X-Git-Url: http://git.xonotic.org/?a=blobdiff_plain;f=snd_main.c;h=fac45a4f6a23a4ce08e2aa8cdc8a0a5eea600bba;hb=12cff679cfcf804619986cac2afa44e2825914a5;hp=309dd34cd18674bc9c268dfe308cb7de8fcc458f;hpb=c614f93073c5e69dc1334fd9004746154c7a06e4;p=xonotic%2Fdarkplaces.git diff --git a/snd_main.c b/snd_main.c index 309dd34c..fac45a4f 100644 --- a/snd_main.c +++ b/snd_main.c @@ -134,6 +134,9 @@ qboolean snd_threaded = false; qboolean snd_usethreadedmixing = false; vec3_t listener_origin; +matrix4x4_t listener_basematrix; +static unsigned char *listener_pvs = NULL; +static int listener_pvsbytes = 0; matrix4x4_t listener_matrix[SND_LISTENERS]; mempool_t *snd_mempool; @@ -157,17 +160,20 @@ spatialmethod_t spatialmethod; // Cvars declared in sound.h (part of the sound API) cvar_t bgmvolume = {CVAR_SAVE, "bgmvolume", "1", "volume of background music (such as CD music or replacement files such as sound/cdtracks/track002.ogg)"}; +cvar_t mastervolume = {CVAR_SAVE, "mastervolume", "0.7", "master volume"}; cvar_t volume = {CVAR_SAVE, "volume", "0.7", "volume of sound effects"}; cvar_t snd_initialized = { CVAR_READONLY, "snd_initialized", "0", "indicates the sound subsystem is active"}; cvar_t snd_staticvolume = {CVAR_SAVE, "snd_staticvolume", "1", "volume of ambient sound effects (such as swampy sounds at the start of e1m2)"}; -cvar_t snd_soundradius = {CVAR_SAVE, "snd_soundradius", "2000", "radius of weapon sounds and other standard sound effects (monster idle noises are half this radius and flickering light noises are one third of this radius)"}; +cvar_t snd_soundradius = {CVAR_SAVE, "snd_soundradius", "1200", "radius of weapon sounds and other standard sound effects (monster idle noises are half this radius and flickering light noises are one third of this radius)"}; cvar_t snd_spatialization_min_radius = {CVAR_SAVE, "snd_spatialization_min_radius", "10000", "use minimum spatialization above to this radius"}; cvar_t snd_spatialization_max_radius = {CVAR_SAVE, "snd_spatialization_max_radius", "100", "use maximum spatialization below this radius"}; cvar_t snd_spatialization_min = {CVAR_SAVE, "snd_spatialization_min", "0.70", "minimum spatializazion of sounds"}; cvar_t snd_spatialization_max = {CVAR_SAVE, "snd_spatialization_max", "0.95", "maximum spatialization of sounds"}; cvar_t snd_spatialization_power = {CVAR_SAVE, "snd_spatialization_power", "0", "exponent of the spatialization falloff curve (0: logarithmic)"}; cvar_t snd_spatialization_control = {CVAR_SAVE, "snd_spatialization_control", "0", "enable spatialization control (headphone friendly mode)"}; -cvar_t snd_spatialization_occlusion = {CVAR_SAVE, "snd_spatialization_occlusion", "1", "enable occlusion testing on spatialized sounds, which simply quiets sounds that are blocked by the world"}; +cvar_t snd_spatialization_prologic = {CVAR_SAVE, "snd_spatialization_prologic", "0", "use dolby prologic (I, II or IIx) encoding (snd_channels must be 2)"}; +cvar_t snd_spatialization_prologic_frontangle = {CVAR_SAVE, "snd_spatialization_prologic_frontangle", "30", "the angle between the front speakers and the center speaker"}; +cvar_t snd_spatialization_occlusion = {CVAR_SAVE, "snd_spatialization_occlusion", "1", "enable occlusion testing on spatialized sounds, which simply quiets sounds that are blocked by the world; 1 enables PVS method, 2 enables LineOfSight method, 3 enables both"}; // Cvars declared in snd_main.h (shared with other snd_*.c files) cvar_t _snd_mixahead = {CVAR_SAVE, "_snd_mixahead", "0.15", "how much sound to mix ahead of time"}; @@ -221,7 +227,7 @@ static cvar_t snd_show = {0, "snd_show", "0", "shows some statistics about sound // (48KHz because a lot of onboard sound cards sucks at any other speed) static cvar_t snd_speed = {CVAR_SAVE, "snd_speed", "48000", "sound output frequency, in hertz"}; static cvar_t snd_width = {CVAR_SAVE, "snd_width", "2", "sound output precision, in bytes (1 and 2 supported)"}; -static cvar_t snd_channels = {CVAR_SAVE, "snd_channels", "2", "number of channels for the sound ouput (2 for stereo; up to 8 supported for 3D sound)"}; +static cvar_t snd_channels = {CVAR_SAVE, "snd_channels", "2", "number of channels for the sound output (2 for stereo; up to 8 supported for 3D sound)"}; // Ambient sounds static sfx_t* ambient_sfxs [2] = { NULL, NULL }; @@ -771,6 +777,7 @@ void S_Init(void) { Cvar_RegisterVariable(&volume); Cvar_RegisterVariable(&bgmvolume); + Cvar_RegisterVariable(&mastervolume); Cvar_RegisterVariable(&snd_staticvolume); Cvar_RegisterVariable(&snd_entchannel0volume); Cvar_RegisterVariable(&snd_entchannel1volume); @@ -812,6 +819,8 @@ void S_Init(void) Cvar_RegisterVariable(&snd_spatialization_power); Cvar_RegisterVariable(&snd_spatialization_control); Cvar_RegisterVariable(&snd_spatialization_occlusion); + Cvar_RegisterVariable(&snd_spatialization_prologic); + Cvar_RegisterVariable(&snd_spatialization_prologic_frontangle); Cvar_RegisterVariable(&snd_speed); Cvar_RegisterVariable(&snd_width); @@ -1255,10 +1264,11 @@ Spatializes a channel ================= */ extern cvar_t cl_gameplayfix_soundsmovewithentities; -void SND_Spatialize(channel_t *ch, qboolean isstatic) +void SND_Spatialize_WithSfx(channel_t *ch, qboolean isstatic, sfx_t *sfx) { int i; double f; + float angle_side, angle_front, angle_factor; vec_t dist, mastervol, intensity, vol; vec3_t source_vec; @@ -1354,14 +1364,52 @@ void SND_Spatialize(channel_t *ch, qboolean isstatic) } } + // If this channel does not manage its own volume (like CD tracks) + if (!(ch->flags & CHANNELFLAG_FULLVOLUME)) + mastervol *= volume.value; + + // clamp HERE to allow to go at most 10dB past mastervolume (before clamping), when mastervolume < -10dB (so relative volumes don't get too messy) + mastervol = bound(0, mastervol, 655360); + + // always apply "master" + mastervol *= mastervolume.value; + + // add in ReplayGain very late; prevent clipping when close + if(sfx) + if(sfx->volume_peak > 0) + { + // Replaygain support + // Con_DPrintf("Setting volume on ReplayGain-enabled track... %f -> ", fvol); + mastervol *= sfx->volume_mult; + if(mastervol * sfx->volume_peak > 65536) + mastervol = 65536 / sfx->volume_peak; + // Con_DPrintf("%f\n", fvol); + } + + // clamp HERE to keep relative volumes of the channels correct + mastervol = bound(0, mastervol, 65536); + // anything coming from the view entity will always be full volume // LordHavoc: make sounds with ATTN_NONE have no spatialization if (ch->entnum == cl.viewentity || ch->dist_mult == 0) { - for (i = 0;i < SND_LISTENERS;i++) + ch->prologic_invert = 1; + if (snd_spatialization_prologic.integer != 0) { - vol = mastervol * snd_speakerlayout.listeners[i].ambientvolume; - ch->listener_volume[i] = (int)bound(0, vol, 255); + vol = mastervol * snd_speakerlayout.listeners[0].ambientvolume * sqrt(0.5); + ch->listener_volume[0] = (int)bound(0, vol, 65536); + vol = mastervol * snd_speakerlayout.listeners[1].ambientvolume * sqrt(0.5); + ch->listener_volume[1] = (int)bound(0, vol, 65536); + for (i = 2;i < SND_LISTENERS;i++) + ch->listener_volume[i] = 0; + } + else + { + for (i = 0;i < SND_LISTENERS;i++) + { + vol = mastervol * snd_speakerlayout.listeners[i].ambientvolume; + ch->listener_volume[i] = (int)bound(0, vol, 65536); + } } } else @@ -1372,47 +1420,119 @@ void SND_Spatialize(channel_t *ch, qboolean isstatic) intensity = mastervol * (1.0 - dist * ch->dist_mult); if (intensity > 0) { - for (i = 0;i < SND_LISTENERS;i++) + qboolean occluded = false; + if (snd_spatialization_occlusion.integer) { - Matrix4x4_Transform(&listener_matrix[i], ch->origin, source_vec); - VectorNormalize(source_vec); + if(snd_spatialization_occlusion.integer & 1) + if(listener_pvs) + { + int cluster = cl.worldmodel->brush.PointInLeaf(cl.worldmodel, ch->origin)->clusterindex; + if(cluster >= 0 && cluster < 8 * listener_pvsbytes && !CHECKPVSBIT(listener_pvs, cluster)) + occluded = true; + } - switch(spatialmethod) + if(snd_spatialization_occlusion.integer & 2) + if(!occluded) + if(cl.worldmodel && cl.worldmodel->brush.TraceLineOfSight && !cl.worldmodel->brush.TraceLineOfSight(cl.worldmodel, listener_origin, ch->origin)) + occluded = true; + } + if(occluded) + intensity *= 0.5; + + ch->prologic_invert = 1; + if (snd_spatialization_prologic.integer != 0) + { + if (dist == 0) + angle_factor = 0.5; + else { - case SPATIAL_LOG: - if(dist == 0) - f = spatialmin + spatialdiff * (spatialfactor < 0); // avoid log(0), but do the right thing - else - f = spatialmin + spatialdiff * bound(0, (log(dist) - spatialoffset) * spatialfactor, 1); - VectorScale(source_vec, f, source_vec); - break; - case SPATIAL_POW: - f = (pow(dist, spatialpower) - spatialoffset) * spatialfactor; - f = spatialmin + spatialdiff * bound(0, f, 1); - VectorScale(source_vec, f, source_vec); - break; - case SPATIAL_THRESH: - f = spatialmin + spatialdiff * (dist < spatialoffset); - VectorScale(source_vec, f, source_vec); - break; - case SPATIAL_NONE: - default: - break; - } + Matrix4x4_Transform(&listener_basematrix, ch->origin, source_vec); + VectorNormalize(source_vec); - vol = intensity * max(0, source_vec[0] * snd_speakerlayout.listeners[i].dotscale + snd_speakerlayout.listeners[i].dotbias); + switch(spatialmethod) + { + case SPATIAL_LOG: + if(dist == 0) + f = spatialmin + spatialdiff * (spatialfactor < 0); // avoid log(0), but do the right thing + else + f = spatialmin + spatialdiff * bound(0, (log(dist) - spatialoffset) * spatialfactor, 1); + VectorScale(source_vec, f, source_vec); + break; + case SPATIAL_POW: + f = (pow(dist, spatialpower) - spatialoffset) * spatialfactor; + f = spatialmin + spatialdiff * bound(0, f, 1); + VectorScale(source_vec, f, source_vec); + break; + case SPATIAL_THRESH: + f = spatialmin + spatialdiff * (dist < spatialoffset); + VectorScale(source_vec, f, source_vec); + break; + case SPATIAL_NONE: + default: + break; + } - if (snd_spatialization_occlusion.integer) - { - if (cl.worldmodel - && cl.worldmodel->brush.TraceLineOfSight - && !cl.worldmodel->brush.TraceLineOfSight(cl.worldmodel, listener_origin, ch->origin)) + // the z axis needs to be removed and normalized because otherwise the volume would get lower as the sound source goes higher or lower then normal + source_vec[2] = 0; + VectorNormalize(source_vec); + angle_side = acos(source_vec[0]) / M_PI * 180; // angle between 0 and 180 degrees + angle_front = asin(source_vec[1]) / M_PI * 180; // angle between -90 and 90 degrees + if (angle_side > snd_spatialization_prologic_frontangle.value) { - vol *= 0.5f; + ch->prologic_invert = -1; // this will cause the right channel to do a 180 degrees phase shift (turning the sound wave upside down), + // but the best would be 90 degrees phase shift left and a -90 degrees phase shift right. + angle_factor = (angle_side - snd_spatialization_prologic_frontangle.value) / (360 - 2 * snd_spatialization_prologic_frontangle.value); + // angle_factor is between 0 and 1 and represents the angle range from the front left, to all the surround speakers (amount may vary, + // 1 in prologic I 2 in prologic II and 3 or 4 in prologic IIx) to the front right speaker. + if (angle_front > 0) + angle_factor = 1 - angle_factor; } + else + angle_factor = angle_front / snd_spatialization_prologic_frontangle.value / 2.0 + 0.5; + //angle_factor is between 0 and 1 and represents the angle range from the front left to the center to the front right speaker } - ch->listener_volume[i] = (int)bound(0, vol, 255); + vol = intensity * sqrt(angle_factor); + ch->listener_volume[0] = (int)bound(0, vol, 65536); + vol = intensity * sqrt(1 - angle_factor); + ch->listener_volume[1] = (int)bound(0, vol, 65536); + for (i = 2;i < SND_LISTENERS;i++) + ch->listener_volume[i] = 0; + } + else + { + for (i = 0;i < SND_LISTENERS;i++) + { + Matrix4x4_Transform(&listener_matrix[i], ch->origin, source_vec); + VectorNormalize(source_vec); + + switch(spatialmethod) + { + case SPATIAL_LOG: + if(dist == 0) + f = spatialmin + spatialdiff * (spatialfactor < 0); // avoid log(0), but do the right thing + else + f = spatialmin + spatialdiff * bound(0, (log(dist) - spatialoffset) * spatialfactor, 1); + VectorScale(source_vec, f, source_vec); + break; + case SPATIAL_POW: + f = (pow(dist, spatialpower) - spatialoffset) * spatialfactor; + f = spatialmin + spatialdiff * bound(0, f, 1); + VectorScale(source_vec, f, source_vec); + break; + case SPATIAL_THRESH: + f = spatialmin + spatialdiff * (dist < spatialoffset); + VectorScale(source_vec, f, source_vec); + break; + case SPATIAL_NONE: + default: + break; + } + + vol = intensity * max(0, source_vec[0] * snd_speakerlayout.listeners[i].dotscale + snd_speakerlayout.listeners[i].dotbias); + + ch->listener_volume[i] = (int)bound(0, vol, 65536); + } } } else @@ -1420,13 +1540,17 @@ void SND_Spatialize(channel_t *ch, qboolean isstatic) ch->listener_volume[i] = 0; } } +void SND_Spatialize(channel_t *ch, qboolean isstatic) +{ + sfx_t *sfx = ch->sfx; + SND_Spatialize_WithSfx(ch, isstatic, sfx); +} // ======================================================================= // Start a sound effect // ======================================================================= -static void S_SetChannelVolume_WithSfx (unsigned int ch_ind, float fvol, sfx_t *sfx); void S_PlaySfxOnChannel (sfx_t *sfx, channel_t *target_chan, unsigned int flags, vec3_t origin, float fvol, float attenuation, qboolean isstatic, int entnum, int entchannel, int startpos) { if (!sfx) @@ -1461,12 +1585,9 @@ void S_PlaySfxOnChannel (sfx_t *sfx, channel_t *target_chan, unsigned int flags, else target_chan->dist_mult = attenuation / snd_soundradius.value; - // we have to set the channel volume AFTER the sfx because the function - // needs it for replaygain support - S_SetChannelVolume_WithSfx(target_chan - channels, fvol, sfx); - // set the listener volumes - SND_Spatialize (target_chan, isstatic); + S_SetChannelVolume(target_chan - channels, fvol); + SND_Spatialize_WithSfx (target_chan, isstatic, sfx); // Lock the SFX during play S_LockSfx (sfx); @@ -1655,24 +1776,9 @@ void S_PauseGameSounds (qboolean toggle) } } -static void S_SetChannelVolume_WithSfx (unsigned int ch_ind, float fvol, sfx_t *sfx) -{ - if(sfx->volume_peak > 0) - { - // Replaygain support - // Con_DPrintf("Setting volume on ReplayGain-enabled track... %f -> ", fvol); - fvol *= sfx->volume_mult; - if(fvol * sfx->volume_peak > 1) - fvol = 1 / sfx->volume_peak; - // Con_DPrintf("%f\n", fvol); - } - channels[ch_ind].master_vol = (int)(fvol * 255.0f); -} - void S_SetChannelVolume(unsigned int ch_ind, float fvol) { - sfx_t *sfx = channels[ch_ind].sfx; - S_SetChannelVolume_WithSfx(ch_ind, fvol, sfx); + channels[ch_ind].master_vol = (int)(fvol * 65536.0f); } float S_GetChannelPosition (unsigned int ch_ind) @@ -1692,7 +1798,7 @@ float S_GetChannelPosition (unsigned int ch_ind) return (s % sfx->total_length) / (float) S_GetSoundRate(); } -float S_GetEntChallelPosition(int entnum, int entchannel) +float S_GetEntChannelPosition(int entnum, int entchannel) { channel_t *ch; unsigned int i; @@ -1761,6 +1867,7 @@ void S_UpdateAmbientSounds (void) vol = (int)ambientlevels[ambient_channel]; if (vol < 8) vol = 0; + vol *= 256; // Don't adjust volume too fast // FIXME: this rounds off to an int each frame, meaning there is little to no fade at extremely high framerates! @@ -1768,20 +1875,30 @@ void S_UpdateAmbientSounds (void) { if (chan->master_vol < vol) { - chan->master_vol += (int)((cl.time - cl.oldtime) * ambient_fade.value); + chan->master_vol += (int)((cl.time - cl.oldtime) * 256.0 * ambient_fade.value); if (chan->master_vol > vol) chan->master_vol = vol; } else if (chan->master_vol > vol) { - chan->master_vol -= (int)((cl.time - cl.oldtime) * ambient_fade.value); + chan->master_vol -= (int)((cl.time - cl.oldtime) * 256.0 * ambient_fade.value); if (chan->master_vol < vol) chan->master_vol = vol; } } - for (i = 0;i < SND_LISTENERS;i++) - chan->listener_volume[i] = (int)(chan->master_vol * ambient_level.value * snd_speakerlayout.listeners[i].ambientvolume); + if (snd_spatialization_prologic.integer != 0) + { + 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 * volume.value * mastervolume.value * snd_speakerlayout.listeners[i].ambientvolume, 65536); + } } } @@ -1941,7 +2058,7 @@ void S_Update(const matrix4x4_t *listenermatrix) { unsigned int i, j, k; channel_t *ch, *combine; - matrix4x4_t basematrix, rotatematrix; + matrix4x4_t rotatematrix; if (snd_renderbuffer == NULL || nosound.integer) return; @@ -1990,14 +2107,34 @@ void S_Update(const matrix4x4_t *listenermatrix) current_channellayout != snd_channellayout.integer) S_SetChannelLayout(); - Matrix4x4_Invert_Simple(&basematrix, listenermatrix); + Matrix4x4_Invert_Simple(&listener_basematrix, listenermatrix); Matrix4x4_OriginFromMatrix(listenermatrix, listener_origin); + if (cl.worldmodel && cl.worldmodel->brush.FatPVS && cl.worldmodel->brush.num_pvsclusterbytes && cl.worldmodel->brush.PointInLeaf) + { + if(cl.worldmodel->brush.num_pvsclusterbytes != listener_pvsbytes) + { + if(listener_pvs) + Mem_Free(listener_pvs); + listener_pvsbytes = cl.worldmodel->brush.num_pvsclusterbytes; + listener_pvs = (unsigned char *) Mem_Alloc(snd_mempool, listener_pvsbytes); + } + cl.worldmodel->brush.FatPVS(cl.worldmodel, listener_origin, 2, listener_pvs, listener_pvsbytes, 0); + } + else + { + if(listener_pvs) + { + Mem_Free(listener_pvs); + listener_pvs = NULL; + } + listener_pvsbytes = 0; + } // calculate the current matrices for (j = 0;j < SND_LISTENERS;j++) { Matrix4x4_CreateFromQuakeEntity(&rotatematrix, 0, 0, 0, 0, -snd_speakerlayout.listeners[j].yawangle, 0, 1); - Matrix4x4_Concat(&listener_matrix[j], &rotatematrix, &basematrix); + Matrix4x4_Concat(&listener_matrix[j], &rotatematrix, &listener_basematrix); // I think this should now do this: // 1. create a rotation matrix for rotating by e.g. -90 degrees CCW // (note: the matrix will rotate the OBJECT, not the VIEWER, so its @@ -2057,7 +2194,7 @@ void S_Update(const matrix4x4_t *listenermatrix) { for (j = 0;j < SND_LISTENERS;j++) { - combine->listener_volume[j] += ch->listener_volume[j]; + combine->listener_volume[j] = bound(0, combine->listener_volume[j] + ch->listener_volume[j], 65536); ch->listener_volume[j] = 0; } }