int first_to_die;
int first_life_left, life_left;
channel_t* ch;
+ sfx_t *sfx; // use this instead of ch->sfx->, because that is volatile.
// Check for replacement sound, or find the best one to replace
first_to_die = -1;
for (ch_idx=NUM_AMBIENTS ; ch_idx < NUM_AMBIENTS + MAX_DYNAMIC_CHANNELS ; ch_idx++)
{
ch = &channels[ch_idx];
- if (!ch->sfx)
+ sfx = ch->sfx; // fetch the volatile variable
+ if (!sfx)
{
// no sound on this channel
first_to_die = ch_idx;
continue;
// don't override looped sounds
- if ((ch->flags & CHANNELFLAG_FORCELOOP) || ch->sfx->loopstart < ch->sfx->total_length)
+ if ((ch->flags & CHANNELFLAG_FORCELOOP) || sfx->loopstart < sfx->total_length)
continue;
- life_left = ch->sfx->total_length - ch->pos;
+ life_left = sfx->total_length - ch->pos;
if (life_left < first_life_left)
{
int ambient_channel;
channel_t *chan;
unsigned char ambientlevels[NUM_AMBIENTS];
+ sfx_t *sfx;
memset(ambientlevels, 0, sizeof(ambientlevels));
if (cl.worldmodel && cl.worldmodel->brush.AmbientSoundLevelsForPoint)
for (ambient_channel = 0 ; ambient_channel< NUM_AMBIENTS ; ambient_channel++)
{
chan = &channels[ambient_channel];
- if (chan->sfx == NULL || chan->sfx->fetcher == NULL)
+ sfx = chan->sfx; // fetch the volatile variable
+ if (sfx == NULL || sfx->fetcher == NULL)
continue;
vol = (int)ambientlevels[ambient_channel];
if (snd_spatialization_prologic.integer != 0)
{
- chan->listener_volume[0] = (int)bound(0, chan->master_vol * ambient_level.value * mastervolume.value * snd_speakerlayout.listeners[0].ambientvolume * sqrt(0.5), 65536);
- chan->listener_volume[1] = (int)bound(0, chan->master_vol * ambient_level.value * mastervolume.value * snd_speakerlayout.listeners[1].ambientvolume * sqrt(0.5), 65536);
+ chan->listener_volume[0] = (int)bound(0, chan->master_vol * ambient_level.value * volume.value * mastervolume.value * snd_speakerlayout.listeners[0].ambientvolume * sqrt(0.5), 65536);
+ chan->listener_volume[1] = (int)bound(0, chan->master_vol * ambient_level.value * volume.value * mastervolume.value * snd_speakerlayout.listeners[1].ambientvolume * sqrt(0.5), 65536);
for (i = 2;i < SND_LISTENERS;i++)
chan->listener_volume[i] = 0;
}
else
{
for (i = 0;i < SND_LISTENERS;i++)
- chan->listener_volume[i] = (int)bound(0, chan->master_vol * ambient_level.value * mastervolume.value * snd_speakerlayout.listeners[i].ambientvolume, 65536);
+ chan->listener_volume[i] = (int)bound(0, chan->master_vol * ambient_level.value * volume.value * mastervolume.value * snd_speakerlayout.listeners[i].ambientvolume, 65536);
}
}
}