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* Make it possible to import an entire session from an RDF document. However, at the moment the timings of events appear to be constrained by how far the audio decoder has got through its audio file at the time the event is queried -- need to investigate.
author Chris Cannam
date Fri, 21 Nov 2008 18:03:14 +0000
parents beb2948baa77
children 81963c51b488
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line source
/* -*- c-basic-offset: 4 indent-tabs-mode: nil -*-  vi:set ts=8 sts=4 sw=4: */

/*
    Sonic Visualiser
    An audio file viewer and annotation editor.
    Centre for Digital Music, Queen Mary, University of London.
    
    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 the Free Software Foundation; either version 2 of the
    License, or (at your option) any later version.  See the file
    COPYING included with this distribution for more information.
*/

/*
   This is a modified version of a source file from the 
   Rosegarden MIDI and audio sequencer and notation editor.
   This file copyright 2000-2006 Chris Cannam.
*/

#include <iostream>

#include <cstdlib>

#if (__GNUC__ < 3)
#include <strstream>
#define stringstream strstream
#else
#include <sstream>
#endif

using std::cerr;
using std::endl;

#include "RealTime.h"
#include "sys/time.h"

// A RealTime consists of two ints that must be at least 32 bits each.
// A signed 32-bit int can store values exceeding +/- 2 billion.  This
// means we can safely use our lower int for nanoseconds, as there are
// 1 billion nanoseconds in a second and we need to handle double that
// because of the implementations of addition etc that we use.
//
// The maximum valid RealTime on a 32-bit system is somewhere around
// 68 years: 999999999 nanoseconds longer than the classic Unix epoch.

#define ONE_BILLION 1000000000

RealTime::RealTime(int s, int n) :
    sec(s), nsec(n)
{
    if (sec == 0) {
	while (nsec <= -ONE_BILLION) { nsec += ONE_BILLION; --sec; }
	while (nsec >=  ONE_BILLION) { nsec -= ONE_BILLION; ++sec; }
    } else if (sec < 0) {
	while (nsec <= -ONE_BILLION) { nsec += ONE_BILLION; --sec; }
	while (nsec > 0)             { nsec -= ONE_BILLION; ++sec; }
    } else { 
	while (nsec >=  ONE_BILLION) { nsec -= ONE_BILLION; ++sec; }
	while (nsec < 0)             { nsec += ONE_BILLION; --sec; }
    }
}

RealTime
RealTime::fromSeconds(double sec)
{
    return RealTime(int(sec), int((sec - int(sec)) * ONE_BILLION + 0.5));
}

RealTime
RealTime::fromMilliseconds(int msec)
{
    return RealTime(msec / 1000, (msec % 1000) * 1000000);
}

RealTime
RealTime::fromTimeval(const struct timeval &tv)
{
    return RealTime(tv.tv_sec, tv.tv_usec * 1000);
}

RealTime
RealTime::fromXsdDuration(std::string xsdd)
{
    RealTime t;

    int year = 0, month = 0, day = 0, hour = 0, minute = 0;
    double second = 0.0;

    int i = 0;

    const char *s = xsdd.c_str();
    int len = xsdd.length();

    bool negative = false, afterT = false;

    int valstart = 0;

    while (i < len) {

        if (s[i] == '-') {
            if (i == 0) negative = true;
            ++i;
            continue;
        }

        double value = 0.0;
        char *eptr = 0;

        if (isdigit(s[i]) || s[i] == '.') {
            valstart = i;
            value = strtod(&s[i], &eptr);
            i = eptr - s;
        }

        if (i == len) break;

        switch (s[i]) {
        case 'Y': year = int(value + 0.1); break;
        case 'D': day  = int(value + 0.1); break;
        case 'H': hour = int(value + 0.1); break;
        case 'M':
            if (afterT) minute = int(value + 0.1);
            else month = int(value + 0.1);
            break;
        case 'S':
            second = value;
            break;
        case 'T': afterT = true; break;
        };

        ++i;
    }

    if (year > 0) {
        std::cerr << "WARNING: This xsd:duration (\"" << xsdd << "\") contains a non-zero year.\nWith no origin and a limited data size, I will treat a year as exactly 31556952\nseconds and you should expect overflow and/or poor results." << std::endl;
        t = t + RealTime(year * 31556952, 0);
    }

    if (month > 0) {
        std::cerr << "WARNING: This xsd:duration (\"" << xsdd << "\") contains a non-zero month.\nWith no origin and a limited data size, I will treat a month as exactly 2629746\nseconds and you should expect overflow and/or poor results." << std::endl;
        t = t + RealTime(month * 2629746, 0);
    }

    if (day > 0) {
        t = t + RealTime(day * 86400, 0);
    }

    if (hour > 0) {
        t = t + RealTime(hour * 3600, 0);
    }

    if (minute > 0) {
        t = t + RealTime(minute * 60, 0);
    }

    t = t + fromSeconds(second);

    return t;
}

double
RealTime::toDouble() const
{
    double d = sec;
    d += double(nsec) / double(ONE_BILLION);
    return d;
}

std::ostream &operator<<(std::ostream &out, const RealTime &rt)
{
    if (rt < RealTime::zeroTime) {
	out << "-";
    } else {
	out << " ";
    }

    int s = (rt.sec < 0 ? -rt.sec : rt.sec);
    int n = (rt.nsec < 0 ? -rt.nsec : rt.nsec);

    out << s << ".";

    int nn(n);
    if (nn == 0) out << "00000000";
    else while (nn < (ONE_BILLION / 10)) {
	out << "0";
	nn *= 10;
    }
    
    out << n << "R";
    return out;
}

std::string
RealTime::toString(bool align) const
{
    std::stringstream out;
    out << *this;
    
#if (__GNUC__ < 3)
    out << std::ends;
#endif

    std::string s = out.str();

    if (!align && *this >= RealTime::zeroTime) {
        // remove leading " "
        s = s.substr(1, s.length() - 1);
    }

    // remove trailing R
    return s.substr(0, s.length() - 1);
}

RealTime
RealTime::fromString(std::string s)
{
    bool negative = false;
    bool section = 0;
    std::string ssec, snsec;

    for (size_t i = 0; i < s.length(); ++i) {

        char c = s[i];
        if (isspace(c)) continue;

        if (section == 0) {

            if (c == '-') negative = true;
            else if (isdigit(c)) { section = 1; ssec += c; }
            else if (c == '.') section = 2;
            else break;

        } else if (section == 1) {

            if (c == '.') section = 2;
            else if (isdigit(c)) ssec += c;
            else break;

        } else if (section == 2) {

            if (isdigit(c)) snsec += c;
            else break;
        }
    }

    while (snsec.length() < 8) snsec += '0';

    int sec = atoi(ssec.c_str());
    int nsec = atoi(snsec.c_str());
    if (negative) sec = -sec;

//    std::cerr << "RealTime::fromString: string " << s << " -> "
//              << sec << " sec, " << nsec << " nsec" << std::endl;

    return RealTime(sec, nsec);
}

std::string
RealTime::toText(bool fixedDp) const
{
    if (*this < RealTime::zeroTime) return "-" + (-*this).toText(fixedDp);

    std::stringstream out;

    if (sec >= 3600) {
	out << (sec / 3600) << ":";
    }

    if (sec >= 60) {
	out << (sec % 3600) / 60 << ":";
    }

    if (sec >= 10) {
	out << ((sec % 60) / 10);
    }

    out << (sec % 10);
    
    int ms = msec();

    if (ms != 0) {
	out << ".";
	out << (ms / 100);
	ms = ms % 100;
	if (ms != 0) {
	    out << (ms / 10);
	    ms = ms % 10;
	} else if (fixedDp) {
	    out << "0";
	}
	if (ms != 0) {
	    out << ms;
	} else if (fixedDp) {
	    out << "0";
	}
    } else if (fixedDp) {
	out << ".000";
    }
	
#if (__GNUC__ < 3)
    out << std::ends;
#endif

    std::string s = out.str();

    return s;
}

std::string
RealTime::toSecText() const
{
    if (*this < RealTime::zeroTime) return "-" + (-*this).toSecText();

    std::stringstream out;

    if (sec >= 3600) {
	out << (sec / 3600) << ":";
    }

    if (sec >= 60) {
	out << (sec % 3600) / 60 << ":";
    }

    if (sec >= 10) {
	out << ((sec % 60) / 10);
    }

    out << (sec % 10);
    
    if (sec < 60) {
        out << "s";
    }

	
#if (__GNUC__ < 3)
    out << std::ends;
#endif

    std::string s = out.str();

    return s;
}

RealTime
RealTime::operator*(int m) const
{
    double t = (double(nsec) / ONE_BILLION) * m;
    t += sec * m;
    return fromSeconds(t);
}

RealTime
RealTime::operator/(int d) const
{
    int secdiv = sec / d;
    int secrem = sec % d;

    double nsecdiv = (double(nsec) + ONE_BILLION * double(secrem)) / d;
    
    return RealTime(secdiv, int(nsecdiv + 0.5));
}

RealTime
RealTime::operator*(double m) const
{
    double t = (double(nsec) / ONE_BILLION) * m;
    t += sec * m;
    return fromSeconds(t);
}

RealTime
RealTime::operator/(double d) const
{
    double t = (double(nsec) / ONE_BILLION) / d;
    t += sec / d;
    return fromSeconds(t);
}

double 
RealTime::operator/(const RealTime &r) const
{
    double lTotal = double(sec) * ONE_BILLION + double(nsec);
    double rTotal = double(r.sec) * ONE_BILLION + double(r.nsec);
    
    if (rTotal == 0) return 0.0;
    else return lTotal/rTotal;
}

long
RealTime::realTime2Frame(const RealTime &time, unsigned int sampleRate)
{
    if (time < zeroTime) return -realTime2Frame(-time, sampleRate);
    double s = time.sec + double(time.nsec + 1) / 1000000000.0;
    return long(s * sampleRate);
}

RealTime
RealTime::frame2RealTime(long frame, unsigned int sampleRate)
{
    if (frame < 0) return -frame2RealTime(-frame, sampleRate);

    RealTime rt;
    rt.sec = frame / long(sampleRate);
    frame -= rt.sec * long(sampleRate);
    rt.nsec = (int)(((double(frame) * 1000000.0) / long(sampleRate)) * 1000.0);
    return rt;
}

const RealTime RealTime::zeroTime(0,0);