Add OnlineFbank python APIs.

kaldifeat/csrc/feature-window.cc

@@ -240,6 +240,7 @@ torch::Tensor ExtractWindow(int64_t sample_offset, const torch::Tensor &wave,
 
       p_window[s] = p_wave[s_in_wave];
     }
+    return window;
   }
 }
 

kaldifeat/csrc/online-feature-itf.h

@@ -56,7 +56,8 @@ class OnlineFeatureInterface {
   /// it's more efficient to do things in a batch).
   ///
   /// The returned tensor has shape (frames.size(), Dim()).
-  virtual torch::Tensor GetFrames(const std::vector<int32_t> &frames) {
+  virtual std::vector<torch::Tensor> GetFrames(
+      const std::vector<int32_t> &frames) {
     std::vector<torch::Tensor> features;
     features.reserve(frames.size());
 
@@ -64,8 +65,9 @@ class OnlineFeatureInterface {
       torch::Tensor f = GetFrame(i);
       features.push_back(std::move(f));
     }
+    return features;
 
-    return torch::cat(features, /*dim*/ 0);
+    // return torch::cat(features, [>dim<] 0);
   }
 
   /// This would be called from the application, when you get more wave data.

kaldifeat/csrc/online-feature.cc

@@ -48,12 +48,7 @@ OnlineGenericBaseFeature<C>::OnlineGenericBaseFeature(
       window_function_(opts.frame_opts, opts.device),
       features_(opts.frame_opts.max_feature_vectors),
       input_finished_(false),
-      waveform_offset_(0) {
-  // Casting to uint32_t, an unsigned type, means that -1 would be treated
-  // as `very large`.
-  KALDIFEAT_ASSERT(static_cast<uint32_t>(opts.frame_opts.max_feature_vectors) >
-                   200);
-}
+      waveform_offset_(0) {}
 
 template <class C>
 void OnlineGenericBaseFeature<C>::AcceptWaveform(
@@ -61,6 +56,7 @@ void OnlineGenericBaseFeature<C>::AcceptWaveform(
   if (original_waveform.numel() == 0) return;  // Nothing to do.
 
   KALDIFEAT_ASSERT(original_waveform.dim() == 1);
+  KALDIFEAT_ASSERT(sampling_rate == computer_.GetFrameOptions().samp_freq);
 
   if (input_finished_)
     KALDIFEAT_ERR << "AcceptWaveform called after InputFinished() was called.";

kaldifeat/python/csrc/CMakeLists.txt

@@ -7,6 +7,7 @@ pybind11_add_module(_kaldifeat
   feature-window.cc
   kaldifeat.cc
   mel-computations.cc
+  online-feature.cc
   utils.cc
 )
 target_link_libraries(_kaldifeat PRIVATE kaldifeat_core)

kaldifeat/python/csrc/kaldifeat.cc

@@ -11,6 +11,7 @@
 #include "kaldifeat/python/csrc/feature-spectrogram.h"
 #include "kaldifeat/python/csrc/feature-window.h"
 #include "kaldifeat/python/csrc/mel-computations.h"
+#include "kaldifeat/python/csrc/online-feature.h"
 #include "torch/torch.h"
 
 namespace kaldifeat {
@@ -24,6 +25,7 @@ PYBIND11_MODULE(_kaldifeat, m) {
   PybindFeatureMfcc(m);
   PybindFeaturePlp(m);
   PybindFeatureSpectrogram(m);
+  PybindOnlineFeature(m);
 }
 
 }  // namespace kaldifeat

kaldifeat/python/csrc/online-feature.cc

@@ -0,0 +1,36 @@
+// kaldifeat/python/csrc/online-feature.cc
+//
+// Copyright (c)  2022  Xiaomi Corporation (authors: Fangjun Kuang)
+
+#include "kaldifeat/python/csrc/online-feature.h"
+
+#include "kaldifeat/csrc/online-feature.h"
+
+namespace kaldifeat {
+
+template <typename C>
+void PybindOnlineFeatureTpl(py::module &m, const std::string &class_name,
+                            const std::string &class_help_doc = "") {
+  using PyClass = OnlineGenericBaseFeature<C>;
+  using Options = typename C::Options;
+  py::class_<PyClass>(m, class_name.c_str(), class_help_doc.c_str())
+      .def(py::init<const Options &>(), py::arg("opts"))
+      .def_property_readonly("dim", &PyClass::Dim)
+      .def_property_readonly("frame_shift_in_seconds",
+                             &PyClass::FrameShiftInSeconds)
+      .def_property_readonly("num_frames_ready", &PyClass::NumFramesReady)
+      .def("is_last_frame", &PyClass::IsLastFrame, py::arg("frame"))
+      .def("get_frame", &PyClass::GetFrame, py::arg("frame"))
+      .def("get_frames", &PyClass::GetFrames, py::arg("frames"))
+      .def("accept_waveform", &PyClass::AcceptWaveform,
+           py::arg("sampling_rate"), py::arg("waveform"))
+      .def("input_finished", &PyClass::InputFinished);
+}
+
+void PybindOnlineFeature(py::module &m) {
+  PybindOnlineFeatureTpl<Mfcc>(m, "OnlineMfcc");
+  PybindOnlineFeatureTpl<Fbank>(m, "OnlineFbank");
+  PybindOnlineFeatureTpl<Plp>(m, "OnlinePlp");
+}
+
+}  // namespace kaldifeat

kaldifeat/python/csrc/online-feature.h

@@ -0,0 +1,16 @@
+// kaldifeat/python/csrc/online-feature.h
+//
+// Copyright (c)  2022  Xiaomi Corporation (authors: Fangjun Kuang)
+
+#ifndef KALDIFEAT_PYTHON_CSRC_ONLINE_FEATURE_H_
+#define KALDIFEAT_PYTHON_CSRC_ONLINE_FEATURE_H_
+
+#include "kaldifeat/python/csrc/kaldifeat.h"
+
+namespace kaldifeat {
+
+void PybindOnlineFeature(py::module &m);
+
+}  // namespace kaldifeat
+
+#endif  // KALDIFEAT_PYTHON_CSRC_ONLINE_FEATURE_H_

kaldifeat/python/kaldifeat/__init__.py

@@ -8,7 +8,7 @@ from _kaldifeat import (
     SpectrogramOptions,
 )
 
-from .fbank import Fbank
+from .fbank import Fbank, OnlineFbank
 from .mfcc import Mfcc
 from .plp import Plp
 from .spectrogram import Spectrogram

kaldifeat/python/kaldifeat/fbank.py

@@ -4,9 +4,20 @@
 import _kaldifeat
 
 from .offline_feature import OfflineFeature
+from .online_feature import OnlineFeature
 
 
 class Fbank(OfflineFeature):
     def __init__(self, opts: _kaldifeat.FbankOptions):
         super().__init__(opts)
         self.computer = _kaldifeat.Fbank(opts)
+
+
+class OnlineFbank(OnlineFeature):
+    def __init__(self, opts: _kaldifeat.FbankOptions):
+        super().__init__(opts)
+        self.computer = _kaldifeat.OnlineFbank(opts)
+
+    def __setstate__(self, state):
+        self.opts = _kaldifeat.FbankOptions.from_dict(state)
+        self.computer = _kaldifeat.Fbank(self.opts)

kaldifeat/python/kaldifeat/online_feature.py

@@ -0,0 +1,95 @@
+# Copyright (c)  2022  Xiaomi Corporation (authors: Fangjun Kuang)
+
+from typing import List
+
+import torch
+
+
+class OnlineFeature(object):
+    """Offline feature is a base class of other feature computers,
+    e.g., Fbank, Mfcc.
+
+    This class has two fields:
+
+        (1) opts. It contains the options for the feature computer.
+        (2) computer. The actual feature computer. It should be
+            instantiated by subclasses.
+
+    Caution:
+      It supports only CPU at present.
+    """
+
+    def __init__(self, opts):
+        assert opts.device.type == "cpu"
+
+        self.opts = opts
+
+        # self.computer is expected to be set by subclasses
+        self.computer = None
+
+    @property
+    def num_frames_ready(self) -> int:
+        """Return the number of ready frames.
+
+        It can be updated by :method:`accept_waveform`.
+
+        Note:
+          If you set ``opts.frame_opts.max_feature_vectors``, then
+          the valid frame indexes are in the range.
+          ``[num_frames_ready - max_feature_vectors, num_frames_ready)``
+
+          If you leave ``opts.frame_opts.max_feature_vectors`` to its default
+          value, then the range is ``[0, num_frames_ready)``
+        """
+        return self.computer.num_frames_ready
+
+    def is_last_frame(self, frame: int) -> bool:
+        """Return True if the given frame is the last frame."""
+        return self.computer.is_last_frame(frame)
+
+    def get_frame(self, frame: int) -> torch.Tensor:
+        """Get the frame by its index.
+        Args:
+          frame:
+            The frame index. If ``opts.frame_opts.max_feature_vectors`` is
+            -1, then its valid values are in the range
+            ``[0, num_frames_ready)``. Otherwise, the range is
+            ``[num_frames_ready - max_feature_vectors, num_frames_ready)``.
+        Returns:
+          Return a 2-D tensor with shape ``(1, feature_dim)``
+        """
+        return self.computer.get_frame(frame)
+
+    def get_frames(self, frames: List[int]) -> List[torch.Tensor]:
+        """Get frames at the given frame indexes.
+        Args:
+          frames:
+            Frames whose indexes are in this list are returned.
+        Returns:
+          Return a list of feature frames at the given indexes.
+        """
+        return self.computer.get_frames(frames)
+
+    def accept_waveform(
+        self, sampling_rate: float, waveform: torch.Tensor
+    ) -> None:
+        """Send audio samples to the extractor.
+        Args:
+          sampling_rate:
+            The sampling rate of the given audio samples. It has to be equal
+            to ``opts.frame_opts.samp_freq``.
+          waveform:
+            A 1-D tensor of shape (num_samples,). Its dtype is torch.float32
+            and has to be on CPU.
+        """
+        self.computer.accept_waveform(sampling_rate, waveform)
+
+    def input_finished(self) -> None:
+        """Tell the extractor that no more audio samples will be available.
+        After calling this function, you cannot invoke ``accept_waveform``
+        again.
+        """
+        self.computer.input_finished()
+
+    def __getstate__(self):
+        return self.opts.as_dict()

kaldifeat/python/tests/test_fbank.py

@@ -1,6 +1,6 @@
 #!/usr/bin/env python3
 
-# Copyright      2021  Xiaomi Corporation (authors: Fangjun Kuang)
+# Copyright      2021-2022  Xiaomi Corporation (authors: Fangjun Kuang)
 
 import pickle
 from pathlib import Path
@@ -13,30 +13,88 @@ import kaldifeat
 cur_dir = Path(__file__).resolve().parent
 
 
+def test_online_fbank(
+    opts: kaldifeat.FbankOptions,
+    wave: torch.Tensor,
+    cpu_features: torch.Tensor,
+):
+    """
+    Args:
+      opts:
+        The options to create the online fbank extractor.
+      wave:
+        The input 1-D waveform.
+      cpu_features:
+        The groud truth features that are computed offline
+    """
+    online_fbank = kaldifeat.OnlineFbank(opts)
+
+    num_processed_frames = 0
+    i = 0  # current sample index to feed
+    while not online_fbank.is_last_frame(num_processed_frames - 1):
+        while num_processed_frames < online_fbank.num_frames_ready:
+            # There are new frames to be processed
+            frame = online_fbank.get_frame(num_processed_frames)
+            assert torch.allclose(
+                frame.squeeze(0), cpu_features[num_processed_frames]
+            )
+            num_processed_frames += 1
+
+        # Simulate streaming . Send a random number of audio samples
+        # to the extractor
+        num_samples = torch.randint(300, 1000, (1,)).item()
+
+        samples = wave[i : (i + num_samples)]  # noqa
+        i += num_samples
+        if len(samples) == 0:
+            online_fbank.input_finished()
+            continue
+
+        online_fbank.accept_waveform(16000, samples)
+
+    assert num_processed_frames == online_fbank.num_frames_ready
+    assert num_processed_frames == cpu_features.size(0)
+
+
 def test_fbank_default():
     print("=====test_fbank_default=====")
+    filename = cur_dir / "test_data/test.wav"
+    wave = read_wave(filename)
+    gt = read_ark_txt(cur_dir / "test_data/test.txt")
+
+    cpu_features = None
     for device in get_devices():
         print("device", device)
         opts = kaldifeat.FbankOptions()
         opts.device = device
         opts.frame_opts.dither = 0
         fbank = kaldifeat.Fbank(opts)
-        filename = cur_dir / "test_data/test.wav"
-        wave = read_wave(filename)
 
         features = fbank(wave)
         assert features.device.type == "cpu"
-        gt = read_ark_txt(cur_dir / "test_data/test.txt")
         assert torch.allclose(features, gt, rtol=1e-1)
+        if cpu_features is None:
+            cpu_features = features
 
-        wave = wave.to(device)
-        features = fbank(wave)
+        features = fbank(wave.to(device))
         assert features.device == device
         assert torch.allclose(features.cpu(), gt, rtol=1e-1)
 
+    # Now for online fbank
+    opts = kaldifeat.FbankOptions()
+    opts.frame_opts.dither = 0
+    opts.frame_opts.max_feature_vectors = 100
+
+    test_online_fbank(opts, wave, cpu_features)
+
 
 def test_fbank_htk():
     print("=====test_fbank_htk=====")
+    filename = cur_dir / "test_data/test.wav"
+    wave = read_wave(filename)
+    gt = read_ark_txt(cur_dir / "test_data/test-htk.txt")
+
+    cpu_features = None
     for device in get_devices():
         print("device", device)
         opts = kaldifeat.FbankOptions()
@@ -46,22 +104,32 @@ def test_fbank_htk():
         opts.htk_compat = True
 
         fbank = kaldifeat.Fbank(opts)
-        filename = cur_dir / "test_data/test.wav"
-        wave = read_wave(filename)
 
         features = fbank(wave)
         assert features.device.type == "cpu"
-        gt = read_ark_txt(cur_dir / "test_data/test-htk.txt")
         assert torch.allclose(features, gt, rtol=1e-1)
+        if cpu_features is None:
+            cpu_features = features
 
-        wave = wave.to(device)
-        features = fbank(wave)
+        features = fbank(wave.to(device))
         assert features.device == device
         assert torch.allclose(features.cpu(), gt, rtol=1e-1)
 
+    opts = kaldifeat.FbankOptions()
+    opts.frame_opts.dither = 0
+    opts.use_energy = True
+    opts.htk_compat = True
+
+    test_online_fbank(opts, wave, cpu_features)
+
 
 def test_fbank_with_energy():
     print("=====test_fbank_with_energy=====")
+    filename = cur_dir / "test_data/test.wav"
+    wave = read_wave(filename)
+    gt = read_ark_txt(cur_dir / "test_data/test-with-energy.txt")
+
+    cpu_features = None
     for device in get_devices():
         print("device", device)
         opts = kaldifeat.FbankOptions()
@@ -70,22 +138,31 @@ def test_fbank_with_energy():
         opts.use_energy = True
 
         fbank = kaldifeat.Fbank(opts)
-        filename = cur_dir / "test_data/test.wav"
-        wave = read_wave(filename)
 
         features = fbank(wave)
-        gt = read_ark_txt(cur_dir / "test_data/test-with-energy.txt")
         assert torch.allclose(features, gt, rtol=1e-1)
         assert features.device.type == "cpu"
+        if cpu_features is None:
+            cpu_features = features
 
-        wave = wave.to(device)
-        features = fbank(wave)
+        features = fbank(wave.to(device))
         assert features.device == device
         assert torch.allclose(features.cpu(), gt, rtol=1e-1)
 
+    opts = kaldifeat.FbankOptions()
+    opts.frame_opts.dither = 0
+    opts.use_energy = True
+
+    test_online_fbank(opts, wave, cpu_features)
+
 
 def test_fbank_40_bins():
     print("=====test_fbank_40_bins=====")
+    filename = cur_dir / "test_data/test.wav"
+    wave = read_wave(filename)
+    gt = read_ark_txt(cur_dir / "test_data/test-40.txt")
+
+    cpu_features = None
     for device in get_devices():
         print("device", device)
         opts = kaldifeat.FbankOptions()
@@ -94,22 +171,31 @@ def test_fbank_40_bins():
         opts.mel_opts.num_bins = 40
 
         fbank = kaldifeat.Fbank(opts)
-        filename = cur_dir / "test_data/test.wav"
-        wave = read_wave(filename)
 
         features = fbank(wave)
         assert features.device.type == "cpu"
-        gt = read_ark_txt(cur_dir / "test_data/test-40.txt")
         assert torch.allclose(features, gt, rtol=1e-1)
+        if cpu_features is None:
+            cpu_features = features
 
-        wave = wave.to(device)
-        features = fbank(wave)
+        features = fbank(wave.to(device))
         assert features.device == device
         assert torch.allclose(features.cpu(), gt, rtol=1e-1)
 
+    opts = kaldifeat.FbankOptions()
+    opts.frame_opts.dither = 0
+    opts.mel_opts.num_bins = 40
+
+    test_online_fbank(opts, wave, cpu_features)
+
 
 def test_fbank_40_bins_no_snip_edges():
     print("=====test_fbank_40_bins_no_snip_edges=====")
+    filename = cur_dir / "test_data/test.wav"
+    wave = read_wave(filename)
+    gt = read_ark_txt(cur_dir / "test_data/test-40-no-snip-edges.txt")
+
+    cpu_features = None
     for device in get_devices():
         print("device", device)
         opts = kaldifeat.FbankOptions()
@@ -119,19 +205,24 @@ def test_fbank_40_bins_no_snip_edges():
         opts.frame_opts.snip_edges = False
 
         fbank = kaldifeat.Fbank(opts)
-        filename = cur_dir / "test_data/test.wav"
-        wave = read_wave(filename)
 
         features = fbank(wave)
         assert features.device.type == "cpu"
-        gt = read_ark_txt(cur_dir / "test_data/test-40-no-snip-edges.txt")
         assert torch.allclose(features, gt, rtol=1e-1)
+        if cpu_features is None:
+            cpu_features = features
 
-        wave = wave.to(device)
-        features = fbank(wave)
+        features = fbank(wave.to(device))
         assert features.device == device
         assert torch.allclose(features.cpu(), gt, rtol=1e-1)
 
+    opts = kaldifeat.FbankOptions()
+    opts.frame_opts.dither = 0
+    opts.mel_opts.num_bins = 40
+    opts.frame_opts.snip_edges = False
+
+    test_online_fbank(opts, wave, cpu_features)
+
 
 def test_fbank_chunk():
     print("=====test_fbank_chunk=====")
@@ -223,6 +314,16 @@ def test_pickle():
 
         assert str(fbank.opts) == str(fbank2.opts)
 
+    opts = kaldifeat.FbankOptions()
+    opts.use_energy = True
+    opts.use_power = False
+
+    fbank = kaldifeat.OnlineFbank(opts)
+    data = pickle.dumps(fbank)
+    fbank2 = pickle.loads(data)
+
+    assert str(fbank.opts) == str(fbank2.opts)
+
 
 if __name__ == "__main__":
     test_fbank_default()