/*
- Copyright (C) 2014 Carl Hetherington <cth@carlh.net>
+ Copyright (C) 2014-2015 Carl Hetherington <cth@carlh.net>
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
*/
+/** @file src/lib/dcpomatic_time.h
+ * @brief Types to describe time.
+ */
+
#ifndef DCPOMATIC_TIME_H
#define DCPOMATIC_TIME_H
+#include "frame_rate_change.h"
+#include "safe_stringstream.h"
+#include "dcpomatic_assert.h"
+#include <stdint.h>
#include <cmath>
#include <ostream>
-#include <sstream>
#include <iomanip>
-#include <stdint.h>
-#include "frame_rate_change.h"
-#include "safe_stringstream.h"
class dcpomatic_round_up_test;
-class Time;
-
-/** A time in seconds, expressed as a number scaled up by Time::HZ. */
+/** A time in seconds, expressed as a number scaled up by Time::HZ. We want two different
+ * versions of this class, ContentTime and DCPTime, and we want it to be impossible to
+ * convert implicitly between the two. Hence there's this template hack. I'm not
+ * sure if it's the best way to do it.
+ *
+ * S is the name of `this' class and O is its opposite (see the typedefs below).
+ */
+template <class S, class O>
class Time
{
public:
: _t (t)
{}
- virtual ~Time () {}
+ explicit Time (Type n, Type d)
+ : _t (n * HZ / d)
+ {}
+
+ /* Explicit conversion from type O */
+ Time (Time<O, S> d, FrameRateChange f);
Type get () const {
return _t;
}
+ bool operator< (Time<S, O> const & o) const {
+ return _t < o._t;
+ }
+
+ bool operator<= (Time<S, O> const & o) const {
+ return _t <= o._t;
+ }
+
+ bool operator== (Time<S, O> const & o) const {
+ return _t == o._t;
+ }
+
+ bool operator!= (Time<S, O> const & o) const {
+ return _t != o._t;
+ }
+
+ bool operator>= (Time<S, O> const & o) const {
+ return _t >= o._t;
+ }
+
+ bool operator> (Time<S, O> const & o) const {
+ return _t > o._t;
+ }
+
+ Time<S, O> operator+ (Time<S, O> const & o) const {
+ return Time<S, O> (_t + o._t);
+ }
+
+ Time<S, O> & operator+= (Time<S, O> const & o) {
+ _t += o._t;
+ return *this;
+ }
+
+ Time<S, O> operator- () const {
+ return Time<S, O> (-_t);
+ }
+
+ Time<S, O> operator- (Time<S, O> const & o) const {
+ return Time<S, O> (_t - o._t);
+ }
+
+ Time<S, O> & operator-= (Time<S, O> const & o) {
+ _t -= o._t;
+ return *this;
+ }
+
+ /** Round up to the nearest sampling interval
+ * at some sampling rate.
+ * @param r Sampling rate.
+ */
+ Time<S, O> round_up (float r) {
+ Type const n = llrintf (HZ / r);
+ Type const a = _t + n - 1;
+ return Time<S, O> (a - (a % n));
+ }
+
double seconds () const {
return double (_t) / HZ;
}
+ Time<S, O> abs () const {
+ return Time<S, O> (std::abs (_t));
+ }
+
+ template <typename T>
+ int64_t frames_round (T r) const {
+ return llrint (_t * r / HZ);
+ }
+
template <typename T>
- int64_t frames (T r) const {
- return rint (_t * r / HZ);
+ int64_t frames_floor (T r) const {
+ return floor (_t * r / HZ);
}
+ /** @param r Frames per second */
template <typename T>
void split (T r, int& h, int& m, int& s, int& f) const
{
/* Do this calculation with frames so that we can round
to a frame boundary at the start rather than the end.
*/
- int64_t ff = frames (r);
-
+ int64_t ff = frames_round (r);
+
h = ff / (3600 * r);
ff -= h * 3600 * r;
m = ff / (60 * r);
return o.str ();
}
-protected:
- friend struct dcptime_round_up_test;
-
- Type _t;
- static const int HZ = 96000;
-};
-
-class DCPTime;
-
-class ContentTime : public Time
-{
-public:
- ContentTime () : Time () {}
- explicit ContentTime (Type t) : Time (t) {}
- ContentTime (Type n, Type d) : Time (n * HZ / d) {}
- ContentTime (DCPTime d, FrameRateChange f);
-
- bool operator< (ContentTime const & o) const {
- return _t < o._t;
- }
-
- bool operator<= (ContentTime const & o) const {
- return _t <= o._t;
- }
- bool operator== (ContentTime const & o) const {
- return _t == o._t;
- }
-
- bool operator!= (ContentTime const & o) const {
- return _t != o._t;
+ static Time<S, O> from_seconds (double s) {
+ return Time<S, O> (llrint (s * HZ));
}
- bool operator>= (ContentTime const & o) const {
- return _t >= o._t;
- }
-
- bool operator> (ContentTime const & o) const {
- return _t > o._t;
+ template <class T>
+ static Time<S, O> from_frames (int64_t f, T r) {
+ DCPOMATIC_ASSERT (r > 0);
+ return Time<S, O> (f * HZ / r);
}
- ContentTime operator+ (ContentTime const & o) const {
- return ContentTime (_t + o._t);
+ static Time<S, O> delta () {
+ return Time<S, O> (1);
}
- ContentTime & operator+= (ContentTime const & o) {
- _t += o._t;
- return *this;
+ static Time<S, O> min () {
+ return Time<S, O> (-INT64_MAX);
}
- ContentTime operator- () const {
- return ContentTime (-_t);
+ static Time<S, O> max () {
+ return Time<S, O> (INT64_MAX);
}
- ContentTime operator- (ContentTime const & o) const {
- return ContentTime (_t - o._t);
- }
+private:
+ friend struct dcptime_round_up_test;
- ContentTime & operator-= (ContentTime const & o) {
- _t -= o._t;
- return *this;
- }
+ Type _t;
+ static const int HZ = 96000;
+};
- /** Round up to the nearest sampling interval
- * at some sampling rate.
- * @param r Sampling rate.
- */
- ContentTime round_up (float r) {
- Type const n = rint (HZ / r);
- Type const a = _t + n - 1;
- return ContentTime (a - (a % n));
- }
+class ContentTimeDifferentiator {};
+class DCPTimeDifferentiator {};
- static ContentTime from_seconds (double s) {
- return ContentTime (s * HZ);
- }
+/* Specializations for the two allowed explicit conversions */
- template <class T>
- static ContentTime from_frames (int64_t f, T r) {
- assert (r > 0);
- return ContentTime (f * HZ / r);
- }
+template<>
+Time<ContentTimeDifferentiator, DCPTimeDifferentiator>::Time (Time<DCPTimeDifferentiator, ContentTimeDifferentiator> d, FrameRateChange f);
- static ContentTime max () {
- return ContentTime (INT64_MAX);
- }
-};
+template<>
+Time<DCPTimeDifferentiator, ContentTimeDifferentiator>::Time (Time<ContentTimeDifferentiator, DCPTimeDifferentiator> d, FrameRateChange f);
-std::ostream& operator<< (std::ostream& s, ContentTime t);
+/** Time relative to the start or position of a piece of content in its native frame rate */
+typedef Time<ContentTimeDifferentiator, DCPTimeDifferentiator> ContentTime;
+/** Time relative to the start of the output DCP in its frame rate */
+typedef Time<DCPTimeDifferentiator, ContentTimeDifferentiator> DCPTime;
class ContentTimePeriod
{
public:
ContentTimePeriod () {}
+
ContentTimePeriod (ContentTime f, ContentTime t)
: from (f)
, to (t)
bool overlaps (ContentTimePeriod const & o) const;
bool contains (ContentTime const & o) const;
-};
-class DCPTime : public Time
-{
-public:
- DCPTime () : Time () {}
- explicit DCPTime (Type t) : Time (t) {}
- DCPTime (ContentTime t, FrameRateChange c) : Time (rint (t.get() / c.speed_up)) {}
-
- bool operator< (DCPTime const & o) const {
- return _t < o._t;
- }
-
- bool operator<= (DCPTime const & o) const {
- return _t <= o._t;
- }
-
- bool operator== (DCPTime const & o) const {
- return _t == o._t;
- }
-
- bool operator!= (DCPTime const & o) const {
- return _t != o._t;
- }
-
- bool operator>= (DCPTime const & o) const {
- return _t >= o._t;
- }
-
- bool operator> (DCPTime const & o) const {
- return _t > o._t;
- }
-
- DCPTime operator+ (DCPTime const & o) const {
- return DCPTime (_t + o._t);
- }
-
- DCPTime & operator+= (DCPTime const & o) {
- _t += o._t;
- return *this;
- }
-
- DCPTime operator- () const {
- return DCPTime (-_t);
- }
-
- DCPTime operator- (DCPTime const & o) const {
- return DCPTime (_t - o._t);
- }
-
- DCPTime & operator-= (DCPTime const & o) {
- _t -= o._t;
- return *this;
- }
-
- /** Round up to the nearest sampling interval
- * at some sampling rate.
- * @param r Sampling rate.
- */
- DCPTime round_up (float r) {
- Type const n = rint (HZ / r);
- Type const a = _t + n - 1;
- return DCPTime (a - (a % n));
- }
-
- DCPTime abs () const {
- return DCPTime (std::abs (_t));
- }
-
- static DCPTime from_seconds (double s) {
- return DCPTime (s * HZ);
- }
-
- template <class T>
- static DCPTime from_frames (int64_t f, T r) {
- assert (r > 0);
- return DCPTime (f * HZ / r);
- }
-
- static DCPTime delta () {
- return DCPTime (1);
- }
-
- static DCPTime max () {
- return DCPTime (INT64_MAX);
+ bool operator== (ContentTimePeriod const & o) const {
+ return from == o.from && to == o.to;
}
};
DCPTime min (DCPTime a, DCPTime b);
+DCPTime max (DCPTime a, DCPTime b);
+ContentTime min (ContentTime a, ContentTime b);
+ContentTime max (ContentTime a, ContentTime b);
+std::ostream& operator<< (std::ostream& s, ContentTime t);
std::ostream& operator<< (std::ostream& s, DCPTime t);
#endif