13
0
livetrax/libs/temporal/temporal/bbt_time.h

413 lines
12 KiB
C++

/*
Copyright (C) 2002-2010 Paul Davis
This program is free software; you can redistribute it and/or modify it
under the terms of the GNU Lesser General Public License as published by
the Free Software Foundation; either version 2 of the License, or (at your
option) any later version.
This program is distributed in the hope that it will be useful, but WITHOUT
ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public
License for more details.
You should have received a copy of the GNU Lesser General Public License
along with this program; if not, write to the Free Software Foundation,
Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
*/
#ifndef __libtemporal_bbt_time_h__
#define __libtemporal_bbt_time_h__
#include <ostream>
#include <istream>
#include <sstream>
#include <stdint.h>
#include <iomanip>
#include <exception>
#include <cmath>
#include <limits>
#include <cstdio>
#include "pbd/failed_constructor.h"
#include "pbd/string_convert.h"
#include "temporal/visibility.h"
#include "temporal/types.h"
namespace Temporal {
struct IllegalBBTTimeException : public std::exception {
virtual const char* what() const throw() { return "illegal BBT time (bars or beats were zero, or ticks was too large)"; }
};
struct BBT_Offset;
/** Bar, Beat, Tick Time (i.e. Tempo-Based Time) */
struct LIBTEMPORAL_API BBT_Time
{
/* note that it is illegal for BBT_Time to have bars==0 or
* beats==0. The "neutral" or "default" value is 1|1|0
*/
int32_t bars;
int32_t beats;
int32_t ticks;
bool is_bar() const { return beats == 1 && ticks == 0; }
bool is_beat() const { return ticks == 0; }
BBT_Time () : bars (1), beats (1), ticks (0) {}
BBT_Time (int32_t ba, uint32_t be, uint32_t t) : bars (ba), beats (be), ticks (t) {
if (!bars || !beats) {
throw IllegalBBTTimeException();
}
}
bool operator< (const BBT_Time& other) const {
return bars < other.bars ||
(bars == other.bars && beats < other.beats) ||
(bars == other.bars && beats == other.beats && ticks < other.ticks);
}
bool operator<= (const BBT_Time& other) const {
return bars < other.bars ||
(bars <= other.bars && beats < other.beats) ||
(bars <= other.bars && beats <= other.beats && ticks <= other.ticks);
}
bool operator> (const BBT_Time& other) const {
return bars > other.bars ||
(bars == other.bars && beats > other.beats) ||
(bars == other.bars && beats == other.beats && ticks > other.ticks);
}
bool operator>= (const BBT_Time& other) const {
return bars > other.bars ||
(bars >= other.bars && beats > other.beats) ||
(bars >= other.bars && beats >= other.beats && ticks >= other.ticks);
}
bool operator== (const BBT_Time& other) const {
return bars == other.bars && beats == other.beats && ticks == other.ticks;
}
bool operator!= (const BBT_Time& other) const {
return bars != other.bars || beats != other.beats || ticks != other.ticks;
}
bool operator< (const BBT_Offset& other) const;
bool operator<= (const BBT_Offset& other) const;
bool operator> (const BBT_Offset& other) const;
bool operator>= (const BBT_Offset& other) const;
bool operator== (const BBT_Offset& other) const;
bool operator!= (const BBT_Offset& other) const;
/* it would be nice to provide +,-,* and / operators for BBT_Time but
* this math requires knowledge of the meter (time signature) used to
* define 1 bar, and so cannot be carried out with only two BBT_Time
* values.
*/
BBT_Time round_to_beat () const { return ticks >= (ticks_per_beat/2) ? BBT_Time (bars, beats+1, 0) : BBT_Time (bars, beats, 0); }
BBT_Time round_down_to_beat () const { return BBT_Time (bars, beats, 0); }
BBT_Time round_up_to_beat () const { return ticks ? BBT_Time (bars, beats+1, 0) : *this; }
/* cannot implement round_to_bar() without knowing meter (time
* signature) information, since it requires knowing how many beats
* are in a bar, in order to decide if we are closer to the previous or
* next bar time.
*/
BBT_Time round_up_to_bar () const { return beats > 1 ? BBT_Time (bars+1, 1, 0) : BBT_Time (bars, 1, 0); }
BBT_Time round_down_to_bar () const { return BBT_Time (bars, 1, 0); }
BBT_Time next_bar () const { return (bars == -1) ? BBT_Time (1, 1, 0) : BBT_Time (bars+1, 1, 0); }
BBT_Time prev_bar () const { return (bars == 1) ? BBT_Time (-1, 1, 0) : BBT_Time (bars-1, 1, 0); }
void print_padded (std::ostream& o) const {
o << std::setfill ('0') << std::right
<< std::setw (3) << bars << "|"
<< std::setw (2) << beats << "|"
<< std::setw (4) << ticks;
}
};
struct LIBTEMPORAL_API BBT_Offset
{
int32_t bars;
int32_t beats;
int32_t ticks;
/* this is a variant for which bars==0 and/or beats==0 is legal. It
* represents an offset from a given BBT_Time and is used when doing
* add/subtract operations on a BBT_Time.
*/
BBT_Offset () : bars (0), beats (0), ticks (0) {}
BBT_Offset (int32_t ba, uint32_t be, uint32_t t) : bars (ba), beats (be), ticks (t) {}
BBT_Offset (BBT_Time const & bbt) : bars (bbt.bars), beats (bbt.beats), ticks (bbt.ticks) {}
explicit BBT_Offset (double beats);
/* unlike BBT_Time, we can define +,-,* and / operators for BBT_Offset
* because there is no requirement that the result is "well-formed" or
* reflect the structure of a tempo map. It is just as valid to talk
* about an offset of 18 beats as an offset of 4 bars and 2 beats.
*/
BBT_Offset operator+(const BBT_Offset& other) const {
return BBT_Offset (bars+other.bars, beats+other.beats, ticks+other.ticks);
}
BBT_Offset operator-() const {
return BBT_Offset (-bars, -beats, -ticks);
}
BBT_Offset operator-(const BBT_Offset& other) const {
return BBT_Offset (bars-other.bars, beats-other.beats, ticks-other.ticks);
}
BBT_Offset & operator+=(const BBT_Offset& other) {
bars += other.bars;
beats += other.beats;
ticks += other.ticks;
return *this;
}
BBT_Offset & operator-=(const BBT_Offset& other) {
bars -= other.bars;
beats -= other.beats;
ticks -= other.ticks;
return *this;
}
BBT_Offset & operator*=(int factor) {
bars *= factor;
beats *= factor;
ticks *= factor;
return *this;
}
BBT_Offset & operator*=(double factor) {
bars = lrint (bars * factor);
beats = lrint (beats * factor);
ticks = lrint (ticks * factor);
return *this;
}
BBT_Offset & operator/=(int factor) {
bars /= factor;
beats /= factor;
ticks /= factor;
return *this;
}
BBT_Offset & operator/=(double factor) {
bars = lrint (bars / factor);
beats = lrint (beats / factor);
ticks = lrint (ticks / factor);
return *this;
}
bool operator< (const BBT_Offset& other) const {
return bars < other.bars ||
(bars == other.bars && beats < other.beats) ||
(bars == other.bars && beats == other.beats && ticks < other.ticks);
}
bool operator<= (const BBT_Offset& other) const {
return bars < other.bars ||
(bars <= other.bars && beats <= other.beats) ||
(bars <= other.bars && beats <= other.beats && ticks <= other.ticks);
}
bool operator> (const BBT_Offset& other) const {
return bars > other.bars ||
(bars == other.bars && beats > other.beats) ||
(bars == other.bars && beats == other.beats && ticks > other.ticks);
}
bool operator>= (const BBT_Offset& other) const {
return bars > other.bars ||
(bars >= other.bars && beats >= other.beats) ||
(bars >= other.bars && beats >= other.beats && ticks >= other.ticks);
}
bool operator== (const BBT_Offset& other) const {
return bars == other.bars && beats == other.beats && ticks == other.ticks;
}
bool operator!= (const BBT_Offset& other) const {
return bars != other.bars || beats != other.beats || ticks != other.ticks;
}
};
inline BBT_Offset LIBTEMPORAL_API bbt_delta (Temporal::BBT_Time const & a, Temporal::BBT_Time const & b) {
return Temporal::BBT_Offset (a.bars - b.bars, a.beats - b.beats, a.ticks - b.ticks);
}
inline bool
BBT_Time::operator< (const BBT_Offset& other) const
{
return bars < other.bars ||
(bars == other.bars && beats < other.beats) ||
(bars == other.bars && beats == other.beats && ticks < other.ticks);
}
inline bool
BBT_Time::operator<= (const BBT_Offset& other) const
{
return bars < other.bars ||
(bars <= other.bars && beats <= other.beats) ||
(bars <= other.bars && beats <= other.beats && ticks <= other.ticks);
}
inline bool
BBT_Time::operator> (const BBT_Offset& other) const
{
return bars > other.bars ||
(bars == other.bars && beats > other.beats) ||
(bars == other.bars && beats == other.beats && ticks > other.ticks);
}
inline bool
BBT_Time::operator>= (const BBT_Offset& other) const
{
return bars > other.bars ||
(bars >= other.bars && beats >= other.beats) ||
(bars >= other.bars && beats >= other.beats && ticks >= other.ticks);
}
inline bool
BBT_Time::operator== (const BBT_Offset& other) const
{
return bars == other.bars && beats == other.beats && ticks == other.ticks;
}
inline bool
BBT_Time::operator!= (const BBT_Offset& other) const
{
return bars != other.bars || beats != other.beats || ticks != other.ticks;
}
} /* end of namespace Temporal */
/* Putting these into std:: seems wrong, but g++ is unable to find them
* otherwise
*/
namespace std {
LIBTEMPORAL_API std::ostream& operator<< (std::ostream& o, Temporal::BBT_Time const & bbt);
LIBTEMPORAL_API std::ostream& operator<< (std::ostream& o, Temporal::BBT_Offset const & bbt);
LIBTEMPORAL_API std::istream& operator>> (std::istream& i, Temporal::BBT_Time& bbt);
LIBTEMPORAL_API std::istream& operator>> (std::istream& i, Temporal::BBT_Offset& bbt);
template<>
struct numeric_limits<Temporal::BBT_Time> {
static Temporal::BBT_Time lowest() {
return Temporal::BBT_Time(1, 1, 0);
}
static Temporal::BBT_Time min() {
return Temporal::BBT_Time(1, 1, 0);
}
static Temporal::BBT_Time max() {
return Temporal::BBT_Time(std::numeric_limits<int32_t>::max(),
std::numeric_limits<int32_t>::max(),
std::numeric_limits<int32_t>::max());
}
};
template<>
struct numeric_limits<Temporal::BBT_Offset> {
static Temporal::BBT_Offset lowest() {
return Temporal::BBT_Time(0, 0, 0);
}
static Temporal::BBT_Offset min() {
return Temporal::BBT_Time(0, 0, 0);
}
static Temporal::BBT_Time max() {
return Temporal::BBT_Time(std::numeric_limits<int32_t>::max(),
std::numeric_limits<int32_t>::max(),
std::numeric_limits<int32_t>::max());
}
};
} /* end of namespace std */
namespace PBD {
template<>
inline bool to_string (Temporal::BBT_Time val, std::string & str)
{
std::ostringstream ostr;
ostr << val;
str = ostr.str();
return true;
}
template<>
inline std::string to_string (Temporal::BBT_Time val)
{
std::ostringstream ostr;
ostr << val;
return ostr.str();
}
template<>
inline bool string_to (std::string const & str, Temporal::BBT_Time & val)
{
std::istringstream istr (str);
istr >> val;
return (bool) istr;
}
template<>
inline Temporal::BBT_Time string_to (std::string const & str)
{
Temporal::BBT_Time tmp;
string_to (str, tmp);
return tmp;
}
template<>
inline bool to_string (Temporal::BBT_Offset val, std::string & str)
{
std::ostringstream ostr;
ostr << val;
str = ostr.str();
return true;
}
template<>
inline std::string to_string (Temporal::BBT_Offset val)
{
std::ostringstream ostr;
ostr << val;
return ostr.str();
}
template<>
inline bool string_to (std::string const & str, Temporal::BBT_Offset & val)
{
std::istringstream istr (str);
istr >> val;
return (bool) istr;
}
template<>
inline Temporal::BBT_Offset string_to (std::string const & str)
{
Temporal::BBT_Offset tmp;
string_to (str, tmp);
return tmp;
}
} /* end namespace PBD */
#endif /* __libtemporal_bbt_time_h__ */