raze-gles/source/audiolib/src/xmp.cpp

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#include "compat.h"
#ifdef HAVE_XMP
#include "pitch.h"
#include "multivoc.h"
#include "_multivc.h"
#define BUILDING_STATIC
#include "libxmp-lite/xmp.h"
typedef struct {
void * ptr;
VoiceNode *owner;
size_t length;
xmp_context context;
int time;
} xmp_data;
int32_t MV_GetXMPPosition(VoiceNode *voice)
{
auto xmpd = (xmp_data *)voice->rawdataptr;
return xmpd->time;
}
void MV_SetXMPPosition(VoiceNode *voice, int32_t position)
{
auto xmpd = (xmp_data *)voice->rawdataptr;
xmp_seek_time(xmpd->context, position);
}
static playbackstatus MV_GetNextXMPBlock(VoiceNode *voice)
{
auto xmpd = (xmp_data *)voice->rawdataptr;
struct xmp_frame_info mi;
if (xmp_play_frame(xmpd->context) != 0)
{
if (voice->LoopSize > 0)
{
xmp_restart_module(xmpd->context);
if (xmp_play_frame(xmpd->context) != 0)
return NoMoreData;
}
else
return NoMoreData;
}
xmp_get_frame_info(xmpd->context, &mi);
xmpd->time = mi.time;
voice->sound = (char const *)mi.buffer;
voice->length = mi.buffer_size << 14; // since 2-channel, 16-bit is hardcoded
// voice->length = (mi.buffer_size << 16) / (voice->channels * (voice->bits >> 3));
voice->position = 0;
voice->BlockLength = 0;
MV_SetVoiceMixMode(voice);
return KeepPlaying;
}
int32_t MV_PlayXMP3D(char *ptr, uint32_t length, int32_t loophow, int32_t pitchoffset, int32_t angle, int32_t distance, int32_t priority, float volume, intptr_t callbackval)
{
int32_t left;
int32_t right;
int32_t mid;
int32_t vol;
int32_t status;
if (!MV_Installed)
{
MV_SetErrorCode(MV_NotInstalled);
return MV_Error;
}
if (distance < 0)
{
distance = -distance;
angle += MV_NUMPANPOSITIONS / 2;
}
vol = MIX_VOLUME(distance);
// Ensure angle is within 0 - 127
angle &= MV_MAXPANPOSITION;
left = MV_PanTable[angle][vol].left;
right = MV_PanTable[angle][vol].right;
mid = max( 0, 255 - distance );
status = MV_PlayXMP(ptr, length, loophow, -1, pitchoffset, mid, left, right, priority, volume, callbackval);
return status;
}
int32_t MV_PlayXMP(char *ptr, uint32_t length, int32_t loopstart, int32_t loopend, int32_t pitchoffset, int32_t vol, int32_t left, int32_t right, int32_t priority, float volume, intptr_t callbackval)
{
VoiceNode *voice;
xmp_data * xmpd = 0;
int retval;
UNREFERENCED_PARAMETER(loopend);
if (!MV_Installed)
{
MV_SetErrorCode(MV_NotInstalled);
return MV_Error;
}
xmpd = (xmp_data *)Xcalloc(1, sizeof(xmp_data));
if (!xmpd)
{
MV_SetErrorCode(MV_InvalidFile);
return MV_Error;
}
xmpd->ptr = ptr;
xmpd->length = length;
if ((xmpd->context = xmp_create_context()) == NULL)
{
free(xmpd);
MV_SetErrorCode(MV_InvalidFile);
return MV_Error;
}
if ((retval = xmp_load_module_from_memory(xmpd->context, ptr, length)) != 0)
{
free(xmpd);
MV_Printf("MV_PlayXMP: xmp_load_module_from_memory failed (%i)\n", retval);
MV_SetErrorCode(MV_InvalidFile);
return MV_Error;
}
// Request a voice from the voice pool
voice = MV_AllocVoice(priority);
if (voice == NULL)
{
xmp_release_module(xmpd->context);
xmp_free_context(xmpd->context);
free(xmpd);
MV_SetErrorCode(MV_NoVoices);
return MV_Error;
}
xmpd->owner = voice;
voice->length = 0;
voice->sound = 0;
voice->wavetype = FMT_XMP;
voice->rawdataptr = (void*)xmpd;
voice->GetSound = MV_GetNextXMPBlock;
voice->LoopCount = 0;
voice->BlockLength = 0;
voice->PitchScale = PITCH_GetScale(pitchoffset);
voice->next = NULL;
voice->prev = NULL;
voice->priority = priority;
voice->callbackval = callbackval;
voice->bits = 16;
voice->channels = 2;
voice->SamplingRate = MV_MixRate;
voice->Paused = FALSE;
voice->LoopStart = 0;
voice->LoopEnd = 0;
voice->LoopSize = loopstart >= 0 ? 1 : 0;
xmp_start_player(xmpd->context, MV_MixRate, 0);
xmp_set_player(xmpd->context, XMP_PLAYER_INTERP, XMP_INTERP_SPLINE);
// CODEDUP multivoc.c MV_SetVoicePitch
voice->RateScale = (voice->SamplingRate * voice->PitchScale) / MV_MixRate;
voice->FixedPointBufferSize = (voice->RateScale * MV_MIXBUFFERSIZE) - voice->RateScale;
MV_SetVoiceMixMode(voice);
MV_SetVoiceVolume(voice, vol, left, right, volume);
MV_PlayVoice(voice);
return voice->handle;
}
void MV_ReleaseXMPVoice(VoiceNode * voice)
{
auto xmpd = (xmp_data *) voice->rawdataptr;
if (voice->wavetype != FMT_XMP)
return;
voice->rawdataptr = 0;
xmp_end_player(xmpd->context);
xmp_release_module(xmpd->context);
xmp_free_context(xmpd->context);
free(xmpd);
}
#else
#include "_multivc.h"
static char const NoXMP[] = "MV_PlayXMP: libxmp-lite support not included in this binary.\n";
int32_t MV_PlayXMP(char *ptr, uint32_t ptrlength, int32_t loopstart, int32_t loopend, int32_t pitchoffset, int32_t vol,
int32_t left, int32_t right, int32_t priority, float volume, intptr_t callbackval)
{
UNREFERENCED_PARAMETER(ptr);
UNREFERENCED_PARAMETER(ptrlength);
UNREFERENCED_PARAMETER(loopstart);
UNREFERENCED_PARAMETER(loopend);
UNREFERENCED_PARAMETER(pitchoffset);
UNREFERENCED_PARAMETER(vol);
UNREFERENCED_PARAMETER(left);
UNREFERENCED_PARAMETER(right);
UNREFERENCED_PARAMETER(priority);
UNREFERENCED_PARAMETER(volume);
UNREFERENCED_PARAMETER(callbackval);
MV_Printf(NoXMP);
return -1;
}
int32_t MV_PlayXMP3D(char *ptr, uint32_t ptrlength, int32_t loophow, int32_t pitchoffset, int32_t angle,
int32_t distance, int32_t priority, float volume, intptr_t callbackval)
{
UNREFERENCED_PARAMETER(ptr);
UNREFERENCED_PARAMETER(ptrlength);
UNREFERENCED_PARAMETER(loophow);
UNREFERENCED_PARAMETER(pitchoffset);
UNREFERENCED_PARAMETER(angle);
UNREFERENCED_PARAMETER(distance);
UNREFERENCED_PARAMETER(priority);
UNREFERENCED_PARAMETER(volume);
UNREFERENCED_PARAMETER(callbackval);
MV_Printf(NoXMP);
return -1;
}
#endif
// KEEPINSYNC libxmp-lite/src/*_load.c
static int it_test_memory(char const *ptr, uint32_t ptrlength)
{
static char const it_magic[] = "IMPM";
if (ptrlength < sizeof(it_magic)-1 ||
memcmp(ptr, it_magic, sizeof(it_magic)-1))
return -1;
return 0;
}
static int mod_test_memory(char const *ptr, uint32_t ptrlength)
{
if (ptrlength < 1084)
return -1;
char const * const buf = ptr + 1080;
if (!strncmp(buf + 2, "CH", 2) && isdigit((int)buf[0]) && isdigit((int)buf[1]))
{
int i = (buf[0] - '0') * 10 + buf[1] - '0';
if (i > 0 && i <= 32)
return 0;
}
if (!strncmp(buf + 1, "CHN", 3) && isdigit((int)*buf))
{
if (*buf >= '0' && *buf <= '9')
return 0;
}
if (!memcmp(buf, "M.K.", 4))
return 0;
return -1;
}
static int s3m_test_memory(char const *ptr, uint32_t ptrlength)
{
static char const s3m_magic[] = "SCRM";
#define s3m_magic_offset 44
if (ptrlength < s3m_magic_offset + sizeof(s3m_magic)-1 ||
memcmp(ptr + s3m_magic_offset, s3m_magic, sizeof(s3m_magic)-1) ||
ptr[29] != 0x10)
return -1;
return 0;
}
static int xm_test_memory(char const *ptr, uint32_t ptrlength)
{
static char const xm_magic[] = "Extended Module: ";
if (ptrlength < sizeof(xm_magic)-1 ||
memcmp(ptr, xm_magic, sizeof(xm_magic)-1))
return -1;
return 0;
}
static int mtm_test_memory(char const *ptr, uint32_t ptrlength)
{
static char const mtm_magic[] = "MTM\x10";
if (ptrlength < sizeof(mtm_magic)-1 ||
memcmp(ptr, mtm_magic, sizeof(mtm_magic)-1))
return -1;
return 0;
}
int MV_IdentifyXMP(char const *ptr, uint32_t ptrlength)
{
static decltype(mod_test_memory) * const module_test_functions[] =
{
it_test_memory,
mod_test_memory,
s3m_test_memory,
xm_test_memory,
mtm_test_memory,
};
for (auto const test_module : module_test_functions)
{
if (test_module(ptr, ptrlength) == 0)
return 1;
}
return 0;
}