vkdoom_m/src/sound/music_midi_base.cpp
Christoph Oelckers 8d6fe24945 cleanup of MIDI code dependencies
* make the critical section local to the respective platform instead of polluting everything with system specific symbols.
* moved system specific class declarations into the source file instead of having them in the global header.

This commit temporarily disables the Windows system device because it cannot be done without polluting the global header and still needs a bit of refactoring.
2017-03-10 19:08:36 +01:00

233 lines
5.5 KiB
C++

#include "i_midi_win32.h"
#include "i_musicinterns.h"
#include "c_dispatch.h"
#include "i_music.h"
#include "i_system.h"
#include "templates.h"
#include "v_text.h"
#include "menu/menu.h"
static DWORD nummididevices;
static bool nummididevicesset;
#ifdef HAVE_FLUIDSYNTH
#define NUM_DEF_DEVICES 6
#else
#define NUM_DEF_DEVICES 5
#endif
static void AddDefaultMidiDevices(FOptionValues *opt)
{
int p;
FOptionValues::Pair *pair = &opt->mValues[opt->mValues.Reserve(NUM_DEF_DEVICES)];
#ifdef HAVE_FLUIDSYNTH
pair[0].Text = "FluidSynth";
pair[0].Value = -5.0;
p = 1;
#else
p = 0;
#endif
pair[p].Text = "GUS";
pair[p].Value = -4.0;
pair[p+1].Text = "OPL Synth Emulation";
pair[p+1].Value = -3.0;
pair[p+2].Text = "TiMidity++";
pair[p+2].Value = -2.0;
pair[p+3].Text = "WildMidi";
pair[p+3].Value = -6.0;
pair[p+4].Text = "Sound System";
pair[p+4].Value = -1.0;
}
static void MIDIDeviceChanged(int newdev)
{
static int oldmididev = INT_MIN;
// If a song is playing, move it to the new device.
if (oldmididev != newdev)
{
if (currSong != NULL && currSong->IsMIDI())
{
MusInfo *song = currSong;
if (song->m_Status == MusInfo::STATE_Playing)
{
song->Stop();
song->Start(song->m_Looping);
}
}
else
{
S_MIDIDeviceChanged();
}
}
oldmididev = newdev;
}
#ifdef _WIN32
unsigned mididevice;
CUSTOM_CVAR (Int, snd_mididevice, -1, CVAR_ARCHIVE|CVAR_GLOBALCONFIG)
{
if (!nummididevicesset)
return;
if ((self >= (signed)nummididevices) || (self < -6))
{
// Don't do repeated message spam if there is no valid device.
if (self != 0)
{
Printf("ID out of range. Using default device.\n");
self = 0;
}
return;
}
mididevice = MAX<UINT>(0, self);
MIDIDeviceChanged(self);
}
void I_InitMusicWin32 ()
{
nummididevices = midiOutGetNumDevs ();
nummididevicesset = true;
snd_mididevice.Callback ();
}
void I_ShutdownMusicWin32 ()
{
// Ancient bug a saw on NT 4.0 and an old version of FMOD 3: If waveout
// is used for sound and a MIDI is also played, then when I quit, the OS
// tells me a free block was modified after being freed. This is
// apparently a synchronization issue between two threads, because if I
// put this Sleep here after stopping the music but before shutting down
// the entire sound system, the error does not happen. Observed with a
// Vortex 2 (may Aureal rest in peace) and an Audigy (damn you, Creative!).
// I no longer have a system with NT4 drivers, so I don't know if this
// workaround is still needed or not.
if (OSPlatform == os_WinNT4)
{
Sleep(50);
}
}
void I_BuildMIDIMenuList (FOptionValues *opt)
{
AddDefaultMidiDevices(opt);
for (DWORD id = 0; id < nummididevices; ++id)
{
MIDIOUTCAPS caps;
MMRESULT res;
res = midiOutGetDevCaps (id, &caps, sizeof(caps));
assert(res == MMSYSERR_NOERROR);
if (res == MMSYSERR_NOERROR)
{
FOptionValues::Pair *pair = &opt->mValues[opt->mValues.Reserve(1)];
pair->Text = caps.szPname;
pair->Value = (float)id;
}
}
}
static void PrintMidiDevice (int id, const char *name, uint16_t tech, DWORD support)
{
if (id == snd_mididevice)
{
Printf (TEXTCOLOR_BOLD);
}
Printf ("% 2d. %s : ", id, name);
switch (tech)
{
case MIDIDEV_MIDIPORT: Printf ("MIDIPORT"); break;
case MIDIDEV_SYNTH: Printf ("SYNTH"); break;
case MIDIDEV_SQSYNTH: Printf ("SQSYNTH"); break;
case MIDIDEV_FMSYNTH: Printf ("FMSYNTH"); break;
case MIDIDEV_MAPPER: Printf ("MAPPER"); break;
case MIDIDEV_WAVETABLE: Printf ("WAVETABLE"); break;
case MIDIDEV_SWSYNTH: Printf ("SWSYNTH"); break;
}
if (support & MIDICAPS_CACHE)
{
Printf (" CACHE");
}
if (support & MIDICAPS_LRVOLUME)
{
Printf (" LRVOLUME");
}
if (support & MIDICAPS_STREAM)
{
Printf (" STREAM");
}
if (support & MIDICAPS_VOLUME)
{
Printf (" VOLUME");
}
Printf (TEXTCOLOR_NORMAL "\n");
}
CCMD (snd_listmididevices)
{
UINT id;
MIDIOUTCAPS caps;
MMRESULT res;
PrintMidiDevice (-6, "WildMidi", MIDIDEV_SWSYNTH, 0);
#ifdef HAVE_FLUIDSYNTH
PrintMidiDevice (-5, "FluidSynth", MIDIDEV_SWSYNTH, 0);
#endif
PrintMidiDevice (-4, "Gravis Ultrasound Emulation", MIDIDEV_SWSYNTH, 0);
PrintMidiDevice (-3, "Emulated OPL FM Synth", MIDIDEV_FMSYNTH, 0);
PrintMidiDevice (-2, "TiMidity++", MIDIDEV_SWSYNTH, 0);
PrintMidiDevice (-1, "Sound System", 0, 0);
if (nummididevices != 0)
{
for (id = 0; id < nummididevices; ++id)
{
res = midiOutGetDevCaps (id, &caps, sizeof(caps));
if (res == MMSYSERR_NODRIVER)
strcpy (caps.szPname, "<Driver not installed>");
else if (res == MMSYSERR_NOMEM)
strcpy (caps.szPname, "<No memory for description>");
else if (res != MMSYSERR_NOERROR)
continue;
PrintMidiDevice (id, caps.szPname, caps.wTechnology, caps.dwSupport);
}
}
}
#else
// Everything but Windows uses this code.
CUSTOM_CVAR(Int, snd_mididevice, -1, CVAR_ARCHIVE|CVAR_GLOBALCONFIG)
{
if (self < -6)
self = -6;
else if (self > -1)
self = -1;
else
MIDIDeviceChanged(self);
}
void I_BuildMIDIMenuList (FOptionValues *opt)
{
AddDefaultMidiDevices(opt);
}
CCMD (snd_listmididevices)
{
Printf("%s-6. WildMidi\n", -6 == snd_mididevice ? TEXTCOLOR_BOLD : "");
#ifdef HAVE_FLUIDSYNTH
Printf("%s-5. FluidSynth\n", -5 == snd_mididevice ? TEXTCOLOR_BOLD : "");
#endif
Printf("%s-4. Gravis Ultrasound Emulation\n", -4 == snd_mididevice ? TEXTCOLOR_BOLD : "");
Printf("%s-3. Emulated OPL FM Synth\n", -3 == snd_mididevice ? TEXTCOLOR_BOLD : "");
Printf("%s-2. TiMidity++\n", -2 == snd_mididevice ? TEXTCOLOR_BOLD : "");
Printf("%s-1. Sound System\n", -1 == snd_mididevice ? TEXTCOLOR_BOLD : "");
}
#endif