From 034327c3e778c31eb1d19cd661b460825a98037b Mon Sep 17 00:00:00 2001
From: Chris Robinson <chris.kcat@gmail.com>
Date: Mon, 4 Dec 2023 23:38:31 -0800
Subject: Clean up some variables for clang-tidy

---
 utils/makemhr/makemhr.cpp | 23 ++++++++++-------------
 1 file changed, 10 insertions(+), 13 deletions(-)

(limited to 'utils/makemhr')

diff --git a/utils/makemhr/makemhr.cpp b/utils/makemhr/makemhr.cpp
index 98e1b73f..8291ac0f 100644
--- a/utils/makemhr/makemhr.cpp
+++ b/utils/makemhr/makemhr.cpp
@@ -434,21 +434,18 @@ static int StoreMhr(const HrirDataT *hData, const char *filename)
  */
 static void BalanceFieldMagnitudes(const HrirDataT *hData, const uint channels, const uint m)
 {
-    double maxMags[MAX_FD_COUNT];
-    uint fi, ei, ti, i;
-
+    std::array<double,MAX_FD_COUNT> maxMags{};
     double maxMag{0.0};
-    for(fi = 0;fi < hData->mFds.size();fi++)
-    {
-        maxMags[fi] = 0.0;
 
-        for(ei = hData->mFds[fi].mEvStart;ei < hData->mFds[fi].mEvs.size();ei++)
+    for(size_t fi{0};fi < hData->mFds.size();++fi)
+    {
+        for(size_t ei{hData->mFds[fi].mEvStart};ei < hData->mFds[fi].mEvs.size();++ei)
         {
             for(const auto &azd : hData->mFds[fi].mEvs[ei].mAzs)
             {
-                for(ti = 0;ti < channels;ti++)
+                for(size_t ti{0};ti < channels;++ti)
                 {
-                    for(i = 0;i < m;i++)
+                    for(size_t i{0};i < m;++i)
                         maxMags[fi] = std::max(azd.mIrs[ti][i], maxMags[fi]);
                 }
             }
@@ -457,17 +454,17 @@ static void BalanceFieldMagnitudes(const HrirDataT *hData, const uint channels,
         maxMag = std::max(maxMags[fi], maxMag);
     }
 
-    for(fi = 0;fi < hData->mFds.size();fi++)
+    for(size_t fi{0};fi < hData->mFds.size();++fi)
     {
         const double magFactor{maxMag / maxMags[fi]};
 
-        for(ei = hData->mFds[fi].mEvStart;ei < hData->mFds[fi].mEvs.size();ei++)
+        for(size_t ei{hData->mFds[fi].mEvStart};ei < hData->mFds[fi].mEvs.size();++ei)
         {
             for(const auto &azd : hData->mFds[fi].mEvs[ei].mAzs)
             {
-                for(ti = 0;ti < channels;ti++)
+                for(size_t ti{0};ti < channels;++ti)
                 {
-                    for(i = 0;i < m;i++)
+                    for(size_t i{0};i < m;++i)
                         azd.mIrs[ti][i] *= magFactor;
                 }
             }
-- 
cgit v1.2.3


From bb3387b0fc5d3071a30c6d003b415dc6e77f3d62 Mon Sep 17 00:00:00 2001
From: Chris Robinson <chris.kcat@gmail.com>
Date: Sun, 10 Dec 2023 22:15:17 -0800
Subject: Much more clang-tidy cleanup

---
 al/auxeffectslot.cpp             |  40 ++--
 al/debug.cpp                     |   2 +-
 al/eax/call.cpp                  |   3 +-
 al/eax/call.h                    |  14 +-
 al/effect.cpp                    |  47 ++---
 al/filter.cpp                    |   2 +-
 al/state.cpp                     |   2 +
 alc/backends/null.cpp            |   1 +
 alc/backends/pipewire.cpp        |  12 +-
 alc/backends/portaudio.cpp       |   3 +-
 alc/backends/sdl2.cpp            |   3 +-
 alc/context.cpp                  |   2 +-
 alc/device.cpp                   |   2 +-
 alc/effects/convolution.cpp      |   2 +-
 alc/effects/null.cpp             |   2 +-
 alc/panning.cpp                  | 247 +++++++++++++------------
 common/phase_shifter.h           |  10 +-
 common/ringbuffer.cpp            |   2 +-
 core/ambdec.cpp                  |  31 ++--
 core/ambdec.h                    |  10 +-
 core/buffer_storage.cpp          |   2 +-
 core/converter.cpp               |  26 +--
 core/converter.h                 |  16 +-
 core/cubic_tables.cpp            |   4 +-
 core/dbus_wrap.cpp               |   2 +-
 core/effectslot.cpp              |   2 +-
 core/filters/biquad.cpp          |   4 +-
 core/filters/nfc.cpp             |  12 +-
 core/helpers.cpp                 |   2 +-
 core/hrtf.cpp                    |  57 +++---
 core/hrtf.h                      |   3 +-
 core/mastering.cpp               |  11 +-
 core/mixer/mixer_neon.cpp        |   7 +-
 core/mixer/mixer_sse2.cpp        |   2 +-
 core/mixer/mixer_sse41.cpp       |   2 +-
 core/rtkit.cpp                   |   4 +-
 core/uhjfilter.cpp               |  14 +-
 examples/alffplay.cpp            |  52 +++---
 examples/alstreamcb.cpp          |  32 ++--
 include/AL/al.h                  |   2 +
 include/AL/alc.h                 |   2 +
 include/AL/alext.h               |   2 +
 include/AL/efx-presets.h         |   2 +
 include/AL/efx.h                 |   2 +
 utils/alsoft-config/mainwindow.h |  25 ++-
 utils/makemhr/loaddef.cpp        | 385 +++++++++++++++++++--------------------
 utils/makemhr/loadsofa.cpp       |  20 +-
 utils/makemhr/makemhr.cpp        |  37 ++--
 utils/makemhr/makemhr.h          |   4 +-
 utils/sofa-info.cpp              |   3 +-
 utils/sofa-support.cpp           |   8 +-
 utils/uhjdecoder.cpp             |  32 ++--
 utils/uhjencoder.cpp             |  95 +++++-----
 53 files changed, 659 insertions(+), 651 deletions(-)

(limited to 'utils/makemhr')

diff --git a/al/auxeffectslot.cpp b/al/auxeffectslot.cpp
index 7b7672a5..02c061a4 100644
--- a/al/auxeffectslot.cpp
+++ b/al/auxeffectslot.cpp
@@ -55,31 +55,31 @@ namespace {
 
 struct FactoryItem {
     EffectSlotType Type;
-    EffectStateFactory* (&GetFactory)(void);
+    EffectStateFactory* (&GetFactory)();
 };
-constexpr FactoryItem FactoryList[] = {
-    { EffectSlotType::None, NullStateFactory_getFactory },
-    { EffectSlotType::EAXReverb, ReverbStateFactory_getFactory },
-    { EffectSlotType::Reverb, StdReverbStateFactory_getFactory },
-    { EffectSlotType::Autowah, AutowahStateFactory_getFactory },
-    { EffectSlotType::Chorus, ChorusStateFactory_getFactory },
-    { EffectSlotType::Compressor, CompressorStateFactory_getFactory },
-    { EffectSlotType::Distortion, DistortionStateFactory_getFactory },
-    { EffectSlotType::Echo, EchoStateFactory_getFactory },
-    { EffectSlotType::Equalizer, EqualizerStateFactory_getFactory },
-    { EffectSlotType::Flanger, FlangerStateFactory_getFactory },
-    { EffectSlotType::FrequencyShifter, FshifterStateFactory_getFactory },
-    { EffectSlotType::RingModulator, ModulatorStateFactory_getFactory },
-    { EffectSlotType::PitchShifter, PshifterStateFactory_getFactory },
-    { EffectSlotType::VocalMorpher, VmorpherStateFactory_getFactory },
-    { EffectSlotType::DedicatedDialog, DedicatedStateFactory_getFactory },
-    { EffectSlotType::DedicatedLFE, DedicatedStateFactory_getFactory },
-    { EffectSlotType::Convolution, ConvolutionStateFactory_getFactory },
+constexpr std::array FactoryList{
+    FactoryItem{EffectSlotType::None, NullStateFactory_getFactory},
+    FactoryItem{EffectSlotType::EAXReverb, ReverbStateFactory_getFactory},
+    FactoryItem{EffectSlotType::Reverb, StdReverbStateFactory_getFactory},
+    FactoryItem{EffectSlotType::Autowah, AutowahStateFactory_getFactory},
+    FactoryItem{EffectSlotType::Chorus, ChorusStateFactory_getFactory},
+    FactoryItem{EffectSlotType::Compressor, CompressorStateFactory_getFactory},
+    FactoryItem{EffectSlotType::Distortion, DistortionStateFactory_getFactory},
+    FactoryItem{EffectSlotType::Echo, EchoStateFactory_getFactory},
+    FactoryItem{EffectSlotType::Equalizer, EqualizerStateFactory_getFactory},
+    FactoryItem{EffectSlotType::Flanger, FlangerStateFactory_getFactory},
+    FactoryItem{EffectSlotType::FrequencyShifter, FshifterStateFactory_getFactory},
+    FactoryItem{EffectSlotType::RingModulator, ModulatorStateFactory_getFactory},
+    FactoryItem{EffectSlotType::PitchShifter, PshifterStateFactory_getFactory},
+    FactoryItem{EffectSlotType::VocalMorpher, VmorpherStateFactory_getFactory},
+    FactoryItem{EffectSlotType::DedicatedDialog, DedicatedStateFactory_getFactory},
+    FactoryItem{EffectSlotType::DedicatedLFE, DedicatedStateFactory_getFactory},
+    FactoryItem{EffectSlotType::Convolution, ConvolutionStateFactory_getFactory},
 };
 
 EffectStateFactory *getFactoryByType(EffectSlotType type)
 {
-    auto iter = std::find_if(std::begin(FactoryList), std::end(FactoryList),
+    auto iter = std::find_if(FactoryList.begin(), FactoryList.end(),
         [type](const FactoryItem &item) noexcept -> bool
         { return item.Type == type; });
     return (iter != std::end(FactoryList)) ? iter->GetFactory() : nullptr;
diff --git a/al/debug.cpp b/al/debug.cpp
index b76ec9af..cd79c148 100644
--- a/al/debug.cpp
+++ b/al/debug.cpp
@@ -4,10 +4,10 @@
 
 #include <algorithm>
 #include <array>
+#include <cstddef>
 #include <cstring>
 #include <mutex>
 #include <optional>
-#include <stddef.h>
 #include <stdexcept>
 #include <string>
 #include <utility>
diff --git a/al/eax/call.cpp b/al/eax/call.cpp
index 689d5cf1..013a3992 100644
--- a/al/eax/call.cpp
+++ b/al/eax/call.cpp
@@ -22,8 +22,7 @@ EaxCall::EaxCall(
     ALuint property_source_id,
     ALvoid* property_buffer,
     ALuint property_size)
-    : mCallType{type}, mVersion{0}, mPropertySetId{EaxCallPropertySetId::none}
-    , mIsDeferred{(property_id & deferred_flag) != 0}
+    : mCallType{type}, mIsDeferred{(property_id & deferred_flag) != 0}
     , mPropertyId{property_id & ~deferred_flag}, mPropertySourceId{property_source_id}
     , mPropertyBuffer{property_buffer}, mPropertyBufferSize{property_size}
 {
diff --git a/al/eax/call.h b/al/eax/call.h
index 04e94f3e..e7f2329f 100644
--- a/al/eax/call.h
+++ b/al/eax/call.h
@@ -71,16 +71,16 @@ public:
     }
 
 private:
-    const EaxCallType mCallType{};
+    const EaxCallType mCallType;
     int mVersion{};
     EaxFxSlotIndex mFxSlotIndex{};
-    EaxCallPropertySetId mPropertySetId{};
-    bool mIsDeferred{};
+    EaxCallPropertySetId mPropertySetId{EaxCallPropertySetId::none};
+    bool mIsDeferred;
 
-    const ALuint mPropertyId{};
-    const ALuint mPropertySourceId{};
-    ALvoid*const mPropertyBuffer{};
-    const ALuint mPropertyBufferSize{};
+    const ALuint mPropertyId;
+    const ALuint mPropertySourceId;
+    ALvoid*const mPropertyBuffer;
+    const ALuint mPropertyBufferSize;
 
     [[noreturn]] static void fail(const char* message);
     [[noreturn]] static void fail_too_small();
diff --git a/al/effect.cpp b/al/effect.cpp
index e99226c8..7cd6a67b 100644
--- a/al/effect.cpp
+++ b/al/effect.cpp
@@ -94,24 +94,24 @@ struct EffectPropsItem {
     const EffectProps &DefaultProps;
     const EffectVtable &Vtable;
 };
-constexpr EffectPropsItem EffectPropsList[] = {
-    { AL_EFFECT_NULL, NullEffectProps, NullEffectVtable },
-    { AL_EFFECT_EAXREVERB, ReverbEffectProps, ReverbEffectVtable },
-    { AL_EFFECT_REVERB, StdReverbEffectProps, StdReverbEffectVtable },
-    { AL_EFFECT_AUTOWAH, AutowahEffectProps, AutowahEffectVtable },
-    { AL_EFFECT_CHORUS, ChorusEffectProps, ChorusEffectVtable },
-    { AL_EFFECT_COMPRESSOR, CompressorEffectProps, CompressorEffectVtable },
-    { AL_EFFECT_DISTORTION, DistortionEffectProps, DistortionEffectVtable },
-    { AL_EFFECT_ECHO, EchoEffectProps, EchoEffectVtable },
-    { AL_EFFECT_EQUALIZER, EqualizerEffectProps, EqualizerEffectVtable },
-    { AL_EFFECT_FLANGER, FlangerEffectProps, FlangerEffectVtable },
-    { AL_EFFECT_FREQUENCY_SHIFTER, FshifterEffectProps, FshifterEffectVtable },
-    { AL_EFFECT_RING_MODULATOR, ModulatorEffectProps, ModulatorEffectVtable },
-    { AL_EFFECT_PITCH_SHIFTER, PshifterEffectProps, PshifterEffectVtable },
-    { AL_EFFECT_VOCAL_MORPHER, VmorpherEffectProps, VmorpherEffectVtable },
-    { AL_EFFECT_DEDICATED_DIALOGUE, DedicatedEffectProps, DedicatedEffectVtable },
-    { AL_EFFECT_DEDICATED_LOW_FREQUENCY_EFFECT, DedicatedEffectProps, DedicatedEffectVtable },
-    { AL_EFFECT_CONVOLUTION_SOFT, ConvolutionEffectProps, ConvolutionEffectVtable },
+constexpr std::array EffectPropsList{
+    EffectPropsItem{AL_EFFECT_NULL, NullEffectProps, NullEffectVtable},
+    EffectPropsItem{AL_EFFECT_EAXREVERB, ReverbEffectProps, ReverbEffectVtable},
+    EffectPropsItem{AL_EFFECT_REVERB, StdReverbEffectProps, StdReverbEffectVtable},
+    EffectPropsItem{AL_EFFECT_AUTOWAH, AutowahEffectProps, AutowahEffectVtable},
+    EffectPropsItem{AL_EFFECT_CHORUS, ChorusEffectProps, ChorusEffectVtable},
+    EffectPropsItem{AL_EFFECT_COMPRESSOR, CompressorEffectProps, CompressorEffectVtable},
+    EffectPropsItem{AL_EFFECT_DISTORTION, DistortionEffectProps, DistortionEffectVtable},
+    EffectPropsItem{AL_EFFECT_ECHO, EchoEffectProps, EchoEffectVtable},
+    EffectPropsItem{AL_EFFECT_EQUALIZER, EqualizerEffectProps, EqualizerEffectVtable},
+    EffectPropsItem{AL_EFFECT_FLANGER, FlangerEffectProps, FlangerEffectVtable},
+    EffectPropsItem{AL_EFFECT_FREQUENCY_SHIFTER, FshifterEffectProps, FshifterEffectVtable},
+    EffectPropsItem{AL_EFFECT_RING_MODULATOR, ModulatorEffectProps, ModulatorEffectVtable},
+    EffectPropsItem{AL_EFFECT_PITCH_SHIFTER, PshifterEffectProps, PshifterEffectVtable},
+    EffectPropsItem{AL_EFFECT_VOCAL_MORPHER, VmorpherEffectProps, VmorpherEffectVtable},
+    EffectPropsItem{AL_EFFECT_DEDICATED_DIALOGUE, DedicatedEffectProps, DedicatedEffectVtable},
+    EffectPropsItem{AL_EFFECT_DEDICATED_LOW_FREQUENCY_EFFECT, DedicatedEffectProps, DedicatedEffectVtable},
+    EffectPropsItem{AL_EFFECT_CONVOLUTION_SOFT, ConvolutionEffectProps, ConvolutionEffectVtable},
 };
 
 
@@ -136,7 +136,7 @@ void ALeffect_getParamfv(const ALeffect *effect, ALenum param, float *values)
 
 const EffectPropsItem *getEffectPropsItemByType(ALenum type)
 {
-    auto iter = std::find_if(std::begin(EffectPropsList), std::end(EffectPropsList),
+    auto iter = std::find_if(EffectPropsList.begin(), EffectPropsList.end(),
         [type](const EffectPropsItem &item) noexcept -> bool
         { return item.Type == type; });
     return (iter != std::end(EffectPropsList)) ? al::to_address(iter) : nullptr;
@@ -542,11 +542,12 @@ EffectSubList::~EffectSubList()
 }
 
 
-#define DECL(x) { #x, EFX_REVERB_PRESET_##x }
-static const struct {
-    const char name[32];
+struct EffectPreset {
+    const char name[32]; /* NOLINT(*-avoid-c-arrays) */
     EFXEAXREVERBPROPERTIES props;
-} reverblist[] = {
+};
+#define DECL(x) EffectPreset{#x, EFX_REVERB_PRESET_##x}
+static constexpr std::array reverblist{
     DECL(GENERIC),
     DECL(PADDEDCELL),
     DECL(ROOM),
diff --git a/al/filter.cpp b/al/filter.cpp
index 4f79db7d..9c8e4c62 100644
--- a/al/filter.cpp
+++ b/al/filter.cpp
@@ -61,7 +61,7 @@ public:
     filter_exception(ALenum code, const char *msg, ...);
     ~filter_exception() override;
 
-    ALenum errorCode() const noexcept { return mErrorCode; }
+    [[nodiscard]] auto errorCode() const noexcept -> ALenum { return mErrorCode; }
 };
 
 filter_exception::filter_exception(ALenum code, const char* msg, ...) : mErrorCode{code}
diff --git a/al/state.cpp b/al/state.cpp
index 5131edd9..fd5dc5e3 100644
--- a/al/state.cpp
+++ b/al/state.cpp
@@ -60,6 +60,7 @@
 
 namespace {
 
+/* NOLINTBEGIN(*-avoid-c-arrays) */
 constexpr ALchar alVendor[] = "OpenAL Community";
 constexpr ALchar alVersion[] = "1.1 ALSOFT " ALSOFT_VERSION;
 constexpr ALchar alRenderer[] = "OpenAL Soft";
@@ -73,6 +74,7 @@ constexpr ALchar alErrInvalidOp[] = "Invalid Operation";
 constexpr ALchar alErrOutOfMemory[] = "Out of Memory";
 constexpr ALchar alStackOverflow[] = "Stack Overflow";
 constexpr ALchar alStackUnderflow[] = "Stack Underflow";
+/* NOLINTEND(*-avoid-c-arrays) */
 
 /* Resampler strings */
 template<Resampler rtype> struct ResamplerName { };
diff --git a/alc/backends/null.cpp b/alc/backends/null.cpp
index 3c68e4ce..c149820c 100644
--- a/alc/backends/null.cpp
+++ b/alc/backends/null.cpp
@@ -42,6 +42,7 @@ using std::chrono::seconds;
 using std::chrono::milliseconds;
 using std::chrono::nanoseconds;
 
+/* NOLINTNEXTLINE(*-avoid-c-arrays) */
 constexpr char nullDevice[] = "No Output";
 
 
diff --git a/alc/backends/pipewire.cpp b/alc/backends/pipewire.cpp
index d934071e..2c726cbe 100644
--- a/alc/backends/pipewire.cpp
+++ b/alc/backends/pipewire.cpp
@@ -1420,8 +1420,7 @@ class PipeWirePlayback final : public BackendBase {
     PwStreamPtr mStream;
     spa_hook mStreamListener{};
     spa_io_rate_match *mRateMatch{};
-    std::unique_ptr<float*[]> mChannelPtrs;
-    uint mNumChannels{};
+    std::vector<float*> mChannelPtrs;
 
     static constexpr pw_stream_events CreateEvents()
     {
@@ -1468,7 +1467,7 @@ void PipeWirePlayback::outputCallback() noexcept
     if(!pw_buf) UNLIKELY return;
 
     const al::span<spa_data> datas{pw_buf->buffer->datas,
-        minu(mNumChannels, pw_buf->buffer->n_datas)};
+        minz(mChannelPtrs.size(), pw_buf->buffer->n_datas)};
 #if PW_CHECK_VERSION(0,3,49)
     /* In 0.3.49, pw_buffer::requested specifies the number of samples needed
      * by the resampler/graph for this audio update.
@@ -1488,7 +1487,7 @@ void PipeWirePlayback::outputCallback() noexcept
      * buffer length in any one channel is smaller than we wanted (shouldn't
      * be, but just in case).
      */
-    float **chanptr_end{mChannelPtrs.get()};
+    auto chanptr_end = mChannelPtrs.begin();
     for(const auto &data : datas)
     {
         length = minu(length, data.maxsize/sizeof(float));
@@ -1500,7 +1499,7 @@ void PipeWirePlayback::outputCallback() noexcept
         data.chunk->size   = length * sizeof(float);
     }
 
-    mDevice->renderSamples({mChannelPtrs.get(), chanptr_end}, length);
+    mDevice->renderSamples(mChannelPtrs, length);
 
     pw_buf->size = length;
     pw_stream_queue_buffer(mStream.get(), pw_buf);
@@ -1711,8 +1710,7 @@ bool PipeWirePlayback::reset()
      */
     plock.unlock();
 
-    mNumChannels = mDevice->channelsFromFmt();
-    mChannelPtrs = std::make_unique<float*[]>(mNumChannels);
+    mChannelPtrs.resize(mDevice->channelsFromFmt());
 
     setDefaultWFXChannelOrder();
 
diff --git a/alc/backends/portaudio.cpp b/alc/backends/portaudio.cpp
index 2e2e33cc..554efe9a 100644
--- a/alc/backends/portaudio.cpp
+++ b/alc/backends/portaudio.cpp
@@ -39,7 +39,8 @@
 
 namespace {
 
-constexpr char pa_device[] = "PortAudio Default";
+/* NOLINTNEXTLINE(*-avoid-c-arrays) */
+constexpr char pa_device[]{"PortAudio Default"};
 
 
 #ifdef HAVE_DYNLOAD
diff --git a/alc/backends/sdl2.cpp b/alc/backends/sdl2.cpp
index f5ed4316..d7f66d93 100644
--- a/alc/backends/sdl2.cpp
+++ b/alc/backends/sdl2.cpp
@@ -46,7 +46,8 @@ namespace {
 #define DEVNAME_PREFIX ""
 #endif
 
-constexpr char defaultDeviceName[] = DEVNAME_PREFIX "Default Device";
+/* NOLINTNEXTLINE(*-avoid-c-arrays) */
+constexpr char defaultDeviceName[]{DEVNAME_PREFIX "Default Device"};
 
 struct Sdl2Backend final : public BackendBase {
     Sdl2Backend(DeviceBase *device) noexcept : BackendBase{device} { }
diff --git a/alc/context.cpp b/alc/context.cpp
index 2e67f9ac..92e458cb 100644
--- a/alc/context.cpp
+++ b/alc/context.cpp
@@ -5,11 +5,11 @@
 
 #include <algorithm>
 #include <array>
+#include <cstddef>
 #include <cstring>
 #include <functional>
 #include <limits>
 #include <numeric>
-#include <stddef.h>
 #include <stdexcept>
 #include <string_view>
 #include <utility>
diff --git a/alc/device.cpp b/alc/device.cpp
index 27aa6f36..5a34ad64 100644
--- a/alc/device.cpp
+++ b/alc/device.cpp
@@ -3,8 +3,8 @@
 
 #include "device.h"
 
+#include <cstddef>
 #include <numeric>
-#include <stddef.h>
 
 #include "albit.h"
 #include "alconfig.h"
diff --git a/alc/effects/convolution.cpp b/alc/effects/convolution.cpp
index 5e81f6d1..c877456d 100644
--- a/alc/effects/convolution.cpp
+++ b/alc/effects/convolution.cpp
@@ -5,10 +5,10 @@
 #include <array>
 #include <complex>
 #include <cstddef>
+#include <cstdint>
 #include <functional>
 #include <iterator>
 #include <memory>
-#include <stdint.h>
 #include <utility>
 
 #ifdef HAVE_SSE_INTRINSICS
diff --git a/alc/effects/null.cpp b/alc/effects/null.cpp
index 1f9ae67b..12d1688e 100644
--- a/alc/effects/null.cpp
+++ b/alc/effects/null.cpp
@@ -1,7 +1,7 @@
 
 #include "config.h"
 
-#include <stddef.h>
+#include <cstddef>
 
 #include "almalloc.h"
 #include "alspan.h"
diff --git a/alc/panning.cpp b/alc/panning.cpp
index add07051..c0fe83ee 100644
--- a/alc/panning.cpp
+++ b/alc/panning.cpp
@@ -227,10 +227,10 @@ struct DecoderConfig<DualBand, 0> {
 using DecoderView = DecoderConfig<DualBand, 0>;
 
 
-void InitNearFieldCtrl(ALCdevice *device, float ctrl_dist, uint order, bool is3d)
+void InitNearFieldCtrl(ALCdevice *device, const float ctrl_dist, const uint order, const bool is3d)
 {
-    static const uint chans_per_order2d[MaxAmbiOrder+1]{ 1, 2, 2, 2 };
-    static const uint chans_per_order3d[MaxAmbiOrder+1]{ 1, 3, 5, 7 };
+    static const std::array<uint,MaxAmbiOrder+1> chans_per_order2d{{1, 2, 2, 2}};
+    static const std::array<uint,MaxAmbiOrder+1> chans_per_order3d{{1, 3, 5, 7}};
 
     /* NFC is only used when AvgSpeakerDist is greater than 0. */
     if(!device->getConfigValueBool("decoder", "nfc", false) || !(ctrl_dist > 0.0f))
@@ -243,7 +243,7 @@ void InitNearFieldCtrl(ALCdevice *device, float ctrl_dist, uint order, bool is3d
         (device->AvgSpeakerDist * static_cast<float>(device->Frequency))};
     device->mNFCtrlFilter.init(w1);
 
-    auto iter = std::copy_n(is3d ? chans_per_order3d : chans_per_order2d, order+1u,
+    auto iter = std::copy_n(is3d ? chans_per_order3d.begin() : chans_per_order2d.begin(), order+1u,
         std::begin(device->NumChannelsPerOrder));
     std::fill(iter, std::end(device->NumChannelsPerOrder), 0u);
 }
@@ -361,8 +361,7 @@ DecoderView MakeDecoderView(ALCdevice *device, const AmbDecConf *conf,
     const auto lfmatrix = conf->LFMatrix;
 
     uint chan_count{0};
-    using const_speaker_span = al::span<const AmbDecConf::SpeakerConf>;
-    for(auto &speaker : const_speaker_span{conf->Speakers.get(), conf->NumSpeakers})
+    for(auto &speaker : al::span<const AmbDecConf::SpeakerConf>{conf->Speakers})
     {
         /* NOTE: AmbDec does not define any standard speaker names, however
          * for this to work we have to by able to find the output channel
@@ -708,120 +707,126 @@ void InitPanning(ALCdevice *device, const bool hqdec=false, const bool stablize=
 
 void InitHrtfPanning(ALCdevice *device)
 {
-    constexpr float Deg180{al::numbers::pi_v<float>};
-    constexpr float Deg_90{Deg180 / 2.0f /* 90 degrees*/};
-    constexpr float Deg_45{Deg_90 / 2.0f /* 45 degrees*/};
-    constexpr float Deg135{Deg_45 * 3.0f /*135 degrees*/};
-    constexpr float Deg_21{3.648638281e-01f /* 20~ 21 degrees*/};
-    constexpr float Deg_32{5.535743589e-01f /* 31~ 32 degrees*/};
-    constexpr float Deg_35{6.154797087e-01f /* 35~ 36 degrees*/};
-    constexpr float Deg_58{1.017221968e+00f /* 58~ 59 degrees*/};
-    constexpr float Deg_69{1.205932499e+00f /* 69~ 70 degrees*/};
-    constexpr float Deg111{1.935660155e+00f /*110~111 degrees*/};
-    constexpr float Deg122{2.124370686e+00f /*121~122 degrees*/};
-    static const AngularPoint AmbiPoints1O[]{
-        { EvRadians{ Deg_35}, AzRadians{-Deg_45} },
-        { EvRadians{ Deg_35}, AzRadians{-Deg135} },
-        { EvRadians{ Deg_35}, AzRadians{ Deg_45} },
-        { EvRadians{ Deg_35}, AzRadians{ Deg135} },
-        { EvRadians{-Deg_35}, AzRadians{-Deg_45} },
-        { EvRadians{-Deg_35}, AzRadians{-Deg135} },
-        { EvRadians{-Deg_35}, AzRadians{ Deg_45} },
-        { EvRadians{-Deg_35}, AzRadians{ Deg135} },
-    }, AmbiPoints2O[]{
-        { EvRadians{-Deg_32}, AzRadians{   0.0f} },
-        { EvRadians{   0.0f}, AzRadians{ Deg_58} },
-        { EvRadians{ Deg_58}, AzRadians{ Deg_90} },
-        { EvRadians{ Deg_32}, AzRadians{   0.0f} },
-        { EvRadians{   0.0f}, AzRadians{ Deg122} },
-        { EvRadians{-Deg_58}, AzRadians{-Deg_90} },
-        { EvRadians{-Deg_32}, AzRadians{ Deg180} },
-        { EvRadians{   0.0f}, AzRadians{-Deg122} },
-        { EvRadians{ Deg_58}, AzRadians{-Deg_90} },
-        { EvRadians{ Deg_32}, AzRadians{ Deg180} },
-        { EvRadians{   0.0f}, AzRadians{-Deg_58} },
-        { EvRadians{-Deg_58}, AzRadians{ Deg_90} },
-    }, AmbiPoints3O[]{
-        { EvRadians{ Deg_69}, AzRadians{-Deg_90} },
-        { EvRadians{ Deg_69}, AzRadians{ Deg_90} },
-        { EvRadians{-Deg_69}, AzRadians{-Deg_90} },
-        { EvRadians{-Deg_69}, AzRadians{ Deg_90} },
-        { EvRadians{   0.0f}, AzRadians{-Deg_69} },
-        { EvRadians{   0.0f}, AzRadians{-Deg111} },
-        { EvRadians{   0.0f}, AzRadians{ Deg_69} },
-        { EvRadians{   0.0f}, AzRadians{ Deg111} },
-        { EvRadians{ Deg_21}, AzRadians{   0.0f} },
-        { EvRadians{ Deg_21}, AzRadians{ Deg180} },
-        { EvRadians{-Deg_21}, AzRadians{   0.0f} },
-        { EvRadians{-Deg_21}, AzRadians{ Deg180} },
-        { EvRadians{ Deg_35}, AzRadians{-Deg_45} },
-        { EvRadians{ Deg_35}, AzRadians{-Deg135} },
-        { EvRadians{ Deg_35}, AzRadians{ Deg_45} },
-        { EvRadians{ Deg_35}, AzRadians{ Deg135} },
-        { EvRadians{-Deg_35}, AzRadians{-Deg_45} },
-        { EvRadians{-Deg_35}, AzRadians{-Deg135} },
-        { EvRadians{-Deg_35}, AzRadians{ Deg_45} },
-        { EvRadians{-Deg_35}, AzRadians{ Deg135} },
+    static constexpr float Deg180{al::numbers::pi_v<float>};
+    static constexpr float Deg_90{Deg180 / 2.0f /* 90 degrees*/};
+    static constexpr float Deg_45{Deg_90 / 2.0f /* 45 degrees*/};
+    static constexpr float Deg135{Deg_45 * 3.0f /*135 degrees*/};
+    static constexpr float Deg_21{3.648638281e-01f /* 20~ 21 degrees*/};
+    static constexpr float Deg_32{5.535743589e-01f /* 31~ 32 degrees*/};
+    static constexpr float Deg_35{6.154797087e-01f /* 35~ 36 degrees*/};
+    static constexpr float Deg_58{1.017221968e+00f /* 58~ 59 degrees*/};
+    static constexpr float Deg_69{1.205932499e+00f /* 69~ 70 degrees*/};
+    static constexpr float Deg111{1.935660155e+00f /*110~111 degrees*/};
+    static constexpr float Deg122{2.124370686e+00f /*121~122 degrees*/};
+    static constexpr std::array AmbiPoints1O{
+        AngularPoint{EvRadians{ Deg_35}, AzRadians{-Deg_45}},
+        AngularPoint{EvRadians{ Deg_35}, AzRadians{-Deg135}},
+        AngularPoint{EvRadians{ Deg_35}, AzRadians{ Deg_45}},
+        AngularPoint{EvRadians{ Deg_35}, AzRadians{ Deg135}},
+        AngularPoint{EvRadians{-Deg_35}, AzRadians{-Deg_45}},
+        AngularPoint{EvRadians{-Deg_35}, AzRadians{-Deg135}},
+        AngularPoint{EvRadians{-Deg_35}, AzRadians{ Deg_45}},
+        AngularPoint{EvRadians{-Deg_35}, AzRadians{ Deg135}},
     };
-    static const float AmbiMatrix1O[][MaxAmbiChannels]{
-        { 1.250000000e-01f,  1.250000000e-01f,  1.250000000e-01f,  1.250000000e-01f },
-        { 1.250000000e-01f,  1.250000000e-01f,  1.250000000e-01f, -1.250000000e-01f },
-        { 1.250000000e-01f, -1.250000000e-01f,  1.250000000e-01f,  1.250000000e-01f },
-        { 1.250000000e-01f, -1.250000000e-01f,  1.250000000e-01f, -1.250000000e-01f },
-        { 1.250000000e-01f,  1.250000000e-01f, -1.250000000e-01f,  1.250000000e-01f },
-        { 1.250000000e-01f,  1.250000000e-01f, -1.250000000e-01f, -1.250000000e-01f },
-        { 1.250000000e-01f, -1.250000000e-01f, -1.250000000e-01f,  1.250000000e-01f },
-        { 1.250000000e-01f, -1.250000000e-01f, -1.250000000e-01f, -1.250000000e-01f },
-    }, AmbiMatrix2O[][MaxAmbiChannels]{
-        { 8.333333333e-02f,  0.000000000e+00f, -7.588274978e-02f,  1.227808683e-01f,  0.000000000e+00f,  0.000000000e+00f, -1.591525047e-02f, -1.443375673e-01f,  1.167715449e-01f, },
-        { 8.333333333e-02f, -1.227808683e-01f,  0.000000000e+00f,  7.588274978e-02f, -1.443375673e-01f,  0.000000000e+00f, -9.316949906e-02f,  0.000000000e+00f, -7.216878365e-02f, },
-        { 8.333333333e-02f, -7.588274978e-02f,  1.227808683e-01f,  0.000000000e+00f,  0.000000000e+00f, -1.443375673e-01f,  1.090847495e-01f,  0.000000000e+00f, -4.460276122e-02f, },
-        { 8.333333333e-02f,  0.000000000e+00f,  7.588274978e-02f,  1.227808683e-01f,  0.000000000e+00f,  0.000000000e+00f, -1.591525047e-02f,  1.443375673e-01f,  1.167715449e-01f, },
-        { 8.333333333e-02f, -1.227808683e-01f,  0.000000000e+00f, -7.588274978e-02f,  1.443375673e-01f,  0.000000000e+00f, -9.316949906e-02f,  0.000000000e+00f, -7.216878365e-02f, },
-        { 8.333333333e-02f,  7.588274978e-02f, -1.227808683e-01f,  0.000000000e+00f,  0.000000000e+00f, -1.443375673e-01f,  1.090847495e-01f,  0.000000000e+00f, -4.460276122e-02f, },
-        { 8.333333333e-02f,  0.000000000e+00f, -7.588274978e-02f, -1.227808683e-01f,  0.000000000e+00f,  0.000000000e+00f, -1.591525047e-02f,  1.443375673e-01f,  1.167715449e-01f, },
-        { 8.333333333e-02f,  1.227808683e-01f,  0.000000000e+00f, -7.588274978e-02f, -1.443375673e-01f,  0.000000000e+00f, -9.316949906e-02f,  0.000000000e+00f, -7.216878365e-02f, },
-        { 8.333333333e-02f,  7.588274978e-02f,  1.227808683e-01f,  0.000000000e+00f,  0.000000000e+00f,  1.443375673e-01f,  1.090847495e-01f,  0.000000000e+00f, -4.460276122e-02f, },
-        { 8.333333333e-02f,  0.000000000e+00f,  7.588274978e-02f, -1.227808683e-01f,  0.000000000e+00f,  0.000000000e+00f, -1.591525047e-02f, -1.443375673e-01f,  1.167715449e-01f, },
-        { 8.333333333e-02f,  1.227808683e-01f,  0.000000000e+00f,  7.588274978e-02f,  1.443375673e-01f,  0.000000000e+00f, -9.316949906e-02f,  0.000000000e+00f, -7.216878365e-02f, },
-        { 8.333333333e-02f, -7.588274978e-02f, -1.227808683e-01f,  0.000000000e+00f,  0.000000000e+00f,  1.443375673e-01f,  1.090847495e-01f,  0.000000000e+00f, -4.460276122e-02f, },
-    }, AmbiMatrix3O[][MaxAmbiChannels]{
-        { 5.000000000e-02f,  3.090169944e-02f,  8.090169944e-02f,  0.000000000e+00f,  0.000000000e+00f,  6.454972244e-02f,  9.045084972e-02f,  0.000000000e+00f, -1.232790000e-02f, -1.256118221e-01f,  0.000000000e+00f,  1.126112056e-01f,  7.944389175e-02f,  0.000000000e+00f,  2.421151497e-02f,  0.000000000e+00f, },
-        { 5.000000000e-02f, -3.090169944e-02f,  8.090169944e-02f,  0.000000000e+00f,  0.000000000e+00f, -6.454972244e-02f,  9.045084972e-02f,  0.000000000e+00f, -1.232790000e-02f,  1.256118221e-01f,  0.000000000e+00f, -1.126112056e-01f,  7.944389175e-02f,  0.000000000e+00f,  2.421151497e-02f,  0.000000000e+00f, },
-        { 5.000000000e-02f,  3.090169944e-02f, -8.090169944e-02f,  0.000000000e+00f,  0.000000000e+00f, -6.454972244e-02f,  9.045084972e-02f,  0.000000000e+00f, -1.232790000e-02f, -1.256118221e-01f,  0.000000000e+00f,  1.126112056e-01f, -7.944389175e-02f,  0.000000000e+00f, -2.421151497e-02f,  0.000000000e+00f, },
-        { 5.000000000e-02f, -3.090169944e-02f, -8.090169944e-02f,  0.000000000e+00f,  0.000000000e+00f,  6.454972244e-02f,  9.045084972e-02f,  0.000000000e+00f, -1.232790000e-02f,  1.256118221e-01f,  0.000000000e+00f, -1.126112056e-01f, -7.944389175e-02f,  0.000000000e+00f, -2.421151497e-02f,  0.000000000e+00f, },
-        { 5.000000000e-02f,  8.090169944e-02f,  0.000000000e+00f,  3.090169944e-02f,  6.454972244e-02f,  0.000000000e+00f, -5.590169944e-02f,  0.000000000e+00f, -7.216878365e-02f, -7.763237543e-02f,  0.000000000e+00f, -2.950836627e-02f,  0.000000000e+00f, -1.497759251e-01f,  0.000000000e+00f, -7.763237543e-02f, },
-        { 5.000000000e-02f,  8.090169944e-02f,  0.000000000e+00f, -3.090169944e-02f, -6.454972244e-02f,  0.000000000e+00f, -5.590169944e-02f,  0.000000000e+00f, -7.216878365e-02f, -7.763237543e-02f,  0.000000000e+00f, -2.950836627e-02f,  0.000000000e+00f,  1.497759251e-01f,  0.000000000e+00f,  7.763237543e-02f, },
-        { 5.000000000e-02f, -8.090169944e-02f,  0.000000000e+00f,  3.090169944e-02f, -6.454972244e-02f,  0.000000000e+00f, -5.590169944e-02f,  0.000000000e+00f, -7.216878365e-02f,  7.763237543e-02f,  0.000000000e+00f,  2.950836627e-02f,  0.000000000e+00f, -1.497759251e-01f,  0.000000000e+00f, -7.763237543e-02f, },
-        { 5.000000000e-02f, -8.090169944e-02f,  0.000000000e+00f, -3.090169944e-02f,  6.454972244e-02f,  0.000000000e+00f, -5.590169944e-02f,  0.000000000e+00f, -7.216878365e-02f,  7.763237543e-02f,  0.000000000e+00f,  2.950836627e-02f,  0.000000000e+00f,  1.497759251e-01f,  0.000000000e+00f,  7.763237543e-02f, },
-        { 5.000000000e-02f,  0.000000000e+00f,  3.090169944e-02f,  8.090169944e-02f,  0.000000000e+00f,  0.000000000e+00f, -3.454915028e-02f,  6.454972244e-02f,  8.449668365e-02f,  0.000000000e+00f,  0.000000000e+00f,  0.000000000e+00f,  3.034486645e-02f, -6.779013272e-02f,  1.659481923e-01f,  4.797944664e-02f, },
-        { 5.000000000e-02f,  0.000000000e+00f,  3.090169944e-02f, -8.090169944e-02f,  0.000000000e+00f,  0.000000000e+00f, -3.454915028e-02f, -6.454972244e-02f,  8.449668365e-02f,  0.000000000e+00f,  0.000000000e+00f,  0.000000000e+00f,  3.034486645e-02f,  6.779013272e-02f,  1.659481923e-01f, -4.797944664e-02f, },
-        { 5.000000000e-02f,  0.000000000e+00f, -3.090169944e-02f,  8.090169944e-02f,  0.000000000e+00f,  0.000000000e+00f, -3.454915028e-02f, -6.454972244e-02f,  8.449668365e-02f,  0.000000000e+00f,  0.000000000e+00f,  0.000000000e+00f, -3.034486645e-02f, -6.779013272e-02f, -1.659481923e-01f,  4.797944664e-02f, },
-        { 5.000000000e-02f,  0.000000000e+00f, -3.090169944e-02f, -8.090169944e-02f,  0.000000000e+00f,  0.000000000e+00f, -3.454915028e-02f,  6.454972244e-02f,  8.449668365e-02f,  0.000000000e+00f,  0.000000000e+00f,  0.000000000e+00f, -3.034486645e-02f,  6.779013272e-02f, -1.659481923e-01f, -4.797944664e-02f, },
-        { 5.000000000e-02f,  5.000000000e-02f,  5.000000000e-02f,  5.000000000e-02f,  6.454972244e-02f,  6.454972244e-02f,  0.000000000e+00f,  6.454972244e-02f,  0.000000000e+00f,  1.016220987e-01f,  6.338656910e-02f, -1.092600649e-02f, -7.364853795e-02f,  1.011266756e-01f, -7.086833869e-02f, -1.482646439e-02f, },
-        { 5.000000000e-02f,  5.000000000e-02f,  5.000000000e-02f, -5.000000000e-02f, -6.454972244e-02f,  6.454972244e-02f,  0.000000000e+00f, -6.454972244e-02f,  0.000000000e+00f,  1.016220987e-01f, -6.338656910e-02f, -1.092600649e-02f, -7.364853795e-02f, -1.011266756e-01f, -7.086833869e-02f,  1.482646439e-02f, },
-        { 5.000000000e-02f, -5.000000000e-02f,  5.000000000e-02f,  5.000000000e-02f, -6.454972244e-02f, -6.454972244e-02f,  0.000000000e+00f,  6.454972244e-02f,  0.000000000e+00f, -1.016220987e-01f, -6.338656910e-02f,  1.092600649e-02f, -7.364853795e-02f,  1.011266756e-01f, -7.086833869e-02f, -1.482646439e-02f, },
-        { 5.000000000e-02f, -5.000000000e-02f,  5.000000000e-02f, -5.000000000e-02f,  6.454972244e-02f, -6.454972244e-02f,  0.000000000e+00f, -6.454972244e-02f,  0.000000000e+00f, -1.016220987e-01f,  6.338656910e-02f,  1.092600649e-02f, -7.364853795e-02f, -1.011266756e-01f, -7.086833869e-02f,  1.482646439e-02f, },
-        { 5.000000000e-02f,  5.000000000e-02f, -5.000000000e-02f,  5.000000000e-02f,  6.454972244e-02f, -6.454972244e-02f,  0.000000000e+00f, -6.454972244e-02f,  0.000000000e+00f,  1.016220987e-01f, -6.338656910e-02f, -1.092600649e-02f,  7.364853795e-02f,  1.011266756e-01f,  7.086833869e-02f, -1.482646439e-02f, },
-        { 5.000000000e-02f,  5.000000000e-02f, -5.000000000e-02f, -5.000000000e-02f, -6.454972244e-02f, -6.454972244e-02f,  0.000000000e+00f,  6.454972244e-02f,  0.000000000e+00f,  1.016220987e-01f,  6.338656910e-02f, -1.092600649e-02f,  7.364853795e-02f, -1.011266756e-01f,  7.086833869e-02f,  1.482646439e-02f, },
-        { 5.000000000e-02f, -5.000000000e-02f, -5.000000000e-02f,  5.000000000e-02f, -6.454972244e-02f,  6.454972244e-02f,  0.000000000e+00f, -6.454972244e-02f,  0.000000000e+00f, -1.016220987e-01f,  6.338656910e-02f,  1.092600649e-02f,  7.364853795e-02f,  1.011266756e-01f,  7.086833869e-02f, -1.482646439e-02f, },
-        { 5.000000000e-02f, -5.000000000e-02f, -5.000000000e-02f, -5.000000000e-02f,  6.454972244e-02f,  6.454972244e-02f,  0.000000000e+00f,  6.454972244e-02f,  0.000000000e+00f, -1.016220987e-01f, -6.338656910e-02f,  1.092600649e-02f,  7.364853795e-02f, -1.011266756e-01f,  7.086833869e-02f,  1.482646439e-02f, },
+    static constexpr std::array AmbiPoints2O{
+        AngularPoint{EvRadians{-Deg_32}, AzRadians{   0.0f}},
+        AngularPoint{EvRadians{   0.0f}, AzRadians{ Deg_58}},
+        AngularPoint{EvRadians{ Deg_58}, AzRadians{ Deg_90}},
+        AngularPoint{EvRadians{ Deg_32}, AzRadians{   0.0f}},
+        AngularPoint{EvRadians{   0.0f}, AzRadians{ Deg122}},
+        AngularPoint{EvRadians{-Deg_58}, AzRadians{-Deg_90}},
+        AngularPoint{EvRadians{-Deg_32}, AzRadians{ Deg180}},
+        AngularPoint{EvRadians{   0.0f}, AzRadians{-Deg122}},
+        AngularPoint{EvRadians{ Deg_58}, AzRadians{-Deg_90}},
+        AngularPoint{EvRadians{ Deg_32}, AzRadians{ Deg180}},
+        AngularPoint{EvRadians{   0.0f}, AzRadians{-Deg_58}},
+        AngularPoint{EvRadians{-Deg_58}, AzRadians{ Deg_90}},
     };
-    static const float AmbiOrderHFGain1O[MaxAmbiOrder+1]{
+    static constexpr std::array AmbiPoints3O{
+        AngularPoint{EvRadians{ Deg_69}, AzRadians{-Deg_90}},
+        AngularPoint{EvRadians{ Deg_69}, AzRadians{ Deg_90}},
+        AngularPoint{EvRadians{-Deg_69}, AzRadians{-Deg_90}},
+        AngularPoint{EvRadians{-Deg_69}, AzRadians{ Deg_90}},
+        AngularPoint{EvRadians{   0.0f}, AzRadians{-Deg_69}},
+        AngularPoint{EvRadians{   0.0f}, AzRadians{-Deg111}},
+        AngularPoint{EvRadians{   0.0f}, AzRadians{ Deg_69}},
+        AngularPoint{EvRadians{   0.0f}, AzRadians{ Deg111}},
+        AngularPoint{EvRadians{ Deg_21}, AzRadians{   0.0f}},
+        AngularPoint{EvRadians{ Deg_21}, AzRadians{ Deg180}},
+        AngularPoint{EvRadians{-Deg_21}, AzRadians{   0.0f}},
+        AngularPoint{EvRadians{-Deg_21}, AzRadians{ Deg180}},
+        AngularPoint{EvRadians{ Deg_35}, AzRadians{-Deg_45}},
+        AngularPoint{EvRadians{ Deg_35}, AzRadians{-Deg135}},
+        AngularPoint{EvRadians{ Deg_35}, AzRadians{ Deg_45}},
+        AngularPoint{EvRadians{ Deg_35}, AzRadians{ Deg135}},
+        AngularPoint{EvRadians{-Deg_35}, AzRadians{-Deg_45}},
+        AngularPoint{EvRadians{-Deg_35}, AzRadians{-Deg135}},
+        AngularPoint{EvRadians{-Deg_35}, AzRadians{ Deg_45}},
+        AngularPoint{EvRadians{-Deg_35}, AzRadians{ Deg135}},
+    };
+    static constexpr std::array AmbiMatrix1O{
+        std::array<float,MaxAmbiChannels>{{1.250000000e-01f,  1.250000000e-01f,  1.250000000e-01f,  1.250000000e-01f}},
+        std::array<float,MaxAmbiChannels>{{1.250000000e-01f,  1.250000000e-01f,  1.250000000e-01f, -1.250000000e-01f}},
+        std::array<float,MaxAmbiChannels>{{1.250000000e-01f, -1.250000000e-01f,  1.250000000e-01f,  1.250000000e-01f}},
+        std::array<float,MaxAmbiChannels>{{1.250000000e-01f, -1.250000000e-01f,  1.250000000e-01f, -1.250000000e-01f}},
+        std::array<float,MaxAmbiChannels>{{1.250000000e-01f,  1.250000000e-01f, -1.250000000e-01f,  1.250000000e-01f}},
+        std::array<float,MaxAmbiChannels>{{1.250000000e-01f,  1.250000000e-01f, -1.250000000e-01f, -1.250000000e-01f}},
+        std::array<float,MaxAmbiChannels>{{1.250000000e-01f, -1.250000000e-01f, -1.250000000e-01f,  1.250000000e-01f}},
+        std::array<float,MaxAmbiChannels>{{1.250000000e-01f, -1.250000000e-01f, -1.250000000e-01f, -1.250000000e-01f}},
+    };
+    static constexpr std::array AmbiMatrix2O{
+        std::array<float,MaxAmbiChannels>{{8.333333333e-02f,  0.000000000e+00f, -7.588274978e-02f,  1.227808683e-01f,  0.000000000e+00f,  0.000000000e+00f, -1.591525047e-02f, -1.443375673e-01f,  1.167715449e-01f}},
+        std::array<float,MaxAmbiChannels>{{8.333333333e-02f, -1.227808683e-01f,  0.000000000e+00f,  7.588274978e-02f, -1.443375673e-01f,  0.000000000e+00f, -9.316949906e-02f,  0.000000000e+00f, -7.216878365e-02f}},
+        std::array<float,MaxAmbiChannels>{{8.333333333e-02f, -7.588274978e-02f,  1.227808683e-01f,  0.000000000e+00f,  0.000000000e+00f, -1.443375673e-01f,  1.090847495e-01f,  0.000000000e+00f, -4.460276122e-02f}},
+        std::array<float,MaxAmbiChannels>{{8.333333333e-02f,  0.000000000e+00f,  7.588274978e-02f,  1.227808683e-01f,  0.000000000e+00f,  0.000000000e+00f, -1.591525047e-02f,  1.443375673e-01f,  1.167715449e-01f}},
+        std::array<float,MaxAmbiChannels>{{8.333333333e-02f, -1.227808683e-01f,  0.000000000e+00f, -7.588274978e-02f,  1.443375673e-01f,  0.000000000e+00f, -9.316949906e-02f,  0.000000000e+00f, -7.216878365e-02f}},
+        std::array<float,MaxAmbiChannels>{{8.333333333e-02f,  7.588274978e-02f, -1.227808683e-01f,  0.000000000e+00f,  0.000000000e+00f, -1.443375673e-01f,  1.090847495e-01f,  0.000000000e+00f, -4.460276122e-02f}},
+        std::array<float,MaxAmbiChannels>{{8.333333333e-02f,  0.000000000e+00f, -7.588274978e-02f, -1.227808683e-01f,  0.000000000e+00f,  0.000000000e+00f, -1.591525047e-02f,  1.443375673e-01f,  1.167715449e-01f}},
+        std::array<float,MaxAmbiChannels>{{8.333333333e-02f,  1.227808683e-01f,  0.000000000e+00f, -7.588274978e-02f, -1.443375673e-01f,  0.000000000e+00f, -9.316949906e-02f,  0.000000000e+00f, -7.216878365e-02f}},
+        std::array<float,MaxAmbiChannels>{{8.333333333e-02f,  7.588274978e-02f,  1.227808683e-01f,  0.000000000e+00f,  0.000000000e+00f,  1.443375673e-01f,  1.090847495e-01f,  0.000000000e+00f, -4.460276122e-02f}},
+        std::array<float,MaxAmbiChannels>{{8.333333333e-02f,  0.000000000e+00f,  7.588274978e-02f, -1.227808683e-01f,  0.000000000e+00f,  0.000000000e+00f, -1.591525047e-02f, -1.443375673e-01f,  1.167715449e-01f}},
+        std::array<float,MaxAmbiChannels>{{8.333333333e-02f,  1.227808683e-01f,  0.000000000e+00f,  7.588274978e-02f,  1.443375673e-01f,  0.000000000e+00f, -9.316949906e-02f,  0.000000000e+00f, -7.216878365e-02f}},
+        std::array<float,MaxAmbiChannels>{{8.333333333e-02f, -7.588274978e-02f, -1.227808683e-01f,  0.000000000e+00f,  0.000000000e+00f,  1.443375673e-01f,  1.090847495e-01f,  0.000000000e+00f, -4.460276122e-02f}},
+    };
+    static constexpr std::array AmbiMatrix3O{
+        std::array<float,MaxAmbiChannels>{{5.000000000e-02f,  3.090169944e-02f,  8.090169944e-02f,  0.000000000e+00f,  0.000000000e+00f,  6.454972244e-02f,  9.045084972e-02f,  0.000000000e+00f, -1.232790000e-02f, -1.256118221e-01f,  0.000000000e+00f,  1.126112056e-01f,  7.944389175e-02f,  0.000000000e+00f,  2.421151497e-02f,  0.000000000e+00f}},
+        std::array<float,MaxAmbiChannels>{{5.000000000e-02f, -3.090169944e-02f,  8.090169944e-02f,  0.000000000e+00f,  0.000000000e+00f, -6.454972244e-02f,  9.045084972e-02f,  0.000000000e+00f, -1.232790000e-02f,  1.256118221e-01f,  0.000000000e+00f, -1.126112056e-01f,  7.944389175e-02f,  0.000000000e+00f,  2.421151497e-02f,  0.000000000e+00f}},
+        std::array<float,MaxAmbiChannels>{{5.000000000e-02f,  3.090169944e-02f, -8.090169944e-02f,  0.000000000e+00f,  0.000000000e+00f, -6.454972244e-02f,  9.045084972e-02f,  0.000000000e+00f, -1.232790000e-02f, -1.256118221e-01f,  0.000000000e+00f,  1.126112056e-01f, -7.944389175e-02f,  0.000000000e+00f, -2.421151497e-02f,  0.000000000e+00f}},
+        std::array<float,MaxAmbiChannels>{{5.000000000e-02f, -3.090169944e-02f, -8.090169944e-02f,  0.000000000e+00f,  0.000000000e+00f,  6.454972244e-02f,  9.045084972e-02f,  0.000000000e+00f, -1.232790000e-02f,  1.256118221e-01f,  0.000000000e+00f, -1.126112056e-01f, -7.944389175e-02f,  0.000000000e+00f, -2.421151497e-02f,  0.000000000e+00f}},
+        std::array<float,MaxAmbiChannels>{{5.000000000e-02f,  8.090169944e-02f,  0.000000000e+00f,  3.090169944e-02f,  6.454972244e-02f,  0.000000000e+00f, -5.590169944e-02f,  0.000000000e+00f, -7.216878365e-02f, -7.763237543e-02f,  0.000000000e+00f, -2.950836627e-02f,  0.000000000e+00f, -1.497759251e-01f,  0.000000000e+00f, -7.763237543e-02f}},
+        std::array<float,MaxAmbiChannels>{{5.000000000e-02f,  8.090169944e-02f,  0.000000000e+00f, -3.090169944e-02f, -6.454972244e-02f,  0.000000000e+00f, -5.590169944e-02f,  0.000000000e+00f, -7.216878365e-02f, -7.763237543e-02f,  0.000000000e+00f, -2.950836627e-02f,  0.000000000e+00f,  1.497759251e-01f,  0.000000000e+00f,  7.763237543e-02f}},
+        std::array<float,MaxAmbiChannels>{{5.000000000e-02f, -8.090169944e-02f,  0.000000000e+00f,  3.090169944e-02f, -6.454972244e-02f,  0.000000000e+00f, -5.590169944e-02f,  0.000000000e+00f, -7.216878365e-02f,  7.763237543e-02f,  0.000000000e+00f,  2.950836627e-02f,  0.000000000e+00f, -1.497759251e-01f,  0.000000000e+00f, -7.763237543e-02f}},
+        std::array<float,MaxAmbiChannels>{{5.000000000e-02f, -8.090169944e-02f,  0.000000000e+00f, -3.090169944e-02f,  6.454972244e-02f,  0.000000000e+00f, -5.590169944e-02f,  0.000000000e+00f, -7.216878365e-02f,  7.763237543e-02f,  0.000000000e+00f,  2.950836627e-02f,  0.000000000e+00f,  1.497759251e-01f,  0.000000000e+00f,  7.763237543e-02f}},
+        std::array<float,MaxAmbiChannels>{{5.000000000e-02f,  0.000000000e+00f,  3.090169944e-02f,  8.090169944e-02f,  0.000000000e+00f,  0.000000000e+00f, -3.454915028e-02f,  6.454972244e-02f,  8.449668365e-02f,  0.000000000e+00f,  0.000000000e+00f,  0.000000000e+00f,  3.034486645e-02f, -6.779013272e-02f,  1.659481923e-01f,  4.797944664e-02f}},
+        std::array<float,MaxAmbiChannels>{{5.000000000e-02f,  0.000000000e+00f,  3.090169944e-02f, -8.090169944e-02f,  0.000000000e+00f,  0.000000000e+00f, -3.454915028e-02f, -6.454972244e-02f,  8.449668365e-02f,  0.000000000e+00f,  0.000000000e+00f,  0.000000000e+00f,  3.034486645e-02f,  6.779013272e-02f,  1.659481923e-01f, -4.797944664e-02f}},
+        std::array<float,MaxAmbiChannels>{{5.000000000e-02f,  0.000000000e+00f, -3.090169944e-02f,  8.090169944e-02f,  0.000000000e+00f,  0.000000000e+00f, -3.454915028e-02f, -6.454972244e-02f,  8.449668365e-02f,  0.000000000e+00f,  0.000000000e+00f,  0.000000000e+00f, -3.034486645e-02f, -6.779013272e-02f, -1.659481923e-01f,  4.797944664e-02f}},
+        std::array<float,MaxAmbiChannels>{{5.000000000e-02f,  0.000000000e+00f, -3.090169944e-02f, -8.090169944e-02f,  0.000000000e+00f,  0.000000000e+00f, -3.454915028e-02f,  6.454972244e-02f,  8.449668365e-02f,  0.000000000e+00f,  0.000000000e+00f,  0.000000000e+00f, -3.034486645e-02f,  6.779013272e-02f, -1.659481923e-01f, -4.797944664e-02f}},
+        std::array<float,MaxAmbiChannels>{{5.000000000e-02f,  5.000000000e-02f,  5.000000000e-02f,  5.000000000e-02f,  6.454972244e-02f,  6.454972244e-02f,  0.000000000e+00f,  6.454972244e-02f,  0.000000000e+00f,  1.016220987e-01f,  6.338656910e-02f, -1.092600649e-02f, -7.364853795e-02f,  1.011266756e-01f, -7.086833869e-02f, -1.482646439e-02f}},
+        std::array<float,MaxAmbiChannels>{{5.000000000e-02f,  5.000000000e-02f,  5.000000000e-02f, -5.000000000e-02f, -6.454972244e-02f,  6.454972244e-02f,  0.000000000e+00f, -6.454972244e-02f,  0.000000000e+00f,  1.016220987e-01f, -6.338656910e-02f, -1.092600649e-02f, -7.364853795e-02f, -1.011266756e-01f, -7.086833869e-02f,  1.482646439e-02f}},
+        std::array<float,MaxAmbiChannels>{{5.000000000e-02f, -5.000000000e-02f,  5.000000000e-02f,  5.000000000e-02f, -6.454972244e-02f, -6.454972244e-02f,  0.000000000e+00f,  6.454972244e-02f,  0.000000000e+00f, -1.016220987e-01f, -6.338656910e-02f,  1.092600649e-02f, -7.364853795e-02f,  1.011266756e-01f, -7.086833869e-02f, -1.482646439e-02f}},
+        std::array<float,MaxAmbiChannels>{{5.000000000e-02f, -5.000000000e-02f,  5.000000000e-02f, -5.000000000e-02f,  6.454972244e-02f, -6.454972244e-02f,  0.000000000e+00f, -6.454972244e-02f,  0.000000000e+00f, -1.016220987e-01f,  6.338656910e-02f,  1.092600649e-02f, -7.364853795e-02f, -1.011266756e-01f, -7.086833869e-02f,  1.482646439e-02f}},
+        std::array<float,MaxAmbiChannels>{{5.000000000e-02f,  5.000000000e-02f, -5.000000000e-02f,  5.000000000e-02f,  6.454972244e-02f, -6.454972244e-02f,  0.000000000e+00f, -6.454972244e-02f,  0.000000000e+00f,  1.016220987e-01f, -6.338656910e-02f, -1.092600649e-02f,  7.364853795e-02f,  1.011266756e-01f,  7.086833869e-02f, -1.482646439e-02f}},
+        std::array<float,MaxAmbiChannels>{{5.000000000e-02f,  5.000000000e-02f, -5.000000000e-02f, -5.000000000e-02f, -6.454972244e-02f, -6.454972244e-02f,  0.000000000e+00f,  6.454972244e-02f,  0.000000000e+00f,  1.016220987e-01f,  6.338656910e-02f, -1.092600649e-02f,  7.364853795e-02f, -1.011266756e-01f,  7.086833869e-02f,  1.482646439e-02f}},
+        std::array<float,MaxAmbiChannels>{{5.000000000e-02f, -5.000000000e-02f, -5.000000000e-02f,  5.000000000e-02f, -6.454972244e-02f,  6.454972244e-02f,  0.000000000e+00f, -6.454972244e-02f,  0.000000000e+00f, -1.016220987e-01f,  6.338656910e-02f,  1.092600649e-02f,  7.364853795e-02f,  1.011266756e-01f,  7.086833869e-02f, -1.482646439e-02f}},
+        std::array<float,MaxAmbiChannels>{{5.000000000e-02f, -5.000000000e-02f, -5.000000000e-02f, -5.000000000e-02f,  6.454972244e-02f,  6.454972244e-02f,  0.000000000e+00f,  6.454972244e-02f,  0.000000000e+00f, -1.016220987e-01f, -6.338656910e-02f,  1.092600649e-02f,  7.364853795e-02f, -1.011266756e-01f,  7.086833869e-02f,  1.482646439e-02f}},
+    };
+    static constexpr std::array<float,MaxAmbiOrder+1> AmbiOrderHFGain1O{
         /*ENRGY*/ 2.000000000e+00f, 1.154700538e+00f
-    }, AmbiOrderHFGain2O[MaxAmbiOrder+1]{
+    };
+    static constexpr std::array<float,MaxAmbiOrder+1> AmbiOrderHFGain2O{
         /*ENRGY*/ 1.825741858e+00f, 1.414213562e+00f, 7.302967433e-01f
         /*AMP   1.000000000e+00f, 7.745966692e-01f, 4.000000000e-01f*/
         /*RMS   9.128709292e-01f, 7.071067812e-01f, 3.651483717e-01f*/
-    }, AmbiOrderHFGain3O[MaxAmbiOrder+1]{
+    };
+    static constexpr std::array<float,MaxAmbiOrder+1> AmbiOrderHFGain3O{
         /*ENRGY 1.865086714e+00f, 1.606093894e+00f, 1.142055301e+00f, 5.683795528e-01f*/
         /*AMP*/ 1.000000000e+00f, 8.611363116e-01f, 6.123336207e-01f, 3.047469850e-01f
         /*RMS   8.340921354e-01f, 7.182670250e-01f, 5.107426573e-01f, 2.541870634e-01f*/
     };
 
-    static_assert(std::size(AmbiPoints1O) == std::size(AmbiMatrix1O), "First-Order Ambisonic HRTF mismatch");
-    static_assert(std::size(AmbiPoints2O) == std::size(AmbiMatrix2O), "Second-Order Ambisonic HRTF mismatch");
-    static_assert(std::size(AmbiPoints3O) == std::size(AmbiMatrix3O), "Third-Order Ambisonic HRTF mismatch");
+    static_assert(AmbiPoints1O.size() == AmbiMatrix1O.size(), "First-Order Ambisonic HRTF mismatch");
+    static_assert(AmbiPoints2O.size() == AmbiMatrix2O.size(), "Second-Order Ambisonic HRTF mismatch");
+    static_assert(AmbiPoints3O.size() == AmbiMatrix3O.size(), "Third-Order Ambisonic HRTF mismatch");
 
     /* A 700hz crossover frequency provides tighter sound imaging at the sweet
      * spot with ambisonic decoding, as the distance between the ears is closer
@@ -844,15 +849,15 @@ void InitHrtfPanning(ALCdevice *device)
     if(auto modeopt = device->configValue<std::string>(nullptr, "hrtf-mode"))
     {
         struct HrtfModeEntry {
-            char name[8];
+            char name[7]; /* NOLINT(*-avoid-c-arrays) */
             RenderMode mode;
             uint order;
         };
-        static const HrtfModeEntry hrtf_modes[]{
-            { "full", RenderMode::Hrtf, 1 },
-            { "ambi1", RenderMode::Normal, 1 },
-            { "ambi2", RenderMode::Normal, 2 },
-            { "ambi3", RenderMode::Normal, 3 },
+        static constexpr std::array hrtf_modes{
+            HrtfModeEntry{"full", RenderMode::Hrtf, 1},
+            HrtfModeEntry{"ambi1", RenderMode::Normal, 1},
+            HrtfModeEntry{"ambi2", RenderMode::Normal, 2},
+            HrtfModeEntry{"ambi3", RenderMode::Normal, 3},
         };
 
         const char *mode{modeopt->c_str()};
@@ -882,9 +887,9 @@ void InitHrtfPanning(ALCdevice *device)
         device->mHrtfName.c_str());
 
     bool perHrirMin{false};
-    al::span<const AngularPoint> AmbiPoints{AmbiPoints1O};
-    const float (*AmbiMatrix)[MaxAmbiChannels]{AmbiMatrix1O};
-    al::span<const float,MaxAmbiOrder+1> AmbiOrderHFGain{AmbiOrderHFGain1O};
+    auto AmbiPoints = al::span{AmbiPoints1O}.subspan(0);
+    auto AmbiMatrix = al::span{AmbiMatrix1O}.subspan(0);
+    auto AmbiOrderHFGain = al::span{AmbiOrderHFGain1O};
     if(ambi_order >= 3)
     {
         perHrirMin = true;
@@ -903,7 +908,7 @@ void InitHrtfPanning(ALCdevice *device)
 
     const size_t count{AmbiChannelsFromOrder(ambi_order)};
     std::transform(AmbiIndex::FromACN.begin(), AmbiIndex::FromACN.begin()+count,
-        std::begin(device->Dry.AmbiMap),
+        device->Dry.AmbiMap.begin(),
         [](const uint8_t &index) noexcept { return BFChannelConfig{1.0f, index}; }
     );
     AllocChannels(device, count, device->channelsFromFmt());
@@ -981,9 +986,9 @@ void aluInitRenderer(ALCdevice *device, int hrtf_id, std::optional<StereoEncodin
                 ERR("  %s\n", err->c_str());
                 return false;
             }
-            else if(conf.NumSpeakers > MaxOutputChannels)
+            else if(conf.Speakers.size() > MaxOutputChannels)
             {
-                ERR("Unsupported decoder speaker count %zu (max %zu)\n", conf.NumSpeakers,
+                ERR("Unsupported decoder speaker count %zu (max %zu)\n", conf.Speakers.size(),
                     MaxOutputChannels);
                 return false;
             }
diff --git a/common/phase_shifter.h b/common/phase_shifter.h
index e1a83dab..1b3463de 100644
--- a/common/phase_shifter.h
+++ b/common/phase_shifter.h
@@ -10,6 +10,7 @@
 #include <array>
 #include <stddef.h>
 #include <type_traits>
+#include <vector>
 
 #include "alcomplex.h"
 #include "alspan.h"
@@ -52,20 +53,19 @@ struct PhaseShifterT {
         constexpr size_t fft_size{FilterSize};
         constexpr size_t half_size{fft_size / 2};
 
-        auto fftBuffer = std::make_unique<complex_d[]>(fft_size);
-        std::fill_n(fftBuffer.get(), fft_size, complex_d{});
+        auto fftBuffer = std::vector<complex_d>(fft_size, complex_d{});
         fftBuffer[half_size] = 1.0;
 
-        forward_fft(al::span{fftBuffer.get(), fft_size});
+        forward_fft(al::span{fftBuffer});
         fftBuffer[0] *= std::numeric_limits<double>::epsilon();
         for(size_t i{1};i < half_size;++i)
             fftBuffer[i] = complex_d{-fftBuffer[i].imag(), fftBuffer[i].real()};
         fftBuffer[half_size] *= std::numeric_limits<double>::epsilon();
         for(size_t i{half_size+1};i < fft_size;++i)
             fftBuffer[i] = std::conj(fftBuffer[fft_size - i]);
-        inverse_fft(al::span{fftBuffer.get(), fft_size});
+        inverse_fft(al::span{fftBuffer});
 
-        auto fftiter = fftBuffer.get() + fft_size - 1;
+        auto fftiter = fftBuffer.data() + fft_size - 1;
         for(float &coeff : mCoeffs)
         {
             coeff = static_cast<float>(fftiter->real() / double{fft_size});
diff --git a/common/ringbuffer.cpp b/common/ringbuffer.cpp
index 0d3b7e30..13db7eba 100644
--- a/common/ringbuffer.cpp
+++ b/common/ringbuffer.cpp
@@ -24,9 +24,9 @@
 
 #include <algorithm>
 #include <climits>
+#include <cstdint>
 #include <limits>
 #include <stdexcept>
-#include <stdint.h>
 
 #include "almalloc.h"
 
diff --git a/core/ambdec.cpp b/core/ambdec.cpp
index fb747fdf..ea369d38 100644
--- a/core/ambdec.cpp
+++ b/core/ambdec.cpp
@@ -111,7 +111,7 @@ std::optional<std::string> AmbDecConf::load(const char *fname) noexcept
         {
             if(command == "add_spkr")
             {
-                if(speaker_pos == NumSpeakers)
+                if(speaker_pos == Speakers.size())
                     return make_error(linenum, "Too many speakers specified");
 
                 AmbDecConf::SpeakerConf &spkr = Speakers[speaker_pos++];
@@ -145,7 +145,7 @@ std::optional<std::string> AmbDecConf::load(const char *fname) noexcept
             }
             else if(command == "add_row")
             {
-                if(pos == NumSpeakers)
+                if(pos == Speakers.size())
                     return make_error(linenum, "Too many matrix rows specified");
 
                 unsigned int mask{ChanMask};
@@ -205,12 +205,13 @@ std::optional<std::string> AmbDecConf::load(const char *fname) noexcept
         }
         else if(command == "/dec/speakers")
         {
-            if(NumSpeakers)
+            if(!Speakers.empty())
                 return make_error(linenum, "Duplicate speakers");
-            istr >> NumSpeakers;
-            if(!NumSpeakers)
-                return make_error(linenum, "Invalid speakers: %zu", NumSpeakers);
-            Speakers = std::make_unique<SpeakerConf[]>(NumSpeakers);
+            size_t numspeakers{};
+            istr >> numspeakers;
+            if(!numspeakers)
+                return make_error(linenum, "Invalid speakers: %zu", numspeakers);
+            Speakers.resize(numspeakers);
         }
         else if(command == "/dec/coeff_scale")
         {
@@ -243,22 +244,22 @@ std::optional<std::string> AmbDecConf::load(const char *fname) noexcept
         }
         else if(command == "/speakers/{")
         {
-            if(!NumSpeakers)
+            if(Speakers.empty())
                 return make_error(linenum, "Speakers defined without a count");
             scope = ReaderScope::Speakers;
         }
         else if(command == "/lfmatrix/{" || command == "/hfmatrix/{" || command == "/matrix/{")
         {
-            if(!NumSpeakers)
+            if(Speakers.empty())
                 return make_error(linenum, "Matrix defined without a speaker count");
             if(!ChanMask)
                 return make_error(linenum, "Matrix defined without a channel mask");
 
-            if(!Matrix)
+            if(Matrix.empty())
             {
-                Matrix = std::make_unique<CoeffArray[]>(NumSpeakers * FreqBands);
-                LFMatrix = Matrix.get();
-                HFMatrix = LFMatrix + NumSpeakers*(FreqBands-1);
+                Matrix.resize(Speakers.size() * FreqBands);
+                LFMatrix = Matrix.data();
+                HFMatrix = LFMatrix + Speakers.size()*(FreqBands-1);
             }
 
             if(FreqBands == 1)
@@ -285,8 +286,8 @@ std::optional<std::string> AmbDecConf::load(const char *fname) noexcept
             if(!is_at_end(buffer, endpos))
                 return make_error(linenum, "Extra junk on end: %s", buffer.substr(endpos).c_str());
 
-            if(speaker_pos < NumSpeakers || hfmatrix_pos < NumSpeakers
-                || (FreqBands == 2 && lfmatrix_pos < NumSpeakers))
+            if(speaker_pos < Speakers.empty() || hfmatrix_pos < Speakers.empty()
+                || (FreqBands == 2 && lfmatrix_pos < Speakers.empty()))
                 return make_error(linenum, "Incomplete decoder definition");
             if(CoeffScale == AmbDecScale::Unset)
                 return make_error(linenum, "No coefficient scaling defined");
diff --git a/core/ambdec.h b/core/ambdec.h
index 19f68697..4305070f 100644
--- a/core/ambdec.h
+++ b/core/ambdec.h
@@ -5,6 +5,7 @@
 #include <memory>
 #include <optional>
 #include <string>
+#include <vector>
 
 #include "core/ambidefs.h"
 
@@ -34,17 +35,16 @@ struct AmbDecConf {
         float Elevation{0.0f};
         std::string Connection;
     };
-    size_t NumSpeakers{0};
-    std::unique_ptr<SpeakerConf[]> Speakers;
+    std::vector<SpeakerConf> Speakers;
 
     using CoeffArray = std::array<float,MaxAmbiChannels>;
-    std::unique_ptr<CoeffArray[]> Matrix;
+    std::vector<CoeffArray> Matrix;
 
     /* Unused when FreqBands == 1 */
-    float LFOrderGain[MaxAmbiOrder+1]{};
+    std::array<float,MaxAmbiOrder+1> LFOrderGain{};
     CoeffArray *LFMatrix;
 
-    float HFOrderGain[MaxAmbiOrder+1]{};
+    std::array<float,MaxAmbiOrder+1> HFOrderGain{};
     CoeffArray *HFMatrix;
 
     ~AmbDecConf();
diff --git a/core/buffer_storage.cpp b/core/buffer_storage.cpp
index 6ffab124..a343b946 100644
--- a/core/buffer_storage.cpp
+++ b/core/buffer_storage.cpp
@@ -3,7 +3,7 @@
 
 #include "buffer_storage.h"
 
-#include <stdint.h>
+#include <cstdint>
 
 
 const char *NameFromFormat(FmtType type) noexcept
diff --git a/core/converter.cpp b/core/converter.cpp
index 5b2f3e15..fb293ee2 100644
--- a/core/converter.cpp
+++ b/core/converter.cpp
@@ -9,7 +9,7 @@
 #include <cstddef>
 #include <cstdint>
 #include <iterator>
-#include <limits.h>
+#include <climits>
 
 #include "albit.h"
 #include "alnumeric.h"
@@ -51,7 +51,7 @@ template<DevFmtType T>
 inline void LoadSampleArray(float *RESTRICT dst, const void *src, const size_t srcstep,
     const size_t samples) noexcept
 {
-    const DevFmtType_t<T> *ssrc = static_cast<const DevFmtType_t<T>*>(src);
+    auto *ssrc = static_cast<const DevFmtType_t<T>*>(src);
     for(size_t i{0u};i < samples;i++)
         dst[i] = LoadSample<T>(ssrc[i*srcstep]);
 }
@@ -99,7 +99,7 @@ template<DevFmtType T>
 inline void StoreSampleArray(void *dst, const float *RESTRICT src, const size_t dststep,
     const size_t samples) noexcept
 {
-    DevFmtType_t<T> *sdst = static_cast<DevFmtType_t<T>*>(dst);
+    auto *sdst = static_cast<DevFmtType_t<T>*>(dst);
     for(size_t i{0u};i < samples;i++)
         sdst[i*dststep] = StoreSample<T>(src[i]);
 }
@@ -127,7 +127,7 @@ void StoreSamples(void *dst, const float *src, const size_t dststep, const DevFm
 template<DevFmtType T>
 void Mono2Stereo(float *RESTRICT dst, const void *src, const size_t frames) noexcept
 {
-    const DevFmtType_t<T> *ssrc = static_cast<const DevFmtType_t<T>*>(src);
+    auto *ssrc = static_cast<const DevFmtType_t<T>*>(src);
     for(size_t i{0u};i < frames;i++)
         dst[i*2 + 1] = dst[i*2 + 0] = LoadSample<T>(ssrc[i]) * 0.707106781187f;
 }
@@ -136,7 +136,7 @@ template<DevFmtType T>
 void Multi2Mono(uint chanmask, const size_t step, const float scale, float *RESTRICT dst,
     const void *src, const size_t frames) noexcept
 {
-    const DevFmtType_t<T> *ssrc = static_cast<const DevFmtType_t<T>*>(src);
+    auto *ssrc = static_cast<const DevFmtType_t<T>*>(src);
     std::fill_n(dst, frames, 0.0f);
     for(size_t c{0};chanmask;++c)
     {
@@ -243,8 +243,8 @@ uint SampleConverter::convert(const void **src, uint *srcframes, void *dst, uint
             break;
         }
 
-        float *RESTRICT SrcData{mSrcSamples};
-        float *RESTRICT DstData{mDstSamples};
+        float *RESTRICT SrcData{mSrcSamples.data()};
+        float *RESTRICT DstData{mDstSamples.data()};
         uint DataPosFrac{mFracOffset};
         uint64_t DataSize64{prepcount};
         DataSize64 += readable;
@@ -271,13 +271,13 @@ uint SampleConverter::convert(const void **src, uint *srcframes, void *dst, uint
             /* Load the previous samples into the source data first, then the
              * new samples from the input buffer.
              */
-            std::copy_n(mChan[chan].PrevSamples, prepcount, SrcData);
+            std::copy_n(mChan[chan].PrevSamples.cbegin(), prepcount, SrcData);
             LoadSamples(SrcData + prepcount, SrcSamples, mChan.size(), mSrcType, readable);
 
             /* Store as many prep samples for next time as possible, given the
              * number of output samples being generated.
              */
-            std::copy_n(SrcData+SrcDataEnd, nextprep, mChan[chan].PrevSamples);
+            std::copy_n(SrcData+SrcDataEnd, nextprep, mChan[chan].PrevSamples.begin());
             std::fill(std::begin(mChan[chan].PrevSamples)+nextprep,
                 std::end(mChan[chan].PrevSamples), 0.0f);
 
@@ -338,8 +338,8 @@ uint SampleConverter::convertPlanar(const void **src, uint *srcframes, void *con
             break;
         }
 
-        float *RESTRICT SrcData{mSrcSamples};
-        float *RESTRICT DstData{mDstSamples};
+        float *RESTRICT SrcData{mSrcSamples.data()};
+        float *RESTRICT DstData{mDstSamples.data()};
         uint DataPosFrac{mFracOffset};
         uint64_t DataSize64{prepcount};
         DataSize64 += readable;
@@ -363,13 +363,13 @@ uint SampleConverter::convertPlanar(const void **src, uint *srcframes, void *con
             /* Load the previous samples into the source data first, then the
              * new samples from the input buffer.
              */
-            std::copy_n(mChan[chan].PrevSamples, prepcount, SrcData);
+            std::copy_n(mChan[chan].PrevSamples.cbegin(), prepcount, SrcData);
             LoadSamples(SrcData + prepcount, src[chan], 1, mSrcType, readable);
 
             /* Store as many prep samples for next time as possible, given the
              * number of output samples being generated.
              */
-            std::copy_n(SrcData+SrcDataEnd, nextprep, mChan[chan].PrevSamples);
+            std::copy_n(SrcData+SrcDataEnd, nextprep, mChan[chan].PrevSamples.begin());
             std::fill(std::begin(mChan[chan].PrevSamples)+nextprep,
                 std::end(mChan[chan].PrevSamples), 0.0f);
 
diff --git a/core/converter.h b/core/converter.h
index 7aeb6cad..3dc2babb 100644
--- a/core/converter.h
+++ b/core/converter.h
@@ -26,22 +26,22 @@ struct SampleConverter {
     InterpState mState{};
     ResamplerFunc mResample{};
 
-    alignas(16) float mSrcSamples[BufferLineSize]{};
-    alignas(16) float mDstSamples[BufferLineSize]{};
+    alignas(16) FloatBufferLine mSrcSamples{};
+    alignas(16) FloatBufferLine mDstSamples{};
 
     struct ChanSamples {
-        alignas(16) float PrevSamples[MaxResamplerPadding];
+        alignas(16) std::array<float,MaxResamplerPadding> PrevSamples;
     };
     al::FlexArray<ChanSamples> mChan;
 
     SampleConverter(size_t numchans) : mChan{numchans} { }
 
-    uint convert(const void **src, uint *srcframes, void *dst, uint dstframes);
-    uint convertPlanar(const void **src, uint *srcframes, void *const*dst, uint dstframes);
-    uint availableOut(uint srcframes) const;
+    [[nodiscard]] auto convert(const void **src, uint *srcframes, void *dst, uint dstframes) -> uint;
+    [[nodiscard]] auto convertPlanar(const void **src, uint *srcframes, void *const*dst, uint dstframes) -> uint;
+    [[nodiscard]] auto availableOut(uint srcframes) const -> uint;
 
     using SampleOffset = std::chrono::duration<int64_t, std::ratio<1,MixerFracOne>>;
-    SampleOffset currentInputDelay() const noexcept
+    [[nodiscard]] auto currentInputDelay() const noexcept -> SampleOffset
     {
         const int64_t prep{int64_t{mSrcPrepCount} - MaxResamplerEdge};
         return SampleOffset{(prep<<MixerFracBits) + mFracOffset};
@@ -60,7 +60,7 @@ struct ChannelConverter {
     uint mChanMask{};
     DevFmtChannels mDstChans{};
 
-    bool is_active() const noexcept { return mChanMask != 0; }
+    [[nodiscard]] auto is_active() const noexcept -> bool { return mChanMask != 0; }
 
     void convert(const void *src, float *dst, uint frames) const;
 };
diff --git a/core/cubic_tables.cpp b/core/cubic_tables.cpp
index 5e7aafad..84462893 100644
--- a/core/cubic_tables.cpp
+++ b/core/cubic_tables.cpp
@@ -2,7 +2,7 @@
 #include "cubic_tables.h"
 
 #include <array>
-#include <stddef.h>
+#include <cstddef>
 
 #include "cubic_defs.h"
 
@@ -41,7 +41,7 @@ struct SplineFilterArray {
         mTable[pi].mDeltas[3] = -mTable[pi].mCoeffs[3];
     }
 
-    constexpr auto& getTable() const noexcept { return mTable; }
+    [[nodiscard]] constexpr auto& getTable() const noexcept { return mTable; }
 };
 
 constexpr SplineFilterArray SplineFilter{};
diff --git a/core/dbus_wrap.cpp b/core/dbus_wrap.cpp
index 48419566..08020c9b 100644
--- a/core/dbus_wrap.cpp
+++ b/core/dbus_wrap.cpp
@@ -14,7 +14,7 @@
 
 void PrepareDBus()
 {
-    static constexpr char libname[] = "libdbus-1.so.3";
+    const char *libname{"libdbus-1.so.3"};
 
     auto load_func = [](auto &f, const char *name) -> void
     { f = al::bit_cast<std::remove_reference_t<decltype(f)>>(GetSymbol(dbus_handle, name)); };
diff --git a/core/effectslot.cpp b/core/effectslot.cpp
index db8aa078..99224225 100644
--- a/core/effectslot.cpp
+++ b/core/effectslot.cpp
@@ -3,7 +3,7 @@
 
 #include "effectslot.h"
 
-#include <stddef.h>
+#include <cstddef>
 
 #include "almalloc.h"
 #include "context.h"
diff --git a/core/filters/biquad.cpp b/core/filters/biquad.cpp
index a0a62eb8..6671f60f 100644
--- a/core/filters/biquad.cpp
+++ b/core/filters/biquad.cpp
@@ -27,8 +27,8 @@ void BiquadFilterR<Real>::setParams(BiquadType type, Real f0norm, Real gain, Rea
     const Real alpha{sin_w0/2.0f * rcpQ};
 
     Real sqrtgain_alpha_2;
-    Real a[3]{ 1.0f, 0.0f, 0.0f };
-    Real b[3]{ 1.0f, 0.0f, 0.0f };
+    std::array<Real,3> a{{1.0f, 0.0f, 0.0f}};
+    std::array<Real,3> b{{1.0f, 0.0f, 0.0f}};
 
     /* Calculate filter coefficients depending on filter type */
     switch(type)
diff --git a/core/filters/nfc.cpp b/core/filters/nfc.cpp
index aa64c613..95b84e2c 100644
--- a/core/filters/nfc.cpp
+++ b/core/filters/nfc.cpp
@@ -48,12 +48,12 @@
 
 namespace {
 
-constexpr float B[5][4] = {
-    {    0.0f                             },
-    {    1.0f                             },
-    {    3.0f,     3.0f                   },
-    { 3.6778f,  6.4595f, 2.3222f          },
-    { 4.2076f, 11.4877f, 5.7924f, 9.1401f }
+constexpr std::array B{
+    std::array{   0.0f,     0.0f,    0.0f,    0.0f},
+    std::array{   1.0f,     0.0f,    0.0f,    0.0f},
+    std::array{   3.0f,     3.0f,    0.0f,    0.0f},
+    std::array{3.6778f,  6.4595f, 2.3222f,    0.0f},
+    std::array{4.2076f, 11.4877f, 5.7924f, 9.1401f}
 };
 
 NfcFilter1 NfcFilterCreate1(const float w0, const float w1) noexcept
diff --git a/core/helpers.cpp b/core/helpers.cpp
index 5a996eee..0e02b09f 100644
--- a/core/helpers.cpp
+++ b/core/helpers.cpp
@@ -256,7 +256,7 @@ const PathNamePair &GetProcBinary()
 #ifndef __SWITCH__
     if(pathname.empty())
     {
-        const char *SelfLinkNames[]{
+        std::array SelfLinkNames{
             "/proc/self/exe",
             "/proc/self/file",
             "/proc/curproc/exe",
diff --git a/core/hrtf.cpp b/core/hrtf.cpp
index 1b7da3f9..5a696e66 100644
--- a/core/hrtf.cpp
+++ b/core/hrtf.cpp
@@ -88,10 +88,12 @@ constexpr uint HrirDelayFracHalf{HrirDelayFracOne >> 1};
 
 static_assert(MaxHrirDelay*HrirDelayFracOne < 256, "MAX_HRIR_DELAY or DELAY_FRAC too large");
 
+/* NOLINTBEGIN(*-avoid-c-arrays) */
 constexpr char magicMarker00[8]{'M','i','n','P','H','R','0','0'};
 constexpr char magicMarker01[8]{'M','i','n','P','H','R','0','1'};
 constexpr char magicMarker02[8]{'M','i','n','P','H','R','0','2'};
 constexpr char magicMarker03[8]{'M','i','n','P','H','R','0','3'};
+/* NOLINTEND(*-avoid-c-arrays) */
 
 /* First value for pass-through coefficients (remaining are 0), used for omni-
  * directional sounds. */
@@ -231,22 +233,22 @@ void HrtfStore::getCoeffs(float elevation, float azimuth, float distance, float
     const auto az1 = CalcAzIndex(mElev[ebase + elev1_idx].azCount, azimuth);
 
     /* Calculate the HRIR indices to blend. */
-    const size_t idx[4]{
+    const std::array<size_t,4> idx{{
         ir0offset + az0.idx,
         ir0offset + ((az0.idx+1) % mElev[ebase + elev0.idx].azCount),
         ir1offset + az1.idx,
         ir1offset + ((az1.idx+1) % mElev[ebase + elev1_idx].azCount)
-    };
+    }};
 
     /* Calculate bilinear blending weights, attenuated according to the
      * directional panning factor.
      */
-    const float blend[4]{
+    const std::array<float,4> blend{{
         (1.0f-elev0.blend) * (1.0f-az0.blend) * dirfact,
         (1.0f-elev0.blend) * (     az0.blend) * dirfact,
         (     elev0.blend) * (1.0f-az1.blend) * dirfact,
         (     elev0.blend) * (     az1.blend) * dirfact
-    };
+    }};
 
     /* Calculate the blended HRIR delays. */
     float d{mDelays[idx[0]][0]*blend[0] + mDelays[idx[1]][0]*blend[1] + mDelays[idx[2]][0]*blend[2]
@@ -276,7 +278,8 @@ std::unique_ptr<DirectHrtfState> DirectHrtfState::Create(size_t num_chans)
 { return std::unique_ptr<DirectHrtfState>{new(FamCount(num_chans)) DirectHrtfState{num_chans}}; }
 
 void DirectHrtfState::build(const HrtfStore *Hrtf, const uint irSize, const bool perHrirMin,
-    const al::span<const AngularPoint> AmbiPoints, const float (*AmbiMatrix)[MaxAmbiChannels],
+    const al::span<const AngularPoint> AmbiPoints,
+    const al::span<const std::array<float,MaxAmbiChannels>> AmbiMatrix,
     const float XOverFreq, const al::span<const float,MaxAmbiOrder+1> AmbiOrderHFGain)
 {
     using double2 = std::array<double,2>;
@@ -307,7 +310,7 @@ void DirectHrtfState::build(const HrtfStore *Hrtf, const uint irSize, const bool
         const auto az0 = CalcAzIndex(Hrtf->mElev[elev0.idx].azCount, pt.Azim.value);
         const auto az1 = CalcAzIndex(Hrtf->mElev[elev1_idx].azCount, pt.Azim.value);
 
-        const size_t idx[4]{
+        const std::array<size_t,4> idx{
             ir0offset + az0.idx,
             ir0offset + ((az0.idx+1) % Hrtf->mElev[elev0.idx].azCount),
             ir1offset + az1.idx,
@@ -492,10 +495,10 @@ T> readle(std::istream &data)
     static_assert(num_bits <= sizeof(T)*8, "num_bits is too large for the type");
 
     T ret{};
-    std::byte b[sizeof(T)]{};
-    if(!data.read(reinterpret_cast<char*>(b), num_bits/8))
+    std::array<std::byte,sizeof(T)> b{};
+    if(!data.read(reinterpret_cast<char*>(b.data()), num_bits/8))
         return static_cast<T>(EOF);
-    std::reverse_copy(std::begin(b), std::end(b), reinterpret_cast<std::byte*>(&ret));
+    std::reverse_copy(b.begin(), b.end(), reinterpret_cast<std::byte*>(&ret));
 
     return fixsign<num_bits>(ret);
 }
@@ -598,9 +601,9 @@ std::unique_ptr<HrtfStore> LoadHrtf00(std::istream &data, const char *filename)
     /* Mirror the left ear responses to the right ear. */
     MirrorLeftHrirs({elevs.data(), elevs.size()}, coeffs.data(), delays.data());
 
-    const HrtfStore::Field field[1]{{0.0f, evCount}};
-    return CreateHrtfStore(rate, static_cast<uint8_t>(irSize), field, {elevs.data(), elevs.size()},
-        coeffs.data(), delays.data(), filename);
+    const std::array field{HrtfStore::Field{0.0f, evCount}};
+    return CreateHrtfStore(rate, static_cast<uint8_t>(irSize), field, elevs, coeffs.data(),
+        delays.data(), filename);
 }
 
 std::unique_ptr<HrtfStore> LoadHrtf01(std::istream &data, const char *filename)
@@ -676,9 +679,8 @@ std::unique_ptr<HrtfStore> LoadHrtf01(std::istream &data, const char *filename)
     /* Mirror the left ear responses to the right ear. */
     MirrorLeftHrirs({elevs.data(), elevs.size()}, coeffs.data(), delays.data());
 
-    const HrtfStore::Field field[1]{{0.0f, evCount}};
-    return CreateHrtfStore(rate, irSize, field, {elevs.data(), elevs.size()}, coeffs.data(),
-        delays.data(), filename);
+    const std::array field{HrtfStore::Field{0.0f, evCount}};
+    return CreateHrtfStore(rate, irSize, field, elevs, coeffs.data(), delays.data(), filename);
 }
 
 std::unique_ptr<HrtfStore> LoadHrtf02(std::istream &data, const char *filename)
@@ -946,8 +948,7 @@ std::unique_ptr<HrtfStore> LoadHrtf02(std::istream &data, const char *filename)
         delays = std::move(delays_);
     }
 
-    return CreateHrtfStore(rate, irSize, {fields.data(), fields.size()},
-        {elevs.data(), elevs.size()}, coeffs.data(), delays.data(), filename);
+    return CreateHrtfStore(rate, irSize, fields, elevs, coeffs.data(), delays.data(), filename);
 }
 
 std::unique_ptr<HrtfStore> LoadHrtf03(std::istream &data, const char *filename)
@@ -1115,8 +1116,7 @@ std::unique_ptr<HrtfStore> LoadHrtf03(std::istream &data, const char *filename)
         }
     }
 
-    return CreateHrtfStore(rate, irSize, {fields.data(), fields.size()},
-        {elevs.data(), elevs.size()}, coeffs.data(), delays.data(), filename);
+    return CreateHrtfStore(rate, irSize, fields, elevs, coeffs.data(), delays.data(), filename);
 }
 
 
@@ -1206,6 +1206,7 @@ al::span<const char> GetResource(int /*name*/)
 
 #else
 
+/* NOLINTNEXTLINE(*-avoid-c-arrays) */
 constexpr unsigned char hrtf_default[]{
 #include "default_hrtf.txt"
 };
@@ -1329,32 +1330,32 @@ HrtfStorePtr GetLoadedHrtf(const std::string &name, const uint devrate)
     }
 
     std::unique_ptr<HrtfStore> hrtf;
-    char magic[sizeof(magicMarker03)];
-    stream->read(magic, sizeof(magic));
+    std::array<char,sizeof(magicMarker03)> magic{};
+    stream->read(magic.data(), magic.size());
     if(stream->gcount() < static_cast<std::streamsize>(sizeof(magicMarker03)))
         ERR("%s data is too short (%zu bytes)\n", name.c_str(), stream->gcount());
-    else if(memcmp(magic, magicMarker03, sizeof(magicMarker03)) == 0)
+    else if(memcmp(magic.data(), magicMarker03, sizeof(magicMarker03)) == 0)
     {
         TRACE("Detected data set format v3\n");
         hrtf = LoadHrtf03(*stream, name.c_str());
     }
-    else if(memcmp(magic, magicMarker02, sizeof(magicMarker02)) == 0)
+    else if(memcmp(magic.data(), magicMarker02, sizeof(magicMarker02)) == 0)
     {
         TRACE("Detected data set format v2\n");
         hrtf = LoadHrtf02(*stream, name.c_str());
     }
-    else if(memcmp(magic, magicMarker01, sizeof(magicMarker01)) == 0)
+    else if(memcmp(magic.data(), magicMarker01, sizeof(magicMarker01)) == 0)
     {
         TRACE("Detected data set format v1\n");
         hrtf = LoadHrtf01(*stream, name.c_str());
     }
-    else if(memcmp(magic, magicMarker00, sizeof(magicMarker00)) == 0)
+    else if(memcmp(magic.data(), magicMarker00, sizeof(magicMarker00)) == 0)
     {
         TRACE("Detected data set format v0\n");
         hrtf = LoadHrtf00(*stream, name.c_str());
     }
     else
-        ERR("Invalid header in %s: \"%.8s\"\n", name.c_str(), magic);
+        ERR("Invalid header in %s: \"%.8s\"\n", name.c_str(), magic.data());
     stream.reset();
 
     if(!hrtf)
@@ -1380,7 +1381,7 @@ HrtfStorePtr GetLoadedHrtf(const std::string &name, const uint devrate)
         rs.init(hrtf->mSampleRate, devrate);
         for(size_t i{0};i < irCount;++i)
         {
-            HrirArray &coeffs = const_cast<HrirArray&>(hrtf->mCoeffs[i]);
+            auto &coeffs = const_cast<HrirArray&>(hrtf->mCoeffs[i]);
             for(size_t j{0};j < 2;++j)
             {
                 std::transform(coeffs.cbegin(), coeffs.cend(), inout[0].begin(),
@@ -1420,7 +1421,7 @@ HrtfStorePtr GetLoadedHrtf(const std::string &name, const uint devrate)
 
         for(size_t i{0};i < irCount;++i)
         {
-            ubyte2 &delays = const_cast<ubyte2&>(hrtf->mDelays[i]);
+            auto &delays = const_cast<ubyte2&>(hrtf->mDelays[i]);
             for(size_t j{0};j < 2;++j)
                 delays[j] = static_cast<ubyte>(float2int(new_delays[i][j]*delay_scale + 0.5f));
         }
diff --git a/core/hrtf.h b/core/hrtf.h
index 31168be6..c5dc6475 100644
--- a/core/hrtf.h
+++ b/core/hrtf.h
@@ -75,7 +75,8 @@ struct DirectHrtfState {
      * are ordered and scaled according to the matrix input.
      */
     void build(const HrtfStore *Hrtf, const uint irSize, const bool perHrirMin,
-        const al::span<const AngularPoint> AmbiPoints, const float (*AmbiMatrix)[MaxAmbiChannels],
+        const al::span<const AngularPoint> AmbiPoints,
+        const al::span<const std::array<float,MaxAmbiChannels>> AmbiMatrix,
         const float XOverFreq, const al::span<const float,MaxAmbiOrder+1> AmbiOrderHFGain);
 
     static std::unique_ptr<DirectHrtfState> Create(size_t num_chans);
diff --git a/core/mastering.cpp b/core/mastering.cpp
index 1f8ad921..e9b079d6 100644
--- a/core/mastering.cpp
+++ b/core/mastering.cpp
@@ -21,8 +21,8 @@
 static_assert((BufferLineSize & (BufferLineSize-1)) == 0, "BufferLineSize is not a power of 2");
 
 struct SlidingHold {
-    alignas(16) float mValues[BufferLineSize];
-    uint mExpiries[BufferLineSize];
+    alignas(16) FloatBufferLine mValues;
+    std::array<uint,BufferLineSize> mExpiries;
     uint mLowerIndex;
     uint mUpperIndex;
     uint mLength;
@@ -44,8 +44,8 @@ float UpdateSlidingHold(SlidingHold *Hold, const uint i, const float in)
 {
     static constexpr uint mask{BufferLineSize - 1};
     const uint length{Hold->mLength};
-    float (&values)[BufferLineSize] = Hold->mValues;
-    uint (&expiries)[BufferLineSize] = Hold->mExpiries;
+    const al::span values{Hold->mValues};
+    const al::span expiries{Hold->mExpiries};
     uint lowerIndex{Hold->mLowerIndex};
     uint upperIndex{Hold->mUpperIndex};
 
@@ -110,7 +110,8 @@ void LinkChannels(Compressor *Comp, const uint SamplesToDo, const FloatBufferLin
     auto fill_max = [SamplesToDo,side_begin](const FloatBufferLine &input) -> void
     {
         const float *RESTRICT buffer{al::assume_aligned<16>(input.data())};
-        auto max_abs = std::bind(maxf, _1, std::bind(static_cast<float(&)(float)>(std::fabs), _2));
+        auto max_abs = [](const float s0, const float s1) noexcept -> float
+        { return std::max(s0, std::fabs(s1)); };
         std::transform(side_begin, side_begin+SamplesToDo, buffer, side_begin, max_abs);
     };
     std::for_each(OutBuffer, OutBuffer+numChans, fill_max);
diff --git a/core/mixer/mixer_neon.cpp b/core/mixer/mixer_neon.cpp
index a509e8ba..cbaf2d3d 100644
--- a/core/mixer/mixer_neon.cpp
+++ b/core/mixer/mixer_neon.cpp
@@ -146,12 +146,11 @@ void Resample_<LerpTag,NEONTag>(const InterpState*, const float *RESTRICT src, u
     const int32x4_t increment4 = vdupq_n_s32(static_cast<int>(increment*4));
     const float32x4_t fracOne4 = vdupq_n_f32(1.0f/MixerFracOne);
     const int32x4_t fracMask4 = vdupq_n_s32(MixerFracMask);
-    alignas(16) uint pos_[4], frac_[4];
-    int32x4_t pos4, frac4;
 
+    alignas(16) std::array<uint,4> pos_, frac_;
     InitPosArrays(frac, increment, al::span{frac_}, al::span{pos_});
-    frac4 = vld1q_s32(reinterpret_cast<int*>(frac_));
-    pos4 = vld1q_s32(reinterpret_cast<int*>(pos_));
+    int32x4_t frac4 = vld1q_s32(reinterpret_cast<int*>(frac_));
+    int32x4_t pos4 = vld1q_s32(reinterpret_cast<int*>(pos_));
 
     auto dst_iter = dst.begin();
     for(size_t todo{dst.size()>>2};todo;--todo)
diff --git a/core/mixer/mixer_sse2.cpp b/core/mixer/mixer_sse2.cpp
index aa99250e..aa08b7ed 100644
--- a/core/mixer/mixer_sse2.cpp
+++ b/core/mixer/mixer_sse2.cpp
@@ -44,7 +44,7 @@ void Resample_<LerpTag,SSE2Tag>(const InterpState*, const float *RESTRICT src, u
     const __m128 fracOne4{_mm_set1_ps(1.0f/MixerFracOne)};
     const __m128i fracMask4{_mm_set1_epi32(MixerFracMask)};
 
-    alignas(16) uint pos_[4], frac_[4];
+    alignas(16) std::array<uint,4> pos_, frac_;
     InitPosArrays(frac, increment, al::span{frac_}, al::span{pos_});
     __m128i frac4{_mm_setr_epi32(static_cast<int>(frac_[0]), static_cast<int>(frac_[1]),
         static_cast<int>(frac_[2]), static_cast<int>(frac_[3]))};
diff --git a/core/mixer/mixer_sse41.cpp b/core/mixer/mixer_sse41.cpp
index 4e4605df..d66f9ce5 100644
--- a/core/mixer/mixer_sse41.cpp
+++ b/core/mixer/mixer_sse41.cpp
@@ -45,7 +45,7 @@ void Resample_<LerpTag,SSE4Tag>(const InterpState*, const float *RESTRICT src, u
     const __m128 fracOne4{_mm_set1_ps(1.0f/MixerFracOne)};
     const __m128i fracMask4{_mm_set1_epi32(MixerFracMask)};
 
-    alignas(16) uint pos_[4], frac_[4];
+    alignas(16) std::array<uint,4> pos_, frac_;
     InitPosArrays(frac, increment, al::span{frac_}, al::span{pos_});
     __m128i frac4{_mm_setr_epi32(static_cast<int>(frac_[0]), static_cast<int>(frac_[1]),
         static_cast<int>(frac_[2]), static_cast<int>(frac_[3]))};
diff --git a/core/rtkit.cpp b/core/rtkit.cpp
index ff944ebf..73ea132f 100644
--- a/core/rtkit.cpp
+++ b/core/rtkit.cpp
@@ -30,14 +30,14 @@
 
 #include "rtkit.h"
 
-#include <errno.h>
+#include <cerrno>
 
 #ifndef _GNU_SOURCE
 #define _GNU_SOURCE
 #endif
 
 #include <memory>
-#include <string.h>
+#include <cstring>
 #include <unistd.h>
 #include <sys/types.h>
 #ifdef __linux__
diff --git a/core/uhjfilter.cpp b/core/uhjfilter.cpp
index e507d705..681b0abc 100644
--- a/core/uhjfilter.cpp
+++ b/core/uhjfilter.cpp
@@ -5,6 +5,7 @@
 
 #include <algorithm>
 #include <iterator>
+#include <vector>
 
 #include "alcomplex.h"
 #include "alnumeric.h"
@@ -64,8 +65,7 @@ struct SegmentedFilter {
         /* To set up the filter, we need to generate the desired response.
          * Start with a pure delay that passes all frequencies through.
          */
-        auto fftBuffer = std::make_unique<complex_d[]>(fft_size);
-        std::fill_n(fftBuffer.get(), fft_size, complex_d{});
+        auto fftBuffer = std::vector<complex_d>(fft_size, complex_d{});
         fftBuffer[half_size] = 1.0;
 
         /* Convert to the frequency domain, shift the phase of each bin by +90
@@ -75,27 +75,27 @@ struct SegmentedFilter {
          * To maintain that and their phase (0 or pi), they're heavily
          * attenuated instead of shifted like the others.
          */
-        forward_fft(al::span{fftBuffer.get(), fft_size});
+        forward_fft(al::span{fftBuffer});
         fftBuffer[0] *= std::numeric_limits<double>::epsilon();
         for(size_t i{1};i < half_size;++i)
             fftBuffer[i] = complex_d{-fftBuffer[i].imag(), fftBuffer[i].real()};
         fftBuffer[half_size] *= std::numeric_limits<double>::epsilon();
         for(size_t i{half_size+1};i < fft_size;++i)
             fftBuffer[i] = std::conj(fftBuffer[fft_size - i]);
-        inverse_fft(al::span{fftBuffer.get(), fft_size});
+        inverse_fft(al::span{fftBuffer});
 
         /* The segments of the filter are converted back to the frequency
          * domain, each on their own (0 stuffed).
          */
-        auto fftBuffer2 = std::make_unique<complex_d[]>(sFftLength);
+        auto fftBuffer2 = std::vector<complex_d>(sFftLength);
         auto fftTmp = al::vector<float,16>(sFftLength);
         float *filter{mFilterData.data()};
         for(size_t s{0};s < sNumSegments;++s)
         {
             for(size_t i{0};i < sSampleLength;++i)
                 fftBuffer2[i] = fftBuffer[sSampleLength*s + i].real() / double{fft_size};
-            std::fill_n(fftBuffer2.get()+sSampleLength, sSampleLength, complex_d{});
-            forward_fft(al::span{fftBuffer2.get(), sFftLength});
+            std::fill_n(fftBuffer2.data()+sSampleLength, sSampleLength, complex_d{});
+            forward_fft(al::span{fftBuffer2});
 
             /* Convert to zdomain data for PFFFT, scaled by the FFT length so
              * the iFFT result will be normalized.
diff --git a/examples/alffplay.cpp b/examples/alffplay.cpp
index 54803035..5a10bf05 100644
--- a/examples/alffplay.cpp
+++ b/examples/alffplay.cpp
@@ -310,8 +310,9 @@ struct AudioState {
     int mSamplesPos{0};
     int mSamplesMax{0};
 
-    std::unique_ptr<uint8_t[]> mBufferData;
-    size_t mBufferDataSize{0};
+    std::vector<uint8_t> mBufferData_;
+    //std::unique_ptr<uint8_t[]> mBufferData;
+    //size_t mBufferDataSize{0};
     std::atomic<size_t> mReadPos{0};
     std::atomic<size_t> mWritePos{0};
 
@@ -485,7 +486,7 @@ nanoseconds AudioState::getClockNoLock()
         return device_time - mDeviceStartTime - latency;
     }
 
-    if(mBufferDataSize > 0)
+    if(!mBufferData_.empty())
     {
         if(mDeviceStartTime == nanoseconds::min())
             return nanoseconds::zero();
@@ -522,7 +523,7 @@ nanoseconds AudioState::getClockNoLock()
              */
             const size_t woffset{mWritePos.load(std::memory_order_acquire)};
             const size_t roffset{mReadPos.load(std::memory_order_relaxed)};
-            const size_t readable{((woffset >= roffset) ? woffset : (mBufferDataSize+woffset)) -
+            const size_t readable{((woffset>=roffset) ? woffset : (mBufferData_.size()+woffset)) -
                 roffset};
 
             pts = mCurrentPts - nanoseconds{seconds{readable/mFrameSize}}/mCodecCtx->sample_rate;
@@ -584,10 +585,10 @@ bool AudioState::startPlayback()
 {
     const size_t woffset{mWritePos.load(std::memory_order_acquire)};
     const size_t roffset{mReadPos.load(std::memory_order_relaxed)};
-    const size_t readable{((woffset >= roffset) ? woffset : (mBufferDataSize+woffset)) -
+    const size_t readable{((woffset >= roffset) ? woffset : (mBufferData_.size()+woffset)) -
         roffset};
 
-    if(mBufferDataSize > 0)
+    if(!mBufferData_.empty())
     {
         if(readable == 0)
             return false;
@@ -620,7 +621,7 @@ bool AudioState::startPlayback()
          * the device time the stream would have started at to reach where it
          * is now.
          */
-        if(mBufferDataSize > 0)
+        if(!mBufferData_.empty())
         {
             nanoseconds startpts{mCurrentPts -
                 nanoseconds{seconds{readable/mFrameSize}}/mCodecCtx->sample_rate};
@@ -789,17 +790,17 @@ bool AudioState::readAudio(int sample_skip)
     while(mSamplesLen > 0)
     {
         const size_t nsamples{((roffset > woffset) ? roffset-woffset-1
-            : (roffset == 0) ? (mBufferDataSize-woffset-1)
-            : (mBufferDataSize-woffset)) / mFrameSize};
+            : (roffset == 0) ? (mBufferData_.size()-woffset-1)
+            : (mBufferData_.size()-woffset)) / mFrameSize};
         if(!nsamples) break;
 
         if(mSamplesPos < 0)
         {
             const size_t rem{std::min<size_t>(nsamples, static_cast<ALuint>(-mSamplesPos))};
 
-            sample_dup(&mBufferData[woffset], mSamples, rem, mFrameSize);
+            sample_dup(&mBufferData_[woffset], mSamples, rem, mFrameSize);
             woffset += rem * mFrameSize;
-            if(woffset == mBufferDataSize) woffset = 0;
+            if(woffset == mBufferData_.size()) woffset = 0;
             mWritePos.store(woffset, std::memory_order_release);
 
             mCurrentPts += nanoseconds{seconds{rem}} / mCodecCtx->sample_rate;
@@ -811,9 +812,9 @@ bool AudioState::readAudio(int sample_skip)
         const size_t boffset{static_cast<ALuint>(mSamplesPos) * size_t{mFrameSize}};
         const size_t nbytes{rem * mFrameSize};
 
-        memcpy(&mBufferData[woffset], mSamples + boffset, nbytes);
+        memcpy(&mBufferData_[woffset], mSamples + boffset, nbytes);
         woffset += nbytes;
-        if(woffset == mBufferDataSize) woffset = 0;
+        if(woffset == mBufferData_.size()) woffset = 0;
         mWritePos.store(woffset, std::memory_order_release);
 
         mCurrentPts += nanoseconds{seconds{rem}} / mCodecCtx->sample_rate;
@@ -886,15 +887,15 @@ ALsizei AudioState::bufferCallback(void *data, ALsizei size) noexcept
         const size_t woffset{mWritePos.load(std::memory_order_relaxed)};
         if(woffset == roffset) break;
 
-        size_t todo{((woffset < roffset) ? mBufferDataSize : woffset) - roffset};
+        size_t todo{((woffset < roffset) ? mBufferData_.size() : woffset) - roffset};
         todo = std::min<size_t>(todo, static_cast<ALuint>(size-got));
 
-        memcpy(data, &mBufferData[roffset], todo);
+        memcpy(data, &mBufferData_[roffset], todo);
         data = static_cast<ALbyte*>(data) + todo;
         got += static_cast<ALsizei>(todo);
 
         roffset += todo;
-        if(roffset == mBufferDataSize)
+        if(roffset == mBufferData_.size())
             roffset = 0;
     }
     mReadPos.store(roffset, std::memory_order_release);
@@ -934,7 +935,7 @@ int AudioState::handler()
     };
     EventControlManager event_controller{sleep_time};
 
-    std::unique_ptr<uint8_t[]> samples;
+    std::vector<uint8_t> samples;
     ALsizei buffer_len{0};
 
     /* Find a suitable format for OpenAL. */
@@ -1235,13 +1236,12 @@ int AudioState::handler()
         }
         else
         {
-            mBufferDataSize = static_cast<size_t>(duration_cast<seconds>(mCodecCtx->sample_rate *
-                AudioBufferTotalTime).count()) * mFrameSize;
-            mBufferData = std::make_unique<uint8_t[]>(mBufferDataSize);
-            std::fill_n(mBufferData.get(), mBufferDataSize, uint8_t{});
+            mBufferData_.resize(static_cast<size_t>(duration_cast<seconds>(mCodecCtx->sample_rate *
+                AudioBufferTotalTime).count()) * mFrameSize);
+            std::fill(mBufferData_.begin(), mBufferData_.end(), uint8_t{});
 
             mReadPos.store(0, std::memory_order_relaxed);
-            mWritePos.store(mBufferDataSize/mFrameSize/2*mFrameSize, std::memory_order_relaxed);
+            mWritePos.store(mBufferData_.size()/mFrameSize/2*mFrameSize, std::memory_order_relaxed);
 
             ALCint refresh{};
             alcGetIntegerv(alcGetContextsDevice(alcGetCurrentContext()), ALC_REFRESH, 1, &refresh);
@@ -1253,7 +1253,7 @@ int AudioState::handler()
         buffer_len = static_cast<int>(duration_cast<seconds>(mCodecCtx->sample_rate *
             AudioBufferTime).count() * mFrameSize);
     if(buffer_len > 0)
-        samples = std::make_unique<uint8_t[]>(static_cast<ALuint>(buffer_len));
+        samples.resize(static_cast<ALuint>(buffer_len));
 
     /* Prefill the codec buffer. */
     auto packet_sender = [this]()
@@ -1301,7 +1301,7 @@ int AudioState::handler()
         }
 
         ALenum state;
-        if(mBufferDataSize > 0)
+        if(!mBufferData_.empty())
         {
             alGetSourcei(mSource, AL_SOURCE_STATE, &state);
 
@@ -1331,13 +1331,13 @@ int AudioState::handler()
                 /* Read the next chunk of data, filling the buffer, and queue
                  * it on the source.
                  */
-                if(!readAudio(samples.get(), static_cast<ALuint>(buffer_len), sync_skip))
+                if(!readAudio(samples.data(), static_cast<ALuint>(buffer_len), sync_skip))
                     break;
 
                 const ALuint bufid{mBuffers[mBufferIdx]};
                 mBufferIdx = static_cast<ALuint>((mBufferIdx+1) % mBuffers.size());
 
-                alBufferData(bufid, mFormat, samples.get(), buffer_len, mCodecCtx->sample_rate);
+                alBufferData(bufid, mFormat, samples.data(), buffer_len, mCodecCtx->sample_rate);
                 alSourceQueueBuffers(mSource, 1, &bufid);
                 ++queued;
             }
diff --git a/examples/alstreamcb.cpp b/examples/alstreamcb.cpp
index b970c920..0b0aeeb7 100644
--- a/examples/alstreamcb.cpp
+++ b/examples/alstreamcb.cpp
@@ -24,12 +24,12 @@
 
 /* This file contains a streaming audio player using a callback buffer. */
 
-#include <string.h>
-#include <stdlib.h>
-#include <stdio.h>
 
 #include <atomic>
 #include <chrono>
+#include <cstring>
+#include <cstdlib>
+#include <cstdio>
 #include <memory>
 #include <stdexcept>
 #include <string>
@@ -58,8 +58,7 @@ struct StreamPlayer {
     /* A lockless ring-buffer (supports single-provider, single-consumer
      * operation).
      */
-    std::unique_ptr<ALbyte[]> mBufferData;
-    size_t mBufferDataSize{0};
+    std::vector<ALbyte> mBufferData;
     std::atomic<size_t> mReadPos{0};
     std::atomic<size_t> mWritePos{0};
     size_t mSamplesPerBlock{1};
@@ -234,7 +233,7 @@ struct StreamPlayer {
         }
         else if(mSfInfo.channels == 3)
         {
-            if(sf_command(mSndfile, SFC_WAVEX_GET_AMBISONIC, NULL, 0) == SF_AMBISONIC_B_FORMAT)
+            if(sf_command(mSndfile, SFC_WAVEX_GET_AMBISONIC, nullptr, 0) == SF_AMBISONIC_B_FORMAT)
             {
                 if(mSampleFormat == SampleType::Int16)
                     mFormat = AL_FORMAT_BFORMAT2D_16;
@@ -244,7 +243,7 @@ struct StreamPlayer {
         }
         else if(mSfInfo.channels == 4)
         {
-            if(sf_command(mSndfile, SFC_WAVEX_GET_AMBISONIC, NULL, 0) == SF_AMBISONIC_B_FORMAT)
+            if(sf_command(mSndfile, SFC_WAVEX_GET_AMBISONIC, nullptr, 0) == SF_AMBISONIC_B_FORMAT)
             {
                 if(mSampleFormat == SampleType::Int16)
                     mFormat = AL_FORMAT_BFORMAT3D_16;
@@ -264,8 +263,7 @@ struct StreamPlayer {
         /* Set a 1s ring buffer size. */
         size_t numblocks{(static_cast<ALuint>(mSfInfo.samplerate) + mSamplesPerBlock-1)
             / mSamplesPerBlock};
-        mBufferDataSize = static_cast<ALuint>(numblocks * mBytesPerBlock);
-        mBufferData.reset(new ALbyte[mBufferDataSize]);
+        mBufferData.resize(static_cast<ALuint>(numblocks * mBytesPerBlock));
         mReadPos.store(0, std::memory_order_relaxed);
         mWritePos.store(0, std::memory_order_relaxed);
         mDecoderOffset = 0;
@@ -305,7 +303,7 @@ struct StreamPlayer {
              * that case, otherwise read up to the write offset. Also limit the
              * amount to copy given how much is remaining to write.
              */
-            size_t todo{((woffset < roffset) ? mBufferDataSize : woffset) - roffset};
+            size_t todo{((woffset < roffset) ? mBufferData.size() : woffset) - roffset};
             todo = std::min<size_t>(todo, static_cast<ALuint>(size-got));
 
             /* Copy from the ring buffer to the provided output buffer. Wrap
@@ -317,7 +315,7 @@ struct StreamPlayer {
             got += static_cast<ALsizei>(todo);
 
             roffset += todo;
-            if(roffset == mBufferDataSize)
+            if(roffset == mBufferData.size())
                 roffset = 0;
         }
         /* Finally, store the updated read offset, and return how many bytes
@@ -353,7 +351,7 @@ struct StreamPlayer {
         if(state != AL_INITIAL)
         {
             const size_t roffset{mReadPos.load(std::memory_order_relaxed)};
-            const size_t readable{((woffset >= roffset) ? woffset : (mBufferDataSize+woffset)) -
+            const size_t readable{((woffset >= roffset) ? woffset : (mBufferData.size()+woffset)) -
                 roffset};
             /* For a stopped (underrun) source, the current playback offset is
              * the current decoder offset excluding the readable buffered data.
@@ -364,7 +362,7 @@ struct StreamPlayer {
                 ? (mDecoderOffset-readable) / mBytesPerBlock * mSamplesPerBlock
                 : (static_cast<ALuint>(pos) + mStartOffset/mBytesPerBlock*mSamplesPerBlock))
                 / static_cast<ALuint>(mSfInfo.samplerate)};
-            printf("\r%3zus (%3zu%% full)", curtime, readable * 100 / mBufferDataSize);
+            printf("\r%3zus (%3zu%% full)", curtime, readable * 100 / mBufferData.size());
         }
         else
             fputs("Starting...", stdout);
@@ -417,8 +415,8 @@ struct StreamPlayer {
                  * data can fit, and calculate how much can go in front before
                  * wrapping.
                  */
-                const size_t writable{(!roffset ? mBufferDataSize-woffset-1 :
-                    (mBufferDataSize-woffset)) / mBytesPerBlock};
+                const size_t writable{(!roffset ? mBufferData.size()-woffset-1 :
+                    (mBufferData.size()-woffset)) / mBytesPerBlock};
                 if(!writable) break;
 
                 if(mSampleFormat == SampleType::Int16)
@@ -446,7 +444,7 @@ struct StreamPlayer {
                 }
 
                 woffset += read_bytes;
-                if(woffset == mBufferDataSize)
+                if(woffset == mBufferData.size())
                     woffset = 0;
             }
             mWritePos.store(woffset, std::memory_order_release);
@@ -461,7 +459,7 @@ struct StreamPlayer {
              * what's available.
              */
             const size_t roffset{mReadPos.load(std::memory_order_relaxed)};
-            const size_t readable{((woffset >= roffset) ? woffset : (mBufferDataSize+woffset)) -
+            const size_t readable{((woffset >= roffset) ? woffset : (mBufferData.size()+woffset)) -
                 roffset};
             if(readable == 0)
                 return false;
diff --git a/include/AL/al.h b/include/AL/al.h
index 87274184..e9f8f3b1 100644
--- a/include/AL/al.h
+++ b/include/AL/al.h
@@ -1,6 +1,7 @@
 #ifndef AL_AL_H
 #define AL_AL_H
 
+/* NOLINTBEGIN */
 #ifdef __cplusplus
 extern "C" {
 
@@ -689,5 +690,6 @@ typedef void          (AL_APIENTRY *LPALDISTANCEMODEL)(ALenum distanceModel) AL_
 #ifdef __cplusplus
 }  /* extern "C" */
 #endif
+/* NOLINTEND */
 
 #endif /* AL_AL_H */
diff --git a/include/AL/alc.h b/include/AL/alc.h
index 73dcf08f..3311b57f 100644
--- a/include/AL/alc.h
+++ b/include/AL/alc.h
@@ -1,6 +1,7 @@
 #ifndef AL_ALC_H
 #define AL_ALC_H
 
+/* NOLINTBEGIN */
 #ifdef __cplusplus
 extern "C" {
 
@@ -289,5 +290,6 @@ typedef void           (ALC_APIENTRY *LPALCCAPTURESAMPLES)(ALCdevice *device, AL
 #ifdef __cplusplus
 } /* extern "C" */
 #endif
+/* NOLINTEND */
 
 #endif /* AL_ALC_H */
diff --git a/include/AL/alext.h b/include/AL/alext.h
index c75e0770..3f373704 100644
--- a/include/AL/alext.h
+++ b/include/AL/alext.h
@@ -1,6 +1,7 @@
 #ifndef AL_ALEXT_H
 #define AL_ALEXT_H
 
+/* NOLINTBEGIN */
 #include <stddef.h>
 /* Define int64 and uint64 types */
 #if (defined(__STDC_VERSION__) && __STDC_VERSION__ >= 199901L) ||             \
@@ -737,5 +738,6 @@ void ALC_APIENTRY alcEventCallbackSOFT(ALCEVENTPROCTYPESOFT callback, void *user
 #ifdef __cplusplus
 }
 #endif
+/* NOLINTEND */
 
 #endif
diff --git a/include/AL/efx-presets.h b/include/AL/efx-presets.h
index 8539fd51..acd5bf39 100644
--- a/include/AL/efx-presets.h
+++ b/include/AL/efx-presets.h
@@ -2,6 +2,7 @@
 
 #ifndef EFX_PRESETS_H
 #define EFX_PRESETS_H
+/* NOLINTBEGIN */
 
 #ifndef EFXEAXREVERBPROPERTIES_DEFINED
 #define EFXEAXREVERBPROPERTIES_DEFINED
@@ -399,4 +400,5 @@ typedef struct {
 #define EFX_REVERB_PRESET_SMALLWATERROOM \
     { 1.0000f, 0.7000f, 0.3162f, 0.4477f, 1.0000f, 1.5100f, 1.2500f, 1.1400f, 0.8913f, 0.0200f, { 0.0000f, 0.0000f, 0.0000f }, 1.4125f, 0.0300f, { 0.0000f, 0.0000f, 0.0000f }, 0.1790f, 0.1500f, 0.8950f, 0.1900f, 0.9920f, 5000.0000f, 250.0000f, 0.0000f, 0x0 }
 
+/* NOLINTEND */
 #endif /* EFX_PRESETS_H */
diff --git a/include/AL/efx.h b/include/AL/efx.h
index f24222c3..1e93bf22 100644
--- a/include/AL/efx.h
+++ b/include/AL/efx.h
@@ -1,6 +1,7 @@
 #ifndef AL_EFX_H
 #define AL_EFX_H
 
+/* NOLINTBEGIN */
 #include <float.h>
 
 #include "alc.h"
@@ -758,5 +759,6 @@ AL_API void AL_APIENTRY alGetAuxiliaryEffectSlotfv(ALuint effectslot, ALenum par
 #ifdef __cplusplus
 }  /* extern "C" */
 #endif
+/* NOLINTEND */
 
 #endif /* AL_EFX_H */
diff --git a/utils/alsoft-config/mainwindow.h b/utils/alsoft-config/mainwindow.h
index f7af8eac..e2d30b86 100644
--- a/utils/alsoft-config/mainwindow.h
+++ b/utils/alsoft-config/mainwindow.h
@@ -8,13 +8,12 @@ namespace Ui {
 class MainWindow;
 }
 
-class MainWindow : public QMainWindow
-{
+class MainWindow : public QMainWindow {
     Q_OBJECT
 
 public:
-    explicit MainWindow(QWidget *parent = 0);
-    ~MainWindow();
+    explicit MainWindow(QWidget *parent=nullptr);
+    ~MainWindow() override;
 
 private slots:
     void cancelCloseAction();
@@ -63,17 +62,17 @@ private slots:
 private:
     Ui::MainWindow *ui;
 
-    QValidator *mPeriodSizeValidator;
-    QValidator *mPeriodCountValidator;
-    QValidator *mSourceCountValidator;
-    QValidator *mEffectSlotValidator;
-    QValidator *mSourceSendValidator;
-    QValidator *mSampleRateValidator;
-    QValidator *mJackBufferValidator;
+    QValidator *mPeriodSizeValidator{};
+    QValidator *mPeriodCountValidator{};
+    QValidator *mSourceCountValidator{};
+    QValidator *mEffectSlotValidator{};
+    QValidator *mSourceSendValidator{};
+    QValidator *mSampleRateValidator{};
+    QValidator *mJackBufferValidator{};
 
-    bool mNeedsSave;
+    bool mNeedsSave{};
 
-    void closeEvent(QCloseEvent *event);
+    void closeEvent(QCloseEvent *event) override;
 
     void selectDecoderFile(QLineEdit *line, const char *name);
 
diff --git a/utils/makemhr/loaddef.cpp b/utils/makemhr/loaddef.cpp
index c8a98511..54ba96a3 100644
--- a/utils/makemhr/loaddef.cpp
+++ b/utils/makemhr/loaddef.cpp
@@ -36,6 +36,7 @@
 #include <optional>
 #include <vector>
 
+#include "albit.h"
 #include "alfstream.h"
 #include "alspan.h"
 #include "alstring.h"
@@ -144,7 +145,7 @@ struct SourceRefT {
     double mRadius;
     uint mSkip;
     uint mOffset;
-    char mPath[MAX_PATH_LEN+1];
+    std::array<char,MAX_PATH_LEN+1> mPath;
 };
 
 
@@ -389,22 +390,20 @@ static int TrReadIdent(TokenReaderT *tr, const uint maxLen, char *ident)
 // Reads and validates (including bounds) an integer token.
 static int TrReadInt(TokenReaderT *tr, const int loBound, const int hiBound, int *value)
 {
-    uint col, digis, len;
-    char ch, temp[64+1];
-
-    col = tr->mColumn;
+    uint col{tr->mColumn};
     if(TrSkipWhitespace(tr))
     {
         col = tr->mColumn;
-        len = 0;
-        ch = tr->mRing[tr->mOut&TR_RING_MASK];
+        uint len{0};
+        std::array<char,64+1> temp{};
+        char ch{tr->mRing[tr->mOut&TR_RING_MASK]};
         if(ch == '+' || ch == '-')
         {
             temp[len] = ch;
             len++;
             tr->mOut++;
         }
-        digis = 0;
+        uint digis{0};
         while(TrLoad(tr))
         {
             ch = tr->mRing[tr->mOut&TR_RING_MASK];
@@ -424,7 +423,7 @@ static int TrReadInt(TokenReaderT *tr, const int loBound, const int hiBound, int
                 return 0;
             }
             temp[len] = '\0';
-            *value = static_cast<int>(strtol(temp, nullptr, 10));
+            *value = static_cast<int>(strtol(temp.data(), nullptr, 10));
             if(*value < loBound || *value > hiBound)
             {
                 TrErrorAt(tr, tr->mLine, col, "Expected a value from %d to %d.\n", loBound, hiBound);
@@ -440,15 +439,13 @@ static int TrReadInt(TokenReaderT *tr, const int loBound, const int hiBound, int
 // Reads and validates (including bounds) a float token.
 static int TrReadFloat(TokenReaderT *tr, const double loBound, const double hiBound, double *value)
 {
-    uint col, digis, len;
-    char ch, temp[64+1];
-
-    col = tr->mColumn;
+    uint col{tr->mColumn};
     if(TrSkipWhitespace(tr))
     {
         col = tr->mColumn;
-        len = 0;
-        ch = tr->mRing[tr->mOut&TR_RING_MASK];
+        std::array<char,64+1> temp{};
+        uint len{0};
+        char ch{tr->mRing[tr->mOut&TR_RING_MASK]};
         if(ch == '+' || ch == '-')
         {
             temp[len] = ch;
@@ -456,7 +453,7 @@ static int TrReadFloat(TokenReaderT *tr, const double loBound, const double hiBo
             tr->mOut++;
         }
 
-        digis = 0;
+        uint digis{0};
         while(TrLoad(tr))
         {
             ch = tr->mRing[tr->mOut&TR_RING_MASK];
@@ -520,7 +517,7 @@ static int TrReadFloat(TokenReaderT *tr, const double loBound, const double hiBo
                     return 0;
                 }
                 temp[len] = '\0';
-                *value = strtod(temp, nullptr);
+                *value = strtod(temp.data(), nullptr);
                 if(*value < loBound || *value > hiBound)
                 {
                     TrErrorAt(tr, tr->mLine, col, "Expected a value from %f to %f.\n", loBound, hiBound);
@@ -621,8 +618,8 @@ static int TrReadOperator(TokenReaderT *tr, const char *op)
 // storing it as a 32-bit unsigned integer.
 static int ReadBin4(std::istream &istream, const char *filename, const ByteOrderT order, const uint bytes, uint32_t *out)
 {
-    uint8_t in[4];
-    istream.read(reinterpret_cast<char*>(in), static_cast<int>(bytes));
+    std::array<uint8_t,4> in{};
+    istream.read(reinterpret_cast<char*>(in.data()), static_cast<int>(bytes));
     if(istream.gcount() != bytes)
     {
         fprintf(stderr, "\nError: Bad read from file '%s'.\n", filename);
@@ -650,29 +647,27 @@ static int ReadBin4(std::istream &istream, const char *filename, const ByteOrder
 // a 64-bit unsigned integer.
 static int ReadBin8(std::istream &istream, const char *filename, const ByteOrderT order, uint64_t *out)
 {
-    uint8_t in[8];
-    uint64_t accum;
-    uint i;
-
-    istream.read(reinterpret_cast<char*>(in), 8);
+    std::array<uint8_t,8> in{};
+    istream.read(reinterpret_cast<char*>(in.data()), 8);
     if(istream.gcount() != 8)
     {
         fprintf(stderr, "\nError: Bad read from file '%s'.\n", filename);
         return 0;
     }
-    accum = 0;
+
+    uint64_t accum{};
     switch(order)
     {
-        case BO_LITTLE:
-            for(i = 0;i < 8;i++)
-                accum = (accum<<8) | in[8 - i - 1];
-            break;
-        case BO_BIG:
-            for(i = 0;i < 8;i++)
-                accum = (accum<<8) | in[i];
-            break;
-        default:
-            break;
+    case BO_LITTLE:
+        for(uint i{0};i < 8;++i)
+            accum = (accum<<8) | in[8 - i - 1];
+        break;
+    case BO_BIG:
+        for(uint i{0};i < 8;++i)
+            accum = (accum<<8) | in[i];
+        break;
+    default:
+        break;
     }
     *out = accum;
     return 1;
@@ -687,40 +682,32 @@ static int ReadBin8(std::istream &istream, const char *filename, const ByteOrder
 static int ReadBinAsDouble(std::istream &istream, const char *filename, const ByteOrderT order,
     const ElementTypeT type, const uint bytes, const int bits, double *out)
 {
-    union {
-        uint32_t ui;
-        int32_t i;
-        float f;
-    } v4;
-    union {
-        uint64_t ui;
-        double f;
-    } v8;
-
     *out = 0.0;
     if(bytes > 4)
     {
-        if(!ReadBin8(istream, filename, order, &v8.ui))
+        uint64_t val{};
+        if(!ReadBin8(istream, filename, order, &val))
             return 0;
         if(type == ET_FP)
-            *out = v8.f;
+            *out = al::bit_cast<double>(val);
     }
     else
     {
-        if(!ReadBin4(istream, filename, order, bytes, &v4.ui))
+        uint32_t val{};
+        if(!ReadBin4(istream, filename, order, bytes, &val))
             return 0;
         if(type == ET_FP)
-            *out = v4.f;
+            *out = al::bit_cast<float>(val);
         else
         {
             if(bits > 0)
-                v4.ui >>= (8*bytes) - (static_cast<uint>(bits));
+                val >>= (8*bytes) - (static_cast<uint>(bits));
             else
-                v4.ui &= (0xFFFFFFFF >> (32+bits));
+                val &= (0xFFFFFFFF >> (32+bits));
 
-            if(v4.ui&static_cast<uint>(1<<(std::abs(bits)-1)))
-                v4.ui |= (0xFFFFFFFF << std::abs(bits));
-            *out = v4.i / static_cast<double>(1<<(std::abs(bits)-1));
+            if(val&static_cast<uint>(1<<(std::abs(bits)-1)))
+                val |= (0xFFFFFFFF << std::abs(bits));
+            *out = static_cast<int32_t>(val) / static_cast<double>(1<<(std::abs(bits)-1));
         }
     }
     return 1;
@@ -776,20 +763,20 @@ static int ReadWaveFormat(std::istream &istream, const ByteOrderT order, const u
     do {
         if(chunkSize > 0)
             istream.seekg(static_cast<int>(chunkSize), std::ios::cur);
-        if(!ReadBin4(istream, src->mPath, BO_LITTLE, 4, &fourCC)
-            || !ReadBin4(istream, src->mPath, order, 4, &chunkSize))
+        if(!ReadBin4(istream, src->mPath.data(), BO_LITTLE, 4, &fourCC)
+            || !ReadBin4(istream, src->mPath.data(), order, 4, &chunkSize))
             return 0;
     } while(fourCC != FOURCC_FMT);
-    if(!ReadBin4(istream, src->mPath, order, 2, &format)
-        || !ReadBin4(istream, src->mPath, order, 2, &channels)
-        || !ReadBin4(istream, src->mPath, order, 4, &rate)
-        || !ReadBin4(istream, src->mPath, order, 4, &dummy)
-        || !ReadBin4(istream, src->mPath, order, 2, &block))
+    if(!ReadBin4(istream, src->mPath.data(), order, 2, &format)
+        || !ReadBin4(istream, src->mPath.data(), order, 2, &channels)
+        || !ReadBin4(istream, src->mPath.data(), order, 4, &rate)
+        || !ReadBin4(istream, src->mPath.data(), order, 4, &dummy)
+        || !ReadBin4(istream, src->mPath.data(), order, 2, &block))
         return 0;
     block /= channels;
     if(chunkSize > 14)
     {
-        if(!ReadBin4(istream, src->mPath, order, 2, &size))
+        if(!ReadBin4(istream, src->mPath.data(), order, 2, &size))
             return 0;
         size /= 8;
         if(block > size)
@@ -800,12 +787,12 @@ static int ReadWaveFormat(std::istream &istream, const ByteOrderT order, const u
     if(format == WAVE_FORMAT_EXTENSIBLE)
     {
         istream.seekg(2, std::ios::cur);
-        if(!ReadBin4(istream, src->mPath, order, 2, &bits))
+        if(!ReadBin4(istream, src->mPath.data(), order, 2, &bits))
             return 0;
         if(bits == 0)
             bits = 8 * size;
         istream.seekg(4, std::ios::cur);
-        if(!ReadBin4(istream, src->mPath, order, 2, &format))
+        if(!ReadBin4(istream, src->mPath.data(), order, 2, &format))
             return 0;
         istream.seekg(static_cast<int>(chunkSize - 26), std::ios::cur);
     }
@@ -819,29 +806,32 @@ static int ReadWaveFormat(std::istream &istream, const ByteOrderT order, const u
     }
     if(format != WAVE_FORMAT_PCM && format != WAVE_FORMAT_IEEE_FLOAT)
     {
-        fprintf(stderr, "\nError: Unsupported WAVE format in file '%s'.\n", src->mPath);
+        fprintf(stderr, "\nError: Unsupported WAVE format in file '%s'.\n", src->mPath.data());
         return 0;
     }
     if(src->mChannel >= channels)
     {
-        fprintf(stderr, "\nError: Missing source channel in WAVE file '%s'.\n", src->mPath);
+        fprintf(stderr, "\nError: Missing source channel in WAVE file '%s'.\n", src->mPath.data());
         return 0;
     }
     if(rate != hrirRate)
     {
-        fprintf(stderr, "\nError: Mismatched source sample rate in WAVE file '%s'.\n", src->mPath);
+        fprintf(stderr, "\nError: Mismatched source sample rate in WAVE file '%s'.\n",
+            src->mPath.data());
         return 0;
     }
     if(format == WAVE_FORMAT_PCM)
     {
         if(size < 2 || size > 4)
         {
-            fprintf(stderr, "\nError: Unsupported sample size in WAVE file '%s'.\n", src->mPath);
+            fprintf(stderr, "\nError: Unsupported sample size in WAVE file '%s'.\n",
+                src->mPath.data());
             return 0;
         }
         if(bits < 16 || bits > (8*size))
         {
-            fprintf(stderr, "\nError: Bad significant bits in WAVE file '%s'.\n", src->mPath);
+            fprintf(stderr, "\nError: Bad significant bits in WAVE file '%s'.\n",
+                src->mPath.data());
             return 0;
         }
         src->mType = ET_INT;
@@ -850,7 +840,8 @@ static int ReadWaveFormat(std::istream &istream, const ByteOrderT order, const u
     {
         if(size != 4 && size != 8)
         {
-            fprintf(stderr, "\nError: Unsupported sample size in WAVE file '%s'.\n", src->mPath);
+            fprintf(stderr, "\nError: Unsupported sample size in WAVE file '%s'.\n",
+                src->mPath.data());
             return 0;
         }
         src->mType = ET_FP;
@@ -876,7 +867,8 @@ static int ReadWaveData(std::istream &istream, const SourceRefT *src, const Byte
         skip += pre;
         if(skip > 0)
             istream.seekg(skip, std::ios::cur);
-        if(!ReadBinAsDouble(istream, src->mPath, order, src->mType, src->mSize, src->mBits, &hrir[i]))
+        if(!ReadBinAsDouble(istream, src->mPath.data(), order, src->mType, src->mSize, src->mBits,
+            &hrir[i]))
             return 0;
         skip = post;
     }
@@ -896,8 +888,8 @@ static int ReadWaveList(std::istream &istream, const SourceRefT *src, const Byte
 
     for(;;)
     {
-        if(!ReadBin4(istream, src->mPath, BO_LITTLE, 4, &fourCC)
-            || !ReadBin4(istream, src->mPath, order, 4, &chunkSize))
+        if(!ReadBin4(istream, src->mPath.data(), BO_LITTLE, 4, &fourCC)
+            || !ReadBin4(istream, src->mPath.data(), order, 4, &chunkSize))
             return 0;
 
         if(fourCC == FOURCC_DATA)
@@ -906,7 +898,7 @@ static int ReadWaveList(std::istream &istream, const SourceRefT *src, const Byte
             count = chunkSize / block;
             if(count < (src->mOffset + n))
             {
-                fprintf(stderr, "\nError: Bad read from file '%s'.\n", src->mPath);
+                fprintf(stderr, "\nError: Bad read from file '%s'.\n", src->mPath.data());
                 return 0;
             }
             istream.seekg(static_cast<long>(src->mOffset * block), std::ios::cur);
@@ -916,7 +908,7 @@ static int ReadWaveList(std::istream &istream, const SourceRefT *src, const Byte
         }
         else if(fourCC == FOURCC_LIST)
         {
-            if(!ReadBin4(istream, src->mPath, BO_LITTLE, 4, &fourCC))
+            if(!ReadBin4(istream, src->mPath.data(), BO_LITTLE, 4, &fourCC))
                 return 0;
             chunkSize -= 4;
             if(fourCC == FOURCC_WAVL)
@@ -932,8 +924,8 @@ static int ReadWaveList(std::istream &istream, const SourceRefT *src, const Byte
     lastSample = 0.0;
     while(offset < n && listSize > 8)
     {
-        if(!ReadBin4(istream, src->mPath, BO_LITTLE, 4, &fourCC)
-            || !ReadBin4(istream, src->mPath, order, 4, &chunkSize))
+        if(!ReadBin4(istream, src->mPath.data(), BO_LITTLE, 4, &fourCC)
+            || !ReadBin4(istream, src->mPath.data(), order, 4, &chunkSize))
             return 0;
         listSize -= 8 + chunkSize;
         if(fourCC == FOURCC_DATA)
@@ -961,7 +953,7 @@ static int ReadWaveList(std::istream &istream, const SourceRefT *src, const Byte
         }
         else if(fourCC == FOURCC_SLNT)
         {
-            if(!ReadBin4(istream, src->mPath, order, 4, &count))
+            if(!ReadBin4(istream, src->mPath.data(), order, 4, &count))
                 return 0;
             chunkSize -= 4;
             if(count > skip)
@@ -985,7 +977,7 @@ static int ReadWaveList(std::istream &istream, const SourceRefT *src, const Byte
     }
     if(offset < n)
     {
-        fprintf(stderr, "\nError: Bad read from file '%s'.\n", src->mPath);
+        fprintf(stderr, "\nError: Bad read from file '%s'.\n", src->mPath.data());
         return 0;
     }
     return 1;
@@ -997,22 +989,25 @@ static int LoadAsciiSource(std::istream &istream, const SourceRefT *src,
     const uint n, double *hrir)
 {
     TokenReaderT tr{istream};
-    uint i, j;
-    double dummy;
 
     TrSetup(nullptr, 0, nullptr, &tr);
-    for(i = 0;i < src->mOffset;i++)
+    for(uint i{0};i < src->mOffset;++i)
     {
-        if(!ReadAsciiAsDouble(&tr, src->mPath, src->mType, static_cast<uint>(src->mBits), &dummy))
+        double dummy{};
+        if(!ReadAsciiAsDouble(&tr, src->mPath.data(), src->mType, static_cast<uint>(src->mBits),
+            &dummy))
             return 0;
     }
-    for(i = 0;i < n;i++)
+    for(uint i{0};i < n;++i)
     {
-        if(!ReadAsciiAsDouble(&tr, src->mPath, src->mType, static_cast<uint>(src->mBits), &hrir[i]))
+        if(!ReadAsciiAsDouble(&tr, src->mPath.data(), src->mType, static_cast<uint>(src->mBits),
+            &hrir[i]))
             return 0;
-        for(j = 0;j < src->mSkip;j++)
+        for(uint j{0};j < src->mSkip;++j)
         {
-            if(!ReadAsciiAsDouble(&tr, src->mPath, src->mType, static_cast<uint>(src->mBits), &dummy))
+            double dummy{};
+            if(!ReadAsciiAsDouble(&tr, src->mPath.data(), src->mType,
+                static_cast<uint>(src->mBits), &dummy))
                 return 0;
         }
     }
@@ -1026,7 +1021,8 @@ static int LoadBinarySource(std::istream &istream, const SourceRefT *src, const
     istream.seekg(static_cast<long>(src->mOffset), std::ios::beg);
     for(uint i{0};i < n;i++)
     {
-        if(!ReadBinAsDouble(istream, src->mPath, order, src->mType, src->mSize, src->mBits, &hrir[i]))
+        if(!ReadBinAsDouble(istream, src->mPath.data(), order, src->mType, src->mSize, src->mBits,
+            &hrir[i]))
             return 0;
         if(src->mSkip > 0)
             istream.seekg(static_cast<long>(src->mSkip), std::ios::cur);
@@ -1041,8 +1037,8 @@ static int LoadWaveSource(std::istream &istream, SourceRefT *src, const uint hri
     uint32_t fourCC, dummy;
     ByteOrderT order;
 
-    if(!ReadBin4(istream, src->mPath, BO_LITTLE, 4, &fourCC)
-        || !ReadBin4(istream, src->mPath, BO_LITTLE, 4, &dummy))
+    if(!ReadBin4(istream, src->mPath.data(), BO_LITTLE, 4, &fourCC)
+        || !ReadBin4(istream, src->mPath.data(), BO_LITTLE, 4, &dummy))
         return 0;
     if(fourCC == FOURCC_RIFF)
         order = BO_LITTLE;
@@ -1050,15 +1046,15 @@ static int LoadWaveSource(std::istream &istream, SourceRefT *src, const uint hri
         order = BO_BIG;
     else
     {
-        fprintf(stderr, "\nError: No RIFF/RIFX chunk in file '%s'.\n", src->mPath);
+        fprintf(stderr, "\nError: No RIFF/RIFX chunk in file '%s'.\n", src->mPath.data());
         return 0;
     }
 
-    if(!ReadBin4(istream, src->mPath, BO_LITTLE, 4, &fourCC))
+    if(!ReadBin4(istream, src->mPath.data(), BO_LITTLE, 4, &fourCC))
         return 0;
     if(fourCC != FOURCC_WAVE)
     {
-        fprintf(stderr, "\nError: Not a RIFF/RIFX WAVE file '%s'.\n", src->mPath);
+        fprintf(stderr, "\nError: Not a RIFF/RIFX WAVE file '%s'.\n", src->mPath.data());
         return 0;
     }
     if(!ReadWaveFormat(istream, order, hrirRate, src))
@@ -1073,7 +1069,7 @@ static int LoadWaveSource(std::istream &istream, SourceRefT *src, const uint hri
 // Load a Spatially Oriented Format for Accoustics (SOFA) file.
 static MYSOFA_EASY* LoadSofaFile(SourceRefT *src, const uint hrirRate, const uint n)
 {
-    struct MYSOFA_EASY *sofa{mysofa_cache_lookup(src->mPath, static_cast<float>(hrirRate))};
+    MYSOFA_EASY *sofa{mysofa_cache_lookup(src->mPath.data(), static_cast<float>(hrirRate))};
     if(sofa) return sofa;
 
     sofa = static_cast<MYSOFA_EASY*>(calloc(1, sizeof(*sofa)));
@@ -1086,27 +1082,27 @@ static MYSOFA_EASY* LoadSofaFile(SourceRefT *src, const uint hrirRate, const uin
     sofa->neighborhood = nullptr;
 
     int err;
-    sofa->hrtf = mysofa_load(src->mPath, &err);
+    sofa->hrtf = mysofa_load(src->mPath.data(), &err);
     if(!sofa->hrtf)
     {
         mysofa_close(sofa);
-        fprintf(stderr, "\nError: Could not load source file '%s'.\n", src->mPath);
+        fprintf(stderr, "\nError: Could not load source file '%s'.\n", src->mPath.data());
         return nullptr;
     }
     /* NOTE: Some valid SOFA files are failing this check. */
     err = mysofa_check(sofa->hrtf);
     if(err != MYSOFA_OK)
-        fprintf(stderr, "\nWarning: Supposedly malformed source file '%s'.\n", src->mPath);
+        fprintf(stderr, "\nWarning: Supposedly malformed source file '%s'.\n", src->mPath.data());
     if((src->mOffset + n) > sofa->hrtf->N)
     {
         mysofa_close(sofa);
-        fprintf(stderr, "\nError: Not enough samples in SOFA file '%s'.\n", src->mPath);
+        fprintf(stderr, "\nError: Not enough samples in SOFA file '%s'.\n", src->mPath.data());
         return nullptr;
     }
     if(src->mChannel >= sofa->hrtf->R)
     {
         mysofa_close(sofa);
-        fprintf(stderr, "\nError: Missing source receiver in SOFA file '%s'.\n", src->mPath);
+        fprintf(stderr, "\nError: Missing source receiver in SOFA file '%s'.\n",src->mPath.data());
         return nullptr;
     }
     mysofa_tocartesian(sofa->hrtf);
@@ -1117,7 +1113,7 @@ static MYSOFA_EASY* LoadSofaFile(SourceRefT *src, const uint hrirRate, const uin
         fprintf(stderr, "\nError:  Out of memory.\n");
         return nullptr;
     }
-    return mysofa_cache_store(sofa, src->mPath, static_cast<float>(hrirRate));
+    return mysofa_cache_store(sofa, src->mPath.data(), static_cast<float>(hrirRate));
 }
 
 // Copies the HRIR data from a particular SOFA measurement.
@@ -1131,40 +1127,39 @@ static void ExtractSofaHrir(const MYSOFA_EASY *sofa, const uint index, const uin
 // file.
 static int LoadSofaSource(SourceRefT *src, const uint hrirRate, const uint n, double *hrir)
 {
-    struct MYSOFA_EASY *sofa;
-    float target[3];
-    int nearest;
-    float *coords;
+    MYSOFA_EASY *sofa{LoadSofaFile(src, hrirRate, n)};
+    if(sofa == nullptr) return 0;
 
-    sofa = LoadSofaFile(src, hrirRate, n);
-    if(sofa == nullptr)
-        return 0;
-
-    /* NOTE: At some point it may be benficial or necessary to consider the
+    /* NOTE: At some point it may be beneficial or necessary to consider the
              various coordinate systems, listener/source orientations, and
-             direciontal vectors defined in the SOFA file.
+             directional vectors defined in the SOFA file.
     */
-    target[0] = static_cast<float>(src->mAzimuth);
-    target[1] = static_cast<float>(src->mElevation);
-    target[2] = static_cast<float>(src->mRadius);
-    mysofa_s2c(target);
-
-    nearest = mysofa_lookup(sofa->lookup, target);
+    std::array target{
+        static_cast<float>(src->mAzimuth),
+        static_cast<float>(src->mElevation),
+        static_cast<float>(src->mRadius)
+    };
+    mysofa_s2c(target.data());
+
+    int nearest{mysofa_lookup(sofa->lookup, target.data())};
     if(nearest < 0)
     {
-        fprintf(stderr, "\nError: Lookup failed in source file '%s'.\n", src->mPath);
+        fprintf(stderr, "\nError: Lookup failed in source file '%s'.\n", src->mPath.data());
         return 0;
     }
 
-    coords = &sofa->hrtf->SourcePosition.values[3 * nearest];
-    if(std::abs(coords[0] - target[0]) > 0.001 || std::abs(coords[1] - target[1]) > 0.001 || std::abs(coords[2] - target[2]) > 0.001)
+    al::span<float,3> coords{&sofa->hrtf->SourcePosition.values[3 * nearest], 3};
+    if(std::abs(coords[0] - target[0]) > 0.001 || std::abs(coords[1] - target[1]) > 0.001
+        || std::abs(coords[2] - target[2]) > 0.001)
     {
-        fprintf(stderr, "\nError: No impulse response at coordinates (%.3fr, %.1fev, %.1faz) in file '%s'.\n", src->mRadius, src->mElevation, src->mAzimuth, src->mPath);
+        fprintf(stderr, "\nError: No impulse response at coordinates (%.3fr, %.1fev, %.1faz) in file '%s'.\n",
+            src->mRadius, src->mElevation, src->mAzimuth, src->mPath.data());
         target[0] = coords[0];
         target[1] = coords[1];
         target[2] = coords[2];
-        mysofa_c2s(target);
-        fprintf(stderr, "       Nearest candidate at (%.3fr, %.1fev, %.1faz).\n", target[2], target[1], target[0]);
+        mysofa_c2s(target.data());
+        fprintf(stderr, "       Nearest candidate at (%.3fr, %.1fev, %.1faz).\n", target[2],
+            target[1], target[0]);
         return 0;
     }
 
@@ -1180,12 +1175,12 @@ static int LoadSource(SourceRefT *src, const uint hrirRate, const uint n, double
     if(src->mFormat != SF_SOFA)
     {
         if(src->mFormat == SF_ASCII)
-            istream.reset(new al::ifstream{src->mPath});
+            istream = std::make_unique<al::ifstream>(src->mPath.data());
         else
-            istream.reset(new al::ifstream{src->mPath, std::ios::binary});
+            istream = std::make_unique<al::ifstream>(src->mPath.data(), std::ios::binary);
         if(!istream->good())
         {
-            fprintf(stderr, "\nError: Could not open source file '%s'.\n", src->mPath);
+            fprintf(stderr, "\nError: Could not open source file '%s'.\n", src->mPath.data());
             return 0;
         }
     }
@@ -1230,14 +1225,14 @@ static int ProcessMetrics(TokenReaderT *tr, const uint fftSize, const uint trunc
 {
     int hasRate = 0, hasType = 0, hasPoints = 0, hasRadius = 0;
     int hasDistance = 0, hasAzimuths = 0;
-    char ident[MAX_IDENT_LEN+1];
+    std::array<char,MAX_IDENT_LEN+1> ident;
     uint line, col;
     double fpVal;
     uint points;
     int intVal;
-    double distances[MAX_FD_COUNT];
+    std::array<double,MAX_FD_COUNT> distances;
     uint fdCount = 0;
-    uint evCounts[MAX_FD_COUNT];
+    std::array<uint,MAX_FD_COUNT> evCounts;
     auto azCounts = std::vector<std::array<uint,MAX_EV_COUNT>>(MAX_FD_COUNT);
     for(auto &azs : azCounts) azs.fill(0u);
 
@@ -1245,9 +1240,9 @@ static int ProcessMetrics(TokenReaderT *tr, const uint fftSize, const uint trunc
     while(TrIsIdent(tr))
     {
         TrIndication(tr, &line, &col);
-        if(!TrReadIdent(tr, MAX_IDENT_LEN, ident))
+        if(!TrReadIdent(tr, MAX_IDENT_LEN, ident.data()))
             return 0;
-        if(al::strcasecmp(ident, "rate") == 0)
+        if(al::strcasecmp(ident.data(), "rate") == 0)
         {
             if(hasRate)
             {
@@ -1261,9 +1256,9 @@ static int ProcessMetrics(TokenReaderT *tr, const uint fftSize, const uint trunc
             hData->mIrRate = static_cast<uint>(intVal);
             hasRate = 1;
         }
-        else if(al::strcasecmp(ident, "type") == 0)
+        else if(al::strcasecmp(ident.data(), "type") == 0)
         {
-            char type[MAX_IDENT_LEN+1];
+            std::array<char,MAX_IDENT_LEN+1> type;
 
             if(hasType)
             {
@@ -1273,9 +1268,9 @@ static int ProcessMetrics(TokenReaderT *tr, const uint fftSize, const uint trunc
             if(!TrReadOperator(tr, "="))
                 return 0;
 
-            if(!TrReadIdent(tr, MAX_IDENT_LEN, type))
+            if(!TrReadIdent(tr, MAX_IDENT_LEN, type.data()))
                 return 0;
-            hData->mChannelType = MatchChannelType(type);
+            hData->mChannelType = MatchChannelType(type.data());
             if(hData->mChannelType == CT_NONE)
             {
                 TrErrorAt(tr, line, col, "Expected a channel type.\n");
@@ -1288,7 +1283,7 @@ static int ProcessMetrics(TokenReaderT *tr, const uint fftSize, const uint trunc
             }
             hasType = 1;
         }
-        else if(al::strcasecmp(ident, "points") == 0)
+        else if(al::strcasecmp(ident.data(), "points") == 0)
         {
             if(hasPoints)
             {
@@ -1318,7 +1313,7 @@ static int ProcessMetrics(TokenReaderT *tr, const uint fftSize, const uint trunc
                 hData->mIrSize = points;
             hasPoints = 1;
         }
-        else if(al::strcasecmp(ident, "radius") == 0)
+        else if(al::strcasecmp(ident.data(), "radius") == 0)
         {
             if(hasRadius)
             {
@@ -1332,7 +1327,7 @@ static int ProcessMetrics(TokenReaderT *tr, const uint fftSize, const uint trunc
             hData->mRadius = fpVal;
             hasRadius = 1;
         }
-        else if(al::strcasecmp(ident, "distance") == 0)
+        else if(al::strcasecmp(ident.data(), "distance") == 0)
         {
             uint count = 0;
 
@@ -1371,7 +1366,7 @@ static int ProcessMetrics(TokenReaderT *tr, const uint fftSize, const uint trunc
             fdCount = count;
             hasDistance = 1;
         }
-        else if(al::strcasecmp(ident, "azimuths") == 0)
+        else if(al::strcasecmp(ident.data(), "azimuths") == 0)
         {
             uint count = 0;
 
@@ -1451,7 +1446,7 @@ static int ProcessMetrics(TokenReaderT *tr, const uint fftSize, const uint trunc
     if(hData->mChannelType == CT_NONE)
         hData->mChannelType = CT_MONO;
     const auto azs = al::span{azCounts}.first<MAX_FD_COUNT>();
-    if(!PrepareHrirData({distances, fdCount}, evCounts, azs, hData))
+    if(!PrepareHrirData(al::span{distances}.first(fdCount), evCounts, azs, hData))
     {
         fprintf(stderr, "Error:  Out of memory.\n");
         exit(-1);
@@ -1516,15 +1511,15 @@ static ElementTypeT MatchElementType(const char *ident)
 // Parse and validate a source reference from the data set definition.
 static int ReadSourceRef(TokenReaderT *tr, SourceRefT *src)
 {
-    char ident[MAX_IDENT_LEN+1];
+    std::array<char,MAX_IDENT_LEN+1> ident;
     uint line, col;
     double fpVal;
     int intVal;
 
     TrIndication(tr, &line, &col);
-    if(!TrReadIdent(tr, MAX_IDENT_LEN, ident))
+    if(!TrReadIdent(tr, MAX_IDENT_LEN, ident.data()))
         return 0;
-    src->mFormat = MatchSourceFormat(ident);
+    src->mFormat = MatchSourceFormat(ident.data());
     if(src->mFormat == SF_NONE)
     {
         TrErrorAt(tr, line, col, "Expected a source format.\n");
@@ -1570,9 +1565,9 @@ static int ReadSourceRef(TokenReaderT *tr, SourceRefT *src)
     else
     {
         TrIndication(tr, &line, &col);
-        if(!TrReadIdent(tr, MAX_IDENT_LEN, ident))
+        if(!TrReadIdent(tr, MAX_IDENT_LEN, ident.data()))
             return 0;
-        src->mType = MatchElementType(ident);
+        src->mType = MatchElementType(ident.data());
         if(src->mType == ET_NONE)
         {
             TrErrorAt(tr, line, col, "Expected a source element type.\n");
@@ -1655,7 +1650,7 @@ static int ReadSourceRef(TokenReaderT *tr, SourceRefT *src)
         src->mOffset = 0;
     if(!TrReadOperator(tr, ":"))
         return 0;
-    if(!TrReadString(tr, MAX_PATH_LEN, src->mPath))
+    if(!TrReadString(tr, MAX_PATH_LEN, src->mPath.data()))
         return 0;
     return 1;
 }
@@ -1663,14 +1658,14 @@ static int ReadSourceRef(TokenReaderT *tr, SourceRefT *src)
 // Parse and validate a SOFA source reference from the data set definition.
 static int ReadSofaRef(TokenReaderT *tr, SourceRefT *src)
 {
-    char ident[MAX_IDENT_LEN+1];
+    std::array<char,MAX_IDENT_LEN+1> ident;
     uint line, col;
     int intVal;
 
     TrIndication(tr, &line, &col);
-    if(!TrReadIdent(tr, MAX_IDENT_LEN, ident))
+    if(!TrReadIdent(tr, MAX_IDENT_LEN, ident.data()))
         return 0;
-    src->mFormat = MatchSourceFormat(ident);
+    src->mFormat = MatchSourceFormat(ident.data());
     if(src->mFormat != SF_SOFA)
     {
         TrErrorAt(tr, line, col, "Expected the SOFA source format.\n");
@@ -1694,7 +1689,7 @@ static int ReadSofaRef(TokenReaderT *tr, SourceRefT *src)
         src->mOffset = 0;
     if(!TrReadOperator(tr, ":"))
         return 0;
-    if(!TrReadString(tr, MAX_PATH_LEN, src->mPath))
+    if(!TrReadString(tr, MAX_PATH_LEN, src->mPath.data()))
         return 0;
     return 1;
 }
@@ -1747,7 +1742,7 @@ static int ProcessSources(TokenReaderT *tr, HrirDataT *hData, const uint outRate
     const uint channels{(hData->mChannelType == CT_STEREO) ? 2u : 1u};
     hData->mHrirsBase.resize(channels * hData->mIrCount * hData->mIrSize);
     double *hrirs = hData->mHrirsBase.data();
-    auto hrir = std::make_unique<double[]>(hData->mIrSize);
+    auto hrir = std::vector<double>(hData->mIrSize);
     uint line, col, fi, ei, ai;
 
     std::vector<double> onsetSamples(OnsetRateMultiple * hData->mIrPoints);
@@ -1767,57 +1762,50 @@ static int ProcessSources(TokenReaderT *tr, HrirDataT *hData, const uint outRate
     int count{0};
     while(TrIsOperator(tr, "["))
     {
-        double factor[2]{ 1.0, 1.0 };
+        std::array factor{1.0, 1.0};
 
         TrIndication(tr, &line, &col);
         TrReadOperator(tr, "[");
 
         if(TrIsOperator(tr, "*"))
         {
-            SourceRefT src;
-            struct MYSOFA_EASY *sofa;
-            uint si;
-
             TrReadOperator(tr, "*");
             if(!TrReadOperator(tr, "]") || !TrReadOperator(tr, "="))
                 return 0;
 
             TrIndication(tr, &line, &col);
+            SourceRefT src{};
             if(!ReadSofaRef(tr, &src))
                 return 0;
 
             if(hData->mChannelType == CT_STEREO)
             {
-                char type[MAX_IDENT_LEN+1];
-                ChannelTypeT channelType;
+                std::array<char,MAX_IDENT_LEN+1> type{};
 
-                if(!TrReadIdent(tr, MAX_IDENT_LEN, type))
+                if(!TrReadIdent(tr, MAX_IDENT_LEN, type.data()))
                     return 0;
 
-                channelType = MatchChannelType(type);
-
+                const ChannelTypeT channelType{MatchChannelType(type.data())};
                 switch(channelType)
                 {
-                    case CT_NONE:
-                        TrErrorAt(tr, line, col, "Expected a channel type.\n");
-                        return 0;
-                    case CT_MONO:
-                        src.mChannel = 0;
-                        break;
-                    case CT_STEREO:
-                        src.mChannel = 1;
-                        break;
+                case CT_NONE:
+                    TrErrorAt(tr, line, col, "Expected a channel type.\n");
+                    return 0;
+                case CT_MONO:
+                    src.mChannel = 0;
+                    break;
+                case CT_STEREO:
+                    src.mChannel = 1;
+                    break;
                 }
             }
             else
             {
-                char type[MAX_IDENT_LEN+1];
-                ChannelTypeT channelType;
-
-                if(!TrReadIdent(tr, MAX_IDENT_LEN, type))
+                std::array<char,MAX_IDENT_LEN+1> type{};
+                if(!TrReadIdent(tr, MAX_IDENT_LEN, type.data()))
                     return 0;
 
-                channelType = MatchChannelType(type);
+                ChannelTypeT channelType{MatchChannelType(type.data())};
                 if(channelType != CT_MONO)
                 {
                     TrErrorAt(tr, line, col, "Expected a mono channel type.\n");
@@ -1826,20 +1814,20 @@ static int ProcessSources(TokenReaderT *tr, HrirDataT *hData, const uint outRate
                 src.mChannel = 0;
             }
 
-            sofa = LoadSofaFile(&src, hData->mIrRate, hData->mIrPoints);
+            MYSOFA_EASY *sofa{LoadSofaFile(&src, hData->mIrRate, hData->mIrPoints)};
             if(!sofa) return 0;
 
-            for(si = 0;si < sofa->hrtf->M;si++)
+            for(uint si{0};si < sofa->hrtf->M;++si)
             {
                 printf("\rLoading sources... %d of %d", si+1, sofa->hrtf->M);
                 fflush(stdout);
 
-                float aer[3] = {
+                std::array aer{
                     sofa->hrtf->SourcePosition.values[3*si],
                     sofa->hrtf->SourcePosition.values[3*si + 1],
                     sofa->hrtf->SourcePosition.values[3*si + 2]
                 };
-                mysofa_c2s(aer);
+                mysofa_c2s(aer.data());
 
                 if(std::fabs(aer[1]) >= 89.999f)
                     aer[0] = 0.0f;
@@ -1875,24 +1863,25 @@ static int ProcessSources(TokenReaderT *tr, HrirDataT *hData, const uint outRate
                     return 0;
                 }
 
-                ExtractSofaHrir(sofa, si, 0, src.mOffset, hData->mIrPoints, hrir.get());
+                ExtractSofaHrir(sofa, si, 0, src.mOffset, hData->mIrPoints, hrir.data());
                 azd->mIrs[0] = &hrirs[hData->mIrSize * azd->mIndex];
                 azd->mDelays[0] = AverageHrirOnset(onsetResampler, onsetSamples, hData->mIrRate,
-                    hData->mIrPoints, hrir.get(), 1.0, azd->mDelays[0]);
+                    hData->mIrPoints, hrir.data(), 1.0, azd->mDelays[0]);
                 if(resampler)
-                    resampler->process(hData->mIrPoints, hrir.get(), hData->mIrSize, hrir.get());
-                AverageHrirMagnitude(irPoints, hData->mFftSize, hrir.get(), 1.0, azd->mIrs[0]);
+                    resampler->process(hData->mIrPoints, hrir.data(), hData->mIrSize, hrir.data());
+                AverageHrirMagnitude(irPoints, hData->mFftSize, hrir.data(), 1.0, azd->mIrs[0]);
 
                 if(src.mChannel == 1)
                 {
-                    ExtractSofaHrir(sofa, si, 1, src.mOffset, hData->mIrPoints, hrir.get());
+                    ExtractSofaHrir(sofa, si, 1, src.mOffset, hData->mIrPoints, hrir.data());
                     azd->mIrs[1] = &hrirs[hData->mIrSize * (hData->mIrCount + azd->mIndex)];
                     azd->mDelays[1] = AverageHrirOnset(onsetResampler, onsetSamples,
-                        hData->mIrRate, hData->mIrPoints, hrir.get(), 1.0, azd->mDelays[1]);
+                        hData->mIrRate, hData->mIrPoints, hrir.data(), 1.0, azd->mDelays[1]);
                     if(resampler)
-                        resampler->process(hData->mIrPoints, hrir.get(), hData->mIrSize,
-                            hrir.get());
-                    AverageHrirMagnitude(irPoints, hData->mFftSize, hrir.get(), 1.0, azd->mIrs[1]);
+                        resampler->process(hData->mIrPoints, hrir.data(), hData->mIrSize,
+                            hrir.data());
+                    AverageHrirMagnitude(irPoints, hData->mFftSize, hrir.data(), 1.0,
+                        azd->mIrs[1]);
                 }
 
                 // TODO: Since some SOFA files contain minimum phase HRIRs,
@@ -1917,10 +1906,9 @@ static int ProcessSources(TokenReaderT *tr, HrirDataT *hData, const uint outRate
         if(!TrReadOperator(tr, "="))
             return 0;
 
-        for(;;)
+        while(true)
         {
-            SourceRefT src;
-
+            SourceRefT src{};
             if(!ReadSourceRef(tr, &src))
                 return 0;
 
@@ -1931,17 +1919,16 @@ static int ProcessSources(TokenReaderT *tr, HrirDataT *hData, const uint outRate
             printf("\rLoading sources... %d file%s", count, (count==1)?"":"s");
             fflush(stdout);
 
-            if(!LoadSource(&src, hData->mIrRate, hData->mIrPoints, hrir.get()))
+            if(!LoadSource(&src, hData->mIrRate, hData->mIrPoints, hrir.data()))
                 return 0;
 
             uint ti{0};
             if(hData->mChannelType == CT_STEREO)
             {
-                char ident[MAX_IDENT_LEN+1];
-
-                if(!TrReadIdent(tr, MAX_IDENT_LEN, ident))
+                std::array<char,MAX_IDENT_LEN+1> ident{};
+                if(!TrReadIdent(tr, MAX_IDENT_LEN, ident.data()))
                     return 0;
-                ti = static_cast<uint>(MatchTargetEar(ident));
+                ti = static_cast<uint>(MatchTargetEar(ident.data()));
                 if(static_cast<int>(ti) < 0)
                 {
                     TrErrorAt(tr, line, col, "Expected a target ear.\n");
@@ -1950,10 +1937,10 @@ static int ProcessSources(TokenReaderT *tr, HrirDataT *hData, const uint outRate
             }
             azd->mIrs[ti] = &hrirs[hData->mIrSize * (ti * hData->mIrCount + azd->mIndex)];
             azd->mDelays[ti] = AverageHrirOnset(onsetResampler, onsetSamples, hData->mIrRate,
-                hData->mIrPoints, hrir.get(), 1.0 / factor[ti], azd->mDelays[ti]);
+                hData->mIrPoints, hrir.data(), 1.0 / factor[ti], azd->mDelays[ti]);
             if(resampler)
-                resampler->process(hData->mIrPoints, hrir.get(), hData->mIrSize, hrir.get());
-            AverageHrirMagnitude(irPoints, hData->mFftSize, hrir.get(), 1.0 / factor[ti],
+                resampler->process(hData->mIrPoints, hrir.data(), hData->mIrSize, hrir.data());
+            AverageHrirMagnitude(irPoints, hData->mFftSize, hrir.data(), 1.0 / factor[ti],
                 azd->mIrs[ti]);
             factor[ti] += 1.0;
             if(!TrIsOperator(tr, "+"))
@@ -1975,7 +1962,7 @@ static int ProcessSources(TokenReaderT *tr, HrirDataT *hData, const uint outRate
         }
     }
     printf("\n");
-    hrir = nullptr;
+    hrir.clear();
     if(resampler)
     {
         hData->mIrRate = outRate;
diff --git a/utils/makemhr/loadsofa.cpp b/utils/makemhr/loadsofa.cpp
index 9bcfc38d..4b2ba2f4 100644
--- a/utils/makemhr/loadsofa.cpp
+++ b/utils/makemhr/loadsofa.cpp
@@ -65,8 +65,8 @@ static bool PrepareLayout(const uint m, const float *xyzs, HrirDataT *hData)
         return false;
     }
 
-    double distances[MAX_FD_COUNT]{};
-    uint evCounts[MAX_FD_COUNT]{};
+    std::array<double,MAX_FD_COUNT> distances{};
+    std::array<uint,MAX_FD_COUNT> evCounts{};
     auto azCounts = std::vector<std::array<uint,MAX_EV_COUNT>>(MAX_FD_COUNT);
     for(auto &azs : azCounts) azs.fill(0u);
 
@@ -88,7 +88,7 @@ static bool PrepareLayout(const uint m, const float *xyzs, HrirDataT *hData)
     }
     fprintf(stdout, "Using %u of %u IRs.\n", ir_total, m);
     const auto azs = al::span{azCounts}.first<MAX_FD_COUNT>();
-    return PrepareHrirData({distances, fi}, evCounts, azs, hData);
+    return PrepareHrirData(al::span{distances}.first(fi), evCounts, azs, hData);
 }
 
 
@@ -264,24 +264,24 @@ static bool LoadResponses(MYSOFA_HRTF *sofaHrtf, HrirDataT *hData, const DelayTy
         hData->mHrirsBase.resize(channels * hData->mIrCount * hData->mIrSize, 0.0);
         double *hrirs = hData->mHrirsBase.data();
 
-        std::unique_ptr<double[]> restmp;
+        std::vector<double> restmp;
         std::optional<PPhaseResampler> resampler;
         if(outRate && outRate != hData->mIrRate)
         {
             resampler.emplace().init(hData->mIrRate, outRate);
-            restmp = std::make_unique<double[]>(sofaHrtf->N);
+            restmp.resize(sofaHrtf->N);
         }
 
         for(uint si{0u};si < sofaHrtf->M;++si)
         {
             loaded_count.fetch_add(1u);
 
-            float aer[3]{
+            std::array aer{
                 sofaHrtf->SourcePosition.values[3*si],
                 sofaHrtf->SourcePosition.values[3*si + 1],
                 sofaHrtf->SourcePosition.values[3*si + 2]
             };
-            mysofa_c2s(aer);
+            mysofa_c2s(aer.data());
 
             if(std::abs(aer[1]) >= 89.999f)
                 aer[0] = 0.0f;
@@ -324,8 +324,8 @@ static bool LoadResponses(MYSOFA_HRTF *sofaHrtf, HrirDataT *hData, const DelayTy
                 else
                 {
                     std::copy_n(&sofaHrtf->DataIR.values[(si*sofaHrtf->R + ti)*sofaHrtf->N],
-                        sofaHrtf->N, restmp.get());
-                    resampler->process(sofaHrtf->N, restmp.get(), hData->mIrSize, azd->mIrs[ti]);
+                        sofaHrtf->N, restmp.data());
+                    resampler->process(sofaHrtf->N, restmp.data(), hData->mIrSize, azd->mIrs[ti]);
                 }
             }
 
@@ -382,7 +382,7 @@ struct MagCalculator {
     {
         auto htemp = std::vector<complex_d>(mFftSize);
 
-        while(1)
+        while(true)
         {
             /* Load the current index to process. */
             size_t idx{mCurrent.load()};
diff --git a/utils/makemhr/makemhr.cpp b/utils/makemhr/makemhr.cpp
index 8291ac0f..3c0da19f 100644
--- a/utils/makemhr/makemhr.cpp
+++ b/utils/makemhr/makemhr.cpp
@@ -324,13 +324,11 @@ static int WriteAscii(const char *out, FILE *fp, const char *filename)
 // loading it from a 32-bit unsigned integer.
 static int WriteBin4(const uint bytes, const uint32_t in, FILE *fp, const char *filename)
 {
-    uint8_t out[4];
-    uint i;
-
-    for(i = 0;i < bytes;i++)
+    std::array<uint8_t,4> out{};
+    for(uint i{0};i < bytes;i++)
         out[i] = (in>>(i*8)) & 0x000000FF;
 
-    if(fwrite(out, 1, bytes, fp) != bytes)
+    if(fwrite(out.data(), 1, bytes, fp) != bytes)
     {
         fprintf(stderr, "\nError: Bad write to file '%s'.\n", filename);
         return 0;
@@ -387,11 +385,11 @@ static int StoreMhr(const HrirDataT *hData, const char *filename)
             for(ai = 0;ai < hData->mFds[fi].mEvs[ei].mAzs.size();ai++)
             {
                 HrirAzT *azd = &hData->mFds[fi].mEvs[ei].mAzs[ai];
-                double out[2 * MAX_TRUNCSIZE];
+                std::array<double,2*MAX_TRUNCSIZE> out{};
 
-                TpdfDither(out, azd->mIrs[0], scale, n, channels, &dither_seed);
+                TpdfDither(out.data(), azd->mIrs[0], scale, n, channels, &dither_seed);
                 if(hData->mChannelType == CT_STEREO)
-                    TpdfDither(out+1, azd->mIrs[1], scale, n, channels, &dither_seed);
+                    TpdfDither(out.data()+1, azd->mIrs[1], scale, n, channels, &dither_seed);
                 for(i = 0;i < (channels * n);i++)
                 {
                     const auto v = static_cast<int>(Clamp(out[i], -scale-1.0, scale));
@@ -732,12 +730,12 @@ static void SynthesizeOnsets(HrirDataT *hData)
                 double az{field.mEvs[ei].mAzs[ai].mAzimuth};
                 CalcAzIndices(field, upperElevReal, az, &a0, &a1, &af0);
                 CalcAzIndices(field, lowerElevFake, az, &a2, &a3, &af1);
-                double blend[4]{
+                std::array<double,4> blend{{
                     (1.0-ef) * (1.0-af0),
                     (1.0-ef) * (    af0),
                     (    ef) * (1.0-af1),
                     (    ef) * (    af1)
-                };
+                }};
 
                 for(uint ti{0u};ti < channels;ti++)
                 {
@@ -794,7 +792,7 @@ static void SynthesizeHrirs(HrirDataT *hData)
         {
             const double of{static_cast<double>(ei) / field.mEvStart};
             const double b{(1.0 - of) * beta};
-            double lp[4]{};
+            std::array<double,4> lp{};
 
             /* Calculate a low-pass filter to simulate body occlusion. */
             lp[0] = Lerp(1.0, lp[0], b);
@@ -839,7 +837,7 @@ static void SynthesizeHrirs(HrirDataT *hData)
             }
         }
         const double b{beta};
-        double lp[4]{};
+        std::array<double,4> lp{};
         lp[0] = Lerp(1.0, lp[0], b);
         lp[1] = Lerp(lp[0], lp[1], b);
         lp[2] = Lerp(lp[1], lp[2], b);
@@ -885,7 +883,7 @@ struct HrirReconstructor {
         auto mags = std::vector<double>(mFftSize);
         size_t m{(mFftSize/2) + 1};
 
-        while(1)
+        while(true)
         {
             /* Load the current index to process. */
             size_t idx{mCurrent.load()};
@@ -988,7 +986,7 @@ static void NormalizeHrirs(HrirDataT *hData)
         return LevelPair{std::max(current.amp, levels.amp), std::max(current.rms, levels.rms)};
     };
     auto measure_azi = [channels,mesasure_channel](const LevelPair levels, const HrirAzT &azi)
-    { return std::accumulate(azi.mIrs, azi.mIrs+channels, levels, mesasure_channel); };
+    { return std::accumulate(azi.mIrs.begin(), azi.mIrs.begin()+channels, levels, mesasure_channel); };
     auto measure_elev = [measure_azi](const LevelPair levels, const HrirEvT &elev)
     { return std::accumulate(elev.mAzs.cbegin(), elev.mAzs.cend(), levels, measure_azi); };
     auto measure_field = [measure_elev](const LevelPair levels, const HrirFdT &field)
@@ -1015,7 +1013,7 @@ static void NormalizeHrirs(HrirDataT *hData)
     auto proc_channel = [irSize,factor](double *ir)
     { std::transform(ir, ir+irSize, ir, [factor](double s){ return s * factor; }); };
     auto proc_azi = [channels,proc_channel](HrirAzT &azi)
-    { std::for_each(azi.mIrs, azi.mIrs+channels, proc_channel); };
+    { std::for_each(azi.mIrs.begin(), azi.mIrs.begin()+channels, proc_channel); };
     auto proc_elev = [proc_azi](HrirEvT &elev)
     { std::for_each(elev.mAzs.begin(), elev.mAzs.end(), proc_azi); };
     auto proc1_field = [proc_elev](HrirFdT &field)
@@ -1196,10 +1194,10 @@ static int ProcessDefinition(const char *inName, const uint outRate, const Chann
             return 0;
         }
 
-        char startbytes[4]{};
-        input->read(startbytes, sizeof(startbytes));
+        std::array<char,4> startbytes{};
+        input->read(startbytes.data(), startbytes.size());
         std::streamsize startbytecount{input->gcount()};
-        if(startbytecount != sizeof(startbytes) || !input->good())
+        if(startbytecount != startbytes.size() || !input->good())
         {
             fprintf(stderr, "Error: Could not read input file '%s'\n", inName);
             return 0;
@@ -1216,7 +1214,8 @@ static int ProcessDefinition(const char *inName, const uint outRate, const Chann
         else
         {
             fprintf(stdout, "Reading HRIR definition from %s...\n", inName);
-            if(!LoadDefInput(*input, startbytes, startbytecount, inName, fftSize, truncSize, outRate, chanMode, &hData))
+            if(!LoadDefInput(*input, startbytes.data(), startbytecount, inName, fftSize, truncSize,
+                outRate, chanMode, &hData))
                 return 0;
         }
     }
diff --git a/utils/makemhr/makemhr.h b/utils/makemhr/makemhr.h
index aa18134d..3a105fc2 100644
--- a/utils/makemhr/makemhr.h
+++ b/utils/makemhr/makemhr.h
@@ -68,8 +68,8 @@ enum ChannelTypeT {
 struct HrirAzT {
     double mAzimuth{0.0};
     uint mIndex{0u};
-    double mDelays[2]{0.0, 0.0};
-    double *mIrs[2]{nullptr, nullptr};
+    std::array<double,2> mDelays{};
+    std::array<double*,2> mIrs{};
 };
 
 struct HrirEvT {
diff --git a/utils/sofa-info.cpp b/utils/sofa-info.cpp
index 6dffef44..7775b8e3 100644
--- a/utils/sofa-info.cpp
+++ b/utils/sofa-info.cpp
@@ -21,8 +21,7 @@
  * Or visit:  http://www.gnu.org/licenses/old-licenses/gpl-2.0.html
  */
 
-#include <stdio.h>
-
+#include <cstdio>
 #include <memory>
 #include <vector>
 
diff --git a/utils/sofa-support.cpp b/utils/sofa-support.cpp
index e37789d5..ceb3067a 100644
--- a/utils/sofa-support.cpp
+++ b/utils/sofa-support.cpp
@@ -24,11 +24,11 @@
 
 #include "sofa-support.h"
 
-#include <stdio.h>
 
 #include <algorithm>
 #include <array>
 #include <cmath>
+#include <cstdio>
 #include <utility>
 #include <vector>
 
@@ -47,7 +47,7 @@ using double3 = std::array<double,3>;
  * equality of unique elements.
  */
 std::vector<double> GetUniquelySortedElems(const std::vector<double3> &aers, const uint axis,
-    const double *const (&filters)[3], const double (&epsilons)[3])
+    const std::array<const double*,3> filters, const std::array<double,3> epsilons)
 {
     std::vector<double> elems;
     for(const double3 &aer : aers)
@@ -183,8 +183,8 @@ std::vector<SofaField> GetCompatibleLayout(const size_t m, const float *xyzs)
     auto aers = std::vector<double3>(m, double3{});
     for(size_t i{0u};i < m;++i)
     {
-        float vals[3]{xyzs[i*3], xyzs[i*3 + 1], xyzs[i*3 + 2]};
-        mysofa_c2s(&vals[0]);
+        std::array vals{xyzs[i*3], xyzs[i*3 + 1], xyzs[i*3 + 2]};
+        mysofa_c2s(vals.data());
         aers[i] = {vals[0], vals[1], vals[2]};
     }
 
diff --git a/utils/uhjdecoder.cpp b/utils/uhjdecoder.cpp
index c7efa376..feca0a35 100644
--- a/utils/uhjdecoder.cpp
+++ b/utils/uhjdecoder.cpp
@@ -66,22 +66,22 @@ using complex_d = std::complex<double>;
 using byte4 = std::array<std::byte,4>;
 
 
-constexpr ubyte SUBTYPE_BFORMAT_FLOAT[]{
+constexpr std::array<ubyte,16> SUBTYPE_BFORMAT_FLOAT{
     0x03, 0x00, 0x00, 0x00, 0x21, 0x07, 0xd3, 0x11, 0x86, 0x44, 0xc8, 0xc1,
     0xca, 0x00, 0x00, 0x00
 };
 
 void fwrite16le(ushort val, FILE *f)
 {
-    ubyte data[2]{ static_cast<ubyte>(val&0xff), static_cast<ubyte>((val>>8)&0xff) };
-    fwrite(data, 1, 2, f);
+    std::array data{static_cast<ubyte>(val&0xff), static_cast<ubyte>((val>>8)&0xff)};
+    fwrite(data.data(), 1, data.size(), f);
 }
 
 void fwrite32le(uint val, FILE *f)
 {
-    ubyte data[4]{ static_cast<ubyte>(val&0xff), static_cast<ubyte>((val>>8)&0xff),
-        static_cast<ubyte>((val>>16)&0xff), static_cast<ubyte>((val>>24)&0xff) };
-    fwrite(data, 1, 4, f);
+    std::array data{static_cast<ubyte>(val&0xff), static_cast<ubyte>((val>>8)&0xff),
+        static_cast<ubyte>((val>>16)&0xff), static_cast<ubyte>((val>>24)&0xff)};
+    fwrite(data.data(), 1, data.size(), f);
 }
 
 template<al::endian = al::endian::native>
@@ -389,7 +389,7 @@ int main(int argc, char **argv)
             fprintf(stderr, "Failed to open %s\n", argv[fidx]);
             continue;
         }
-        if(sf_command(infile.get(), SFC_WAVEX_GET_AMBISONIC, NULL, 0) == SF_AMBISONIC_B_FORMAT)
+        if(sf_command(infile.get(), SFC_WAVEX_GET_AMBISONIC, nullptr, 0) == SF_AMBISONIC_B_FORMAT)
         {
             fprintf(stderr, "%s is already B-Format\n", argv[fidx]);
             continue;
@@ -438,7 +438,7 @@ int main(int argc, char **argv)
         // 32-bit val, frequency
         fwrite32le(static_cast<uint>(ininfo.samplerate), outfile.get());
         // 32-bit val, bytes per second
-        fwrite32le(static_cast<uint>(ininfo.samplerate)*sizeof(float)*outchans, outfile.get());
+        fwrite32le(static_cast<uint>(ininfo.samplerate)*outchans*sizeof(float), outfile.get());
         // 16-bit val, frame size
         fwrite16le(static_cast<ushort>(sizeof(float)*outchans), outfile.get());
         // 16-bit val, bits per sample
@@ -450,7 +450,7 @@ int main(int argc, char **argv)
         // 32-bit val, channel mask
         fwrite32le(0, outfile.get());
         // 16 byte GUID, sub-type format
-        fwrite(SUBTYPE_BFORMAT_FLOAT, 1, 16, outfile.get());
+        fwrite(SUBTYPE_BFORMAT_FLOAT.data(), 1, SUBTYPE_BFORMAT_FLOAT.size(), outfile.get());
 
         fputs("data", outfile.get());
         fwrite32le(0xFFFFFFFF, outfile.get()); // 'data' header len; filled in at close
@@ -463,9 +463,9 @@ int main(int argc, char **argv)
         auto DataStart = ftell(outfile.get());
 
         auto decoder = std::make_unique<UhjDecoder>();
-        auto inmem = std::make_unique<float[]>(BufferLineSize*static_cast<uint>(ininfo.channels));
+        auto inmem = std::vector<float>(BufferLineSize*static_cast<uint>(ininfo.channels));
         auto decmem = al::vector<std::array<float,BufferLineSize>, 16>(outchans);
-        auto outmem = std::make_unique<byte4[]>(BufferLineSize*outchans);
+        auto outmem = std::vector<byte4>(BufferLineSize*outchans);
 
         /* A number of initial samples need to be skipped to cut the lead-in
          * from the all-pass filter delay. The same number of samples need to
@@ -476,21 +476,21 @@ int main(int argc, char **argv)
         sf_count_t LeadOut{UhjDecoder::sFilterDelay};
         while(LeadOut > 0)
         {
-            sf_count_t sgot{sf_readf_float(infile.get(), inmem.get(), BufferLineSize)};
+            sf_count_t sgot{sf_readf_float(infile.get(), inmem.data(), BufferLineSize)};
             sgot = std::max<sf_count_t>(sgot, 0);
             if(sgot < BufferLineSize)
             {
                 const sf_count_t remaining{std::min(BufferLineSize - sgot, LeadOut)};
-                std::fill_n(inmem.get() + sgot*ininfo.channels, remaining*ininfo.channels, 0.0f);
+                std::fill_n(inmem.data() + sgot*ininfo.channels, remaining*ininfo.channels, 0.0f);
                 sgot += remaining;
                 LeadOut -= remaining;
             }
 
             auto got = static_cast<std::size_t>(sgot);
             if(ininfo.channels > 2 || use_general)
-                decoder->decode(inmem.get(), static_cast<uint>(ininfo.channels), decmem, got);
+                decoder->decode(inmem.data(), static_cast<uint>(ininfo.channels), decmem, got);
             else
-                decoder->decode2(inmem.get(), decmem, got);
+                decoder->decode2(inmem.data(), decmem, got);
             if(LeadIn >= got)
             {
                 LeadIn -= got;
@@ -507,7 +507,7 @@ int main(int argc, char **argv)
             }
             LeadIn = 0;
 
-            std::size_t wrote{fwrite(outmem.get(), sizeof(byte4)*outchans, got, outfile.get())};
+            std::size_t wrote{fwrite(outmem.data(), sizeof(byte4)*outchans, got, outfile.get())};
             if(wrote < got)
             {
                 fprintf(stderr, "Error writing wave data: %s (%d)\n", strerror(errno), errno);
diff --git a/utils/uhjencoder.cpp b/utils/uhjencoder.cpp
index 154a1155..8673dd59 100644
--- a/utils/uhjencoder.cpp
+++ b/utils/uhjencoder.cpp
@@ -26,9 +26,9 @@
 
 #include <array>
 #include <cinttypes>
+#include <cstddef>
 #include <cstring>
 #include <memory>
-#include <stddef.h>
 #include <string>
 #include <utility>
 #include <vector>
@@ -179,50 +179,55 @@ struct SpeakerPos {
 };
 
 /* Azimuth is counter-clockwise. */
-constexpr SpeakerPos StereoMap[2]{
-    { SF_CHANNEL_MAP_LEFT,   30.0f, 0.0f },
-    { SF_CHANNEL_MAP_RIGHT, -30.0f, 0.0f },
-}, QuadMap[4]{
-    { SF_CHANNEL_MAP_LEFT,         45.0f, 0.0f },
-    { SF_CHANNEL_MAP_RIGHT,       -45.0f, 0.0f },
-    { SF_CHANNEL_MAP_REAR_LEFT,   135.0f, 0.0f },
-    { SF_CHANNEL_MAP_REAR_RIGHT, -135.0f, 0.0f },
-}, X51Map[6]{
-    { SF_CHANNEL_MAP_LEFT,         30.0f, 0.0f },
-    { SF_CHANNEL_MAP_RIGHT,       -30.0f, 0.0f },
-    { SF_CHANNEL_MAP_CENTER,        0.0f, 0.0f },
-    { SF_CHANNEL_MAP_LFE, 0.0f, 0.0f },
-    { SF_CHANNEL_MAP_SIDE_LEFT,   110.0f, 0.0f },
-    { SF_CHANNEL_MAP_SIDE_RIGHT, -110.0f, 0.0f },
-}, X51RearMap[6]{
-    { SF_CHANNEL_MAP_LEFT,         30.0f, 0.0f },
-    { SF_CHANNEL_MAP_RIGHT,       -30.0f, 0.0f },
-    { SF_CHANNEL_MAP_CENTER,        0.0f, 0.0f },
-    { SF_CHANNEL_MAP_LFE, 0.0f, 0.0f },
-    { SF_CHANNEL_MAP_REAR_LEFT,   110.0f, 0.0f },
-    { SF_CHANNEL_MAP_REAR_RIGHT, -110.0f, 0.0f },
-}, X71Map[8]{
-    { SF_CHANNEL_MAP_LEFT,         30.0f, 0.0f },
-    { SF_CHANNEL_MAP_RIGHT,       -30.0f, 0.0f },
-    { SF_CHANNEL_MAP_CENTER,        0.0f, 0.0f },
-    { SF_CHANNEL_MAP_LFE, 0.0f, 0.0f },
-    { SF_CHANNEL_MAP_REAR_LEFT,   150.0f, 0.0f },
-    { SF_CHANNEL_MAP_REAR_RIGHT, -150.0f, 0.0f },
-    { SF_CHANNEL_MAP_SIDE_LEFT,    90.0f, 0.0f },
-    { SF_CHANNEL_MAP_SIDE_RIGHT,  -90.0f, 0.0f },
-}, X714Map[12]{
-    { SF_CHANNEL_MAP_LEFT,         30.0f,  0.0f },
-    { SF_CHANNEL_MAP_RIGHT,       -30.0f,  0.0f },
-    { SF_CHANNEL_MAP_CENTER,        0.0f,  0.0f },
-    { SF_CHANNEL_MAP_LFE, 0.0f, 0.0f },
-    { SF_CHANNEL_MAP_REAR_LEFT,   150.0f,  0.0f },
-    { SF_CHANNEL_MAP_REAR_RIGHT, -150.0f,  0.0f },
-    { SF_CHANNEL_MAP_SIDE_LEFT,    90.0f,  0.0f },
-    { SF_CHANNEL_MAP_SIDE_RIGHT,  -90.0f,  0.0f },
-    { SF_CHANNEL_MAP_TOP_FRONT_LEFT,    45.0f, 35.0f },
-    { SF_CHANNEL_MAP_TOP_FRONT_RIGHT,  -45.0f, 35.0f },
-    { SF_CHANNEL_MAP_TOP_REAR_LEFT,    135.0f, 35.0f },
-    { SF_CHANNEL_MAP_TOP_REAR_RIGHT,  -135.0f, 35.0f },
+constexpr std::array StereoMap{
+    SpeakerPos{SF_CHANNEL_MAP_LEFT,   30.0f, 0.0f},
+    SpeakerPos{SF_CHANNEL_MAP_RIGHT, -30.0f, 0.0f},
+};
+constexpr std::array QuadMap{
+    SpeakerPos{SF_CHANNEL_MAP_LEFT,         45.0f, 0.0f},
+    SpeakerPos{SF_CHANNEL_MAP_RIGHT,       -45.0f, 0.0f},
+    SpeakerPos{SF_CHANNEL_MAP_REAR_LEFT,   135.0f, 0.0f},
+    SpeakerPos{SF_CHANNEL_MAP_REAR_RIGHT, -135.0f, 0.0f},
+};
+constexpr std::array X51Map{
+    SpeakerPos{SF_CHANNEL_MAP_LEFT,         30.0f, 0.0f},
+    SpeakerPos{SF_CHANNEL_MAP_RIGHT,       -30.0f, 0.0f},
+    SpeakerPos{SF_CHANNEL_MAP_CENTER,        0.0f, 0.0f},
+    SpeakerPos{SF_CHANNEL_MAP_LFE, 0.0f, 0.0f},
+    SpeakerPos{SF_CHANNEL_MAP_SIDE_LEFT,   110.0f, 0.0f},
+    SpeakerPos{SF_CHANNEL_MAP_SIDE_RIGHT, -110.0f, 0.0f},
+};
+constexpr std::array X51RearMap{
+    SpeakerPos{SF_CHANNEL_MAP_LEFT,         30.0f, 0.0f},
+    SpeakerPos{SF_CHANNEL_MAP_RIGHT,       -30.0f, 0.0f},
+    SpeakerPos{SF_CHANNEL_MAP_CENTER,        0.0f, 0.0f},
+    SpeakerPos{SF_CHANNEL_MAP_LFE, 0.0f, 0.0f},
+    SpeakerPos{SF_CHANNEL_MAP_REAR_LEFT,   110.0f, 0.0f},
+    SpeakerPos{SF_CHANNEL_MAP_REAR_RIGHT, -110.0f, 0.0f},
+};
+constexpr std::array X71Map{
+    SpeakerPos{SF_CHANNEL_MAP_LEFT,         30.0f, 0.0f},
+    SpeakerPos{SF_CHANNEL_MAP_RIGHT,       -30.0f, 0.0f},
+    SpeakerPos{SF_CHANNEL_MAP_CENTER,        0.0f, 0.0f},
+    SpeakerPos{SF_CHANNEL_MAP_LFE, 0.0f, 0.0f},
+    SpeakerPos{SF_CHANNEL_MAP_REAR_LEFT,   150.0f, 0.0f},
+    SpeakerPos{SF_CHANNEL_MAP_REAR_RIGHT, -150.0f, 0.0f},
+    SpeakerPos{SF_CHANNEL_MAP_SIDE_LEFT,    90.0f, 0.0f},
+    SpeakerPos{SF_CHANNEL_MAP_SIDE_RIGHT,  -90.0f, 0.0f},
+};
+constexpr std::array X714Map{
+    SpeakerPos{SF_CHANNEL_MAP_LEFT,         30.0f,  0.0f},
+    SpeakerPos{SF_CHANNEL_MAP_RIGHT,       -30.0f,  0.0f},
+    SpeakerPos{SF_CHANNEL_MAP_CENTER,        0.0f,  0.0f},
+    SpeakerPos{SF_CHANNEL_MAP_LFE, 0.0f, 0.0f},
+    SpeakerPos{SF_CHANNEL_MAP_REAR_LEFT,   150.0f,  0.0f},
+    SpeakerPos{SF_CHANNEL_MAP_REAR_RIGHT, -150.0f,  0.0f},
+    SpeakerPos{SF_CHANNEL_MAP_SIDE_LEFT,    90.0f,  0.0f},
+    SpeakerPos{SF_CHANNEL_MAP_SIDE_RIGHT,  -90.0f,  0.0f},
+    SpeakerPos{SF_CHANNEL_MAP_TOP_FRONT_LEFT,    45.0f, 35.0f},
+    SpeakerPos{SF_CHANNEL_MAP_TOP_FRONT_RIGHT,  -45.0f, 35.0f},
+    SpeakerPos{SF_CHANNEL_MAP_TOP_REAR_LEFT,    135.0f, 35.0f},
+    SpeakerPos{SF_CHANNEL_MAP_TOP_REAR_RIGHT,  -135.0f, 35.0f},
 };
 
 constexpr auto GenCoeffs(double x /*+front*/, double y /*+left*/, double z /*+up*/) noexcept
-- 
cgit v1.2.3


From 760ada93e88d3c78f6613b52eb5ef15c1564ad80 Mon Sep 17 00:00:00 2001
From: Chris Robinson <chris.kcat@gmail.com>
Date: Wed, 13 Dec 2023 22:18:09 -0800
Subject: Fix clang-tidy warnings from the examples and utilities

---
 CMakeLists.txt                     |   3 +-
 examples/alconvolve.c              |  20 +--
 examples/alstream.c                |  18 +--
 examples/alstreamcb.cpp            |   4 +-
 utils/alsoft-config/CMakeLists.txt |   2 +-
 utils/alsoft-config/mainwindow.cpp | 296 +++++++++++++++++--------------------
 utils/alsoft-config/mainwindow.h   |  20 +--
 utils/makemhr/loaddef.cpp          | 153 +++++++++----------
 utils/makemhr/loadsofa.cpp         |   2 +-
 utils/makemhr/makemhr.cpp          | 168 ++++++++++-----------
 utils/makemhr/makemhr.h            |  32 ++--
 utils/openal-info.c                |  14 +-
 12 files changed, 360 insertions(+), 372 deletions(-)

(limited to 'utils/makemhr')

diff --git a/CMakeLists.txt b/CMakeLists.txt
index ce287ba0..59c0711e 100644
--- a/CMakeLists.txt
+++ b/CMakeLists.txt
@@ -1339,7 +1339,8 @@ configure_file(
 
 
 add_library(alcommon STATIC EXCLUDE_FROM_ALL ${COMMON_OBJS})
-target_include_directories(alcommon PRIVATE ${OpenAL_BINARY_DIR} ${OpenAL_SOURCE_DIR}/include)
+target_include_directories(alcommon PRIVATE ${OpenAL_BINARY_DIR} ${OpenAL_SOURCE_DIR}/include
+    PUBLIC ${OpenAL_SOURCE_DIR}/common)
 target_compile_definitions(alcommon PRIVATE ${CPP_DEFS})
 target_compile_options(alcommon PRIVATE ${C_FLAGS})
 set_target_properties(alcommon PROPERTIES ${DEFAULT_TARGET_PROPS} POSITION_INDEPENDENT_CODE TRUE)
diff --git a/examples/alconvolve.c b/examples/alconvolve.c
index 8198409c..d194d270 100644
--- a/examples/alconvolve.c
+++ b/examples/alconvolve.c
@@ -90,11 +90,11 @@ static LPALGETAUXILIARYEFFECTSLOTFV alGetAuxiliaryEffectSlotfv;
 /* This stuff defines a simple streaming player object, the same as alstream.c.
  * Comments are removed for brevity, see alstream.c for more details.
  */
-#define NUM_BUFFERS 4
-#define BUFFER_SAMPLES 8192
+enum { NumBuffers = 4 };
+enum { BufferSamples = 8192 };
 
 typedef struct StreamPlayer {
-    ALuint buffers[NUM_BUFFERS];
+    ALuint buffers[NumBuffers];
     ALuint source;
 
     SNDFILE *sndfile;
@@ -111,7 +111,7 @@ static StreamPlayer *NewPlayer(void)
     player = calloc(1, sizeof(*player));
     assert(player != NULL);
 
-    alGenBuffers(NUM_BUFFERS, player->buffers);
+    alGenBuffers(NumBuffers, player->buffers);
     assert(alGetError() == AL_NO_ERROR && "Could not create buffers");
 
     alGenSources(1, &player->source);
@@ -140,11 +140,11 @@ static void DeletePlayer(StreamPlayer *player)
     ClosePlayerFile(player);
 
     alDeleteSources(1, &player->source);
-    alDeleteBuffers(NUM_BUFFERS, player->buffers);
+    alDeleteBuffers(NumBuffers, player->buffers);
     if(alGetError() != AL_NO_ERROR)
         fprintf(stderr, "Failed to delete object IDs\n");
 
-    memset(player, 0, sizeof(*player));
+    memset(player, 0, sizeof(*player)); /* NOLINT(clang-analyzer-security.insecureAPI.*) */
     free(player);
 }
 
@@ -186,7 +186,7 @@ static int OpenPlayerFile(StreamPlayer *player, const char *filename)
         return 0;
     }
 
-    frame_size = (size_t)(BUFFER_SAMPLES * player->sfinfo.channels) * sizeof(float);
+    frame_size = (size_t)(BufferSamples * player->sfinfo.channels) * sizeof(float);
     player->membuf = malloc(frame_size);
 
     return 1;
@@ -199,9 +199,9 @@ static int StartPlayer(StreamPlayer *player)
     alSourceRewind(player->source);
     alSourcei(player->source, AL_BUFFER, 0);
 
-    for(i = 0;i < NUM_BUFFERS;i++)
+    for(i = 0;i < NumBuffers;i++)
     {
-        sf_count_t slen = sf_readf_float(player->sndfile, player->membuf, BUFFER_SAMPLES);
+        sf_count_t slen = sf_readf_float(player->sndfile, player->membuf, BufferSamples);
         if(slen < 1) break;
 
         slen *= player->sfinfo.channels * (sf_count_t)sizeof(float);
@@ -245,7 +245,7 @@ static int UpdatePlayer(StreamPlayer *player)
         alSourceUnqueueBuffers(player->source, 1, &bufid);
         processed--;
 
-        slen = sf_readf_float(player->sndfile, player->membuf, BUFFER_SAMPLES);
+        slen = sf_readf_float(player->sndfile, player->membuf, BufferSamples);
         if(slen > 0)
         {
             slen *= player->sfinfo.channels * (sf_count_t)sizeof(float);
diff --git a/examples/alstream.c b/examples/alstream.c
index 7e62c50d..5cbbc2a7 100644
--- a/examples/alstream.c
+++ b/examples/alstream.c
@@ -44,8 +44,8 @@
  * buffers at 200ms each gives a nice per-chunk size, and lets the queue last
  * for almost one second.
  */
-#define NUM_BUFFERS 4
-#define BUFFER_MILLISEC 200
+enum { NumBuffers = 4 };
+enum { BufferMillisec = 200 };
 
 typedef enum SampleType {
     Int16, Float, IMA4, MSADPCM
@@ -53,7 +53,7 @@ typedef enum SampleType {
 
 typedef struct StreamPlayer {
     /* These are the buffers and source to play out through OpenAL with. */
-    ALuint buffers[NUM_BUFFERS];
+    ALuint buffers[NumBuffers];
     ALuint source;
 
     /* Handle for the audio file */
@@ -90,7 +90,7 @@ static StreamPlayer *NewPlayer(void)
     assert(player != NULL);
 
     /* Generate the buffers and source */
-    alGenBuffers(NUM_BUFFERS, player->buffers);
+    alGenBuffers(NumBuffers, player->buffers);
     assert(alGetError() == AL_NO_ERROR && "Could not create buffers");
 
     alGenSources(1, &player->source);
@@ -113,11 +113,11 @@ static void DeletePlayer(StreamPlayer *player)
     ClosePlayerFile(player);
 
     alDeleteSources(1, &player->source);
-    alDeleteBuffers(NUM_BUFFERS, player->buffers);
+    alDeleteBuffers(NumBuffers, player->buffers);
     if(alGetError() != AL_NO_ERROR)
         fprintf(stderr, "Failed to delete object IDs\n");
 
-    memset(player, 0, sizeof(*player));
+    memset(player, 0, sizeof(*player)); /* NOLINT(clang-analyzer-security.insecureAPI.*) */
     free(player);
 }
 
@@ -293,7 +293,7 @@ static int OpenPlayerFile(StreamPlayer *player, const char *filename)
     }
 
     player->block_count = player->sfinfo.samplerate / player->sampleblockalign;
-    player->block_count = player->block_count * BUFFER_MILLISEC / 1000;
+    player->block_count = player->block_count * BufferMillisec / 1000;
     player->membuf = malloc((size_t)(player->block_count * player->byteblockalign));
 
     return 1;
@@ -312,7 +312,7 @@ static void ClosePlayerFile(StreamPlayer *player)
     if(player->sampleblockalign > 1)
     {
         ALsizei i;
-        for(i = 0;i < NUM_BUFFERS;i++)
+        for(i = 0;i < NumBuffers;i++)
             alBufferi(player->buffers[i], AL_UNPACK_BLOCK_ALIGNMENT_SOFT, 0);
         player->sampleblockalign = 0;
         player->byteblockalign = 0;
@@ -330,7 +330,7 @@ static int StartPlayer(StreamPlayer *player)
     alSourcei(player->source, AL_BUFFER, 0);
 
     /* Fill the buffer queue */
-    for(i = 0;i < NUM_BUFFERS;i++)
+    for(i = 0;i < NumBuffers;i++)
     {
         sf_count_t slen;
 
diff --git a/examples/alstreamcb.cpp b/examples/alstreamcb.cpp
index 0b0aeeb7..95f89bbe 100644
--- a/examples/alstreamcb.cpp
+++ b/examples/alstreamcb.cpp
@@ -167,8 +167,8 @@ struct StreamPlayer {
                 mSampleFormat = SampleType::Int16;
             else
             {
-                auto fmtbuf = std::make_unique<ALubyte[]>(inf.datalen);
-                inf.data = fmtbuf.get();
+                auto fmtbuf = std::vector<ALubyte>(inf.datalen);
+                inf.data = fmtbuf.data();
                 if(sf_get_chunk_data(iter, &inf) != SF_ERR_NO_ERROR)
                     mSampleFormat = SampleType::Int16;
                 else
diff --git a/utils/alsoft-config/CMakeLists.txt b/utils/alsoft-config/CMakeLists.txt
index c6a46075..d9e6ca9a 100644
--- a/utils/alsoft-config/CMakeLists.txt
+++ b/utils/alsoft-config/CMakeLists.txt
@@ -12,7 +12,7 @@ if(Qt5Widgets_FOUND)
         verstr.cpp
         verstr.h
         ${UIS} ${RSCS} ${TRS} ${MOCS})
-    target_link_libraries(alsoft-config Qt5::Widgets)
+    target_link_libraries(alsoft-config PUBLIC Qt5::Widgets PRIVATE alcommon)
     target_include_directories(alsoft-config PRIVATE "${alsoft-config_BINARY_DIR}"
         "${OpenAL_BINARY_DIR}")
     set_target_properties(alsoft-config PROPERTIES ${DEFAULT_TARGET_PROPS}
diff --git a/utils/alsoft-config/mainwindow.cpp b/utils/alsoft-config/mainwindow.cpp
index 207c98c4..bf037203 100644
--- a/utils/alsoft-config/mainwindow.cpp
+++ b/utils/alsoft-config/mainwindow.cpp
@@ -3,8 +3,9 @@
 
 #include "mainwindow.h"
 
-#include <iostream>
+#include <array>
 #include <cmath>
+#include <iostream>
 
 #include <QFileDialog>
 #include <QMessageBox>
@@ -19,137 +20,133 @@
 #include <shlobj.h>
 #endif
 
+#include "alspan.h"
+
 namespace {
 
-const struct {
+struct BackendNamePair {
+    /* NOLINTBEGIN(*-avoid-c-arrays) */
     char backend_name[16];
     char full_string[32];
-} backendList[] = {
-#ifdef HAVE_JACK
-    { "jack", "JACK" },
-#endif
+    /* NOLINTEND(*-avoid-c-arrays) */
+};
+constexpr std::array backendList{
 #ifdef HAVE_PIPEWIRE
-    { "pipewire", "PipeWire" },
+    BackendNamePair{ "pipewire", "PipeWire" },
 #endif
 #ifdef HAVE_PULSEAUDIO
-    { "pulse", "PulseAudio" },
+    BackendNamePair{ "pulse", "PulseAudio" },
 #endif
 #ifdef HAVE_ALSA
-    { "alsa", "ALSA" },
+    BackendNamePair{ "alsa", "ALSA" },
+#endif
+#ifdef HAVE_JACK
+    BackendNamePair{ "jack", "JACK" },
 #endif
 #ifdef HAVE_COREAUDIO
-    { "core", "CoreAudio" },
+    BackendNamePair{ "core", "CoreAudio" },
 #endif
 #ifdef HAVE_OSS
-    { "oss", "OSS" },
+    BackendNamePair{ "oss", "OSS" },
 #endif
 #ifdef HAVE_SOLARIS
-    { "solaris", "Solaris" },
+    BackendNamePair{ "solaris", "Solaris" },
 #endif
 #ifdef HAVE_SNDIO
-    { "sndio", "SoundIO" },
-#endif
-#ifdef HAVE_QSA
-    { "qsa", "QSA" },
+    BackendNamePair{ "sndio", "SoundIO" },
 #endif
 #ifdef HAVE_WASAPI
-    { "wasapi", "WASAPI" },
+    BackendNamePair{ "wasapi", "WASAPI" },
 #endif
 #ifdef HAVE_DSOUND
-    { "dsound", "DirectSound" },
+    BackendNamePair{ "dsound", "DirectSound" },
 #endif
 #ifdef HAVE_WINMM
-    { "winmm", "Windows Multimedia" },
+    BackendNamePair{ "winmm", "Windows Multimedia" },
 #endif
 #ifdef HAVE_PORTAUDIO
-    { "port", "PortAudio" },
+    BackendNamePair{ "port", "PortAudio" },
 #endif
 #ifdef HAVE_OPENSL
-    { "opensl", "OpenSL" },
+    BackendNamePair{ "opensl", "OpenSL" },
 #endif
 
-    { "null", "Null Output" },
+    BackendNamePair{ "null", "Null Output" },
 #ifdef HAVE_WAVE
-    { "wave", "Wave Writer" },
+    BackendNamePair{ "wave", "Wave Writer" },
 #endif
-    { "", "" }
 };
 
-const struct NameValuePair {
+struct NameValuePair {
+    /* NOLINTBEGIN(*-avoid-c-arrays) */
     const char name[64];
     const char value[16];
-} speakerModeList[] = {
-    { "Autodetect", "" },
-    { "Mono", "mono" },
-    { "Stereo", "stereo" },
-    { "Quadraphonic", "quad" },
-    { "5.1 Surround", "surround51" },
-    { "6.1 Surround", "surround61" },
-    { "7.1 Surround", "surround71" },
-    { "3D7.1 Surround", "surround3d71" },
-
-    { "Ambisonic, 1st Order", "ambi1" },
-    { "Ambisonic, 2nd Order", "ambi2" },
-    { "Ambisonic, 3rd Order", "ambi3" },
-
-    { "", "" }
-}, sampleTypeList[] = {
-    { "Autodetect", "" },
-    { "8-bit int", "int8" },
-    { "8-bit uint", "uint8" },
-    { "16-bit int", "int16" },
-    { "16-bit uint", "uint16" },
-    { "32-bit int", "int32" },
-    { "32-bit uint", "uint32" },
-    { "32-bit float", "float32" },
-
-    { "", "" }
-}, resamplerList[] = {
-    { "Point", "point" },
-    { "Linear", "linear" },
-    { "Cubic Spline", "cubic" },
-    { "Default (Cubic Spline)", "" },
-    { "11th order Sinc (fast)", "fast_bsinc12" },
-    { "11th order Sinc", "bsinc12" },
-    { "23rd order Sinc (fast)", "fast_bsinc24" },
-    { "23rd order Sinc", "bsinc24" },
-
-    { "", "" }
-}, stereoModeList[] = {
-    { "Autodetect", "" },
-    { "Speakers", "speakers" },
-    { "Headphones", "headphones" },
-
-    { "", "" }
-}, stereoEncList[] = {
-    { "Default", "" },
-    { "Basic", "panpot" },
-    { "UHJ", "uhj" },
-    { "Binaural", "hrtf" },
-
-    { "", "" }
-}, ambiFormatList[] = {
-    { "Default", "" },
-    { "AmbiX (ACN, SN3D)", "ambix" },
-    { "Furse-Malham", "fuma" },
-    { "ACN, N3D", "acn+n3d" },
-    { "ACN, FuMa", "acn+fuma" },
-
-    { "", "" }
-}, hrtfModeList[] = {
-    { "1st Order Ambisonic", "ambi1" },
-    { "2nd Order Ambisonic", "ambi2" },
-    { "3rd Order Ambisonic", "ambi3" },
-    { "Default (Full)", "" },
-    { "Full", "full" },
-
-    { "", "" }
+    /* NOLINTEND(*-avoid-c-arrays) */
+};
+constexpr std::array speakerModeList{
+    NameValuePair{ "Autodetect", "" },
+    NameValuePair{ "Mono", "mono" },
+    NameValuePair{ "Stereo", "stereo" },
+    NameValuePair{ "Quadraphonic", "quad" },
+    NameValuePair{ "5.1 Surround", "surround51" },
+    NameValuePair{ "6.1 Surround", "surround61" },
+    NameValuePair{ "7.1 Surround", "surround71" },
+    NameValuePair{ "3D7.1 Surround", "surround3d71" },
+
+    NameValuePair{ "Ambisonic, 1st Order", "ambi1" },
+    NameValuePair{ "Ambisonic, 2nd Order", "ambi2" },
+    NameValuePair{ "Ambisonic, 3rd Order", "ambi3" },
+};
+constexpr std::array sampleTypeList{
+    NameValuePair{ "Autodetect", "" },
+    NameValuePair{ "8-bit int", "int8" },
+    NameValuePair{ "8-bit uint", "uint8" },
+    NameValuePair{ "16-bit int", "int16" },
+    NameValuePair{ "16-bit uint", "uint16" },
+    NameValuePair{ "32-bit int", "int32" },
+    NameValuePair{ "32-bit uint", "uint32" },
+    NameValuePair{ "32-bit float", "float32" },
+};
+constexpr std::array resamplerList{
+    NameValuePair{ "Point", "point" },
+    NameValuePair{ "Linear", "linear" },
+    NameValuePair{ "Cubic Spline", "cubic" },
+    NameValuePair{ "Default (Cubic Spline)", "" },
+    NameValuePair{ "11th order Sinc (fast)", "fast_bsinc12" },
+    NameValuePair{ "11th order Sinc", "bsinc12" },
+    NameValuePair{ "23rd order Sinc (fast)", "fast_bsinc24" },
+    NameValuePair{ "23rd order Sinc", "bsinc24" },
+};
+constexpr std::array stereoModeList{
+    NameValuePair{ "Autodetect", "" },
+    NameValuePair{ "Speakers", "speakers" },
+    NameValuePair{ "Headphones", "headphones" },
+};
+constexpr std::array stereoEncList{
+    NameValuePair{ "Default", "" },
+    NameValuePair{ "Basic", "panpot" },
+    NameValuePair{ "UHJ", "uhj" },
+    NameValuePair{ "Binaural", "hrtf" },
+};
+constexpr std::array ambiFormatList{
+    NameValuePair{ "Default", "" },
+    NameValuePair{ "AmbiX (ACN, SN3D)", "ambix" },
+    NameValuePair{ "Furse-Malham", "fuma" },
+    NameValuePair{ "ACN, N3D", "acn+n3d" },
+    NameValuePair{ "ACN, FuMa", "acn+fuma" },
+};
+constexpr std::array hrtfModeList{
+    NameValuePair{ "1st Order Ambisonic", "ambi1" },
+    NameValuePair{ "2nd Order Ambisonic", "ambi2" },
+    NameValuePair{ "3rd Order Ambisonic", "ambi3" },
+    NameValuePair{ "Default (Full)", "" },
+    NameValuePair{ "Full", "full" },
 };
 
 QString getDefaultConfigName()
 {
 #ifdef Q_OS_WIN32
-    static const char fname[] = "alsoft.ini";
+    static constexpr char fname[] = "alsoft.ini"; /* NOLINT(*-avoid-c-arrays) */
     auto get_appdata_path = []() noexcept -> QString
     {
         WCHAR buffer[MAX_PATH];
@@ -159,7 +156,7 @@ QString getDefaultConfigName()
     };
     QString base = get_appdata_path();
 #else
-    static const char fname[] = "alsoft.conf";
+    static constexpr char fname[] = "alsoft.conf"; /* NOLINT(*-avoid-c-arrays) */
     QByteArray base = qgetenv("XDG_CONFIG_HOME");
     if(base.isEmpty())
     {
@@ -226,10 +223,9 @@ QStringList getAllDataPaths(const QString &append)
     return list;
 }
 
-template<size_t N>
-QString getValueFromName(const NameValuePair (&list)[N], const QString &str)
+QString getValueFromName(const al::span<const NameValuePair> list, const QString &str)
 {
-    for(size_t i = 0;i < N-1;i++)
+    for(size_t i{0};i < list.size();++i)
     {
         if(str == list[i].name)
             return list[i].value;
@@ -237,10 +233,9 @@ QString getValueFromName(const NameValuePair (&list)[N], const QString &str)
     return QString{};
 }
 
-template<size_t N>
-QString getNameFromValue(const NameValuePair (&list)[N], const QString &str)
+QString getNameFromValue(const al::span<const NameValuePair> list, const QString &str)
 {
-    for(size_t i = 0;i < N-1;i++)
+    for(size_t i{0};i < list.size();++i)
     {
         if(str == list[i].value)
             return list[i].name;
@@ -270,44 +265,29 @@ QString getCheckValue(const QCheckBox *checkbox)
 
 }
 
-MainWindow::MainWindow(QWidget *parent) :
-    QMainWindow(parent),
-    ui(new Ui::MainWindow),
-    mPeriodSizeValidator(nullptr),
-    mPeriodCountValidator(nullptr),
-    mSourceCountValidator(nullptr),
-    mEffectSlotValidator(nullptr),
-    mSourceSendValidator(nullptr),
-    mSampleRateValidator(nullptr),
-    mJackBufferValidator(nullptr),
-    mNeedsSave(false)
+MainWindow::MainWindow(QWidget *parent) : QMainWindow{parent}
+    , ui{std::make_unique<Ui::MainWindow>()}
 {
     ui->setupUi(this);
 
-    for(int i = 0;speakerModeList[i].name[0];i++)
-        ui->channelConfigCombo->addItem(speakerModeList[i].name);
+    for(auto &item : speakerModeList)
+        ui->channelConfigCombo->addItem(item.name);
     ui->channelConfigCombo->adjustSize();
-    for(int i = 0;sampleTypeList[i].name[0];i++)
-        ui->sampleFormatCombo->addItem(sampleTypeList[i].name);
+    for(auto &item : sampleTypeList)
+        ui->sampleFormatCombo->addItem(item.name);
     ui->sampleFormatCombo->adjustSize();
-    for(int i = 0;stereoModeList[i].name[0];i++)
-        ui->stereoModeCombo->addItem(stereoModeList[i].name);
+    for(auto &item : stereoModeList)
+        ui->stereoModeCombo->addItem(item.name);
     ui->stereoModeCombo->adjustSize();
-    for(int i = 0;stereoEncList[i].name[0];i++)
-        ui->stereoEncodingComboBox->addItem(stereoEncList[i].name);
+    for(auto &item : stereoEncList)
+        ui->stereoEncodingComboBox->addItem(item.name);
     ui->stereoEncodingComboBox->adjustSize();
-    for(int i = 0;ambiFormatList[i].name[0];i++)
-        ui->ambiFormatComboBox->addItem(ambiFormatList[i].name);
+    for(auto &item : ambiFormatList)
+        ui->ambiFormatComboBox->addItem(item.name);
     ui->ambiFormatComboBox->adjustSize();
 
-    int count;
-    for(count = 0;resamplerList[count].name[0];count++) {
-    }
-    ui->resamplerSlider->setRange(0, count-1);
-
-    for(count = 0;hrtfModeList[count].name[0];count++) {
-    }
-    ui->hrtfmodeSlider->setRange(0, count-1);
+    ui->resamplerSlider->setRange(0, resamplerList.size()-1);
+    ui->hrtfmodeSlider->setRange(0, hrtfModeList.size()-1);
 
 #if !defined(HAVE_NEON) && !defined(HAVE_SSE)
     ui->cpuExtDisabledLabel->move(ui->cpuExtDisabledLabel->x(), ui->cpuExtDisabledLabel->y() - 60);
@@ -355,22 +335,22 @@ MainWindow::MainWindow(QWidget *parent) :
     ui->enableEaxCheck->setVisible(false);
 #endif
 
-    mPeriodSizeValidator = new QIntValidator{64, 8192, this};
-    ui->periodSizeEdit->setValidator(mPeriodSizeValidator);
-    mPeriodCountValidator = new QIntValidator{2, 16, this};
-    ui->periodCountEdit->setValidator(mPeriodCountValidator);
+    mPeriodSizeValidator = std::make_unique<QIntValidator>(64, 8192, this);
+    ui->periodSizeEdit->setValidator(mPeriodSizeValidator.get());
+    mPeriodCountValidator = std::make_unique<QIntValidator>(2, 16, this);
+    ui->periodCountEdit->setValidator(mPeriodCountValidator.get());
 
-    mSourceCountValidator = new QIntValidator{0, 4096, this};
-    ui->srcCountLineEdit->setValidator(mSourceCountValidator);
-    mEffectSlotValidator = new QIntValidator{0, 64, this};
-    ui->effectSlotLineEdit->setValidator(mEffectSlotValidator);
-    mSourceSendValidator = new QIntValidator{0, 16, this};
-    ui->srcSendLineEdit->setValidator(mSourceSendValidator);
-    mSampleRateValidator = new QIntValidator{8000, 192000, this};
-    ui->sampleRateCombo->lineEdit()->setValidator(mSampleRateValidator);
+    mSourceCountValidator = std::make_unique<QIntValidator>(0, 4096, this);
+    ui->srcCountLineEdit->setValidator(mSourceCountValidator.get());
+    mEffectSlotValidator = std::make_unique<QIntValidator>(0, 64, this);
+    ui->effectSlotLineEdit->setValidator(mEffectSlotValidator.get());
+    mSourceSendValidator = std::make_unique<QIntValidator>(0, 16, this);
+    ui->srcSendLineEdit->setValidator(mSourceSendValidator.get());
+    mSampleRateValidator = std::make_unique<QIntValidator>(8000, 192000, this);
+    ui->sampleRateCombo->lineEdit()->setValidator(mSampleRateValidator.get());
 
-    mJackBufferValidator = new QIntValidator{0, 8192, this};
-    ui->jackBufferSizeLine->setValidator(mJackBufferValidator);
+    mJackBufferValidator = std::make_unique<QIntValidator>(0, 8192, this);
+    ui->jackBufferSizeLine->setValidator(mJackBufferValidator.get());
 
     connect(ui->actionLoad, &QAction::triggered, this, &MainWindow::loadConfigFromFile);
     connect(ui->actionSave_As, &QAction::triggered, this, &MainWindow::saveConfigAsFile);
@@ -495,7 +475,7 @@ MainWindow::MainWindow(QWidget *parent) :
 
     for(int i = 1;i < ui->backendListWidget->count();i++)
         ui->backendListWidget->setRowHidden(i, true);
-    for(int i = 0;backendList[i].backend_name[0];i++)
+    for(size_t i{0};i < backendList.size();++i)
     {
         QList<QListWidgetItem*> items = ui->backendListWidget->findItems(
             backendList[i].full_string, Qt::MatchFixedString);
@@ -506,17 +486,7 @@ MainWindow::MainWindow(QWidget *parent) :
     loadConfig(getDefaultConfigName());
 }
 
-MainWindow::~MainWindow()
-{
-    delete ui;
-    delete mPeriodSizeValidator;
-    delete mPeriodCountValidator;
-    delete mSourceCountValidator;
-    delete mEffectSlotValidator;
-    delete mSourceSendValidator;
-    delete mSampleRateValidator;
-    delete mJackBufferValidator;
-}
+MainWindow::~MainWindow() = default;
 
 void MainWindow::closeEvent(QCloseEvent *event)
 {
@@ -789,7 +759,7 @@ void MainWindow::loadConfig(const QString &fname)
     /* The "basic" mode name is no longer supported. Use "ambi2" instead. */
     if(hrtfmode == "basic")
         hrtfmode = "ambi2";
-    for(int i = 0;hrtfModeList[i].name[0];i++)
+    for(size_t i{0};i < hrtfModeList.size();++i)
     {
         if(hrtfmode == hrtfModeList[i].value)
         {
@@ -869,7 +839,8 @@ void MainWindow::loadConfig(const QString &fname)
             if(lastWasEmpty) continue;
 
             if(!backend.startsWith(QChar('-')))
-                for(int j = 0;backendList[j].backend_name[0];j++)
+            {
+                for(size_t j{0};j < backendList.size();++j)
                 {
                     if(backend == backendList[j].backend_name)
                     {
@@ -877,10 +848,11 @@ void MainWindow::loadConfig(const QString &fname)
                         break;
                     }
                 }
+            }
             else if(backend.size() > 1)
             {
                 QStringRef backendref{backend.rightRef(backend.size()-1)};
-                for(int j = 0;backendList[j].backend_name[0];j++)
+                for(size_t j{0};j < backendList.size();++j)
                 {
                     if(backendref == backendList[j].backend_name)
                     {
@@ -1070,7 +1042,7 @@ void MainWindow::saveConfig(const QString &fname) const
     for(int i = 0;i < ui->enabledBackendList->count();i++)
     {
         QString label{ui->enabledBackendList->item(i)->text()};
-        for(int j = 0;backendList[j].backend_name[0];j++)
+        for(size_t j{0};j < backendList.size();++j)
         {
             if(label == backendList[j].full_string)
             {
@@ -1082,7 +1054,7 @@ void MainWindow::saveConfig(const QString &fname) const
     for(int i = 0;i < ui->disabledBackendList->count();i++)
     {
         QString label{ui->disabledBackendList->item(i)->text()};
-        for(int j = 0;backendList[j].backend_name[0];j++)
+        for(size_t j{0};j < backendList.size();++j)
         {
             if(label == backendList[j].full_string)
             {
@@ -1294,7 +1266,7 @@ void MainWindow::updateJackBufferSizeSlider()
 
 void MainWindow::updateHrtfModeLabel(int num)
 {
-    ui->hrtfmodeLabel->setText(hrtfModeList[num].name);
+    ui->hrtfmodeLabel->setText(hrtfModeList[static_cast<uint>(num)].name);
     enableApplyButton();
 }
 
@@ -1336,7 +1308,7 @@ void MainWindow::showEnabledBackendMenu(QPoint pt)
     if(ui->enabledBackendList->selectedItems().empty())
         removeAction->setEnabled(false);
     ctxmenu.addSeparator();
-    for(size_t i = 0;backendList[i].backend_name[0];i++)
+    for(size_t i{0};i < backendList.size();++i)
     {
         QString backend{backendList[i].full_string};
         QAction *action{ctxmenu.addAction(QString("Add ")+backend)};
@@ -1374,7 +1346,7 @@ void MainWindow::showDisabledBackendMenu(QPoint pt)
     if(ui->disabledBackendList->selectedItems().empty())
         removeAction->setEnabled(false);
     ctxmenu.addSeparator();
-    for(size_t i = 0;backendList[i].backend_name[0];i++)
+    for(size_t i{0};i < backendList.size();++i)
     {
         QString backend{backendList[i].full_string};
         QAction *action{ctxmenu.addAction(QString("Add ")+backend)};
diff --git a/utils/alsoft-config/mainwindow.h b/utils/alsoft-config/mainwindow.h
index e2d30b86..96151ca2 100644
--- a/utils/alsoft-config/mainwindow.h
+++ b/utils/alsoft-config/mainwindow.h
@@ -1,6 +1,8 @@
 #ifndef MAINWINDOW_H
 #define MAINWINDOW_H
 
+#include <memory>
+
 #include <QMainWindow>
 #include <QListWidget>
 
@@ -60,15 +62,15 @@ private slots:
     void selectWaveOutput();
 
 private:
-    Ui::MainWindow *ui;
-
-    QValidator *mPeriodSizeValidator{};
-    QValidator *mPeriodCountValidator{};
-    QValidator *mSourceCountValidator{};
-    QValidator *mEffectSlotValidator{};
-    QValidator *mSourceSendValidator{};
-    QValidator *mSampleRateValidator{};
-    QValidator *mJackBufferValidator{};
+    std::unique_ptr<QValidator> mPeriodSizeValidator;
+    std::unique_ptr<QValidator> mPeriodCountValidator;
+    std::unique_ptr<QValidator> mSourceCountValidator;
+    std::unique_ptr<QValidator> mEffectSlotValidator;
+    std::unique_ptr<QValidator> mSourceSendValidator;
+    std::unique_ptr<QValidator> mSampleRateValidator;
+    std::unique_ptr<QValidator> mJackBufferValidator;
+
+    std::unique_ptr<Ui::MainWindow> ui;
 
     bool mNeedsSave{};
 
diff --git a/utils/makemhr/loaddef.cpp b/utils/makemhr/loaddef.cpp
index 54ba96a3..04489173 100644
--- a/utils/makemhr/loaddef.cpp
+++ b/utils/makemhr/loaddef.cpp
@@ -46,12 +46,12 @@
 #include "mysofa.h"
 
 // Constants for accessing the token reader's ring buffer.
-#define TR_RING_BITS                 (16)
-#define TR_RING_SIZE                 (1 << TR_RING_BITS)
-#define TR_RING_MASK                 (TR_RING_SIZE - 1)
+constexpr uint TRRingBits{16};
+constexpr uint TRRingSize{1 << TRRingBits};
+constexpr uint TRRingMask{TRRingSize - 1};
 
 // The token reader's load interval in bytes.
-#define TR_LOAD_SIZE                 (TR_RING_SIZE >> 2)
+constexpr uint TRLoadSize{TRRingSize >> 2};
 
 // Token reader state for parsing the data set definition.
 struct TokenReaderT {
@@ -59,7 +59,7 @@ struct TokenReaderT {
     const char *mName{};
     uint        mLine{};
     uint        mColumn{};
-    char mRing[TR_RING_SIZE]{};
+    std::array<char,TRRingSize> mRing{};
     std::streamsize mIn{};
     std::streamsize mOut{};
 
@@ -70,44 +70,48 @@ struct TokenReaderT {
 
 // The maximum identifier length used when processing the data set
 // definition.
-#define MAX_IDENT_LEN                (16)
+constexpr uint MaxIdentLen{16};
 
 // The limits for the listener's head 'radius' in the data set definition.
-#define MIN_RADIUS                   (0.05)
-#define MAX_RADIUS                   (0.15)
+constexpr double MinRadius{0.05};
+constexpr double MaxRadius{0.15};
 
 // The maximum number of channels that can be addressed for a WAVE file
 // source listed in the data set definition.
-#define MAX_WAVE_CHANNELS            (65535)
+constexpr uint MaxWaveChannels{65535};
 
 // The limits to the byte size for a binary source listed in the definition
 // file.
-#define MIN_BIN_SIZE                 (2)
-#define MAX_BIN_SIZE                 (4)
-
-// The minimum number of significant bits for binary sources listed in the
-// data set definition.  The maximum is calculated from the byte size.
-#define MIN_BIN_BITS                 (16)
+enum : uint {
+    MinBinSize = 2,
+    MaxBinSize = 4
+};
 
 // The limits to the number of significant bits for an ASCII source listed in
 // the data set definition.
-#define MIN_ASCII_BITS               (16)
-#define MAX_ASCII_BITS               (32)
+enum : uint {
+    MinASCIIBits = 16,
+    MaxASCIIBits = 32
+};
 
 // The four-character-codes for RIFF/RIFX WAVE file chunks.
-#define FOURCC_RIFF                  (0x46464952) // 'RIFF'
-#define FOURCC_RIFX                  (0x58464952) // 'RIFX'
-#define FOURCC_WAVE                  (0x45564157) // 'WAVE'
-#define FOURCC_FMT                   (0x20746D66) // 'fmt '
-#define FOURCC_DATA                  (0x61746164) // 'data'
-#define FOURCC_LIST                  (0x5453494C) // 'LIST'
-#define FOURCC_WAVL                  (0x6C766177) // 'wavl'
-#define FOURCC_SLNT                  (0x746E6C73) // 'slnt'
+enum : uint {
+    FOURCC_RIFF = 0x46464952, // 'RIFF'
+    FOURCC_RIFX = 0x58464952, // 'RIFX'
+    FOURCC_WAVE = 0x45564157, // 'WAVE'
+    FOURCC_FMT  = 0x20746D66, // 'fmt '
+    FOURCC_DATA = 0x61746164, // 'data'
+    FOURCC_LIST = 0x5453494C, // 'LIST'
+    FOURCC_WAVL = 0x6C766177, // 'wavl'
+    FOURCC_SLNT = 0x746E6C73, // 'slnt'
+};
 
 // The supported wave formats.
-#define WAVE_FORMAT_PCM              (0x0001)
-#define WAVE_FORMAT_IEEE_FLOAT       (0x0003)
-#define WAVE_FORMAT_EXTENSIBLE       (0xFFFE)
+enum : uint {
+    WAVE_FORMAT_PCM        = 0x0001,
+    WAVE_FORMAT_IEEE_FLOAT = 0x0003,
+    WAVE_FORMAT_EXTENSIBLE = 0xFFFE,
+};
 
 
 enum ByteOrderT {
@@ -197,13 +201,14 @@ static int TrLoad(TokenReaderT *tr)
 {
     std::istream &istream = tr->mIStream;
 
-    std::streamsize toLoad{TR_RING_SIZE - static_cast<std::streamsize>(tr->mIn - tr->mOut)};
-    if(toLoad >= TR_LOAD_SIZE && istream.good())
+    std::streamsize toLoad{TRRingSize - static_cast<std::streamsize>(tr->mIn - tr->mOut)};
+    if(toLoad >= TRLoadSize && istream.good())
     {
-        // Load TR_LOAD_SIZE (or less if at the end of the file) per read.
-        toLoad = TR_LOAD_SIZE;
-        std::streamsize in{tr->mIn&TR_RING_MASK};
-        std::streamsize count{TR_RING_SIZE - in};
+        // Load TRLoadSize (or less if at the end of the file) per read.
+        toLoad = TRLoadSize;
+
+        const auto in = static_cast<uint>(tr->mIn&TRRingMask);
+        std::streamsize count{TRRingSize - in};
         if(count < toLoad)
         {
             istream.read(&tr->mRing[in], count);
@@ -217,10 +222,10 @@ static int TrLoad(TokenReaderT *tr)
             tr->mIn += istream.gcount();
         }
 
-        if(tr->mOut >= TR_RING_SIZE)
+        if(tr->mOut >= TRRingSize)
         {
-            tr->mOut -= TR_RING_SIZE;
-            tr->mIn -= TR_RING_SIZE;
+            tr->mOut -= TRRingSize;
+            tr->mIn -= TRRingSize;
         }
     }
     if(tr->mIn > tr->mOut)
@@ -264,7 +269,7 @@ static void TrSkipLine(TokenReaderT *tr)
 
     while(TrLoad(tr))
     {
-        ch = tr->mRing[tr->mOut&TR_RING_MASK];
+        ch = tr->mRing[tr->mOut&TRRingMask];
         tr->mOut++;
         if(ch == '\n')
         {
@@ -281,7 +286,7 @@ static int TrSkipWhitespace(TokenReaderT *tr)
 {
     while(TrLoad(tr))
     {
-        char ch{tr->mRing[tr->mOut&TR_RING_MASK]};
+        char ch{tr->mRing[tr->mOut&TRRingMask]};
         if(isspace(ch))
         {
             tr->mOut++;
@@ -315,7 +320,7 @@ static int TrIsIdent(TokenReaderT *tr)
 {
     if(!TrSkipWhitespace(tr))
         return 0;
-    char ch{tr->mRing[tr->mOut&TR_RING_MASK]};
+    char ch{tr->mRing[tr->mOut&TRRingMask]};
     return ch == '_' || isalpha(ch);
 }
 
@@ -334,7 +339,7 @@ static int TrIsOperator(TokenReaderT *tr, const char *op)
     len = 0;
     while(op[len] != '\0' && out < tr->mIn)
     {
-        ch = tr->mRing[out&TR_RING_MASK];
+        ch = tr->mRing[out&TRRingMask];
         if(ch != op[len]) break;
         len++;
         out++;
@@ -359,7 +364,7 @@ static int TrReadIdent(TokenReaderT *tr, const uint maxLen, char *ident)
     if(TrSkipWhitespace(tr))
     {
         col = tr->mColumn;
-        ch = tr->mRing[tr->mOut&TR_RING_MASK];
+        ch = tr->mRing[tr->mOut&TRRingMask];
         if(ch == '_' || isalpha(ch))
         {
             len = 0;
@@ -370,7 +375,7 @@ static int TrReadIdent(TokenReaderT *tr, const uint maxLen, char *ident)
                 tr->mOut++;
                 if(!TrLoad(tr))
                     break;
-                ch = tr->mRing[tr->mOut&TR_RING_MASK];
+                ch = tr->mRing[tr->mOut&TRRingMask];
             } while(ch == '_' || isdigit(ch) || isalpha(ch));
 
             tr->mColumn += len;
@@ -396,7 +401,7 @@ static int TrReadInt(TokenReaderT *tr, const int loBound, const int hiBound, int
         col = tr->mColumn;
         uint len{0};
         std::array<char,64+1> temp{};
-        char ch{tr->mRing[tr->mOut&TR_RING_MASK]};
+        char ch{tr->mRing[tr->mOut&TRRingMask]};
         if(ch == '+' || ch == '-')
         {
             temp[len] = ch;
@@ -406,7 +411,7 @@ static int TrReadInt(TokenReaderT *tr, const int loBound, const int hiBound, int
         uint digis{0};
         while(TrLoad(tr))
         {
-            ch = tr->mRing[tr->mOut&TR_RING_MASK];
+            ch = tr->mRing[tr->mOut&TRRingMask];
             if(!isdigit(ch)) break;
             if(len < 64)
                 temp[len] = ch;
@@ -445,7 +450,7 @@ static int TrReadFloat(TokenReaderT *tr, const double loBound, const double hiBo
         col = tr->mColumn;
         std::array<char,64+1> temp{};
         uint len{0};
-        char ch{tr->mRing[tr->mOut&TR_RING_MASK]};
+        char ch{tr->mRing[tr->mOut&TRRingMask]};
         if(ch == '+' || ch == '-')
         {
             temp[len] = ch;
@@ -456,7 +461,7 @@ static int TrReadFloat(TokenReaderT *tr, const double loBound, const double hiBo
         uint digis{0};
         while(TrLoad(tr))
         {
-            ch = tr->mRing[tr->mOut&TR_RING_MASK];
+            ch = tr->mRing[tr->mOut&TRRingMask];
             if(!isdigit(ch)) break;
             if(len < 64)
                 temp[len] = ch;
@@ -473,7 +478,7 @@ static int TrReadFloat(TokenReaderT *tr, const double loBound, const double hiBo
         }
         while(TrLoad(tr))
         {
-            ch = tr->mRing[tr->mOut&TR_RING_MASK];
+            ch = tr->mRing[tr->mOut&TRRingMask];
             if(!isdigit(ch)) break;
             if(len < 64)
                 temp[len] = ch;
@@ -499,7 +504,7 @@ static int TrReadFloat(TokenReaderT *tr, const double loBound, const double hiBo
                 }
                 while(TrLoad(tr))
                 {
-                    ch = tr->mRing[tr->mOut&TR_RING_MASK];
+                    ch = tr->mRing[tr->mOut&TRRingMask];
                     if(!isdigit(ch)) break;
                     if(len < 64)
                         temp[len] = ch;
@@ -543,14 +548,14 @@ static int TrReadString(TokenReaderT *tr, const uint maxLen, char *text)
     if(TrSkipWhitespace(tr))
     {
         col = tr->mColumn;
-        ch = tr->mRing[tr->mOut&TR_RING_MASK];
+        ch = tr->mRing[tr->mOut&TRRingMask];
         if(ch == '\"')
         {
             tr->mOut++;
             len = 0;
             while(TrLoad(tr))
             {
-                ch = tr->mRing[tr->mOut&TR_RING_MASK];
+                ch = tr->mRing[tr->mOut&TRRingMask];
                 tr->mOut++;
                 if(ch == '\"')
                     break;
@@ -596,7 +601,7 @@ static int TrReadOperator(TokenReaderT *tr, const char *op)
         len = 0;
         while(op[len] != '\0' && TrLoad(tr))
         {
-            ch = tr->mRing[tr->mOut&TR_RING_MASK];
+            ch = tr->mRing[tr->mOut&TRRingMask];
             if(ch != op[len]) break;
             len++;
             tr->mOut++;
@@ -1225,7 +1230,7 @@ static int ProcessMetrics(TokenReaderT *tr, const uint fftSize, const uint trunc
 {
     int hasRate = 0, hasType = 0, hasPoints = 0, hasRadius = 0;
     int hasDistance = 0, hasAzimuths = 0;
-    std::array<char,MAX_IDENT_LEN+1> ident;
+    std::array<char,MaxIdentLen+1> ident;
     uint line, col;
     double fpVal;
     uint points;
@@ -1240,7 +1245,7 @@ static int ProcessMetrics(TokenReaderT *tr, const uint fftSize, const uint trunc
     while(TrIsIdent(tr))
     {
         TrIndication(tr, &line, &col);
-        if(!TrReadIdent(tr, MAX_IDENT_LEN, ident.data()))
+        if(!TrReadIdent(tr, MaxIdentLen, ident.data()))
             return 0;
         if(al::strcasecmp(ident.data(), "rate") == 0)
         {
@@ -1258,7 +1263,7 @@ static int ProcessMetrics(TokenReaderT *tr, const uint fftSize, const uint trunc
         }
         else if(al::strcasecmp(ident.data(), "type") == 0)
         {
-            std::array<char,MAX_IDENT_LEN+1> type;
+            std::array<char,MaxIdentLen+1> type;
 
             if(hasType)
             {
@@ -1268,7 +1273,7 @@ static int ProcessMetrics(TokenReaderT *tr, const uint fftSize, const uint trunc
             if(!TrReadOperator(tr, "="))
                 return 0;
 
-            if(!TrReadIdent(tr, MAX_IDENT_LEN, type.data()))
+            if(!TrReadIdent(tr, MaxIdentLen, type.data()))
                 return 0;
             hData->mChannelType = MatchChannelType(type.data());
             if(hData->mChannelType == CT_NONE)
@@ -1322,7 +1327,7 @@ static int ProcessMetrics(TokenReaderT *tr, const uint fftSize, const uint trunc
             }
             if(!TrReadOperator(tr, "="))
                 return 0;
-            if(!TrReadFloat(tr, MIN_RADIUS, MAX_RADIUS, &fpVal))
+            if(!TrReadFloat(tr, MinRadius, MaxRadius, &fpVal))
                 return 0;
             hData->mRadius = fpVal;
             hasRadius = 1;
@@ -1511,13 +1516,13 @@ static ElementTypeT MatchElementType(const char *ident)
 // Parse and validate a source reference from the data set definition.
 static int ReadSourceRef(TokenReaderT *tr, SourceRefT *src)
 {
-    std::array<char,MAX_IDENT_LEN+1> ident;
+    std::array<char,MaxIdentLen+1> ident;
     uint line, col;
     double fpVal;
     int intVal;
 
     TrIndication(tr, &line, &col);
-    if(!TrReadIdent(tr, MAX_IDENT_LEN, ident.data()))
+    if(!TrReadIdent(tr, MaxIdentLen, ident.data()))
         return 0;
     src->mFormat = MatchSourceFormat(ident.data());
     if(src->mFormat == SF_NONE)
@@ -1544,7 +1549,7 @@ static int ReadSourceRef(TokenReaderT *tr, SourceRefT *src)
         src->mAzimuth = fpVal;
         if(!TrReadOperator(tr, ":"))
             return 0;
-        if(!TrReadInt(tr, 0, MAX_WAVE_CHANNELS, &intVal))
+        if(!TrReadInt(tr, 0, MaxWaveChannels, &intVal))
             return 0;
         src->mType = ET_NONE;
         src->mSize = 0;
@@ -1554,7 +1559,7 @@ static int ReadSourceRef(TokenReaderT *tr, SourceRefT *src)
     }
     else if(src->mFormat == SF_WAVE)
     {
-        if(!TrReadInt(tr, 0, MAX_WAVE_CHANNELS, &intVal))
+        if(!TrReadInt(tr, 0, MaxWaveChannels, &intVal))
             return 0;
         src->mType = ET_NONE;
         src->mSize = 0;
@@ -1565,7 +1570,7 @@ static int ReadSourceRef(TokenReaderT *tr, SourceRefT *src)
     else
     {
         TrIndication(tr, &line, &col);
-        if(!TrReadIdent(tr, MAX_IDENT_LEN, ident.data()))
+        if(!TrReadIdent(tr, MaxIdentLen, ident.data()))
             return 0;
         src->mType = MatchElementType(ident.data());
         if(src->mType == ET_NONE)
@@ -1579,7 +1584,7 @@ static int ReadSourceRef(TokenReaderT *tr, SourceRefT *src)
                 return 0;
             if(src->mType == ET_INT)
             {
-                if(!TrReadInt(tr, MIN_BIN_SIZE, MAX_BIN_SIZE, &intVal))
+                if(!TrReadInt(tr, MinBinSize, MaxBinSize, &intVal))
                     return 0;
                 src->mSize = static_cast<uint>(intVal);
                 if(!TrIsOperator(tr, ","))
@@ -1590,9 +1595,9 @@ static int ReadSourceRef(TokenReaderT *tr, SourceRefT *src)
                     TrIndication(tr, &line, &col);
                     if(!TrReadInt(tr, -2147483647-1, 2147483647, &intVal))
                         return 0;
-                    if(std::abs(intVal) < MIN_BIN_BITS || static_cast<uint>(std::abs(intVal)) > (8*src->mSize))
+                    if(std::abs(intVal) < int{MinBinSize}*8 || static_cast<uint>(std::abs(intVal)) > (8*src->mSize))
                     {
-                        TrErrorAt(tr, line, col, "Expected a value of (+/-) %d to %d.\n", MIN_BIN_BITS, 8*src->mSize);
+                        TrErrorAt(tr, line, col, "Expected a value of (+/-) %d to %d.\n", MinBinSize*8, 8*src->mSize);
                         return 0;
                     }
                     src->mBits = intVal;
@@ -1616,7 +1621,7 @@ static int ReadSourceRef(TokenReaderT *tr, SourceRefT *src)
         {
             if(!TrReadOperator(tr, ","))
                 return 0;
-            if(!TrReadInt(tr, MIN_ASCII_BITS, MAX_ASCII_BITS, &intVal))
+            if(!TrReadInt(tr, MinASCIIBits, MaxASCIIBits, &intVal))
                 return 0;
             src->mSize = 0;
             src->mBits = intVal;
@@ -1658,12 +1663,12 @@ static int ReadSourceRef(TokenReaderT *tr, SourceRefT *src)
 // Parse and validate a SOFA source reference from the data set definition.
 static int ReadSofaRef(TokenReaderT *tr, SourceRefT *src)
 {
-    std::array<char,MAX_IDENT_LEN+1> ident;
+    std::array<char,MaxIdentLen+1> ident;
     uint line, col;
     int intVal;
 
     TrIndication(tr, &line, &col);
-    if(!TrReadIdent(tr, MAX_IDENT_LEN, ident.data()))
+    if(!TrReadIdent(tr, MaxIdentLen, ident.data()))
         return 0;
     src->mFormat = MatchSourceFormat(ident.data());
     if(src->mFormat != SF_SOFA)
@@ -1780,9 +1785,9 @@ static int ProcessSources(TokenReaderT *tr, HrirDataT *hData, const uint outRate
 
             if(hData->mChannelType == CT_STEREO)
             {
-                std::array<char,MAX_IDENT_LEN+1> type{};
+                std::array<char,MaxIdentLen+1> type{};
 
-                if(!TrReadIdent(tr, MAX_IDENT_LEN, type.data()))
+                if(!TrReadIdent(tr, MaxIdentLen, type.data()))
                     return 0;
 
                 const ChannelTypeT channelType{MatchChannelType(type.data())};
@@ -1801,8 +1806,8 @@ static int ProcessSources(TokenReaderT *tr, HrirDataT *hData, const uint outRate
             }
             else
             {
-                std::array<char,MAX_IDENT_LEN+1> type{};
-                if(!TrReadIdent(tr, MAX_IDENT_LEN, type.data()))
+                std::array<char,MaxIdentLen+1> type{};
+                if(!TrReadIdent(tr, MaxIdentLen, type.data()))
                     return 0;
 
                 ChannelTypeT channelType{MatchChannelType(type.data())};
@@ -1925,8 +1930,8 @@ static int ProcessSources(TokenReaderT *tr, HrirDataT *hData, const uint outRate
             uint ti{0};
             if(hData->mChannelType == CT_STEREO)
             {
-                std::array<char,MAX_IDENT_LEN+1> ident{};
-                if(!TrReadIdent(tr, MAX_IDENT_LEN, ident.data()))
+                std::array<char,MaxIdentLen+1> ident{};
+                if(!TrReadIdent(tr, MaxIdentLen, ident.data()))
                     return 0;
                 ti = static_cast<uint>(MatchTargetEar(ident.data()));
                 if(static_cast<int>(ti) < 0)
diff --git a/utils/makemhr/loadsofa.cpp b/utils/makemhr/loadsofa.cpp
index 4b2ba2f4..eaddd31b 100644
--- a/utils/makemhr/loadsofa.cpp
+++ b/utils/makemhr/loadsofa.cpp
@@ -144,7 +144,7 @@ float GetSampleRate(MYSOFA_HRTF *sofaHrtf)
         return 0.0f;
     }
     /* I dimensions guarantees 1 element, so just extract it. */
-    if(srate_array->values[0] < MIN_RATE || srate_array->values[0] > MAX_RATE)
+    if(srate_array->values[0] < float{MIN_RATE} || srate_array->values[0] > float{MAX_RATE})
     {
         fprintf(stderr, "Sample rate out of range: %f (expected %u to %u)", srate_array->values[0],
             MIN_RATE, MAX_RATE);
diff --git a/utils/makemhr/makemhr.cpp b/utils/makemhr/makemhr.cpp
index 3c0da19f..80e217ee 100644
--- a/utils/makemhr/makemhr.cpp
+++ b/utils/makemhr/makemhr.cpp
@@ -90,6 +90,7 @@
 
 #include "alcomplex.h"
 #include "alfstream.h"
+#include "alnumbers.h"
 #include "alspan.h"
 #include "alstring.h"
 #include "loaddef.h"
@@ -98,61 +99,56 @@
 #include "win_main_utf8.h"
 
 
-namespace {
-
-using namespace std::placeholders;
-
-} // namespace
-
-#ifndef M_PI
-#define M_PI                         (3.14159265358979323846)
-#endif
-
-
 HrirDataT::~HrirDataT() = default;
 
-// Head model used for calculating the impulse delays.
-enum HeadModelT {
-    HM_NONE,
-    HM_DATASET, // Measure the onset from the dataset.
-    HM_SPHERE   // Calculate the onset using a spherical head model.
-};
+namespace {
 
+using namespace std::placeholders;
 
 // The epsilon used to maintain signal stability.
-#define EPSILON                      (1e-9)
+constexpr double Epsilon{1e-9};
 
 // The limits to the FFT window size override on the command line.
-#define MIN_FFTSIZE                  (65536)
-#define MAX_FFTSIZE                  (131072)
+constexpr uint MinFftSize{65536};
+constexpr uint MaxFftSize{131072};
 
 // The limits to the equalization range limit on the command line.
-#define MIN_LIMIT                    (2.0)
-#define MAX_LIMIT                    (120.0)
+constexpr double MinLimit{2.0};
+constexpr double MaxLimit{120.0};
 
 // The limits to the truncation window size on the command line.
-#define MIN_TRUNCSIZE                (16)
-#define MAX_TRUNCSIZE                (128)
+constexpr uint MinTruncSize{16};
+constexpr uint MaxTruncSize{128};
 
 // The limits to the custom head radius on the command line.
-#define MIN_CUSTOM_RADIUS            (0.05)
-#define MAX_CUSTOM_RADIUS            (0.15)
-
-// The defaults for the command line options.
-#define DEFAULT_FFTSIZE              (65536)
-#define DEFAULT_EQUALIZE             (1)
-#define DEFAULT_SURFACE              (1)
-#define DEFAULT_LIMIT                (24.0)
-#define DEFAULT_TRUNCSIZE            (64)
-#define DEFAULT_HEAD_MODEL           (HM_DATASET)
-#define DEFAULT_CUSTOM_RADIUS        (0.0)
+constexpr double MinCustomRadius{0.05};
+constexpr double MaxCustomRadius{0.15};
 
 // The maximum propagation delay value supported by OpenAL Soft.
-#define MAX_HRTD                     (63.0)
+constexpr double MaxHrtd{63.0};
 
 // The OpenAL Soft HRTF format marker.  It stands for minimum-phase head
 // response protocol 03.
-#define MHR_FORMAT                   ("MinPHR03")
+constexpr char MHRFormat[] = "MinPHR03"; // NOLINT(*-avoid-c-arrays)
+
+
+// Head model used for calculating the impulse delays.
+enum HeadModelT {
+    HM_NONE,
+    HM_DATASET, // Measure the onset from the dataset.
+    HM_SPHERE,   // Calculate the onset using a spherical head model.
+
+    DEFAULT_HEAD_MODEL = HM_DATASET
+};
+
+
+// The defaults for the command line options.
+constexpr uint DefaultFftSize{65536};
+constexpr bool DefaultEqualize{true};
+constexpr bool DefaultSurface{true};
+constexpr double DefaultLimit{24.0};
+constexpr uint DefaultTruncSize{64};
+constexpr double DefaultCustomRadius{0.0};
 
 /* Channel index enums. Mono uses LeftChannel only. */
 enum ChannelIndex : uint {
@@ -165,7 +161,7 @@ enum ChannelIndex : uint {
  * pattern string are replaced with the replacement string.  The result is
  * truncated if necessary.
  */
-static std::string StrSubst(al::span<const char> in, const al::span<const char> pat,
+std::string StrSubst(al::span<const char> in, const al::span<const char> pat,
     const al::span<const char> rep)
 {
     std::string ret;
@@ -198,12 +194,12 @@ static std::string StrSubst(al::span<const char> in, const al::span<const char>
  *********************/
 
 // Simple clamp routine.
-static double Clamp(const double val, const double lower, const double upper)
+double Clamp(const double val, const double lower, const double upper)
 {
     return std::min(std::max(val, lower), upper);
 }
 
-static inline uint dither_rng(uint *seed)
+inline uint dither_rng(uint *seed)
 {
     *seed = *seed * 96314165 + 907633515;
     return *seed;
@@ -211,8 +207,8 @@ static inline uint dither_rng(uint *seed)
 
 // Performs a triangular probability density function dither. The input samples
 // should be normalized (-1 to +1).
-static void TpdfDither(double *RESTRICT out, const double *RESTRICT in, const double scale,
-                       const uint count, const uint step, uint *seed)
+void TpdfDither(double *RESTRICT out, const double *RESTRICT in, const double scale,
+    const uint count, const uint step, uint *seed)
 {
     static constexpr double PRNG_SCALE = 1.0 / std::numeric_limits<uint>::max();
 
@@ -231,9 +227,11 @@ static void TpdfDither(double *RESTRICT out, const double *RESTRICT in, const do
  * of a signal's magnitude response, the imaginary components can be used as
  * the angles for minimum-phase reconstruction.
  */
-inline static void Hilbert(const uint n, complex_d *inout)
+inline void Hilbert(const uint n, complex_d *inout)
 { complex_hilbert({inout, n}); }
 
+} // namespace
+
 /* Calculate the magnitude response of the given input.  This is used in
  * place of phase decomposition, since the phase residuals are discarded for
  * minimum phase reconstruction.  The mirrored half of the response is also
@@ -244,7 +242,7 @@ void MagnitudeResponse(const uint n, const complex_d *in, double *out)
     const uint m = 1 + (n / 2);
     uint i;
     for(i = 0;i < m;i++)
-        out[i] = std::max(std::abs(in[i]), EPSILON);
+        out[i] = std::max(std::abs(in[i]), Epsilon);
 }
 
 /* Apply a range limit (in dB) to the given magnitude response.  This is used
@@ -295,7 +293,7 @@ static void MinimumPhase(const uint n, double *mags, complex_d *out)
     }
     Hilbert(n, out);
     // Remove any DC offset the filter has.
-    mags[0] = EPSILON;
+    mags[0] = Epsilon;
     for(i = 0;i < n;i++)
         out[i] = std::polar(mags[i], out[i].imag());
 }
@@ -350,7 +348,7 @@ static int StoreMhr(const HrirDataT *hData, const char *filename)
         fprintf(stderr, "\nError: Could not open MHR file '%s'.\n", filename);
         return 0;
     }
-    if(!WriteAscii(MHR_FORMAT, fp, filename))
+    if(!WriteAscii(MHRFormat, fp, filename))
         return 0;
     if(!WriteBin4(4, hData->mIrRate, fp, filename))
         return 0;
@@ -385,7 +383,7 @@ static int StoreMhr(const HrirDataT *hData, const char *filename)
             for(ai = 0;ai < hData->mFds[fi].mEvs[ei].mAzs.size();ai++)
             {
                 HrirAzT *azd = &hData->mFds[fi].mEvs[ei].mAzs[ai];
-                std::array<double,2*MAX_TRUNCSIZE> out{};
+                std::array<double,2*MaxTruncSize> out{};
 
                 TpdfDither(out.data(), azd->mIrs[0], scale, n, channels, &dither_seed);
                 if(hData->mChannelType == CT_STEREO)
@@ -494,17 +492,17 @@ static void CalculateDfWeights(const HrirDataT *hData, double *weights)
             outerRa = 10.0f;
 
         const double raPowDiff{std::pow(outerRa, 3.0) - std::pow(innerRa, 3.0)};
-        evs = M_PI / 2.0 / static_cast<double>(hData->mFds[fi].mEvs.size() - 1);
+        evs = al::numbers::pi / 2.0 / static_cast<double>(hData->mFds[fi].mEvs.size() - 1);
         for(ei = hData->mFds[fi].mEvStart;ei < hData->mFds[fi].mEvs.size();ei++)
         {
             const auto &elev = hData->mFds[fi].mEvs[ei];
             // For each elevation, calculate the upper and lower limits of
             // the patch band.
             ev = elev.mElevation;
-            lowerEv = std::max(-M_PI / 2.0, ev - evs);
-            upperEv = std::min(M_PI / 2.0, ev + evs);
+            lowerEv = std::max(-al::numbers::pi / 2.0, ev - evs);
+            upperEv = std::min(al::numbers::pi / 2.0, ev + evs);
             // Calculate the surface area of the patch band.
-            solidAngle = 2.0 * M_PI * (std::sin(upperEv) - std::sin(lowerEv));
+            solidAngle = 2.0 * al::numbers::pi * (std::sin(upperEv) - std::sin(lowerEv));
             // Then the volume of the extruded patch band.
             solidVolume = solidAngle * raPowDiff / 3.0;
             // Each weight is the volume of one extruded patch.
@@ -583,7 +581,7 @@ static void CalculateDiffuseFieldAverage(const HrirDataT *hData, const uint chan
         }
         // Finish the average calculation and keep it from being too small.
         for(i = 0;i < m;i++)
-            dfa[(ti * m) + i] = std::max(sqrt(dfa[(ti * m) + i]), EPSILON);
+            dfa[(ti * m) + i] = std::max(sqrt(dfa[(ti * m) + i]), Epsilon);
         // Apply a limit to the magnitude range of the diffuse-field average
         // if desired.
         if(limit > 0.0)
@@ -619,7 +617,8 @@ static void DiffuseFieldEqualize(const uint channels, const uint m, const double
  */
 static void CalcAzIndices(const HrirFdT &field, const uint ei, const double az, uint *a0, uint *a1, double *af)
 {
-    double f{(2.0*M_PI + az) * static_cast<double>(field.mEvs[ei].mAzs.size()) / (2.0*M_PI)};
+    double f{(2.0*al::numbers::pi + az) * static_cast<double>(field.mEvs[ei].mAzs.size()) /
+        (2.0*al::numbers::pi)};
     const uint i{static_cast<uint>(f) % static_cast<uint>(field.mEvs[ei].mAzs.size())};
 
     f -= std::floor(f);
@@ -669,7 +668,7 @@ static void SynthesizeOnsets(HrirDataT *hData)
                      * the mirrored elevation to find the indices for the polar
                      * opposite position (may need blending).
                      */
-                    const double az{field.mEvs[ei].mAzs[ai].mAzimuth + M_PI};
+                    const double az{field.mEvs[ei].mAzs[ai].mAzimuth + al::numbers::pi};
                     CalcAzIndices(field, topElev, az, &a0, &a1, &af);
 
                     /* Blend the delays, and again, swap the ears. */
@@ -701,8 +700,8 @@ static void SynthesizeOnsets(HrirDataT *hData)
                      * measurement).
                      */
                     double az{field.mEvs[ei].mAzs[ai].mAzimuth};
-                    if(az <= M_PI) az = M_PI - az;
-                    else az = (M_PI*2.0)-az + M_PI;
+                    if(az <= al::numbers::pi) az = al::numbers::pi - az;
+                    else az = (al::numbers::pi*2.0)-az + al::numbers::pi;
                     CalcAzIndices(field, topElev, az, &a0, &a1, &af);
 
                     field.mEvs[ei].mAzs[ai].mDelays[0] = Lerp(
@@ -780,7 +779,7 @@ static void SynthesizeHrirs(HrirDataT *hData)
              * and vice-versa, this produces a decent phantom-center response
              * underneath the head.
              */
-            CalcAzIndices(field, oi, ((ti==0) ? -M_PI : M_PI) / 2.0, &a0, &a1, &af);
+            CalcAzIndices(field, oi, al::numbers::pi / ((ti==0) ? -2.0 : 2.0), &a0, &a1, &af);
             for(uint i{0u};i < m;i++)
             {
                 field.mEvs[0].mAzs[0].mIrs[ti][i] = Lerp(field.mEvs[oi].mAzs[a0].mIrs[ti][i],
@@ -902,7 +901,7 @@ struct HrirReconstructor {
              * time-domain response.
              */
             for(size_t i{0};i < m;++i)
-                mags[i] = std::max(mIrs[idx][i], EPSILON);
+                mags[i] = std::max(mIrs[idx][i], Epsilon);
             MinimumPhase(mFftSize, mags.data(), h.data());
             FftInverse(mFftSize, h.data());
             for(uint i{0u};i < mIrPoints;++i)
@@ -1030,7 +1029,7 @@ static double CalcLTD(const double ev, const double az, const double rad, const
     azp = std::asin(std::cos(ev) * std::sin(az));
     dlp = std::sqrt((dist*dist) + (rad*rad) + (2.0*dist*rad*sin(azp)));
     l = std::sqrt((dist*dist) - (rad*rad));
-    al = (0.5 * M_PI) + azp;
+    al = (0.5 * al::numbers::pi) + azp;
     if(dlp > l)
         dlp = l + (rad * (al - std::acos(rad / dist)));
     return dlp / 343.3;
@@ -1098,10 +1097,10 @@ static void CalculateHrtds(const HeadModelT model, const double radius, HrirData
             }
         }
     }
-    if(maxHrtd > MAX_HRTD)
+    if(maxHrtd > MaxHrtd)
     {
-        fprintf(stdout, "  Scaling for max delay of %f samples to %f\n...\n", maxHrtd, MAX_HRTD);
-        const double scale{MAX_HRTD / maxHrtd};
+        fprintf(stdout, "  Scaling for max delay of %f samples to %f\n...\n", maxHrtd, MaxHrtd);
+        const double scale{MaxHrtd / maxHrtd};
         for(auto &field : hData->mFds)
         {
             for(auto &elev : field.mEvs)
@@ -1148,11 +1147,12 @@ bool PrepareHrirData(const al::span<const double> distances,
         {
             uint azCount = azCounts[fi][ei];
 
-            hData->mFds[fi].mEvs[ei].mElevation = -M_PI / 2.0 + M_PI * ei / (evCounts[fi] - 1);
+            hData->mFds[fi].mEvs[ei].mElevation = -al::numbers::pi / 2.0 + al::numbers::pi * ei /
+                (evCounts[fi] - 1);
             hData->mFds[fi].mEvs[ei].mAzs = {&hData->mAzsBase[azTotal], azCount};
             for(uint ai{0};ai < azCount;ai++)
             {
-                hData->mFds[fi].mEvs[ei].mAzs[ai].mAzimuth = 2.0 * M_PI * ai / azCount;
+                hData->mFds[fi].mEvs[ei].mAzs[ai].mAzimuth = 2.0 * al::numbers::pi * ai / azCount;
                 hData->mFds[fi].mEvs[ei].mAzs[ai].mIndex = azTotal + ai;
                 hData->mFds[fi].mEvs[ei].mAzs[ai].mDelays[0] = 0.0;
                 hData->mFds[fi].mEvs[ei].mAzs[ai].mDelays[1] = 0.0;
@@ -1260,7 +1260,7 @@ static int ProcessDefinition(const char *inName, const uint outRate, const Chann
     fprintf(stdout, "Normalizing final HRIRs...\n");
     NormalizeHrirs(&hData);
     fprintf(stdout, "Calculating impulse delays...\n");
-    CalculateHrtds(model, (radius > DEFAULT_CUSTOM_RADIUS) ? radius : hData.mRadius, &hData);
+    CalculateHrtds(model, (radius > DefaultCustomRadius) ? radius : hData.mRadius, &hData);
 
     const auto rateStr = std::to_string(hData.mIrRate);
     const auto expName = StrSubst({outName, strlen(outName)}, {"%r", 2},
@@ -1279,13 +1279,13 @@ static void PrintHelp(const char *argv0, FILE *ofile)
     fprintf(ofile, "                 right ear.\n");
     fprintf(ofile, " -a              Change the data set to single field, using the farthest field.\n");
     fprintf(ofile, " -j <threads>    Number of threads used to process HRIRs (default: 2).\n");
-    fprintf(ofile, " -f <points>     Override the FFT window size (default: %u).\n", DEFAULT_FFTSIZE);
-    fprintf(ofile, " -e {on|off}     Toggle diffuse-field equalization (default: %s).\n", (DEFAULT_EQUALIZE ? "on" : "off"));
-    fprintf(ofile, " -s {on|off}     Toggle surface-weighted diffuse-field average (default: %s).\n", (DEFAULT_SURFACE ? "on" : "off"));
+    fprintf(ofile, " -f <points>     Override the FFT window size (default: %u).\n", DefaultFftSize);
+    fprintf(ofile, " -e {on|off}     Toggle diffuse-field equalization (default: %s).\n", (DefaultEqualize ? "on" : "off"));
+    fprintf(ofile, " -s {on|off}     Toggle surface-weighted diffuse-field average (default: %s).\n", (DefaultSurface ? "on" : "off"));
     fprintf(ofile, " -l {<dB>|none}  Specify a limit to the magnitude range of the diffuse-field\n");
-    fprintf(ofile, "                 average (default: %.2f).\n", DEFAULT_LIMIT);
+    fprintf(ofile, "                 average (default: %.2f).\n", DefaultLimit);
     fprintf(ofile, " -w <points>     Specify the size of the truncation window that's applied\n");
-    fprintf(ofile, "                 after minimum-phase reconstruction (default: %u).\n", DEFAULT_TRUNCSIZE);
+    fprintf(ofile, "                 after minimum-phase reconstruction (default: %u).\n", DefaultTruncSize);
     fprintf(ofile, " -d {dataset|    Specify the model used for calculating the head-delay timing\n");
     fprintf(ofile, "     sphere}     values (default: %s).\n", ((DEFAULT_HEAD_MODEL == HM_DATASET) ? "dataset" : "sphere"));
     fprintf(ofile, " -c <radius>     Use a customized head radius measured to-ear in meters.\n");
@@ -1320,14 +1320,14 @@ int main(int argc, char *argv[])
     outName = "./oalsoft_hrtf_%r.mhr";
     outRate = 0;
     chanMode = CM_AllowStereo;
-    fftSize = DEFAULT_FFTSIZE;
-    equalize = DEFAULT_EQUALIZE;
-    surface = DEFAULT_SURFACE;
-    limit = DEFAULT_LIMIT;
+    fftSize = DefaultFftSize;
+    equalize = DefaultEqualize;
+    surface = DefaultSurface;
+    limit = DefaultLimit;
     numThreads = 2;
-    truncSize = DEFAULT_TRUNCSIZE;
+    truncSize = DefaultTruncSize;
     model = DEFAULT_HEAD_MODEL;
-    radius = DEFAULT_CUSTOM_RADIUS;
+    radius = DefaultCustomRadius;
     farfield = false;
 
     while((opt=getopt(argc, argv, "r:maj:f:e:s:l:w:d:c:e:i:o:h")) != -1)
@@ -1364,9 +1364,9 @@ int main(int argc, char *argv[])
 
         case 'f':
             fftSize = static_cast<uint>(strtoul(optarg, &end, 10));
-            if(end[0] != '\0' || (fftSize&(fftSize-1)) || fftSize < MIN_FFTSIZE || fftSize > MAX_FFTSIZE)
+            if(end[0] != '\0' || (fftSize&(fftSize-1)) || fftSize < MinFftSize || fftSize > MaxFftSize)
             {
-                fprintf(stderr, "\nError: Got unexpected value \"%s\" for option -%c, expected a power-of-two between %u to %u.\n", optarg, opt, MIN_FFTSIZE, MAX_FFTSIZE);
+                fprintf(stderr, "\nError: Got unexpected value \"%s\" for option -%c, expected a power-of-two between %u to %u.\n", optarg, opt, MinFftSize, MaxFftSize);
                 exit(EXIT_FAILURE);
             }
             break;
@@ -1401,9 +1401,9 @@ int main(int argc, char *argv[])
             else
             {
                 limit = strtod(optarg, &end);
-                if(end[0] != '\0' || limit < MIN_LIMIT || limit > MAX_LIMIT)
+                if(end[0] != '\0' || limit < MinLimit || limit > MaxLimit)
                 {
-                    fprintf(stderr, "\nError: Got unexpected value \"%s\" for option -%c, expected between %.0f to %.0f.\n", optarg, opt, MIN_LIMIT, MAX_LIMIT);
+                    fprintf(stderr, "\nError: Got unexpected value \"%s\" for option -%c, expected between %.0f to %.0f.\n", optarg, opt, MinLimit, MaxLimit);
                     exit(EXIT_FAILURE);
                 }
             }
@@ -1411,9 +1411,9 @@ int main(int argc, char *argv[])
 
         case 'w':
             truncSize = static_cast<uint>(strtoul(optarg, &end, 10));
-            if(end[0] != '\0' || truncSize < MIN_TRUNCSIZE || truncSize > MAX_TRUNCSIZE)
+            if(end[0] != '\0' || truncSize < MinTruncSize || truncSize > MaxTruncSize)
             {
-                fprintf(stderr, "\nError: Got unexpected value \"%s\" for option -%c, expected between %u to %u.\n", optarg, opt, MIN_TRUNCSIZE, MAX_TRUNCSIZE);
+                fprintf(stderr, "\nError: Got unexpected value \"%s\" for option -%c, expected between %u to %u.\n", optarg, opt, MinTruncSize, MaxTruncSize);
                 exit(EXIT_FAILURE);
             }
             break;
@@ -1432,9 +1432,9 @@ int main(int argc, char *argv[])
 
         case 'c':
             radius = strtod(optarg, &end);
-            if(end[0] != '\0' || radius < MIN_CUSTOM_RADIUS || radius > MAX_CUSTOM_RADIUS)
+            if(end[0] != '\0' || radius < MinCustomRadius || radius > MaxCustomRadius)
             {
-                fprintf(stderr, "\nError: Got unexpected value \"%s\" for option -%c, expected between %.2f to %.2f.\n", optarg, opt, MIN_CUSTOM_RADIUS, MAX_CUSTOM_RADIUS);
+                fprintf(stderr, "\nError: Got unexpected value \"%s\" for option -%c, expected between %.2f to %.2f.\n", optarg, opt, MinCustomRadius, MaxCustomRadius);
                 exit(EXIT_FAILURE);
             }
             break;
diff --git a/utils/makemhr/makemhr.h b/utils/makemhr/makemhr.h
index 3a105fc2..71c2e55b 100644
--- a/utils/makemhr/makemhr.h
+++ b/utils/makemhr/makemhr.h
@@ -9,35 +9,43 @@
 
 
 // The maximum path length used when processing filenames.
-#define MAX_PATH_LEN                 (256)
+enum { MAX_PATH_LEN = 256u };
 
 // The limit to the number of 'distances' listed in the data set definition.
 // Must be less than 256
-#define MAX_FD_COUNT                 (16)
+enum { MAX_FD_COUNT = 16u };
 
 // The limits to the number of 'elevations' listed in the data set definition.
 // Must be less than 256.
-#define MIN_EV_COUNT                 (5)
-#define MAX_EV_COUNT                 (181)
+enum {
+    MIN_EV_COUNT = 5u,
+    MAX_EV_COUNT = 181u
+};
 
 // The limits for each of the 'azimuths' listed in the data set definition.
 // Must be less than 256.
-#define MIN_AZ_COUNT                 (1)
-#define MAX_AZ_COUNT                 (255)
+enum {
+    MIN_AZ_COUNT = 1u,
+    MAX_AZ_COUNT = 255u
+};
 
 // The limits for the 'distance' from source to listener for each field in
 // the definition file.
-#define MIN_DISTANCE                 (0.05)
-#define MAX_DISTANCE                 (2.50)
+inline constexpr double MIN_DISTANCE{0.05};
+inline constexpr double MAX_DISTANCE{2.50};
 
 // The limits for the sample 'rate' metric in the data set definition and for
 // resampling.
-#define MIN_RATE                     (32000)
-#define MAX_RATE                     (96000)
+enum {
+    MIN_RATE = 32000u,
+    MAX_RATE = 96000u
+};
 
 // The limits for the HRIR 'points' metric in the data set definition.
-#define MIN_POINTS                   (16)
-#define MAX_POINTS                   (8192)
+enum {
+    MIN_POINTS = 16u,
+    MAX_POINTS = 8192u
+};
 
 
 using uint = unsigned int;
diff --git a/utils/openal-info.c b/utils/openal-info.c
index cb013098..669727a6 100644
--- a/utils/openal-info.c
+++ b/utils/openal-info.c
@@ -45,11 +45,11 @@
 #define FUNCTION_CAST(T, ptr) (T)(ptr)
 #endif
 
-#define MAX_WIDTH  80
+enum { MaxWidth = 80 };
 
 static void printList(const char *list, char separator)
 {
-    size_t col = MAX_WIDTH, len;
+    size_t col = MaxWidth, len;
     const char *indent = "    ";
     const char *next;
 
@@ -71,7 +71,7 @@ static void printList(const char *list, char separator)
         else
             len = strlen(list);
 
-        if(len + col + 2 >= MAX_WIDTH)
+        if(len + col + 2 >= MaxWidth)
         {
             fprintf(stdout, "\n%s", indent);
             col = strlen(indent);
@@ -393,7 +393,7 @@ static void printEFXInfo(ALCdevice *device)
 
         palFilteri(object, AL_FILTER_TYPE, filters[i]);
         if(alGetError() != AL_NO_ERROR)
-            memmove(current, next+1, strlen(next));
+            memmove(current, next+1, strlen(next)); /* NOLINT(clang-analyzer-security.insecureAPI.*) */
         else
             current = next+1;
     }
@@ -412,7 +412,7 @@ static void printEFXInfo(ALCdevice *device)
 
         palEffecti(object, AL_EFFECT_TYPE, effects[i]);
         if(alGetError() != AL_NO_ERROR)
-            memmove(current, next+1, strlen(next));
+            memmove(current, next+1, strlen(next)); /* NOLINT(clang-analyzer-security.insecureAPI.*) */
         else
             current = next+1;
     }
@@ -425,7 +425,7 @@ static void printEFXInfo(ALCdevice *device)
 
             palEffecti(object, AL_EFFECT_TYPE, dedeffects[i]);
             if(alGetError() != AL_NO_ERROR)
-                memmove(current, next+1, strlen(next));
+                memmove(current, next+1, strlen(next)); /* NOLINT(clang-analyzer-security.insecureAPI.*) */
             else
                 current = next+1;
         }
@@ -436,7 +436,7 @@ static void printEFXInfo(ALCdevice *device)
         {
             char *next = strchr(current, ',');
             assert(next != NULL);
-            memmove(current, next+1, strlen(next));
+            memmove(current, next+1, strlen(next)); /* NOLINT(clang-analyzer-security.insecureAPI.*) */
         }
     }
     printf("Supported effects:");
-- 
cgit v1.2.3


From aa6e04a5562052db172117043165ae999683b052 Mon Sep 17 00:00:00 2001
From: Chris Robinson <chris.kcat@gmail.com>
Date: Wed, 20 Dec 2023 01:53:27 -0800
Subject: Ensure struct members are initialized

---
 al/source.h                  | 22 +++++++++----------
 alc/backends/portaudio.cpp   | 34 +++++++++++++++---------------
 alc/backends/pulseaudio.cpp  |  4 ++--
 alc/backends/sndio.cpp       |  2 +-
 alc/effects/autowah.cpp      | 26 +++++++++++------------
 alc/effects/chorus.cpp       |  4 ++--
 alc/effects/dedicated.cpp    |  4 ++--
 alc/effects/echo.cpp         |  2 +-
 alc/effects/fshifter.cpp     |  2 +-
 alc/effects/pshifter.cpp     | 32 ++++++++++++++--------------
 alc/effects/reverb.cpp       |  6 +++---
 common/alsem.h               |  2 +-
 common/polyphase_resampler.h |  2 +-
 core/bformatdec.h            |  6 +++---
 core/device.h                | 10 ++++-----
 core/filters/nfc.h           | 24 ++++++++++-----------
 core/hrtf.h                  |  2 +-
 core/uhjfilter.h             |  2 +-
 core/voice.h                 | 50 ++++++++++++++++++++++----------------------
 examples/alffplay.cpp        |  2 +-
 examples/alstreamcb.cpp      |  2 +-
 utils/makemhr/makemhr.cpp    |  8 +++----
 22 files changed, 124 insertions(+), 124 deletions(-)

(limited to 'utils/makemhr')

diff --git a/al/source.h b/al/source.h
index 69bedda3..1a93d927 100644
--- a/al/source.h
+++ b/al/source.h
@@ -108,19 +108,19 @@ struct ALsource {
 
     /** Direct filter and auxiliary send info. */
     struct {
-        float Gain;
-        float GainHF;
-        float HFReference;
-        float GainLF;
-        float LFReference;
+        float Gain{};
+        float GainHF{};
+        float HFReference{};
+        float GainLF{};
+        float LFReference{};
     } Direct;
     struct SendData {
-        ALeffectslot *Slot;
-        float Gain;
-        float GainHF;
-        float HFReference;
-        float GainLF;
-        float LFReference;
+        ALeffectslot *Slot{};
+        float Gain{};
+        float GainHF{};
+        float HFReference{};
+        float GainLF{};
+        float LFReference{};
     };
     std::array<SendData,MaxSendCount> Send;
 
diff --git a/alc/backends/portaudio.cpp b/alc/backends/portaudio.cpp
index dc9725b0..b6013dcc 100644
--- a/alc/backends/portaudio.cpp
+++ b/alc/backends/portaudio.cpp
@@ -79,13 +79,6 @@ struct PortPlayback final : public BackendBase {
 
     int writeCallback(const void *inputBuffer, void *outputBuffer, unsigned long framesPerBuffer,
         const PaStreamCallbackTimeInfo *timeInfo, const PaStreamCallbackFlags statusFlags) noexcept;
-    static int writeCallbackC(const void *inputBuffer, void *outputBuffer,
-        unsigned long framesPerBuffer, const PaStreamCallbackTimeInfo *timeInfo,
-        const PaStreamCallbackFlags statusFlags, void *userData) noexcept
-    {
-        return static_cast<PortPlayback*>(userData)->writeCallback(inputBuffer, outputBuffer,
-            framesPerBuffer, timeInfo, statusFlags);
-    }
 
     void open(std::string_view name) override;
     bool reset() override;
@@ -156,9 +149,16 @@ void PortPlayback::open(std::string_view name)
     }
 
 retry_open:
+    static constexpr auto writeCallback = [](const void *inputBuffer, void *outputBuffer,
+        unsigned long framesPerBuffer, const PaStreamCallbackTimeInfo *timeInfo,
+        const PaStreamCallbackFlags statusFlags, void *userData) noexcept
+    {
+        return static_cast<PortPlayback*>(userData)->writeCallback(inputBuffer, outputBuffer,
+            framesPerBuffer, timeInfo, statusFlags);
+    };
     PaStream *stream{};
     PaError err{Pa_OpenStream(&stream, nullptr, &params, mDevice->Frequency, mDevice->UpdateSize,
-        paNoFlag, &PortPlayback::writeCallbackC, this)};
+        paNoFlag, writeCallback, this)};
     if(err != paNoError)
     {
         if(params.sampleFormat == paFloat32)
@@ -236,13 +236,6 @@ struct PortCapture final : public BackendBase {
 
     int readCallback(const void *inputBuffer, void *outputBuffer, unsigned long framesPerBuffer,
         const PaStreamCallbackTimeInfo *timeInfo, const PaStreamCallbackFlags statusFlags) noexcept;
-    static int readCallbackC(const void *inputBuffer, void *outputBuffer,
-        unsigned long framesPerBuffer, const PaStreamCallbackTimeInfo *timeInfo,
-        const PaStreamCallbackFlags statusFlags, void *userData) noexcept
-    {
-        return static_cast<PortCapture*>(userData)->readCallback(inputBuffer, outputBuffer,
-            framesPerBuffer, timeInfo, statusFlags);
-    }
 
     void open(std::string_view name) override;
     void start() override;
@@ -251,7 +244,7 @@ struct PortCapture final : public BackendBase {
     uint availableSamples() override;
 
     PaStream *mStream{nullptr};
-    PaStreamParameters mParams;
+    PaStreamParameters mParams{};
 
     RingBufferPtr mRing{nullptr};
 };
@@ -317,8 +310,15 @@ void PortCapture::open(std::string_view name)
     }
     mParams.channelCount = static_cast<int>(mDevice->channelsFromFmt());
 
+    static constexpr auto readCallback = [](const void *inputBuffer, void *outputBuffer,
+        unsigned long framesPerBuffer, const PaStreamCallbackTimeInfo *timeInfo,
+        const PaStreamCallbackFlags statusFlags, void *userData) noexcept
+    {
+        return static_cast<PortCapture*>(userData)->readCallback(inputBuffer, outputBuffer,
+            framesPerBuffer, timeInfo, statusFlags);
+    };
     PaError err{Pa_OpenStream(&mStream, &mParams, nullptr, mDevice->Frequency,
-        paFramesPerBufferUnspecified, paNoFlag, &PortCapture::readCallbackC, this)};
+        paFramesPerBufferUnspecified, paNoFlag, readCallback, this)};
     if(err != paNoError)
         throw al::backend_exception{al::backend_error::NoDevice, "Failed to open stream: %s",
             Pa_GetErrorText(err)};
diff --git a/alc/backends/pulseaudio.cpp b/alc/backends/pulseaudio.cpp
index 8533cdb9..aec91229 100644
--- a/alc/backends/pulseaudio.cpp
+++ b/alc/backends/pulseaudio.cpp
@@ -658,8 +658,8 @@ struct PulsePlayback final : public BackendBase {
     std::optional<std::string> mDeviceName{std::nullopt};
 
     bool mIs51Rear{false};
-    pa_buffer_attr mAttr;
-    pa_sample_spec mSpec;
+    pa_buffer_attr mAttr{};
+    pa_sample_spec mSpec{};
 
     pa_stream *mStream{nullptr};
 
diff --git a/alc/backends/sndio.cpp b/alc/backends/sndio.cpp
index 8477ed1f..2cb577fd 100644
--- a/alc/backends/sndio.cpp
+++ b/alc/backends/sndio.cpp
@@ -47,7 +47,7 @@ namespace {
 constexpr char sndio_device[] = "SndIO Default";
 
 struct SioPar : public sio_par {
-    SioPar() { sio_initpar(this); }
+    SioPar() : sio_par{} { sio_initpar(this); }
 
     void clear() { sio_initpar(this); }
 };
diff --git a/alc/effects/autowah.cpp b/alc/effects/autowah.cpp
index 20c790b6..e9e14e35 100644
--- a/alc/effects/autowah.cpp
+++ b/alc/effects/autowah.cpp
@@ -50,18 +50,18 @@ constexpr float QFactor{5.0f};
 
 struct AutowahState final : public EffectState {
     /* Effect parameters */
-    float mAttackRate;
-    float mReleaseRate;
-    float mResonanceGain;
-    float mPeakGain;
-    float mFreqMinNorm;
-    float mBandwidthNorm;
-    float mEnvDelay;
+    float mAttackRate{};
+    float mReleaseRate{};
+    float mResonanceGain{};
+    float mPeakGain{};
+    float mFreqMinNorm{};
+    float mBandwidthNorm{};
+    float mEnvDelay{};
 
     /* Filter components derived from the envelope. */
     struct FilterParam {
-        float cos_w0;
-        float alpha;
+        float cos_w0{};
+        float alpha{};
     };
     std::array<FilterParam,BufferLineSize> mEnv;
 
@@ -70,17 +70,17 @@ struct AutowahState final : public EffectState {
 
         /* Effect filters' history. */
         struct {
-            float z1, z2;
+            float z1{}, z2{};
         } mFilter;
 
         /* Effect gains for each output channel */
-        float mCurrentGain;
-        float mTargetGain;
+        float mCurrentGain{};
+        float mTargetGain{};
     };
     std::array<ChannelData,MaxAmbiChannels> mChans;
 
     /* Effects buffers */
-    alignas(16) FloatBufferLine mBufferOut;
+    alignas(16) FloatBufferLine mBufferOut{};
 
 
     void deviceUpdate(const DeviceBase *device, const BufferStorage *buffer) override;
diff --git a/alc/effects/chorus.cpp b/alc/effects/chorus.cpp
index d3bcd394..f56c9f2c 100644
--- a/alc/effects/chorus.cpp
+++ b/alc/effects/chorus.cpp
@@ -58,10 +58,10 @@ struct ChorusState final : public EffectState {
     uint mLfoDisp{0};
 
     /* Calculated delays to apply to the left and right outputs. */
-    std::array<std::array<uint,BufferLineSize>,2> mModDelays;
+    std::array<std::array<uint,BufferLineSize>,2> mModDelays{};
 
     /* Temp storage for the modulated left and right outputs. */
-    alignas(16) std::array<FloatBufferLine,2> mBuffer;
+    alignas(16) std::array<FloatBufferLine,2> mBuffer{};
 
     /* Gains for left and right outputs. */
     struct OutGains {
diff --git a/alc/effects/dedicated.cpp b/alc/effects/dedicated.cpp
index 609776ad..a3d4298d 100644
--- a/alc/effects/dedicated.cpp
+++ b/alc/effects/dedicated.cpp
@@ -47,8 +47,8 @@ struct DedicatedState final : public EffectState {
      * gains for all possible output channels and not just the main ambisonic
      * buffer.
      */
-    std::array<float,MaxOutputChannels> mCurrentGains;
-    std::array<float,MaxOutputChannels> mTargetGains;
+    std::array<float,MaxOutputChannels> mCurrentGains{};
+    std::array<float,MaxOutputChannels> mTargetGains{};
 
 
     void deviceUpdate(const DeviceBase *device, const BufferStorage *buffer) override;
diff --git a/alc/effects/echo.cpp b/alc/effects/echo.cpp
index 8def5e71..2f3343e8 100644
--- a/alc/effects/echo.cpp
+++ b/alc/effects/echo.cpp
@@ -66,7 +66,7 @@ struct EchoState final : public EffectState {
     BiquadFilter mFilter;
     float mFeedGain{0.0f};
 
-    alignas(16) std::array<FloatBufferLine,2> mTempBuffer;
+    alignas(16) std::array<FloatBufferLine,2> mTempBuffer{};
 
     void deviceUpdate(const DeviceBase *device, const BufferStorage *buffer) override;
     void update(const ContextBase *context, const EffectSlot *slot, const EffectProps *props,
diff --git a/alc/effects/fshifter.cpp b/alc/effects/fshifter.cpp
index 2add8379..433ebfe4 100644
--- a/alc/effects/fshifter.cpp
+++ b/alc/effects/fshifter.cpp
@@ -57,7 +57,7 @@ constexpr size_t HilStep{HilSize / OversampleFactor};
 
 /* Define a Hann window, used to filter the HIL input and output. */
 struct Windower {
-    alignas(16) std::array<double,HilSize> mData;
+    alignas(16) std::array<double,HilSize> mData{};
 
     Windower()
     {
diff --git a/alc/effects/pshifter.cpp b/alc/effects/pshifter.cpp
index 24171082..9714510f 100644
--- a/alc/effects/pshifter.cpp
+++ b/alc/effects/pshifter.cpp
@@ -58,7 +58,7 @@ constexpr size_t StftStep{StftSize / OversampleFactor};
 
 /* Define a Hann window, used to filter the STFT input and output. */
 struct Windower {
-    alignas(16) std::array<float,StftSize> mData;
+    alignas(16) std::array<float,StftSize> mData{};
 
     Windower()
     {
@@ -82,29 +82,29 @@ struct FrequencyBin {
 
 struct PshifterState final : public EffectState {
     /* Effect parameters */
-    size_t mCount;
-    size_t mPos;
-    uint mPitchShiftI;
-    float mPitchShift;
+    size_t mCount{};
+    size_t mPos{};
+    uint mPitchShiftI{};
+    float mPitchShift{};
 
     /* Effects buffers */
-    std::array<float,StftSize> mFIFO;
-    std::array<float,StftHalfSize+1> mLastPhase;
-    std::array<float,StftHalfSize+1> mSumPhase;
-    std::array<float,StftSize> mOutputAccum;
+    std::array<float,StftSize> mFIFO{};
+    std::array<float,StftHalfSize+1> mLastPhase{};
+    std::array<float,StftHalfSize+1> mSumPhase{};
+    std::array<float,StftSize> mOutputAccum{};
 
     PFFFTSetup mFft;
-    alignas(16) std::array<float,StftSize> mFftBuffer;
-    alignas(16) std::array<float,StftSize> mFftWorkBuffer;
+    alignas(16) std::array<float,StftSize> mFftBuffer{};
+    alignas(16) std::array<float,StftSize> mFftWorkBuffer{};
 
-    std::array<FrequencyBin,StftHalfSize+1> mAnalysisBuffer;
-    std::array<FrequencyBin,StftHalfSize+1> mSynthesisBuffer;
+    std::array<FrequencyBin,StftHalfSize+1> mAnalysisBuffer{};
+    std::array<FrequencyBin,StftHalfSize+1> mSynthesisBuffer{};
 
-    alignas(16) FloatBufferLine mBufferOut;
+    alignas(16) FloatBufferLine mBufferOut{};
 
     /* Effect gains for each output channel */
-    std::array<float,MaxAmbiChannels> mCurrentGains;
-    std::array<float,MaxAmbiChannels> mTargetGains;
+    std::array<float,MaxAmbiChannels> mCurrentGains{};
+    std::array<float,MaxAmbiChannels> mTargetGains{};
 
 
     void deviceUpdate(const DeviceBase *device, const BufferStorage *buffer) override;
diff --git a/alc/effects/reverb.cpp b/alc/effects/reverb.cpp
index 4318fa28..cc5768e2 100644
--- a/alc/effects/reverb.cpp
+++ b/alc/effects/reverb.cpp
@@ -417,12 +417,12 @@ struct Modulation {
     /* The vibrato time is tracked with an index over a (MOD_FRACONE)
      * normalized range.
      */
-    uint Index, Step;
+    uint Index{}, Step{};
 
     /* The depth of frequency change, in samples. */
-    float Depth;
+    float Depth{};
 
-    std::array<float,MAX_UPDATE_SAMPLES> ModDelays;
+    std::array<float,MAX_UPDATE_SAMPLES> ModDelays{};
 
     void updateModulator(float modTime, float modDepth, float frequency);
 
diff --git a/common/alsem.h b/common/alsem.h
index 9f72d1c6..90b39319 100644
--- a/common/alsem.h
+++ b/common/alsem.h
@@ -24,7 +24,7 @@ class semaphore {
 #else
     using native_type = sem_t;
 #endif
-    native_type mSem;
+    native_type mSem{};
 
 public:
     semaphore(unsigned int initial=0);
diff --git a/common/polyphase_resampler.h b/common/polyphase_resampler.h
index 557485bb..764111c9 100644
--- a/common/polyphase_resampler.h
+++ b/common/polyphase_resampler.h
@@ -40,7 +40,7 @@ struct PPhaseResampler {
     explicit operator bool() const noexcept { return !mF.empty(); }
 
 private:
-    uint mP, mQ, mM, mL;
+    uint mP{}, mQ{}, mM{}, mL{};
     std::vector<double> mF;
 };
 
diff --git a/core/bformatdec.h b/core/bformatdec.h
index 35cf20a2..8513db03 100644
--- a/core/bformatdec.h
+++ b/core/bformatdec.h
@@ -25,15 +25,15 @@ class BFormatDec {
     static constexpr size_t sNumBands{2};
 
     struct ChannelDecoderSingle {
-        std::array<float,MaxOutputChannels> mGains;
+        std::array<float,MaxOutputChannels> mGains{};
     };
 
     struct ChannelDecoderDual {
         BandSplitter mXOver;
-        std::array<std::array<float,MaxOutputChannels>,sNumBands> mGains;
+        std::array<std::array<float,MaxOutputChannels>,sNumBands> mGains{};
     };
 
-    alignas(16) std::array<FloatBufferLine,2> mSamples;
+    alignas(16) std::array<FloatBufferLine,2> mSamples{};
 
     const std::unique_ptr<FrontStablizer> mStablizer;
 
diff --git a/core/device.h b/core/device.h
index d85b9254..f02700c6 100644
--- a/core/device.h
+++ b/core/device.h
@@ -237,17 +237,17 @@ struct DeviceBase {
     static constexpr size_t MixerLineSize{BufferLineSize + DecoderBase::sMaxPadding};
     static constexpr size_t MixerChannelsMax{16};
     using MixerBufferLine = std::array<float,MixerLineSize>;
-    alignas(16) std::array<MixerBufferLine,MixerChannelsMax> mSampleData;
-    alignas(16) std::array<float,MixerLineSize+MaxResamplerPadding> mResampleData;
+    alignas(16) std::array<MixerBufferLine,MixerChannelsMax> mSampleData{};
+    alignas(16) std::array<float,MixerLineSize+MaxResamplerPadding> mResampleData{};
 
-    alignas(16) std::array<float,BufferLineSize> FilteredData;
+    alignas(16) std::array<float,BufferLineSize> FilteredData{};
     union {
-        alignas(16) std::array<float,BufferLineSize+HrtfHistoryLength> HrtfSourceData;
+        alignas(16) std::array<float,BufferLineSize+HrtfHistoryLength> HrtfSourceData{};
         alignas(16) std::array<float,BufferLineSize> NfcSampleData;
     };
 
     /* Persistent storage for HRTF mixing. */
-    alignas(16) std::array<float2,BufferLineSize+HrirLength> HrtfAccumData;
+    alignas(16) std::array<float2,BufferLineSize+HrirLength> HrtfAccumData{};
 
     /* Mixing buffer used by the Dry mix and Real output. */
     al::vector<FloatBufferLine, 16> MixBuffer;
diff --git a/core/filters/nfc.h b/core/filters/nfc.h
index 7d0a7488..9c58f863 100644
--- a/core/filters/nfc.h
+++ b/core/filters/nfc.h
@@ -8,24 +8,24 @@
 
 
 struct NfcFilter1 {
-    float base_gain, gain;
-    float b1, a1;
-    std::array<float,1> z;
+    float base_gain{1.0f}, gain{1.0f};
+    float b1{}, a1{};
+    std::array<float,1> z{};
 };
 struct NfcFilter2 {
-    float base_gain, gain;
-    float b1, b2, a1, a2;
-    std::array<float,2> z;
+    float base_gain{1.0f}, gain{1.0f};
+    float b1{}, b2{}, a1{}, a2{};
+    std::array<float,2> z{};
 };
 struct NfcFilter3 {
-    float base_gain, gain;
-    float b1, b2, b3, a1, a2, a3;
-    std::array<float,3> z;
+    float base_gain{1.0f}, gain{1.0f};
+    float b1{}, b2{}, b3{}, a1{}, a2{}, a3{};
+    std::array<float,3> z{};
 };
 struct NfcFilter4 {
-    float base_gain, gain;
-    float b1, b2, b3, b4, a1, a2, a3, a4;
-    std::array<float,4> z;
+    float base_gain{1.0f}, gain{1.0f};
+    float b1{}, b2{}, b3{}, b4{}, a1{}, a2{}, a3{}, a4{};
+    std::array<float,4> z{};
 };
 
 class NfcFilter {
diff --git a/core/hrtf.h b/core/hrtf.h
index e0263493..7a1a8b69 100644
--- a/core/hrtf.h
+++ b/core/hrtf.h
@@ -61,7 +61,7 @@ struct AngularPoint {
 
 
 struct DirectHrtfState {
-    std::array<float,BufferLineSize> mTemp;
+    std::array<float,BufferLineSize> mTemp{};
 
     /* HRTF filter state for dry buffer content */
     uint mIrSize{0};
diff --git a/core/uhjfilter.h b/core/uhjfilter.h
index 58576beb..74ff2167 100644
--- a/core/uhjfilter.h
+++ b/core/uhjfilter.h
@@ -25,7 +25,7 @@ extern UhjQualityType UhjEncodeQuality;
 struct UhjAllPassFilter {
     struct AllPassState {
         /* Last two delayed components for direct form II. */
-        std::array<float,2> z;
+        std::array<float,2> z{};
     };
     std::array<AllPassState,4> mState;
 
diff --git a/core/voice.h b/core/voice.h
index 2ecc8148..aaf1c5fd 100644
--- a/core/voice.h
+++ b/core/voice.h
@@ -66,14 +66,14 @@ struct DirectParams {
     NfcFilter NFCtrlFilter;
 
     struct {
-        HrtfFilter Old;
-        HrtfFilter Target;
-        alignas(16) std::array<float,HrtfHistoryLength> History;
+        HrtfFilter Old{};
+        HrtfFilter Target{};
+        alignas(16) std::array<float,HrtfHistoryLength> History{};
     } Hrtf;
 
     struct {
-        std::array<float,MaxOutputChannels> Current;
-        std::array<float,MaxOutputChannels> Target;
+        std::array<float,MaxOutputChannels> Current{};
+        std::array<float,MaxOutputChannels> Target{};
     } Gains;
 };
 
@@ -82,8 +82,8 @@ struct SendParams {
     BiquadFilter HighPass;
 
     struct {
-        std::array<float,MaxAmbiChannels> Current;
-        std::array<float,MaxAmbiChannels> Target;
+        std::array<float,MaxAmbiChannels> Current{};
+        std::array<float,MaxAmbiChannels> Target{};
     } Gains;
 };
 
@@ -184,7 +184,7 @@ struct Voice {
 
     std::atomic<VoicePropsItem*> mUpdate{nullptr};
 
-    VoiceProps mProps;
+    VoiceProps mProps{};
 
     std::atomic<uint> mSourceID{0u};
     std::atomic<State> mPlayState{Stopped};
@@ -194,30 +194,30 @@ struct Voice {
      * Source offset in samples, relative to the currently playing buffer, NOT
      * the whole queue.
      */
-    std::atomic<int> mPosition;
+    std::atomic<int> mPosition{};
     /** Fractional (fixed-point) offset to the next sample. */
-    std::atomic<uint> mPositionFrac;
+    std::atomic<uint> mPositionFrac{};
 
     /* Current buffer queue item being played. */
-    std::atomic<VoiceBufferItem*> mCurrentBuffer;
+    std::atomic<VoiceBufferItem*> mCurrentBuffer{};
 
     /* Buffer queue item to loop to at end of queue (will be NULL for non-
      * looping voices).
      */
-    std::atomic<VoiceBufferItem*> mLoopBuffer;
+    std::atomic<VoiceBufferItem*> mLoopBuffer{};
 
     std::chrono::nanoseconds mStartTime{};
 
     /* Properties for the attached buffer(s). */
-    FmtChannels mFmtChannels;
-    FmtType mFmtType;
-    uint mFrequency;
-    uint mFrameStep; /**< In steps of the sample type size. */
-    uint mBytesPerBlock; /**< Or for PCM formats, BytesPerFrame. */
-    uint mSamplesPerBlock; /**< Always 1 for PCM formats. */
-    AmbiLayout mAmbiLayout;
-    AmbiScaling mAmbiScaling;
-    uint mAmbiOrder;
+    FmtChannels mFmtChannels{};
+    FmtType mFmtType{};
+    uint mFrequency{};
+    uint mFrameStep{}; /**< In steps of the sample type size. */
+    uint mBytesPerBlock{}; /**< Or for PCM formats, BytesPerFrame. */
+    uint mSamplesPerBlock{}; /**< Always 1 for PCM formats. */
+    AmbiLayout mAmbiLayout{};
+    AmbiScaling mAmbiScaling{};
+    uint mAmbiOrder{};
 
     std::unique_ptr<DecoderBase> mDecoder;
     uint mDecoderPadding{};
@@ -225,16 +225,16 @@ struct Voice {
     /** Current target parameters used for mixing. */
     uint mStep{0};
 
-    ResamplerFunc mResampler;
+    ResamplerFunc mResampler{};
 
-    InterpState mResampleState;
+    InterpState mResampleState{};
 
     std::bitset<VoiceFlagCount> mFlags{};
     uint mNumCallbackBlocks{0};
     uint mCallbackBlockBase{0};
 
     struct TargetData {
-        int FilterType;
+        int FilterType{};
         al::span<FloatBufferLine> Buffer;
     };
     TargetData mDirect;
@@ -249,7 +249,7 @@ struct Voice {
     al::vector<HistoryLine,16> mPrevSamples{2};
 
     struct ChannelData {
-        float mAmbiHFScale, mAmbiLFScale;
+        float mAmbiHFScale{}, mAmbiLFScale{};
         BandSplitter mAmbiSplitter;
 
         DirectParams mDryParams;
diff --git a/examples/alffplay.cpp b/examples/alffplay.cpp
index 347d0b14..7a4b7aac 100644
--- a/examples/alffplay.cpp
+++ b/examples/alffplay.cpp
@@ -322,7 +322,7 @@ struct AudioState {
 
     std::mutex mSrcMutex;
     std::condition_variable mSrcCond;
-    std::atomic_flag mConnected;
+    std::atomic_flag mConnected{};
     ALuint mSource{0};
     std::array<ALuint,AudioBufferCount> mBuffers{};
     ALuint mBufferIdx{0};
diff --git a/examples/alstreamcb.cpp b/examples/alstreamcb.cpp
index 95f89bbe..1721d367 100644
--- a/examples/alstreamcb.cpp
+++ b/examples/alstreamcb.cpp
@@ -79,7 +79,7 @@ struct StreamPlayer {
     size_t mDecoderOffset{0};
 
     /* The format of the callback samples. */
-    ALenum mFormat;
+    ALenum mFormat{};
 
     StreamPlayer()
     {
diff --git a/utils/makemhr/makemhr.cpp b/utils/makemhr/makemhr.cpp
index 80e217ee..014b2967 100644
--- a/utils/makemhr/makemhr.cpp
+++ b/utils/makemhr/makemhr.cpp
@@ -871,10 +871,10 @@ static void SynthesizeHrirs(HrirDataT *hData)
  */
 struct HrirReconstructor {
     std::vector<double*> mIrs;
-    std::atomic<size_t> mCurrent;
-    std::atomic<size_t> mDone;
-    uint mFftSize;
-    uint mIrPoints;
+    std::atomic<size_t> mCurrent{};
+    std::atomic<size_t> mDone{};
+    uint mFftSize{};
+    uint mIrPoints{};
 
     void Worker()
     {
-- 
cgit v1.2.3


From 4720b2c64d91facea24e8411c104770bd3763afa Mon Sep 17 00:00:00 2001
From: Chris Robinson <chris.kcat@gmail.com>
Date: Sat, 23 Dec 2023 03:07:57 -0800
Subject: Fix implicit widening after multiplication

---
 alc/backends/oss.cpp       |  2 +-
 alc/backends/pipewire.cpp  |  2 +-
 alc/backends/sndio.cpp     |  4 ++--
 core/converter.cpp         | 14 +++++++-------
 core/hrtf.cpp              |  2 +-
 core/mastering.h           |  3 ++-
 core/mixer/mixer_c.cpp     |  6 +++---
 core/mixer/mixer_neon.cpp  |  6 +++---
 core/mixer/mixer_sse.cpp   |  6 +++---
 core/voice.cpp             | 10 +++++-----
 examples/alffplay.cpp      | 16 ++++++++--------
 examples/alstream.c        | 12 ++++++------
 utils/makemhr/loaddef.cpp  | 21 +++++++++++----------
 utils/makemhr/loadsofa.cpp | 19 ++++++++++---------
 utils/makemhr/makemhr.cpp  | 39 +++++++++++++++++++--------------------
 utils/uhjdecoder.cpp       |  6 +++---
 utils/uhjencoder.cpp       | 10 +++++-----
 17 files changed, 90 insertions(+), 88 deletions(-)

(limited to 'utils/makemhr')

diff --git a/alc/backends/oss.cpp b/alc/backends/oss.cpp
index 9a4aa9a8..50bed5ee 100644
--- a/alc/backends/oss.cpp
+++ b/alc/backends/oss.cpp
@@ -409,7 +409,7 @@ bool OSSPlayback::reset()
 
     setDefaultChannelOrder();
 
-    mMixData.resize(mDevice->UpdateSize * mDevice->frameSizeFromFmt());
+    mMixData.resize(size_t{mDevice->UpdateSize} * mDevice->frameSizeFromFmt());
 
     return true;
 }
diff --git a/alc/backends/pipewire.cpp b/alc/backends/pipewire.cpp
index 7b206d2d..44b84296 100644
--- a/alc/backends/pipewire.cpp
+++ b/alc/backends/pipewire.cpp
@@ -1771,7 +1771,7 @@ void PipeWirePlayback::start()
 
             mDevice->UpdateSize = updatesize;
             mDevice->BufferSize = static_cast<uint>(ptime.buffered + delay +
-                totalbuffers*updatesize);
+                uint64_t{totalbuffers}*updatesize);
             break;
         }
 #else
diff --git a/alc/backends/sndio.cpp b/alc/backends/sndio.cpp
index 2cb577fd..0e667874 100644
--- a/alc/backends/sndio.cpp
+++ b/alc/backends/sndio.cpp
@@ -228,7 +228,7 @@ retry_params:
     mDevice->UpdateSize = par.round;
     mDevice->BufferSize = par.bufsz + par.round;
 
-    mBuffer.resize(mDevice->UpdateSize * par.pchan*par.bps);
+    mBuffer.resize(size_t{mDevice->UpdateSize} * par.pchan*par.bps);
     if(par.sig == 1)
         std::fill(mBuffer.begin(), mBuffer.end(), std::byte{});
     else if(par.bits == 8)
@@ -458,7 +458,7 @@ void SndioCapture::open(std::string_view name)
             DevFmtTypeString(mDevice->FmtType), DevFmtChannelsString(mDevice->FmtChans),
             mDevice->Frequency, par.sig?'s':'u', par.bps*8, par.rchan, par.rate};
 
-    mRing = RingBuffer::Create(mDevice->BufferSize, par.bps*par.rchan, false);
+    mRing = RingBuffer::Create(mDevice->BufferSize, size_t{par.bps}*par.rchan, false);
     mDevice->BufferSize = static_cast<uint>(mRing->writeSpace());
     mDevice->UpdateSize = par.round;
 
diff --git a/core/converter.cpp b/core/converter.cpp
index b3ff5b0a..805b8548 100644
--- a/core/converter.cpp
+++ b/core/converter.cpp
@@ -213,8 +213,8 @@ uint SampleConverter::availableOut(uint srcframes) const
 
 uint SampleConverter::convert(const void **src, uint *srcframes, void *dst, uint dstframes)
 {
-    const uint SrcFrameSize{static_cast<uint>(mChan.size()) * mSrcTypeSize};
-    const uint DstFrameSize{static_cast<uint>(mChan.size()) * mDstTypeSize};
+    const size_t SrcFrameSize{mChan.size() * mSrcTypeSize};
+    const size_t DstFrameSize{mChan.size() * mDstTypeSize};
     const uint increment{mIncrement};
     auto SamplesIn = static_cast<const std::byte*>(*src);
     uint NumSrcSamples{*srcframes};
@@ -325,9 +325,9 @@ uint SampleConverter::convertPlanar(const void **src, uint *srcframes, void *con
              */
             for(size_t chan{0u};chan < mChan.size();chan++)
             {
-                LoadSamples(&mChan[chan].PrevSamples[prepcount],
-                    static_cast<const std::byte*>(src[chan]), 1, mSrcType, readable);
-                src[chan] = static_cast<const std::byte*>(src[chan]) + mSrcTypeSize*readable;
+                auto *samples = static_cast<const std::byte*>(src[chan]);
+                LoadSamples(&mChan[chan].PrevSamples[prepcount], samples, 1, mSrcType, readable);
+                src[chan] = samples + size_t{mSrcTypeSize}*readable;
             }
 
             mSrcPrepCount = prepcount + readable;
@@ -374,7 +374,7 @@ uint SampleConverter::convertPlanar(const void **src, uint *srcframes, void *con
             mResample(&mState, SrcData+MaxResamplerEdge, DataPosFrac, increment,
                 {DstData, DstSize});
 
-            std::byte *DstSamples = static_cast<std::byte*>(dst[chan]) + pos*mDstTypeSize;
+            auto *DstSamples = static_cast<std::byte*>(dst[chan]) + pos*size_t{mDstTypeSize};
             StoreSamples(DstSamples, DstData, 1, mDstType, DstSize);
         }
 
@@ -387,7 +387,7 @@ uint SampleConverter::convertPlanar(const void **src, uint *srcframes, void *con
         /* Update the src and dst pointers in case there's still more to do. */
         const uint srcread{minu(NumSrcSamples, SrcDataEnd + mSrcPrepCount - prepcount)};
         for(size_t chan{0u};chan < mChan.size();chan++)
-            src[chan] = static_cast<const std::byte*>(src[chan]) + mSrcTypeSize*srcread;
+            src[chan] = static_cast<const std::byte*>(src[chan]) + size_t{mSrcTypeSize}*srcread;
         NumSrcSamples -= srcread;
 
         pos += DstSize;
diff --git a/core/hrtf.cpp b/core/hrtf.cpp
index a3faee49..8fc4030e 100644
--- a/core/hrtf.cpp
+++ b/core/hrtf.cpp
@@ -270,7 +270,7 @@ void HrtfStore::getCoeffs(float elevation, float azimuth, float distance, float
         const float mult{blend[c]};
         auto blend_coeffs = [mult](const float src, const float coeff) noexcept -> float
         { return src*mult + coeff; };
-        std::transform(srccoeffs, srccoeffs + HrirLength*2, coeffout, coeffout, blend_coeffs);
+        std::transform(srccoeffs, srccoeffs + HrirLength*2_uz, coeffout, coeffout, blend_coeffs);
     }
 }
 
diff --git a/core/mastering.h b/core/mastering.h
index 08f3678e..8baea601 100644
--- a/core/mastering.h
+++ b/core/mastering.h
@@ -5,6 +5,7 @@
 #include <memory>
 
 #include "almalloc.h"
+#include "alnumeric.h"
 #include "bufferline.h"
 
 struct SlidingHold;
@@ -45,7 +46,7 @@ struct Compressor {
     float mAttack{0.0f};
     float mRelease{0.0f};
 
-    alignas(16) std::array<float,2*BufferLineSize> mSideChain{};
+    alignas(16) std::array<float,BufferLineSize*2_uz> mSideChain{};
     alignas(16) std::array<float,BufferLineSize> mCrestFactor{};
 
     SlidingHold *mHold{nullptr};
diff --git a/core/mixer/mixer_c.cpp b/core/mixer/mixer_c.cpp
index 971297a4..93306bba 100644
--- a/core/mixer/mixer_c.cpp
+++ b/core/mixer/mixer_c.cpp
@@ -54,9 +54,9 @@ inline float do_bsinc(const BsincState &istate, const float *RESTRICT vals, cons
     const uint pi{frac >> BsincPhaseDiffBits};
     const float pf{static_cast<float>(frac&BsincPhaseDiffMask) * (1.0f/BsincPhaseDiffOne)};
 
-    const float *RESTRICT fil{istate.filter + m*pi*2};
+    const float *RESTRICT fil{istate.filter + m*pi*2_uz};
     const float *RESTRICT phd{fil + m};
-    const float *RESTRICT scd{fil + BSincPhaseCount*2*m};
+    const float *RESTRICT scd{fil + BSincPhaseCount*2_uz*m};
     const float *RESTRICT spd{scd + m};
 
     /* Apply the scale and phase interpolated filter. */
@@ -74,7 +74,7 @@ inline float do_fastbsinc(const BsincState &istate, const float *RESTRICT vals,
     const uint pi{frac >> BsincPhaseDiffBits};
     const float pf{static_cast<float>(frac&BsincPhaseDiffMask) * (1.0f/BsincPhaseDiffOne)};
 
-    const float *RESTRICT fil{istate.filter + m*pi*2};
+    const float *RESTRICT fil{istate.filter + m*pi*2_uz};
     const float *RESTRICT phd{fil + m};
 
     /* Apply the phase interpolated filter. */
diff --git a/core/mixer/mixer_neon.cpp b/core/mixer/mixer_neon.cpp
index 59369215..9fa2425f 100644
--- a/core/mixer/mixer_neon.cpp
+++ b/core/mixer/mixer_neon.cpp
@@ -244,9 +244,9 @@ void Resample_<BSincTag,NEONTag>(const InterpState *state, const float *RESTRICT
         float32x4_t r4{vdupq_n_f32(0.0f)};
         {
             const float32x4_t pf4{vdupq_n_f32(pf)};
-            const float *RESTRICT fil{filter + m*pi*2};
+            const float *RESTRICT fil{filter + m*pi*2_uz};
             const float *RESTRICT phd{fil + m};
-            const float *RESTRICT scd{fil + BSincPhaseCount*2*m};
+            const float *RESTRICT scd{fil + BSincPhaseCount*2_uz*m};
             const float *RESTRICT spd{scd + m};
             size_t td{m >> 2};
             size_t j{0u};
@@ -291,7 +291,7 @@ void Resample_<FastBSincTag,NEONTag>(const InterpState *state, const float *REST
         float32x4_t r4{vdupq_n_f32(0.0f)};
         {
             const float32x4_t pf4{vdupq_n_f32(pf)};
-            const float *RESTRICT fil{filter + m*pi*2};
+            const float *RESTRICT fil{filter + m*pi*2_uz};
             const float *RESTRICT phd{fil + m};
             size_t td{m >> 2};
             size_t j{0u};
diff --git a/core/mixer/mixer_sse.cpp b/core/mixer/mixer_sse.cpp
index 731ed884..809d585d 100644
--- a/core/mixer/mixer_sse.cpp
+++ b/core/mixer/mixer_sse.cpp
@@ -208,9 +208,9 @@ void Resample_<BSincTag,SSETag>(const InterpState *state, const float *RESTRICT
         __m128 r4{_mm_setzero_ps()};
         {
             const __m128 pf4{_mm_set1_ps(pf)};
-            const float *RESTRICT fil{filter + m*pi*2};
+            const float *RESTRICT fil{filter + m*pi*2_uz};
             const float *RESTRICT phd{fil + m};
-            const float *RESTRICT scd{fil + BSincPhaseCount*2*m};
+            const float *RESTRICT scd{fil + BSincPhaseCount*2_uz*m};
             const float *RESTRICT spd{scd + m};
             size_t td{m >> 2};
             size_t j{0u};
@@ -256,7 +256,7 @@ void Resample_<FastBSincTag,SSETag>(const InterpState *state, const float *RESTR
         __m128 r4{_mm_setzero_ps()};
         {
             const __m128 pf4{_mm_set1_ps(pf)};
-            const float *RESTRICT fil{filter + m*pi*2};
+            const float *RESTRICT fil{filter + m*pi*2_uz};
             const float *RESTRICT phd{fil + m};
             size_t td{m >> 2};
             size_t j{0u};
diff --git a/core/voice.cpp b/core/voice.cpp
index 1272b202..4a30ee83 100644
--- a/core/voice.cpp
+++ b/core/voice.cpp
@@ -904,8 +904,8 @@ void Voice::mix(const State vstate, ContextBase *Context, const nanoseconds devi
                     const size_t needBlocks{(needSamples + mSamplesPerBlock-1) / mSamplesPerBlock};
                     if(!mFlags.test(VoiceCallbackStopped) && needBlocks > mNumCallbackBlocks)
                     {
-                        const size_t byteOffset{mNumCallbackBlocks*mBytesPerBlock};
-                        const size_t needBytes{(needBlocks-mNumCallbackBlocks)*mBytesPerBlock};
+                        const size_t byteOffset{mNumCallbackBlocks*size_t{mBytesPerBlock}};
+                        const size_t needBytes{(needBlocks-mNumCallbackBlocks)*size_t{mBytesPerBlock}};
 
                         const int gotBytes{BufferListItem->mCallback(BufferListItem->mUserData,
                             &BufferListItem->mSamples[byteOffset], static_cast<int>(needBytes))};
@@ -919,7 +919,7 @@ void Voice::mix(const State vstate, ContextBase *Context, const nanoseconds devi
                         else
                             mNumCallbackBlocks = static_cast<uint>(needBlocks);
                     }
-                    const size_t numSamples{uint{mNumCallbackBlocks} * mSamplesPerBlock};
+                    const size_t numSamples{size_t{mNumCallbackBlocks} * mSamplesPerBlock};
                     LoadBufferCallback(BufferListItem, bufferOffset, numSamples, mFmtType, chan,
                         mFrameStep, srcSampleDelay, srcBufferSize, al::to_address(resampleBuffer));
                 }
@@ -1099,8 +1099,8 @@ void Voice::mix(const State vstate, ContextBase *Context, const nanoseconds devi
             const uint blocksDone{currentBlock - mCallbackBlockBase};
             if(blocksDone < mNumCallbackBlocks)
             {
-                const size_t byteOffset{blocksDone*mBytesPerBlock};
-                const size_t byteEnd{mNumCallbackBlocks*mBytesPerBlock};
+                const size_t byteOffset{blocksDone*size_t{mBytesPerBlock}};
+                const size_t byteEnd{mNumCallbackBlocks*size_t{mBytesPerBlock}};
                 std::byte *data{BufferListItem->mSamples};
                 std::copy(data+byteOffset, data+byteEnd, data);
                 mNumCallbackBlocks -= blocksDone;
diff --git a/examples/alffplay.cpp b/examples/alffplay.cpp
index 7a4b7aac..890ecedb 100644
--- a/examples/alffplay.cpp
+++ b/examples/alffplay.cpp
@@ -285,7 +285,7 @@ struct AudioState {
     AVStream *mStream{nullptr};
     AVCodecCtxPtr mCodecCtx;
 
-    DataQueue<2*1024*1024> mQueue;
+    DataQueue<size_t{2}*1024*1024> mQueue;
 
     /* Used for clock difference average computation */
     seconds_d64 mClockDiffAvg{0};
@@ -372,7 +372,7 @@ struct VideoState {
     AVStream *mStream{nullptr};
     AVCodecCtxPtr mCodecCtx;
 
-    DataQueue<14*1024*1024> mQueue;
+    DataQueue<size_t{14}*1024*1024> mQueue;
 
     /* The pts of the currently displayed frame, and the time (av_gettime) it
      * was last updated - used to have running video pts
@@ -738,8 +738,8 @@ bool AudioState::readAudio(uint8_t *samples, unsigned int length, int &sample_sk
         {
             const auto len = static_cast<unsigned int>(mSamplesLen - mSamplesPos);
             if(rem > len) rem = len;
-            std::copy_n(mSamples + static_cast<unsigned int>(mSamplesPos)*mFrameSize,
-                rem*mFrameSize, samples);
+            std::copy_n(mSamples + static_cast<unsigned int>(mSamplesPos)*size_t{mFrameSize},
+                rem*size_t{mFrameSize}, samples);
         }
         else
         {
@@ -751,7 +751,7 @@ bool AudioState::readAudio(uint8_t *samples, unsigned int length, int &sample_sk
 
         mSamplesPos += static_cast<int>(rem);
         mCurrentPts += nanoseconds{seconds{rem}} / mCodecCtx->sample_rate;
-        samples += rem*mFrameSize;
+        samples += rem*size_t{mFrameSize};
         audio_size += rem;
 
         while(mSamplesPos >= mSamplesLen)
@@ -1165,7 +1165,7 @@ int AudioState::handler()
              * ordering and normalization, so a custom matrix is needed to
              * scale and reorder the source from AmbiX.
              */
-            std::vector<double> mtx(64*64, 0.0);
+            std::vector<double> mtx(size_t{64}*64, 0.0);
             mtx[0 + 0*64] = std::sqrt(0.5);
             mtx[3 + 1*64] = 1.0;
             mtx[1 + 2*64] = 1.0;
@@ -1546,8 +1546,8 @@ void VideoState::updateVideo(SDL_Window *screen, SDL_Renderer *renderer, bool re
                 /* point pict at the queue */
                 std::array<uint8_t*,3> pict_data;
                 pict_data[0] = static_cast<uint8_t*>(pixels);
-                pict_data[1] = pict_data[0] + w*h;
-                pict_data[2] = pict_data[1] + w*h/4;
+                pict_data[1] = pict_data[0] + ptrdiff_t{w}*h;
+                pict_data[2] = pict_data[1] + ptrdiff_t{w}*h/4;
 
                 std::array pict_linesize{pitch, pitch/2, pitch/2};
 
diff --git a/examples/alstream.c b/examples/alstream.c
index 5cbbc2a7..c781f3d7 100644
--- a/examples/alstream.c
+++ b/examples/alstream.c
@@ -338,21 +338,21 @@ static int StartPlayer(StreamPlayer *player)
         if(player->sample_type == Int16)
         {
             slen = sf_readf_short(player->sndfile, player->membuf,
-                player->block_count * player->sampleblockalign);
+                (sf_count_t)player->block_count * player->sampleblockalign);
             if(slen < 1) break;
             slen *= player->byteblockalign;
         }
         else if(player->sample_type == Float)
         {
             slen = sf_readf_float(player->sndfile, player->membuf,
-                player->block_count * player->sampleblockalign);
+                (sf_count_t)player->block_count * player->sampleblockalign);
             if(slen < 1) break;
             slen *= player->byteblockalign;
         }
         else
         {
             slen = sf_read_raw(player->sndfile, player->membuf,
-                player->block_count * player->byteblockalign);
+                (sf_count_t)player->block_count * player->byteblockalign);
             if(slen > 0) slen -= slen%player->byteblockalign;
             if(slen < 1) break;
         }
@@ -409,19 +409,19 @@ static int UpdatePlayer(StreamPlayer *player)
         if(player->sample_type == Int16)
         {
             slen = sf_readf_short(player->sndfile, player->membuf,
-                player->block_count * player->sampleblockalign);
+                (sf_count_t)player->block_count * player->sampleblockalign);
             if(slen > 0) slen *= player->byteblockalign;
         }
         else if(player->sample_type == Float)
         {
             slen = sf_readf_float(player->sndfile, player->membuf,
-                player->block_count * player->sampleblockalign);
+                (sf_count_t)player->block_count * player->sampleblockalign);
             if(slen > 0) slen *= player->byteblockalign;
         }
         else
         {
             slen = sf_read_raw(player->sndfile, player->membuf,
-                player->block_count * player->byteblockalign);
+                (sf_count_t)player->block_count * player->byteblockalign);
             if(slen > 0) slen -= slen%player->byteblockalign;
         }
 
diff --git a/utils/makemhr/loaddef.cpp b/utils/makemhr/loaddef.cpp
index 04489173..b33dbc75 100644
--- a/utils/makemhr/loaddef.cpp
+++ b/utils/makemhr/loaddef.cpp
@@ -38,6 +38,7 @@
 
 #include "albit.h"
 #include "alfstream.h"
+#include "alnumeric.h"
 #include "alspan.h"
 #include "alstring.h"
 #include "makemhr.h"
@@ -1153,7 +1154,7 @@ static int LoadSofaSource(SourceRefT *src, const uint hrirRate, const uint n, do
         return 0;
     }
 
-    al::span<float,3> coords{&sofa->hrtf->SourcePosition.values[3 * nearest], 3};
+    al::span<float,3> coords{&sofa->hrtf->SourcePosition.values[3_z * nearest], 3};
     if(std::abs(coords[0] - target[0]) > 0.001 || std::abs(coords[1] - target[1]) > 0.001
         || std::abs(coords[2] - target[2]) > 0.001)
     {
@@ -1745,12 +1746,12 @@ static void AverageHrirMagnitude(const uint points, const uint n, const double *
 static int ProcessSources(TokenReaderT *tr, HrirDataT *hData, const uint outRate)
 {
     const uint channels{(hData->mChannelType == CT_STEREO) ? 2u : 1u};
-    hData->mHrirsBase.resize(channels * hData->mIrCount * hData->mIrSize);
+    hData->mHrirsBase.resize(size_t{channels} * hData->mIrCount * hData->mIrSize);
     double *hrirs = hData->mHrirsBase.data();
     auto hrir = std::vector<double>(hData->mIrSize);
     uint line, col, fi, ei, ai;
 
-    std::vector<double> onsetSamples(OnsetRateMultiple * hData->mIrPoints);
+    std::vector<double> onsetSamples(size_t{OnsetRateMultiple} * hData->mIrPoints);
     PPhaseResampler onsetResampler;
     onsetResampler.init(hData->mIrRate, OnsetRateMultiple*hData->mIrRate);
 
@@ -1828,9 +1829,9 @@ static int ProcessSources(TokenReaderT *tr, HrirDataT *hData, const uint outRate
                 fflush(stdout);
 
                 std::array aer{
-                    sofa->hrtf->SourcePosition.values[3*si],
-                    sofa->hrtf->SourcePosition.values[3*si + 1],
-                    sofa->hrtf->SourcePosition.values[3*si + 2]
+                    sofa->hrtf->SourcePosition.values[3_uz*si],
+                    sofa->hrtf->SourcePosition.values[3_uz*si + 1],
+                    sofa->hrtf->SourcePosition.values[3_uz*si + 2]
                 };
                 mysofa_c2s(aer.data());
 
@@ -1869,7 +1870,7 @@ static int ProcessSources(TokenReaderT *tr, HrirDataT *hData, const uint outRate
                 }
 
                 ExtractSofaHrir(sofa, si, 0, src.mOffset, hData->mIrPoints, hrir.data());
-                azd->mIrs[0] = &hrirs[hData->mIrSize * azd->mIndex];
+                azd->mIrs[0] = &hrirs[size_t{hData->mIrSize} * azd->mIndex];
                 azd->mDelays[0] = AverageHrirOnset(onsetResampler, onsetSamples, hData->mIrRate,
                     hData->mIrPoints, hrir.data(), 1.0, azd->mDelays[0]);
                 if(resampler)
@@ -1879,7 +1880,7 @@ static int ProcessSources(TokenReaderT *tr, HrirDataT *hData, const uint outRate
                 if(src.mChannel == 1)
                 {
                     ExtractSofaHrir(sofa, si, 1, src.mOffset, hData->mIrPoints, hrir.data());
-                    azd->mIrs[1] = &hrirs[hData->mIrSize * (hData->mIrCount + azd->mIndex)];
+                    azd->mIrs[1] = &hrirs[hData->mIrSize * (size_t{hData->mIrCount}+azd->mIndex)];
                     azd->mDelays[1] = AverageHrirOnset(onsetResampler, onsetSamples,
                         hData->mIrRate, hData->mIrPoints, hrir.data(), 1.0, azd->mDelays[1]);
                     if(resampler)
@@ -1940,7 +1941,7 @@ static int ProcessSources(TokenReaderT *tr, HrirDataT *hData, const uint outRate
                     return 0;
                 }
             }
-            azd->mIrs[ti] = &hrirs[hData->mIrSize * (ti * hData->mIrCount + azd->mIndex)];
+            azd->mIrs[ti] = &hrirs[hData->mIrSize * (ti*size_t{hData->mIrCount} + azd->mIndex)];
             azd->mDelays[ti] = AverageHrirOnset(onsetResampler, onsetSamples, hData->mIrRate,
                 hData->mIrPoints, hrir.data(), 1.0 / factor[ti], azd->mDelays[ti]);
             if(resampler)
@@ -2017,7 +2018,7 @@ static int ProcessSources(TokenReaderT *tr, HrirDataT *hData, const uint outRate
                 {
                     HrirAzT *azd = &hData->mFds[fi].mEvs[ei].mAzs[ai];
 
-                    azd->mIrs[ti] = &hrirs[hData->mIrSize * (ti * hData->mIrCount + azd->mIndex)];
+                    azd->mIrs[ti] = &hrirs[hData->mIrSize * (ti*size_t{hData->mIrCount} + azd->mIndex)];
                 }
             }
         }
diff --git a/utils/makemhr/loadsofa.cpp b/utils/makemhr/loadsofa.cpp
index eaddd31b..c29cb45c 100644
--- a/utils/makemhr/loadsofa.cpp
+++ b/utils/makemhr/loadsofa.cpp
@@ -39,6 +39,7 @@
 #include <vector>
 
 #include "alspan.h"
+#include "alnumeric.h"
 #include "makemhr.h"
 #include "polyphase_resampler.h"
 #include "sofa-support.h"
@@ -261,7 +262,7 @@ static bool LoadResponses(MYSOFA_HRTF *sofaHrtf, HrirDataT *hData, const DelayTy
     auto load_proc = [sofaHrtf,hData,delayType,outRate,&loaded_count]() -> bool
     {
         const uint channels{(hData->mChannelType == CT_STEREO) ? 2u : 1u};
-        hData->mHrirsBase.resize(channels * hData->mIrCount * hData->mIrSize, 0.0);
+        hData->mHrirsBase.resize(channels * size_t{hData->mIrCount} * hData->mIrSize, 0.0);
         double *hrirs = hData->mHrirsBase.data();
 
         std::vector<double> restmp;
@@ -277,9 +278,9 @@ static bool LoadResponses(MYSOFA_HRTF *sofaHrtf, HrirDataT *hData, const DelayTy
             loaded_count.fetch_add(1u);
 
             std::array aer{
-                sofaHrtf->SourcePosition.values[3*si],
-                sofaHrtf->SourcePosition.values[3*si + 1],
-                sofaHrtf->SourcePosition.values[3*si + 2]
+                sofaHrtf->SourcePosition.values[3_uz*si],
+                sofaHrtf->SourcePosition.values[3_uz*si + 1],
+                sofaHrtf->SourcePosition.values[3_uz*si + 2]
             };
             mysofa_c2s(aer.data());
 
@@ -317,13 +318,13 @@ static bool LoadResponses(MYSOFA_HRTF *sofaHrtf, HrirDataT *hData, const DelayTy
 
             for(uint ti{0u};ti < channels;++ti)
             {
-                azd->mIrs[ti] = &hrirs[hData->mIrSize * (hData->mIrCount*ti + azd->mIndex)];
+                azd->mIrs[ti] = &hrirs[(size_t{hData->mIrCount}*ti + azd->mIndex)*hData->mIrSize];
                 if(!resampler)
-                    std::copy_n(&sofaHrtf->DataIR.values[(si*sofaHrtf->R + ti)*sofaHrtf->N],
+                    std::copy_n(&sofaHrtf->DataIR.values[(size_t{si}*sofaHrtf->R + ti)*sofaHrtf->N],
                         sofaHrtf->N, azd->mIrs[ti]);
                 else
                 {
-                    std::copy_n(&sofaHrtf->DataIR.values[(si*sofaHrtf->R + ti)*sofaHrtf->N],
+                    std::copy_n(&sofaHrtf->DataIR.values[(size_t{si}*sofaHrtf->R + ti)*sofaHrtf->N],
                         sofaHrtf->N, restmp.data());
                     resampler->process(sofaHrtf->N, restmp.data(), hData->mIrSize, azd->mIrs[ti]);
                 }
@@ -520,7 +521,7 @@ bool LoadSofaFile(const char *filename, const uint numThreads, const uint fftSiz
             for(uint ai{0u};ai < hData->mFds[fi].mEvs[ei].mAzs.size();ai++)
             {
                 HrirAzT &azd = hData->mFds[fi].mEvs[ei].mAzs[ai];
-                for(uint ti{0u};ti < channels;ti++)
+                for(size_t ti{0u};ti < channels;ti++)
                     azd.mIrs[ti] = &hrirs[hData->mIrSize * (hData->mIrCount*ti + azd.mIndex)];
             }
         }
@@ -533,7 +534,7 @@ bool LoadSofaFile(const char *filename, const uint numThreads, const uint fftSiz
     auto onset_proc = [hData,channels,&hrir_done]() -> bool
     {
         /* Temporary buffer used to calculate the IR's onset. */
-        auto upsampled = std::vector<double>(OnsetRateMultiple * hData->mIrPoints);
+        auto upsampled = std::vector<double>(size_t{OnsetRateMultiple} * hData->mIrPoints);
         /* This resampler is used to help detect the response onset. */
         PPhaseResampler rs;
         rs.init(hData->mIrRate, OnsetRateMultiple*hData->mIrRate);
diff --git a/utils/makemhr/makemhr.cpp b/utils/makemhr/makemhr.cpp
index 014b2967..2b6d04ce 100644
--- a/utils/makemhr/makemhr.cpp
+++ b/utils/makemhr/makemhr.cpp
@@ -91,6 +91,7 @@
 #include "alcomplex.h"
 #include "alfstream.h"
 #include "alnumbers.h"
+#include "alnumeric.h"
 #include "alspan.h"
 #include "alstring.h"
 #include "loaddef.h"
@@ -383,7 +384,7 @@ static int StoreMhr(const HrirDataT *hData, const char *filename)
             for(ai = 0;ai < hData->mFds[fi].mEvs[ei].mAzs.size();ai++)
             {
                 HrirAzT *azd = &hData->mFds[fi].mEvs[ei].mAzs[ai];
-                std::array<double,2*MaxTruncSize> out{};
+                std::array<double,MaxTruncSize*2_uz> out{};
 
                 TpdfDither(out.data(), azd->mIrs[0], scale, n, channels, &dither_seed);
                 if(hData->mChannelType == CT_STEREO)
@@ -532,7 +533,7 @@ static void CalculateDiffuseFieldAverage(const HrirDataT *hData, const uint chan
     const int weighted, const double limit, double *dfa)
 {
     std::vector<double> weights(hData->mFds.size() * MAX_EV_COUNT);
-    uint count, ti, fi, ei, i, ai;
+    uint count;
 
     if(weighted)
     {
@@ -546,41 +547,41 @@ static void CalculateDiffuseFieldAverage(const HrirDataT *hData, const uint chan
         // If coverage weighting is not used, the weights still need to be
         // averaged by the number of existing HRIRs.
         count = hData->mIrCount;
-        for(fi = 0;fi < hData->mFds.size();fi++)
+        for(size_t fi{0};fi < hData->mFds.size();++fi)
         {
-            for(ei = 0;ei < hData->mFds[fi].mEvStart;ei++)
+            for(size_t ei{0};ei < hData->mFds[fi].mEvStart;++ei)
                 count -= static_cast<uint>(hData->mFds[fi].mEvs[ei].mAzs.size());
         }
         weight = 1.0 / count;
 
-        for(fi = 0;fi < hData->mFds.size();fi++)
+        for(size_t fi{0};fi < hData->mFds.size();++fi)
         {
-            for(ei = hData->mFds[fi].mEvStart;ei < hData->mFds[fi].mEvs.size();ei++)
+            for(size_t ei{hData->mFds[fi].mEvStart};ei < hData->mFds[fi].mEvs.size();++ei)
                 weights[(fi * MAX_EV_COUNT) + ei] = weight;
         }
     }
-    for(ti = 0;ti < channels;ti++)
+    for(size_t ti{0};ti < channels;++ti)
     {
-        for(i = 0;i < m;i++)
+        for(size_t i{0};i < m;++i)
             dfa[(ti * m) + i] = 0.0;
-        for(fi = 0;fi < hData->mFds.size();fi++)
+        for(size_t fi{0};fi < hData->mFds.size();++fi)
         {
-            for(ei = hData->mFds[fi].mEvStart;ei < hData->mFds[fi].mEvs.size();ei++)
+            for(size_t ei{hData->mFds[fi].mEvStart};ei < hData->mFds[fi].mEvs.size();++ei)
             {
-                for(ai = 0;ai < hData->mFds[fi].mEvs[ei].mAzs.size();ai++)
+                for(size_t ai{0};ai < hData->mFds[fi].mEvs[ei].mAzs.size();++ai)
                 {
                     HrirAzT *azd = &hData->mFds[fi].mEvs[ei].mAzs[ai];
                     // Get the weight for this HRIR's contribution.
                     double weight = weights[(fi * MAX_EV_COUNT) + ei];
 
                     // Add this HRIR's weighted power average to the total.
-                    for(i = 0;i < m;i++)
+                    for(size_t i{0};i < m;++i)
                         dfa[(ti * m) + i] += weight * azd->mIrs[ti][i] * azd->mIrs[ti][i];
                 }
             }
         }
         // Finish the average calculation and keep it from being too small.
-        for(i = 0;i < m;i++)
+        for(size_t i{0};i < m;++i)
             dfa[(ti * m) + i] = std::max(sqrt(dfa[(ti * m) + i]), Epsilon);
         // Apply a limit to the magnitude range of the diffuse-field average
         // if desired.
@@ -593,17 +594,15 @@ static void CalculateDiffuseFieldAverage(const HrirDataT *hData, const uint chan
 // set using the given average response.
 static void DiffuseFieldEqualize(const uint channels, const uint m, const double *dfa, const HrirDataT *hData)
 {
-    uint ti, fi, ei, i;
-
-    for(fi = 0;fi < hData->mFds.size();fi++)
+    for(size_t fi{0};fi < hData->mFds.size();++fi)
     {
-        for(ei = hData->mFds[fi].mEvStart;ei < hData->mFds[fi].mEvs.size();ei++)
+        for(size_t ei{hData->mFds[fi].mEvStart};ei < hData->mFds[fi].mEvs.size();++ei)
         {
             for(auto &azd : hData->mFds[fi].mEvs[ei].mAzs)
             {
-                for(ti = 0;ti < channels;ti++)
+                for(size_t ti{0};ti < channels;++ti)
                 {
-                    for(i = 0;i < m;i++)
+                    for(size_t i{0};i < m;++i)
                         azd.mIrs[ti][i] /= dfa[(ti * m) + i];
                 }
             }
@@ -1224,7 +1223,7 @@ static int ProcessDefinition(const char *inName, const uint outRate, const Chann
     {
         uint c{(hData.mChannelType == CT_STEREO) ? 2u : 1u};
         uint m{hData.mFftSize/2u + 1u};
-        auto dfa = std::vector<double>(c * m);
+        auto dfa = std::vector<double>(size_t{c} * m);
 
         if(hData.mFds.size() > 1)
         {
diff --git a/utils/uhjdecoder.cpp b/utils/uhjdecoder.cpp
index 801425e0..8f0d2006 100644
--- a/utils/uhjdecoder.cpp
+++ b/utils/uhjdecoder.cpp
@@ -435,7 +435,7 @@ int main(int argc, char **argv)
         // 32-bit val, frequency
         fwrite32le(static_cast<uint>(ininfo.samplerate), outfile.get());
         // 32-bit val, bytes per second
-        fwrite32le(static_cast<uint>(ininfo.samplerate)*outchans*sizeof(float), outfile.get());
+        fwrite32le(static_cast<uint>(ininfo.samplerate)*outchans*uint{sizeof(float)}, outfile.get());
         // 16-bit val, frame size
         fwrite16le(static_cast<ushort>(sizeof(float)*outchans), outfile.get());
         // 16-bit val, bits per sample
@@ -460,9 +460,9 @@ int main(int argc, char **argv)
         auto DataStart = ftell(outfile.get());
 
         auto decoder = std::make_unique<UhjDecoder>();
-        auto inmem = std::vector<float>(BufferLineSize*static_cast<uint>(ininfo.channels));
+        auto inmem = std::vector<float>(size_t{BufferLineSize}*static_cast<uint>(ininfo.channels));
         auto decmem = al::vector<std::array<float,BufferLineSize>, 16>(outchans);
-        auto outmem = std::vector<byte4>(BufferLineSize*outchans);
+        auto outmem = std::vector<byte4>(size_t{BufferLineSize}*outchans);
 
         /* A number of initial samples need to be skipped to cut the lead-in
          * from the all-pass filter delay. The same number of samples need to
diff --git a/utils/uhjencoder.cpp b/utils/uhjencoder.cpp
index 6a7b1fa9..02836181 100644
--- a/utils/uhjencoder.cpp
+++ b/utils/uhjencoder.cpp
@@ -415,11 +415,11 @@ int main(int argc, char **argv)
         }
 
         auto encoder = std::make_unique<UhjEncoder>();
-        auto splbuf = al::vector<FloatBufferLine, 16>(static_cast<uint>(9+ininfo.channels)+uhjchans);
-        auto ambmem = al::span<FloatBufferLine,4>{splbuf.data(), 4};
-        auto encmem = al::span<FloatBufferLine,4>{&splbuf[4], 4};
-        auto srcmem = al::span<float,BufferLineSize>{splbuf[8].data(), BufferLineSize};
-        auto outmem = al::span<float>{splbuf[9].data(), BufferLineSize*uhjchans};
+        auto splbuf = al::vector<FloatBufferLine, 16>(static_cast<uint>(ininfo.channels)+9+size_t{uhjchans});
+        auto ambmem = al::span{splbuf}.subspan<0,4>();
+        auto encmem = al::span{splbuf}.subspan<4,4>();
+        auto srcmem = al::span{splbuf[8]};
+        auto outmem = al::span<float>{splbuf[9].data(), size_t{BufferLineSize}*uhjchans};
 
         /* A number of initial samples need to be skipped to cut the lead-in
          * from the all-pass filter delay. The same number of samples need to
-- 
cgit v1.2.3


From cfb6bdfabfdf70ce5bcb650d356c3a9c1db3df0c Mon Sep 17 00:00:00 2001
From: Chris Robinson <chris.kcat@gmail.com>
Date: Sat, 23 Dec 2023 04:18:07 -0800
Subject: Avoid assignments in if conditions

---
 al/source.cpp               |  4 ++--
 alc/alc.cpp                 | 37 ++++++++++++++++++++-----------------
 alc/backends/alsa.cpp       | 44 +++++++++++++++++++++++++++-----------------
 alc/backends/pipewire.cpp   |  7 +++++--
 alc/backends/portaudio.cpp  |  3 ++-
 alc/backends/pulseaudio.cpp |  4 ++--
 examples/alstreamcb.cpp     |  3 ++-
 utils/makemhr/makemhr.cpp   |  4 ++--
 8 files changed, 62 insertions(+), 44 deletions(-)

(limited to 'utils/makemhr')

diff --git a/al/source.cpp b/al/source.cpp
index c99943cf..f119ee36 100644
--- a/al/source.cpp
+++ b/al/source.cpp
@@ -3410,8 +3410,8 @@ FORCE_ALIGN void AL_APIENTRY alSourceQueueBuffersDirect(ALCcontext *context, ALu
     for(ALsizei i{0};i < nb;i++)
     {
         bool fmt_mismatch{false};
-        ALbuffer *buffer{nullptr};
-        if(buffers[i] && (buffer=LookupBuffer(device, buffers[i])) == nullptr)
+        ALbuffer *buffer{buffers[i] ? LookupBuffer(device, buffers[i]) : nullptr};
+        if(buffers[i] && !buffer)
         {
             context->setError(AL_INVALID_NAME, "Queueing invalid buffer ID %u", buffers[i]);
             goto buffer_error;
diff --git a/alc/alc.cpp b/alc/alc.cpp
index 3ad07aaa..d944cf0c 100644
--- a/alc/alc.cpp
+++ b/alc/alc.cpp
@@ -562,7 +562,8 @@ void alc_initconfig()
 
     auto BackendListEnd = std::end(BackendList);
     auto devopt = al::getenv("ALSOFT_DRIVERS");
-    if(devopt || (devopt=ConfigValueStr({}, {}, "drivers")))
+    if(!devopt) devopt = ConfigValueStr({}, {}, "drivers");
+    if(devopt)
     {
         auto backendlist_cur = std::begin(BackendList);
 
@@ -670,8 +671,8 @@ void alc_initconfig()
 
     InitEffect(&ALCcontext::sDefaultEffect);
     auto defrevopt = al::getenv("ALSOFT_DEFAULT_REVERB");
-    if(defrevopt || (defrevopt=ConfigValueStr({}, {}, "default-reverb")))
-        LoadReverbPreset(defrevopt->c_str(), &ALCcontext::sDefaultEffect);
+    if(!defrevopt) defrevopt = ConfigValueStr({}, {}, "default-reverb");
+    if(defrevopt) LoadReverbPreset(defrevopt->c_str(), &ALCcontext::sDefaultEffect);
 
 #ifdef ALSOFT_EAX
     {
@@ -2556,23 +2557,25 @@ ALC_API ALCboolean ALC_APIENTRY alcIsExtensionPresent(ALCdevice *device, const A
 {
     DeviceRef dev{VerifyDevice(device)};
     if(!extName)
+    {
         alcSetError(dev.get(), ALC_INVALID_VALUE);
-    else
+        return ALC_FALSE;
+    }
+
+    const std::string_view tofind{extName};
+    auto extlist = dev ? std::string_view{alcExtensionList} : std::string_view{alcNoDeviceExtList};
+    while(!extlist.empty())
     {
-        size_t len = strlen(extName);
-        const char *ptr = (dev ? alcExtensionList : alcNoDeviceExtList);
-        while(ptr && *ptr)
-        {
-            if(al::strncasecmp(ptr, extName, len) == 0 && (ptr[len] == '\0' || isspace(ptr[len])))
-                return ALC_TRUE;
+        auto nextpos = extlist.find(' ');
+        auto tocheck = extlist.substr(0, nextpos);
+        if(tocheck.size() == tofind.size()
+            && al::strncasecmp(tofind.data(), tocheck.data(), tofind.size()) == 0)
+            return ALC_TRUE;
 
-            if((ptr=strchr(ptr, ' ')) != nullptr)
-            {
-                do {
-                    ++ptr;
-                } while(isspace(*ptr));
-            }
-        }
+        if(nextpos == std::string_view::npos)
+            break;
+
+        extlist.remove_prefix(nextpos+1);
     }
     return ALC_FALSE;
 }
diff --git a/alc/backends/alsa.cpp b/alc/backends/alsa.cpp
index 9bbcb241..d7dd16c0 100644
--- a/alc/backends/alsa.cpp
+++ b/alc/backends/alsa.cpp
@@ -311,12 +311,14 @@ std::vector<DevMap> probe_devices(snd_pcm_stream_t stream)
         std::string name{"hw:" + std::to_string(card)};
 
         snd_ctl_t *handle;
-        if((err=snd_ctl_open(&handle, name.c_str(), 0)) < 0)
+        err = snd_ctl_open(&handle, name.c_str(), 0);
+        if(err < 0)
         {
             ERR("control open (hw:%d): %s\n", card, snd_strerror(err));
             continue;
         }
-        if((err=snd_ctl_card_info(handle, info)) < 0)
+        err = snd_ctl_card_info(handle, info);
+        if(err < 0)
         {
             ERR("control hardware info (hw:%d): %s\n", card, snd_strerror(err));
             snd_ctl_close(handle);
@@ -340,7 +342,8 @@ std::vector<DevMap> probe_devices(snd_pcm_stream_t stream)
             snd_pcm_info_set_device(pcminfo, static_cast<uint>(dev));
             snd_pcm_info_set_subdevice(pcminfo, 0);
             snd_pcm_info_set_stream(pcminfo, stream);
-            if((err=snd_ctl_pcm_info(handle, pcminfo)) < 0)
+            err = snd_ctl_pcm_info(handle, pcminfo);
+            if(err < 0)
             {
                 if(err != -ENOENT)
                     ERR("control digital audio info (hw:%d): %s\n", card, snd_strerror(err));
@@ -405,13 +408,14 @@ int verify_state(snd_pcm_t *handle)
             break;
 
         case SND_PCM_STATE_XRUN:
-            if((err=snd_pcm_recover(handle, -EPIPE, 1)) < 0)
-                return err;
+            err=snd_pcm_recover(handle, -EPIPE, 1);
+            if(err < 0) return err;
             break;
         case SND_PCM_STATE_SUSPENDED:
-            if((err=snd_pcm_recover(handle, -ESTRPIPE, 1)) < 0)
-                return err;
+            err = snd_pcm_recover(handle, -ESTRPIPE, 1);
+            if(err < 0) return err;
             break;
+
         case SND_PCM_STATE_DISCONNECTED:
             return -ENODEV;
     }
@@ -698,7 +702,8 @@ bool AlsaPlayback::reset()
     int err{};
     HwParamsPtr hp{CreateHwParams()};
 #define CHECK(x) do {                                                         \
-    if((err=(x)) < 0)                                                         \
+    err = (x);                                                                \
+    if(err < 0)                                                               \
         throw al::backend_exception{al::backend_error::DeviceError, #x " failed: %s", \
             snd_strerror(err)};                                               \
 } while(0)
@@ -759,11 +764,11 @@ bool AlsaPlayback::reset()
         WARN("Failed to enable ALSA resampler\n");
     CHECK(snd_pcm_hw_params_set_rate_near(mPcmHandle, hp.get(), &rate, nullptr));
     /* set period time (implicitly constrains period/buffer parameters) */
-    if((err=snd_pcm_hw_params_set_period_time_near(mPcmHandle, hp.get(), &periodLen, nullptr)) < 0)
-        ERR("snd_pcm_hw_params_set_period_time_near failed: %s\n", snd_strerror(err));
+    err = snd_pcm_hw_params_set_period_time_near(mPcmHandle, hp.get(), &periodLen, nullptr);
+    if(err < 0) ERR("snd_pcm_hw_params_set_period_time_near failed: %s\n", snd_strerror(err));
     /* set buffer time (implicitly sets buffer size/bytes/time and period size/bytes) */
-    if((err=snd_pcm_hw_params_set_buffer_time_near(mPcmHandle, hp.get(), &bufferLen, nullptr)) < 0)
-        ERR("snd_pcm_hw_params_set_buffer_time_near failed: %s\n", snd_strerror(err));
+    err = snd_pcm_hw_params_set_buffer_time_near(mPcmHandle, hp.get(), &bufferLen, nullptr);
+    if(err < 0) ERR("snd_pcm_hw_params_set_buffer_time_near failed: %s\n", snd_strerror(err));
     /* install and prepare hardware configuration */
     CHECK(snd_pcm_hw_params(mPcmHandle, hp.get()));
 
@@ -801,7 +806,8 @@ void AlsaPlayback::start()
     snd_pcm_access_t access{};
     HwParamsPtr hp{CreateHwParams()};
 #define CHECK(x) do {                                                         \
-    if((err=(x)) < 0)                                                         \
+    err = (x);                                                                \
+    if(err < 0)                                                               \
         throw al::backend_exception{al::backend_error::DeviceError, #x " failed: %s", \
             snd_strerror(err)};                                               \
 } while(0)
@@ -958,7 +964,8 @@ void AlsaCapture::open(std::string_view name)
     bool needring{false};
     HwParamsPtr hp{CreateHwParams()};
 #define CHECK(x) do {                                                         \
-    if((err=(x)) < 0)                                                         \
+    err = (x);                                                                \
+    if(err < 0)                                                               \
         throw al::backend_exception{al::backend_error::DeviceError, #x " failed: %s", \
             snd_strerror(err)};                                               \
 } while(0)
@@ -1065,7 +1072,8 @@ void AlsaCapture::captureSamples(std::byte *buffer, uint samples)
 
             if(amt == -EAGAIN)
                 continue;
-            if((amt=snd_pcm_recover(mPcmHandle, static_cast<int>(amt), 1)) >= 0)
+            amt = snd_pcm_recover(mPcmHandle, static_cast<int>(amt), 1);
+            if(amt >= 0)
             {
                 amt = snd_pcm_start(mPcmHandle);
                 if(amt >= 0)
@@ -1102,7 +1110,8 @@ uint AlsaCapture::availableSamples()
     {
         ERR("avail update failed: %s\n", snd_strerror(static_cast<int>(avail)));
 
-        if((avail=snd_pcm_recover(mPcmHandle, static_cast<int>(avail), 1)) >= 0)
+        avail = snd_pcm_recover(mPcmHandle, static_cast<int>(avail), 1);
+        if(avail >= 0)
         {
             if(mDoCapture)
                 avail = snd_pcm_start(mPcmHandle);
@@ -1138,7 +1147,8 @@ uint AlsaCapture::availableSamples()
 
             if(amt == -EAGAIN)
                 continue;
-            if((amt=snd_pcm_recover(mPcmHandle, static_cast<int>(amt), 1)) >= 0)
+            amt = snd_pcm_recover(mPcmHandle, static_cast<int>(amt), 1);
+            if(amt >= 0)
             {
                 if(mDoCapture)
                     amt = snd_pcm_start(mPcmHandle);
diff --git a/alc/backends/pipewire.cpp b/alc/backends/pipewire.cpp
index 44b84296..2e6e20cc 100644
--- a/alc/backends/pipewire.cpp
+++ b/alc/backends/pipewire.cpp
@@ -1088,8 +1088,11 @@ void NodeProxy::paramCallback(int, uint32_t id, uint32_t, uint32_t, const spa_po
 
         if(const spa_pod_prop *prop{spa_pod_find_prop(param, nullptr, SPA_FORMAT_AUDIO_position)})
             node->parsePositions(&prop->value, force_update);
-        else if((prop=spa_pod_find_prop(param, nullptr, SPA_FORMAT_AUDIO_channels)) != nullptr)
-            node->parseChannelCount(&prop->value, force_update);
+        else
+        {
+            prop = spa_pod_find_prop(param, nullptr, SPA_FORMAT_AUDIO_channels);
+            if(prop) node->parseChannelCount(&prop->value, force_update);
+        }
     }
 }
 
diff --git a/alc/backends/portaudio.cpp b/alc/backends/portaudio.cpp
index 15a0f3ac..2ccb1c64 100644
--- a/alc/backends/portaudio.cpp
+++ b/alc/backends/portaudio.cpp
@@ -394,7 +394,8 @@ bool PortBackendFactory::init()
         LOAD_FUNC(Pa_GetStreamInfo);
 #undef LOAD_FUNC
 
-        if((err=Pa_Initialize()) != paNoError)
+        err = Pa_Initialize();
+        if(err != paNoError)
         {
             ERR("Pa_Initialize() returned an error: %s\n", Pa_GetErrorText(err));
             CloseLib(pa_handle);
diff --git a/alc/backends/pulseaudio.cpp b/alc/backends/pulseaudio.cpp
index 6d842475..dcf01095 100644
--- a/alc/backends/pulseaudio.cpp
+++ b/alc/backends/pulseaudio.cpp
@@ -510,8 +510,8 @@ void MainloopUniqueLock::connectContext()
     pa_context_set_state_callback(mutex()->mContext, [](pa_context *ctx, void *pdata) noexcept
     { return static_cast<MainloopUniqueLock*>(pdata)->contextStateCallback(ctx); }, this);
 
-    int err;
-    if((err=pa_context_connect(mutex()->mContext, nullptr, pulse_ctx_flags, nullptr)) >= 0)
+    int err{pa_context_connect(mutex()->mContext, nullptr, pulse_ctx_flags, nullptr)};
+    if(err >= 0)
     {
         pa_context_state_t state;
         while((state=pa_context_get_state(mutex()->mContext)) != PA_CONTEXT_READY)
diff --git a/examples/alstreamcb.cpp b/examples/alstreamcb.cpp
index 1721d367..2da33b21 100644
--- a/examples/alstreamcb.cpp
+++ b/examples/alstreamcb.cpp
@@ -522,7 +522,8 @@ int main(int argc, char **argv)
 
         /* Get the name portion, without the path, for display. */
         const char *namepart{strrchr(argv[i], '/')};
-        if(namepart || (namepart=strrchr(argv[i], '\\')))
+        if(!namepart) namepart = strrchr(argv[i], '\\');
+        if(namepart)
             ++namepart;
         else
             namepart = argv[i];
diff --git a/utils/makemhr/makemhr.cpp b/utils/makemhr/makemhr.cpp
index 2b6d04ce..f14110c0 100644
--- a/utils/makemhr/makemhr.cpp
+++ b/utils/makemhr/makemhr.cpp
@@ -342,9 +342,9 @@ static int StoreMhr(const HrirDataT *hData, const char *filename)
     const uint n{hData->mIrPoints};
     uint dither_seed{22222};
     uint fi, ei, ai, i;
-    FILE *fp;
 
-    if((fp=fopen(filename, "wb")) == nullptr)
+    FILE *fp{fopen(filename, "wb")};
+    if(!fp)
     {
         fprintf(stderr, "\nError: Could not open MHR file '%s'.\n", filename);
         return 0;
-- 
cgit v1.2.3


From ec914e895ff6d7bf2d19e8c8785e5d8bfd38629f Mon Sep 17 00:00:00 2001
From: Chris Robinson <chris.kcat@gmail.com>
Date: Mon, 25 Dec 2023 05:21:42 -0800
Subject: Use standard methods for rounding

---
 alc/alc.cpp                | 6 +++---
 alc/backends/pipewire.cpp  | 9 +++++----
 examples/alffplay.cpp      | 4 ++--
 utils/makemhr/loadsofa.cpp | 2 +-
 4 files changed, 11 insertions(+), 10 deletions(-)

(limited to 'utils/makemhr')

diff --git a/alc/alc.cpp b/alc/alc.cpp
index d944cf0c..e9d3aed7 100644
--- a/alc/alc.cpp
+++ b/alc/alc.cpp
@@ -1025,7 +1025,7 @@ ALCenum UpdateDeviceParams(ALCdevice *device, const int *attrList)
             optsrate = clampu(*freqopt, MinOutputRate, MaxOutputRate);
 
             const double scale{static_cast<double>(*optsrate) / double{DefaultOutputRate}};
-            period_size = static_cast<uint>(period_size*scale + 0.5);
+            period_size = static_cast<uint>(std::lround(period_size * scale));
         }
 
         if(auto persizeopt = device->configValue<uint>({}, "period_size"))
@@ -1330,8 +1330,8 @@ ALCenum UpdateDeviceParams(ALCdevice *device, const int *attrList)
                 freqAttr = clampi(freqAttr, MinOutputRate, MaxOutputRate);
 
                 const double scale{static_cast<double>(freqAttr) / oldrate};
-                period_size = static_cast<uint>(period_size*scale + 0.5);
-                buffer_size = static_cast<uint>(buffer_size*scale + 0.5);
+                period_size = static_cast<uint>(std::lround(period_size * scale));
+                buffer_size = static_cast<uint>(std::lround(buffer_size * scale));
                 optsrate = static_cast<uint>(freqAttr);
             }
         }
diff --git a/alc/backends/pipewire.cpp b/alc/backends/pipewire.cpp
index 2e6e20cc..c31f943e 100644
--- a/alc/backends/pipewire.cpp
+++ b/alc/backends/pipewire.cpp
@@ -1629,11 +1629,12 @@ bool PipeWirePlayback::reset()
             {
                 /* Scale the update size if the sample rate changes. */
                 const double scale{static_cast<double>(match->mSampleRate) / mDevice->Frequency};
-                const double numbufs{static_cast<double>(mDevice->BufferSize)/mDevice->UpdateSize};
+                const double updatesize{std::round(mDevice->UpdateSize * scale)};
+                const double buffersize{std::round(mDevice->BufferSize * scale)};
+
                 mDevice->Frequency = match->mSampleRate;
-                mDevice->UpdateSize = static_cast<uint>(clampd(mDevice->UpdateSize*scale + 0.5,
-                    64.0, 8192.0));
-                mDevice->BufferSize = static_cast<uint>(numbufs*mDevice->UpdateSize + 0.5);
+                mDevice->UpdateSize = static_cast<uint>(clampd(updatesize, 64.0, 8192.0));
+                mDevice->BufferSize = static_cast<uint>(maxd(buffersize, 128.0));
             }
             if(!mDevice->Flags.test(ChannelsRequest) && match->mChannels != InvalidChannelConfig)
                 mDevice->FmtChans = match->mChannels;
diff --git a/examples/alffplay.cpp b/examples/alffplay.cpp
index 890ecedb..a7633bfa 100644
--- a/examples/alffplay.cpp
+++ b/examples/alffplay.cpp
@@ -1509,9 +1509,9 @@ void VideoState::updateVideo(SDL_Window *screen, SDL_Renderer *renderer, bool re
             {
                 double aspect_ratio = av_q2d(frame->sample_aspect_ratio);
                 if(aspect_ratio >= 1.0)
-                    frame_width = static_cast<int>(frame_width*aspect_ratio + 0.5);
+                    frame_width = static_cast<int>(std::lround(frame_width * aspect_ratio));
                 else if(aspect_ratio > 0.0)
-                    frame_height = static_cast<int>(frame_height/aspect_ratio + 0.5);
+                    frame_height = static_cast<int>(std::lround(frame_height / aspect_ratio));
             }
             SDL_SetWindowSize(screen, frame_width, frame_height);
         }
diff --git a/utils/makemhr/loadsofa.cpp b/utils/makemhr/loadsofa.cpp
index c29cb45c..b2038c77 100644
--- a/utils/makemhr/loadsofa.cpp
+++ b/utils/makemhr/loadsofa.cpp
@@ -460,7 +460,7 @@ bool LoadSofaFile(const char *filename, const uint numThreads, const uint fftSiz
     /* Assume a default head radius of 9cm. */
     hData->mRadius = 0.09;
 
-    hData->mIrRate = static_cast<uint>(GetSampleRate(sofaHrtf.get()) + 0.5f);
+    hData->mIrRate = static_cast<uint>(std::lround(GetSampleRate(sofaHrtf.get())));
     if(!hData->mIrRate)
         return false;
 
-- 
cgit v1.2.3


From 1fddc044ac765d00e64628e59edcbcd71f0046b1 Mon Sep 17 00:00:00 2001
From: Chris Robinson <chris.kcat@gmail.com>
Date: Tue, 26 Dec 2023 00:02:23 -0800
Subject: Clean up some gotos and non-optimal casts

---
 al/effects/chorus.cpp       |   4 +-
 al/effects/fshifter.cpp     |   4 +-
 al/effects/modulator.cpp    |   2 +-
 al/effects/vmorpher.cpp     |   6 +-
 al/source.cpp               | 146 +++++++++++++++++++++++---------------------
 alc/alu.cpp                 |  12 ++--
 alc/backends/oss.cpp        |  14 +----
 alc/backends/portaudio.cpp  |  17 ++----
 alc/backends/pulseaudio.cpp |   5 +-
 alc/backends/sndio.cpp      | 131 ++++++++++++++++++++-------------------
 examples/alconvolve.c       |  15 +++--
 examples/alffplay.cpp       |   3 +-
 examples/almultireverb.c    |   6 +-
 examples/alstream.c         |   9 ++-
 examples/alstreamcb.cpp     |   4 +-
 utils/makemhr/loaddef.cpp   |   6 +-
 16 files changed, 190 insertions(+), 194 deletions(-)

(limited to 'utils/makemhr')

diff --git a/al/effects/chorus.cpp b/al/effects/chorus.cpp
index dba59d1d..913d1215 100644
--- a/al/effects/chorus.cpp
+++ b/al/effects/chorus.cpp
@@ -49,7 +49,7 @@ inline ALenum EnumFromWaveform(ChorusWaveform type)
 EffectProps genDefaultChorusProps() noexcept
 {
     ChorusProps props{};
-    props.Waveform = *WaveformFromEnum(AL_CHORUS_DEFAULT_WAVEFORM);
+    props.Waveform = WaveformFromEnum(AL_CHORUS_DEFAULT_WAVEFORM).value();
     props.Phase = AL_CHORUS_DEFAULT_PHASE;
     props.Rate = AL_CHORUS_DEFAULT_RATE;
     props.Depth = AL_CHORUS_DEFAULT_DEPTH;
@@ -61,7 +61,7 @@ EffectProps genDefaultChorusProps() noexcept
 EffectProps genDefaultFlangerProps() noexcept
 {
     FlangerProps props{};
-    props.Waveform = *WaveformFromEnum(AL_FLANGER_DEFAULT_WAVEFORM);
+    props.Waveform = WaveformFromEnum(AL_FLANGER_DEFAULT_WAVEFORM).value();
     props.Phase = AL_FLANGER_DEFAULT_PHASE;
     props.Rate = AL_FLANGER_DEFAULT_RATE;
     props.Depth = AL_FLANGER_DEFAULT_DEPTH;
diff --git a/al/effects/fshifter.cpp b/al/effects/fshifter.cpp
index 6f19e0dd..556244ac 100644
--- a/al/effects/fshifter.cpp
+++ b/al/effects/fshifter.cpp
@@ -45,8 +45,8 @@ EffectProps genDefaultProps() noexcept
 {
     FshifterProps props{};
     props.Frequency      = AL_FREQUENCY_SHIFTER_DEFAULT_FREQUENCY;
-    props.LeftDirection  = *DirectionFromEmum(AL_FREQUENCY_SHIFTER_DEFAULT_LEFT_DIRECTION);
-    props.RightDirection = *DirectionFromEmum(AL_FREQUENCY_SHIFTER_DEFAULT_RIGHT_DIRECTION);
+    props.LeftDirection  = DirectionFromEmum(AL_FREQUENCY_SHIFTER_DEFAULT_LEFT_DIRECTION).value();
+    props.RightDirection = DirectionFromEmum(AL_FREQUENCY_SHIFTER_DEFAULT_RIGHT_DIRECTION).value();
     return props;
 }
 
diff --git a/al/effects/modulator.cpp b/al/effects/modulator.cpp
index 566b333e..7e9424c0 100644
--- a/al/effects/modulator.cpp
+++ b/al/effects/modulator.cpp
@@ -47,7 +47,7 @@ EffectProps genDefaultProps() noexcept
     ModulatorProps props{};
     props.Frequency      = AL_RING_MODULATOR_DEFAULT_FREQUENCY;
     props.HighPassCutoff = AL_RING_MODULATOR_DEFAULT_HIGHPASS_CUTOFF;
-    props.Waveform       = *WaveformFromEmum(AL_RING_MODULATOR_DEFAULT_WAVEFORM);
+    props.Waveform       = WaveformFromEmum(AL_RING_MODULATOR_DEFAULT_WAVEFORM).value();
     return props;
 }
 
diff --git a/al/effects/vmorpher.cpp b/al/effects/vmorpher.cpp
index a986ddf7..35a64d32 100644
--- a/al/effects/vmorpher.cpp
+++ b/al/effects/vmorpher.cpp
@@ -126,11 +126,11 @@ EffectProps genDefaultProps() noexcept
 {
     VmorpherProps props{};
     props.Rate                 = AL_VOCAL_MORPHER_DEFAULT_RATE;
-    props.PhonemeA             = *PhenomeFromEnum(AL_VOCAL_MORPHER_DEFAULT_PHONEMEA);
-    props.PhonemeB             = *PhenomeFromEnum(AL_VOCAL_MORPHER_DEFAULT_PHONEMEB);
+    props.PhonemeA             = PhenomeFromEnum(AL_VOCAL_MORPHER_DEFAULT_PHONEMEA).value();
+    props.PhonemeB             = PhenomeFromEnum(AL_VOCAL_MORPHER_DEFAULT_PHONEMEB).value();
     props.PhonemeACoarseTuning = AL_VOCAL_MORPHER_DEFAULT_PHONEMEA_COARSE_TUNING;
     props.PhonemeBCoarseTuning = AL_VOCAL_MORPHER_DEFAULT_PHONEMEB_COARSE_TUNING;
-    props.Waveform             = *WaveformFromEmum(AL_VOCAL_MORPHER_DEFAULT_WAVEFORM);
+    props.Waveform             = WaveformFromEmum(AL_VOCAL_MORPHER_DEFAULT_WAVEFORM).value();
     return props;
 }
 
diff --git a/al/source.cpp b/al/source.cpp
index a440a04b..bf96a769 100644
--- a/al/source.cpp
+++ b/al/source.cpp
@@ -3407,90 +3407,94 @@ FORCE_ALIGN void AL_APIENTRY alSourceQueueBuffersDirect(ALCcontext *context, ALu
 
     std::unique_lock<std::mutex> buflock{device->BufferLock};
     const size_t NewListStart{source->mQueue.size()};
-    ALbufferQueueItem *BufferList{nullptr};
-    for(ALsizei i{0};i < nb;i++)
-    {
-        bool fmt_mismatch{false};
-        ALbuffer *buffer{buffers[i] ? LookupBuffer(device, buffers[i]) : nullptr};
-        if(buffers[i] && !buffer)
-        {
-            context->setError(AL_INVALID_NAME, "Queueing invalid buffer ID %u", buffers[i]);
-            goto buffer_error;
-        }
-        if(buffer)
+    try {
+        ALbufferQueueItem *BufferList{nullptr};
+        for(ALsizei i{0};i < nb;i++)
         {
-            if(buffer->mSampleRate < 1)
+            bool fmt_mismatch{false};
+            ALbuffer *buffer{buffers[i] ? LookupBuffer(device, buffers[i]) : nullptr};
+            if(buffers[i] && !buffer)
             {
-                context->setError(AL_INVALID_OPERATION, "Queueing buffer %u with no format",
-                    buffer->id);
-                goto buffer_error;
+                context->setError(AL_INVALID_NAME, "Queueing invalid buffer ID %u", buffers[i]);
+                throw std::exception{};
             }
-            if(buffer->mCallback)
+            if(buffer)
             {
-                context->setError(AL_INVALID_OPERATION, "Queueing callback buffer %u", buffer->id);
-                goto buffer_error;
+                if(buffer->mSampleRate < 1)
+                {
+                    context->setError(AL_INVALID_OPERATION, "Queueing buffer %u with no format",
+                        buffer->id);
+                    throw std::exception{};
+                }
+                if(buffer->mCallback)
+                {
+                    context->setError(AL_INVALID_OPERATION, "Queueing callback buffer %u",
+                        buffer->id);
+                    throw std::exception{};
+                }
+                if(buffer->MappedAccess != 0 && !(buffer->MappedAccess&AL_MAP_PERSISTENT_BIT_SOFT))
+                {
+                    context->setError(AL_INVALID_OPERATION,
+                        "Queueing non-persistently mapped buffer %u", buffer->id);
+                    throw std::exception{};
+                }
             }
-            if(buffer->MappedAccess != 0 && !(buffer->MappedAccess&AL_MAP_PERSISTENT_BIT_SOFT))
+
+            source->mQueue.emplace_back();
+            if(!BufferList)
+                BufferList = &source->mQueue.back();
+            else
             {
-                context->setError(AL_INVALID_OPERATION,
-                    "Queueing non-persistently mapped buffer %u", buffer->id);
-                goto buffer_error;
+                auto &item = source->mQueue.back();
+                BufferList->mNext.store(&item, std::memory_order_relaxed);
+                BufferList = &item;
             }
-        }
-
-        source->mQueue.emplace_back();
-        if(!BufferList)
-            BufferList = &source->mQueue.back();
-        else
-        {
-            auto &item = source->mQueue.back();
-            BufferList->mNext.store(&item, std::memory_order_relaxed);
-            BufferList = &item;
-        }
-        if(!buffer) continue;
-        BufferList->mBlockAlign = buffer->mBlockAlign;
-        BufferList->mSampleLen = buffer->mSampleLen;
-        BufferList->mLoopEnd = buffer->mSampleLen;
-        BufferList->mSamples = buffer->mData.data();
-        BufferList->mBuffer = buffer;
-        IncrementRef(buffer->ref);
-
-        if(BufferFmt == nullptr)
-            BufferFmt = buffer;
-        else
-        {
-            fmt_mismatch |= BufferFmt->mSampleRate != buffer->mSampleRate;
-            fmt_mismatch |= BufferFmt->mChannels != buffer->mChannels;
-            fmt_mismatch |= BufferFmt->mType != buffer->mType;
-            if(BufferFmt->isBFormat())
+            if(!buffer) continue;
+            BufferList->mBlockAlign = buffer->mBlockAlign;
+            BufferList->mSampleLen = buffer->mSampleLen;
+            BufferList->mLoopEnd = buffer->mSampleLen;
+            BufferList->mSamples = buffer->mData.data();
+            BufferList->mBuffer = buffer;
+            IncrementRef(buffer->ref);
+
+            if(BufferFmt == nullptr)
+                BufferFmt = buffer;
+            else
             {
-                fmt_mismatch |= BufferFmt->mAmbiLayout != buffer->mAmbiLayout;
-                fmt_mismatch |= BufferFmt->mAmbiScaling != buffer->mAmbiScaling;
+                fmt_mismatch |= BufferFmt->mSampleRate != buffer->mSampleRate;
+                fmt_mismatch |= BufferFmt->mChannels != buffer->mChannels;
+                fmt_mismatch |= BufferFmt->mType != buffer->mType;
+                if(BufferFmt->isBFormat())
+                {
+                    fmt_mismatch |= BufferFmt->mAmbiLayout != buffer->mAmbiLayout;
+                    fmt_mismatch |= BufferFmt->mAmbiScaling != buffer->mAmbiScaling;
+                }
+                fmt_mismatch |= BufferFmt->mAmbiOrder != buffer->mAmbiOrder;
             }
-            fmt_mismatch |= BufferFmt->mAmbiOrder != buffer->mAmbiOrder;
-        }
-        if(fmt_mismatch) UNLIKELY
-        {
-            context->setError(AL_INVALID_OPERATION, "Queueing buffer with mismatched format\n"
-                "  Expected: %uhz, %s, %s ; Got: %uhz, %s, %s\n", BufferFmt->mSampleRate,
-                NameFromFormat(BufferFmt->mType), NameFromFormat(BufferFmt->mChannels),
-                buffer->mSampleRate, NameFromFormat(buffer->mType),
-                NameFromFormat(buffer->mChannels));
-
-        buffer_error:
-            /* A buffer failed (invalid ID or format), so unlock and release
-             * each buffer we had.
-             */
-            auto iter = source->mQueue.begin() + ptrdiff_t(NewListStart);
-            for(;iter != source->mQueue.end();++iter)
+            if(fmt_mismatch) UNLIKELY
             {
-                if(ALbuffer *buf{iter->mBuffer})
-                    DecrementRef(buf->ref);
+                context->setError(AL_INVALID_OPERATION, "Queueing buffer with mismatched format\n"
+                    "  Expected: %uhz, %s, %s ; Got: %uhz, %s, %s\n", BufferFmt->mSampleRate,
+                    NameFromFormat(BufferFmt->mType), NameFromFormat(BufferFmt->mChannels),
+                    buffer->mSampleRate, NameFromFormat(buffer->mType),
+                    NameFromFormat(buffer->mChannels));
+                throw std::exception{};
             }
-            source->mQueue.resize(NewListStart);
-            return;
         }
     }
+    catch(...) {
+        /* A buffer failed (invalid ID or format), or there was some other
+         * unexpected error, so unlock and release each buffer we had.
+         */
+        auto iter = source->mQueue.begin() + ptrdiff_t(NewListStart);
+        for(;iter != source->mQueue.end();++iter)
+        {
+            if(ALbuffer *buf{iter->mBuffer})
+                DecrementRef(buf->ref);
+        }
+        source->mQueue.resize(NewListStart);
+        return;
+    }
     /* All buffers good. */
     buflock.unlock();
 
diff --git a/alc/alu.cpp b/alc/alu.cpp
index eb3dee5f..9e7a758e 100644
--- a/alc/alu.cpp
+++ b/alc/alu.cpp
@@ -678,16 +678,16 @@ void AmbiRotator(AmbiRotateMatrix &matrix, const int order)
     auto P = [](const int i, const int l, const int a, const int n, const size_t last_band,
         const AmbiRotateMatrix &R)
     {
-        const float ri1{ R[ 1+2][static_cast<size_t>(i+2)]};
-        const float rim1{R[-1+2][static_cast<size_t>(i+2)]};
-        const float ri0{ R[ 0+2][static_cast<size_t>(i+2)]};
+        const float ri1{ R[ 1+2][static_cast<size_t>(i+2_z)]};
+        const float rim1{R[-1+2][static_cast<size_t>(i+2_z)]};
+        const float ri0{ R[ 0+2][static_cast<size_t>(i+2_z)]};
 
         const size_t y{last_band + static_cast<size_t>(a+l-1)};
         if(n == -l)
-            return ri1*R[last_band][y] + rim1*R[last_band + static_cast<size_t>(l-1)*2][y];
+            return ri1*R[last_band][y] + rim1*R[last_band + static_cast<size_t>(l-1_z)*2][y];
         if(n == l)
-            return ri1*R[last_band + static_cast<size_t>(l-1)*2][y] - rim1*R[last_band][y];
-        return ri0*R[last_band + static_cast<size_t>(n+l-1)][y];
+            return ri1*R[last_band + static_cast<size_t>(l-1_z)*2][y] - rim1*R[last_band][y];
+        return ri0*R[last_band + static_cast<size_t>(l-1_z+n)][y];
     };
 
     auto U = [P](const int l, const int m, const int n, const size_t last_band,
diff --git a/alc/backends/oss.cpp b/alc/backends/oss.cpp
index 50bed5ee..d541b534 100644
--- a/alc/backends/oss.cpp
+++ b/alc/backends/oss.cpp
@@ -367,11 +367,9 @@ bool OSSPlayback::reset()
     uint numFragmentsLogSize{(periods << 16) | log2FragmentSize};
 
     audio_buf_info info{};
-    const char *err;
-#define CHECKERR(func) if((func) < 0) {                                       \
-    err = #func;                                                              \
-    goto err;                                                                 \
-}
+#define CHECKERR(func) if((func) < 0)                                         \
+    throw al::backend_exception{al::backend_error::DeviceError, "%s failed: %s\n", #func, strerror(errno)};
+
     /* Don't fail if SETFRAGMENT fails. We can handle just about anything
      * that's reported back via GETOSPACE */
     ioctl(mFd, SNDCTL_DSP_SETFRAGMENT, &numFragmentsLogSize);
@@ -379,12 +377,6 @@ bool OSSPlayback::reset()
     CHECKERR(ioctl(mFd, SNDCTL_DSP_CHANNELS, &numChannels));
     CHECKERR(ioctl(mFd, SNDCTL_DSP_SPEED, &ossSpeed));
     CHECKERR(ioctl(mFd, SNDCTL_DSP_GETOSPACE, &info));
-    if(false)
-    {
-    err:
-        ERR("%s failed: %s\n", err, strerror(errno));
-        return false;
-    }
 #undef CHECKERR
 
     if(mDevice->channelsFromFmt() != numChannels)
diff --git a/alc/backends/portaudio.cpp b/alc/backends/portaudio.cpp
index 2ccb1c64..a8bd00fd 100644
--- a/alc/backends/portaudio.cpp
+++ b/alc/backends/portaudio.cpp
@@ -148,7 +148,6 @@ void PortPlayback::open(std::string_view name)
         break;
     }
 
-retry_open:
     static constexpr auto writeCallback = [](const void *inputBuffer, void *outputBuffer,
         unsigned long framesPerBuffer, const PaStreamCallbackTimeInfo *timeInfo,
         const PaStreamCallbackFlags statusFlags, void *userData) noexcept
@@ -157,17 +156,13 @@ retry_open:
             framesPerBuffer, timeInfo, statusFlags);
     };
     PaStream *stream{};
-    PaError err{Pa_OpenStream(&stream, nullptr, &params, mDevice->Frequency, mDevice->UpdateSize,
-        paNoFlag, writeCallback, this)};
-    if(err != paNoError)
+    while(PaError err{Pa_OpenStream(&stream, nullptr, &params, mDevice->Frequency,
+        mDevice->UpdateSize, paNoFlag, writeCallback, this)})
     {
-        if(params.sampleFormat == paFloat32)
-        {
-            params.sampleFormat = paInt16;
-            goto retry_open;
-        }
-        throw al::backend_exception{al::backend_error::NoDevice, "Failed to open stream: %s",
-            Pa_GetErrorText(err)};
+        if(params.sampleFormat != paFloat32)
+            throw al::backend_exception{al::backend_error::NoDevice, "Failed to open stream: %s",
+                Pa_GetErrorText(err)};
+        params.sampleFormat = paInt16;
     }
 
     Pa_CloseStream(mStream);
diff --git a/alc/backends/pulseaudio.cpp b/alc/backends/pulseaudio.cpp
index dcf01095..77d45466 100644
--- a/alc/backends/pulseaudio.cpp
+++ b/alc/backends/pulseaudio.cpp
@@ -968,8 +968,9 @@ bool PulsePlayback::reset()
         const auto scale = static_cast<double>(mSpec.rate) / mDevice->Frequency;
         const auto perlen = static_cast<uint>(clampd(scale*mDevice->UpdateSize + 0.5, 64.0,
             8192.0));
-        const auto buflen = static_cast<uint>(clampd(scale*mDevice->BufferSize + 0.5, perlen*2,
-            std::numeric_limits<int>::max()/mFrameSize));
+        const auto bufmax = uint{std::numeric_limits<int>::max() / mFrameSize};
+        const auto buflen = static_cast<uint>(clampd(scale*mDevice->BufferSize + 0.5, perlen*2.0,
+            bufmax));
 
         mAttr.maxlength = ~0u;
         mAttr.tlength = buflen * mFrameSize;
diff --git a/alc/backends/sndio.cpp b/alc/backends/sndio.cpp
index 0e667874..ce3de366 100644
--- a/alc/backends/sndio.cpp
+++ b/alc/backends/sndio.cpp
@@ -135,72 +135,75 @@ bool SndioPlayback::reset()
     SioPar par;
 
     auto tryfmt = mDevice->FmtType;
-retry_params:
-    switch(tryfmt)
+    while(true)
     {
-    case DevFmtByte:
-        par.bits = 8;
-        par.sig = 1;
-        break;
-    case DevFmtUByte:
-        par.bits = 8;
-        par.sig = 0;
-        break;
-    case DevFmtShort:
-        par.bits = 16;
-        par.sig = 1;
-        break;
-    case DevFmtUShort:
-        par.bits = 16;
-        par.sig = 0;
-        break;
-    case DevFmtFloat:
-    case DevFmtInt:
-        par.bits = 32;
-        par.sig = 1;
-        break;
-    case DevFmtUInt:
-        par.bits = 32;
-        par.sig = 0;
-        break;
-    }
-    par.bps = SIO_BPS(par.bits);
-    par.le = SIO_LE_NATIVE;
-    par.msb = 1;
-
-    par.rate = mDevice->Frequency;
-    par.pchan = mDevice->channelsFromFmt();
-
-    par.round = mDevice->UpdateSize;
-    par.appbufsz = mDevice->BufferSize - mDevice->UpdateSize;
-    if(!par.appbufsz) par.appbufsz = mDevice->UpdateSize;
+        switch(tryfmt)
+        {
+        case DevFmtByte:
+            par.bits = 8;
+            par.sig = 1;
+            break;
+        case DevFmtUByte:
+            par.bits = 8;
+            par.sig = 0;
+            break;
+        case DevFmtShort:
+            par.bits = 16;
+            par.sig = 1;
+            break;
+        case DevFmtUShort:
+            par.bits = 16;
+            par.sig = 0;
+            break;
+        case DevFmtFloat:
+        case DevFmtInt:
+            par.bits = 32;
+            par.sig = 1;
+            break;
+        case DevFmtUInt:
+            par.bits = 32;
+            par.sig = 0;
+            break;
+        }
+        par.bps = SIO_BPS(par.bits);
+        par.le = SIO_LE_NATIVE;
+        par.msb = 1;
+
+        par.rate = mDevice->Frequency;
+        par.pchan = mDevice->channelsFromFmt();
+
+        par.round = mDevice->UpdateSize;
+        par.appbufsz = mDevice->BufferSize - mDevice->UpdateSize;
+        if(!par.appbufsz) par.appbufsz = mDevice->UpdateSize;
+
+        try {
+            if(!sio_setpar(mSndHandle, &par))
+                throw al::backend_exception{al::backend_error::DeviceError,
+                    "Failed to set device parameters"};
+
+            par.clear();
+            if(!sio_getpar(mSndHandle, &par))
+                throw al::backend_exception{al::backend_error::DeviceError,
+                    "Failed to get device parameters"};
+
+            if(par.bps > 1 && par.le != SIO_LE_NATIVE)
+                throw al::backend_exception{al::backend_error::DeviceError,
+                    "%s-endian samples not supported", par.le ? "Little" : "Big"};
+            if(par.bits < par.bps*8 && !par.msb)
+                throw al::backend_exception{al::backend_error::DeviceError,
+                    "MSB-padded samples not supported (%u of %u bits)", par.bits, par.bps*8};
+            if(par.pchan < 1)
+                throw al::backend_exception{al::backend_error::DeviceError,
+                    "No playback channels on device"};
 
-    try {
-        if(!sio_setpar(mSndHandle, &par))
-            throw al::backend_exception{al::backend_error::DeviceError,
-                "Failed to set device parameters"};
-
-        par.clear();
-        if(!sio_getpar(mSndHandle, &par))
-            throw al::backend_exception{al::backend_error::DeviceError,
-                "Failed to get device parameters"};
-
-        if(par.bps > 1 && par.le != SIO_LE_NATIVE)
-            throw al::backend_exception{al::backend_error::DeviceError,
-                "%s-endian samples not supported", par.le ? "Little" : "Big"};
-        if(par.bits < par.bps*8 && !par.msb)
-            throw al::backend_exception{al::backend_error::DeviceError,
-                "MSB-padded samples not supported (%u of %u bits)", par.bits, par.bps*8};
-        if(par.pchan < 1)
-            throw al::backend_exception{al::backend_error::DeviceError,
-                "No playback channels on device"};
-    }
-    catch(al::backend_exception &e) {
-        if(tryfmt == DevFmtShort)
-            throw;
-        par.clear();
-        tryfmt = DevFmtShort;
-        goto retry_params;
+            break;
+        }
+        catch(al::backend_exception &e) {
+            if(tryfmt == DevFmtShort)
+                throw;
+            par.clear();
+            tryfmt = DevFmtShort;
+        }
     }
 
     if(par.bps == 1)
diff --git a/examples/alconvolve.c b/examples/alconvolve.c
index d194d270..597d6ea2 100644
--- a/examples/alconvolve.c
+++ b/examples/alconvolve.c
@@ -361,10 +361,10 @@ static ALuint LoadSound(const char *filename)
     }
 
     namepart = strrchr(filename, '/');
-    if(namepart || (namepart=strrchr(filename, '\\')))
-        namepart++;
-    else
-        namepart = filename;
+    if(!namepart) namepart = strrchr(filename, '\\');
+    if(!namepart) namepart = filename;
+    else namepart++;
+
     printf("Loading: %s (%s, %dhz, %" PRId64 " samples / %.2f seconds)\n", namepart,
         FormatName(format), sfinfo.samplerate, sfinfo.frames,
         (double)sfinfo.frames / sfinfo.samplerate);
@@ -557,10 +557,9 @@ int main(int argc, char **argv)
             continue;
 
         namepart = strrchr(argv[i], '/');
-        if(namepart || (namepart=strrchr(argv[i], '\\')))
-            namepart++;
-        else
-            namepart = argv[i];
+        if(!namepart) namepart = strrchr(argv[i], '\\');
+        if(!namepart) namepart = argv[i];
+        else namepart++;
 
         printf("Playing: %s (%s, %dhz)\n", namepart, FormatName(player->format),
             player->sfinfo.samplerate);
diff --git a/examples/alffplay.cpp b/examples/alffplay.cpp
index a7633bfa..cfbe5564 100644
--- a/examples/alffplay.cpp
+++ b/examples/alffplay.cpp
@@ -1297,7 +1297,7 @@ int AudioState::handler()
                 mSamplesLen = decodeFrame();
                 mSamplesPos = mSamplesLen;
             } while(mSamplesLen > 0);
-            goto finish;
+            break;
         }
 
         ALenum state;
@@ -1378,7 +1378,6 @@ int AudioState::handler()
 
         mSrcCond.wait_for(srclock, sleep_time);
     }
-finish:
 
     alSourceRewind(mSource);
     alSourcei(mSource, AL_BUFFER, 0);
diff --git a/examples/almultireverb.c b/examples/almultireverb.c
index d1deae5a..f9a46c4f 100644
--- a/examples/almultireverb.c
+++ b/examples/almultireverb.c
@@ -108,7 +108,8 @@ static int LoadEffect(ALuint effect, const EFXEAXREVERBPROPERTIES *reverb)
      * the needed panning vectors).
      */
     alEffecti(effect, AL_EFFECT_TYPE, AL_EFFECT_EAXREVERB);
-    if((err=alGetError()) != AL_NO_ERROR)
+    err = alGetError();
+    if(err != AL_NO_ERROR)
     {
         fprintf(stderr, "Failed to set EAX Reverb: %s (0x%04x)\n", alGetString(err), err);
         return 0;
@@ -140,7 +141,8 @@ static int LoadEffect(ALuint effect, const EFXEAXREVERBPROPERTIES *reverb)
     alEffecti(effect, AL_EAXREVERB_DECAY_HFLIMIT, reverb->iDecayHFLimit);
 
     /* Check if an error occurred, and return failure if so. */
-    if((err=alGetError()) != AL_NO_ERROR)
+    err = alGetError();
+    if(err != AL_NO_ERROR)
     {
         fprintf(stderr, "Error setting up reverb: %s\n", alGetString(err));
         return 0;
diff --git a/examples/alstream.c b/examples/alstream.c
index c781f3d7..028290f5 100644
--- a/examples/alstream.c
+++ b/examples/alstream.c
@@ -294,7 +294,7 @@ static int OpenPlayerFile(StreamPlayer *player, const char *filename)
 
     player->block_count = player->sfinfo.samplerate / player->sampleblockalign;
     player->block_count = player->block_count * BufferMillisec / 1000;
-    player->membuf = malloc((size_t)(player->block_count * player->byteblockalign));
+    player->membuf = malloc((size_t)player->block_count * (size_t)player->byteblockalign);
 
     return 1;
 }
@@ -488,10 +488,9 @@ int main(int argc, char **argv)
 
         /* Get the name portion, without the path, for display. */
         namepart = strrchr(argv[i], '/');
-        if(namepart || (namepart=strrchr(argv[i], '\\')))
-            namepart++;
-        else
-            namepart = argv[i];
+        if(!namepart) namepart = strrchr(argv[i], '\\');
+        if(!namepart) namepart = argv[i];
+        else namepart++;
 
         printf("Playing: %s (%s, %dhz)\n", namepart, FormatName(player->format),
             player->sfinfo.samplerate);
diff --git a/examples/alstreamcb.cpp b/examples/alstreamcb.cpp
index 2da33b21..ebf3d3b0 100644
--- a/examples/alstreamcb.cpp
+++ b/examples/alstreamcb.cpp
@@ -195,12 +195,12 @@ struct StreamPlayer {
         if(mSampleFormat == SampleType::Int16)
         {
             mSamplesPerBlock = 1;
-            mBytesPerBlock = static_cast<size_t>(mSfInfo.channels * 2);
+            mBytesPerBlock = static_cast<size_t>(mSfInfo.channels) * 2;
         }
         else if(mSampleFormat == SampleType::Float)
         {
             mSamplesPerBlock = 1;
-            mBytesPerBlock = static_cast<size_t>(mSfInfo.channels * 4);
+            mBytesPerBlock = static_cast<size_t>(mSfInfo.channels) * 4;
         }
         else
         {
diff --git a/utils/makemhr/loaddef.cpp b/utils/makemhr/loaddef.cpp
index b33dbc75..05bcfd2e 100644
--- a/utils/makemhr/loaddef.cpp
+++ b/utils/makemhr/loaddef.cpp
@@ -907,7 +907,8 @@ static int ReadWaveList(std::istream &istream, const SourceRefT *src, const Byte
                 fprintf(stderr, "\nError: Bad read from file '%s'.\n", src->mPath.data());
                 return 0;
             }
-            istream.seekg(static_cast<long>(src->mOffset * block), std::ios::cur);
+            using off_type = std::istream::off_type;
+            istream.seekg(off_type(src->mOffset) * off_type(block), std::ios::cur);
             if(!ReadWaveData(istream, src, order, n, &hrir[0]))
                 return 0;
             return 1;
@@ -939,7 +940,8 @@ static int ReadWaveList(std::istream &istream, const SourceRefT *src, const Byte
             count = chunkSize / block;
             if(count > skip)
             {
-                istream.seekg(static_cast<long>(skip * block), std::ios::cur);
+                using off_type = std::istream::off_type;
+                istream.seekg(off_type(skip) * off_type(block), std::ios::cur);
                 chunkSize -= skip * block;
                 count -= skip;
                 skip = 0;
-- 
cgit v1.2.3


From 10ecdff7d1dfcc16bd2a090f089781310ea9a93d Mon Sep 17 00:00:00 2001
From: Chris Robinson <chris.kcat@gmail.com>
Date: Fri, 29 Dec 2023 03:39:58 -0800
Subject: Handle pointer ownership a bit better

---
 al/auxeffectslot.cpp               | 30 ++++++++++++-------------
 al/buffer.cpp                      | 10 ++++-----
 al/effect.cpp                      | 10 ++++-----
 al/filter.cpp                      | 10 ++++-----
 al/source.cpp                      | 15 +++++++------
 alc/alc.cpp                        | 46 ++++++++++++++++++++++++++------------
 alc/backends/wave.cpp              |  6 ++---
 alc/context.cpp                    |  4 ++--
 alc/context.h                      |  5 +++--
 alc/device.h                       |  7 +++---
 core/mastering.cpp                 | 13 ++++++-----
 utils/alsoft-config/mainwindow.cpp | 16 ++++++-------
 utils/makemhr/makemhr.cpp          | 31 +++++++++++++------------
 utils/uhjdecoder.cpp               |  3 ++-
 14 files changed, 115 insertions(+), 91 deletions(-)

(limited to 'utils/makemhr')

diff --git a/al/auxeffectslot.cpp b/al/auxeffectslot.cpp
index ea41a842..695c5788 100644
--- a/al/auxeffectslot.cpp
+++ b/al/auxeffectslot.cpp
@@ -96,7 +96,7 @@ inline ALeffectslot *LookupEffectSlot(ALCcontext *context, ALuint id) noexcept
     EffectSlotSubList &sublist{context->mEffectSlotList[lidx]};
     if(sublist.FreeMask & (1_u64 << slidx)) UNLIKELY
         return nullptr;
-    return sublist.EffectSlots + slidx;
+    return al::to_address(sublist.EffectSlots->begin() + slidx);
 }
 
 inline ALeffect *LookupEffect(ALCdevice *device, ALuint id) noexcept
@@ -109,7 +109,7 @@ inline ALeffect *LookupEffect(ALCdevice *device, ALuint id) noexcept
     EffectSubList &sublist = device->EffectList[lidx];
     if(sublist.FreeMask & (1_u64 << slidx)) UNLIKELY
         return nullptr;
-    return sublist.Effects + slidx;
+    return al::to_address(sublist.Effects->begin() + slidx);
 }
 
 inline ALbuffer *LookupBuffer(ALCdevice *device, ALuint id) noexcept
@@ -122,7 +122,7 @@ inline ALbuffer *LookupBuffer(ALCdevice *device, ALuint id) noexcept
     BufferSubList &sublist = device->BufferList[lidx];
     if(sublist.FreeMask & (1_u64 << slidx)) UNLIKELY
         return nullptr;
-    return sublist.Buffers + slidx;
+    return al::to_address(sublist.Buffers->begin() + slidx);
 }
 
 
@@ -246,8 +246,8 @@ bool EnsureEffectSlots(ALCcontext *context, size_t needed)
         context->mEffectSlotList.emplace_back();
         auto sublist = context->mEffectSlotList.end() - 1;
         sublist->FreeMask = ~0_u64;
-        sublist->EffectSlots = static_cast<gsl::owner<ALeffectslot*>>(
-            al_calloc(alignof(ALeffectslot), sizeof(ALeffectslot)*64));
+        sublist->EffectSlots = static_cast<gsl::owner<std::array<ALeffectslot,64>*>>(
+            al_calloc(alignof(ALeffectslot), sizeof(*sublist->EffectSlots)));
         if(!sublist->EffectSlots) UNLIKELY
         {
             context->mEffectSlotList.pop_back();
@@ -267,7 +267,8 @@ ALeffectslot *AllocEffectSlot(ALCcontext *context)
     auto slidx = static_cast<ALuint>(al::countr_zero(sublist->FreeMask));
     ASSUME(slidx < 64);
 
-    ALeffectslot *slot{al::construct_at(sublist->EffectSlots + slidx, context)};
+    ALeffectslot *slot{al::construct_at(al::to_address(sublist->EffectSlots->begin() + slidx),
+        context)};
     aluInitEffectPanning(slot->mSlot, context);
 
     /* Add 1 to avoid ID 0. */
@@ -875,12 +876,9 @@ ALeffectslot::~ALeffectslot()
         DecrementRef(Buffer->ref);
     Buffer = nullptr;
 
-    if(EffectSlotProps *props{mSlot->Update.exchange(nullptr)})
-    {
+    if(std::unique_ptr<EffectSlotProps> props{mSlot->Update.exchange(nullptr)})
         TRACE("Freed unapplied AuxiliaryEffectSlot update %p\n",
-            decltype(std::declval<void*>()){props});
-        delete props;
-    }
+            decltype(std::declval<void*>()){props.get()});
 
     mSlot->mEffectState = nullptr;
     mSlot->InUse = false;
@@ -983,12 +981,12 @@ void UpdateAllEffectSlotProps(ALCcontext *context)
         uint64_t usemask{~sublist.FreeMask};
         while(usemask)
         {
-            const int idx{al::countr_zero(usemask)};
+            const auto idx = static_cast<uint>(al::countr_zero(usemask));
             usemask &= ~(1_u64 << idx);
-            ALeffectslot *slot{sublist.EffectSlots + idx};
+            auto &slot = (*sublist.EffectSlots)[idx];
 
-            if(slot->mState != SlotState::Stopped && std::exchange(slot->mPropsDirty, false))
-                slot->updateProps(context);
+            if(slot.mState != SlotState::Stopped && std::exchange(slot.mPropsDirty, false))
+                slot.updateProps(context);
         }
     }
 }
@@ -1002,7 +1000,7 @@ EffectSlotSubList::~EffectSlotSubList()
     while(usemask)
     {
         const int idx{al::countr_zero(usemask)};
-        std::destroy_at(EffectSlots+idx);
+        std::destroy_at(al::to_address(EffectSlots->begin() + idx));
         usemask &= ~(1_u64 << idx);
     }
     FreeMask = ~usemask;
diff --git a/al/buffer.cpp b/al/buffer.cpp
index c0f3f348..46ef8ece 100644
--- a/al/buffer.cpp
+++ b/al/buffer.cpp
@@ -186,8 +186,8 @@ bool EnsureBuffers(ALCdevice *device, size_t needed)
         device->BufferList.emplace_back();
         auto sublist = device->BufferList.end() - 1;
         sublist->FreeMask = ~0_u64;
-        sublist->Buffers = static_cast<gsl::owner<ALbuffer*>>(al_calloc(alignof(ALbuffer),
-            sizeof(ALbuffer)*64));
+        sublist->Buffers = static_cast<gsl::owner<std::array<ALbuffer,64>*>>(al_calloc(
+            alignof(ALbuffer), sizeof(*sublist->Buffers)));
         if(!sublist->Buffers) UNLIKELY
         {
             device->BufferList.pop_back();
@@ -207,7 +207,7 @@ ALbuffer *AllocBuffer(ALCdevice *device)
     auto slidx = static_cast<ALuint>(al::countr_zero(sublist->FreeMask));
     ASSUME(slidx < 64);
 
-    ALbuffer *buffer{al::construct_at(sublist->Buffers + slidx)};
+    ALbuffer *buffer{al::construct_at(al::to_address(sublist->Buffers->begin() + slidx))};
 
     /* Add 1 to avoid buffer ID 0. */
     buffer->id = ((lidx<<6) | slidx) + 1;
@@ -244,7 +244,7 @@ inline ALbuffer *LookupBuffer(ALCdevice *device, ALuint id)
     BufferSubList &sublist = device->BufferList[lidx];
     if(sublist.FreeMask & (1_u64 << slidx)) UNLIKELY
         return nullptr;
-    return sublist.Buffers + slidx;
+    return al::to_address(sublist.Buffers->begin() + slidx);
 }
 
 
@@ -1486,7 +1486,7 @@ BufferSubList::~BufferSubList()
     while(usemask)
     {
         const int idx{al::countr_zero(usemask)};
-        std::destroy_at(Buffers+idx);
+        std::destroy_at(al::to_address(Buffers->begin() + idx));
         usemask &= ~(1_u64 << idx);
     }
     FreeMask = ~usemask;
diff --git a/al/effect.cpp b/al/effect.cpp
index c2a2d1b1..1024de80 100644
--- a/al/effect.cpp
+++ b/al/effect.cpp
@@ -134,8 +134,8 @@ bool EnsureEffects(ALCdevice *device, size_t needed)
         device->EffectList.emplace_back();
         auto sublist = device->EffectList.end() - 1;
         sublist->FreeMask = ~0_u64;
-        sublist->Effects = static_cast<gsl::owner<ALeffect*>>(al_calloc(alignof(ALeffect),
-            sizeof(ALeffect)*64));
+        sublist->Effects = static_cast<gsl::owner<std::array<ALeffect,64>*>>(al_calloc(
+            alignof(ALeffect), sizeof(*sublist->Effects)));
         if(!sublist->Effects) UNLIKELY
         {
             device->EffectList.pop_back();
@@ -155,7 +155,7 @@ ALeffect *AllocEffect(ALCdevice *device)
     auto slidx = static_cast<ALuint>(al::countr_zero(sublist->FreeMask));
     ASSUME(slidx < 64);
 
-    ALeffect *effect{al::construct_at(sublist->Effects + slidx)};
+    ALeffect *effect{al::construct_at(al::to_address(sublist->Effects->begin() + slidx))};
     InitEffectParams(effect, AL_EFFECT_NULL);
 
     /* Add 1 to avoid effect ID 0. */
@@ -189,7 +189,7 @@ inline ALeffect *LookupEffect(ALCdevice *device, ALuint id)
     EffectSubList &sublist = device->EffectList[lidx];
     if(sublist.FreeMask & (1_u64 << slidx)) UNLIKELY
         return nullptr;
-    return sublist.Effects + slidx;
+    return al::to_address(sublist.Effects->begin() + slidx);
 }
 
 } // namespace
@@ -568,7 +568,7 @@ EffectSubList::~EffectSubList()
     while(usemask)
     {
         const int idx{al::countr_zero(usemask)};
-        std::destroy_at(Effects+idx);
+        std::destroy_at(al::to_address(Effects->begin()+idx));
         usemask &= ~(1_u64 << idx);
     }
     FreeMask = ~usemask;
diff --git a/al/filter.cpp b/al/filter.cpp
index ce37b0aa..4a24a38f 100644
--- a/al/filter.cpp
+++ b/al/filter.cpp
@@ -129,8 +129,8 @@ bool EnsureFilters(ALCdevice *device, size_t needed)
         device->FilterList.emplace_back();
         auto sublist = device->FilterList.end() - 1;
         sublist->FreeMask = ~0_u64;
-        sublist->Filters = static_cast<gsl::owner<ALfilter*>>(al_calloc(alignof(ALfilter),
-            sizeof(ALfilter)*64));
+        sublist->Filters = static_cast<gsl::owner<std::array<ALfilter,64>*>>(al_calloc(
+            alignof(ALfilter), sizeof(*sublist->Filters)));
         if(!sublist->Filters) UNLIKELY
         {
             device->FilterList.pop_back();
@@ -151,7 +151,7 @@ ALfilter *AllocFilter(ALCdevice *device)
     auto slidx = static_cast<ALuint>(al::countr_zero(sublist->FreeMask));
     ASSUME(slidx < 64);
 
-    ALfilter *filter{al::construct_at(sublist->Filters + slidx)};
+    ALfilter *filter{al::construct_at(al::to_address(sublist->Filters->begin() + slidx))};
     InitFilterParams(filter, AL_FILTER_NULL);
 
     /* Add 1 to avoid filter ID 0. */
@@ -186,7 +186,7 @@ inline ALfilter *LookupFilter(ALCdevice *device, ALuint id)
     FilterSubList &sublist = device->FilterList[lidx];
     if(sublist.FreeMask & (1_u64 << slidx)) UNLIKELY
         return nullptr;
-    return sublist.Filters + slidx;
+    return al::to_address(sublist.Filters->begin() + slidx);
 }
 
 } // namespace
@@ -696,7 +696,7 @@ FilterSubList::~FilterSubList()
     while(usemask)
     {
         const int idx{al::countr_zero(usemask)};
-        std::destroy_at(Filters+idx);
+        std::destroy_at(al::to_address(Filters->begin() + idx));
         usemask &= ~(1_u64 << idx);
     }
     FreeMask = ~usemask;
diff --git a/al/source.cpp b/al/source.cpp
index bf96a769..1ac3bf28 100644
--- a/al/source.cpp
+++ b/al/source.cpp
@@ -729,7 +729,8 @@ bool EnsureSources(ALCcontext *context, size_t needed)
         context->mSourceList.emplace_back();
         auto sublist = context->mSourceList.end() - 1;
         sublist->FreeMask = ~0_u64;
-        sublist->Sources = static_cast<ALsource*>(al_calloc(alignof(ALsource), sizeof(ALsource)*64));
+        sublist->Sources = static_cast<gsl::owner<std::array<ALsource,64>*>>(al_calloc(
+            alignof(ALsource), sizeof(*sublist->Sources)));
         if(!sublist->Sources) UNLIKELY
         {
             context->mSourceList.pop_back();
@@ -749,7 +750,7 @@ ALsource *AllocSource(ALCcontext *context)
     auto slidx = static_cast<ALuint>(al::countr_zero(sublist->FreeMask));
     ASSUME(slidx < 64);
 
-    ALsource *source{al::construct_at(sublist->Sources + slidx)};
+    ALsource *source{al::construct_at(al::to_address(sublist->Sources->begin() + slidx))};
 
     /* Add 1 to avoid source ID 0. */
     source->id = ((lidx<<6) | slidx) + 1;
@@ -797,7 +798,7 @@ inline ALsource *LookupSource(ALCcontext *context, ALuint id) noexcept
     SourceSubList &sublist{context->mSourceList[lidx]};
     if(sublist.FreeMask & (1_u64 << slidx)) UNLIKELY
         return nullptr;
-    return sublist.Sources + slidx;
+    return al::to_address(sublist.Sources->begin() + slidx);
 }
 
 auto LookupBuffer = [](ALCdevice *device, auto id) noexcept -> ALbuffer*
@@ -810,7 +811,7 @@ auto LookupBuffer = [](ALCdevice *device, auto id) noexcept -> ALbuffer*
     BufferSubList &sublist = device->BufferList[static_cast<size_t>(lidx)];
     if(sublist.FreeMask & (1_u64 << slidx)) UNLIKELY
         return nullptr;
-    return sublist.Buffers + static_cast<size_t>(slidx);
+    return al::to_address(sublist.Buffers->begin() + static_cast<size_t>(slidx));
 };
 
 auto LookupFilter = [](ALCdevice *device, auto id) noexcept -> ALfilter*
@@ -823,7 +824,7 @@ auto LookupFilter = [](ALCdevice *device, auto id) noexcept -> ALfilter*
     FilterSubList &sublist = device->FilterList[static_cast<size_t>(lidx)];
     if(sublist.FreeMask & (1_u64 << slidx)) UNLIKELY
         return nullptr;
-    return sublist.Filters + static_cast<size_t>(slidx);
+    return al::to_address(sublist.Filters->begin() + static_cast<size_t>(slidx));
 };
 
 auto LookupEffectSlot = [](ALCcontext *context, auto id) noexcept -> ALeffectslot*
@@ -836,7 +837,7 @@ auto LookupEffectSlot = [](ALCcontext *context, auto id) noexcept -> ALeffectslo
     EffectSlotSubList &sublist{context->mEffectSlotList[static_cast<size_t>(lidx)]};
     if(sublist.FreeMask & (1_u64 << slidx)) UNLIKELY
         return nullptr;
-    return sublist.EffectSlots + static_cast<size_t>(slidx);
+    return al::to_address(sublist.EffectSlots->begin() + static_cast<size_t>(slidx));
 };
 
 
@@ -3639,7 +3640,7 @@ SourceSubList::~SourceSubList()
     {
         const int idx{al::countr_zero(usemask)};
         usemask &= ~(1_u64 << idx);
-        std::destroy_at(Sources+idx);
+        std::destroy_at(al::to_address(Sources->begin() + idx));
     }
     FreeMask = ~usemask;
     al_free(Sources);
diff --git a/alc/alc.cpp b/alc/alc.cpp
index 64b77080..ece65430 100644
--- a/alc/alc.cpp
+++ b/alc/alc.cpp
@@ -1682,16 +1682,16 @@ ALCenum UpdateDeviceParams(ALCdevice *device, const int *attrList)
             uint64_t usemask{~sublist.FreeMask};
             while(usemask)
             {
-                const int idx{al::countr_zero(usemask)};
-                ALeffectslot *slot{sublist.EffectSlots + idx};
+                const auto idx = static_cast<uint>(al::countr_zero(usemask));
+                auto &slot = (*sublist.EffectSlots)[idx];
                 usemask &= ~(1_u64 << idx);
 
-                aluInitEffectPanning(slot->mSlot, context);
+                aluInitEffectPanning(slot.mSlot, context);
 
-                EffectState *state{slot->Effect.State.get()};
+                EffectState *state{slot.Effect.State.get()};
                 state->mOutTarget = device->Dry.Buffer;
-                state->deviceUpdate(device, slot->Buffer);
-                slot->updateProps(context);
+                state->deviceUpdate(device, slot.Buffer);
+                slot.updateProps(context);
             }
         }
         slotlock.unlock();
@@ -1703,8 +1703,8 @@ ALCenum UpdateDeviceParams(ALCdevice *device, const int *attrList)
             uint64_t usemask{~sublist.FreeMask};
             while(usemask)
             {
-                const int idx{al::countr_zero(usemask)};
-                ALsource *source{sublist.Sources + idx};
+                const auto idx = static_cast<uint>(al::countr_zero(usemask));
+                auto &source = (*sublist.Sources)[idx];
                 usemask &= ~(1_u64 << idx);
 
                 auto clear_send = [](ALsource::SendData &send) -> void
@@ -1718,10 +1718,10 @@ ALCenum UpdateDeviceParams(ALCdevice *device, const int *attrList)
                     send.GainLF = 1.0f;
                     send.LFReference = HIGHPASSFREQREF;
                 };
-                auto send_begin = source->Send.begin() + static_cast<ptrdiff_t>(num_sends);
-                std::for_each(send_begin, source->Send.end(), clear_send);
+                auto send_begin = source.Send.begin() + static_cast<ptrdiff_t>(num_sends);
+                std::for_each(send_begin, source.Send.end(), clear_send);
 
-                source->mPropsDirty = true;
+                source.mPropsDirty = true;
             }
         }
 
@@ -2905,7 +2905,13 @@ ALC_API ALCdevice* ALC_APIENTRY alcOpenDevice(const ALCchar *deviceName) noexcep
         uint{DefaultSendCount}
     };
 
-    DeviceRef device{new ALCdevice{DeviceType::Playback}};
+    DeviceRef device{new(std::nothrow) ALCdevice{DeviceType::Playback}};
+    if(!device)
+    {
+        WARN("Failed to create playback device handle\n");
+        alcSetError(nullptr, ALC_OUT_OF_MEMORY);
+        return nullptr;
+    }
 
     /* Set output format */
     device->FmtChans = DevFmtChannelsDefault;
@@ -3040,7 +3046,13 @@ ALC_API ALCdevice* ALC_APIENTRY alcCaptureOpenDevice(const ALCchar *deviceName,
     else
         TRACE("Opening default capture device\n");
 
-    DeviceRef device{new ALCdevice{DeviceType::Capture}};
+    DeviceRef device{new(std::nothrow) ALCdevice{DeviceType::Capture}};
+    if(!device)
+    {
+        WARN("Failed to create capture device handle\n");
+        alcSetError(nullptr, ALC_OUT_OF_MEMORY);
+        return nullptr;
+    }
 
     auto decompfmt = DecomposeDevFormat(format);
     if(!decompfmt)
@@ -3220,7 +3232,13 @@ ALC_API ALCdevice* ALC_APIENTRY alcLoopbackOpenDeviceSOFT(const ALCchar *deviceN
         uint{DefaultSendCount}
     };
 
-    DeviceRef device{new ALCdevice{DeviceType::Loopback}};
+    DeviceRef device{new(std::nothrow) ALCdevice{DeviceType::Loopback}};
+    if(!device)
+    {
+        WARN("Failed to create loopback device handle\n");
+        alcSetError(nullptr, ALC_OUT_OF_MEMORY);
+        return nullptr;
+    }
 
     device->SourcesMax = 256;
     device->AuxiliaryEffectSlotMax = 64;
diff --git a/alc/backends/wave.cpp b/alc/backends/wave.cpp
index 60cebd7f..985bb539 100644
--- a/alc/backends/wave.cpp
+++ b/alc/backends/wave.cpp
@@ -56,7 +56,7 @@ using ubyte = unsigned char;
 using ushort = unsigned short;
 
 struct FileDeleter {
-    void operator()(FILE *f) { fclose(f); }
+    void operator()(gsl::owner<FILE*> f) { fclose(f); }
 };
 using FilePtr = std::unique_ptr<FILE,FileDeleter>;
 
@@ -211,10 +211,10 @@ void WaveBackend::open(std::string_view name)
 #ifdef _WIN32
     {
         std::wstring wname{utf8_to_wstr(fname.value())};
-        mFile.reset(_wfopen(wname.c_str(), L"wb"));
+        mFile = FilePtr{_wfopen(wname.c_str(), L"wb")};
     }
 #else
-    mFile.reset(fopen(fname->c_str(), "wb"));
+    mFile = FilePtr{fopen(fname->c_str(), "wb")};
 #endif
     if(!mFile)
         throw al::backend_exception{al::backend_error::DeviceError, "Could not open file '%s': %s",
diff --git a/alc/context.cpp b/alc/context.cpp
index b5db03f9..0f6dbbae 100644
--- a/alc/context.cpp
+++ b/alc/context.cpp
@@ -338,10 +338,10 @@ void ForEachSource(ALCcontext *context, F func)
         uint64_t usemask{~sublist.FreeMask};
         while(usemask)
         {
-            const int idx{al::countr_zero(usemask)};
+            const auto idx = static_cast<uint>(al::countr_zero(usemask));
             usemask &= ~(1_u64 << idx);
 
-            func(sublist.Sources[idx]);
+            func((*sublist.Sources)[idx]);
         }
     }
 }
diff --git a/alc/context.h b/alc/context.h
index d5e5e78b..d033c08e 100644
--- a/alc/context.h
+++ b/alc/context.h
@@ -1,6 +1,7 @@
 #ifndef ALC_CONTEXT_H
 #define ALC_CONTEXT_H
 
+#include <array>
 #include <atomic>
 #include <deque>
 #include <memory>
@@ -70,7 +71,7 @@ struct DebugLogEntry {
 
 struct SourceSubList {
     uint64_t FreeMask{~0_u64};
-    gsl::owner<ALsource*> Sources{nullptr}; /* 64 */
+    gsl::owner<std::array<ALsource,64>*> Sources{nullptr};
 
     SourceSubList() noexcept = default;
     SourceSubList(const SourceSubList&) = delete;
@@ -85,7 +86,7 @@ struct SourceSubList {
 
 struct EffectSlotSubList {
     uint64_t FreeMask{~0_u64};
-    gsl::owner<ALeffectslot*> EffectSlots{nullptr}; /* 64 */
+    gsl::owner<std::array<ALeffectslot,64>*> EffectSlots{nullptr};
 
     EffectSlotSubList() noexcept = default;
     EffectSlotSubList(const EffectSlotSubList&) = delete;
diff --git a/alc/device.h b/alc/device.h
index e5e9b3d2..fe9dff67 100644
--- a/alc/device.h
+++ b/alc/device.h
@@ -1,6 +1,7 @@
 #ifndef ALC_DEVICE_H
 #define ALC_DEVICE_H
 
+#include <array>
 #include <atomic>
 #include <memory>
 #include <mutex>
@@ -35,7 +36,7 @@ using uint = unsigned int;
 
 struct BufferSubList {
     uint64_t FreeMask{~0_u64};
-    gsl::owner<ALbuffer*> Buffers{nullptr}; /* 64 */
+    gsl::owner<std::array<ALbuffer,64>*> Buffers{nullptr};
 
     BufferSubList() noexcept = default;
     BufferSubList(const BufferSubList&) = delete;
@@ -50,7 +51,7 @@ struct BufferSubList {
 
 struct EffectSubList {
     uint64_t FreeMask{~0_u64};
-    gsl::owner<ALeffect*> Effects{nullptr}; /* 64 */
+    gsl::owner<std::array<ALeffect,64>*> Effects{nullptr}; /* 64 */
 
     EffectSubList() noexcept = default;
     EffectSubList(const EffectSubList&) = delete;
@@ -65,7 +66,7 @@ struct EffectSubList {
 
 struct FilterSubList {
     uint64_t FreeMask{~0_u64};
-    gsl::owner<ALfilter*> Filters{nullptr}; /* 64 */
+    gsl::owner<std::array<ALfilter,64>*> Filters{nullptr};
 
     FilterSubList() noexcept = default;
     FilterSubList(const FilterSubList&) = delete;
diff --git a/core/mastering.cpp b/core/mastering.cpp
index e9b079d6..5fecdb3f 100644
--- a/core/mastering.cpp
+++ b/core/mastering.cpp
@@ -318,10 +318,10 @@ std::unique_ptr<Compressor> Compressor::Create(const size_t NumChans, const floa
     const float PostGainDb, const float ThresholdDb, const float Ratio, const float KneeDb,
     const float AttackTime, const float ReleaseTime)
 {
-    const auto lookAhead = static_cast<uint>(
-        clampf(std::round(LookAheadTime*SampleRate), 0.0f, BufferLineSize-1));
-    const auto hold = static_cast<uint>(
-        clampf(std::round(HoldTime*SampleRate), 0.0f, BufferLineSize-1));
+    const auto lookAhead = static_cast<uint>(clampf(std::round(LookAheadTime*SampleRate), 0.0f,
+        BufferLineSize-1));
+    const auto hold = static_cast<uint>(clampf(std::round(HoldTime*SampleRate), 0.0f,
+        BufferLineSize-1));
 
     size_t size{sizeof(Compressor)};
     if(lookAhead > 0)
@@ -335,7 +335,10 @@ std::unique_ptr<Compressor> Compressor::Create(const size_t NumChans, const floa
             size += sizeof(*Compressor::mHold);
     }
 
-    auto Comp = CompressorPtr{al::construct_at(static_cast<Compressor*>(al_calloc(16, size)))};
+    gsl::owner<void*> storage{al_calloc(16, size)};
+    if(!storage) throw std::bad_alloc{};
+
+    auto Comp = CompressorPtr{::new(storage) Compressor{}};
     Comp->mNumChans = NumChans;
     Comp->mAuto.Knee = AutoKnee;
     Comp->mAuto.Attack = AutoAttack;
diff --git a/utils/alsoft-config/mainwindow.cpp b/utils/alsoft-config/mainwindow.cpp
index b2412c73..9a65f79c 100644
--- a/utils/alsoft-config/mainwindow.cpp
+++ b/utils/alsoft-config/mainwindow.cpp
@@ -20,6 +20,7 @@
 #include <shlobj.h>
 #endif
 
+#include "almalloc.h"
 #include "alspan.h"
 
 namespace {
@@ -1283,11 +1284,10 @@ void MainWindow::addHrtfFile()
 
 void MainWindow::removeHrtfFile()
 {
-    QList<QListWidgetItem*> selected{ui->hrtfFileList->selectedItems()};
+    QList<gsl::owner<QListWidgetItem*>> selected{ui->hrtfFileList->selectedItems()};
     if(!selected.isEmpty())
     {
-        foreach(QListWidgetItem *item, selected)
-            delete item;
+        std::for_each(selected.begin(), selected.end(), std::default_delete<QListWidgetItem>{});
         enableApplyButton();
     }
 }
@@ -1321,9 +1321,8 @@ void MainWindow::showEnabledBackendMenu(QPoint pt)
     QAction *gotAction{ctxmenu.exec(pt)};
     if(gotAction == removeAction)
     {
-        QList<QListWidgetItem*> selected{ui->enabledBackendList->selectedItems()};
-        foreach(QListWidgetItem *item, selected)
-            delete item;
+        QList<gsl::owner<QListWidgetItem*>> selected{ui->enabledBackendList->selectedItems()};
+        std::for_each(selected.begin(), selected.end(), std::default_delete<QListWidgetItem>{});
         enableApplyButton();
     }
     else if(gotAction != nullptr)
@@ -1359,9 +1358,8 @@ void MainWindow::showDisabledBackendMenu(QPoint pt)
     QAction *gotAction{ctxmenu.exec(pt)};
     if(gotAction == removeAction)
     {
-        QList<QListWidgetItem*> selected{ui->disabledBackendList->selectedItems()};
-        foreach(QListWidgetItem *item, selected)
-            delete item;
+        QList<gsl::owner<QListWidgetItem*>> selected{ui->disabledBackendList->selectedItems()};
+        std::for_each(selected.begin(), selected.end(), std::default_delete<QListWidgetItem>{});
         enableApplyButton();
     }
     else if(gotAction != nullptr)
diff --git a/utils/makemhr/makemhr.cpp b/utils/makemhr/makemhr.cpp
index f14110c0..0a9b71e7 100644
--- a/utils/makemhr/makemhr.cpp
+++ b/utils/makemhr/makemhr.cpp
@@ -104,6 +104,11 @@ HrirDataT::~HrirDataT() = default;
 
 namespace {
 
+struct FileDeleter {
+    void operator()(gsl::owner<FILE*> f) { fclose(f); }
+};
+using FilePtr = std::unique_ptr<FILE,FileDeleter>;
+
 using namespace std::placeholders;
 
 // The epsilon used to maintain signal stability.
@@ -312,7 +317,6 @@ static int WriteAscii(const char *out, FILE *fp, const char *filename)
     len = strlen(out);
     if(fwrite(out, 1, len, fp) != len)
     {
-        fclose(fp);
         fprintf(stderr, "\nError: Bad write to file '%s'.\n", filename);
         return 0;
     }
@@ -343,33 +347,33 @@ static int StoreMhr(const HrirDataT *hData, const char *filename)
     uint dither_seed{22222};
     uint fi, ei, ai, i;
 
-    FILE *fp{fopen(filename, "wb")};
+    FilePtr fp{fopen(filename, "wb")};
     if(!fp)
     {
         fprintf(stderr, "\nError: Could not open MHR file '%s'.\n", filename);
         return 0;
     }
-    if(!WriteAscii(MHRFormat, fp, filename))
+    if(!WriteAscii(MHRFormat, fp.get(), filename))
         return 0;
-    if(!WriteBin4(4, hData->mIrRate, fp, filename))
+    if(!WriteBin4(4, hData->mIrRate, fp.get(), filename))
         return 0;
-    if(!WriteBin4(1, static_cast<uint32_t>(hData->mChannelType), fp, filename))
+    if(!WriteBin4(1, static_cast<uint32_t>(hData->mChannelType), fp.get(), filename))
         return 0;
-    if(!WriteBin4(1, hData->mIrPoints, fp, filename))
+    if(!WriteBin4(1, hData->mIrPoints, fp.get(), filename))
         return 0;
-    if(!WriteBin4(1, static_cast<uint>(hData->mFds.size()), fp, filename))
+    if(!WriteBin4(1, static_cast<uint>(hData->mFds.size()), fp.get(), filename))
         return 0;
     for(fi = static_cast<uint>(hData->mFds.size()-1);fi < hData->mFds.size();fi--)
     {
         auto fdist = static_cast<uint32_t>(std::round(1000.0 * hData->mFds[fi].mDistance));
-        if(!WriteBin4(2, fdist, fp, filename))
+        if(!WriteBin4(2, fdist, fp.get(), filename))
             return 0;
-        if(!WriteBin4(1, static_cast<uint32_t>(hData->mFds[fi].mEvs.size()), fp, filename))
+        if(!WriteBin4(1, static_cast<uint32_t>(hData->mFds[fi].mEvs.size()), fp.get(), filename))
             return 0;
         for(ei = 0;ei < hData->mFds[fi].mEvs.size();ei++)
         {
             const auto &elev = hData->mFds[fi].mEvs[ei];
-            if(!WriteBin4(1, static_cast<uint32_t>(elev.mAzs.size()), fp, filename))
+            if(!WriteBin4(1, static_cast<uint32_t>(elev.mAzs.size()), fp.get(), filename))
                 return 0;
         }
     }
@@ -392,7 +396,7 @@ static int StoreMhr(const HrirDataT *hData, const char *filename)
                 for(i = 0;i < (channels * n);i++)
                 {
                     const auto v = static_cast<int>(Clamp(out[i], -scale-1.0, scale));
-                    if(!WriteBin4(bps, static_cast<uint32_t>(v), fp, filename))
+                    if(!WriteBin4(bps, static_cast<uint32_t>(v), fp.get(), filename))
                         return 0;
                 }
             }
@@ -407,16 +411,15 @@ static int StoreMhr(const HrirDataT *hData, const char *filename)
             for(const auto &azd : hData->mFds[fi].mEvs[ei].mAzs)
             {
                 auto v = static_cast<uint>(std::round(azd.mDelays[0]*DelayPrecScale));
-                if(!WriteBin4(1, v, fp, filename)) return 0;
+                if(!WriteBin4(1, v, fp.get(), filename)) return 0;
                 if(hData->mChannelType == CT_STEREO)
                 {
                     v = static_cast<uint>(std::round(azd.mDelays[1]*DelayPrecScale));
-                    if(!WriteBin4(1, v, fp, filename)) return 0;
+                    if(!WriteBin4(1, v, fp.get(), filename)) return 0;
                 }
             }
         }
     }
-    fclose(fp);
     return 1;
 }
 
diff --git a/utils/uhjdecoder.cpp b/utils/uhjdecoder.cpp
index 8f0d2006..970d9f82 100644
--- a/utils/uhjdecoder.cpp
+++ b/utils/uhjdecoder.cpp
@@ -35,6 +35,7 @@
 
 #include "albit.h"
 #include "alcomplex.h"
+#include "almalloc.h"
 #include "alnumbers.h"
 #include "alspan.h"
 #include "vector.h"
@@ -47,7 +48,7 @@
 
 
 struct FileDeleter {
-    void operator()(FILE *file) { fclose(file); }
+    void operator()(gsl::owner<FILE*> file) { fclose(file); }
 };
 using FilePtr = std::unique_ptr<FILE,FileDeleter>;
 
-- 
cgit v1.2.3


From ba4f633a9e778b3d94f2e21d124cad2baf05a6b4 Mon Sep 17 00:00:00 2001
From: Chris Robinson <chris.kcat@gmail.com>
Date: Sun, 31 Dec 2023 04:46:35 -0800
Subject: Implement our own cache for MYSOFA_EASY objects

This is to both fix the potential issue of libmysofa calling free() on memory
we allocated with calloc (which can be an issue if it linked to a different C
runtime), and work around the code checker thinking the MYSOFA_EASY object
leaks when mysofa_close and mysofa_cache_store are taking ownership of it.
---
 utils/makemhr/loaddef.cpp | 53 ++++++++++++++++++++++++++++++++++-------------
 1 file changed, 39 insertions(+), 14 deletions(-)

(limited to 'utils/makemhr')

diff --git a/utils/makemhr/loaddef.cpp b/utils/makemhr/loaddef.cpp
index 05bcfd2e..f01e93fc 100644
--- a/utils/makemhr/loaddef.cpp
+++ b/utils/makemhr/loaddef.cpp
@@ -34,6 +34,8 @@
 #include <limits>
 #include <memory>
 #include <optional>
+#include <string>
+#include <string_view>
 #include <vector>
 
 #include "albit.h"
@@ -1073,15 +1075,39 @@ static int LoadWaveSource(std::istream &istream, SourceRefT *src, const uint hri
 }
 
 
+namespace {
+
+struct SofaEasyDeleter {
+    void operator()(gsl::owner<MYSOFA_EASY*> sofa)
+    {
+        if(sofa->neighborhood) mysofa_neighborhood_free(sofa->neighborhood);
+        if(sofa->lookup) mysofa_lookup_free(sofa->lookup);
+        if(sofa->hrtf) mysofa_free(sofa->hrtf);
+        delete sofa;
+    }
+};
+using SofaEasyPtr = std::unique_ptr<MYSOFA_EASY,SofaEasyDeleter>;
+
+struct SofaCacheEntry {
+    std::string mName;
+    uint mSampleRate{};
+    SofaEasyPtr mSofa;
+};
+std::vector<SofaCacheEntry> gSofaCache;
+
+} // namespace
 
 // Load a Spatially Oriented Format for Accoustics (SOFA) file.
 static MYSOFA_EASY* LoadSofaFile(SourceRefT *src, const uint hrirRate, const uint n)
 {
-    MYSOFA_EASY *sofa{mysofa_cache_lookup(src->mPath.data(), static_cast<float>(hrirRate))};
-    if(sofa) return sofa;
-
-    sofa = static_cast<MYSOFA_EASY*>(calloc(1, sizeof(*sofa)));
-    if(sofa == nullptr)
+    const std::string_view srcname{src->mPath.data()};
+    auto iter = std::find_if(gSofaCache.begin(), gSofaCache.end(),
+        [srcname,hrirRate](SofaCacheEntry &entry) -> bool
+        { return entry.mName == srcname && entry.mSampleRate == hrirRate; });
+    if(iter != gSofaCache.end()) return iter->mSofa.get();
+
+    SofaEasyPtr sofa{new(std::nothrow) MYSOFA_EASY{}};
+    if(!sofa)
     {
         fprintf(stderr, "\nError:  Out of memory.\n");
         return nullptr;
@@ -1093,23 +1119,22 @@ static MYSOFA_EASY* LoadSofaFile(SourceRefT *src, const uint hrirRate, const uin
     sofa->hrtf = mysofa_load(src->mPath.data(), &err);
     if(!sofa->hrtf)
     {
-        mysofa_close(sofa);
-        fprintf(stderr, "\nError: Could not load source file '%s'.\n", src->mPath.data());
+        fprintf(stderr, "\nError: Could not load source file '%s' (error: %d).\n",
+            src->mPath.data(), err);
         return nullptr;
     }
     /* NOTE: Some valid SOFA files are failing this check. */
     err = mysofa_check(sofa->hrtf);
     if(err != MYSOFA_OK)
-        fprintf(stderr, "\nWarning: Supposedly malformed source file '%s'.\n", src->mPath.data());
+        fprintf(stderr, "\nWarning: Supposedly malformed source file '%s' (error: %d).\n",
+            src->mPath.data(), err);
     if((src->mOffset + n) > sofa->hrtf->N)
     {
-        mysofa_close(sofa);
         fprintf(stderr, "\nError: Not enough samples in SOFA file '%s'.\n", src->mPath.data());
         return nullptr;
     }
     if(src->mChannel >= sofa->hrtf->R)
     {
-        mysofa_close(sofa);
         fprintf(stderr, "\nError: Missing source receiver in SOFA file '%s'.\n",src->mPath.data());
         return nullptr;
     }
@@ -1117,11 +1142,11 @@ static MYSOFA_EASY* LoadSofaFile(SourceRefT *src, const uint hrirRate, const uin
     sofa->lookup = mysofa_lookup_init(sofa->hrtf);
     if(sofa->lookup == nullptr)
     {
-        mysofa_close(sofa);
         fprintf(stderr, "\nError:  Out of memory.\n");
         return nullptr;
     }
-    return mysofa_cache_store(sofa, src->mPath.data(), static_cast<float>(hrirRate));
+    gSofaCache.emplace_back(SofaCacheEntry{std::string{srcname}, hrirRate, std::move(sofa)});
+    return gSofaCache.back().mSofa.get();
 }
 
 // Copies the HRIR data from a particular SOFA measurement.
@@ -2027,12 +2052,12 @@ static int ProcessSources(TokenReaderT *tr, HrirDataT *hData, const uint outRate
     }
     if(!TrLoad(tr))
     {
-        mysofa_cache_release_all();
+        gSofaCache.clear();
         return 1;
     }
 
     TrError(tr, "Errant data at end of source list.\n");
-    mysofa_cache_release_all();
+    gSofaCache.clear();
     return 0;
 }
 
-- 
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