microtherion/VocalEasel
1
0
Fork 0
mirror of https://github.com/microtherion/VocalEasel.git synced 2024-12-22 19:23:59 +00:00
Code Issues Packages Projects Releases Wiki Activity

Implement tying across measures

Browse Source
This commit is contained in:
Matthias Neeracher 2007-05-27 07:16:46 +00:00
parent a60d6612ff
commit 3e8ba7a75e
3 changed files with 202 additions and 137 deletions
Show Stats Download Patch File Download Diff File Expand all files Collapse all files

46
Sources/VLMMAWriter.cpp
View File

@ -37,28 +37,23 @@ void VLMMAWriter::VisitMeasure(size_t m, VLProperties & p, VLMeasure & meas)
//
// Generate melody and account for ties
//
bool setLastDur = false;
fAccum.clear();
fTied = meas.fMelody.front().fTied & VLNote::kTiedWithPrev;
if (fTied && meas.fMelody.size() == 1) {
VisitNotes(meas, p, true);
if (meas.fMelody.back().fTied & VLNote::kTiedWithNext) {
fAccum = "~<>~;";
} else {
fAccum = "~<>;";
}
} else {
VisitNotes(meas, p, true);
if (meas.fMelody.back().fTied & VLNote::kTiedWithNext) {
fAccum.replace(fAccum.find_last_of(';'), 0, "~", 1);
setLastDur = true;
}
bool tiedWithPrev = (meas.fMelody.front().fTied & VLNote::kTiedWithPrev)
|| fSong->DoesTieWithPrevRepeat(m);
bool tiedWithNext = (meas.fMelody.back().fTied & VLNote::kTiedWithNext)
|| fSong->DoesTieWithNextRepeat(m);
fTied = tiedWithPrev;
VisitNotes(meas, p, true);
if (fTied || fAccum == "~") {
fAccum = tiedWithNext ? "~<>~;" : "~<>;";
} else if (tiedWithNext) {
fAccum.replace(fAccum.find_last_of(';'), 0, "~", 1);
}
std::string melody = fAccum;
fMeasures += chords+"\t{ " + melody + " }\n";
if (setLastDur)
if (!fTied && tiedWithNext)
fLastDur = fMeasures.find_last_of("123468");
}
@ -123,18 +118,19 @@ void VLMMAWriter::VisitNote(VLLyricsNote & n)
} else if (n.fDuration.fDenom == 24) {
dur = "6"; // 16th note triplet
}
if (n.fTied & VLNote::kTiedWithPrev) {
if (fTied) {
fMeasures.replace(fLastDur+1, 0, '+'+dur);
if (!(n.fTied & VLNote::kTiedWithNext))
fAccum += "~";
} else {
size_t d = fAccum.find_last_of("123468");
fAccum.replace(d+1, 0, '+'+dur);
if (fTied) {
fMeasures.replace(fLastDur+1, 0, '+'+dur);
fLastDur += 1+dur.size();
if (!(n.fTied & VLNote::kTiedWithNext)) {
fAccum += "~";
fTied = false;
}
return;
} else if (n.fTied & VLNote::kTiedWithPrev) {
size_t d = fAccum.find_last_of("123468");
fAccum.replace(d+1, 0, '+'+dur);
return;
}
fTied = false;
if (fAccum.size() > 1)
fAccum += ' ';
fAccum += dur+MMAPitchName(n.fPitch, fUseSharps, true)+MMAOctave(n.fPitch)+';';

289
Sources/VLModel.cpp
View File

@ -1360,21 +1360,22 @@ void VLSong::SetWord(size_t stanza, size_t measure, VLFraction at, std::string w
void VLSong::AddRepeat(size_t beginMeasure, size_t endMeasure, int times)
{
for (size_t r=0; r<fRepeats.size(); ++r)
if (fRepeats[r].fEndings[0].fBegin == beginMeasure
&& fRepeats[r].fEndings[0].fEnd >= endMeasure
for (size_t r=0; r<fRepeats.size(); ++r) {
VLRepeat & rp = fRepeats[r];
if (rp.fEndings[0].fBegin == beginMeasure
&& rp.fEndings[0].fEnd >= endMeasure
)
if (fRepeats[r].fEndings[0].fEnd == endMeasure) {
if (rp.fEndings[0].fEnd == endMeasure) {
//
// Exact match, just change times
//
size_t mask = ((1<<times)-1) ^ ((1<<fRepeats[r].fTimes)-1);
if (fRepeats[r].fTimes < times)
fRepeats[r].fEndings[0].fVolta |= mask;
else if (fRepeats[r].fTimes > times)
for (size_t e=0; e<fRepeats[r].fEndings.size(); ++e)
fRepeats[r].fEndings[e].fVolta &= ~mask;
fRepeats[r].fTimes = times;
size_t mask = ((1<<times)-1) ^ ((1<<rp.fTimes)-1);
if (rp.fTimes < times)
rp.fEndings[0].fVolta |= mask;
else if (rp.fTimes > times)
for (size_t e=0; e<rp.fEndings.size(); ++e)
rp.fEndings[e].fVolta &= ~mask;
rp.fTimes = times;
return;
} else {
@ -1382,6 +1383,7 @@ void VLSong::AddRepeat(size_t beginMeasure, size_t endMeasure, int times)
break;
}
}
VLRepeat rep;
@ -1393,82 +1395,87 @@ void VLSong::AddRepeat(size_t beginMeasure, size_t endMeasure, int times)
void VLSong::DelRepeat(size_t beginMeasure, size_t endMeasure)
{
for (size_t r=0; r<fRepeats.size(); ++r)
if (fRepeats[r].fEndings[0].fBegin == beginMeasure
&& fRepeats[r].fEndings[0].fEnd >= endMeasure
for (size_t r=0; r<fRepeats.size(); ++r) {
VLRepeat & rp = fRepeats[r];
if (rp.fEndings[0].fBegin == beginMeasure
&& rp.fEndings[0].fEnd >= endMeasure
) {
fRepeats.erase(fRepeats.begin()+r);
break;
}
}
}
void VLSong::AddEnding(size_t beginMeasure, size_t endMeasure, size_t volta)
{
for (size_t r=0; r<fRepeats.size(); ++r)
if (fRepeats[r].fEndings[0].fBegin < beginMeasure
&& fRepeats[r].fEndings[0].fEnd >= beginMeasure
for (size_t r=0; r<fRepeats.size(); ++r) {
VLRepeat & rp = fRepeats[r];
if (rp.fEndings[0].fBegin < beginMeasure
&& rp.fEndings[0].fEnd >= beginMeasure
) {
VLRepeat & repeat = fRepeats[r];
for (size_t e=1; e<repeat.fEndings.size(); ++e)
if (repeat.fEndings[e].fBegin == beginMeasure
&& repeat.fEndings[e].fEnd == endMeasure
for (size_t e=1; e<rp.fEndings.size(); ++e)
if (rp.fEndings[e].fBegin == beginMeasure
&& rp.fEndings[e].fEnd == endMeasure
) {
//
// Found it, just edit volta
//
repeat.fEndings[0].fVolta |= repeat.fEndings[e].fVolta;
volta &= repeat.fEndings[0].fVolta;
repeat.fEndings[0].fVolta &= ~volta;
repeat.fEndings[e].fVolta = volta;
rp.fEndings[0].fVolta |= rp.fEndings[e].fVolta;
volta &= rp.fEndings[0].fVolta;
rp.fEndings[0].fVolta &= ~volta;
rp.fEndings[e].fVolta = volta;
return;
}
//
// Not found, add new ending
//
volta &= fRepeats[r].fEndings[0].fVolta;
fRepeats[r].fEndings[0].fVolta &= ~volta;
fRepeats[r].fEndings[0].fEnd =
std::max<int8_t>(fRepeats[r].fEndings[0].fEnd, endMeasure);
fRepeats[r].fEndings.push_back(
volta &= rp.fEndings[0].fVolta;
rp.fEndings[0].fVolta &= ~volta;
rp.fEndings[0].fEnd =
std::max<int8_t>(rp.fEndings[0].fEnd, endMeasure);
rp.fEndings.push_back(
VLRepeat::Ending(beginMeasure, endMeasure, volta));
return;
}
}
}
void VLSong::DelEnding(size_t beginMeasure, size_t endMeasure)
{
for (size_t r=0; r<fRepeats.size(); ++r)
if (fRepeats[r].fEndings[0].fBegin <= beginMeasure
&& fRepeats[r].fEndings[0].fEnd > beginMeasure
for (size_t r=0; r<fRepeats.size(); ++r) {
VLRepeat & rp = fRepeats[r];
if (rp.fEndings[0].fBegin <= beginMeasure
&& rp.fEndings[0].fEnd > beginMeasure
)
for (size_t e=1; e<fRepeats[r].fEndings.size(); ++e)
if (fRepeats[r].fEndings[e].fBegin == beginMeasure) {
fRepeats[r].fEndings[0].fVolta |= fRepeats[r].fEndings[e].fVolta;
if (e > 1 && e == fRepeats[r].fEndings.size()-1)
fRepeats[r].fEndings[0].fEnd = fRepeats[r].fEndings[e].fBegin;
fRepeats[r].fEndings.erase(fRepeats[r].fEndings.begin()+e);
for (size_t e=1; e<rp.fEndings.size(); ++e)
if (rp.fEndings[e].fBegin == beginMeasure) {
rp.fEndings[0].fVolta |= rp.fEndings[e].fVolta;
if (e > 1 && e == rp.fEndings.size()-1)
rp.fEndings[0].fEnd = rp.fEndings[e].fBegin;
rp.fEndings.erase(rp.fEndings.begin()+e);
}
}
}
bool VLSong::CanBeRepeat(size_t beginMeasure, size_t endMeasure, int * times)
{
for (size_t r=0; r<fRepeats.size(); ++r) {
const VLRepeat & rep = fRepeats[r];
if (rep.fEndings[0].fBegin == beginMeasure) {
for (size_t r=0; r<fRepeats.size(); ++r) {
VLRepeat & rp = fRepeats[r];
if (rp.fEndings[0].fBegin == beginMeasure) {
//
// Look for exact match & return
//
if (times)
*times = fRepeats[r].fTimes;
if (rep.fEndings[0].fEnd == endMeasure)
*times = rp.fTimes;
if (rp.fEndings[0].fEnd == endMeasure)
return true;
if (rep.fEndings.size() > 1) {
if (rep.fEndings[1].fBegin == endMeasure)
if (rp.fEndings.size() > 1) {
if (rp.fEndings[1].fBegin == endMeasure)
return true;
if (rep.fEndings[1].fEnd == endMeasure)
if (rp.fEndings[1].fEnd == endMeasure)
return true;
}
}
@ -1476,23 +1483,23 @@ bool VLSong::CanBeRepeat(size_t beginMeasure, size_t endMeasure, int * times)
// Inclusions and surroundings are OK. Beginnings may match, but
// endings must not.
//
if (rep.fEndings[0].fBegin >= beginMeasure
&& rep.fEndings[0].fEnd < endMeasure
if (rp.fEndings[0].fBegin >= beginMeasure
&& rp.fEndings[0].fEnd < endMeasure
)
continue;
if (rep.fEndings[0].fBegin <= beginMeasure
&& rep.fEndings[0].fEnd > endMeasure
if (rp.fEndings[0].fBegin <= beginMeasure
&& rp.fEndings[0].fEnd > endMeasure
)
continue;
//
// Look for overlap and reject
//
if (fRepeats[r].fEndings[0].fBegin >= beginMeasure
&& fRepeats[r].fEndings[0].fBegin < endMeasure
if (rp.fEndings[0].fBegin >= beginMeasure
&& rp.fEndings[0].fBegin < endMeasure
)
return false;
if (fRepeats[r].fEndings[0].fEnd > beginMeasure
&& fRepeats[r].fEndings[0].fEnd <= endMeasure
if (rp.fEndings[0].fEnd > beginMeasure
&& rp.fEndings[0].fEnd <= endMeasure
)
return false;
}
@ -1507,19 +1514,18 @@ bool VLSong::CanBeRepeat(size_t beginMeasure, size_t endMeasure, int * times)
bool VLSong::CanBeEnding(size_t beginMeasure, size_t endMeasure,
size_t * volta, size_t * voltaOK)
{
for (size_t r=0; r<fRepeats.size(); ++r)
if (beginMeasure > fRepeats[r].fEndings[0].fBegin
&& beginMeasure <= fRepeats[r].fEndings[0].fEnd
for (size_t r=0; r<fRepeats.size(); ++r) {
VLRepeat & rp = fRepeats[r];
if (beginMeasure > rp.fEndings[0].fBegin
&& beginMeasure <= rp.fEndings[0].fEnd
) {
//
// Found right repeat
//
VLRepeat & repeat = fRepeats[r];
//
// Append new repeat, or carve out from ending
//
if (beginMeasure == repeat.fEndings[0].fEnd) {
if (beginMeasure == rp.fEndings[0].fEnd) {
for (size_t r2=0; r2<fRepeats.size(); ++r2)
if (r2 != r
&& fRepeats[r2].fEndings[0].fBegin >= beginMeasure
@ -1527,89 +1533,96 @@ bool VLSong::CanBeEnding(size_t beginMeasure, size_t endMeasure,
)
return false; // Overlap
if (volta)
*volta = repeat.fEndings[0].fVolta;
*volta = rp.fEndings[0].fVolta;
if (voltaOK)
*voltaOK = repeat.fEndings[0].fVolta;
*voltaOK = rp.fEndings[0].fVolta;
return true;
} else if (repeat.fEndings.size() == 1
&& endMeasure >= repeat.fEndings[0].fEnd
} else if (rp.fEndings.size() == 1
&& endMeasure >= rp.fEndings[0].fEnd
) {
if (volta)
*volta = repeat.fEndings[0].fVolta;
*volta = rp.fEndings[0].fVolta;
if (voltaOK)
*voltaOK = repeat.fEndings[0].fVolta;
*voltaOK = rp.fEndings[0].fVolta;
return true;
}
//
// Otherwise must match existing
//
for (size_t e=1; e<repeat.fEndings.size(); ++e)
if (beginMeasure == repeat.fEndings[e].fBegin
&& endMeasure == repeat.fEndings[e].fEnd
for (size_t e=1; e<rp.fEndings.size(); ++e)
if (beginMeasure == rp.fEndings[e].fBegin
&& endMeasure == rp.fEndings[e].fEnd
) {
if (volta)
*volta = repeat.fEndings[e].fVolta;
*volta = rp.fEndings[e].fVolta;
if (voltaOK)
*voltaOK = repeat.fEndings[e].fVolta
| repeat.fEndings[0].fVolta;
*voltaOK = rp.fEndings[e].fVolta
| rp.fEndings[0].fVolta;
return true;
}
return false;
}
}
return false;
}
bool VLSong::DoesBeginRepeat(size_t measure, int * times) const
{
for (size_t r=0; r<fRepeats.size(); ++r)
if (fRepeats[r].fEndings[0].fBegin == measure) {
for (size_t r=0; r<fRepeats.size(); ++r) {
const VLRepeat & rp = fRepeats[r];
if (rp.fEndings[0].fBegin == measure) {
if (times)
*times = fRepeats[r].fTimes;
*times = rp.fTimes;
return true;
}
}
return false;
}
bool VLSong::DoesEndRepeat(size_t measure, int * times) const
{
for (size_t r=0; r<fRepeats.size(); ++r)
if (fRepeats[r].fEndings[0].fEnd == measure
&& fRepeats[r].fEndings.size() == 1
for (size_t r=0; r<fRepeats.size(); ++r) {
const VLRepeat & rp = fRepeats[r];
if (rp.fEndings[0].fEnd == measure
&& rp.fEndings.size() == 1
) {
if (times)
*times = fRepeats[r].fTimes;
*times = rp.fTimes;
return true;
}
}
return false;
}
bool VLSong::DoesBeginEnding(size_t measure, bool * repeat, size_t * volta) const
{
for (size_t r=0; r<fRepeats.size(); ++r)
if (fRepeats[r].fEndings[0].fEnd >= measure
&& fRepeats[r].fEndings.size() > 1
for (size_t r=0; r<fRepeats.size(); ++r) {
const VLRepeat & rp = fRepeats[r];
if (rp.fEndings[0].fBegin < measure
&& rp.fEndings[0].fEnd >= measure
&& rp.fEndings.size() > 1
) {
size_t v = (1<<fRepeats[r].fTimes)-1;
for (size_t e=1; e<fRepeats[r].fEndings.size(); ++e)
if (fRepeats[r].fEndings[e].fBegin == measure) {
size_t v = (1<<rp.fTimes)-1;
for (size_t e=1; e<rp.fEndings.size(); ++e)
if (rp.fEndings[e].fBegin == measure) {
if (repeat)
if (e == fRepeats[r].fEndings.size()-1
&& fRepeats[r].fEndings[e].fVolta == v
if (e == rp.fEndings.size()-1
&& rp.fEndings[e].fVolta == v
)
*repeat = false; // Not after last alternative
else
*repeat = true;
if (volta)
*volta = fRepeats[r].fEndings[e].fVolta;
*volta = rp.fEndings[e].fVolta;
return true;
} else
v &= ~fRepeats[r].fEndings[e].fVolta;
if (v && fRepeats[r].fEndings[0].fEnd == measure) {
v &= ~rp.fEndings[e].fVolta;
if (v && rp.fEndings[0].fEnd == measure) {
//
// Implied ending for all not mentioned
//
@ -1621,31 +1634,34 @@ bool VLSong::DoesBeginEnding(size_t measure, bool * repeat, size_t * volta) cons
return true;
}
}
}
return false;
}
bool VLSong::DoesEndEnding(size_t measure, bool * repeat, size_t * volta) const
{
for (size_t r=0; r<fRepeats.size(); ++r)
if (fRepeats[r].fEndings[0].fEnd+1 >= measure
&& fRepeats[r].fEndings.size() > 1
for (size_t r=0; r<fRepeats.size(); ++r) {
const VLRepeat & rp = fRepeats[r];
if (rp.fEndings[0].fBegin < measure
&& rp.fEndings[0].fEnd+1 >= measure
&& rp.fEndings.size() > 1
) {
size_t v = (1<<fRepeats[r].fTimes)-1;
for (size_t e=1; e<fRepeats[r].fEndings.size(); ++e)
if (fRepeats[r].fEndings[e].fEnd == measure) {
size_t v = (1<<rp.fTimes)-1;
for (size_t e=1; e<rp.fEndings.size(); ++e)
if (rp.fEndings[e].fEnd == measure) {
if (repeat)
if (e == fRepeats[r].fEndings.size()-1
&& fRepeats[r].fEndings[e].fVolta == v
if (e == rp.fEndings.size()-1
&& rp.fEndings[e].fVolta == v
)
*repeat = false; // Not after last alternative
else
*repeat = true;
if (volta)
*volta = fRepeats[r].fEndings[e].fVolta;
*volta = rp.fEndings[e].fVolta;
return true;
} else
v &= ~fRepeats[r].fEndings[e].fVolta;
if (v && fRepeats[r].fEndings[0].fEnd+1 == measure) {
v &= ~rp.fEndings[e].fVolta;
if (v && rp.fEndings[0].fEnd+1 == measure) {
//
// Implied ending for all not mentioned
//
@ -1657,6 +1673,56 @@ bool VLSong::DoesEndEnding(size_t measure, bool * repeat, size_t * volta) const
return true;
}
}
}
return false;
}
bool VLSong::DoesTieWithPrevRepeat(size_t measure) const
{
if (fMeasures[measure].fMelody.front().fPitch == VLNote::kNoPitch)
return false; // Rests don't tie
for (size_t r=0; r<fRepeats.size(); ++r) {
const VLRepeat & rp = fRepeats[r];
if (rp.fEndings[0].fBegin < measure
&& rp.fEndings[0].fEnd >= measure
&& rp.fEndings.size() > 1
) {
size_t v = (1<<rp.fTimes)-1;
int8_t firstEnding = rp.fEndings[0].fEnd;
bool doesStartEnding = false;
for (size_t e=1; e<rp.fEndings.size(); ++e) {
firstEnding = std::min(firstEnding, rp.fEndings[e].fBegin);
if (rp.fEndings[e].fBegin == measure)
doesStartEnding = true;
else
v &= ~rp.fEndings[e].fVolta;
}
if (doesStartEnding || (v && rp.fEndings[0].fEnd == measure))
return fMeasures[firstEnding-1].fMelody.back().fTied
& VLNote::kTiedWithNext;
}
}
return false;
}
bool VLSong::DoesTieWithNextRepeat(size_t measure) const
{
if (fMeasures[measure].fMelody.back().fPitch == VLNote::kNoPitch)
return false; // Rests don't tie
for (size_t r=0; r<fRepeats.size(); ++r) {
const VLRepeat & rp = fRepeats[r];
if (rp.fEndings[0].fBegin < measure
&& rp.fEndings[0].fEnd >= measure
&& rp.fEndings.size() > 1
) {
for (size_t e=1; e<rp.fEndings.size(); ++e) {
if (rp.fEndings[e].fEnd == measure+1)
return !(rp.fEndings[e].fVolta & (1<<(rp.fTimes-1)))
&& (fMeasures[rp.fEndings[0].fBegin].fMelody.front().fTied
& VLNote::kTiedWithPrev);
}
}
}
return false;
}
@ -1742,18 +1808,19 @@ VLSong VLSong::CopyMeasures(size_t beginMeasure, size_t endMeasure)
for (size_t i=0; i<subSong.fMeasures.size(); ++i)
subSong.fMeasures[i].fPropIdx -= firstProp;
for (size_t r=0; r<fRepeats.size(); ++r)
if (fRepeats[r].fEndings[0].fBegin >= beginMeasure
&& fRepeats[r].fEndings[0].fEnd <= endMeasure
for (size_t r=0; r<fRepeats.size(); ++r) {
VLRepeat & rp = fRepeats[r];
if (rp.fEndings[0].fBegin >= beginMeasure
&& rp.fEndings[0].fEnd <= endMeasure
) {
VLRepeat repeat = fRepeats[r];
for (size_t e=0; e<repeat.fEndings.size(); ++e) {
repeat.fEndings[e].fBegin -= beginMeasure;
repeat.fEndings[e].fEnd -= endMeasure;
for (size_t e=0; e<rp.fEndings.size(); ++e) {
rp.fEndings[e].fBegin -= beginMeasure;
rp.fEndings[e].fEnd -= endMeasure;
}
subSong.fRepeats.push_back(repeat);
subSong.fRepeats.push_back(rp);
}
}
return subSong;
}

4
Sources/VLModel.h
View File

@ -130,7 +130,7 @@ struct VLNote {
enum {
kNotTied = 0,
kTiedWithNext = 1,
kTiedWithPrev = 2
kTiedWithPrev = 2,
};
//
// Hint at visual representation (Computed in DecomposeNotes)
@ -332,6 +332,8 @@ public:
bool DoesEndRepeat(size_t measure, int * times = 0) const;
bool DoesBeginEnding(size_t measure, bool * repeat = 0, size_t * volta = 0) const;
bool DoesEndEnding(size_t measure, bool * repeat = 0, size_t * volta = 0) const;
bool DoesTieWithPrevRepeat(size_t measure) const;
bool DoesTieWithNextRepeat(size_t measure) const;
bool IsNonEmpty() const;
void ChangeKey(int newKey, bool newMode, bool transpose);
void ChangeDivisions(int newDivisions);