diff options
author | Chris Robinson <[email protected]> | 2018-12-10 14:49:57 -0800 |
---|---|---|
committer | Chris Robinson <[email protected]> | 2018-12-10 14:49:57 -0800 |
commit | ed18fd76c5546b295731fc5bbd9adcca896106e2 (patch) | |
tree | 31ca8194cd6afac2632f452ff32175962425f176 /Alc/panning.cpp | |
parent | d91ada2e028338df35929a79a9393c6ac6e7b168 (diff) |
Clean up a few more loops
Diffstat (limited to 'Alc/panning.cpp')
-rw-r--r-- | Alc/panning.cpp | 167 |
1 files changed, 84 insertions, 83 deletions
diff --git a/Alc/panning.cpp b/Alc/panning.cpp index c99cffa4..c08961ed 100644 --- a/Alc/panning.cpp +++ b/Alc/panning.cpp @@ -136,13 +136,10 @@ void SetChannelMap(const Channel (&devchans)[MAX_OUTPUT_CHANNELS], ChannelConfig *outcount = mini(maxcount, MAX_OUTPUT_CHANNELS); } -bool MakeSpeakerMap(ALCdevice *device, const AmbDecConf *conf, ALsizei speakermap[MAX_OUTPUT_CHANNELS]) +bool MakeSpeakerMap(ALCdevice *device, const AmbDecConf *conf, ALsizei (&speakermap)[MAX_OUTPUT_CHANNELS]) { - for(ALsizei i{0};i < conf->NumSpeakers;i++) + auto map_spkr = [device](const AmbDecConf::SpeakerConf &speaker) -> ALsizei { - enum Channel ch; - int chidx = -1; - /* NOTE: AmbDec does not define any standard speaker names, however * for this to work we have to by able to find the output channel * the speaker definition corresponds to. Therefore, OpenAL Soft @@ -163,67 +160,67 @@ bool MakeSpeakerMap(ALCdevice *device, const AmbDecConf *conf, ALsizei speakerma * use the side channels when the device is configured for back, * and vice-versa. */ - if(conf->Speakers[i].Name == "LF") + Channel ch{}; + if(speaker.Name == "LF") ch = FrontLeft; - else if(conf->Speakers[i].Name == "RF") + else if(speaker.Name == "RF") ch = FrontRight; - else if(conf->Speakers[i].Name == "CE") + else if(speaker.Name == "CE") ch = FrontCenter; - else if(conf->Speakers[i].Name == "LS") + else if(speaker.Name == "LS") { if(device->FmtChans == DevFmtX51Rear) ch = BackLeft; else ch = SideLeft; } - else if(conf->Speakers[i].Name == "RS") + else if(speaker.Name == "RS") { if(device->FmtChans == DevFmtX51Rear) ch = BackRight; else ch = SideRight; } - else if(conf->Speakers[i].Name == "LB") + else if(speaker.Name == "LB") { if(device->FmtChans == DevFmtX51) ch = SideLeft; else ch = BackLeft; } - else if(conf->Speakers[i].Name == "RB") + else if(speaker.Name == "RB") { if(device->FmtChans == DevFmtX51) ch = SideRight; else ch = BackRight; } - else if(conf->Speakers[i].Name == "CB") + else if(speaker.Name == "CB") ch = BackCenter; else { - const char *name = conf->Speakers[i].Name.c_str(); + const char *name{speaker.Name.c_str()}; unsigned int n; char c; if(sscanf(name, "AUX%u%c", &n, &c) == 1 && n < 16) - ch = static_cast<enum Channel>(Aux0+n); + ch = static_cast<Channel>(Aux0+n); else { ERR("AmbDec speaker label \"%s\" not recognized\n", name); - return false; + return -1; } } - chidx = GetChannelIdxByName(&device->RealOut, ch); + const int chidx{GetChannelIdxByName(&device->RealOut, ch)}; if(chidx == -1) - { - ERR("Failed to lookup AmbDec speaker label %s\n", - conf->Speakers[i].Name.c_str()); - return false; - } - speakermap[i] = chidx; - } - - return true; + ERR("Failed to lookup AmbDec speaker label %s\n", speaker.Name.c_str()); + return chidx; + }; + auto speakers_end = std::begin(conf->Speakers) + conf->NumSpeakers; + std::transform(std::begin(conf->Speakers), speakers_end, std::begin(speakermap), map_spkr); + /* Return success if no invalid entries are found. */ + auto speakermap_end = std::begin(speakermap) + conf->NumSpeakers; + return std::find(std::begin(speakermap), speakermap_end, -1) == speakermap_end; } @@ -264,79 +261,83 @@ constexpr ChannelMap MonoCfg[1] = { void InitNearFieldCtrl(ALCdevice *device, ALfloat ctrl_dist, ALsizei order, const ALsizei *RESTRICT chans_per_order) { - const char *devname = device->DeviceName.c_str(); - ALsizei i; + /* NFC is only used when AvgSpeakerDist is greater than 0, and can only be + * used when rendering to an ambisonic buffer. + */ + const char *devname{device->DeviceName.c_str()}; + if(!GetConfigValueBool(devname, "decoder", "nfc", 1) || !(ctrl_dist > 0.0f)) + return; - if(GetConfigValueBool(devname, "decoder", "nfc", 1) && ctrl_dist > 0.0f) - { - /* NFC is only used when AvgSpeakerDist is greater than 0, and can only - * be used when rendering to an ambisonic buffer. - */ - device->AvgSpeakerDist = minf(ctrl_dist, 10.0f); - TRACE("Using near-field reference distance: %.2f meters\n", device->AvgSpeakerDist); + device->AvgSpeakerDist = minf(ctrl_dist, 10.0f); + TRACE("Using near-field reference distance: %.2f meters\n", device->AvgSpeakerDist); - for(i = 0;i < order+1;i++) - device->NumChannelsPerOrder[i] = chans_per_order[i]; - for(;i < MAX_AMBI_ORDER+1;i++) - device->NumChannelsPerOrder[i] = 0; - } + auto iter = std::copy(chans_per_order, chans_per_order+order+1, + std::begin(device->NumChannelsPerOrder)); + std::fill(iter, std::end(device->NumChannelsPerOrder), 0); } -void InitDistanceComp(ALCdevice *device, const AmbDecConf *conf, const ALsizei speakermap[MAX_OUTPUT_CHANNELS]) +void InitDistanceComp(ALCdevice *device, const AmbDecConf *conf, const ALsizei (&speakermap)[MAX_OUTPUT_CHANNELS]) { - const char *devname = device->DeviceName.c_str(); - ALfloat maxdist = 0.0f; - size_t total = 0; - ALsizei i; + using namespace std::placeholders; - for(i = 0;i < conf->NumSpeakers;i++) - maxdist = maxf(maxdist, conf->Speakers[i].Distance); + auto speakers_end = std::begin(conf->Speakers) + conf->NumSpeakers; + const ALfloat maxdist{ + std::accumulate(std::begin(conf->Speakers), speakers_end, float{0.0f}, + std::bind(maxf, _1, std::bind(std::mem_fn(&AmbDecConf::SpeakerConf::Distance), _2)) + ) + }; - if(GetConfigValueBool(devname, "decoder", "distance-comp", 1) && maxdist > 0.0f) + const char *devname{device->DeviceName.c_str()}; + if(!GetConfigValueBool(devname, "decoder", "distance-comp", 1) || !(maxdist > 0.0f)) + return; + + auto srate = static_cast<ALfloat>(device->Frequency); + size_t total{0u}; + for(ALsizei i{0};i < conf->NumSpeakers;i++) { - ALfloat srate = (ALfloat)device->Frequency; - for(i = 0;i < conf->NumSpeakers;i++) - { - ALsizei chan = speakermap[i]; - ALfloat delay; - - /* Distance compensation only delays in steps of the sample rate. - * This is a bit less accurate since the delay time falls to the - * nearest sample time, but it's far simpler as it doesn't have to - * deal with phase offsets. This means at 48khz, for instance, the - * distance delay will be in steps of about 7 millimeters. - */ - delay = floorf((maxdist-conf->Speakers[i].Distance) / SPEEDOFSOUNDMETRESPERSEC * - srate + 0.5f); - if(delay >= (ALfloat)MAX_DELAY_LENGTH) - ERR("Delay for speaker \"%s\" exceeds buffer length (%f >= %u)\n", - conf->Speakers[i].Name.c_str(), delay, MAX_DELAY_LENGTH); - - device->ChannelDelay[chan].Length = (ALsizei)clampf( - delay, 0.0f, (ALfloat)(MAX_DELAY_LENGTH-1) - ); - device->ChannelDelay[chan].Gain = conf->Speakers[i].Distance / maxdist; - TRACE("Channel %u \"%s\" distance compensation: %d samples, %f gain\n", chan, - conf->Speakers[i].Name.c_str(), device->ChannelDelay[chan].Length, - device->ChannelDelay[chan].Gain - ); + const AmbDecConf::SpeakerConf &speaker = conf->Speakers[i]; + const ALsizei chan{speakermap[i]}; + + /* Distance compensation only delays in steps of the sample rate. This + * is a bit less accurate since the delay time falls to the nearest + * sample time, but it's far simpler as it doesn't have to deal with + * phase offsets. This means at 48khz, for instance, the distance delay + * will be in steps of about 7 millimeters. + */ + const ALfloat delay{ + std::floor((maxdist - speaker.Distance)/SPEEDOFSOUNDMETRESPERSEC*srate + 0.5f) + }; + if(delay >= (ALfloat)MAX_DELAY_LENGTH) + ERR("Delay for speaker \"%s\" exceeds buffer length (%f >= %d)\n", + speaker.Name.c_str(), delay, MAX_DELAY_LENGTH); + + device->ChannelDelay[chan].Length = static_cast<ALsizei>(clampf( + delay, 0.0f, (ALfloat)(MAX_DELAY_LENGTH-1) + )); + device->ChannelDelay[chan].Gain = speaker.Distance / maxdist; + TRACE("Channel %u \"%s\" distance compensation: %d samples, %f gain\n", chan, + speaker.Name.c_str(), device->ChannelDelay[chan].Length, + device->ChannelDelay[chan].Gain + ); - /* Round up to the next 4th sample, so each channel buffer starts - * 16-byte aligned. - */ - total += RoundUp(device->ChannelDelay[chan].Length, 4); - } + /* Round up to the next 4th sample, so each channel buffer starts + * 16-byte aligned. + */ + total += RoundUp(device->ChannelDelay[chan].Length, 4); } if(total > 0) { device->ChannelDelay.resize(total); device->ChannelDelay[0].Buffer = device->ChannelDelay.data(); - for(i = 1;i < MAX_OUTPUT_CHANNELS;i++) + auto set_bufptr = [](const DistanceComp::DistData &last, const DistanceComp::DistData &cur) -> DistanceComp::DistData { - size_t len = RoundUp(device->ChannelDelay[i-1].Length, 4); - device->ChannelDelay[i].Buffer = device->ChannelDelay[i-1].Buffer + len; - } + DistanceComp::DistData ret{cur}; + ret.Buffer = last.Buffer + RoundUp(last.Length, 4); + return ret; + }; + std::partial_sum(device->ChannelDelay.begin(), device->ChannelDelay.end(), + device->ChannelDelay.begin(), set_bufptr); } } |