media/base/sinc_resampler.cc - Issue 10702050: Add SincResampler ported from WebKit.

Unified Diff: media/base/sinc_resampler.cc

Issue 10702050: Add SincResampler ported from WebKit. (Closed) Base URL: svn://svn.chromium.org/chrome/trunk/src

Patch Set: Comments! Created 8 years, 6 months ago

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Index: media/base/sinc_resampler.cc

diff --git a/media/base/sinc_resampler.cc b/media/base/sinc_resampler.cc

new file mode 100644

index 0000000000000000000000000000000000000000..98938ff866aaef34da6024841ae75c1c806cbf39

--- /dev/null

+++ b/media/base/sinc_resampler.cc

@@ -0,0 +1,188 @@

+// Use of this source code is governed by a BSD-style license that can be

+// found in the LICENSE file.

+//

+// Input buffer layout, dividing the total buffer into regions (r0 - r5):

+//

+// |----------------|-----------------------------------------|----------------|

+//

+// kBlockSize + kKernelSize / 2

+// <--------------------------------------------------------->

+// r0

+//

+// kKernelSize / 2 kKernelSize / 2 kKernelSize / 2 kKernelSize / 2

+// <---------------> <---------------> <---------------> <--------------->

+// r1 r2 r3 r4

+//

+// kBlockSize

+// <--------------------------------------->

+// r5

+//

+// The algorithm:

+//

+// 1) Consume input frames into r0 (r1 is zero-initialized).

+// 2) Position kernel centered at start of r0 (r2) and generate output frames

+// until kernel is centered at start of r4 or we've finished generating all

+// the output frames.

+// 3) Copy r3 to r1 and r4 to r2.

+// 4) Consume input frames into r5 (zero-pad if we run out of input).

+// 5) Goto (2) until all of input is consumed.

+//

+// Note: we're glossing over how the sub-sample handling works with

+// |virtual_source_idx_|, etc.

Chris Rogers 2012/07/09 21:51:42 I'd add an extra blank line here

DaleCurtis 2012/07/10 01:00:25 Done.

+// MSVC++ requires this to be set before any other includes to get M_PI.

+#define _USE_MATH_DEFINES

+#include "media/base/sinc_resampler.h"

+#include <cmath>

+#include "base/logging.h"

+namespace media {

+COMPILE_ASSERT(SincResampler::kKernelSize % 2 == 0, kKernelSize_must_be_even);

+COMPILE_ASSERT(SincResampler::kBlockSize > SincResampler::kKernelSize,

+ kBlockSize_must_be_gt_kKernelSize);

+SincResampler::SincResampler(const ReadCB& read_cb, double io_sample_rate_ratio)

+ : io_sample_rate_ratio_(io_sample_rate_ratio),

+ virtual_source_idx_(0),

+ buffer_primed_(false),

+ read_cb_(read_cb),

+ // TODO(dalecurtis): When we switch to AVX/SSE optimization, we'll need to

+ // allocate with 32-byte alignment and ensure they're sized % 32 bytes.

+ kernel_storage_(new float[kKernelStorageSize]),

+ input_buffer_(new float[kBufferSize]) {

+ memset(kernel_storage_.get(), 0,

+ sizeof(*kernel_storage_.get()) * kKernelStorageSize);

+ memset(input_buffer_.get(), 0, sizeof(*input_buffer_.get()) * kBufferSize);

+ InitializeKernel();

+SincResampler::~SincResampler() {}

+void SincResampler::InitializeKernel() {

Ami GONE FROM CHROMIUM 2012/07/03 20:54:42 Any reason this needs to be a function separate fr

DaleCurtis 2012/07/10 01:00:25 Just clarity. It's a bit large to stuff into the

+ // Blackman window parameters.

+ double alpha = 0.16;

+ double a0 = 0.5 * (1.0 - alpha);

+ double a1 = 0.5;

+ double a2 = 0.5 * alpha;

+ // |sinc_scale_factor| is basically the normalized cutoff frequency of the

+ // low-pass filter.

+ double sinc_scale_factor =

+ io_sample_rate_ratio_ > 1.0 ? 1.0 / io_sample_rate_ratio_ : 1.0;

+ // The sinc function is an idealized brick-wall filter, but since we're

+ // windowing it the transition from pass to stop does not happen right away.

+ // So we should adjust the lowpass filter cutoff slightly downward to avoid

+ // some aliasing at the very high-end.

+ // TODO(crogers): this value is empirical and to be more exact should vary

+ // depending on kKernelSize.

+ sinc_scale_factor *= 0.9;

+ // Generates a set of windowed sinc() kernels.

+ // We generate a range of sub-sample offsets from 0.0 to 1.0.

+ for (int offset_idx = 0; offset_idx <= kKernelOffsetCount; ++offset_idx) {

Ami GONE FROM CHROMIUM 2012/07/03 20:54:42 FWIW this could be a double as well and avoid the

DaleCurtis 2012/07/10 01:00:25 Then it needs a static_cast<int> when indexing int

+ double subsample_offset =

+ static_cast<double>(offset_idx) / kKernelOffsetCount;

+ for (int i = 0; i < kKernelSize; ++i) {

+ // Compute the sinc with offset.

+ double s =

+ sinc_scale_factor * M_PI * (i - kKernelSize / 2 - subsample_offset);

+ double sinc = (!s ? 1.0 : sin(s) / s) * sinc_scale_factor;

+ // Compute Blackman window, matching the offset of the sinc().

+ double x = (i - subsample_offset) / kKernelSize;

+ double window = a0 - a1 * cos(2.0 * M_PI * x) + a2 * cos(4.0 * M_PI * x);

+ // Window the sinc() function and store at the correct offset.

+ kernel_storage_[i + offset_idx * kKernelSize] = sinc * window;

+ }

+void SincResampler::Resample(float* destination, int frames) {

+ int remaining_frames = frames;

+ // Setup various region pointers in the buffer (see diagram above).

+ float* r0 = input_buffer_.get() + kKernelSize / 2;

+ float* r1 = input_buffer_.get();

+ float* r2 = r0;

+ float* r3 = r0 + kBlockSize - kKernelSize / 2;

+ float* r4 = r0 + kBlockSize;

+ float* r5 = r0 + kKernelSize / 2;

+ // Step (1) -- Prime the input buffer at the start of the input stream.

+ if (!buffer_primed_) {

+ read_cb_.Run(r0, kBlockSize + kKernelSize / 2);

Ami GONE FROM CHROMIUM 2012/07/03 20:54:42 How does this not violate your expectations in the

DaleCurtis 2012/07/10 01:00:25 remaining_frames will be 0 before the next call oc

+ buffer_primed_ = true;

+ }

+ // Step (2) -- Resample!

+ while (remaining_frames) {

+ while (virtual_source_idx_ < kBlockSize) {

+ // |virtual_source_idx_| lies in between two kernel offsets so figure out

+ // what they are.

+ int source_idx = static_cast<int>(virtual_source_idx_);

+ double subsample_remainder = virtual_source_idx_ - source_idx;

+ double virtual_offset_idx = subsample_remainder * kKernelOffsetCount;

+ int offset_idx = static_cast<int>(virtual_offset_idx);

+ float* k1 = kernel_storage_.get() + offset_idx * kKernelSize;

+ float* k2 = k1 + kKernelSize;

+ // Initialize input pointer based on quantized |virtual_source_idx_|.

+ float* input_ptr = r1 + source_idx;

+ // We'll compute "convolutions" for the two kernels which straddle

+ // |virtual_source_idx_|.

+ float sum1 = 0;

+ float sum2 = 0;

+ // Figure out how much to weight each kernel's "convolution".

+ double kernel_interpolation_factor = virtual_offset_idx - offset_idx;

+ // Generate a single output sample.

+ int n = kKernelSize;

+ float input;

+ // TODO(dalecurtis): For initial commit, I've ripped out all the SSE

+ // optimizations, these definitely need to go back in before release.

+ while (n--) {

+ input = *input_ptr++;

+ sum1 += input * *k1++;

+ sum2 += input * *k2++;

+ }

+ // Linearly interpolate the two "convolutions".

+ double result = (1.0 - kernel_interpolation_factor) * sum1

+ + kernel_interpolation_factor * sum2;

+ *destination++ = result;

+ // Advance the virtual index.

+ virtual_source_idx_ += io_sample_rate_ratio_;

+ if (!--remaining_frames)

+ return;

+ }

+ // Wrap back around to the start.

+ virtual_source_idx_ -= kBlockSize;

+ // Step (3) Copy r3 to r1 and r4 to r2.

+ // This wraps the last input frames back to the start of the buffer.

+ memcpy(r1, r3, sizeof(*input_buffer_.get()) * (kKernelSize / 2));

+ memcpy(r2, r4, sizeof(*input_buffer_.get()) * (kKernelSize / 2));

+ // Step (4)

+ // Refresh the buffer with more input.

+ read_cb_.Run(r5, kBlockSize);

+ }

+} // namespace media

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