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chromium / chromium / src / 4a8a7ad6155544b087fdedff4bcb4e4a5a35bbd1 / . / third_party / WebKit / Source / platform / audio / EqualPowerPanner.cpp
blob: bbeceb385c60591bc830784d38955eae412df351 [file] [log] [blame]
/*
* Copyright (C) 2010, Google Inc. All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY APPLE INC. AND ITS CONTRIBUTORS ``AS IS'' AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL APPLE INC. OR ITS CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
* SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
* CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH
* DAMAGE.
*/
#include "platform/audio/EqualPowerPanner.h"
#include "platform/audio/AudioBus.h"
#include "platform/audio/AudioUtilities.h"
#include "wtf/MathExtras.h"
#include <algorithm>
#include <cmath>
namespace blink {
EqualPowerPanner::EqualPowerPanner(float sampleRate)
: Panner(PanningModelEqualPower) {}
void EqualPowerPanner::pan(double azimuth,
double /*elevation*/,
const AudioBus* inputBus,
AudioBus* outputBus,
size_t framesToProcess,
AudioBus::ChannelInterpretation) {
bool isInputSafe = inputBus && (inputBus->numberOfChannels() == 1 ||
inputBus->numberOfChannels() == 2) &&
framesToProcess <= inputBus->length();
ASSERT(isInputSafe);
if (!isInputSafe)
return;
unsigned numberOfInputChannels = inputBus->numberOfChannels();
bool isOutputSafe = outputBus && outputBus->numberOfChannels() == 2 &&
framesToProcess <= outputBus->length();
ASSERT(isOutputSafe);
if (!isOutputSafe)
return;
const float* sourceL = inputBus->channel(0)->data();
const float* sourceR =
numberOfInputChannels > 1 ? inputBus->channel(1)->data() : sourceL;
float* destinationL =
outputBus->channelByType(AudioBus::ChannelLeft)->mutableData();
float* destinationR =
outputBus->channelByType(AudioBus::ChannelRight)->mutableData();
if (!sourceL || !sourceR || !destinationL || !destinationR)
return;
// Clamp azimuth to allowed range of -180 -> +180.
azimuth = clampTo(azimuth, -180.0, 180.0);
// Alias the azimuth ranges behind us to in front of us:
// -90 -> -180 to -90 -> 0 and 90 -> 180 to 90 -> 0
if (azimuth < -90)
azimuth = -180 - azimuth;
else if (azimuth > 90)
azimuth = 180 - azimuth;
double desiredPanPosition;
double desiredGainL;
double desiredGainR;
if (numberOfInputChannels == 1) { // For mono source case.
// Pan smoothly from left to right with azimuth going from -90 -> +90
// degrees.
desiredPanPosition = (azimuth + 90) / 180;
} else { // For stereo source case.
if (azimuth <= 0) { // from -90 -> 0
// sourceL -> destL and "equal-power pan" sourceR as in mono case
// by transforming the "azimuth" value from -90 -> 0 degrees into the
// range -90 -> +90.
desiredPanPosition = (azimuth + 90) / 90;
} else { // from 0 -> +90
// sourceR -> destR and "equal-power pan" sourceL as in mono case
// by transforming the "azimuth" value from 0 -> +90 degrees into the
// range -90 -> +90.
desiredPanPosition = azimuth / 90;
}
}
desiredGainL = std::cos(piOverTwoDouble * desiredPanPosition);
desiredGainR = std::sin(piOverTwoDouble * desiredPanPosition);
int n = framesToProcess;
if (numberOfInputChannels == 1) { // For mono source case.
while (n--) {
float inputL = *sourceL++;
*destinationL++ = static_cast<float>(inputL * desiredGainL);
*destinationR++ = static_cast<float>(inputL * desiredGainR);
}
} else { // For stereo source case.
if (azimuth <= 0) { // from -90 -> 0
while (n--) {
float inputL = *sourceL++;
float inputR = *sourceR++;
*destinationL++ = static_cast<float>(inputL + inputR * desiredGainL);
*destinationR++ = static_cast<float>(inputR * desiredGainR);
}
} else { // from 0 -> +90
while (n--) {
float inputL = *sourceL++;
float inputR = *sourceR++;
*destinationL++ = static_cast<float>(inputL * desiredGainL);
*destinationR++ = static_cast<float>(inputR + inputL * desiredGainR);
}
}
}
}
void EqualPowerPanner::calculateDesiredGain(double& desiredGainL,
double& desiredGainR,
double azimuth,
int numberOfInputChannels) {
// Clamp azimuth to allowed range of -180 -> +180.
azimuth = clampTo(azimuth, -180.0, 180.0);
// Alias the azimuth ranges behind us to in front of us:
// -90 -> -180 to -90 -> 0 and 90 -> 180 to 90 -> 0
if (azimuth < -90)
azimuth = -180 - azimuth;
else if (azimuth > 90)
azimuth = 180 - azimuth;
double desiredPanPosition;
if (numberOfInputChannels == 1) { // For mono source case.
// Pan smoothly from left to right with azimuth going from -90 -> +90
// degrees.
desiredPanPosition = (azimuth + 90) / 180;
} else { // For stereo source case.
if (azimuth <= 0) { // from -90 -> 0
// sourceL -> destL and "equal-power pan" sourceR as in mono case
// by transforming the "azimuth" value from -90 -> 0 degrees into the
// range -90 -> +90.
desiredPanPosition = (azimuth + 90) / 90;
} else { // from 0 -> +90
// sourceR -> destR and "equal-power pan" sourceL as in mono case
// by transforming the "azimuth" value from 0 -> +90 degrees into the
// range -90 -> +90.
desiredPanPosition = azimuth / 90;
}
}
desiredGainL = std::cos(piOverTwoDouble * desiredPanPosition);
desiredGainR = std::sin(piOverTwoDouble * desiredPanPosition);
}
void EqualPowerPanner::panWithSampleAccurateValues(
double* azimuth,
double* /*elevation*/,
const AudioBus* inputBus,
AudioBus* outputBus,
size_t framesToProcess,
AudioBus::ChannelInterpretation) {
bool isInputSafe = inputBus && (inputBus->numberOfChannels() == 1 ||
inputBus->numberOfChannels() == 2) &&
framesToProcess <= inputBus->length();
DCHECK(isInputSafe);
if (!isInputSafe)
return;
unsigned numberOfInputChannels = inputBus->numberOfChannels();
bool isOutputSafe = outputBus && outputBus->numberOfChannels() == 2 &&
framesToProcess <= outputBus->length();
DCHECK(isOutputSafe);
if (!isOutputSafe)
return;
const float* sourceL = inputBus->channel(0)->data();
const float* sourceR =
numberOfInputChannels > 1 ? inputBus->channel(1)->data() : sourceL;
float* destinationL =
outputBus->channelByType(AudioBus::ChannelLeft)->mutableData();
float* destinationR =
outputBus->channelByType(AudioBus::ChannelRight)->mutableData();
if (!sourceL || !sourceR || !destinationL || !destinationR)
return;
int n = framesToProcess;
if (numberOfInputChannels == 1) { // For mono source case.
for (int k = 0; k < n; ++k) {
double desiredGainL;
double desiredGainR;
float inputL = *sourceL++;
calculateDesiredGain(desiredGainL, desiredGainR, azimuth[k],
numberOfInputChannels);
*destinationL++ = static_cast<float>(inputL * desiredGainL);
*destinationR++ = static_cast<float>(inputL * desiredGainR);
}
} else { // For stereo source case.
for (int k = 0; k < n; ++k) {
double desiredGainL;
double desiredGainR;
calculateDesiredGain(desiredGainL, desiredGainR, azimuth[k],
numberOfInputChannels);
if (azimuth[k] <= 0) { // from -90 -> 0
float inputL = *sourceL++;
float inputR = *sourceR++;
*destinationL++ = static_cast<float>(inputL + inputR * desiredGainL);
*destinationR++ = static_cast<float>(inputR * desiredGainR);
} else { // from 0 -> +90
float inputL = *sourceL++;
float inputR = *sourceR++;
*destinationL++ = static_cast<float>(inputL * desiredGainL);
*destinationR++ = static_cast<float>(inputR + inputL * desiredGainR);
}
}
}
}
} // namespace blink