autoPitchTier Pitch_AnyTier_to_PitchTier (Pitch pitch, AnyTier tier, int checkMethod) {
try {
SortedSetOfDouble points = tier -> points;
if (checkMethod == 2) {
autoPitchTier temp = Pitch_to_PitchTier (pitch);
autoPitchTier thee = PitchTier_AnyTier_to_PitchTier (temp.peek(), tier);
return thee.transfer();
}
/*
* Result's domain is a union of both domains.
*/
autoPitchTier thee = PitchTier_create (
pitch -> xmin < tier -> xmin ? pitch -> xmin : tier -> xmin,
pitch -> xmax > tier -> xmax ? pitch -> xmax : tier -> xmax);
/*
* Copy pitch's frequencies at tier's points to the resulting PitchTier.
*/
for (long ipoint = 1; ipoint <= points -> size; ipoint ++) {
AnyPoint point = (AnyPoint) points -> item [ipoint];
double time = point -> number;
double frequency = Pitch_getValueAtTime (pitch, time, kPitch_unit_HERTZ, Pitch_LINEAR);
if (frequency == NUMundefined && checkMethod)
Melder_throw (U"No periodicity at time ", time, U" seconds.");
RealTier_addPoint (thee.peek(), time, frequency);
}
return thee;
} catch (MelderError) {
Melder_throw (pitch, U" & ", tier, U": not converted to PitchTier.");
}
}
autoPitchTier PitchTier_AnyTier_to_PitchTier (PitchTier pitch, AnyTier tier) {
try {
SortedSetOfDouble points = tier -> points;
if (pitch -> points -> size == 0) Melder_throw (U"No pitch points.");
/*
* Result's domain is a union of both domains.
*/
autoPitchTier thee = PitchTier_create (
pitch -> xmin < tier -> xmin ? pitch -> xmin : tier -> xmin,
pitch -> xmax > tier -> xmax ? pitch -> xmax : tier -> xmax);
/*
* Copy pitch's frequencies at tier's points to the resulting PitchTier.
*/
for (long ipoint = 1; ipoint <= points -> size; ipoint ++) {
AnyPoint point = (AnyPoint) points -> item [ipoint];
double time = point -> number;
double frequency = RealTier_getValueAtTime (pitch, time);
RealTier_addPoint (thee.peek(), time, frequency);
}
return thee;
} catch (MelderError) {
Melder_throw (pitch, U" & ", tier, U": not converted to PitchTier.");
}
}
PitchTier PitchTier_PointProcess_to_PitchTier (PitchTier me, PointProcess pp) {
try {
if (my points -> size == 0) Melder_throw ("No pitch points.");
autoPitchTier thee = PitchTier_create (pp -> xmin, pp -> xmax);
for (long i = 1; i <= pp -> nt; i ++) {
double time = pp -> t [i];
double value = RealTier_getValueAtTime (me, time);
RealTier_addPoint (thee.peek(), time, value);
}
return thee.transfer();
} catch (MelderError) {
Melder_throw (me, " & ", pp, ": not converted to PitchTier.");
}
}
PitchTier PointProcess_to_PitchTier (PointProcess me, double maximumInterval) {
try {
autoPitchTier thee = PitchTier_create (my xmin, my xmax);
for (long i = 1; i < my nt; i ++) {
double interval = my t [i + 1] - my t [i];
if (interval <= maximumInterval) {
RealTier_addPoint (thee.peek(), my t [i] + 0.5 * interval, 1.0 / interval);
}
}
return thee.transfer();
} catch (MelderError) {
Melder_throw (me, ": not converted to PitchTier.");
}
}
Sound FormantGrid_to_Sound (FormantGrid me, double samplingFrequency,
double tStart, double f0Start, double tMid, double f0Mid, double tEnd, double f0End,
double adaptFactor, double maximumPeriod, double openPhase, double collisionPhase, double power1, double power2)
{
try {
autoPitchTier pitch = PitchTier_create (my xmin, my xmax);
RealTier_addPoint (pitch.peek(), my xmin + tStart * (my xmax - my xmin), f0Start);
RealTier_addPoint (pitch.peek(), my xmin + tMid * (my xmax - my xmin), f0Mid);
RealTier_addPoint (pitch.peek(), my xmax - (1.0 - tEnd) * (my xmax - my xmin), f0End);
autoSound thee = PitchTier_to_Sound_phonation (pitch.peek(), samplingFrequency,
adaptFactor, maximumPeriod, openPhase, collisionPhase, power1, power2, false);
Sound_FormantGrid_filter_inline (thee.peek(), me);
return thee.transfer();
} catch (MelderError) {
Melder_throw (me, ": not converted to Sound.");
}
}
autoPitchTier Pitch_to_PitchTier (Pitch me) {
try {
autoPitchTier thee = PitchTier_create (my xmin, my xmax);
for (long i = 1; i <= my nx; i ++) {
double frequency = my frame [i]. candidate [1]. frequency;
/*
* Count only voiced frames.
*/
if (frequency > 0.0 && frequency < my ceiling) {
double time = Sampled_indexToX (me, i);
RealTier_addPoint (thee.get(), time, frequency);
}
}
return thee;
} catch (MelderError) {
Melder_throw (me, U": not converted to PitchTier.");
}
}
Sound FormantGrid_to_Sound (FormantGrid me, double samplingFrequency,
double tStart, double f0Start, double tMid, double f0Mid, double tEnd, double f0End,
double adaptFactor, double maximumPeriod, double openPhase, double collisionPhase, double power1, double power2)
{
PitchTier pitch = NULL;
Sound thee = NULL;
pitch = PitchTier_create (my xmin, my xmax); cherror
RealTier_addPoint (pitch, my xmin + tStart * (my xmax - my xmin), f0Start); cherror
RealTier_addPoint (pitch, my xmin + tMid * (my xmax - my xmin), f0Mid); cherror
RealTier_addPoint (pitch, my xmax - (1.0 - tEnd) * (my xmax - my xmin), f0End); cherror
thee = PitchTier_to_Sound_phonation (pitch, samplingFrequency,
adaptFactor, maximumPeriod, openPhase, collisionPhase, power1, power2, false); cherror
Sound_FormantGrid_filter_inline (thee, me);
end:
forget (pitch);
iferror forget (thee);
return thee;
}
