Use PCMAudioProvider to read from the cache in HDAudioProvider as it's far faster than the naive logic previously used

Originally committed to SVN as r6107.
This commit is contained in:
Thomas Goyne 2011-12-22 21:26:21 +00:00
parent 70dce930e6
commit 4c31490d41
2 changed files with 103 additions and 118 deletions

View file

@ -42,120 +42,113 @@
#endif
#include <libaegisub/background_runner.h>
#include <libaegisub/io.h>
#include "audio_provider_hd.h"
#include "audio_provider_pcm.h"
#include "compat.h"
#include "main.h"
#include "standard_paths.h"
#include "utils.h"
HDAudioProvider::HDAudioProvider(AudioProvider *src, agi::BackgroundRunner *br) {
std::auto_ptr<AudioProvider> source(src);
// Copy parameters
bytes_per_sample = source->GetBytesPerSample();
num_samples = source->GetNumSamples();
channels = source->GetChannels();
sample_rate = source->GetSampleRate();
filename = source->GetFilename();
samples_native_endian = source->AreSamplesNativeEndian();
// Check free space
wxLongLong freespace;
if (wxGetDiskSpace(DiskCachePath(), NULL, &freespace)) {
if (num_samples * channels * bytes_per_sample > freespace) {
throw AudioOpenError("Not enough free disk space in " + STD_STR(DiskCachePath()) + " to cache the audio");
}
}
// Open output file
diskCacheFilename = DiskCacheName();
file_cache.Create(diskCacheFilename,true,wxS_DEFAULT);
file_cache.Open(diskCacheFilename,wxFile::read_write);
if (!file_cache.IsOpened()) throw AudioOpenError("Unable to write to audio disk cache.");
br->Run(bind(&HDAudioProvider::FillCache, this, src, std::tr1::placeholders::_1));
}
HDAudioProvider::~HDAudioProvider() {
file_cache.Close();
wxRemoveFile(diskCacheFilename);
delete[] data;
}
void HDAudioProvider::FillCache(AudioProvider *src, agi::ProgressSink *ps) {
ps->SetMessage(STD_STR(_("Reading to Hard Disk cache")));
int64_t block = 4096;
data = new char[block * channels * bytes_per_sample];
for (int64_t i = 0; i < num_samples; i += block) {
block = std::min(block, num_samples - i);
src->GetAudio(data, i, block);
file_cache.Write(data, block * channels * bytes_per_sample);
ps->SetProgress(i, num_samples);
if (ps->IsCancelled()) {
file_cache.Close();
wxRemoveFile(diskCacheFilename);
delete[] data;
}
}
file_cache.Seek(0);
}
void HDAudioProvider::GetAudio(void *buf, int64_t start, int64_t count) const {
// Requested beyond the length of audio
if (start+count > num_samples) {
int64_t oldcount = count;
count = num_samples-start;
if (count < 0) count = 0;
// Fill beyond with zero
if (bytes_per_sample == 1) {
char *temp = (char *) buf;
for (int i=count;i<oldcount;i++) {
temp[i] = 0;
}
}
if (bytes_per_sample == 2) {
short *temp = (short *) buf;
for (int i=count;i<oldcount;i++) {
temp[i] = 0;
}
}
}
if (count) {
wxMutexLocker disklock(diskmutex);
file_cache.Seek(start*bytes_per_sample);
file_cache.Read((char*)buf,count*bytes_per_sample*channels);
}
}
/// @brief Get disk cache path
/// @return
///
wxString HDAudioProvider::DiskCachePath() {
// Default
namespace {
wxString cache_dir() {
wxString path = lagi_wxString(OPT_GET("Audio/Cache/HD/Location")->GetString());
if (path == "default") return StandardPaths::DecodePath("?temp/");
// Specified
return DecodeRelativePath(path,StandardPaths::DecodePath("?user/"));
if (path == "default")
return StandardPaths::DecodePath("?temp/");
return DecodeRelativePath(path, StandardPaths::DecodePath("?user/"));
}
/// @brief Get disk cache filename
///
wxString HDAudioProvider::DiskCacheName() {
// Get pattern
wxString cache_path() {
wxString pattern = lagi_wxString(OPT_GET("Audio/Cache/HD/Name")->GetString());
if (pattern.Find("%02i") == wxNOT_FOUND) pattern = "audio%02i.tmp";
// Try from 00 to 99
for (int i=0;i<100;i++) {
// File exists?
wxString curStringTry = DiskCachePath() + wxString::Format(pattern,i);
if (!wxFile::Exists(curStringTry)) return curStringTry;
wxString curStringTry = cache_dir() + wxString::Format(pattern,i);
if (!wxFile::Exists(curStringTry))
return curStringTry;
}
return "";
}
/// A PCM audio provider for raw dumps with no header
class RawAudioProvider : public PCMAudioProvider {
public:
RawAudioProvider(wxString const& cache_filename, AudioProvider *src)
: PCMAudioProvider(cache_filename)
{
bytes_per_sample = src->GetBytesPerSample();
num_samples = src->GetNumSamples();
channels = src->GetChannels();
sample_rate = src->GetSampleRate();
filename = src->GetFilename();
IndexPoint p = { 0, 0, num_samples };
index_points.push_back(p);
}
bool AreSamplesNativeEndian() const { return true; }
};
}
HDAudioProvider::HDAudioProvider(AudioProvider *src, agi::BackgroundRunner *br) {
agi::scoped_ptr<AudioProvider> source(src);
assert(src->AreSamplesNativeEndian()); // Byteswapping should be done before caching
// Check free space
wxDiskspaceSize_t freespace;
if (wxGetDiskSpace(cache_dir(), 0, &freespace)) {
if (num_samples * channels * bytes_per_sample > freespace)
throw AudioOpenError("Not enough free disk space in " + STD_STR(cache_dir()) + " to cache the audio");
}
bytes_per_sample = source->GetBytesPerSample();
num_samples = source->GetNumSamples();
channels = source->GetChannels();
sample_rate = source->GetSampleRate();
filename = source->GetFilename();
diskCacheFilename = cache_path();
try {
{
agi::io::Save out(STD_STR(diskCacheFilename), true);
br->Run(bind(&HDAudioProvider::FillCache, this, src, &out.Get(), std::tr1::placeholders::_1));
}
cache_provider.reset(new RawAudioProvider(diskCacheFilename, src));
}
catch (...) {
wxRemoveFile(diskCacheFilename);
throw;
}
}
HDAudioProvider::~HDAudioProvider() {
cache_provider.reset(); // explicitly close the file so we can delete it
wxRemoveFile(diskCacheFilename);
}
void HDAudioProvider::GetAudio(void *buf, int64_t start, int64_t count) const {
cache_provider->GetAudio(buf, start, count);
}
void HDAudioProvider::FillCache(AudioProvider *src, std::ofstream *out, agi::ProgressSink *ps) {
ps->SetMessage(STD_STR(_("Reading to Hard Disk cache")));
int64_t block = 65536;
std::vector<char> read_buf;
read_buf.resize(block * channels * bytes_per_sample);
for (int64_t i = 0; i < num_samples; i += block) {
block = std::min(block, num_samples - i);
src->GetAudio(&read_buf[0], i, block);
out->write(&read_buf[0], block * channels * bytes_per_sample);
ps->SetProgress(i, num_samples);
if (ps->IsCancelled()) return;
}
}

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@ -35,12 +35,13 @@
///
#ifndef AGI_PRE
#include <wx/file.h>
#include <wx/thread.h>
#include <iosfwd>
#endif
#include "include/aegisub/audio_provider.h"
#include <libaegisub/scoped_ptr.h>
namespace agi {
class BackgroundRunner;
class ProgressSink;
@ -52,31 +53,22 @@ namespace agi {
///
/// DOCME
class HDAudioProvider : public AudioProvider {
/// DOCME
mutable wxMutex diskmutex;
/// DOCME
mutable wxFile file_cache;
/// DOCME
/// Name of the file which the decoded audio is written to
wxString diskCacheFilename;
/// Audio provider which reads from the decoded cache
agi::scoped_ptr<AudioProvider> cache_provider;
/// DOCME
bool samples_native_endian;
/// DOCME
char *data;
static wxString DiskCachePath();
static wxString DiskCacheName();
void FillCache(AudioProvider *src, agi::ProgressSink *ps);
/// Fill the cache with all of the data from the source audio provider
/// @param src Audio data to cache
/// @param file File to write to
/// @param ps Sink for progress reporting
void FillCache(AudioProvider *src, std::ofstream *file, agi::ProgressSink *ps);
public:
HDAudioProvider(AudioProvider *source, agi::BackgroundRunner *br);
~HDAudioProvider();
bool AreSamplesNativeEndian() const { return samples_native_endian; }
bool AreSamplesNativeEndian() const { return true; }
void GetAudio(void *buf, int64_t start, int64_t count) const;
};