blob: c352578d5ca6c74a3ef7c7a808b75d85fe008a2d [file] [log] [blame]
/*
* Copyright (C) 2015 The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#define LOG_TAG "APM::VolumeCurve"
//#define LOG_NDEBUG 0
#include "VolumeCurve.h"
#include "TypeConverter.h"
#include <media/TypeConverter.h>
namespace android {
float VolumeCurve::volIndexToDb(int indexInUi, int volIndexMin, int volIndexMax) const
{
ALOG_ASSERT(!mCurvePoints.isEmpty(), "Invalid volume curve");
if (volIndexMin < 0 || volIndexMax < 0) {
// In order to let AudioService initialize the min and max, convention is to use -1
return NAN;
}
if (indexInUi < volIndexMin) {
// an index of 0 means mute request when volIndexMin > 0
if (indexInUi == 0) {
ALOGV("VOLUME forcing mute for index 0 with min index %d", volIndexMin);
return VOLUME_MIN_DB;
}
ALOGV("VOLUME remapping index from %d to min index %d", indexInUi, volIndexMin);
indexInUi = volIndexMin;
} else if (indexInUi > volIndexMax) {
ALOGV("VOLUME remapping index from %d to max index %d", indexInUi, volIndexMax);
indexInUi = volIndexMax;
}
size_t nbCurvePoints = mCurvePoints.size();
// the volume index in the UI is relative to the min and max volume indices for this stream
int nbSteps = 1 + mCurvePoints[nbCurvePoints - 1].mIndex - mCurvePoints[0].mIndex;
int volIdx = (nbSteps * (indexInUi - volIndexMin)) / (volIndexMax - volIndexMin);
// Where would this volume index been inserted in the curve point
size_t indexInUiPosition = mCurvePoints.orderOf(CurvePoint(volIdx, 0));
if (indexInUiPosition >= nbCurvePoints) {
//use last point of table
return mCurvePoints[nbCurvePoints - 1].mAttenuationInMb / 100.0f;
}
if (indexInUiPosition == 0) {
if (indexInUiPosition != mCurvePoints[0].mIndex) {
return VOLUME_MIN_DB; // out of bounds
}
return mCurvePoints[0].mAttenuationInMb / 100.0f;
}
// linear interpolation in the attenuation table in dB
float decibels = (mCurvePoints[indexInUiPosition - 1].mAttenuationInMb / 100.0f) +
((float)(volIdx - mCurvePoints[indexInUiPosition - 1].mIndex)) *
( ((mCurvePoints[indexInUiPosition].mAttenuationInMb / 100.0f) -
(mCurvePoints[indexInUiPosition - 1].mAttenuationInMb / 100.0f)) /
((float)(mCurvePoints[indexInUiPosition].mIndex -
mCurvePoints[indexInUiPosition - 1].mIndex)) );
ALOGV("VOLUME vol index=[%d %d %d], dB=[%.1f %.1f %.1f]",
mCurvePoints[indexInUiPosition - 1].mIndex, volIdx,
mCurvePoints[indexInUiPosition].mIndex,
((float)mCurvePoints[indexInUiPosition - 1].mAttenuationInMb / 100.0f), decibels,
((float)mCurvePoints[indexInUiPosition].mAttenuationInMb / 100.0f));
return decibels;
}
void VolumeCurve::dump(String8 *dst, int spaces, bool curvePoints) const
{
if (!curvePoints) {
return;
}
dst->append(" {");
for (size_t i = 0; i < mCurvePoints.size(); i++) {
dst->appendFormat("%*s(%3d, %5d)", spaces, "", mCurvePoints[i].mIndex,
mCurvePoints[i].mAttenuationInMb);
dst->appendFormat(i == (mCurvePoints.size() - 1) ? " }\n" : ", ");
}
}
void VolumeCurves::dump(String8 *dst, int spaces, bool curvePoints) const
{
if (!curvePoints) {
// dst->appendFormat("%*s%02d %s %03d %03d ", spaces, "",
// mStream, mCanBeMuted ? "true " : "false", mIndexMin, mIndexMax);
dst->appendFormat("%*s Can be muted Index Min Index Max Index Cur [device : index]...\n",
spaces + 1, "");
dst->appendFormat("%*s %s %02d %02d ", spaces + 1, "",
mCanBeMuted ? "true " : "false", mIndexMin, mIndexMax);
for (const auto &pair : mIndexCur) {
dst->appendFormat("%04x : %02d, ", pair.first, pair.second);
}
dst->appendFormat("\n");
return;
}
std::string streamNames;
for (const auto &stream : mStreams) {
streamNames += android::toString(stream) + "("+std::to_string(stream)+") ";
}
dst->appendFormat("%*sVolume Curves Streams/Attributes, Curve points Streams for device"
" category (index, attenuation in millibel)\n", spaces, "");
dst->appendFormat("%*s Streams: %s \n", spaces, "", streamNames.c_str());
if (!mAttributes.empty()) dst->appendFormat("%*s Attributes:", spaces, "");
for (const auto &attributes : mAttributes) {
std::string attStr = attributes == defaultAttr ? "{ Any }" : android::toString(attributes);
dst->appendFormat("%*s %s\n", attributes == mAttributes.front() ? 0 : spaces + 13, "",
attStr.c_str());
}
for (size_t i = 0; i < size(); i++) {
std::string deviceCatLiteral;
DeviceCategoryConverter::toString(keyAt(i), deviceCatLiteral);
dst->appendFormat("%*s %s :", spaces, "", deviceCatLiteral.c_str());
valueAt(i)->dump(dst, 1, true);
}
}
} // namespace android