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authorChris Robinson <[email protected]>2023-05-04 11:39:13 -0700
committerChris Robinson <[email protected]>2023-05-04 11:39:13 -0700
commit7cbf3ba2e2bab5c3aecb001e1d387c89309dbec4 (patch)
tree6fae4aae25d87e7435b2f0b0936b822360851c9b /utils
parent6e0a0a2692a4303d6410c24bf83e09ca47ac6759 (diff)
Use std::byte instead of a custom al::byte
Diffstat (limited to 'utils')
-rw-r--r--utils/uhjdecoder.cpp53
1 files changed, 26 insertions, 27 deletions
diff --git a/utils/uhjdecoder.cpp b/utils/uhjdecoder.cpp
index 6d992e30..c7efa376 100644
--- a/utils/uhjdecoder.cpp
+++ b/utils/uhjdecoder.cpp
@@ -26,15 +26,14 @@
#include <array>
#include <complex>
+#include <cstddef>
#include <cstring>
#include <memory>
-#include <stddef.h>
#include <string>
#include <utility>
#include <vector>
#include "albit.h"
-#include "albyte.h"
#include "alcomplex.h"
#include "almalloc.h"
#include "alnumbers.h"
@@ -64,7 +63,7 @@ using ushort = unsigned short;
using uint = unsigned int;
using complex_d = std::complex<double>;
-using byte4 = std::array<al::byte,4>;
+using byte4 = std::array<std::byte,4>;
constexpr ubyte SUBTYPE_BFORMAT_FLOAT[]{
@@ -113,7 +112,7 @@ using FloatBufferSpan = al::span<float,BufferLineSize>;
struct UhjDecoder {
- constexpr static size_t sFilterDelay{1024};
+ constexpr static std::size_t sFilterDelay{1024};
alignas(16) std::array<float,BufferLineSize+sFilterDelay> mS{};
alignas(16) std::array<float,BufferLineSize+sFilterDelay> mD{};
@@ -126,10 +125,10 @@ struct UhjDecoder {
alignas(16) std::array<float,BufferLineSize + sFilterDelay*2> mTemp{};
- void decode(const float *RESTRICT InSamples, const size_t InChannels,
- const al::span<FloatBufferLine> OutSamples, const size_t SamplesToDo);
+ void decode(const float *RESTRICT InSamples, const std::size_t InChannels,
+ const al::span<FloatBufferLine> OutSamples, const std::size_t SamplesToDo);
void decode2(const float *RESTRICT InSamples, const al::span<FloatBufferLine> OutSamples,
- const size_t SamplesToDo);
+ const std::size_t SamplesToDo);
DEF_NEWDEL(UhjDecoder)
};
@@ -210,8 +209,8 @@ const PhaseShifterT<UhjDecoder::sFilterDelay*2> PShift{};
*
* Not halving produces a result matching the original input.
*/
-void UhjDecoder::decode(const float *RESTRICT InSamples, const size_t InChannels,
- const al::span<FloatBufferLine> OutSamples, const size_t SamplesToDo)
+void UhjDecoder::decode(const float *RESTRICT InSamples, const std::size_t InChannels,
+ const al::span<FloatBufferLine> OutSamples, const std::size_t SamplesToDo)
{
ASSUME(SamplesToDo > 0);
@@ -224,23 +223,23 @@ void UhjDecoder::decode(const float *RESTRICT InSamples, const size_t InChannels
*/
/* S = Left + Right */
- for(size_t i{0};i < SamplesToDo;++i)
+ for(std::size_t i{0};i < SamplesToDo;++i)
mS[sFilterDelay+i] = InSamples[i*InChannels + 0] + InSamples[i*InChannels + 1];
/* D = Left - Right */
- for(size_t i{0};i < SamplesToDo;++i)
+ for(std::size_t i{0};i < SamplesToDo;++i)
mD[sFilterDelay+i] = InSamples[i*InChannels + 0] - InSamples[i*InChannels + 1];
if(InChannels > 2)
{
/* T */
- for(size_t i{0};i < SamplesToDo;++i)
+ for(std::size_t i{0};i < SamplesToDo;++i)
mT[sFilterDelay+i] = InSamples[i*InChannels + 2];
}
if(InChannels > 3)
{
/* Q */
- for(size_t i{0};i < SamplesToDo;++i)
+ for(std::size_t i{0};i < SamplesToDo;++i)
mQ[sFilterDelay+i] = InSamples[i*InChannels + 3];
}
@@ -251,7 +250,7 @@ void UhjDecoder::decode(const float *RESTRICT InSamples, const size_t InChannels
std::copy_n(mTemp.cbegin()+SamplesToDo, mDTHistory.size(), mDTHistory.begin());
PShift.process({xoutput, SamplesToDo}, mTemp.data());
- for(size_t i{0};i < SamplesToDo;++i)
+ for(std::size_t i{0};i < SamplesToDo;++i)
{
/* W = 0.981532*S + 0.197484*j(0.828331*D + 0.767820*T) */
woutput[i] = 0.981532f*mS[i] + 0.197484f*xoutput[i];
@@ -265,7 +264,7 @@ void UhjDecoder::decode(const float *RESTRICT InSamples, const size_t InChannels
std::copy_n(mTemp.cbegin()+SamplesToDo, mSHistory.size(), mSHistory.begin());
PShift.process({youtput, SamplesToDo}, mTemp.data());
- for(size_t i{0};i < SamplesToDo;++i)
+ for(std::size_t i{0};i < SamplesToDo;++i)
{
/* Y = 0.795968*D - 0.676392*T + j(0.186633*S) */
youtput[i] = 0.795968f*mD[i] - 0.676392f*mT[i] + 0.186633f*youtput[i];
@@ -275,7 +274,7 @@ void UhjDecoder::decode(const float *RESTRICT InSamples, const size_t InChannels
{
float *zoutput{OutSamples[3].data()};
/* Z = 1.023332*Q */
- for(size_t i{0};i < SamplesToDo;++i)
+ for(std::size_t i{0};i < SamplesToDo;++i)
zoutput[i] = 1.023332f*mQ[i];
}
@@ -305,7 +304,7 @@ void UhjDecoder::decode(const float *RESTRICT InSamples, const size_t InChannels
* halving here is merely a -6dB reduction in output, but it's still incorrect.
*/
void UhjDecoder::decode2(const float *RESTRICT InSamples,
- const al::span<FloatBufferLine> OutSamples, const size_t SamplesToDo)
+ const al::span<FloatBufferLine> OutSamples, const std::size_t SamplesToDo)
{
ASSUME(SamplesToDo > 0);
@@ -314,11 +313,11 @@ void UhjDecoder::decode2(const float *RESTRICT InSamples,
float *youtput{OutSamples[2].data()};
/* S = Left + Right */
- for(size_t i{0};i < SamplesToDo;++i)
+ for(std::size_t i{0};i < SamplesToDo;++i)
mS[sFilterDelay+i] = InSamples[i*2 + 0] + InSamples[i*2 + 1];
/* D = Left - Right */
- for(size_t i{0};i < SamplesToDo;++i)
+ for(std::size_t i{0};i < SamplesToDo;++i)
mD[sFilterDelay+i] = InSamples[i*2 + 0] - InSamples[i*2 + 1];
/* Precompute j*D and store in xoutput. */
@@ -327,7 +326,7 @@ void UhjDecoder::decode2(const float *RESTRICT InSamples,
std::copy_n(mTemp.cbegin()+SamplesToDo, mDTHistory.size(), mDTHistory.begin());
PShift.process({xoutput, SamplesToDo}, mTemp.data());
- for(size_t i{0};i < SamplesToDo;++i)
+ for(std::size_t i{0};i < SamplesToDo;++i)
{
/* W = 0.981530*S + j*0.163585*D */
woutput[i] = 0.981530f*mS[i] + 0.163585f*xoutput[i];
@@ -341,7 +340,7 @@ void UhjDecoder::decode2(const float *RESTRICT InSamples,
std::copy_n(mTemp.cbegin()+SamplesToDo, mSHistory.size(), mSHistory.begin());
PShift.process({youtput, SamplesToDo}, mTemp.data());
- for(size_t i{0};i < SamplesToDo;++i)
+ for(std::size_t i{0};i < SamplesToDo;++i)
{
/* Y = 0.762956*D + j*0.384230*S */
youtput[i] = 0.762956f*mD[i] + 0.384230f*youtput[i];
@@ -368,7 +367,7 @@ int main(int argc, char **argv)
return 1;
}
- size_t num_files{0}, num_decoded{0};
+ std::size_t num_files{0}, num_decoded{0};
bool use_general{true};
for(int fidx{1};fidx < argc;++fidx)
{
@@ -473,7 +472,7 @@ int main(int argc, char **argv)
* be fed through the decoder after reaching the end of the input file
* to ensure none of the original input is lost.
*/
- size_t LeadIn{UhjDecoder::sFilterDelay};
+ std::size_t LeadIn{UhjDecoder::sFilterDelay};
sf_count_t LeadOut{UhjDecoder::sFilterDelay};
while(LeadOut > 0)
{
@@ -487,7 +486,7 @@ int main(int argc, char **argv)
LeadOut -= remaining;
}
- auto got = static_cast<size_t>(sgot);
+ 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);
else
@@ -499,16 +498,16 @@ int main(int argc, char **argv)
}
got -= LeadIn;
- for(size_t i{0};i < got;++i)
+ for(std::size_t i{0};i < got;++i)
{
/* Attenuate by -3dB for FuMa output levels. */
constexpr auto inv_sqrt2 = static_cast<float>(1.0/al::numbers::sqrt2);
- for(size_t j{0};j < outchans;++j)
+ for(std::size_t j{0};j < outchans;++j)
outmem[i*outchans + j] = f32AsLEBytes(decmem[j][LeadIn+i] * inv_sqrt2);
}
LeadIn = 0;
- size_t wrote{fwrite(outmem.get(), sizeof(byte4)*outchans, got, outfile.get())};
+ std::size_t wrote{fwrite(outmem.get(), sizeof(byte4)*outchans, got, outfile.get())};
if(wrote < got)
{
fprintf(stderr, "Error writing wave data: %s (%d)\n", strerror(errno), errno);