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Diffstat (limited to 'nutemp/t.h')
-rw-r--r-- | nutemp/t.h | 402 |
1 files changed, 402 insertions, 0 deletions
diff --git a/nutemp/t.h b/nutemp/t.h new file mode 100644 index 0000000000..645893f51c --- /dev/null +++ b/nutemp/t.h @@ -0,0 +1,402 @@ +#ifndef __ardour_tempo_h__ +#define __ardour_tempo_h__ + +#include <list> +#include <string> +#include <vector> +#include <cmath> +#include <exception> + +#include <glibmm/threads.h> + +#include "evoral/Beats.hpp" + +#include "ardour/ardour.h" +#include "ardour/superclock.h" + +#include "timecode/bbt_time.h" + +namespace ARDOUR { + +class Meter; +class TempoMap; + +/** Tempo, the speed at which musical time progresses (BPM). + */ + +class LIBARDOUR_API Tempo { + public: + /** + * @param npm Note Types per minute + * @param type Note Type (default `4': quarter note) + */ + Tempo (double npm, int type = 4) : _superclocks_per_note_type (double_npm_to_sc (npm)), _note_type (type) {} + + /* these two methods should only be used to show and collect information to the user (for whom + * bpm as a floating point number is the obvious representation) + */ + double note_types_per_minute () const { return (superclock_ticks_per_second * 60.0) / _superclocks_per_note_type; } + void set_note_types_per_minute (double npm) { _superclocks_per_note_type = double_npm_to_sc (npm); } + + int note_type () const { return _note_type; } + + superclock_t superclocks_per_note_type () const { + return _superclocks_per_note_type; + } + superclock_t superclocks_per_note_type (int note_type) const { + return (_superclocks_per_note_type * _note_type) / note_type; + } + superclock_t superclocks_per_quarter_note () const { + return superclocks_per_note_type (4); + } + + Tempo& operator=(Tempo const& other) { + if (&other != this) { + _superclocks_per_note_type = other._superclocks_per_note_type; + _note_type = other._note_type; + } + return *this; + } + + protected: + superclock_t _superclocks_per_note_type; + int8_t _note_type; + + static inline double sc_to_double_npm (superclock_t sc) { return (superclock_ticks_per_second * 60.0) / sc; } + static inline superclock_t double_npm_to_sc (double npm) { return llrint ((superclock_ticks_per_second / npm) * 60.0); } +}; + +/** Meter, or time signature (subdivisions per bar, and which note type is a single subdivision). */ +class LIBARDOUR_API Meter { + public: + Meter (int8_t dpb, int8_t nv) : _note_value (nv), _divisions_per_bar (dpb) {} + + int divisions_per_bar () const { return _divisions_per_bar; } + int note_value() const { return _note_value; } + + inline bool operator==(const Meter& other) { return _divisions_per_bar == other.divisions_per_bar() && _note_value == other.note_value(); } + inline bool operator!=(const Meter& other) { return _divisions_per_bar != other.divisions_per_bar() || _note_value != other.note_value(); } + + Meter& operator=(Meter const & other) { + if (&other != this) { + _divisions_per_bar = other._divisions_per_bar; + _note_value = other._note_value; + } + return *this; + } + + Timecode::BBT_Time bbt_add (Timecode::BBT_Time const & bbt, Timecode::BBT_Offset const & add) const; + Timecode::BBT_Time bbt_subtract (Timecode::BBT_Time const & bbt, Timecode::BBT_Offset const & sub) const; + Timecode::BBT_Offset bbt_delta (Timecode::BBT_Time const & bbt, Timecode::BBT_Time const & sub) const; + + Timecode::BBT_Time round_up_to_bar (Timecode::BBT_Time const &) const; + Timecode::BBT_Time round_down_to_bar (Timecode::BBT_Time const &) const; + Timecode::BBT_Time round_to_bar (Timecode::BBT_Time const &) const; + + Evoral::Beats to_quarters (Timecode::BBT_Offset const &) const; + + protected: + /** The type of "note" that a division represents. For example, 4 is + a quarter (crotchet) note, 8 is an eighth (quaver) note, etc. + */ + int8_t _note_value; + /* how many of '_note_value' make up a bar or measure */ + int8_t _divisions_per_bar; +}; + +/** Helper class to keep track of the Meter *AND* Tempo in effect + at a given point in time. +*/ +class LIBARDOUR_API TempoMetric : public Tempo, public Meter { + public: + TempoMetric (Tempo const & t, Meter const & m, bool ramp) : Tempo (t), Meter (m), _c_per_quarter (0.0), _c_per_superclock (0.0), _ramped (ramp) {} + ~TempoMetric () {} + + double c_per_superclock () const { return _c_per_superclock; } + double c_per_quarter () const { return _c_per_quarter; } + + void compute_c_superclock (framecnt_t sr, superclock_t end_superclocks_per_note_type, superclock_t duration); + void compute_c_quarters (framecnt_t sr, superclock_t end_superclocks_per_note_type, Evoral::Beats const & duration); + + superclock_t superclocks_per_bar (framecnt_t sr) const; + superclock_t superclocks_per_grid (framecnt_t sr) const; + + superclock_t superclock_at_qn (Evoral::Beats const & qn) const; + superclock_t superclock_per_note_type_at_superclock (superclock_t) const; + + bool ramped () const { return _ramped; } + void set_ramped (bool yn) { _ramped = yn; } /* caller must mark something dirty to force recompute */ + + private: + double _c_per_quarter; + double _c_per_superclock; + bool _ramped; +}; + +/** Tempo Map - mapping of timecode to musical time. + * convert audio-samples, sample-rate to Bar/Beat/Tick, Meter/Tempo + */ + +/* TempoMap concepts + + we have several different ways of talking about time: + + * PULSE : whole notes, just because. These are linearly related to any other + note type, so if you know a number of pulses (whole notes), you + know the corresponding number of any other note type (e.g. quarter + notes). + + * QUARTER NOTES : just what the name says. A lot of MIDI software and + concepts assume that a "beat" is a quarter-note. + + * BEAT : a fraction of a PULSE. Defined by the meter in effect, so requires + meter (time signature) information to convert to/from PULSE or QUARTER NOTES. + In a 5/8 time, a BEAT is 1/8th note. In a 4/4 time, a beat is quarter note. + This means that measuring time in BEATS is potentially non-linear (if + the time signature changes, there will be a different number of BEATS + corresponding to a given time in any other unit). + + * SUPERCLOCK : a very high resolution clock whose frequency + has as factors all common sample rates and all common note + type divisors. Related to MINUTES or SAMPLES only when a + sample rate is known. Related to PULSE or QUARTER NOTES only + when a tempo is known. + + * MINUTES : wallclock time measurement. related to SAMPLES or SUPERCLOCK + only when a sample rate is known. + + + * SAMPLES : audio time measurement. Related to MINUTES or SUPERCLOCK only + when a sample rate is known + + * BBT : bars|beats|ticks ... linearly related to BEATS but with the added + semantics of bars ("measures") added, in which beats are broken up + into groups of bars ("measures"). Requires meter (time signature) + information to compute to/from a given BEATS value. Contains no + additional time information compared to BEATS, but does have + additional semantic information. + + Nick sez: not every note onset is on a tick + Paul wonders: if it's 8 samples off, does it matter? + Nick sez: it should not phase with existing audio + + */ + +class LIBARDOUR_API TempoMapPoint +{ + public: + enum Flag { + ExplicitTempo = 0x1, + ExplicitMeter = 0x2, + }; + + TempoMapPoint (Flag f, Tempo const& t, Meter const& m, superclock_t sc, Evoral::Beats const & q, Timecode::BBT_Time const & bbt, PositionLockStyle psl, bool ramp = false) + : _flags (f), _explicit (t, m, psl, ramp), _sclock (sc), _quarters (q), _bbt (bbt), _dirty (true) {} + TempoMapPoint (TempoMapPoint const & tmp, superclock_t sc, Evoral::Beats const & q, Timecode::BBT_Time const & bbt) + : _flags (Flag (0)), _reference (&tmp), _sclock (sc), _quarters (q), _bbt (bbt), _dirty (true) {} + ~TempoMapPoint () {} + + bool is_explicit() const { return _flags != Flag (0); } + bool is_implicit() const { return _flags == Flag (0); } + + superclock_t superclocks_per_note_type (int8_t note_type) const { + if (is_explicit()) { + return _explicit.metric.superclocks_per_note_type (note_type); + } + return _reference->superclocks_per_note_type (note_type); + } + + struct BadTempoMetricLookup : public std::exception { + virtual const char* what() const throw() { return "cannot obtain non-const Metric from implicit map point"; } + }; + + bool dirty() const { return _dirty; } + + superclock_t sclock() const { return _sclock; } + Evoral::Beats const & quarters() const { return _quarters; } + Timecode::BBT_Time const & bbt() const { return _bbt; } + bool ramped() const { return metric().ramped(); } + TempoMetric const & metric() const { return is_explicit() ? _explicit.metric : _reference->metric(); } + /* Implicit points are not allowed to return non-const references to their reference metric */ + TempoMetric & metric() { if (is_explicit()) { return _explicit.metric; } throw BadTempoMetricLookup(); } + PositionLockStyle lock_style() const { return is_explicit() ? _explicit.lock_style : _reference->lock_style(); } + + /* None of these properties can be set for an Implicit point, because + * they are determined by the TempoMapPoint pointed to by _reference. + */ + + void set_sclock (superclock_t sc) { if (is_explicit()) { _sclock = sc; _dirty = true; } } + void set_quarters (Evoral::Beats const & q) { if (is_explicit()) { _quarters = q; _dirty = true; } } + void set_bbt (Timecode::BBT_Time const & bbt) { if (is_explicit()) { _bbt = bbt; _dirty = true; } } + void set_dirty (bool yn) { if (is_explicit()) { _dirty = yn; } } + void set_lock_style (PositionLockStyle psl) { if (is_explicit()) { _explicit.lock_style = psl; _dirty = true; } } + + void make_explicit (Flag f) { + _flags = Flag (_flags|f); + /* since _metric and _reference are part of an anonymous union, + avoid possible compiler glitches by copying to a stack + variable first, then assign. + */ + TempoMetric tm (_explicit.metric); + _explicit.metric = tm; + _dirty = true; + } + + void make_implicit (TempoMapPoint & tmp) { _flags = Flag (0); _reference = &tmp; } + + Evoral::Beats quarters_at (superclock_t sc) const; + Evoral::Beats quarters_at (Timecode::BBT_Time const &) const; + + Timecode::BBT_Time bbt_at (Evoral::Beats const &) const; + +#if 0 + XMLNode& get_state() const; + int set_state (XMLNode const&, int version); +#endif + + struct SuperClockComparator { + bool operator() (TempoMapPoint const & a, TempoMapPoint const & b) const { return a.sclock() < b.sclock(); } + }; + + struct QuarterComparator { + bool operator() (TempoMapPoint const & a, TempoMapPoint const & b) const { return a.quarters() < b.quarters(); } + }; + + struct BBTComparator { + bool operator() (TempoMapPoint const & a, TempoMapPoint const & b) const { return a.bbt() < b.bbt(); } + }; + + protected: + friend class TempoMap; + void map_reset_set_sclock_for_sr_change (superclock_t sc) { _sclock = sc; } + + private: + struct ExplicitInfo { + ExplicitInfo (Tempo const & t, Meter const & m, PositionLockStyle psl, bool ramp) : metric (t, m, ramp), lock_style (psl) {} + + TempoMetric metric; + PositionLockStyle lock_style; + }; + + Flag _flags; + union { + TempoMapPoint const * _reference; + ExplicitInfo _explicit; + }; + superclock_t _sclock; + Evoral::Beats _quarters; + Timecode::BBT_Time _bbt; + bool _dirty; +}; + +typedef std::list<TempoMapPoint> TempoMapPoints; + +class LIBARDOUR_API TempoMap +{ + public: + TempoMap (Tempo const & initial_tempo, Meter const & initial_meter, framecnt_t sr); + + void set_sample_rate (framecnt_t sr); + framecnt_t sample_rate() const { return _sample_rate; } + + void remove_explicit_point (superclock_t); + + void move_implicit (superclock_t current, superclock_t destination); + void move_explicit (superclock_t current, superclock_t destination); + + //bool set_tempo_at (Tempo const &, Evoral::Beats const &, PositionLockStyle psl, bool ramp = false); + bool set_tempo (Tempo const &, Timecode::BBT_Time const &, bool ramp = false); + bool set_tempo (Tempo const &, superclock_t, bool ramp = false); + + //bool set_meter_at (Meter const &, Evoral::Beats const &); + + bool set_meter (Meter const &, Timecode::BBT_Time const &); + bool set_meter (Meter const &, superclock_t); + + Meter const & meter_at (superclock_t sc) const; + Meter const & meter_at (Evoral::Beats const & b) const; + Meter const & meter_at (Timecode::BBT_Time const & bbt) const; + Tempo const & tempo_at (superclock_t sc) const; + Tempo const & tempo_at (Evoral::Beats const &b) const; + Tempo const & tempo_at (Timecode::BBT_Time const & bbt) const; + + Timecode::BBT_Time bbt_at (superclock_t sc) const; + Timecode::BBT_Time bbt_at (Evoral::Beats const &) const; + Evoral::Beats quarter_note_at (superclock_t sc) const; + Evoral::Beats quarter_note_at (Timecode::BBT_Time const &) const; + superclock_t superclock_at (Evoral::Beats const &) const; + superclock_t superclock_at (Timecode::BBT_Time const &) const; + + struct EmptyTempoMapException : public std::exception { + virtual const char* what() const throw() { return "TempoMap is empty"; } + }; + + void dump (std::ostream&); + void rebuild (superclock_t limit); + + private: + TempoMapPoints _points; + framecnt_t _sample_rate; + mutable Glib::Threads::RWLock _lock; + + /* these return an iterator that refers to the TempoMapPoint at or most immediately preceding the given position. + * + * Conceptually, these could be const methods, but C++ prevents them returning a non-const iterator in that case. + * + * Note that they cannot return an invalid iterator (e.g. _points.end()) because: + * + * - if the map is empty, an exception is thrown + * - if the given time is before the first map entry, _points.begin() is returned + * - if the given time is after the last map entry, the equivalent of _points.rbegin() is returned + * - if the given time is within the map entries, a valid iterator will be returned + */ + + TempoMapPoints::iterator iterator_at (superclock_t sc); + TempoMapPoints::iterator iterator_at (Evoral::Beats const &); + TempoMapPoints::iterator iterator_at (Timecode::BBT_Time const &); + + TempoMapPoints::const_iterator const_iterator_at (superclock_t sc) const { return const_cast<TempoMap*>(this)->iterator_at (sc); } + TempoMapPoints::const_iterator const_iterator_at (Evoral::Beats const & b) const { return const_cast<TempoMap*>(this)->iterator_at (b); } + TempoMapPoints::const_iterator const_iterator_at (Timecode::BBT_Time const & bbt) const { return const_cast<TempoMap*>(this)->iterator_at (bbt); } + + /* Returns the TempoMapPoint at or most immediately preceding the given time. If the given time is + * before the first map entry, then the first map entry will be returned, which underlies the semantics + * that the first map entry's values propagate backwards in time if not at absolute zero. + * + * As for iterator_at(), define both const+const and non-const variants, because C++ won't let us return a non-const iterator + from a const method (which is a bit silly, but presumably aids compiler reasoning). + */ + + TempoMapPoint & point_at (superclock_t sc) { return *iterator_at (sc); } + TempoMapPoint & point_at (Evoral::Beats const & b) { return *iterator_at (b); } + TempoMapPoint & point_at (Timecode::BBT_Time const & bbt) { return *iterator_at (bbt); } + + TempoMapPoint const & const_point_at (superclock_t sc) const { return *const_iterator_at (sc); } + TempoMapPoint const & const_point_at (Evoral::Beats const & b) const { return *const_iterator_at (b); } + TempoMapPoint const & const_point_at (Timecode::BBT_Time const & bbt) const { return *const_iterator_at (bbt); } + + Meter const & meter_at_locked (superclock_t sc) const { return const_point_at (sc).metric(); } + Meter const & meter_at_locked (Evoral::Beats const & b) const { return const_point_at (b).metric(); } + Meter const & meter_at_locked (Timecode::BBT_Time const & bbt) const { return const_point_at (bbt).metric(); } + Tempo const & tempo_at_locked (superclock_t sc) const { return const_point_at (sc).metric(); } + Tempo const & tempo_at_locked (Evoral::Beats const &b) const { return const_point_at (b).metric(); } + Tempo const & tempo_at_locked (Timecode::BBT_Time const & bbt) const { return const_point_at (bbt).metric(); } + Timecode::BBT_Time bbt_at_locked (superclock_t sc) const; + Timecode::BBT_Time bbt_at_locked (Evoral::Beats const &) const; + Evoral::Beats quarter_note_at_locked (superclock_t sc) const; + Evoral::Beats quarter_note_at_locked (Timecode::BBT_Time const &) const; + superclock_t superclock_at_locked (Evoral::Beats const &) const; + superclock_t superclock_at_locked (Timecode::BBT_Time const &) const; + + void move_explicit_to (TempoMapPoints::iterator, superclock_t destination); + + void rebuild_locked (superclock_t limit); +}; + +} + +std::ostream& operator<<(std::ostream&, ARDOUR::TempoMapPoint const &); +std::ostream& operator<<(std::ostream&, ARDOUR::Tempo const &); +std::ostream& operator<<(std::ostream&, ARDOUR::Meter const &); + +#endif /* __ardour_tempo_h__ */ |