PlatformTimeRanges.h [plain text]
#ifndef PlatformTimeRanges_h
#define PlatformTimeRanges_h
#include <algorithm>
#include <wtf/MediaTime.h>
#include <wtf/PassRefPtr.h>
#include <wtf/RefCounted.h>
#include <wtf/Vector.h>
namespace WTF {
class PrintStream;
}
namespace WebCore {
class PlatformTimeRanges {
public:
static std::unique_ptr<PlatformTimeRanges> create();
static std::unique_ptr<PlatformTimeRanges> create(const MediaTime& start, const MediaTime& end);
static std::unique_ptr<PlatformTimeRanges> create(const PlatformTimeRanges&);
explicit PlatformTimeRanges() { }
PlatformTimeRanges(const MediaTime& start, const MediaTime& end);
PlatformTimeRanges(const PlatformTimeRanges&);
PlatformTimeRanges& operator=(const PlatformTimeRanges&);
MediaTime start(unsigned index) const;
MediaTime start(unsigned index, bool& valid) const;
MediaTime end(unsigned index) const;
MediaTime end(unsigned index, bool& valid) const;
MediaTime duration(unsigned index) const;
MediaTime maximumBufferedTime() const;
void invert();
void intersectWith(const PlatformTimeRanges&);
void unionWith(const PlatformTimeRanges&);
unsigned length() const { return m_ranges.size(); }
void add(const MediaTime& start, const MediaTime& end);
bool contain(const MediaTime&) const;
size_t find(const MediaTime&) const;
MediaTime nearest(const MediaTime&) const;
MediaTime totalDuration() const;
void dump(WTF::PrintStream&) const;
private:
PlatformTimeRanges& copy(const PlatformTimeRanges&);
struct Range {
Range() { }
Range(const MediaTime& start, const MediaTime& end)
: m_start(start)
, m_end(end)
{
}
MediaTime m_start;
MediaTime m_end;
inline bool isPointInRange(const MediaTime& point) const
{
return m_start <= point && point < m_end;
}
inline bool isOverlappingRange(const Range& range) const
{
return isPointInRange(range.m_start) || isPointInRange(range.m_end) || range.isPointInRange(m_start);
}
inline bool isContiguousWithRange(const Range& range) const
{
return range.m_start == m_end || range.m_end == m_start;
}
inline Range unionWithOverlappingOrContiguousRange(const Range& range) const
{
Range ret;
ret.m_start = std::min(m_start, range.m_start);
ret.m_end = std::max(m_end, range.m_end);
return ret;
}
inline bool isBeforeRange(const Range& range) const
{
return range.m_start >= m_end;
}
};
Vector<Range> m_ranges;
};
}
#endif