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dxx-rebirth/similar/main/digiobj.cpp
Kp 3d5de92058 Fix OS X clang build 
OS X still uses clang-14, which lacks sufficient std::ranges support for
recent Rebirth changes.

- Rewrite uses of std::ranges::SYMBOL to ranges::SYMBOL
- Add a stub header that, on gcc, provides for each SYMBOL a statement
  `using std::ranges::SYMBOL;`, to delegate back to the standard library
  implementation.
- On clang, define a minimal implementation of the required symbols,
  without constraint enforcement.  Compile-testing with gcc will catch
  constraint violations.

Once OS X clang ships a standard library with the required features,
this stub header will be removed and the uses changed back to their full
names.
2022-10-31 00:51:32 +00:00

841 lines
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/*
* Portions of this file are copyright Rebirth contributors and licensed as
* described in COPYING.txt.
* Portions of this file are copyright Parallax Software and licensed
* according to the Parallax license below.
* See COPYING.txt for license details.
THE COMPUTER CODE CONTAINED HEREIN IS THE SOLE PROPERTY OF PARALLAX
SOFTWARE CORPORATION ("PARALLAX"). PARALLAX, IN DISTRIBUTING THE CODE TO
END-USERS, AND SUBJECT TO ALL OF THE TERMS AND CONDITIONS HEREIN, GRANTS A
ROYALTY-FREE, PERPETUAL LICENSE TO SUCH END-USERS FOR USE BY SUCH END-USERS
IN USING, DISPLAYING, AND CREATING DERIVATIVE WORKS THEREOF, SO LONG AS
SUCH USE, DISPLAY OR CREATION IS FOR NON-COMMERCIAL, ROYALTY OR REVENUE
FREE PURPOSES. IN NO EVENT SHALL THE END-USER USE THE COMPUTER CODE
CONTAINED HEREIN FOR REVENUE-BEARING PURPOSES. THE END-USER UNDERSTANDS
AND AGREES TO THE TERMS HEREIN AND ACCEPTS THE SAME BY USE OF THIS FILE.
COPYRIGHT 1993-1999 PARALLAX SOFTWARE CORPORATION. ALL RIGHTS RESERVED.
*/
#include <algorithm>
#include <stdexcept>
#include <stdlib.h>
#include <stdio.h>
#include <fcntl.h>
#include <string.h>
#include <ctype.h>
#include "maths.h"
#include "object.h"
#include "timer.h"
#include "joy.h"
#include "digi.h"
#include "digi_audio.h"
#include "sounds.h"
#include "args.h"
#include "newdemo.h"
#include "gameseg.h"
#include "dxxerror.h"
#include "wall.h"
#include "piggy.h"
#include "kconfig.h"
#include "config.h"
#include "compiler-range_for.h"
#include "d_levelstate.h"
#include <iterator>
#include <utility>
using std::max;
namespace dcx {
namespace {
constexpr std::integral_constant<unsigned, 1> SOF_USED{}; // Set if this sample is used
constexpr std::integral_constant<unsigned, 4> SOF_LINK_TO_OBJ{}; // Sound is linked to a moving object. If object dies, then finishes play and quits.
constexpr std::integral_constant<unsigned, 8> SOF_LINK_TO_POS{}; // Sound is linked to segment, pos
constexpr std::integral_constant<unsigned, 16> SOF_PLAY_FOREVER{}; // Play forever (or until level is stopped), otherwise plays once
constexpr std::integral_constant<unsigned, 32> SOF_PERMANENT{}; // Part of the level, like a waterfall or fan
constexpr std::integral_constant<unsigned, 150> MAX_SOUND_OBJECTS{};
}
struct sound_object
{
short signature; // A unique signature to this sound
ubyte flags; // Used to tell if this slot is used and/or currently playing, and how long.
ubyte pad; // Keep alignment
fix max_volume; // Max volume that this sound is playing at
vm_distance max_distance; // The max distance that this sound can be heard at...
int volume; // Volume that this sound is playing at
sound_pan pan; // Pan value that this sound is playing at
int channel; // What channel this is playing on, -1 if not playing
short soundnum; // The sound number that is playing
int loop_start; // The start point of the loop. -1 means no loop
int loop_end; // The end point of the loop
union link {
constexpr link() :
pos{}
{
}
struct {
segnum_t segnum; // Used if SOF_LINK_TO_POS field is used
sidenum_t sidenum;
vms_vector position;
} pos;
struct {
objnum_t objnum; // Used if SOF_LINK_TO_OBJ field is used
object_signature_t objsignature;
} obj;
} link_type;
};
namespace {
using sound_objects_t = std::array<sound_object, MAX_SOUND_OBJECTS>;
static sound_objects_t SoundObjects;
static short next_signature=0;
static int N_active_sound_objects;
static void digi_kill_sound(sound_object &s)
{
s.flags = 0; // Mark as dead, so some other sound can use this sound
if (s.channel > -1) {
N_active_sound_objects--;
digi_stop_sound(std::exchange(s.channel, -1));
}
}
static std::pair<sound_objects_t::iterator, sound_objects_t::iterator> find_sound_object_flags0(sound_objects_t &SoundObjects)
{
const auto eso = SoundObjects.end();
const auto &&i = ranges::find(SoundObjects.begin(), eso, 0, &sound_object::flags);
return {i, eso};
}
static std::pair<sound_objects_t::iterator, sound_objects_t::iterator> find_sound_object(sound_objects_t &SoundObjects, const unsigned soundnum, const vcobjidx_t obj, const sound_stack once)
{
if (once == sound_stack::allow_stacking)
return find_sound_object_flags0(SoundObjects);
const auto eso = SoundObjects.end();
sound_objects_t::iterator free_sound_object = eso;
for (auto i = SoundObjects.begin(); i != eso; ++i)
{
constexpr uint8_t used_obj = SOF_USED | SOF_LINK_TO_OBJ;
auto &so = *i;
const auto flags = so.flags;
if (flags == 0)
free_sound_object = i;
else if (so.soundnum == soundnum && (flags & used_obj) == used_obj)
{
/* No check for a signature match here. If the signature
* matches, this sound will be reclaimed to prevent
* stacking. If the signature does not match, then the old
* sound is tied to a dead object and needs to be removed.
*/
if (so.link_type.obj.objnum == obj)
{
digi_kill_sound(so);
return {i, eso};
}
}
}
return {free_sound_object, eso};
}
}
}
namespace dsx {
/* Find the sound which actually equates to a sound number */
int digi_xlat_sound(int soundno)
{
if (soundno < 0)
return -1;
if (CGameArg.SysLowMem)
{
soundno = AltSounds[soundno];
if (soundno == 255)
return -1;
}
//Assert(Sounds[soundno] != 255); //if hit this, probably using undefined sound
if (Sounds[soundno] == 255)
return -1;
return Sounds[soundno];
}
namespace {
static int digi_unxlat_sound(int soundno)
{
if ( soundno < 0 ) return -1;
auto &table = (CGameArg.SysLowMem ? AltSounds : Sounds);
auto b = std::begin(table);
auto e = std::end(table);
auto i = std::find(b, e, soundno);
if (i != e)
return std::distance(b, i);
throw std::invalid_argument("sound not loaded");
}
static std::pair<int, sound_pan> digi_get_sound_loc(const vms_matrix &listener, const vms_vector &listener_pos, const vcsegptridx_t listener_seg, const vms_vector &sound_pos, const vcsegptridx_t sound_seg, fix max_volume, vm_distance max_distance)
{
vms_vector vector_to_sound;
fix angle_from_ear;
max_distance = (max_distance*5)/4; // Make all sounds travel 1.25 times as far.
// Warning: Made the vm_vec_normalized_dir be vm_vec_normalized_dir_quick and got illegal values to acos in the fang computation.
auto distance = vm_vec_normalized_dir_quick( vector_to_sound, sound_pos, listener_pos );
if (distance < max_distance ) {
int num_search_segs = f2i(max_distance/20);
if ( num_search_segs < 1 ) num_search_segs = 1;
auto path_distance = find_connected_distance(listener_pos, listener_seg, sound_pos, sound_seg, num_search_segs, WALL_IS_DOORWAY_FLAG::rendpast | WALL_IS_DOORWAY_FLAG::fly);
if ( path_distance > -1 ) {
const int volume = max_volume - fixdiv(path_distance,max_distance);
if (volume > 0)
{
angle_from_ear = vm_vec_delta_ang_norm(listener.rvec,vector_to_sound,listener.uvec);
auto cosang = fix_cos(angle_from_ear);
if (GameCfg.ReverseStereo) cosang *= -1;
return {volume, sound_pan{(cosang + F1_0) / 2}};
}
}
}
return {};
}
static void digi_update_sound_loc(const vms_matrix &listener, const vms_vector &listener_pos, const vcsegptridx_t listener_seg, const vms_vector &sound_pos, const vcsegptridx_t sound_seg, sound_object &so)
{
auto &&[volume, pan] = digi_get_sound_loc(listener, listener_pos, listener_seg, sound_pos, sound_seg, so.max_volume, so.max_distance);
so.volume = volume;
so.pan = pan;
}
}
void digi_play_sample_once( int soundno, fix max_volume )
{
if ( Newdemo_state == ND_STATE_RECORDING )
newdemo_record_sound( soundno );
soundno = digi_xlat_sound(soundno);
if (soundno < 0 ) return;
// start the sample playing
digi_start_sound(soundno, max_volume, sound_pan{0x7fff}, 0, -1, -1, sound_object_none);
}
void digi_play_sample( int soundno, fix max_volume )
{
if ( Newdemo_state == ND_STATE_RECORDING )
newdemo_record_sound( soundno );
soundno = digi_xlat_sound(soundno);
if (soundno < 0 ) return;
// start the sample playing
digi_start_sound(soundno, max_volume, sound_pan{0x7fff}, 0, -1, -1, sound_object_none);
}
void digi_play_sample_3d(int soundno, const sound_pan angle, int volume)
{
if ( Newdemo_state == ND_STATE_RECORDING ) {
newdemo_record_sound_3d_once( soundno, angle, volume );
}
soundno = digi_xlat_sound(soundno);
if (soundno < 0 ) return;
if (volume < 10 ) return;
// start the sample playing
digi_start_sound( soundno, volume, angle, 0, -1, -1, sound_object_none);
}
namespace {
static void SoundQ_init();
static void SoundQ_process();
static void SoundQ_pause();
}
void digi_init_sounds()
{
SoundQ_init();
digi_stop_all_channels();
digi_stop_looping_sound();
range_for (auto &i, SoundObjects)
{
i.channel = -1;
i.flags = 0; // Mark as dead, so some other sound can use this sound
}
N_active_sound_objects = 0;
}
namespace {
// plays a sample that loops forever.
// Call digi_stop_channe(channel) to stop it.
// Call digi_set_channel_volume(channel, volume) to change volume.
// if loop_start is -1, entire sample loops
// Returns the channel that sound is playing on, or -1 if can't play.
// This could happen because of no sound drivers loaded or not enough channels.
static int digi_looping_sound = -1;
static int digi_looping_volume;
static int digi_looping_start = -1;
static int digi_looping_end = -1;
static int digi_looping_channel = -1;
static void digi_play_sample_looping_sub()
{
if ( digi_looping_sound > -1 )
digi_looping_channel = digi_start_sound( digi_looping_sound, digi_looping_volume, sound_pan{0x7fff}, 1, digi_looping_start, digi_looping_end, sound_object_none);
}
}
void digi_play_sample_looping( int soundno, fix max_volume,int loop_start, int loop_end )
{
soundno = digi_xlat_sound(soundno);
if (soundno < 0 ) return;
if (digi_looping_channel>-1)
digi_stop_sound( digi_looping_channel );
digi_looping_sound = soundno;
digi_looping_volume = max_volume;
digi_looping_start = loop_start;
digi_looping_end = loop_end;
digi_play_sample_looping_sub();
}
void digi_change_looping_volume( fix volume )
{
digi_looping_volume = volume;
if ( digi_looping_channel > -1 )
digi_set_channel_volume( digi_looping_channel, volume );
}
namespace {
static void digi_pause_looping_sound()
{
const auto c = digi_looping_channel;
if (c > -1)
{
digi_looping_channel = -1;
digi_stop_sound(c);
}
}
}
void digi_stop_looping_sound()
{
digi_looping_sound = -1;
digi_pause_looping_sound();
}
namespace {
static void digi_unpause_looping_sound()
{
digi_play_sample_looping_sub();
}
}
//hack to not start object when loading level
int Dont_start_sound_objects = 0;
namespace {
static void digi_start_sound_object(sound_object &s)
{
// start sample structures
s.channel = -1;
if ( s.volume <= 0 )
return;
if ( Dont_start_sound_objects )
return;
// only use up to half the sound channels for "permanent" sounts
if ((s.flags & SOF_PERMANENT) && (N_active_sound_objects >= max(1, digi_max_channels / 4)))
return;
// start the sample playing
s.channel = digi_start_sound( s.soundnum,
s.volume,
s.pan,
s.flags & SOF_PLAY_FOREVER,
s.loop_start,
s.loop_end, &s);
if (s.channel > -1 )
N_active_sound_objects++;
}
static void digi_link_sound_common(const object_base &viewer, sound_object &so, const vms_vector &pos, const int forever, const fix max_volume, const vm_distance max_distance, const int soundnum, const vcsegptridx_t segnum)
{
so.signature=next_signature++;
if ( forever )
so.flags |= SOF_PLAY_FOREVER;
so.soundnum = soundnum;
so.max_volume = max_volume;
so.max_distance = max_distance;
so.volume = 0;
so.pan = {};
if (Dont_start_sound_objects) { //started at level start
so.flags |= SOF_PERMANENT;
so.channel = -1;
}
else
{
digi_update_sound_loc(viewer.orient, viewer.pos, segnum.absolute_sibling(viewer.segnum), pos, segnum, so);
digi_start_sound_object(so);
// If it's a one-shot sound effect, and it can't start right away, then
// just cancel it and be done with it.
if ( (so.channel < 0) && (!(so.flags & SOF_PLAY_FOREVER)) ) {
so.flags = 0;
return;
}
}
}
}
void digi_link_sound_to_object3(const unsigned org_soundnum, const vcobjptridx_t objnum, const uint8_t forever, const fix max_volume, const sound_stack once, const vm_distance max_distance, const int loop_start, const int loop_end)
{
auto &viewer = *Viewer;
int soundnum;
soundnum = digi_xlat_sound(org_soundnum);
if (max_volume < 0)
return;
// if ( max_volume > F1_0 ) max_volume = F1_0;
if (soundnum < 0)
return;
if (GameSounds[soundnum].data==NULL) {
Int3();
return;
}
if ( Newdemo_state == ND_STATE_RECORDING ) {
if ( !forever ) { // forever flag is not recorded, use original limited sound objects hack for demo recording
auto segnum = vcsegptridx(objnum->segnum);
const auto &&[volume, pan] = digi_get_sound_loc(viewer.orient, viewer.pos, segnum.absolute_sibling(viewer.segnum),
objnum->pos, segnum, max_volume,
max_distance);
newdemo_record_sound_3d_once( org_soundnum, pan, volume );
} else
newdemo_record_link_sound_to_object3( org_soundnum, objnum, max_volume, max_distance, loop_start, loop_end );
}
const auto &&f = find_sound_object(SoundObjects, soundnum, objnum, once);
if (f.first == f.second)
return;
auto &so = *f.first;
so.flags = SOF_USED | SOF_LINK_TO_OBJ;
so.link_type.obj.objnum = objnum;
so.link_type.obj.objsignature = objnum->signature;
so.loop_start = loop_start;
so.loop_end = loop_end;
digi_link_sound_common(viewer, so, objnum->pos, forever, max_volume, max_distance, soundnum, vcsegptridx(objnum->segnum));
}
void digi_link_sound_to_object2(const unsigned soundnum, const vcobjptridx_t objnum, const uint8_t forever, const fix max_volume, const sound_stack once, const vm_distance max_distance)
{
digi_link_sound_to_object3(soundnum, objnum, forever, max_volume, once, max_distance, -1, -1);
}
void digi_link_sound_to_object(const unsigned soundnum, const vcobjptridx_t objnum, const uint8_t forever, const fix max_volume, const sound_stack once)
{
digi_link_sound_to_object2(soundnum, objnum, forever, max_volume, once, vm_distance{256*F1_0});
}
namespace {
static void digi_link_sound_to_pos2(const int org_soundnum, const vcsegptridx_t segnum, const sidenum_t sidenum, const vms_vector &pos, int forever, fix max_volume, const vm_distance max_distance)
{
auto &viewer = *Viewer;
int soundnum;
soundnum = digi_xlat_sound(org_soundnum);
if (max_volume < 0)
return;
// if ( max_volume > F1_0 ) max_volume = F1_0;
if (soundnum < 0)
return;
if (GameSounds[soundnum].data==NULL) {
Int3();
return;
}
if (!forever)
{
// Hack to keep sounds from building up...
const auto &&[volume, pan] = digi_get_sound_loc(viewer.orient, viewer.pos, segnum.absolute_sibling(viewer.segnum), pos, segnum, max_volume, max_distance);
digi_play_sample_3d(org_soundnum, pan, volume);
return;
}
auto f = find_sound_object_flags0(SoundObjects);
if (f.first == f.second)
return;
auto &so = *f.first;
so.flags = SOF_USED | SOF_LINK_TO_POS;
so.link_type.pos.segnum = segnum;
so.link_type.pos.sidenum = sidenum;
so.link_type.pos.position = pos;
so.loop_start = so.loop_end = -1;
digi_link_sound_common(viewer, so, pos, forever, max_volume, max_distance, soundnum, segnum);
}
}
void digi_link_sound_to_pos(const unsigned soundnum, const vcsegptridx_t segnum, const sidenum_t sidenum, const vms_vector &pos, const int forever, const fix max_volume)
{
digi_link_sound_to_pos2(soundnum, segnum, sidenum, pos, forever, max_volume, vm_distance{F1_0 * 256});
}
//if soundnum==-1, kill any sound
void digi_kill_sound_linked_to_segment(const vmsegidx_t segnum, const sidenum_t sidenum, int soundnum)
{
if (soundnum != -1)
soundnum = digi_xlat_sound(soundnum);
range_for (auto &i, SoundObjects)
{
if ( (i.flags & SOF_USED) && (i.flags & SOF_LINK_TO_POS) ) {
if ((i.link_type.pos.segnum == segnum) && (i.link_type.pos.sidenum==sidenum) && (soundnum==-1 || i.soundnum==soundnum )) {
digi_kill_sound(i);
}
}
}
}
void digi_kill_sound_linked_to_object(const vcobjptridx_t objnum)
{
if ( Newdemo_state == ND_STATE_RECORDING ) {
newdemo_record_kill_sound_linked_to_object( objnum );
}
range_for (auto &i, SoundObjects)
{
if ( (i.flags & SOF_USED) && (i.flags & SOF_LINK_TO_OBJ ) ) {
if (i.link_type.obj.objnum == objnum) {
digi_kill_sound(i);
}
}
}
}
namespace {
// John's new function, 2/22/96.
static void digi_record_sound_objects()
{
range_for (auto &s, SoundObjects)
{
if ((s.flags & SOF_USED) && (s.flags & SOF_LINK_TO_OBJ) && (s.flags & SOF_PLAY_FOREVER))
{
newdemo_record_link_sound_to_object3( digi_unxlat_sound(s.soundnum), s.link_type.obj.objnum,
s.max_volume, s.max_distance, s.loop_start, s.loop_end );
}
}
}
static int was_recording = 0;
}
void digi_sync_sounds()
{
int oldvolume;
if ( Newdemo_state == ND_STATE_RECORDING) {
if ( !was_recording ) {
digi_record_sound_objects();
}
was_recording = 1;
} else {
was_recording = 0;
}
SoundQ_process();
if (!Viewer)
return;
auto &Objects = LevelUniqueObjectState.Objects;
auto &vcobjptr = Objects.vcptr;
const auto viewer = Viewer;
range_for (auto &s, SoundObjects)
{
if (s.flags & SOF_USED)
{
oldvolume = s.volume;
const auto oldpan = s.pan;
if ( !(s.flags & SOF_PLAY_FOREVER) ) {
// Check if its done.
if (s.channel > -1 ) {
if ( !digi_is_channel_playing(s.channel) ) {
digi_end_sound( s.channel );
s.flags = 0; // Mark as dead, so some other sound can use this sound
N_active_sound_objects--;
continue; // Go on to next sound...
}
}
}
if ( s.flags & SOF_LINK_TO_POS ) {
digi_update_sound_loc(viewer->orient, viewer->pos, vcsegptridx(viewer->segnum), s.link_type.pos.position, vcsegptridx(s.link_type.pos.segnum), s);
} else if ( s.flags & SOF_LINK_TO_OBJ ) {
const object &objp = [&vcobjptr, &s]{
if (Newdemo_state != ND_STATE_PLAYBACK)
return vcobjptr(s.link_type.obj.objnum);
auto objnum = newdemo_find_object(s.link_type.obj.objsignature);
if (objnum != object_none)
return static_cast<vcobjptr_t>(objnum);
return vcobjptr(object_first);
}();
if ((objp.type==OBJ_NONE) || (objp.signature!=s.link_type.obj.objsignature)) {
// The object that this is linked to is dead, so just end this sound if it is looping.
if ( s.channel>-1 ) {
if (s.flags & SOF_PLAY_FOREVER)
digi_stop_sound( s.channel );
else
digi_end_sound( s.channel );
N_active_sound_objects--;
}
s.flags = 0; // Mark as dead, so some other sound can use this sound
continue; // Go on to next sound...
} else {
digi_update_sound_loc(viewer->orient, viewer->pos, vcsegptridx(viewer->segnum), objp.pos, vcsegptridx(objp.segnum), s);
}
}
if (oldvolume != s.volume) {
if ( s.volume < 1 ) {
// Sound is too far away, so stop it from playing.
const auto c = s.channel;
if (c > -1)
{
s.channel = -1;
if (s.flags & SOF_PLAY_FOREVER)
digi_stop_sound(c);
else
digi_end_sound(c);
N_active_sound_objects--;
}
if (! (s.flags & SOF_PLAY_FOREVER)) {
s.flags = 0; // Mark as dead, so some other sound can use this sound
continue;
}
} else {
if (s.channel<0) {
digi_start_sound_object(s);
} else {
digi_set_channel_volume( s.channel, s.volume );
}
}
}
if (oldpan != s.pan) {
if (s.channel>-1)
digi_set_channel_pan( s.channel, s.pan );
}
}
}
}
void digi_pause_digi_sounds()
{
digi_pause_looping_sound();
range_for (auto &s, SoundObjects)
{
if (!(s.flags & SOF_USED))
continue;
const auto c = s.channel;
if (c > -1)
{
s.channel = -1;
if (! (s.flags & SOF_PLAY_FOREVER))
s.flags = 0; // Mark as dead, so some other sound can use this sound
N_active_sound_objects--;
digi_stop_sound(c);
}
}
digi_stop_all_channels();
SoundQ_pause();
}
void digi_resume_digi_sounds()
{
digi_sync_sounds(); //don't think we really need to do this, but can't hurt
digi_unpause_looping_sound();
}
// Called by the code in digi.c when another sound takes this sound object's
// slot because the sound was done playing.
void digi_end_soundobj(sound_object &s)
{
Assert(s.flags & SOF_USED);
Assert(s.channel > -1);
N_active_sound_objects--;
s.channel = -1;
}
void digi_stop_digi_sounds()
{
digi_stop_looping_sound();
range_for (auto &s, SoundObjects)
{
if (s.flags & SOF_USED)
{
if ( s.channel > -1 ) {
digi_stop_sound( s.channel );
N_active_sound_objects--;
}
s.flags = 0; // Mark as dead, so some other sound can use this sound
}
}
digi_stop_all_channels();
SoundQ_init();
}
#ifndef NDEBUG
int verify_sound_channel_free( int channel )
{
const auto predicate = [channel](const sound_object &s) {
return (s.flags & SOF_USED) && s.channel == channel;
};
if (std::any_of(SoundObjects.begin(), SoundObjects.end(), predicate))
throw std::runtime_error("sound busy");
return 0;
}
#endif
int SoundQ_channel;
namespace {
struct sound_q
{
fix64 time_added;
int soundnum;
};
#define MAX_LIFE F1_0*30 // After being queued for 30 seconds, don't play it
static int SoundQ_head, SoundQ_tail, SoundQ_num;
static std::array<sound_q, 32> SoundQ;
void SoundQ_init()
{
SoundQ_head = SoundQ_tail = 0;
SoundQ_num = 0;
SoundQ_channel = -1;
}
void SoundQ_pause()
{
SoundQ_channel = -1;
}
}
void SoundQ_end()
{
// Current playing sound is stopped, so take it off the Queue
SoundQ_head = (SoundQ_head+1);
if (SoundQ_head >= SoundQ.size())
SoundQ_head = 0;
SoundQ_num--;
SoundQ_channel = -1;
}
namespace {
void SoundQ_process()
{
if ( SoundQ_channel > -1 ) {
if ( digi_is_channel_playing(SoundQ_channel) )
return;
SoundQ_end();
}
while ( SoundQ_head != SoundQ_tail ) {
sound_q * q = &SoundQ[SoundQ_head];
if ( q->time_added+MAX_LIFE > timer_query() ) {
SoundQ_channel = digi_start_sound(q->soundnum, F1_0+1, sound_pan{0x7fff}, 0, -1, -1, sound_object_none);
return;
} else {
// expired; remove from Queue
SoundQ_end();
}
}
}
}
void digi_start_sound_queued( short soundnum, fix volume )
{
int i;
soundnum = digi_xlat_sound(soundnum);
if (soundnum < 0 ) return;
i = SoundQ_tail+1;
if (i >= SoundQ.size())
i = 0;
// Make sure its loud so it doesn't get cancelled!
if ( volume < F1_0+1 )
volume = F1_0 + 1;
if ( i != SoundQ_head ) {
SoundQ[SoundQ_tail].time_added = timer_query();
SoundQ[SoundQ_tail].soundnum = soundnum;
SoundQ_num++;
SoundQ_tail = i;
}
// Try to start it!
SoundQ_process();
}
}
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