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qzdoom-gpl/src/sound/fmodsound.cpp
Randy Heit 16781e47ae Use a 64k stream buffer for all streams, not just net streams 
- FLACs need a larger buffer than the default to run without starving on
  later versions of FMOD.
2016-01-14 20:41:09 -06:00

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/*
** fmodsound.cpp
** System interface for sound; uses FMOD Ex.
**
**---------------------------------------------------------------------------
** Copyright 1998-2009 Randy Heit
** All rights reserved.
**
** Redistribution and use in source and binary forms, with or without
** modification, are permitted provided that the following conditions
** are met:
**
** 1. Redistributions of source code must retain the above copyright
** notice, this list of conditions and the following disclaimer.
** 2. Redistributions in binary form must reproduce the above copyright
** notice, this list of conditions and the following disclaimer in the
** documentation and/or other materials provided with the distribution.
** 3. The name of the author may not be used to endorse or promote products
** derived from this software without specific prior written permission.
**
** THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
** IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
** OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
** IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
** INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
** NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
** DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
** THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
** (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
** THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
**---------------------------------------------------------------------------
**
*/
// HEADER FILES ------------------------------------------------------------
#ifdef _WIN32
#define WIN32_LEAN_AND_MEAN
#include <windows.h>
#include <mmsystem.h>
extern HWND Window;
#define USE_WINDOWS_DWORD
#else
#define FALSE 0
#define TRUE 1
#endif
#if defined(__FreeBSD__) || defined(__APPLE__)
#include <stdlib.h>
#elif __sun
#include <alloca.h>
#else
#include <malloc.h>
#endif
#include "except.h"
#include "templates.h"
#include "fmodsound.h"
#include "c_cvars.h"
#include "i_system.h"
#include "i_music.h"
#include "v_text.h"
#include "v_video.h"
#include "v_palette.h"
#include "cmdlib.h"
#include "s_sound.h"
#include "files.h"
#if FMOD_VERSION > 0x42899 && FMOD_VERSION < 0x43400
#error You are trying to compile with an unsupported version of FMOD.
#endif
// MACROS ------------------------------------------------------------------
// killough 2/21/98: optionally use varying pitched sounds
#define PITCH(freq,pitch) (snd_pitched ? ((freq)*(pitch))/128.f : float(freq))
// Just some extra for music and whatever
#define NUM_EXTRA_SOFTWARE_CHANNELS 1
#define MAX_CHANNELS 256
#define SPECTRUM_SIZE 256
// PUBLIC DATA DEFINITIONS -------------------------------------------------
ReverbContainer *ForcedEnvironment;
CVAR (Int, snd_driver, 0, CVAR_ARCHIVE|CVAR_GLOBALCONFIG)
CVAR (Int, snd_buffercount, 0, CVAR_ARCHIVE|CVAR_GLOBALCONFIG)
CVAR (Bool, snd_hrtf, false, CVAR_ARCHIVE|CVAR_GLOBALCONFIG)
CVAR (Bool, snd_waterreverb, true, CVAR_ARCHIVE|CVAR_GLOBALCONFIG)
CVAR (String, snd_resampler, "Linear", CVAR_ARCHIVE|CVAR_GLOBALCONFIG)
CVAR (String, snd_speakermode, "Auto", CVAR_ARCHIVE|CVAR_GLOBALCONFIG)
CVAR (String, snd_output_format, "PCM-16", CVAR_ARCHIVE|CVAR_GLOBALCONFIG)
CVAR (String, snd_midipatchset, "", CVAR_ARCHIVE|CVAR_GLOBALCONFIG)
CVAR (Bool, snd_profile, false, 0)
// Underwater low-pass filter cutoff frequency. Set to 0 to disable the filter.
CUSTOM_CVAR (Float, snd_waterlp, 250, CVAR_ARCHIVE|CVAR_GLOBALCONFIG)
{
// Clamp to the DSP unit's limits.
if (*self < 10 && *self != 0)
{
self = 10;
}
else if (*self > 22000)
{
self = 22000;
}
}
#ifndef NO_FMOD
#if FMOD_VERSION < 0x43400
#define FMOD_OPENSTATE_PLAYING FMOD_OPENSTATE_STREAMING
#endif
// TYPES -------------------------------------------------------------------
struct FEnumList
{
const char *Name;
int Value;
};
// EXTERNAL FUNCTION PROTOTYPES --------------------------------------------
// PUBLIC FUNCTION PROTOTYPES ----------------------------------------------
// PRIVATE FUNCTION PROTOTYPES ---------------------------------------------
static int Enum_NumForName(const FEnumList *list, const char *name);
static const char *Enum_NameForNum(const FEnumList *list, int num);
// EXTERNAL DATA DECLARATIONS ----------------------------------------------
EXTERN_CVAR (String, snd_output)
EXTERN_CVAR (Float, snd_sfxvolume)
EXTERN_CVAR (Float, snd_musicvolume)
EXTERN_CVAR (Int, snd_buffersize)
EXTERN_CVAR (Int, snd_samplerate)
EXTERN_CVAR (Bool, snd_pitched)
EXTERN_CVAR (Int, snd_channels)
extern int sfx_empty;
// PRIVATE DATA DEFINITIONS ------------------------------------------------
static const ReverbContainer *PrevEnvironment;
static bool ShowedBanner;
// The rolloff callback is called during FMOD::Sound::play, so we need this
// global variable to contain the sound info during that time for the
// callback.
static FRolloffInfo *GRolloff;
static float GDistScale;
// In the below lists, duplicate entries are for user selection. When
// queried, only the first one for the particular value is shown.
static const FEnumList OutputNames[] =
{
{ "Auto", FMOD_OUTPUTTYPE_AUTODETECT },
{ "Default", FMOD_OUTPUTTYPE_AUTODETECT },
{ "No sound", FMOD_OUTPUTTYPE_NOSOUND },
// Windows
{ "DirectSound", FMOD_OUTPUTTYPE_DSOUND },
{ "DSound", FMOD_OUTPUTTYPE_DSOUND },
{ "Windows Multimedia", FMOD_OUTPUTTYPE_WINMM },
{ "WinMM", FMOD_OUTPUTTYPE_WINMM },
{ "WaveOut", FMOD_OUTPUTTYPE_WINMM },
{ "WASAPI", FMOD_OUTPUTTYPE_WASAPI },
{ "ASIO", FMOD_OUTPUTTYPE_ASIO },
// Linux
{ "OSS", FMOD_OUTPUTTYPE_OSS },
{ "ALSA", FMOD_OUTPUTTYPE_ALSA },
{ "ESD", FMOD_OUTPUTTYPE_ESD },
#if FMOD_VERSION >= 0x43400
{ "PulseAudio", FMOD_OUTPUTTYPE_PULSEAUDIO },
{ "Pulse", FMOD_OUTPUTTYPE_PULSEAUDIO },
#endif
{ "SDL", 666 },
// Mac
{ "Core Audio", FMOD_OUTPUTTYPE_COREAUDIO },
{ NULL, 0 }
};
static const FEnumList SpeakerModeNames[] =
{
{ "Mono", FMOD_SPEAKERMODE_MONO },
{ "Stereo", FMOD_SPEAKERMODE_STEREO },
{ "Quad", FMOD_SPEAKERMODE_QUAD },
{ "Surround", FMOD_SPEAKERMODE_SURROUND },
{ "5.1", FMOD_SPEAKERMODE_5POINT1 },
{ "7.1", FMOD_SPEAKERMODE_7POINT1 },
#if FMOD_VERSION < 0x44000
{ "Prologic", FMOD_SPEAKERMODE_PROLOGIC },
#endif
{ "1", FMOD_SPEAKERMODE_MONO },
{ "2", FMOD_SPEAKERMODE_STEREO },
{ "4", FMOD_SPEAKERMODE_QUAD },
{ NULL, 0 }
};
static const FEnumList ResamplerNames[] =
{
{ "No Interpolation", FMOD_DSP_RESAMPLER_NOINTERP },
{ "NoInterp", FMOD_DSP_RESAMPLER_NOINTERP },
{ "Linear", FMOD_DSP_RESAMPLER_LINEAR },
// [BL] 64-bit version of FMOD Ex 4.26 crashes with these resamplers.
#if !(defined(_M_X64) || defined(__amd64__)) || !(FMOD_VERSION >= 0x42600 && FMOD_VERSION <= 0x426FF)
{ "Cubic", FMOD_DSP_RESAMPLER_CUBIC },
{ "Spline", FMOD_DSP_RESAMPLER_SPLINE },
#endif
{ NULL, 0 }
};
static const FEnumList SoundFormatNames[] =
{
{ "None", FMOD_SOUND_FORMAT_NONE },
{ "PCM-8", FMOD_SOUND_FORMAT_PCM8 },
{ "PCM-16", FMOD_SOUND_FORMAT_PCM16 },
{ "PCM-24", FMOD_SOUND_FORMAT_PCM24 },
{ "PCM-32", FMOD_SOUND_FORMAT_PCM32 },
{ "PCM-Float", FMOD_SOUND_FORMAT_PCMFLOAT },
{ "GCADPCM", FMOD_SOUND_FORMAT_GCADPCM },
{ "IMAADPCM", FMOD_SOUND_FORMAT_IMAADPCM },
{ "VAG", FMOD_SOUND_FORMAT_VAG },
{ "XMA", FMOD_SOUND_FORMAT_XMA },
{ "MPEG", FMOD_SOUND_FORMAT_MPEG },
{ NULL, 0 }
};
static const char *OpenStateNames[] =
{
"Ready",
"Loading",
"Error",
"Connecting",
"Buffering",
"Seeking",
"Streaming"
};
const FMODSoundRenderer::spk FMODSoundRenderer::SpeakerNames4[4] = { "L", "R", "BL", "BR" };
const FMODSoundRenderer::spk FMODSoundRenderer::SpeakerNamesMore[8] = { "L", "R", "C", "LFE", "BL", "BR", "SL", "SR" };
// CODE --------------------------------------------------------------------
//==========================================================================
//
// Enum_NumForName
//
// Returns the value of an enum name, or -1 if not found.
//
//==========================================================================
static int Enum_NumForName(const FEnumList *list, const char *name)
{
while (list->Name != NULL)
{
if (stricmp(list->Name, name) == 0)
{
return list->Value;
}
list++;
}
return -1;
}
//==========================================================================
//
// Enum_NameForNum
//
// Returns the name of an enum value. If there is more than one name for a
// value, on the first one in the list is returned. Returns NULL if there
// was no match.
//
//==========================================================================
static const char *Enum_NameForNum(const FEnumList *list, int num)
{
while (list->Name != NULL)
{
if (list->Value == num)
{
return list->Name;
}
list++;
}
return NULL;
}
//==========================================================================
//
// The container for a streaming FMOD::Sound, for playing music.
//
//==========================================================================
class FMODStreamCapsule : public SoundStream
{
public:
FMODStreamCapsule(FMOD::Sound *stream, FMODSoundRenderer *owner, const char *url)
: Owner(owner), Stream(NULL), Channel(NULL),
UserData(NULL), Callback(NULL), Reader(NULL), URL(url), Ended(false)
{
SetStream(stream);
}
FMODStreamCapsule(FMOD::Sound *stream, FMODSoundRenderer *owner, FileReader *reader)
: Owner(owner), Stream(NULL), Channel(NULL),
UserData(NULL), Callback(NULL), Reader(reader), Ended(false)
{
SetStream(stream);
}
FMODStreamCapsule(void *udata, SoundStreamCallback callback, FMODSoundRenderer *owner)
: Owner(owner), Stream(NULL), Channel(NULL),
UserData(udata), Callback(callback), Reader(NULL), Ended(false)
{}
~FMODStreamCapsule()
{
if (Channel != NULL)
{
Channel->stop();
}
if (Stream != NULL)
{
Stream->release();
}
if (Reader != NULL)
{
delete Reader;
}
}
void SetStream(FMOD::Sound *stream)
{
float frequency;
Stream = stream;
// As this interface is for music, make it super-high priority.
if (FMOD_OK == stream->getDefaults(&frequency, NULL, NULL, NULL))
{
stream->setDefaults(frequency, 1, 0, 0);
}
}
bool Play(bool looping, float volume)
{
FMOD_RESULT result;
if (URL.IsNotEmpty())
{ // Net streams cannot be looped, because they cannot be seeked.
looping = false;
}
Stream->setMode((looping ? FMOD_LOOP_NORMAL : FMOD_LOOP_OFF) | FMOD_SOFTWARE | FMOD_2D);
result = Owner->Sys->playSound(FMOD_CHANNEL_FREE, Stream, true, &Channel);
if (result != FMOD_OK)
{
return false;
}
Channel->setChannelGroup(Owner->MusicGroup);
Channel->setSpeakerMix(1, 1, 1, 1, 1, 1, 1, 1);
Channel->setVolume(volume);
// Ensure reverb is disabled.
FMOD_REVERB_CHANNELPROPERTIES reverb = { 0, };
if (FMOD_OK == Channel->getReverbProperties(&reverb))
{
reverb.Room = -10000;
Channel->setReverbProperties(&reverb);
}
Channel->setPaused(false);
Ended = false;
JustStarted = true;
Starved = false;
Loop = looping;
Volume = volume;
return true;
}
void Stop()
{
if (Channel != NULL)
{
Channel->stop();
Channel = NULL;
}
}
bool SetPaused(bool paused)
{
if (Channel != NULL)
{
return FMOD_OK == Channel->setPaused(paused);
}
return false;
}
unsigned int GetPosition()
{
unsigned int pos;
if (Channel != NULL && FMOD_OK == Channel->getPosition(&pos, FMOD_TIMEUNIT_MS))
{
return pos;
}
return 0;
}
bool IsEnded()
{
bool is;
FMOD_OPENSTATE openstate = FMOD_OPENSTATE_MAX;
bool starving;
#if FMOD_VERSION >= 0x43400
bool diskbusy;
#endif
if (Stream == NULL)
{
return true;
}
#if FMOD_VERSION < 0x43400
if (FMOD_OK != Stream->getOpenState(&openstate, NULL, &starving))
#else
if (FMOD_OK != Stream->getOpenState(&openstate, NULL, &starving, &diskbusy))
#endif
{
openstate = FMOD_OPENSTATE_ERROR;
}
if (openstate == FMOD_OPENSTATE_ERROR)
{
if (Channel != NULL)
{
Channel->stop();
Channel = NULL;
}
return true;
}
if (Channel != NULL && (FMOD_OK != Channel->isPlaying(&is) || is == false))
{
return true;
}
if (Ended)
{
Channel->stop();
Channel = NULL;
return true;
}
if (URL.IsNotEmpty() && !JustStarted && openstate == FMOD_OPENSTATE_READY)
{
// Reconnect the stream, since it seems to have stalled.
// The only way to do this appears to be to completely recreate it.
FMOD_RESULT result;
Channel->stop();
Stream->release();
Channel = NULL;
Stream = NULL;
// Open the stream asynchronously, so we don't hang the game while trying to reconnect.
// (It would be nice to do the initial open asynchronously as well, but I'd need to rethink
// the music system design to pull that off.)
result = Owner->Sys->createSound(URL, (Loop ? FMOD_LOOP_NORMAL : FMOD_LOOP_OFF) | FMOD_SOFTWARE | FMOD_2D |
FMOD_CREATESTREAM | FMOD_NONBLOCKING, NULL, &Stream);
JustStarted = true;
return result != FMOD_OK;
}
if (JustStarted && openstate == FMOD_OPENSTATE_PLAYING)
{
JustStarted = false;
}
if (JustStarted && Channel == NULL && openstate == FMOD_OPENSTATE_READY)
{
return !Play(Loop, Volume);
}
if (starving != Starved)
{ // Mute the sound if it's starving.
Channel->setVolume(starving ? 0 : Volume);
Starved = starving;
}
return false;
}
void SetVolume(float volume)
{
if (Channel != NULL && !Starved)
{
Channel->setVolume(volume);
}
Volume = volume;
}
// Sets the position in ms.
bool SetPosition(unsigned int ms_pos)
{
return FMOD_OK == Channel->setPosition(ms_pos, FMOD_TIMEUNIT_MS);
}
// Sets the order number for MOD formats.
bool SetOrder(int order_pos)
{
return FMOD_OK == Channel->setPosition(order_pos, FMOD_TIMEUNIT_MODORDER);
}
FString GetStats()
{
FString stats;
FMOD_OPENSTATE openstate;
unsigned int percentbuffered;
unsigned int position;
bool starving;
#if FMOD_VERSION >= 0x43400
bool diskbusy;
#endif
float volume;
float frequency;
bool paused;
bool isplaying;
#if FMOD_VERSION < 0x43400
if (FMOD_OK == Stream->getOpenState(&openstate, &percentbuffered, &starving))
#else
if (FMOD_OK == Stream->getOpenState(&openstate, &percentbuffered, &starving, &diskbusy))
#endif
{
stats = (openstate <= FMOD_OPENSTATE_PLAYING ? OpenStateNames[openstate] : "Unknown state");
stats.AppendFormat(",%3d%% buffered, %s", percentbuffered, starving ? "Starving" : "Well-fed");
}
if (Channel == NULL)
{
stats += ", not playing";
}
if (Channel != NULL && FMOD_OK == Channel->getPosition(&position, FMOD_TIMEUNIT_MS))
{
stats.AppendFormat(", %d", position);
if (FMOD_OK == Stream->getLength(&position, FMOD_TIMEUNIT_MS))
{
stats.AppendFormat("/%d", position);
}
stats += " ms";
}
if (Channel != NULL && FMOD_OK == Channel->getVolume(&volume))
{
stats.AppendFormat(", %d%%", int(volume * 100));
}
if (Channel != NULL && FMOD_OK == Channel->getPaused(&paused) && paused)
{
stats += ", paused";
}
if (Channel != NULL && FMOD_OK == Channel->isPlaying(&isplaying) && isplaying)
{
stats += ", playing";
}
if (Channel != NULL && FMOD_OK == Channel->getFrequency(&frequency))
{
stats.AppendFormat(", %g Hz", frequency);
}
if (JustStarted)
{
stats += " JS";
}
if (Ended)
{
stats += " XX";
}
return stats;
}
static FMOD_RESULT F_CALLBACK PCMReadCallback(FMOD_SOUND *sound, void *data, unsigned int datalen)
{
FMOD_RESULT result;
FMODStreamCapsule *self;
result = ((FMOD::Sound *)sound)->getUserData((void **)&self);
if (result != FMOD_OK || self == NULL || self->Callback == NULL || self->Ended)
{
// Contrary to the docs, this return value is completely ignored.
return FMOD_OK;
}
if (!self->Callback(self, data, datalen, self->UserData))
{
self->Ended = true;
}
return FMOD_OK;
}
static FMOD_RESULT F_CALLBACK PCMSetPosCallback(FMOD_SOUND *sound, int subsound, unsigned int position, FMOD_TIMEUNIT postype)
{
// This is useful if the user calls Channel::setPosition and you want
// to seek your data accordingly.
return FMOD_OK;
}
private:
FMODSoundRenderer *Owner;
FMOD::Sound *Stream;
FMOD::Channel *Channel;
void *UserData;
SoundStreamCallback Callback;
FileReader *Reader;
FString URL;
bool Ended;
bool JustStarted;
bool Starved;
bool Loop;
float Volume;
};
//==========================================================================
//
// The interface the game uses to talk to FMOD.
//
//==========================================================================
FMODSoundRenderer::FMODSoundRenderer()
{
InitSuccess = Init();
}
FMODSoundRenderer::~FMODSoundRenderer()
{
Shutdown();
}
bool FMODSoundRenderer::IsValid()
{
return InitSuccess;
}
//==========================================================================
//
// FMODSoundRenderer :: Init
//
//==========================================================================
bool FMODSoundRenderer::Init()
{
FMOD_RESULT result;
unsigned int version;
FMOD_SPEAKERMODE speakermode;
FMOD_SOUND_FORMAT format;
FMOD_DSP_RESAMPLER resampler;
FMOD_INITFLAGS initflags;
int samplerate;
int driver;
int eval;
SFXPaused = 0;
DSPLocked = false;
MusicGroup = NULL;
SfxGroup = NULL;
PausableSfx = NULL;
SfxConnection = NULL;
WaterLP = NULL;
WaterReverb = NULL;
PrevEnvironment = DefaultEnvironments[0];
DSPClock.AsOne = 0;
ChannelGroupTargetUnit = NULL;
ChannelGroupTargetUnitOutput = NULL;
SfxReverbHooked = false;
SfxReverbPlaceholder = NULL;
OutputPlugin = 0;
Printf("I_InitSound: Initializing FMOD\n");
// This is just for safety. Normally this should never be called if FMod Ex cannot be found.
if (!IsFModExPresent())
{
Sys = NULL;
Printf(TEXTCOLOR_ORANGE"Failed to load fmodex"
#ifdef _WIN64
"64"
#endif
".dll\n");
return false;
}
// Create a System object and initialize.
result = FMOD::System_Create(&Sys);
if (result != FMOD_OK)
{
Sys = NULL;
Printf(TEXTCOLOR_ORANGE"Failed to create FMOD system object: Error %d\n", result);
return false;
}
result = Sys->getVersion(&version);
if (result != FMOD_OK)
{
Printf(TEXTCOLOR_ORANGE"Could not validate FMOD version: Error %d\n", result);
return false;
}
const char *wrongver = NULL;
#if FMOD_VERSION >= 0x43800
if (version < 0x43800)
#else
if (version < 0x42000)
#endif
{
wrongver = "an old";
}
#if FMOD_VERSION < 0x42700
else if ((version & 0xFFFF00) > 0x42600)
#else
else if ((version & 0xFFFF00) > (FMOD_VERSION & 0xFFFF00))
#endif
{
wrongver = "a new";
}
if (wrongver != NULL)
{
Printf (" " TEXTCOLOR_ORANGE "Error! You are using %s version of FMOD (%x.%02x.%02x).\n"
" " TEXTCOLOR_ORANGE "This program was built for version %x.%02x.%02x\n",
wrongver,
version >> 16, (version >> 8) & 255, version & 255,
FMOD_VERSION >> 16, (FMOD_VERSION >> 8) & 255, FMOD_VERSION & 255);
return false;
}
ActiveFMODVersion = version;
if (!ShowedBanner)
{
// '\xa9' is the copyright symbol in the Windows-1252 code page.
Printf("FMOD Sound System, copyright \xa9 Firelight Technologies Pty, Ltd., 1994-2009.\n");
Printf("Loaded FMOD version %x.%02x.%02x\n", version >> 16, (version >> 8) & 255, version & 255);
ShowedBanner = true;
}
#ifdef _WIN32
if (OSPlatform == os_WinNT4)
{
// The following was true as of FMOD 3. I don't know if it still
// applies to FMOD Ex, nor do I have an NT 4 install anymore, but
// there's no reason to get rid of it yet.
//
// If running Windows NT 4, we need to initialize DirectSound before
// using WinMM. If we don't, then FSOUND_Close will corrupt a
// heap. This might just be the Audigy's drivers--I don't know why
// it happens. At least the fix is simple enough. I only need to
// initialize DirectSound once, and then I can initialize/close
// WinMM as many times as I want.
//
// Yes, using WinMM under NT 4 is a good idea. I can get latencies as
// low as 20 ms with WinMM, but with DirectSound I need to have the
// latency as high as 120 ms to avoid crackling--quite the opposite
// from the other Windows versions with real DirectSound support.
static bool inited_dsound = false;
if (!inited_dsound)
{
if (Sys->setOutput(FMOD_OUTPUTTYPE_DSOUND) == FMOD_OK)
{
if (Sys->init(1, FMOD_INIT_NORMAL, 0) == FMOD_OK)
{
inited_dsound = true;
Sleep(50);
Sys->close();
}
Sys->setOutput(FMOD_OUTPUTTYPE_WINMM);
}
}
}
#endif
#if !defined _WIN32 && !defined __APPLE__
// Try to load SDL output plugin
result = Sys->setPluginPath(progdir); // Should we really look for it in the program directory?
result = Sys->loadPlugin("liboutput_sdl.so", &OutputPlugin);
if (result != FMOD_OK)
{
OutputPlugin = 0;
}
#endif
// Set the user specified output mode.
eval = Enum_NumForName(OutputNames, snd_output);
if (eval >= 0)
{
if (eval == 666 && OutputPlugin != 0)
{
result = Sys->setOutputByPlugin(OutputPlugin);
}
else
{
result = Sys->setOutput(FMOD_OUTPUTTYPE(eval));
}
if (result != FMOD_OK)
{
Printf(TEXTCOLOR_BLUE"Setting output type '%s' failed. Using default instead. (Error %d)\n", *snd_output, result);
eval = FMOD_OUTPUTTYPE_AUTODETECT;
Sys->setOutput(FMOD_OUTPUTTYPE_AUTODETECT);
}
}
result = Sys->getNumDrivers(&driver);
#ifdef __unix__
if (result == FMOD_OK)
{
// On Linux, FMOD defaults to OSS. If OSS is not present, it doesn't
// try ALSA; it just fails. We'll try for it, but only if OSS wasn't
// explicitly specified for snd_output.
if (driver == 0 && eval == FMOD_OUTPUTTYPE_AUTODETECT)
{
FMOD_OUTPUTTYPE output;
if (FMOD_OK == Sys->getOutput(&output))
{
if (output == FMOD_OUTPUTTYPE_OSS)
{
Printf(TEXTCOLOR_BLUE"OSS could not be initialized. Trying ALSA.\n");
Sys->setOutput(FMOD_OUTPUTTYPE_ALSA);
result = Sys->getNumDrivers(&driver);
}
}
}
}
#endif
if (result == FMOD_OK)
{
if (driver == 0)
{
Printf(TEXTCOLOR_ORANGE"No working sound devices found. Try a different snd_output?\n");
return false;
}
if (snd_driver >= driver)
{
Printf(TEXTCOLOR_BLUE"Driver %d does not exist. Using 0.\n", *snd_driver);
driver = 0;
}
else
{
driver = snd_driver;
}
result = Sys->setDriver(driver);
}
result = Sys->getDriver(&driver);
#if FMOD_VERSION >= 0x43600
// We were built with an FMOD that only returns the control panel frequency
result = Sys->getDriverCaps(driver, &Driver_Caps, &Driver_MinFrequency, &speakermode);
Driver_MaxFrequency = Driver_MinFrequency;
#else
// We were built with an FMOD that returns a frequency range
result = Sys->getDriverCaps(driver, &Driver_Caps, &Driver_MinFrequency, &Driver_MaxFrequency, &speakermode);
#endif
if (result != FMOD_OK)
{
Printf(TEXTCOLOR_BLUE"Could not ascertain driver capabilities. Some things may be weird. (Error %d)\n", result);
// Fill in some default to pretend it worked. (But as long as we specify a valid driver,
// can this call actually fail?)
Driver_Caps = 0;
Driver_MinFrequency = 4000;
Driver_MaxFrequency = 48000;
speakermode = FMOD_SPEAKERMODE_STEREO;
}
// Set the user selected speaker mode.
eval = Enum_NumForName(SpeakerModeNames, snd_speakermode);
if (eval >= 0)
{
speakermode = FMOD_SPEAKERMODE(eval);
}
result = Sys->setSpeakerMode(speakermode);
if (result != FMOD_OK)
{
Printf(TEXTCOLOR_BLUE"Could not set speaker mode to '%s'. (Error %d)\n", *snd_speakermode, result);
}
// Set software format
eval = Enum_NumForName(SoundFormatNames, snd_output_format);
format = eval >= 0 ? FMOD_SOUND_FORMAT(eval) : FMOD_SOUND_FORMAT_PCM16;
if (format == FMOD_SOUND_FORMAT_PCM8)
{
// PCM-8 sounds like garbage with anything but DirectSound.
FMOD_OUTPUTTYPE output;
if (FMOD_OK != Sys->getOutput(&output) || output != FMOD_OUTPUTTYPE_DSOUND)
{
format = FMOD_SOUND_FORMAT_PCM16;
}
}
eval = Enum_NumForName(ResamplerNames, snd_resampler);
resampler = eval >= 0 ? FMOD_DSP_RESAMPLER(eval) : FMOD_DSP_RESAMPLER_LINEAR;
// These represented the frequency limits for hardware channels, which we never used anyway.
// samplerate = clamp<int>(snd_samplerate, Driver_MinFrequency, Driver_MaxFrequency);
samplerate = snd_samplerate;
if (samplerate == 0 || snd_samplerate == 0)
{ // Creative's ASIO drivers report the only supported frequency as 0!
if (FMOD_OK != Sys->getSoftwareFormat(&samplerate, NULL, NULL, NULL, NULL, NULL))
{
samplerate = 48000;
}
}
if (samplerate != snd_samplerate && snd_samplerate != 0)
{
Printf(TEXTCOLOR_BLUE"Sample rate %d is unsupported. Trying %d.\n", *snd_samplerate, samplerate);
}
result = Sys->setSoftwareFormat(samplerate, format, 0, 0, resampler);
if (result != FMOD_OK)
{
Printf(TEXTCOLOR_BLUE"Could not set mixing format. Defaults will be used. (Error %d)\n", result);
}
// Set software channels according to snd_channels
result = Sys->setSoftwareChannels(snd_channels + NUM_EXTRA_SOFTWARE_CHANNELS);
if (result != FMOD_OK)
{
Printf(TEXTCOLOR_BLUE"Failed to set the preferred number of channels. (Error %d)\n", result);
}
if (Driver_Caps & FMOD_CAPS_HARDWARE_EMULATED)
{ // The user has the 'Acceleration' slider set to off!
// This is really bad for latency!
Printf (TEXTCOLOR_BLUE"Warning: The sound acceleration slider has been set to off.\n");
Printf (TEXTCOLOR_BLUE"Please turn it back on if you want decent sound.\n");
result = Sys->setDSPBufferSize(1024, 10); // At 48khz, the latency between issuing an fmod command and hearing it will now be about 213ms.
}
else if (snd_buffersize != 0 || snd_buffercount != 0)
{
int buffersize = snd_buffersize ? snd_buffersize : 1024;
int buffercount = snd_buffercount ? snd_buffercount : 4;
result = Sys->setDSPBufferSize(buffersize, buffercount);
}
else
{
result = FMOD_OK;
}
if (result != FMOD_OK)
{
Printf(TEXTCOLOR_BLUE"Setting DSP buffer size failed. (Error %d)\n", result);
}
// Try to init
initflags = FMOD_INIT_NORMAL;
if (snd_hrtf)
{
// These flags are the same thing, just with different names.
#ifdef FMOD_INIT_SOFTWARE_HRTF
initflags |= FMOD_INIT_SOFTWARE_HRTF;
#else
initflags |= FMOD_INIT_HRTF_LOWPASS;
#endif
}
if (snd_profile)
{
initflags |= FMOD_INIT_ENABLE_PROFILE;
}
for (;;)
{
result = Sys->init(MAX(*snd_channels, MAX_CHANNELS), initflags, 0);
if (result == FMOD_ERR_OUTPUT_CREATEBUFFER)
{
// Possible causes of a buffer creation failure:
// 1. The speaker mode selected isn't supported by this soundcard. Force it to stereo.
// 2. The output format is unsupported. Force it to 16-bit PCM.
// 3. ???
result = Sys->getSpeakerMode(&speakermode);
if (result == FMOD_OK &&
speakermode != FMOD_SPEAKERMODE_STEREO &&
FMOD_OK == Sys->setSpeakerMode(FMOD_SPEAKERMODE_STEREO))
{
Printf(TEXTCOLOR_RED" Buffer creation failed. Retrying with stereo output.\n");
continue;
}
result = Sys->getSoftwareFormat(&samplerate, &format, NULL, NULL, &resampler, NULL);
if (result == FMOD_OK &&
format != FMOD_SOUND_FORMAT_PCM16 &&
FMOD_OK == Sys->setSoftwareFormat(samplerate, FMOD_SOUND_FORMAT_PCM16, 0, 0, resampler))
{
Printf(TEXTCOLOR_RED" Buffer creation failed. Retrying with PCM-16 output.\n");
continue;
}
}
else if (result == FMOD_ERR_NET_SOCKET_ERROR && (initflags & FMOD_INIT_ENABLE_PROFILE))
{
Printf(TEXTCOLOR_RED" Could not create socket. Retrying without profiling.\n");
initflags &= ~FMOD_INIT_ENABLE_PROFILE;
continue;
}
#ifdef _WIN32
else if (result == FMOD_ERR_OUTPUT_INIT)
{
FMOD_OUTPUTTYPE output;
result = Sys->getOutput(&output);
if (result == FMOD_OK && output != FMOD_OUTPUTTYPE_DSOUND)
{
Printf(TEXTCOLOR_BLUE" Init failed for output type %s. Retrying with DirectSound.\n",
Enum_NameForNum(OutputNames, output));
if (FMOD_OK == Sys->setOutput(FMOD_OUTPUTTYPE_DSOUND))
{
continue;
}
}
}
#endif
break;
}
if (result != FMOD_OK)
{ // Initializing FMOD failed. Cry cry.
Printf(TEXTCOLOR_ORANGE" System::init returned error code %d\n", result);
return false;
}
// Create channel groups
result = Sys->createChannelGroup("Music", &MusicGroup);
if (result != FMOD_OK)
{
Printf(TEXTCOLOR_ORANGE" Could not create music channel group. (Error %d)\n", result);
return false;
}
result = Sys->createChannelGroup("SFX", &SfxGroup);
if (result != FMOD_OK)
{
Printf(TEXTCOLOR_ORANGE" Could not create sfx channel group. (Error %d)\n", result);
return false;
}
result = Sys->createChannelGroup("Pausable SFX", &PausableSfx);
if (result != FMOD_OK)
{
Printf(TEXTCOLOR_ORANGE" Could not create pausable sfx channel group. (Error %d)\n", result);
return false;
}
result = SfxGroup->addGroup(PausableSfx);
if (result != FMOD_OK)
{
Printf(TEXTCOLOR_BLUE" Could not attach pausable sfx to sfx channel group. (Error %d)\n", result);
}
// Create DSP units for underwater effect
result = Sys->createDSPByType(FMOD_DSP_TYPE_LOWPASS, &WaterLP);
if (result != FMOD_OK)
{
Printf(TEXTCOLOR_BLUE" Could not create underwater lowpass unit. (Error %d)\n", result);
}
else
{
result = Sys->createDSPByType(FMOD_DSP_TYPE_SFXREVERB, &WaterReverb);
if (result != FMOD_OK)
{
Printf(TEXTCOLOR_BLUE" Could not create underwater reverb unit. (Error %d)\n", result);
}
}
// Connect underwater DSP unit between PausableSFX and SFX groups, while
// retaining the connection established by SfxGroup->addGroup().
if (WaterLP != NULL)
{
FMOD::DSP *sfx_head, *pausable_head;
result = SfxGroup->getDSPHead(&sfx_head);
if (result == FMOD_OK)
{
result = sfx_head->getInput(0, &pausable_head, &SfxConnection);
if (result == FMOD_OK)
{
// The placeholder mixer is for reference to where to connect the SFX
// reverb unit once it gets created.
result = Sys->createDSPByType(FMOD_DSP_TYPE_MIXER, &SfxReverbPlaceholder);
if (result == FMOD_OK)
{
// Replace the PausableSFX->SFX connection with
// PausableSFX->ReverbPlaceholder->SFX.
result = SfxReverbPlaceholder->addInput(pausable_head, NULL);
if (result == FMOD_OK)
{
FMOD::DSPConnection *connection;
result = sfx_head->addInput(SfxReverbPlaceholder, &connection);
if (result == FMOD_OK)
{
sfx_head->disconnectFrom(pausable_head);
SfxReverbPlaceholder->setActive(true);
SfxReverbPlaceholder->setBypass(true);
// The placeholder now takes the place of the pausable_head
// for the following connections.
pausable_head = SfxReverbPlaceholder;
SfxConnection = connection;
}
}
else
{
SfxReverbPlaceholder->release();
SfxReverbPlaceholder = NULL;
}
}
result = WaterLP->addInput(pausable_head, NULL);
WaterLP->setActive(false);
WaterLP->setParameter(FMOD_DSP_LOWPASS_CUTOFF, snd_waterlp);
WaterLP->setParameter(FMOD_DSP_LOWPASS_RESONANCE, 2);
if (WaterReverb != NULL)
{
result = WaterReverb->addInput(WaterLP, NULL);
if (result == FMOD_OK)
{
result = sfx_head->addInput(WaterReverb, NULL);
if (result == FMOD_OK)
{
// WaterReverb->setParameter(FMOD_DSP_REVERB_ROOMSIZE, 0.001f);
// WaterReverb->setParameter(FMOD_DSP_REVERB_DAMP, 0.2f);
// These parameters are entirely empirical and can probably
// stand some improvement, but it sounds remarkably close
// to the old reverb unit's output.
WaterReverb->setParameter(FMOD_DSP_SFXREVERB_LFREFERENCE, 150);
WaterReverb->setParameter(FMOD_DSP_SFXREVERB_HFREFERENCE, 10000);
WaterReverb->setParameter(FMOD_DSP_SFXREVERB_ROOM, 0);
WaterReverb->setParameter(FMOD_DSP_SFXREVERB_ROOMHF, -5000);
WaterReverb->setParameter(FMOD_DSP_SFXREVERB_DRYLEVEL, 0);
WaterReverb->setParameter(FMOD_DSP_SFXREVERB_DECAYHFRATIO, 1);
WaterReverb->setParameter(FMOD_DSP_SFXREVERB_DECAYTIME, 0.25f);
WaterReverb->setParameter(FMOD_DSP_SFXREVERB_DENSITY, 100);
WaterReverb->setParameter(FMOD_DSP_SFXREVERB_DIFFUSION, 100);
WaterReverb->setActive(false);
}
}
}
else
{
result = sfx_head->addInput(WaterLP, NULL);
}
}
}
}
LastWaterLP = snd_waterlp;
// Find the FMOD Channel Group Target Unit. To completely eliminate sound
// while the program is deactivated, we can deactivate this DSP unit, and
// all audio processing will cease. This is not directly exposed by the
// API but can be easily located by getting the master channel group and
// tracing its single output, since it is known to hook up directly to the
// Channel Group Target Unit. (See FMOD Profiler for proof.)
FMOD::ChannelGroup *master_group;
result = Sys->getMasterChannelGroup(&master_group);
if (result == FMOD_OK)
{
FMOD::DSP *master_head;
result = master_group->getDSPHead(&master_head);
if (result == FMOD_OK)
{
result = master_head->getOutput(0, &ChannelGroupTargetUnit, NULL);
if (result != FMOD_OK)
{
ChannelGroupTargetUnit = NULL;
}
else
{
FMOD::DSP *dontcare;
result = ChannelGroupTargetUnit->getOutput(0, &dontcare, &ChannelGroupTargetUnitOutput);
if (result != FMOD_OK)
{
ChannelGroupTargetUnitOutput = NULL;
}
}
}
}
if (FMOD_OK != Sys->getSoftwareFormat(&OutputRate, NULL, NULL, NULL, NULL, NULL))
{
OutputRate = 48000; // Guess, but this should never happen.
}
Sys->set3DSettings(0.5f, 96.f, 1.f);
Sys->set3DRolloffCallback(RolloffCallback);
// The default is 16k, which periodically starves later FMOD versions
// when streaming FLAC files.
Sys->setStreamBufferSize(64*1024, FMOD_TIMEUNIT_RAWBYTES);
snd_sfxvolume.Callback ();
return true;
}
//==========================================================================
//
// FMODSoundRenderer :: Shutdown
//
//==========================================================================
void FMODSoundRenderer::Shutdown()
{
if (Sys != NULL)
{
if (MusicGroup != NULL)
{
MusicGroup->release();
MusicGroup = NULL;
}
if (PausableSfx != NULL)
{
PausableSfx->release();
PausableSfx = NULL;
}
if (SfxGroup != NULL)
{
SfxGroup->release();
SfxGroup = NULL;
}
if (WaterLP != NULL)
{
WaterLP->release();
WaterLP = NULL;
}
if (WaterReverb != NULL)
{
WaterReverb->release();
WaterReverb = NULL;
}
if (SfxReverbPlaceholder != NULL)
{
SfxReverbPlaceholder->release();
SfxReverbPlaceholder = NULL;
}
Sys->close();
if (OutputPlugin != 0)
{
Sys->unloadPlugin(OutputPlugin);
OutputPlugin = 0;
}
Sys->release();
Sys = NULL;
}
}
//==========================================================================
//
// FMODSoundRenderer :: GetOutputRate
//
//==========================================================================
float FMODSoundRenderer::GetOutputRate()
{
return (float)OutputRate;
}
//==========================================================================
//
// FMODSoundRenderer :: PrintStatus
//
//==========================================================================
void FMODSoundRenderer::PrintStatus()
{
FMOD_OUTPUTTYPE output;
FMOD_SPEAKERMODE speakermode;
FMOD_SOUND_FORMAT format;
FMOD_DSP_RESAMPLER resampler;
int driver;
int samplerate;
int numoutputchannels;
unsigned int bufferlength;
int numbuffers;
Printf ("Loaded FMOD version: " TEXTCOLOR_GREEN "%x.%02x.%02x\n", ActiveFMODVersion >> 16,
(ActiveFMODVersion >> 8) & 255, ActiveFMODVersion & 255);
if (FMOD_OK == Sys->getOutput(&output))
{
Printf ("Output type: " TEXTCOLOR_GREEN "%s\n", Enum_NameForNum(OutputNames, output));
}
if (FMOD_OK == Sys->getSpeakerMode(&speakermode))
{
Printf ("Speaker mode: " TEXTCOLOR_GREEN "%s\n", Enum_NameForNum(SpeakerModeNames, speakermode));
}
if (FMOD_OK == Sys->getDriver(&driver))
{
char name[256];
if (FMOD_OK != Sys->getDriverInfo(driver, name, sizeof(name), NULL))
{
strcpy(name, "Unknown");
}
Printf ("Driver: " TEXTCOLOR_GREEN "%d" TEXTCOLOR_NORMAL " (" TEXTCOLOR_ORANGE "%s" TEXTCOLOR_NORMAL ")\n", driver, name);
DumpDriverCaps(Driver_Caps, Driver_MinFrequency, Driver_MaxFrequency);
}
if (FMOD_OK == Sys->getSoftwareFormat(&samplerate, &format, &numoutputchannels, NULL, &resampler, NULL))
{
Printf (TEXTCOLOR_LIGHTBLUE "Software mixer sample rate: " TEXTCOLOR_GREEN "%d\n", samplerate);
Printf (TEXTCOLOR_LIGHTBLUE "Software mixer format: " TEXTCOLOR_GREEN "%s\n", Enum_NameForNum(SoundFormatNames, format));
Printf (TEXTCOLOR_LIGHTBLUE "Software mixer channels: " TEXTCOLOR_GREEN "%d\n", numoutputchannels);
Printf (TEXTCOLOR_LIGHTBLUE "Software mixer resampler: " TEXTCOLOR_GREEN "%s\n", Enum_NameForNum(ResamplerNames, resampler));
}
if (FMOD_OK == Sys->getDSPBufferSize(&bufferlength, &numbuffers))
{
Printf (TEXTCOLOR_LIGHTBLUE "DSP buffers: " TEXTCOLOR_GREEN "%u samples x %d\n", bufferlength, numbuffers);
}
}
//==========================================================================
//
// FMODSoundRenderer :: DumpDriverCaps
//
//==========================================================================
void FMODSoundRenderer::DumpDriverCaps(FMOD_CAPS caps, int minfrequency, int maxfrequency)
{
Printf (TEXTCOLOR_OLIVE " Min. frequency: " TEXTCOLOR_GREEN "%d\n", minfrequency);
Printf (TEXTCOLOR_OLIVE " Max. frequency: " TEXTCOLOR_GREEN "%d\n", maxfrequency);
Printf (" Features:\n");
if (caps == 0) Printf(TEXTCOLOR_OLIVE " None\n");
if (caps & FMOD_CAPS_HARDWARE) Printf(TEXTCOLOR_OLIVE " Hardware mixing\n");
if (caps & FMOD_CAPS_HARDWARE_EMULATED) Printf(TEXTCOLOR_OLIVE " Hardware acceleration is turned off!\n");
if (caps & FMOD_CAPS_OUTPUT_MULTICHANNEL) Printf(TEXTCOLOR_OLIVE " Multichannel\n");
if (caps & FMOD_CAPS_OUTPUT_FORMAT_PCM8) Printf(TEXTCOLOR_OLIVE " PCM-8");
if (caps & FMOD_CAPS_OUTPUT_FORMAT_PCM16) Printf(TEXTCOLOR_OLIVE " PCM-16");
if (caps & FMOD_CAPS_OUTPUT_FORMAT_PCM24) Printf(TEXTCOLOR_OLIVE " PCM-24");
if (caps & FMOD_CAPS_OUTPUT_FORMAT_PCM32) Printf(TEXTCOLOR_OLIVE " PCM-32");
if (caps & FMOD_CAPS_OUTPUT_FORMAT_PCMFLOAT) Printf(TEXTCOLOR_OLIVE " PCM-Float");
if (caps & (FMOD_CAPS_OUTPUT_FORMAT_PCM8 | FMOD_CAPS_OUTPUT_FORMAT_PCM16 | FMOD_CAPS_OUTPUT_FORMAT_PCM24 | FMOD_CAPS_OUTPUT_FORMAT_PCM32 | FMOD_CAPS_OUTPUT_FORMAT_PCMFLOAT))
{
Printf("\n");
}
if (caps & FMOD_CAPS_REVERB_LIMITED) Printf(TEXTCOLOR_OLIVE " Limited reverb\n");
}
//==========================================================================
//
// FMODSoundRenderer :: PrintDriversList
//
//==========================================================================
void FMODSoundRenderer::PrintDriversList()
{
int numdrivers;
int i;
char name[256];
if (FMOD_OK == Sys->getNumDrivers(&numdrivers))
{
for (i = 0; i < numdrivers; ++i)
{
if (FMOD_OK == Sys->getDriverInfo(i, name, sizeof(name), NULL))
{
Printf("%d. %s\n", i, name);
}
}
}
}
//==========================================================================
//
// FMODSoundRenderer :: GatherStats
//
//==========================================================================
FString FMODSoundRenderer::GatherStats()
{
int channels;
float dsp, stream, update, geometry, total;
FString out;
channels = 0;
total = update = geometry = stream = dsp = 0;
Sys->getChannelsPlaying(&channels);
#if FMOD_VERSION >= 0x42501
// We were built with an FMOD with the geometry parameter.
if (ActiveFMODVersion >= 0x42501)
{ // And we are running with an FMOD that includes it.
FMOD_System_GetCPUUsage((FMOD_SYSTEM *)Sys, &dsp, &stream, &geometry, &update, &total);
}
else
{ // And we are running with an FMOD that does not include it.
// Cast the function to the appropriate type and call through the cast,
// since the headers are for the newer version.
((FMOD_RESULT (F_API *)(FMOD_SYSTEM *, float *, float *, float *, float *))
FMOD_System_GetCPUUsage)((FMOD_SYSTEM *)Sys, &dsp, &stream, &update, &total);
}
#else
// Same as above, except the headers we used do not include the geometry parameter.
if (ActiveFMODVersion >= 0x42501)
{
((FMOD_RESULT (F_API *)(FMOD_SYSTEM *, float *, float *, float *, float *, float *))
FMOD_System_GetCPUUsage)((FMOD_SYSTEM *)Sys, &dsp, &stream, &geometry, &update, &total);
}
else
{
FMOD_System_GetCPUUsage((FMOD_SYSTEM *)Sys, &dsp, &stream, &update, &total);
}
#endif
out.Format ("%d channels," TEXTCOLOR_YELLOW "%5.2f" TEXTCOLOR_NORMAL "%% CPU "
"(DSP:" TEXTCOLOR_YELLOW "%5.2f" TEXTCOLOR_NORMAL "%% "
"Stream:" TEXTCOLOR_YELLOW "%5.2f" TEXTCOLOR_NORMAL "%% "
"Geometry:" TEXTCOLOR_YELLOW "%5.2f" TEXTCOLOR_NORMAL "%% "
"Update:" TEXTCOLOR_YELLOW "%5.2f" TEXTCOLOR_NORMAL "%%)",
channels, total, dsp, stream, geometry, update);
return out;
}
//==========================================================================
//
// FMODSoundRenderer :: SetSfxVolume
//
//==========================================================================
void FMODSoundRenderer::SetSfxVolume(float volume)
{
SfxGroup->setVolume(volume);
}
//==========================================================================
//
// FMODSoundRenderer :: SetMusicVolume
//
//==========================================================================
void FMODSoundRenderer::SetMusicVolume(float volume)
{
MusicGroup->setVolume(volume);
}
//==========================================================================
//
// FMODSoundRenderer :: CreateStream
//
// Creates a streaming sound that receives PCM data through a callback.
//
//==========================================================================
SoundStream *FMODSoundRenderer::CreateStream (SoundStreamCallback callback, int buffbytes, int flags, int samplerate, void *userdata)
{
FMODStreamCapsule *capsule;
FMOD::Sound *sound;
FMOD_RESULT result;
FMOD_CREATESOUNDEXINFO exinfo;
FMOD_MODE mode;
int sample_shift;
int channel_shift;
InitCreateSoundExInfo(&exinfo);
capsule = new FMODStreamCapsule (userdata, callback, this);
mode = FMOD_2D | FMOD_OPENUSER | FMOD_LOOP_NORMAL | FMOD_SOFTWARE | FMOD_CREATESTREAM | FMOD_OPENONLY;
sample_shift = (flags & (SoundStream::Bits32 | SoundStream::Float)) ? 2 : (flags & SoundStream::Bits8) ? 0 : 1;
channel_shift = (flags & SoundStream::Mono) ? 0 : 1;
// Chunk size of stream update in samples. This will be the amount of data
// passed to the user callback.
exinfo.decodebuffersize = buffbytes >> (sample_shift + channel_shift);
// Number of channels in the sound.
exinfo.numchannels = 1 << channel_shift;
// Length of PCM data in bytes of whole song (for Sound::getLength).
// This pretends it's extremely long.
exinfo.length = ~0u;
// Default playback rate of sound. */
exinfo.defaultfrequency = samplerate;
// Data format of sound.
if (flags & SoundStream::Float)
{
exinfo.format = FMOD_SOUND_FORMAT_PCMFLOAT;
}
else if (flags & SoundStream::Bits32)
{
exinfo.format = FMOD_SOUND_FORMAT_PCM32;
}
else if (flags & SoundStream::Bits8)
{
exinfo.format = FMOD_SOUND_FORMAT_PCM8;
}
else
{
exinfo.format = FMOD_SOUND_FORMAT_PCM16;
}
// User callback for reading.
exinfo.pcmreadcallback = FMODStreamCapsule::PCMReadCallback;
// User callback for seeking.
exinfo.pcmsetposcallback = FMODStreamCapsule::PCMSetPosCallback;
// User data to be attached to the sound during creation. Access via Sound::getUserData.
exinfo.userdata = capsule;
result = Sys->createSound(NULL, mode, &exinfo, &sound);
if (result != FMOD_OK)
{
delete capsule;
return NULL;
}
capsule->SetStream(sound);
return capsule;
}
//==========================================================================
//
// GetTagData
//
// Checks for a string-type tag, and returns its data.
//
//==========================================================================
const char *GetTagData(FMOD::Sound *sound, const char *tag_name)
{
FMOD_TAG tag;
if (FMOD_OK == sound->getTag(tag_name, 0, &tag) &&
(tag.datatype == FMOD_TAGDATATYPE_STRING || tag.datatype == FMOD_TAGDATATYPE_STRING_UTF8))
{
return (const char *)tag.data;
}
return NULL;
}
//==========================================================================
//
// SetCustomLoopPts
//
// Sets up custom sound loops by checking for these tags:
// LOOP_START
// LOOP_END
// LOOP_BIDI
//
//==========================================================================
static void SetCustomLoopPts(FMOD::Sound *sound)
{
#if 0
FMOD_TAG tag;
int numtags;
if (FMOD_OK == stream->getNumTags(&numtags, NULL))
{
for (int i = 0; i < numtags; ++i)
{
if (FMOD_OK == sound->getTag(NULL, i, &tag))
{
Printf("Tag %2d. %d %s = %s\n", i, tag.datatype, tag.name, tag.data);
}
}
}
#endif
const char *tag_data;
unsigned int looppt[2];
bool looppt_as_samples[2], have_looppt[2] = { false };
static const char *const loop_tags[2] = { "LOOP_START", "LOOP_END" };
for (int i = 0; i < 2; ++i)
{
if (NULL != (tag_data = GetTagData(sound, loop_tags[i])))
{
if (S_ParseTimeTag(tag_data, &looppt_as_samples[i], &looppt[i]))
{
have_looppt[i] = true;
}
else
{
Printf("Invalid %s tag: '%s'\n", loop_tags[i], tag_data);
}
}
}
if (have_looppt[0] && !have_looppt[1])
{ // Have a start tag, but not an end tag: End at the end of the song.
have_looppt[1] = (FMOD_OK == sound->getLength(&looppt[1], FMOD_TIMEUNIT_PCM));
looppt_as_samples[1] = true;
}
else if (!have_looppt[0] && have_looppt[1])
{ // Have an end tag, but no start tag: Start at beginning of the song.
looppt[0] = 0;
looppt_as_samples[0] = true;
have_looppt[0] = true;
}
if (have_looppt[0] && have_looppt[1])
{ // Have both loop points: Try to set the loop.
FMOD_RESULT res = sound->setLoopPoints(
looppt[0], looppt_as_samples[0] ? FMOD_TIMEUNIT_PCM : FMOD_TIMEUNIT_MS,
looppt[1] - 1, looppt_as_samples[1] ? FMOD_TIMEUNIT_PCM : FMOD_TIMEUNIT_MS);
if (res != FMOD_OK)
{
Printf("Setting custom loop points failed. Error %d\n", res);
}
}
// Check for a bi-directional loop.
if (NULL != (tag_data = GetTagData(sound, "LOOP_BIDI")) &&
(stricmp(tag_data, "on") == 0 ||
stricmp(tag_data, "true") == 0 ||
stricmp(tag_data, "yes") == 0 ||
stricmp(tag_data, "1") == 0))
{
FMOD_MODE mode;
if (FMOD_OK == (sound->getMode(&mode)))
{
sound->setMode((mode & ~(FMOD_LOOP_OFF | FMOD_LOOP_NORMAL)) | FMOD_LOOP_BIDI);
}
}
}
//==========================================================================
//
// open_reader_callback
// close_reader_callback
// read_reader_callback
// seek_reader_callback
//
// FMOD_CREATESOUNDEXINFO callbacks to handle reading resource data from a
// FileReader.
//
//==========================================================================
static FMOD_RESULT F_CALLBACK open_reader_callback(const char *name, int unicode, unsigned int *filesize, void **handle, void **userdata)
{
FileReader *reader = NULL;
if(sscanf(name, "_FileReader_%p", &reader) != 1)
{
Printf("Invalid name in callback: %s\n", name);
return FMOD_ERR_FILE_NOTFOUND;
}
*filesize = reader->GetLength();
*handle = reader;
*userdata = reader;
return FMOD_OK;
}
static FMOD_RESULT F_CALLBACK close_reader_callback(void *handle, void *userdata)
{
return FMOD_OK;
}
static FMOD_RESULT F_CALLBACK read_reader_callback(void *handle, void *buffer, unsigned int sizebytes, unsigned int *bytesread, void *userdata)
{
FileReader *reader = reinterpret_cast<FileReader*>(handle);
*bytesread = reader->Read(buffer, sizebytes);
if(*bytesread > 0) return FMOD_OK;
return FMOD_ERR_FILE_EOF;
}
static FMOD_RESULT F_CALLBACK seek_reader_callback(void *handle, unsigned int pos, void *userdata)
{
FileReader *reader = reinterpret_cast<FileReader*>(handle);
if(reader->Seek(pos, SEEK_SET) == 0)
return FMOD_OK;
return FMOD_ERR_FILE_COULDNOTSEEK;
}
//==========================================================================
//
// FMODSoundRenderer :: OpenStream
//
// Creates a streaming sound from a FileReader.
//
//==========================================================================
SoundStream *FMODSoundRenderer::OpenStream(FileReader *reader, int flags)
{
FMOD_MODE mode;
FMOD_CREATESOUNDEXINFO exinfo;
FMOD::Sound *stream;
FMOD_RESULT result;
FString patches;
FString name;
InitCreateSoundExInfo(&exinfo);
exinfo.useropen = open_reader_callback;
exinfo.userclose = close_reader_callback;
exinfo.userread = read_reader_callback;
exinfo.userseek = seek_reader_callback;
mode = FMOD_SOFTWARE | FMOD_2D | FMOD_CREATESTREAM;
if(flags & SoundStream::Loop)
mode |= FMOD_LOOP_NORMAL;
if((*snd_midipatchset)[0] != '\0')
{
#ifdef _WIN32
// If the path does not contain any path separators, automatically
// prepend $PROGDIR to the path.
if (strcspn(snd_midipatchset, ":/\\") == strlen(snd_midipatchset))
{
patches << "$PROGDIR/" << snd_midipatchset;
patches = NicePath(patches);
}
else
#endif
{
patches = NicePath(snd_midipatchset);
}
exinfo.dlsname = patches;
}
name.Format("_FileReader_%p", reader);
result = Sys->createSound(name, mode, &exinfo, &stream);
if(result == FMOD_ERR_FORMAT && exinfo.dlsname != NULL)
{
// FMOD_ERR_FORMAT could refer to either the main sound file or
// to the DLS instrument set. Try again without special DLS
// instruments to see if that lets it succeed.
exinfo.dlsname = NULL;
result = Sys->createSound(name, mode, &exinfo, &stream);
if (result == FMOD_OK)
{
Printf("%s is an unsupported format.\n", *snd_midipatchset);
}
}
if(result != FMOD_OK)
return NULL;
SetCustomLoopPts(stream);
return new FMODStreamCapsule(stream, this, reader);
}
SoundStream *FMODSoundRenderer::OpenStream(const char *url, int flags)
{
FMOD_MODE mode;
FMOD_CREATESOUNDEXINFO exinfo;
FMOD::Sound *stream;
FMOD_RESULT result;
FString patches;
InitCreateSoundExInfo(&exinfo);
mode = FMOD_SOFTWARE | FMOD_2D | FMOD_CREATESTREAM;
if(flags & SoundStream::Loop)
mode |= FMOD_LOOP_NORMAL;
if((*snd_midipatchset)[0] != '\0')
{
#ifdef _WIN32
// If the path does not contain any path separators, automatically
// prepend $PROGDIR to the path.
if (strcspn(snd_midipatchset, ":/\\") == strlen(snd_midipatchset))
{
patches << "$PROGDIR/" << snd_midipatchset;
patches = NicePath(patches);
}
else
#endif
{
patches = NicePath(snd_midipatchset);
}
exinfo.dlsname = patches;
}
result = Sys->createSound(url, mode, &exinfo, &stream);
if(result == FMOD_ERR_FORMAT && exinfo.dlsname != NULL)
{
exinfo.dlsname = NULL;
result = Sys->createSound(url, mode, &exinfo, &stream);
if(result == FMOD_OK)
{
Printf("%s is an unsupported format.\n", *snd_midipatchset);
}
}
if(result != FMOD_OK)
return NULL;
SetCustomLoopPts(stream);
return new FMODStreamCapsule(stream, this, url);
}
//==========================================================================
//
// FMODSoundRenderer :: StartSound
//
//==========================================================================
FISoundChannel *FMODSoundRenderer::StartSound(SoundHandle sfx, float vol, int pitch, int flags, FISoundChannel *reuse_chan)
{
FMOD_RESULT result;
FMOD_MODE mode;
FMOD::Channel *chan;
float freq;
if (FMOD_OK == ((FMOD::Sound *)sfx.data)->getDefaults(&freq, NULL, NULL, NULL))
{
freq = PITCH(freq, pitch);
}
else
{
freq = 0;
}
GRolloff = NULL; // Do 2D sounds need rolloff?
result = Sys->playSound(FMOD_CHANNEL_FREE, (FMOD::Sound *)sfx.data, true, &chan);
if (FMOD_OK == result)
{
result = chan->getMode(&mode);
if (result != FMOD_OK)
{
assert(0);
mode = FMOD_SOFTWARE;
}
mode = (mode & ~FMOD_3D) | FMOD_2D;
if (flags & SNDF_LOOP)
{
mode &= ~FMOD_LOOP_OFF;
if (!(mode & (FMOD_LOOP_NORMAL | FMOD_LOOP_BIDI)))
{
mode |= FMOD_LOOP_NORMAL;
}
}
else
{
mode |= FMOD_LOOP_OFF;
}
chan->setMode(mode);
chan->setChannelGroup((flags & SNDF_NOPAUSE) ? SfxGroup : PausableSfx);
if (freq != 0)
{
chan->setFrequency(freq);
}
chan->setVolume(vol);
if (!HandleChannelDelay(chan, reuse_chan, flags & (SNDF_ABSTIME | SNDF_LOOP), freq))
{
chan->stop();
return NULL;
}
if (flags & SNDF_NOREVERB)
{
FMOD_REVERB_CHANNELPROPERTIES reverb = { 0, };
if (FMOD_OK == chan->getReverbProperties(&reverb))
{
reverb.Room = -10000;
chan->setReverbProperties(&reverb);
}
}
chan->setPaused(false);
return CommonChannelSetup(chan, reuse_chan);
}
//DPrintf ("Sound %s failed to play: %d\n", sfx->name.GetChars(), result);
return NULL;
}
//==========================================================================
//
// FMODSoundRenderer :: StartSound3D
//
//==========================================================================
FISoundChannel *FMODSoundRenderer::StartSound3D(SoundHandle sfx, SoundListener *listener, float vol,
FRolloffInfo *rolloff, float distscale,
int pitch, int priority, const FVector3 &pos, const FVector3 &vel,
int channum, int flags, FISoundChannel *reuse_chan)
{
FMOD_RESULT result;
FMOD_MODE mode;
FMOD::Channel *chan;
float freq;
float def_freq, def_vol, def_pan;
int numchans;
int def_priority;
if (FMOD_OK == ((FMOD::Sound *)sfx.data)->getDefaults(&def_freq, &def_vol, &def_pan, &def_priority))
{
freq = PITCH(def_freq, pitch);
// Change the sound's default priority before playing it.
((FMOD::Sound *)sfx.data)->setDefaults(def_freq, def_vol, def_pan, clamp(def_priority - priority, 1, 256));
}
else
{
freq = 0;
def_priority = -1;
}
// Play it.
GRolloff = rolloff;
GDistScale = distscale;
// Experiments indicate that playSound will ignore priorities and always succeed
// as long as the parameters are set properly. It will first try to kick out sounds
// with the same priority level but has no problem with kicking out sounds at
// higher priority levels if it needs to.
result = Sys->playSound(FMOD_CHANNEL_FREE, (FMOD::Sound *)sfx.data, true, &chan);
// Then set the priority back.
if (def_priority >= 0)
{
((FMOD::Sound *)sfx.data)->setDefaults(def_freq, def_vol, def_pan, def_priority);
}
if (FMOD_OK == result)
{
result = chan->getMode(&mode);
if (result != FMOD_OK)
{
mode = FMOD_3D | FMOD_SOFTWARE;
}
if (flags & SNDF_LOOP)
{
mode &= ~FMOD_LOOP_OFF;
if (!(mode & (FMOD_LOOP_NORMAL | FMOD_LOOP_BIDI)))
{
mode |= FMOD_LOOP_NORMAL;
}
}
else
{
// FMOD_LOOP_OFF overrides FMOD_LOOP_NORMAL and FMOD_LOOP_BIDI
mode |= FMOD_LOOP_OFF;
}
mode = SetChanHeadSettings(listener, chan, pos, !!(flags & SNDF_AREA), mode);
chan->setMode(mode);
chan->setChannelGroup((flags & SNDF_NOPAUSE) ? SfxGroup : PausableSfx);
if (mode & FMOD_3D)
{
// Reduce volume of stereo sounds, because each channel will be summed together
// and is likely to be very similar, resulting in an amplitude twice what it
// would have been had it been mixed to mono.
if (FMOD_OK == ((FMOD::Sound *)sfx.data)->getFormat(NULL, NULL, &numchans, NULL))
{
if (numchans > 1)
{
vol *= 0.5f;
}
}
}
if (freq != 0)
{
chan->setFrequency(freq);
}
chan->setVolume(vol);
if (mode & FMOD_3D)
{
chan->set3DAttributes((FMOD_VECTOR *)&pos[0], (FMOD_VECTOR *)&vel[0]);
}
if (!HandleChannelDelay(chan, reuse_chan, flags & (SNDF_ABSTIME | SNDF_LOOP), freq))
{
// FMOD seems to get confused if you stop a channel right after
// starting it, so hopefully this function will never fail.
// (Presumably you need an update between them, but I haven't
// tested this hypothesis.)
chan->stop();
return NULL;
}
if (flags & SNDF_NOREVERB)
{
FMOD_REVERB_CHANNELPROPERTIES reverb = { 0, };
if (FMOD_OK == chan->getReverbProperties(&reverb))
{
reverb.Room = -10000;
chan->setReverbProperties(&reverb);
}
}
chan->setPaused(false);
chan->getPriority(&def_priority);
FISoundChannel *schan = CommonChannelSetup(chan, reuse_chan);
schan->Rolloff = *rolloff;
return schan;
}
GRolloff = NULL;
//DPrintf ("Sound %s failed to play: %d\n", sfx->name.GetChars(), result);
return 0;
}
//==========================================================================
//
// FMODSoundRenderer :: MarkStartTime
//
// Marks a channel's start time without actually playing it.
//
//==========================================================================
void FMODSoundRenderer::MarkStartTime(FISoundChannel *chan)
{
Sys->getDSPClock(&chan->StartTime.Hi, &chan->StartTime.Lo);
}
//==========================================================================
//
// FMODSoundRenderer :: HandleChannelDelay
//
// If the sound is restarting, seek it to its proper place. Returns false
// if the sound would have ended.
//
// Otherwise, record its starting time, and return true.
//
//==========================================================================
bool FMODSoundRenderer::HandleChannelDelay(FMOD::Channel *chan, FISoundChannel *reuse_chan, int flags, float freq) const
{
if (reuse_chan != NULL)
{ // Sound is being restarted, so seek it to the position
// it would be in now if it had never been evicted.
QWORD_UNION nowtime;
chan->getDelay(FMOD_DELAYTYPE_DSPCLOCK_START, &nowtime.Hi, &nowtime.Lo);
// If abstime is set, the sound is being restored, and
// the channel's start time is actually its seek position.
if (flags & SNDF_ABSTIME)
{
unsigned int seekpos = reuse_chan->StartTime.Lo;
if (seekpos > 0)
{
chan->setPosition(seekpos, FMOD_TIMEUNIT_PCM);
}
reuse_chan->StartTime.AsOne = QWORD(nowtime.AsOne - seekpos * OutputRate / freq);
}
else if (reuse_chan->StartTime.AsOne != 0)
{
QWORD difftime = nowtime.AsOne - reuse_chan->StartTime.AsOne;
if (difftime > 0)
{
// Clamp the position of looping sounds to be within the sound.
// If we try to start it several minutes past its normal end,
// FMOD doesn't like that.
// FIXME: Clamp this right for loops that don't cover the whole sound.
if (flags & SNDF_LOOP)
{
FMOD::Sound *sound;
if (FMOD_OK == chan->getCurrentSound(&sound))
{
unsigned int len;
if (FMOD_OK == sound->getLength(&len, FMOD_TIMEUNIT_MS) && len != 0)
{
difftime %= len;
}
}
}
return chan->setPosition((unsigned int)(difftime / OutputRate), FMOD_TIMEUNIT_MS) == FMOD_OK;
}
}
}
else
{
// chan->setDelay(FMOD_DELAYTYPE_DSPCLOCK_START, DSPClock.Hi, DSPClock.Lo);
}
return true;
}
//==========================================================================
//
// FMODSoundRenderer :: SetChanHeadSettings
//
// If this sound is played at the same coordinates as the listener, make
// it head relative. Also, area sounds should use no 3D panning if close
// enough to the listener.
//
//==========================================================================
FMOD_MODE FMODSoundRenderer::SetChanHeadSettings(SoundListener *listener, FMOD::Channel *chan,
const FVector3 &pos, bool areasound,
FMOD_MODE oldmode) const
{
if (!listener->valid)
{
return oldmode;
}
FVector3 cpos, mpos;
cpos = listener->position;
if (areasound)
{
float level, old_level;
// How far are we from the perceived sound origin? Within a certain
// short distance, we interpolate between 2D panning and full 3D panning.
const double interp_range = 32.0;
double dist_sqr = (cpos - pos).LengthSquared();
if (dist_sqr == 0)
{
level = 0;
}
else if (dist_sqr <= interp_range * interp_range)
{ // Within interp_range: Interpolate between none and full 3D panning.
level = float(1 - (interp_range - sqrt(dist_sqr)) / interp_range);
}
else
{ // Beyond interp_range: Normal 3D panning.
level = 1;
}
if (chan->get3DPanLevel(&old_level) == FMOD_OK && old_level != level)
{ // Only set it if it's different.
chan->set3DPanLevel(level);
if (level < 1)
{ // Let the noise come from all speakers, not just the front ones.
// A centered 3D sound does not play at full volume, so neither should the 2D-panned one.
// This is sqrt(0.5), which is the result for a centered equal power panning.
chan->setSpeakerMix(0.70711f,0.70711f,0.70711f,0.70711f,0.70711f,0.70711f,0.70711f,0.70711f);
}
}
return oldmode;
}
else if (cpos == pos)
{ // Head relative
return (oldmode & ~FMOD_3D) | FMOD_2D;
}
// World relative
return (oldmode & ~FMOD_2D) | FMOD_3D;
}
//==========================================================================
//
// FMODSoundRenderer :: CommonChannelSetup
//
// Assign an end callback to the channel and allocates a game channel for
// it.
//
//==========================================================================
FISoundChannel *FMODSoundRenderer::CommonChannelSetup(FMOD::Channel *chan, FISoundChannel *reuse_chan) const
{
FISoundChannel *schan;
if (reuse_chan != NULL)
{
schan = reuse_chan;
schan->SysChannel = chan;
}
else
{
schan = S_GetChannel(chan);
chan->getDelay(FMOD_DELAYTYPE_DSPCLOCK_START, &schan->StartTime.Hi, &schan->StartTime.Lo);
}
chan->setUserData(schan);
chan->setCallback(ChannelCallback);
GRolloff = NULL;
return schan;
}
//==========================================================================
//
// FMODSoundRenderer :: StopChannel
//
//==========================================================================
void FMODSoundRenderer::StopChannel(FISoundChannel *chan)
{
if (chan != NULL && chan->SysChannel != NULL)
{
if (((FMOD::Channel *)chan->SysChannel)->stop() == FMOD_ERR_INVALID_HANDLE)
{ // The channel handle was invalid; pretend it ended.
S_ChannelEnded(chan);
}
}
}
//==========================================================================
//
// FMODSoundRenderer :: ChannelVolume
//
//==========================================================================
void FMODSoundRenderer::ChannelVolume(FISoundChannel *chan, float volume)
{
if (chan != NULL && chan->SysChannel != NULL)
{
((FMOD::Channel *)chan->SysChannel)->setVolume(volume);
}
}
//==========================================================================
//
// FMODSoundRenderer :: GetPosition
//
// Returns position of sound on this channel, in samples.
//
//==========================================================================
unsigned int FMODSoundRenderer::GetPosition(FISoundChannel *chan)
{
unsigned int pos;
if (chan == NULL || chan->SysChannel == NULL)
{
return 0;
}
((FMOD::Channel *)chan->SysChannel)->getPosition(&pos, FMOD_TIMEUNIT_PCM);
return pos;
}
//==========================================================================
//
// FMODSoundRenderer :: GetAudibility
//
// Returns the audible volume of the channel, after rollof and any other
// factors are applied.
//
//==========================================================================
float FMODSoundRenderer::GetAudibility(FISoundChannel *chan)
{
float aud;
if (chan == NULL || chan->SysChannel == NULL)
{
return 0;
}
((FMOD::Channel *)chan->SysChannel)->getAudibility(&aud);
return aud;
}
//==========================================================================
//
// FMODSoundRenderer :: SetSfxPaused
//
//==========================================================================
void FMODSoundRenderer::SetSfxPaused(bool paused, int slot)
{
int oldslots = SFXPaused;
if (paused)
{
SFXPaused |= 1 << slot;
}
else
{
SFXPaused &= ~(1 << slot);
}
//Printf("%d\n", SFXPaused);
if (oldslots != 0 && SFXPaused == 0)
{
PausableSfx->setPaused(false);
}
else if (oldslots == 0 && SFXPaused != 0)
{
PausableSfx->setPaused(true);
}
}
//==========================================================================
//
// FMODSoundRenderer :: SetInactive
//
// This is similar to SetSfxPaused but will *pause* everything, including
// the global reverb effect. This is meant to be used only when the
// game is deactivated, not for general sound pausing.
//
//==========================================================================
void FMODSoundRenderer::SetInactive(SoundRenderer::EInactiveState inactive)
{
float mix;
bool active;
if (inactive == INACTIVE_Active)
{
mix = 1;
active = true;
}
else if (inactive == INACTIVE_Complete)
{
mix = 1;
active = false;
}
else // inactive == INACTIVE_Mute
{
mix = 0;
active = true;
}
if (ChannelGroupTargetUnitOutput != NULL)
{
ChannelGroupTargetUnitOutput->setMix(mix);
}
if (ChannelGroupTargetUnit != NULL)
{
ChannelGroupTargetUnit->setActive(active);
}
}
//==========================================================================
//
// FMODSoundRenderer :: UpdateSoundParams3D
//
//==========================================================================
void FMODSoundRenderer::UpdateSoundParams3D(SoundListener *listener, FISoundChannel *chan, bool areasound, const FVector3 &pos, const FVector3 &vel)
{
if (chan == NULL || chan->SysChannel == NULL)
return;
FMOD::Channel *fchan = (FMOD::Channel *)chan->SysChannel;
FMOD_MODE oldmode, mode;
if (fchan->getMode(&oldmode) != FMOD_OK)
{
oldmode = FMOD_3D | FMOD_SOFTWARE;
}
mode = SetChanHeadSettings(listener, fchan, pos, areasound, oldmode);
if (mode != oldmode)
{ // Only set the mode if it changed.
fchan->setMode(mode);
}
fchan->set3DAttributes((FMOD_VECTOR *)&pos[0], (FMOD_VECTOR *)&vel[0]);
}
//==========================================================================
//
// FMODSoundRenderer :: UpdateListener
//
//==========================================================================
void FMODSoundRenderer::UpdateListener(SoundListener *listener)
{
FMOD_VECTOR pos, vel;
FMOD_VECTOR forward;
FMOD_VECTOR up;
if (!listener->valid)
{
return;
}
// Set velocity to 0 to prevent crazy doppler shifts just from running.
vel.x = listener->velocity.X;
vel.y = listener->velocity.Y;
vel.z = listener->velocity.Z;
pos.x = listener->position.X;
pos.y = listener->position.Y;
pos.z = listener->position.Z;
float angle = listener->angle;
forward.x = cos(angle);
forward.y = 0;
forward.z = sin(angle);
up.x = 0;
up.y = 1;
up.z = 0;
Sys->set3DListenerAttributes(0, &pos, &vel, &forward, &up);
bool underwater = false;
const ReverbContainer *env;
underwater = (listener->underwater && snd_waterlp);
if (ForcedEnvironment)
{
env = ForcedEnvironment;
}
else
{
env = listener->Environment;
if (env == NULL)
{
env = DefaultEnvironments[0];
}
}
if (env != PrevEnvironment || env->Modified)
{
DPrintf ("Reverb Environment %s\n", env->Name);
const_cast<ReverbContainer*>(env)->Modified = false;
SetSystemReverbProperties(&env->Properties);
PrevEnvironment = env;
if (!SfxReverbHooked)
{
SfxReverbHooked = ReconnectSFXReverbUnit();
}
}
if (underwater || env->SoftwareWater)
{
//PausableSfx->setPitch(0.64171f); // This appears to be what Duke 3D uses
PausableSfx->setPitch(0.7937005f); // Approx. 4 semitones lower; what Nash suggested
if (WaterLP != NULL)
{
if (LastWaterLP != snd_waterlp)
{
LastWaterLP = snd_waterlp;
WaterLP->setParameter(FMOD_DSP_LOWPASS_CUTOFF, snd_waterlp);
}
WaterLP->setActive(true);
if (WaterReverb != NULL && snd_waterreverb)
{
WaterReverb->setActive(true);
WaterReverb->setBypass(false);
SfxConnection->setMix(0);
}
else
{
// Let some of the original mix through so that high frequencies are
// not completely lost. The reverb unit has its own connection and
// preserves dry sounds itself if used.
SfxConnection->setMix(0.1f);
if (WaterReverb != NULL)
{
WaterReverb->setActive(true);
WaterReverb->setBypass(true);
}
}
}
}
else
{
PausableSfx->setPitch(1);
if (WaterLP != NULL)
{
SfxConnection->setMix(1);
WaterLP->setActive(false);
if (WaterReverb != NULL)
{
WaterReverb->setActive(false);
}
}
}
}
//==========================================================================
//
// FMODSoundRenderer :: ReconnectSFXReverbUnit
//
// Locates the DSP unit responsible for software 3D reverb. There is only
// one, and it by default is connected directly to the ChannelGroup Target
// Unit. Older versions of FMOD created this at startup; newer versions
// delay creating it until the first call to setReverbProperties, at which
// point it persists until the system is closed.
//
// Upon locating the proper DSP unit, reconnects it to serve as an input to
// our water DSP chain after the Pausable SFX ChannelGroup.
//
//==========================================================================
bool FMODSoundRenderer::ReconnectSFXReverbUnit()
{
FMOD::DSP *unit;
FMOD_DSP_TYPE type;
int numinputs, i;
if (ChannelGroupTargetUnit == NULL || SfxReverbPlaceholder == NULL)
{
return false;
}
// Look for SFX Reverb unit
if (FMOD_OK != ChannelGroupTargetUnit->getNumInputs(&numinputs))
{
return false;
}
for (i = numinputs - 1; i >= 0; --i)
{
if (FMOD_OK == ChannelGroupTargetUnit->getInput(i, &unit, NULL) &&
FMOD_OK == unit->getType(&type))
{
if (type == FMOD_DSP_TYPE_SFXREVERB)
{
break;
}
}
}
if (i < 0)
{
return false;
}
// Found it! Now move it in the DSP graph to be done before the water
// effect.
if (FMOD_OK != ChannelGroupTargetUnit->disconnectFrom(unit))
{
return false;
}
if (FMOD_OK != SfxReverbPlaceholder->addInput(unit, NULL))
{
return false;
}
return true;
}
//==========================================================================
//
// FMODSoundRenderer :: Sync
//
// Used by the save/load code to restart sounds at the same position they
// were in at the time of saving. Must not be nested.
//
//==========================================================================
void FMODSoundRenderer::Sync(bool sync)
{
DSPLocked = sync;
if (sync)
{
Sys->lockDSP();
Sys->getDSPClock(&DSPClock.Hi, &DSPClock.Lo);
}
else
{
Sys->unlockDSP();
}
}
//==========================================================================
//
// FMODSoundRenderer :: UpdateSounds
//
//==========================================================================
void FMODSoundRenderer::UpdateSounds()
{
// Any sounds played between now and the next call to this function
// will start exactly one tic from now.
Sys->getDSPClock(&DSPClock.Hi, &DSPClock.Lo);
DSPClock.AsOne += OutputRate / TICRATE;
Sys->update();
}
//==========================================================================
//
// FMODSoundRenderer :: LoadSoundRaw
//
//==========================================================================
SoundHandle FMODSoundRenderer::LoadSoundRaw(BYTE *sfxdata, int length, int frequency, int channels, int bits, int loopstart, int loopend)
{
FMOD_CREATESOUNDEXINFO exinfo;
SoundHandle retval = { NULL };
int numsamples;
if (length <= 0)
{
return retval;
}
InitCreateSoundExInfo(&exinfo);
exinfo.length = length;
exinfo.numchannels = channels;
exinfo.defaultfrequency = frequency;
switch (bits)
{
case 8:
// Need to convert sample data from unsigned to signed.
for (int i = 0; i < length; ++i)
{
sfxdata[i] = sfxdata[i] - 128;
}
case -8:
exinfo.format = FMOD_SOUND_FORMAT_PCM8;
numsamples = length;
break;
case 16:
exinfo.format = FMOD_SOUND_FORMAT_PCM16;
numsamples = length >> 1;
break;
case 32:
exinfo.format = FMOD_SOUND_FORMAT_PCM32;
numsamples = length >> 2;
break;
default:
return retval;
}
const FMOD_MODE samplemode = FMOD_3D | FMOD_OPENMEMORY | FMOD_SOFTWARE | FMOD_OPENRAW;
FMOD::Sound *sample;
FMOD_RESULT result;
result = Sys->createSound((char *)sfxdata, samplemode, &exinfo, &sample);
if (result != FMOD_OK)
{
DPrintf("Failed to allocate sample: Error %d\n", result);
return retval;
}
if (loopstart >= 0)
{
if (loopend == -1)
loopend = numsamples - 1;
sample->setLoopPoints(loopstart, FMOD_TIMEUNIT_PCM, loopend, FMOD_TIMEUNIT_PCM);
}
retval.data = sample;
return retval;
}
//==========================================================================
//
// FMODSoundRenderer :: LoadSound
//
//==========================================================================
SoundHandle FMODSoundRenderer::LoadSound(BYTE *sfxdata, int length)
{
FMOD_CREATESOUNDEXINFO exinfo;
SoundHandle retval = { NULL };
if (length == 0) return retval;
InitCreateSoundExInfo(&exinfo);
exinfo.length = length;
const FMOD_MODE samplemode = FMOD_3D | FMOD_OPENMEMORY | FMOD_SOFTWARE;
FMOD::Sound *sample;
FMOD_RESULT result;
result = Sys->createSound((char *)sfxdata, samplemode, &exinfo, &sample);
if (result != FMOD_OK)
{
DPrintf("Failed to allocate sample: Error %d\n", result);
return retval;
}
SetCustomLoopPts(sample);
retval.data = sample;
return retval;
}
//==========================================================================
//
// FMODSoundRenderer :: UnloadSound
//
//==========================================================================
void FMODSoundRenderer::UnloadSound(SoundHandle sfx)
{
if (sfx.data != NULL)
{
((FMOD::Sound *)sfx.data)->release();
}
}
//==========================================================================
//
// FMODSoundRenderer :: GetMSLength
//
//==========================================================================
unsigned int FMODSoundRenderer::GetMSLength(SoundHandle sfx)
{
if (sfx.data != NULL)
{
unsigned int length;
if (((FMOD::Sound *)sfx.data)->getLength(&length, FMOD_TIMEUNIT_MS) == FMOD_OK)
{
return length;
}
}
return 0; // Don't know.
}
//==========================================================================
//
// FMODSoundRenderer :: GetMSLength
//
//==========================================================================
unsigned int FMODSoundRenderer::GetSampleLength(SoundHandle sfx)
{
if (sfx.data != NULL)
{
unsigned int length;
if (((FMOD::Sound *)sfx.data)->getLength(&length, FMOD_TIMEUNIT_PCM) == FMOD_OK)
{
return length;
}
}
return 0; // Don't know.
}
//==========================================================================
//
// FMODSoundRenderer :: ChannelCallback static
//
// Handles when a channel finishes playing. This is only called when
// System::update is called and is therefore asynchronous with the actual
// end of the channel.
//
//==========================================================================
FMOD_RESULT F_CALLBACK FMODSoundRenderer::ChannelCallback
(FMOD_CHANNEL *channel, FMOD_CHANNEL_CALLBACKTYPE type, void *data1, void *data2)
{
FMOD::Channel *chan = (FMOD::Channel *)channel;
FISoundChannel *schan;
if (chan->getUserData((void **)&schan) == FMOD_OK && schan != NULL)
{
if (type == FMOD_CHANNEL_CALLBACKTYPE_END)
{
S_ChannelEnded(schan);
}
else if (type == FMOD_CHANNEL_CALLBACKTYPE_VIRTUALVOICE)
{
S_ChannelVirtualChanged(schan, data1 != 0);
}
}
return FMOD_OK;
}
//==========================================================================
//
// FMODSoundRenderer :: RolloffCallback static
//
// Calculates a volume for the sound based on distance.
//
//==========================================================================
float F_CALLBACK FMODSoundRenderer::RolloffCallback(FMOD_CHANNEL *channel, float distance)
{
FMOD::Channel *chan = (FMOD::Channel *)channel;
FISoundChannel *schan;
if (GRolloff != NULL)
{
return S_GetRolloff(GRolloff, distance * GDistScale, true);
}
else if (chan->getUserData((void **)&schan) == FMOD_OK && schan != NULL)
{
return S_GetRolloff(&schan->Rolloff, distance * schan->DistanceScale, true);
}
else
{
return 0;
}
}
//==========================================================================
//
// FMODSoundRenderer :: DrawWaveDebug
//
// Bit 0: ( 1) Show oscilloscope for sfx.
// Bit 1: ( 2) Show spectrum for sfx.
// Bit 2: ( 4) Show oscilloscope for music.
// Bit 3: ( 8) Show spectrum for music.
// Bit 4: (16) Show oscilloscope for all sounds.
// Bit 5: (32) Show spectrum for all sounds.
//
//==========================================================================
void FMODSoundRenderer::DrawWaveDebug(int mode)
{
const int window_height = 100;
int window_size;
int numoutchans;
int y, yy;
const spk *labels;
int labelcount;
if (FMOD_OK != Sys->getSoftwareFormat(NULL, NULL, &numoutchans, NULL, NULL, NULL))
{
return;
}
// Decide on which set of labels to use.
labels = (numoutchans == 4) ? SpeakerNames4 : SpeakerNamesMore;
labelcount = MIN<int>(numoutchans, countof(SpeakerNamesMore));
// Scale all the channel windows so one group fits completely on one row, with
// 16 pixels of padding between each window.
window_size = (screen->GetWidth() - 16) / numoutchans - 16;
float *wavearray = (float*)alloca(MAX(SPECTRUM_SIZE,window_size)*sizeof(float));
y = 16;
yy = DrawChannelGroupOutput(SfxGroup, wavearray, window_size, window_height, y, mode);
if (y != yy)
{
DrawSpeakerLabels(labels, yy-14, window_size, labelcount);
}
y = DrawChannelGroupOutput(MusicGroup, wavearray, window_size, window_height, yy, mode >> 2);
if (y != yy)
{
DrawSpeakerLabels(labels, y-14, window_size, labelcount);
}
yy = DrawSystemOutput(wavearray, window_size, window_height, y, mode >> 4);
if (y != yy)
{
DrawSpeakerLabels(labels, yy-14, window_size, labelcount);
}
}
//==========================================================================
//
// FMODSoundRenderer :: DrawSpeakerLabels
//
//==========================================================================
void FMODSoundRenderer::DrawSpeakerLabels(const spk *labels, int y, int width, int count)
{
if (labels == NULL)
{
return;
}
for (int i = 0, x = 16; i < count; ++i)
{
screen->DrawText(SmallFont, CR_LIGHTBLUE, x, y, labels[i], TAG_DONE);
x += width + 16;
}
}
//==========================================================================
//
// FMODSoundRenderer :: DrawChannelGroupOutput
//
// Draws an oscilloscope and/or a spectrum for a channel group.
//
//==========================================================================
int FMODSoundRenderer::DrawChannelGroupOutput(FMOD::ChannelGroup *group, float *wavearray, int width, int height, int y, int mode)
{
int y1, y2;
switch (mode & 0x03)
{
case 0x01: // Oscilloscope only
return DrawChannelGroupWaveData(group, wavearray, width, height, y, false);
case 0x02: // Spectrum only
return DrawChannelGroupSpectrum(group, wavearray, width, height, y, false);
case 0x03: // Oscilloscope + Spectrum
width = (width + 16) / 2 - 16;
y1 = DrawChannelGroupSpectrum(group, wavearray, width, height, y, true);
y2 = DrawChannelGroupWaveData(group, wavearray, width, height, y, true);
return MAX(y1, y2);
}
return y;
}
//==========================================================================
//
// FMODSoundRenderer :: DrawSystemOutput
//
// Like DrawChannelGroupOutput(), but uses the system object.
//
//==========================================================================
int FMODSoundRenderer::DrawSystemOutput(float *wavearray, int width, int height, int y, int mode)
{
int y1, y2;
switch (mode & 0x03)
{
case 0x01: // Oscilloscope only
return DrawSystemWaveData(wavearray, width, height, y, false);
case 0x02: // Spectrum only
return DrawSystemSpectrum(wavearray, width, height, y, false);
case 0x03: // Oscilloscope + Spectrum
width = (width + 16) / 2 - 16;
y1 = DrawSystemSpectrum(wavearray, width, height, y, true);
y2 = DrawSystemWaveData(wavearray, width, height, y, true);
return MAX(y1, y2);
}
return y;
}
//==========================================================================
//
// FMODSoundRenderer :: DrawChannelGroupWaveData
//
// Draws all the output channels for a specified channel group.
// Setting skip to true causes it to skip every other window.
//
//==========================================================================
int FMODSoundRenderer::DrawChannelGroupWaveData(FMOD::ChannelGroup *group, float *wavearray, int width, int height, int y, bool skip)
{
int drawn = 0;
int x = 16;
while (FMOD_OK == group->getWaveData(wavearray, width, drawn))
{
drawn++;
DrawWave(wavearray, x, y, width, height);
x += (width + 16) << int(skip);
}
if (drawn)
{
y += height + 16;
}
return y;
}
//==========================================================================
//
// FMODSoundRenderer::DrawSystemWaveData
//
// Like DrawChannelGroupWaveData, but it uses the system object to get the
// complete output.
//
//==========================================================================
int FMODSoundRenderer::DrawSystemWaveData(float *wavearray, int width, int height, int y, bool skip)
{
int drawn = 0;
int x = 16;
while (FMOD_OK == Sys->getWaveData(wavearray, width, drawn))
{
drawn++;
DrawWave(wavearray, x, y, width, height);
x += (width + 16) << int(skip);
}
if (drawn)
{
y += height + 16;
}
return y;
}
//==========================================================================
//
// FMODSoundRenderer :: DrawWave
//
// Draws an oscilloscope at the specified coordinates on the screen. Each
// entry in the wavearray buffer has its own column. IOW, there are <width>
// entries in wavearray.
//
//==========================================================================
void FMODSoundRenderer::DrawWave(float *wavearray, int x, int y, int width, int height)
{
float scale = height / 2.f;
float mid = y + scale;
int i;
// Draw a box around the oscilloscope.
screen->DrawLine(x - 1, y - 1, x + width, y - 1, -1, MAKEARGB(160, 0, 40, 200));
screen->DrawLine(x + width, y - 1, x + width, y + height, -1, MAKEARGB(160, 0, 40, 200));
screen->DrawLine(x + width, y + height, x - 1, y + height, -1, MAKEARGB(160, 0, 40, 200));
screen->DrawLine(x - 1, y + height, x - 1, y - 1, -1, MAKEARGB(160, 0, 40, 200));
// Draw the actual oscilloscope.
if (screen->Accel2D)
{ // Drawing this with lines is super-slow without hardware acceleration, at least with
// the debug build.
float lasty = mid - wavearray[0] * scale;
float newy;
for (i = 1; i < width; ++i)
{
newy = mid - wavearray[i] * scale;
screen->DrawLine(x + i - 1, int(lasty), x + i, int(newy), -1, MAKEARGB(255,255,248,248));
lasty = newy;
}
}
else
{
for (i = 0; i < width; ++i)
{
float y = wavearray[i] * scale + mid;
screen->DrawPixel(x + i, int(y), -1, MAKEARGB(255,255,255,255));
}
}
}
//==========================================================================
//
// FMODSoundRenderer :: DrawChannelGroupSpectrum
//
// Draws all the spectrum for a specified channel group.
// Setting skip to true causes it to skip every other window, starting at
// the second one.
//
//==========================================================================
int FMODSoundRenderer::DrawChannelGroupSpectrum(FMOD::ChannelGroup *group, float *spectrumarray, int width, int height, int y, bool skip)
{
int drawn = 0;
int x = 16;
if (skip)
{
x += width + 16;
}
while (FMOD_OK == group->getSpectrum(spectrumarray, SPECTRUM_SIZE, drawn, FMOD_DSP_FFT_WINDOW_TRIANGLE))
{
drawn++;
DrawSpectrum(spectrumarray, x, y, width, height);
x += (width + 16) << int(skip);
}
if (drawn)
{
y += height + 16;
}
return y;
}
//==========================================================================
//
// FMODSoundRenderer::DrawSystemSpectrum
//
// Like DrawChannelGroupSpectrum, but it uses the system object to get the
// complete output.
//
//==========================================================================
int FMODSoundRenderer::DrawSystemSpectrum(float *spectrumarray, int width, int height, int y, bool skip)
{
int drawn = 0;
int x = 16;
if (skip)
{
x += width + 16;
}
while (FMOD_OK == Sys->getSpectrum(spectrumarray, SPECTRUM_SIZE, drawn, FMOD_DSP_FFT_WINDOW_TRIANGLE))
{
drawn++;
DrawSpectrum(spectrumarray, x, y, width, height);
x += (width + 16) << int(skip);
}
if (drawn)
{
y += height + 16;
}
return y;
}
//==========================================================================
//
// FMODSoundRenderer :: DrawSpectrum
//
// Draws a spectrum at the specified coordinates on the screen.
//
//==========================================================================
void FMODSoundRenderer::DrawSpectrum(float *spectrumarray, int x, int y, int width, int height)
{
float scale = height / 2.f;
float mid = y + scale;
float db;
int top;
// Draw a border and dark background for the spectrum.
screen->DrawLine(x - 1, y - 1, x + width, y - 1, -1, MAKEARGB(160, 0, 40, 200));
screen->DrawLine(x + width, y - 1, x + width, y + height, -1, MAKEARGB(160, 0, 40, 200));
screen->DrawLine(x + width, y + height, x - 1, y + height, -1, MAKEARGB(160, 0, 40, 200));
screen->DrawLine(x - 1, y + height, x - 1, y - 1, -1, MAKEARGB(160, 0, 40, 200));
screen->Dim(MAKERGB(0,0,0), 0.3f, x, y, width, height);
// Draw the actual spectrum.
for (int i = 0; i < width; ++i)
{
db = spectrumarray[i * (SPECTRUM_SIZE - 2) / width + 1];
db = MAX(-150.f, 10 * log10f(db) * 2); // Convert to decibels and clamp
db = 1.f - (db / -150.f);
db *= height;
top = (int)db;
if (top >= height)
{
top = height - 1;
}
// screen->Clear(x + i, int(y + height - db), x + i + 1, y + height, -1, MAKEARGB(255, 255, 255, 40));
screen->Dim(MAKERGB(255,255,40), 0.65f, x + i, y + height - top, 1, top);
}
}
//==========================================================================
//
// FMODSoundRenderer :: DecodeSample
//
// Uses FMOD to decode a compressed sample to a 16-bit buffer. This is used
// by the DUMB XM reader to handle FMOD's OggMods.
//
//==========================================================================
short *FMODSoundRenderer::DecodeSample(int outlen, const void *coded, int sizebytes, ECodecType type)
{
FMOD_CREATESOUNDEXINFO exinfo;
FMOD::Sound *sound;
FMOD_SOUND_FORMAT format;
int channels;
unsigned int len, amt_read;
FMOD_RESULT result;
short *outbuf;
InitCreateSoundExInfo(&exinfo);
if (type == CODEC_Vorbis)
{
exinfo.suggestedsoundtype = FMOD_SOUND_TYPE_OGGVORBIS;
}
exinfo.length = sizebytes;
result = Sys->createSound((const char *)coded,
FMOD_2D | FMOD_SOFTWARE | FMOD_CREATESTREAM |
FMOD_OPENMEMORY_POINT | FMOD_OPENONLY | FMOD_LOWMEM,
&exinfo, &sound);
if (result != FMOD_OK)
{
return NULL;
}
result = sound->getFormat(NULL, &format, &channels, NULL);
// TODO: Handle more formats if it proves necessary.
if (result != FMOD_OK || format != FMOD_SOUND_FORMAT_PCM16 || channels != 1)
{
sound->release();
return NULL;
}
len = outlen;
// Must be malloc'ed for DUMB, which is C.
outbuf = (short *)malloc(len);
result = sound->readData(outbuf, len, &amt_read);
sound->release();
if (result == FMOD_ERR_FILE_EOF)
{
memset((BYTE *)outbuf + amt_read, 0, len - amt_read);
}
else if (result != FMOD_OK || amt_read != len)
{
free(outbuf);
return NULL;
}
return outbuf;
}
//==========================================================================
//
// FMODSoundRenderer :: InitCreateSoundExInfo
//
// Allow for compiling with 4.26 APIs while still running with older DLLs.
//
//==========================================================================
void FMODSoundRenderer::InitCreateSoundExInfo(FMOD_CREATESOUNDEXINFO *exinfo) const
{
memset(exinfo, 0, sizeof(*exinfo));
#if FMOD_VERSION >= 0x42600 && FMOD_VERSION < 0x43800
if (ActiveFMODVersion < 0x42600)
{
// This parameter was added for 4.26.00, and trying to pass it to older
// DLLs will fail.
exinfo->cbsize = myoffsetof(FMOD_CREATESOUNDEXINFO, ignoresetfilesystem);
}
else
#endif
{
exinfo->cbsize = sizeof(*exinfo);
}
}
//==========================================================================
//
// FMODSoundRenderer :: SetSystemReverbProperties
//
// Set the global reverb properties.
//
//==========================================================================
FMOD_RESULT FMODSoundRenderer::SetSystemReverbProperties(const REVERB_PROPERTIES *props)
{
#if FMOD_VERSION < 0x43800
return Sys->setReverbProperties((const FMOD_REVERB_PROPERTIES *)props);
#else
// The reverb format changed when hardware mixing support was dropped, because
// all EAX-only properties were removed from the structure.
FMOD_REVERB_PROPERTIES fr;
fr.Instance = props->Instance;
fr.Environment = props->Environment;
fr.EnvDiffusion = props->EnvDiffusion;
fr.Room = props->Room;
fr.RoomHF = props->RoomHF;
fr.RoomLF = props->RoomLF;
fr.DecayTime = props->DecayTime;
fr.DecayHFRatio = props->DecayHFRatio;
fr.DecayLFRatio = props->DecayLFRatio;
fr.Reflections = props->Reflections;
fr.ReflectionsDelay = props->ReflectionsDelay;
fr.Reverb = props->Reverb;
fr.ReverbDelay = props->ReverbDelay;
fr.ModulationTime = props->ModulationTime;
fr.ModulationDepth = props->ModulationDepth;
fr.HFReference = props->HFReference;
fr.LFReference = props->LFReference;
fr.Diffusion = props->Diffusion;
fr.Density = props->Density;
fr.Flags = props->Flags;
return Sys->setReverbProperties(&fr);
#endif
}
#endif // NO_FMOD
//==========================================================================
//
// IsFModExPresent
//
// Check if FMod can be used
//
//==========================================================================
bool IsFModExPresent()
{
#ifdef NO_FMOD
return false;
#elif !defined _WIN32
return true; // on non-Windows we cannot delay load the library so it has to be present.
#else
static bool cached_result;
static bool done = false;
if (!done)
{
done = true;
FMOD::System *Sys;
FMOD_RESULT result;
__try
{
result = FMOD::System_Create(&Sys);
}
__except (CheckException(GetExceptionCode()))
{
// FMod could not be delay loaded
return false;
}
if (result == FMOD_OK) Sys->release();
cached_result = true;
}
return cached_result;
#endif
}
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