Mercurial > hg > svcore
comparison data/model/FFTModel.cpp @ 1326:54af1e21705c 3.0-integration
Update to use bqvec allocator for float vectors
| author | Chris Cannam |
|---|---|
| date | Tue, 13 Dec 2016 15:23:21 +0000 |
| parents | 12a1da4719c7 |
| children | fad8f533ca13 |
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| 1325:3aea4f7617bb | 1326:54af1e21705c |
|---|---|
| 186 imags[i] = col[minbin + i].imag(); | 186 imags[i] = col[minbin + i].imag(); |
| 187 } | 187 } |
| 188 return true; | 188 return true; |
| 189 } | 189 } |
| 190 | 190 |
| 191 vector<float> | 191 FFTModel::fvec |
| 192 FFTModel::getSourceSamples(int column) const | 192 FFTModel::getSourceSamples(int column) const |
| 193 { | 193 { |
| 194 // m_fftSize may be greater than m_windowSize, but not the reverse | 194 // m_fftSize may be greater than m_windowSize, but not the reverse |
| 195 | 195 |
| 196 // cerr << "getSourceSamples(" << column << ")" << endl; | 196 // cerr << "getSourceSamples(" << column << ")" << endl; |
| 202 | 202 |
| 203 if (off == 0) { | 203 if (off == 0) { |
| 204 return data; | 204 return data; |
| 205 } else { | 205 } else { |
| 206 vector<float> pad(off, 0.f); | 206 vector<float> pad(off, 0.f); |
| 207 vector<float> padded; | 207 fvec padded; |
| 208 padded.reserve(m_fftSize); | 208 padded.reserve(m_fftSize); |
| 209 padded.insert(padded.end(), pad.begin(), pad.end()); | 209 padded.insert(padded.end(), pad.begin(), pad.end()); |
| 210 padded.insert(padded.end(), data.begin(), data.end()); | 210 padded.insert(padded.end(), data.begin(), data.end()); |
| 211 padded.insert(padded.end(), pad.begin(), pad.end()); | 211 padded.insert(padded.end(), pad.begin(), pad.end()); |
| 212 return padded; | 212 return padded; |
| 213 } | 213 } |
| 214 } | 214 } |
| 215 | 215 |
| 216 vector<float> | 216 FFTModel::fvec |
| 217 FFTModel::getSourceData(pair<sv_frame_t, sv_frame_t> range) const | 217 FFTModel::getSourceData(pair<sv_frame_t, sv_frame_t> range) const |
| 218 { | 218 { |
| 219 // cerr << "getSourceData(" << range.first << "," << range.second | 219 // cerr << "getSourceData(" << range.first << "," << range.second |
| 220 // << "): saved range is (" << m_savedData.range.first | 220 // << "): saved range is (" << m_savedData.range.first |
| 221 // << "," << m_savedData.range.second << ")" << endl; | 221 // << "," << m_savedData.range.second << ")" << endl; |
| 233 | 233 |
| 234 inSourceCache.partial(); | 234 inSourceCache.partial(); |
| 235 | 235 |
| 236 sv_frame_t discard = range.first - m_savedData.range.first; | 236 sv_frame_t discard = range.first - m_savedData.range.first; |
| 237 | 237 |
| 238 vector<float> acc(m_savedData.data.begin() + discard, | 238 fvec acc(m_savedData.data.begin() + discard, m_savedData.data.end()); |
| 239 m_savedData.data.end()); | 239 |
| 240 | 240 fvec rest = getSourceDataUncached({ m_savedData.range.second, range.second }); |
| 241 vector<float> rest = | |
| 242 getSourceDataUncached({ m_savedData.range.second, range.second }); | |
| 243 | 241 |
| 244 acc.insert(acc.end(), rest.begin(), rest.end()); | 242 acc.insert(acc.end(), rest.begin(), rest.end()); |
| 245 | 243 |
| 246 m_savedData = { range, acc }; | 244 m_savedData = { range, acc }; |
| 247 return acc; | 245 return acc; |
| 254 m_savedData = { range, data }; | 252 m_savedData = { range, data }; |
| 255 return data; | 253 return data; |
| 256 } | 254 } |
| 257 } | 255 } |
| 258 | 256 |
| 259 vector<float> | 257 FFTModel::fvec |
| 260 FFTModel::getSourceDataUncached(pair<sv_frame_t, sv_frame_t> range) const | 258 FFTModel::getSourceDataUncached(pair<sv_frame_t, sv_frame_t> range) const |
| 261 { | 259 { |
| 262 decltype(range.first) pfx = 0; | 260 decltype(range.first) pfx = 0; |
| 263 if (range.first < 0) { | 261 if (range.first < 0) { |
| 264 pfx = -range.first; | 262 pfx = -range.first; |
| 296 } | 294 } |
| 297 | 295 |
| 298 return data; | 296 return data; |
| 299 } | 297 } |
| 300 | 298 |
| 301 vector<complex<float>> | 299 FFTModel::cvec |
| 302 FFTModel::getFFTColumn(int n) const | 300 FFTModel::getFFTColumn(int n) const |
| 303 { | 301 { |
| 304 // The small cache (i.e. the m_cached deque) is for cases where | 302 // The small cache (i.e. the m_cached deque) is for cases where |
| 305 // values are looked up individually, and for e.g. peak-frequency | 303 // values are looked up individually, and for e.g. peak-frequency |
| 306 // spectrograms where values from two consecutive columns are | 304 // spectrograms where values from two consecutive columns are |
| 319 | 317 |
| 320 auto samples = getSourceSamples(n); | 318 auto samples = getSourceSamples(n); |
| 321 m_windower.cut(samples.data()); | 319 m_windower.cut(samples.data()); |
| 322 breakfastquay::v_fftshift(samples.data(), m_fftSize); | 320 breakfastquay::v_fftshift(samples.data(), m_fftSize); |
| 323 | 321 |
| 324 vector<complex<float>> col(m_fftSize/2 + 1); | 322 cvec col(m_fftSize/2 + 1); |
| 325 | 323 |
| 326 m_fft.forwardInterleaved(samples.data(), | 324 m_fft.forwardInterleaved(samples.data(), |
| 327 reinterpret_cast<float *>(col.data())); | 325 reinterpret_cast<float *>(col.data())); |
| 328 | 326 |
| 329 SavedColumn sc { n, col }; | 327 SavedColumn sc { n, col }; |