String) & 63) + type * 64] = seq;
}
}
sc.UnGet();
}
//==========================================================================
//
// AssignHexenTranslations
//
//==========================================================================
static void AssignHexenTranslations (void)
{
unsigned int i, j, seq;
for (i = 0; HexenSequences[i].Name != NAME_None; i++)
{
for (seq = 0; seq < Sequences.Size(); seq++)
{
if (Sequences[seq] != NULL && HexenSequences[i].Name == Sequences[seq]->SeqName)
break;
}
if (seq == Sequences.Size())
continue;
for (j = 0; j < 4 && HexenSequences[i].Seqs[j] != HexenLastSeq; j++)
{
int trans;
if (HexenSequences[i].Seqs[j] & 0x40)
{
trans = 64 * SEQ_DOOR;
}
else if (HexenSequences[i].Seqs[j] & 0x80)
trans = 64 * SEQ_ENVIRONMENT;
else
trans = 64 * SEQ_PLATFORM;
SeqTrans[trans + (HexenSequences[i].Seqs[j] & 0x3f)] = seq;
}
}
}
//==========================================================================
//
// S_ClearSndSeq
//
//==========================================================================
void S_ClearSndSeq()
{
for (unsigned int i = 0; i < Sequences.Size(); i++)
{
if (Sequences[i])
{
M_Free(Sequences[i]);
}
}
Sequences.Clear();
}
//==========================================================================
//
// S_ParseSndSeq
//
//==========================================================================
void S_ParseSndSeq (int levellump)
{
TArray<DWORD> ScriptTemp;
int lastlump, lump;
char seqtype = ':';
FName seqname;
FName slot;
int stopsound;
int delaybase;
float volumebase;
int curseq = -1;
int val;
// First free the old SNDSEQ data. This allows us to reload this for each level
// and specify a level specific SNDSEQ lump!
S_ClearSndSeq();
// be gone, compiler warnings
stopsound = 0;
memset (SeqTrans, -1, sizeof(SeqTrans));
lastlump = 0;
while (((lump = Wads.FindLump ("SNDSEQ", &lastlump)) != -1 || levellump != -1) && levellump != -2)
{
if (lump == -1)
{
lump = levellump;
levellump = -2;
}
FScanner sc(lump);
while (sc.GetString ())
{
if (*sc.String == ':' || *sc.String == '[')
{
if (curseq != -1)
{
sc.ScriptError ("S_ParseSndSeq: Nested Script Error");
}
seqname = sc.String + 1;
seqtype = sc.String[0];
for (curseq = 0; curseq < (int)Sequences.Size(); curseq++)
{
if (Sequences[curseq] != NULL && Sequences[curseq]->SeqName == seqname)
{
M_Free (Sequences[curseq]);
Sequences[curseq] = NULL;
break;
}
}
if (curseq == (int)Sequences.Size())
{
Sequences.Push (NULL);
}
ScriptTemp.Clear();
stopsound = 0;
slot = NAME_None;
if (seqtype == '[')
{
sc.SetCMode (true);
ScriptTemp.Push (0); // to be filled when definition is complete
}
continue;
}
if (curseq == -1)
{
continue;
}
if (seqtype == '[')
{
if (sc.String[0] == ']')
{ // End of this definition
ScriptTemp[0] = MakeCommand(SS_CMD_SELECT, (ScriptTemp.Size()-1)/2);
AddSequence (curseq, seqname, slot, stopsound, ScriptTemp);
curseq = -1;
sc.SetCMode (false);
}
else
{ // Add a selection
sc.UnGet();
if (sc.CheckNumber())
{
ScriptTemp.Push (sc.Number);
sc.MustGetString();
ScriptTemp.Push (FName(sc.String));
}
else
{
seqtype_t seqtype = seqtype_t(sc.MustMatchString (SSStrings + SS_STRING_PLATFORM));
AssignTranslations (sc, curseq, seqtype);
}
}
continue;
}
switch (sc.MustMatchString (SSStrings))
{
case SS_STRING_PLAYUNTILDONE:
sc.MustGetString ();
ScriptTemp.Push(MakeCommand(SS_CMD_PLAY, S_FindSound (sc.String)));
ScriptTemp.Push(MakeCommand(SS_CMD_WAITUNTILDONE, 0));
break;
case SS_STRING_PLAY:
sc.MustGetString ();
ScriptTemp.Push(MakeCommand(SS_CMD_PLAY, S_FindSound (sc.String)));
break;
case SS_STRING_PLAYTIME:
sc.MustGetString ();
ScriptTemp.Push(MakeCommand(SS_CMD_PLAY, S_FindSound (sc.String)));
sc.MustGetNumber ();
ScriptTemp.Push(MakeCommand(SS_CMD_DELAY, sc.Number));
break;
case SS_STRING_PLAYREPEAT:
sc.MustGetString ();
ScriptTemp.Push(MakeCommand (SS_CMD_PLAYREPEAT, S_FindSound (sc.String)));
break;
case SS_STRING_PLAYLOOP:
sc.MustGetString ();
ScriptTemp.Push(MakeCommand (SS_CMD_PLAYLOOP, S_FindSound (sc.String)));
sc.MustGetNumber ();
ScriptTemp.Push(sc.Number);
break;
case SS_STRING_DELAY:
sc.MustGetNumber ();
ScriptTemp.Push(MakeCommand(SS_CMD_DELAY, sc.Number));
break;
case SS_STRING_DELAYONCE:
sc.MustGetNumber ();
ScriptTemp.Push(MakeCommand(SS_CMD_DELAY, sc.Number));
ScriptTemp.Push(MakeCommand(SS_CMD_LAST2NOP, 0));
break;
case SS_STRING_DELAYRAND:
sc.MustGetNumber ();
delaybase = sc.Number;
ScriptTemp.Push(MakeCommand(SS_CMD_DELAYRAND, sc.Number));
sc.MustGetNumber ();
ScriptTemp.Push(MAX(1, sc.Number - delaybase + 1));
break;
case SS_STRING_VOLUME: // volume is in range 0..100
sc.MustGetFloat ();
ScriptTemp.Push(MakeCommand(SS_CMD_VOLUME, int(sc.Float * (65536.f / 100.f))));
break;
case SS_STRING_VOLUMEREL:
sc.MustGetFloat ();
ScriptTemp.Push(MakeCommand(SS_CMD_VOLUMEREL, int(sc.Float * (65536.f / 100.f))));
break;
case SS_STRING_VOLUMERAND:
sc.MustGetFloat ();
volumebase = float(sc.Float);
ScriptTemp.Push(MakeCommand(SS_CMD_VOLUMERAND, int(sc.Float * (65536.f / 100.f))));
sc.MustGetFloat ();
ScriptTemp.Push(int((sc.Float - volumebase) * (256/100.f)));
break;
case SS_STRING_STOPSOUND:
sc.MustGetString ();
stopsound = S_FindSound (sc.String);
ScriptTemp.Push(MakeCommand(SS_CMD_STOPSOUND, 0));
break;
case SS_STRING_NOSTOPCUTOFF:
stopsound = -1;
ScriptTemp.Push(MakeCommand(SS_CMD_STOPSOUND, 0));
break;
case SS_STRING_ATTENUATION:
if (sc.CheckFloat())
{
val = int(sc.Float*65536.);
}
else
{
sc.MustGetString ();
val = sc.MustMatchString(&Attenuations[0].name, sizeof(Attenuations[0])) * 65536;
}
ScriptTemp.Push(MakeCommand(SS_CMD_ATTENUATION, val));
break;
case SS_STRING_RANDOMSEQUENCE:
ScriptTemp.Push(MakeCommand(SS_CMD_RANDOMSEQUENCE, 0));
break;
case SS_STRING_RESTART:
ScriptTemp.Push(MakeCommand(SS_CMD_BRANCH, ScriptTemp.Size()));
break;
case SS_STRING_END:
AddSequence (curseq, seqname, slot, stopsound, ScriptTemp);
curseq = -1;
break;
case SS_STRING_PLATFORM:
AssignTranslations (sc, curseq, SEQ_PLATFORM);
break;
case SS_STRING_DOOR:
AssignTranslations (sc, curseq, SEQ_DOOR);
break;
case SS_STRING_ENVIRONMENT:
AssignTranslations (sc, curseq, SEQ_ENVIRONMENT);
break;
case SS_STRING_SLOT:
sc.MustGetString();
slot = sc.String;
break;
}
}
if (curseq > 0)
{
sc.ScriptError("End of file encountered before the final sequence ended.");
}
}
if (gameinfo.gametype == GAME_Hexen)
AssignHexenTranslations ();
}
static void AddSequence (int curseq, FName seqname, FName slot, int stopsound, const TArray<DWORD> &ScriptTemp)
{
Sequences[curseq] = (FSoundSequence *)M_Malloc (sizeof(FSoundSequence) + sizeof(DWORD)*ScriptTemp.Size());
Sequences[curseq]->SeqName = seqname;
Sequences[curseq]->Slot = slot;
Sequences[curseq]->StopSound = FSoundID(stopsound);
memcpy (Sequences[curseq]->Script, &ScriptTemp[0], sizeof(DWORD)*ScriptTemp.Size());
Sequences[curseq]->Script[ScriptTemp.Size()] = MakeCommand(SS_CMD_END, 0);
}
DSeqNode::DSeqNode (int sequence, int modenum)
: m_ModeNum(modenum), m_SequenceChoices(0)
{
ActivateSequence (sequence);
if (!SequenceListHead)
{
SequenceListHead = this;
m_Next = m_Prev = NULL;
}
else
{
SequenceListHead->m_Prev = this; GC::WriteBarrier(SequenceListHead->m_Prev, this);
m_Next = SequenceListHead; GC::WriteBarrier(this, SequenceListHead);
SequenceListHead = this;
m_Prev = NULL;
}
GC::WriteBarrier(this);
m_ParentSeqNode = m_ChildSeqNode = NULL;
}
void DSeqNode::ActivateSequence (int sequence)
{
m_SequencePtr = Sequences[sequence]->Script;
m_Sequence = sequence;
m_DelayUntilTic = 0;
m_StopSound = Sequences[sequence]->StopSound;
m_CurrentSoundID = 0;
m_Volume = 1; // Start at max volume...
m_Atten = ATTN_IDLE; // ...and idle attenuation
ActiveSequences++;
}
DSeqActorNode::DSeqActorNode (AActor *actor, int sequence, int modenum)
: DSeqNode (sequence, modenum),
m_Actor (actor)
{
}
DSeqPolyNode::DSeqPolyNode (FPolyObj *poly, int sequence, int modenum)
: DSeqNode (sequence, modenum),
m_Poly (poly)
{
}
DSeqSectorNode::DSeqSectorNode (sector_t *sec, int chan, int sequence, int modenum)
: DSeqNode (sequence, modenum),
Channel (chan),
m_Sector (sec)
{
}
//==========================================================================
//
// SN_StartSequence
//
//==========================================================================
static bool TwiddleSeqNum (int &sequence, seqtype_t type)
{
if (type < SEQ_NUMSEQTYPES)
{
// [GrafZahl] Needs some range checking:
// Sector_ChangeSound doesn't do it so this makes invalid sequences play nothing.
if (sequence >= 0 && sequence < 64)
{
sequence = SeqTrans[sequence + type * 64];
}
else
{
return false;
}
}
return ((size_t)sequence < Sequences.Size() && Sequences[sequence] != NULL);
}
DSeqNode *SN_StartSequence (AActor *actor, int sequence, seqtype_t type, int modenum, bool nostop)
{
if (!nostop)
{
SN_StopSequence (actor); // Stop any previous sequence
}
if (TwiddleSeqNum (sequence, type))
{
return new DSeqActorNode (actor, sequence, modenum);
}
return NULL;
}
DSeqNode *SN_StartSequence (sector_t *sector, int chan, int sequence, seqtype_t type, int modenum, bool nostop)
{
if (!nostop)
{
SN_StopSequence (sector, chan);
}
if (TwiddleSeqNum (sequence, type))
{
return new DSeqSectorNode (sector, chan, sequence, modenum);
}
return NULL;
}
DSeqNode *SN_StartSequence (FPolyObj *poly, int sequence, seqtype_t type, int modenum, bool nostop)
{
if (!nostop)
{
SN_StopSequence (poly);
}
if (TwiddleSeqNum (sequence, type))
{
return new DSeqPolyNode (poly, sequence, modenum);
}
return NULL;
}
//==========================================================================
//
// SN_StartSequence (named)
//
//==========================================================================
DSeqNode *SN_StartSequence (AActor *actor, const char *seqname, int modenum)
{
int seqnum = FindSequence(seqname);
if (seqnum >= 0)
{
return SN_StartSequence (actor, seqnum, SEQ_NOTRANS, modenum);
}
return NULL;
}
DSeqNode *SN_StartSequence (AActor *actor, FName seqname, int modenum)
{
int seqnum = FindSequence(seqname);
if (seqnum >= 0)
{
return SN_StartSequence (actor, seqnum, SEQ_NOTRANS, modenum);
}
return NULL;
}
DSeqNode *SN_StartSequence (sector_t *sec, int chan, const char *seqname, int modenum)
{
int seqnum = FindSequence(seqname);
if (seqnum >= 0)
{
return SN_StartSequence (sec, chan, seqnum, SEQ_NOTRANS, modenum);
}
return NULL;
}
DSeqNode *SN_StartSequence (sector_t *sec, int chan, FName seqname, int modenum)
{
int seqnum = FindSequence(seqname);
if (seqnum >= 0)
{
return SN_StartSequence (sec, chan, seqnum, SEQ_NOTRANS, modenum);
}
return NULL;
}
DSeqNode *SN_StartSequence (FPolyObj *poly, const char *seqname, int modenum)
{
int seqnum = FindSequence(seqname);
if (seqnum >= 0)
{
return SN_StartSequence (poly, seqnum, SEQ_NOTRANS, modenum);
}
return NULL;
}
static int FindSequence (const char *searchname)
{
FName seqname(searchname, true);
if (seqname != NAME_None)
{
return FindSequence(seqname);
}
return -1;
}
static int FindSequence (FName seqname)
{
for (int i = Sequences.Size(); i-- > 0; )
{
if (Sequences[i] != NULL && seqname == Sequences[i]->SeqName)
{
return i;
}
}
return -1;
}
//==========================================================================
//
// SN_CheckSequence
//
// Returns the sound sequence playing in the sector on the given channel,
// if any.
//
//==========================================================================
DSeqNode *SN_CheckSequence(sector_t *sector, int chan)
{
for (DSeqNode *node = DSeqNode::FirstSequence(); node; )
{
DSeqNode *next = node->NextSequence();
if (node->Source() == sector)
{
assert(node->IsKindOf(RUNTIME_CLASS(DSeqSectorNode)));
if ((static_cast<DSeqSectorNode *>(node)->Channel & 7) == chan)
{
return node;
}
}
node = next;
}
return NULL;
}
//==========================================================================
//
// SN_StopSequence
//
//==========================================================================
void SN_StopSequence (AActor *actor)
{
SN_DoStop (actor);
}
void SN_StopSequence (sector_t *sector, int chan)
{
DSeqNode *node = SN_CheckSequence(sector, chan);
if (node != NULL)
{
node->StopAndDestroy();
}
}
void SN_StopSequence (FPolyObj *poly)
{
SN_DoStop (poly);
}
void SN_DoStop (void *source)
{
DSeqNode *node;
for (node = DSeqNode::FirstSequence(); node; )
{
DSeqNode *next = node->NextSequence();
if (node->Source() == source)
{
node->StopAndDestroy ();
}
node = next;
}
}
void DSeqActorNode::Destroy ()
{
if (m_StopSound >= 0)
S_StopSound (m_Actor, CHAN_BODY);
if (m_StopSound >= 1)
MakeSound (0, m_StopSound);
Super::Destroy();
}
void DSeqSectorNode::Destroy ()
{
if (m_StopSound >= 0)
S_StopSound (m_Sector, Channel & 7);
if (m_StopSound >= 1)
MakeSound (0, m_StopSound);
Super::Destroy();
}
void DSeqPolyNode::Destroy ()
{
if (m_StopSound >= 0)
S_StopSound (m_Poly, CHAN_BODY);
if (m_StopSound >= 1)
MakeSound (0, m_StopSound);
Super::Destroy();
}
//==========================================================================
//
// SN_IsMakingLoopingSound
//
//==========================================================================
bool SN_IsMakingLoopingSound (sector_t *sector)
{
DSeqNode *node;
for (node = DSeqNode::FirstSequence (); node; )
{
DSeqNode *next = node->NextSequence();
if (node->Source() == (void *)sector)
{
return !!(static_cast<DSeqSectorNode *>(node)->Channel & CHAN_LOOP);
}
node = next;
}
return false;
}
//==========================================================================
//
// SN_UpdateActiveSequences
//
//==========================================================================
void DSeqNode::Tick ()
{
if (TIME_REFERENCE < m_DelayUntilTic)
{
return;
}
for (;;)
{
switch (GetCommand(*m_SequencePtr))
{
case SS_CMD_NONE:
m_SequencePtr++;
break;
case SS_CMD_PLAY:
if (!IsPlaying())
{
m_CurrentSoundID = FSoundID(GetData(*m_SequencePtr));
MakeSound (0, m_CurrentSoundID);
}
m_SequencePtr++;
break;
case SS_CMD_WAITUNTILDONE:
if (!IsPlaying())
{
m_SequencePtr++;
m_CurrentSoundID = 0;
}
else
{
return;
}
break;
case SS_CMD_PLAYREPEAT:
if (!IsPlaying())
{
// Does not advance sequencePtr, so it will repeat as necessary.
m_CurrentSoundID = FSoundID(GetData(*m_SequencePtr));
MakeSound (CHAN_LOOP, m_CurrentSoundID);
}
return;
case SS_CMD_PLAYLOOP:
// Like SS_CMD_PLAYREPEAT, sequencePtr is not advanced, so this
// command will repeat until the sequence is stopped.
m_CurrentSoundID = FSoundID(GetData(m_SequencePtr[0]));
MakeSound (0, m_CurrentSoundID);
m_DelayUntilTic = TIME_REFERENCE + m_SequencePtr[1];
return;
case SS_CMD_RANDOMSEQUENCE:
// If there's nothing to choose from, then there's nothing to do here.
if (m_SequenceChoices.Size() == 0)
{
m_SequencePtr++;
}
else if (m_ChildSeqNode == NULL)
{
int choice = pr_sndseq() % m_SequenceChoices.Size();
m_ChildSeqNode = SpawnChild (m_SequenceChoices[choice]);
GC::WriteBarrier(this, m_ChildSeqNode);
if (m_ChildSeqNode == NULL)
{ // Failed, so skip to next instruction.
m_SequencePtr++;
}
else
{ // Copy parameters to the child and link it to this one.
m_ChildSeqNode->m_Volume = m_Volume;
m_ChildSeqNode->m_Atten = m_Atten;
m_ChildSeqNode->m_ParentSeqNode = this;
return;
}
}
else
{
// If we get here, then the child sequence is playing, and it
// will advance our sequence pointer for us when it finishes.
return;
}
break;
case SS_CMD_DELAY:
m_DelayUntilTic = TIME_REFERENCE + GetData(*m_SequencePtr);
m_SequencePtr++;
m_CurrentSoundID = 0;
return;
case SS_CMD_DELAYRAND:
m_DelayUntilTic = TIME_REFERENCE + GetData(m_SequencePtr[0]) + pr_sndseq(m_SequencePtr[1]);
m_SequencePtr += 2;
m_CurrentSoundID = 0;
return;
case SS_CMD_VOLUME:
m_Volume = GetFloatData(*m_SequencePtr);
m_SequencePtr++;
break;
case SS_CMD_VOLUMEREL:
// like SS_CMD_VOLUME, but the new volume is added to the old volume
m_Volume += GetFloatData(*m_SequencePtr);
m_SequencePtr++;
break;
case SS_CMD_VOLUMERAND:
// like SS_CMD_VOLUME, but the new volume is chosen randomly from a range
m_Volume = GetFloatData(m_SequencePtr[0]) + (pr_sndseq() % m_SequencePtr[1]) / 255.f;
m_SequencePtr += 2;
break;
case SS_CMD_STOPSOUND:
// Wait until something else stops the sequence
return;
case SS_CMD_ATTENUATION:
m_Atten = GetFloatData(*m_SequencePtr);
m_SequencePtr++;
break;
case SS_CMD_BRANCH:
m_SequencePtr -= GetData(*m_SequencePtr);
break;
case SS_CMD_SELECT:
{ // Completely transfer control to the choice matching m_ModeNum.
// If no match is found, then just advance to the next command
// in this sequence, which should be SS_CMD_END.
int numchoices = GetData(*m_SequencePtr++);
int i;
for (i = 0; i < numchoices; ++i)
{
if (m_SequencePtr[i*2] == m_ModeNum)
{
int seqnum = FindSequence (ENamedName(m_SequencePtr[i*2+1]));
if (seqnum >= 0)
{ // Found a match, and it's a good one too.
ActiveSequences--;
ActivateSequence (seqnum);
break;
}
}
}
if (i == numchoices)
{ // No match (or no good match) was found.
m_SequencePtr += numchoices * 2;
}
}
break;
case SS_CMD_LAST2NOP:
*(m_SequencePtr - 1) = MakeCommand(SS_CMD_NONE, 0);
*m_SequencePtr = MakeCommand(SS_CMD_NONE, 0);
m_SequencePtr++;
break;
case SS_CMD_END:
Destroy ();
return;
default:
Printf ("Corrupted sound sequence: %s\n", Sequences[m_Sequence]->SeqName.GetChars());
Destroy ();
return;
}
}
}
void SN_UpdateActiveSequences (void)
{
DSeqNode *node;
if (!ActiveSequences || paused)
{ // No sequences currently playing/game is paused
return;
}
for (node = DSeqNode::FirstSequence(); node; node = node->NextSequence())
{
node->Tick ();
}
}
//==========================================================================
//
// SN_StopAllSequences
//
//==========================================================================
void SN_StopAllSequences (void)
{
DSeqNode *node;
for (node = DSeqNode::FirstSequence(); node; )
{
DSeqNode *next = node->NextSequence();
node->m_StopSound = 0; // don't play any stop sounds
node->Destroy ();
node = next;
}
}
//==========================================================================
//
// SN_GetSequenceOffset
//
//==========================================================================
ptrdiff_t SN_GetSequenceOffset (int sequence, SDWORD *sequencePtr)
{
return sequencePtr - Sequences[sequence]->Script;
}
//==========================================================================
//
// SN_GetSequenceSlot
//
//==========================================================================
FName SN_GetSequenceSlot (int sequence, seqtype_t type)
{
if (TwiddleSeqNum (sequence, type))
{
return Sequences[sequence]->Slot;
}
return NAME_None;
}
//==========================================================================
//
// SN_MarkPrecacheSounds
//
// Marks all sounds played by this sequence for precaching.
//
//==========================================================================
void SN_MarkPrecacheSounds(int sequence, seqtype_t type)
{
if (TwiddleSeqNum(sequence, type))
{
FSoundSequence *seq = Sequences[sequence];
seq->StopSound.MarkUsed();
for (int i = 0; GetCommand(seq->Script[i]) != SS_CMD_END; ++i)
{
int cmd = GetCommand(seq->Script[i]);
if (cmd == SS_CMD_PLAY || cmd == SS_CMD_PLAYREPEAT || cmd == SS_CMD_PLAYLOOP)
{
FSoundID(GetData(seq->Script[i])).MarkUsed();
}
}
}
}
//==========================================================================
//
// SN_ChangeNodeData
//
// nodeNum zero is the first node
//==========================================================================
void SN_ChangeNodeData (int nodeNum, int seqOffset, int delayTics, float volume,
int currentSoundID)
{
int i;
DSeqNode *node;
i = 0;
node = DSeqNode::FirstSequence();
while (node && i < nodeNum)
{
node = node->NextSequence();
i++;
}
if (!node)
{ // reached the end of the list before finding the nodeNum-th node
return;
}
node->ChangeData (seqOffset, delayTics, volume, currentSoundID);
}
void DSeqNode::ChangeData (int seqOffset, int delayTics, float volume, FSoundID currentSoundID)
{
m_DelayUntilTic = TIME_REFERENCE + delayTics;
m_Volume = volume;
m_SequencePtr += seqOffset;
m_CurrentSoundID = currentSoundID;
}
//==========================================================================
//
// FindMode
//
// Finds the sequence this sequence and mode combination selects.
//
//==========================================================================
static int FindMode(int seqnum, int mode)
{
if (seqnum <= 0)
{ // Sequence does not exist.
return seqnum;
}
FSoundSequence *seq = Sequences[seqnum];
if (GetCommand(seq->Script[0]) != SS_CMD_SELECT)
{ // This sequence doesn't select any others.
return seqnum;
}
// Search for the desired mode amongst the selections
int nummodes = GetData(seq->Script[0]);
for (int i = 0; i < nummodes; ++i)
{
if (seq->Script[1 + i*2] == mode)
{
return FindSequence(ENamedName(seq->Script[1 + i*2 + 1]));
}
}
// The mode isn't selected, which means it stays on this sequence.
return seqnum;
}
//==========================================================================
//
// FindModeDeep
//
// Finds the final sequence this sequence and mode combination selects.
//
//==========================================================================
static int FindModeDeep(int seqnum, int mode)
{
int newseqnum = FindMode(seqnum, mode);
while (newseqnum != seqnum)
{
seqnum = newseqnum;
newseqnum = FindMode(seqnum, mode);
}
return seqnum;
}
//==========================================================================
//
// SN_AreModesSame
//
// Returns true if mode1 and mode2 represent the same sequence.
//
//==========================================================================
bool SN_AreModesSame(int seqnum, seqtype_t type, int mode1, int mode2)
{
if (mode1 == mode2)
{ // Obviously they're the same.
return true;
}
if (TwiddleSeqNum(seqnum, type))
{
int mode1seq = FindModeDeep(seqnum, mode1);
int mode2seq = FindModeDeep(seqnum, mode2);
return mode1seq == mode2seq;
}
// The sequence doesn't exist, so that makes both modes equally nonexistant.
return true;
}
bool SN_AreModesSame(const char *name, int mode1, int mode2)
{
int seqnum = FindSequence(name);
if (seqnum >= 0)
{
return SN_AreModesSame(seqnum, SEQ_NOTRANS, mode1, mode2);
}
// The sequence doesn't exist, so that makes both modes equally nonexistant.
return true;
}
//==========================================================================
//
// CCMD playsequence
//
// Causes the player to play a sound sequence.
//==========================================================================
CCMD(playsequence)
{
if (argv.argc() < 2 || argv.argc() > 3)
{
Printf ("Usage: playsequence <sound sequence name> [choice number]\n");
}
else
{
SN_StartSequence (players[consoleplayer].mo, argv[1], argv.argc() > 2 ? atoi(argv[2]) : 0);
}
}