// Copyright 2014 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/text_ranges.h"
#include "base/logging.h"
namespace media {
TextRanges::TextRanges() {
Reset();
}
TextRanges::~TextRanges() {
}
void TextRanges::Reset() {
curr_range_itr_ = range_map_.end();
}
bool TextRanges::AddCue(base::TimeDelta start_time) {
typedef RangeMap::iterator Itr;
if (curr_range_itr_ == range_map_.end()) {
// There is no active time range, so this is the first AddCue()
// attempt that follows a Reset().
if (range_map_.empty()) {
NewRange(start_time);
return true;
}
if (start_time < range_map_.begin()->first) {
NewRange(start_time);
return true;
}
const Itr itr = --Itr(range_map_.upper_bound(start_time));
DCHECK(start_time >= itr->first);
Range& range = itr->second;
if (start_time > range.last_time()) {
NewRange(start_time);
return true;
}
range.ResetCount(start_time);
curr_range_itr_ = itr;
return false;
}
DCHECK(start_time >= curr_range_itr_->first);
Range& curr_range = curr_range_itr_->second;
if (start_time <= curr_range.last_time())
return curr_range.AddCue(start_time);
const Itr next_range_itr = ++Itr(curr_range_itr_);
if (next_range_itr != range_map_.end()) {
DCHECK(next_range_itr->first > curr_range.last_time());
DCHECK(start_time <= next_range_itr->first);
if (start_time == next_range_itr->first) {
// We have walked off the current range, and onto the next one.
// There is now no ambiguity about where the current time range
// ends, and so we coalesce the current and next ranges.
Merge(curr_range, next_range_itr);
return false;
}
}
// Either |curr_range| is the last range in the map, or there is a
// next range beyond |curr_range|, but its start time is ahead of
// this cue's start time. In either case, this cue becomes the new
// last_time for |curr_range|. Eventually we will see a cue whose
// time matches the start time of the next range, in which case we
// coalesce the current and next ranges.
curr_range.SetLastTime(start_time);
return true;
}
size_t TextRanges::RangeCountForTesting() const {
return range_map_.size();
}
void TextRanges::NewRange(base::TimeDelta start_time) {
Range range;
range.SetLastTime(start_time);
std::pair<RangeMap::iterator, bool> result =
range_map_.insert(std::make_pair(start_time, range));
DCHECK(result.second);
curr_range_itr_ = result.first;
}
void TextRanges::Merge(
Range& curr_range,
const RangeMap::iterator& next_range_itr) {
curr_range = next_range_itr->second;
curr_range.ResetCount(next_range_itr->first);
range_map_.erase(next_range_itr);
}
void TextRanges::Range::ResetCount(base::TimeDelta start_time) {
count_ = (start_time < last_time_) ? 0 : 1;
}
void TextRanges::Range::SetLastTime(base::TimeDelta last_time) {
last_time_ = last_time;
count_ = 1;
max_count_ = 1;
}
bool TextRanges::Range::AddCue(base::TimeDelta start_time) {
if (start_time < last_time_) {
DCHECK_EQ(count_, 0);
return false;
}
DCHECK(start_time == last_time_);
++count_;
if (count_ <= max_count_)
return false;
++max_count_;
return true;
}
base::TimeDelta TextRanges::Range::last_time() const {
return last_time_;
}
} // namespace media