OpenShot Audio Library | OpenShotAudio 0.4.0
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juce_ARAAudioReaders.cpp
1/*
2 ==============================================================================
3
4 This file is part of the JUCE library.
5 Copyright (c) 2022 - Raw Material Software Limited
6
7 JUCE is an open source library subject to commercial or open-source
8 licensing.
9
10 By using JUCE, you agree to the terms of both the JUCE 7 End-User License
11 Agreement and JUCE Privacy Policy.
12
13 End User License Agreement: www.juce.com/juce-7-licence
14 Privacy Policy: www.juce.com/juce-privacy-policy
15
16 Or: You may also use this code under the terms of the GPL v3 (see
17 www.gnu.org/licenses).
18
19 JUCE IS PROVIDED "AS IS" WITHOUT ANY WARRANTY, AND ALL WARRANTIES, WHETHER
20 EXPRESSED OR IMPLIED, INCLUDING MERCHANTABILITY AND FITNESS FOR PURPOSE, ARE
21 DISCLAIMED.
22
23 ==============================================================================
24*/
25
26namespace juce
27{
28
30 : AudioFormatReader (nullptr, "ARAAudioSourceReader"),
31 audioSourceBeingRead (audioSource)
32{
33 jassert (audioSourceBeingRead != nullptr);
34
35 bitsPerSample = 32;
37 sampleRate = audioSourceBeingRead->getSampleRate();
38 numChannels = (unsigned int) audioSourceBeingRead->getChannelCount();
39 lengthInSamples = audioSourceBeingRead->getSampleCount();
40 tmpPtrs.resize (numChannels);
41
42 audioSourceBeingRead->addListener (this);
43
44 if (audioSourceBeingRead->isSampleAccessEnabled())
45 hostReader.reset (new ARA::PlugIn::HostAudioReader (audioSourceBeingRead));
46}
47
48ARAAudioSourceReader::~ARAAudioSourceReader()
49{
50 invalidate();
51}
52
54{
56
57 if (! isValid())
58 return;
59
60 hostReader.reset();
61
62 audioSourceBeingRead->removeListener (this);
63 audioSourceBeingRead = nullptr;
64}
65
66void ARAAudioSourceReader::willUpdateAudioSourceProperties (ARAAudioSource* audioSource,
67 ARAAudioSource::PropertiesPtr newProperties)
68{
69 if (audioSource->getSampleCount() != newProperties->sampleCount
70 || ! exactlyEqual (audioSource->getSampleRate(), newProperties->sampleRate)
71 || audioSource->getChannelCount() != newProperties->channelCount)
72 {
73 invalidate();
74 }
75}
76
77void ARAAudioSourceReader::doUpdateAudioSourceContent ([[maybe_unused]] ARAAudioSource* audioSource,
78 ARAContentUpdateScopes scopeFlags)
79{
80 jassert (audioSourceBeingRead == audioSource);
81
82 // Don't invalidate if the audio signal is unchanged
83 if (scopeFlags.affectSamples())
84 invalidate();
85}
86
87void ARAAudioSourceReader::willEnableAudioSourceSamplesAccess ([[maybe_unused]] ARAAudioSource* audioSource, bool enable)
88{
89 jassert (audioSourceBeingRead == audioSource);
90
91 // Invalidate our reader if sample access is disabled
92 if (! enable)
93 {
94 ScopedWriteLock scopedLock (lock);
95 hostReader.reset();
96 }
97}
98
99void ARAAudioSourceReader::didEnableAudioSourceSamplesAccess ([[maybe_unused]] ARAAudioSource* audioSource, bool enable)
100{
101 jassert (audioSourceBeingRead == audioSource);
102
103 // Recreate our reader if sample access is enabled
104 if (enable && isValid())
105 {
106 ScopedWriteLock scopedLock (lock);
107 hostReader.reset (new ARA::PlugIn::HostAudioReader (audioSourceBeingRead));
108 }
109}
110
111void ARAAudioSourceReader::willDestroyAudioSource ([[maybe_unused]] ARAAudioSource* audioSource)
112{
113 jassert (audioSourceBeingRead == audioSource);
114
115 invalidate();
116}
117
119 int64 startSampleInFile, int numSamples)
120{
121 const auto destSize = (bitsPerSample / 8) * (size_t) numSamples;
123
124 if (isValid())
125 {
126 const ScopedTryReadLock readLock (lock);
127
128 if (readLock.isLocked() && hostReader != nullptr)
129 {
130 for (size_t i = 0; i < tmpPtrs.size(); ++i)
131 {
132 if ((i < (size_t) numDestChannels) && (destSamples[i] != nullptr))
133 {
134 tmpPtrs[i] = ((uint8_t*) destSamples[i]) + bufferOffset;
135 }
136 else
137 {
138 // We need to provide destination pointers for all channels in the ARA read call, even if
139 // readSamples is not reading all of them. Hence we use this dummy buffer to pad the read
140 // destination area.
141 static thread_local std::vector<uint8_t> dummyBuffer;
142
143 if (destSize > dummyBuffer.size())
144 dummyBuffer.resize (destSize);
145
146 tmpPtrs[i] = dummyBuffer.data();
147 }
148 }
149
150 return hostReader->readAudioSamples (startSampleInFile, numSamples, tmpPtrs.data());
151 }
152 }
153
154 for (int i = 0; i < numDestChannels; ++i)
155 if (destSamples[i] != nullptr)
156 zeromem (((uint8_t*) destSamples[i]) + bufferOffset, destSize);
157
158 return false;
159}
160
161//==============================================================================
167
169 const std::vector<ARAPlaybackRegion*>& playbackRegions)
170 : AudioFormatReader (nullptr, "ARAPlaybackRegionReader")
171{
172 // We're only providing the minimal set of meaningful values, since the ARA renderer should only
173 // look at the time position and the playing state, and read any related tempo or bar signature
174 // information from the ARA model directly (MusicalContext).
175 positionInfo.setIsPlaying (true);
176
177 sampleRate = rate;
178 numChannels = (unsigned int) numChans;
179 bitsPerSample = 32;
181
182 auto* documentController = (! playbackRegions.empty())
183 ? playbackRegions.front()->getDocumentController<ARADocumentController>()
184 : nullptr;
185
186 playbackRenderer.reset (documentController ? static_cast<ARAPlaybackRenderer*> (documentController->doCreatePlaybackRenderer())
187 : nullptr);
188
189 if (playbackRenderer != nullptr)
190 {
191 double regionsStartTime = std::numeric_limits<double>::max();
192 double regionsEndTime = std::numeric_limits<double>::lowest();
193
194 for (const auto& playbackRegion : playbackRegions)
195 {
196 jassert (playbackRegion->getDocumentController() == documentController);
197 auto playbackRegionTimeRange = playbackRegion->getTimeRange (ARAPlaybackRegion::IncludeHeadAndTail::yes);
200
201 playbackRenderer->addPlaybackRegion (ARA::PlugIn::toRef (playbackRegion));
202 playbackRegion->addListener (this);
203 }
204
205 startInSamples = (int64) (regionsStartTime * sampleRate + 0.5);
207
208 playbackRenderer->prepareToPlay (rate,
209 maximumBlockSize,
210 numChans,
211 AudioProcessor::ProcessingPrecision::singlePrecision,
212 ARARenderer::AlwaysNonRealtime::yes);
213 }
214 else
215 {
216 startInSamples = 0;
217 lengthInSamples = 0;
218 }
219}
220
221ARAPlaybackRegionReader::~ARAPlaybackRegionReader()
222{
223 invalidate();
224}
225
227{
229
230 if (! isValid())
231 return;
232
233 for (auto& playbackRegion : playbackRenderer->getPlaybackRegions())
234 playbackRegion->removeListener (this);
235
236 playbackRenderer->releaseResources();
237 playbackRenderer.reset();
238}
239
241 int64 startSampleInFile, int numSamples)
242{
243 bool success = false;
244 bool needClearSamples = true;
245
246 const ScopedTryReadLock readLock (lock);
247
248 if (readLock.isLocked())
249 {
250 if (isValid())
251 {
252 success = true;
253 needClearSamples = false;
255
256 while (numSamples > 0)
257 {
258 const int numSliceSamples = jmin (numSamples, maximumBlockSize);
260 positionInfo.setTimeInSeconds (static_cast<double> (*positionInfo.getTimeInSamples()) / sampleRate);
261 success &= playbackRenderer->processBlock (buffer, AudioProcessor::Realtime::no, positionInfo);
262 numSamples -= numSliceSamples;
264 positionInfo.setTimeInSamples (*positionInfo.getTimeInSamples() + numSliceSamples);
265 }
266 }
267 }
268
270 for (int chan_i = 0; chan_i < numDestChannels; ++chan_i)
271 FloatVectorOperations::clear ((float *) destSamples[chan_i], numSamples);
272
273 return success;
274}
275
276void ARAPlaybackRegionReader::willUpdatePlaybackRegionProperties (ARAPlaybackRegion* playbackRegion, ARAPlaybackRegion::PropertiesPtr newProperties)
277{
278 jassert (ARA::contains (playbackRenderer->getPlaybackRegions(), playbackRegion));
279
280 if ((! exactlyEqual (playbackRegion->getStartInAudioModificationTime(), newProperties->startInModificationTime))
281 || ! exactlyEqual (playbackRegion->getDurationInAudioModificationTime(), newProperties->durationInModificationTime)
282 || ! exactlyEqual (playbackRegion->getStartInPlaybackTime(), newProperties->startInPlaybackTime)
283 || ! exactlyEqual (playbackRegion->getDurationInPlaybackTime(), newProperties->durationInPlaybackTime)
284 || (playbackRegion->isTimestretchEnabled() != ((newProperties->transformationFlags & ARA::kARAPlaybackTransformationTimestretch) != 0))
285 || (playbackRegion->isTimeStretchReflectingTempo() != ((newProperties->transformationFlags & ARA::kARAPlaybackTransformationTimestretchReflectingTempo) != 0))
286 || (playbackRegion->hasContentBasedFadeAtHead() != ((newProperties->transformationFlags & ARA::kARAPlaybackTransformationContentBasedFadeAtHead) != 0))
287 || (playbackRegion->hasContentBasedFadeAtTail() != ((newProperties->transformationFlags & ARA::kARAPlaybackTransformationContentBasedFadeAtTail) != 0)))
288 {
289 invalidate();
290 }
291}
292
293void ARAPlaybackRegionReader::didUpdatePlaybackRegionContent ([[maybe_unused]] ARAPlaybackRegion* playbackRegion,
294 ARAContentUpdateScopes scopeFlags)
295{
296 jassert (ARA::contains (playbackRenderer->getPlaybackRegions(), playbackRegion));
297
298 // Invalidate if the audio signal is changed
299 if (scopeFlags.affectSamples())
300 invalidate();
301}
302
303void ARAPlaybackRegionReader::willDestroyPlaybackRegion ([[maybe_unused]] ARAPlaybackRegion* playbackRegion)
304{
305 jassert (ARA::contains (playbackRenderer->getPlaybackRegions(), playbackRegion));
306
307 invalidate();
308}
309
310} // namespace juce
ARAAudioSourceReader(ARAAudioSource *audioSource)
bool readSamples(int *const *destSamples, int numDestChannels, int startOffsetInDestBuffer, int64 startSampleInFile, int numSamples) override
bool readSamples(int *const *destSamples, int numDestChannels, int startOffsetInDestBuffer, int64 startSampleInFile, int numSamples) override
ARAPlaybackRegionReader(ARAPlaybackRegion *playbackRegion)
void setTimeInSamples(Optional< int64_t > timeInSamplesIn)
Optional< int64_t > getTimeInSamples() const
void setTimeInSeconds(Optional< double > timeInSecondsIn)
bool isLocked() const noexcept