blob: 01ec6be22efedd962547e04e0ed41a3c234a5d50 [file] [log] [blame]
// Copyright (c) 2012 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include "media/base/audio_timestamp_helper.h"
#include "base/check_op.h"
#include "media/base/timestamp_constants.h"
namespace media {
// static
base::TimeDelta AudioTimestampHelper::FramesToTime(int64_t frames,
int samples_per_second) {
DCHECK_GT(samples_per_second, 0);
return base::Microseconds(frames * base::Time::kMicrosecondsPerSecond /
samples_per_second);
}
// static
int64_t AudioTimestampHelper::TimeToFrames(base::TimeDelta time,
int samples_per_second) {
return std::round(time.InSecondsF() * samples_per_second);
}
AudioTimestampHelper::AudioTimestampHelper(int samples_per_second)
: base_timestamp_(kNoTimestamp), frame_count_(0) {
DCHECK_GT(samples_per_second, 0);
double fps = samples_per_second;
microseconds_per_frame_ = base::Time::kMicrosecondsPerSecond / fps;
}
void AudioTimestampHelper::SetBaseTimestamp(base::TimeDelta base_timestamp) {
base_timestamp_ = base_timestamp;
frame_count_ = 0;
}
base::TimeDelta AudioTimestampHelper::base_timestamp() const {
return base_timestamp_;
}
void AudioTimestampHelper::AddFrames(int frame_count) {
DCHECK_GE(frame_count, 0);
DCHECK(base_timestamp_ != kNoTimestamp);
frame_count_ += frame_count;
}
base::TimeDelta AudioTimestampHelper::GetTimestamp() const {
return ComputeTimestamp(frame_count_);
}
base::TimeDelta AudioTimestampHelper::GetFrameDuration(int frame_count) const {
DCHECK_GE(frame_count, 0);
base::TimeDelta end_timestamp = ComputeTimestamp(frame_count_ + frame_count);
return end_timestamp - GetTimestamp();
}
int64_t AudioTimestampHelper::GetFramesToTarget(base::TimeDelta target) const {
DCHECK(base_timestamp_ != kNoTimestamp);
DCHECK(target >= base_timestamp_);
int64_t delta_in_us = (target - GetTimestamp()).InMicroseconds();
if (delta_in_us == 0)
return 0;
// Compute a timestamp relative to |base_timestamp_| since timestamps
// created from |frame_count_| are computed relative to this base.
// This ensures that the time to frame computation here is the proper inverse
// of the frame to time computation in ComputeTimestamp().
base::TimeDelta delta_from_base = target - base_timestamp_;
// Compute frame count for the time delta. This computation rounds to
// the nearest whole number of frames.
double threshold = microseconds_per_frame_ / 2;
int64_t target_frame_count =
(delta_from_base.InMicroseconds() + threshold) / microseconds_per_frame_;
return target_frame_count - frame_count_;
}
base::TimeDelta AudioTimestampHelper::ComputeTimestamp(
int64_t frame_count) const {
DCHECK_GE(frame_count, 0);
DCHECK(base_timestamp_ != kNoTimestamp);
double frames_us = microseconds_per_frame_ * frame_count;
return base_timestamp_ + base::Microseconds(frames_us);
}
} // namespace media