Vector<IntRect> DocumentMarkerController::renderedRectsForMarkers(DocumentMarker::MarkerType markerType)
{
Vector<IntRect> result;
if (!possiblyHasMarkers(markerType))
return result;
ASSERT(!(m_markers.isEmpty()));
// outer loop: process each node
MarkerMap::iterator end = m_markers.end();
for (MarkerMap::iterator nodeIterator = m_markers.begin(); nodeIterator != end; ++nodeIterator) {
// inner loop; process each marker in this node
MarkerList* list = nodeIterator->value;
unsigned markerCount = list->size();
for (unsigned markerIndex = 0; markerIndex < markerCount; ++markerIndex) {
const RenderedDocumentMarker& marker = list->at(markerIndex);
// skip marker that is wrong type
if (marker.type() != markerType)
continue;
if (!marker.isRendered())
continue;
result.append(marker.renderedRect());
}
}
return result;
}
void DocumentMarkerController::clearDescriptionOnMarkersIntersectingRange(Range* range, DocumentMarker::MarkerTypes markerTypes)
{
if (!possiblyHasMarkers(markerTypes))
return;
ASSERT(!m_markers.isEmpty());
Node* startContainer = range->startContainer();
Node* endContainer = range->endContainer();
Node* pastLastNode = range->pastLastNode();
for (Node* node = range->firstNode(); node != pastLastNode; node = NodeTraversal::next(node)) {
unsigned startOffset = node == startContainer ? range->startOffset() : 0;
unsigned endOffset = node == endContainer ? static_cast<unsigned>(range->endOffset()) : std::numeric_limits<unsigned>::max();
MarkerList* list = m_markers.get(node);
if (!list)
continue;
for (size_t i = 0; i < list->size(); ++i) {
DocumentMarker& marker = list->at(i);
// markers are returned in order, so stop if we are now past the specified range
if (marker.startOffset() >= endOffset)
break;
// skip marker that is wrong type or before target
if (marker.endOffset() <= startOffset || !markerTypes.contains(marker.type())) {
i++;
continue;
}
marker.clearDetails();
}
}
}
DocumentMarker* DocumentMarkerController::markerContainingPoint(const LayoutPoint& point, DocumentMarker::MarkerType markerType)
{
if (!possiblyHasMarkers(markerType))
return 0;
ASSERT(!(m_markers.isEmpty()));
// outer loop: process each node that contains any markers
MarkerMap::iterator end = m_markers.end();
for (MarkerMap::iterator nodeIterator = m_markers.begin(); nodeIterator != end; ++nodeIterator) {
// inner loop; process each marker in this node
MarkerList* list = nodeIterator->value;
unsigned markerCount = list->size();
for (unsigned markerIndex = 0; markerIndex < markerCount; ++markerIndex) {
RenderedDocumentMarker& marker = list->at(markerIndex);
// skip marker that is wrong type
if (marker.type() != markerType)
continue;
if (marker.contains(point))
return ▮
}
}
return 0;
}
void DocumentMarkerController::shiftMarkers(Node* node, unsigned startOffset, int delta)
{
if (!possiblyHasMarkers(DocumentMarker::AllMarkers()))
return;
ASSERT(!m_markers.isEmpty());
MarkerList* list = m_markers.get(node);
if (!list)
return;
bool docDirty = false;
for (size_t i = 0; i != list->size(); ++i) {
RenderedDocumentMarker& marker = list->at(i);
if (marker.startOffset() >= startOffset) {
ASSERT((int)marker.startOffset() + delta >= 0);
marker.shiftOffsets(delta);
docDirty = true;
// Marker moved, so previously-computed rendered rectangle is now invalid
marker.invalidate();
}
}
// repaint the affected node
if (docDirty && node->renderer())
node->renderer()->repaint();
}
void DocumentMarkerController::setMarkersActive(Node* node, unsigned startOffset, unsigned endOffset, bool active)
{
MarkerList* list = m_markers.get(node);
if (!list)
return;
bool docDirty = false;
for (size_t i = 0; i != list->size(); ++i) {
DocumentMarker& marker = list->at(i);
// Markers are returned in order, so stop if we are now past the specified range.
if (marker.startOffset() >= endOffset)
break;
// Skip marker that is wrong type or before target.
if (marker.endOffset() < startOffset || marker.type() != DocumentMarker::TextMatch)
continue;
marker.setActiveMatch(active);
docDirty = true;
}
// repaint the affected node
if (docDirty && node->renderer())
node->renderer()->repaint();
}
void DocumentMarkerController::repaintMarkers(DocumentMarker::MarkerTypes markerTypes)
{
if (!possiblyHasMarkers(markerTypes))
return;
ASSERT(!m_markers.isEmpty());
// outer loop: process each markered node in the document
MarkerMap::iterator end = m_markers.end();
for (MarkerMap::iterator i = m_markers.begin(); i != end; ++i) {
Node* node = i->key.get();
// inner loop: process each marker in the current node
MarkerList* list = i->value.get();
bool nodeNeedsRepaint = false;
for (size_t i = 0; i != list->size(); ++i) {
DocumentMarker marker = list->at(i);
// skip nodes that are not of the specified type
if (markerTypes.contains(marker.type())) {
nodeNeedsRepaint = true;
break;
}
}
if (!nodeNeedsRepaint)
continue;
// cause the node to be redrawn
if (auto renderer = node->renderer())
renderer->repaint();
}
}
void MarkerList::ValueTreeWrapper::readFrom (const MarkerList& markerList, UndoManager* undoManager)
{
state.removeAllChildren (undoManager);
for (int i = 0; i < markerList.getNumMarkers(); ++i)
setMarker (*markerList.getMarker(i), undoManager);
}
void CanvasNavigator::updateMarkers()
{
MarkerList* markers = song->marker();
for (iMarker m = markers->begin(); m != markers->end(); ++m)
{
QPointF point(calcSize(m->second.tick()), 0.0);
QGraphicsRectItem* marker = m_markers.value(m->second.id());
if(marker)
marker->setPos(point);
}
}
// FIXME: Should be removed after all relevant patches are landed
Vector<DocumentMarker> DocumentMarkerController::markersForNode(Node* node)
{
Vector<DocumentMarker> result;
MarkerList* list = m_markers.get(node);
if (!list)
return result;
for (size_t i = 0; i < list->size(); ++i)
result.append(list->at(i));
return result;
}
void DocumentMarkerController::invalidateRenderedRectsForMarkersInRect(const LayoutRect& r)
{
// outer loop: process each markered node in the document
MarkerMap::iterator end = m_markers.end();
for (MarkerMap::iterator i = m_markers.begin(); i != end; ++i) {
// inner loop: process each rect in the current node
MarkerList* list = i->value.get();
for (size_t listIndex = 0; listIndex < list->size(); ++listIndex)
list->at(listIndex).invalidate(r);
}
}
Vector<RenderedDocumentMarker*> DocumentMarkerController::markersFor(Node* node, DocumentMarker::MarkerTypes markerTypes)
{
Vector<RenderedDocumentMarker*> result;
MarkerList* list = m_markers.get(node);
if (!list)
return result;
for (size_t i = 0; i < list->size(); ++i) {
if (markerTypes.contains(list->at(i).type()))
result.append(&(list->at(i)));
}
return result;
}
void MarkerView::prevMarker()
{
unsigned int curPos = song->cpos(); //prevent compiler warning: comparison of sigend/unsigned
unsigned int nextPos = 0;
MarkerList* marker = song->marker();
for (iMarker i = marker->begin(); i != marker->end(); ++i)
{
if (i->second.tick() < curPos && i->second.tick() > nextPos)
nextPos = i->second.tick();
}
/* if (nextPos == 0)
return;*/
Pos p(nextPos, true);
song->setPos(0, p, true, true, false);
}
void DocumentMarkerController::addMarker(Node* node, const DocumentMarker& newMarker)
{
ASSERT(newMarker.endOffset() >= newMarker.startOffset());
if (newMarker.endOffset() == newMarker.startOffset())
return;
m_possiblyExistingMarkerTypes.add(newMarker.type());
MarkerList* list = m_markers.get(node);
if (!list) {
list = new MarkerList;
list->append(RenderedDocumentMarker(newMarker));
m_markers.set(node, list);
} else {
RenderedDocumentMarker toInsert(newMarker);
size_t numMarkers = list->size();
size_t i;
// Iterate over all markers whose start offset is less than or equal to the new marker's.
// If one of them is of the same type as the new marker and touches it or intersects with it
// (there is at most one), remove it and adjust the new marker's start offset to encompass it.
for (i = 0; i < numMarkers; ++i) {
DocumentMarker marker = list->at(i);
if (marker.startOffset() > toInsert.startOffset())
break;
if (marker.type() == toInsert.type() && marker.endOffset() >= toInsert.startOffset()) {
toInsert.setStartOffset(marker.startOffset());
list->remove(i);
numMarkers--;
break;
}
}
size_t j = i;
// Iterate over all markers whose end offset is less than or equal to the new marker's,
// removing markers of the same type as the new marker which touch it or intersect with it,
// adjusting the new marker's end offset to cover them if necessary.
while (j < numMarkers) {
DocumentMarker marker = list->at(j);
if (marker.startOffset() > toInsert.endOffset())
break;
if (marker.type() == toInsert.type()) {
list->remove(j);
if (toInsert.endOffset() <= marker.endOffset()) {
toInsert.setEndOffset(marker.endOffset());
break;
}
numMarkers--;
} else
j++;
}
// At this point i points to the node before which we want to insert.
list->insert(i, RenderedDocumentMarker(toInsert));
}
// repaint the affected node
if (node->renderer())
node->renderer()->repaint();
}
void DocumentMarkerController::showMarkers() const
{
fprintf(stderr, "%d nodes have markers:\n", m_markers.size());
MarkerMap::const_iterator end = m_markers.end();
for (MarkerMap::const_iterator nodeIterator = m_markers.begin(); nodeIterator != end; ++nodeIterator) {
Node* node = nodeIterator->first.get();
fprintf(stderr, "%p", node);
MarkerList* list = nodeIterator->second;
for (unsigned markerIndex = 0; markerIndex < list->size(); ++markerIndex) {
const DocumentMarker& marker = list->at(markerIndex);
fprintf(stderr, " %d:[%d:%d](%d)", marker.type(), marker.startOffset(), marker.endOffset(), marker.activeMatch());
}
fprintf(stderr, "\n");
}
}
//==============================================================================
void MarkerList::ValueTreeWrapper::applyTo (MarkerList& markerList)
{
const int numMarkers = getNumMarkers();
StringArray updatedMarkers;
for (int i = 0; i < numMarkers; ++i)
{
const ValueTree marker (state.getChild (i));
const String name (marker [nameProperty].toString());
markerList.setMarker (name, RelativeCoordinate (marker [posProperty].toString()));
updatedMarkers.add (name);
}
for (int i = markerList.getNumMarkers(); --i >= 0;)
if (! updatedMarkers.contains (markerList.getMarker (i)->name))
markerList.removeMarker (i);
}
void MarkerView::markerChanged(int val)
{
//if (val != Song::MARKER_CUR)
// return;
// p3.3.43
switch (val)
{
// MARKER_CUR, MARKER_ADD, MARKER_REMOVE, MARKER_NAME,
// MARKER_TICK, MARKER_LOCK
case Song::MARKER_ADD:
case Song::MARKER_REMOVE:
updateList();
break; // Try falling through and let it try to select something. No, let updateList() do it...
case Song::MARKER_CUR:
{
MarkerList* marker = song->marker();
for (iMarker i = marker->begin(); i != marker->end(); ++i)
{
if (i->second.current())
{
MarkerItem* item = (MarkerItem*) table->topLevelItem(0);
while (item)
{
if (item->marker() == &i->second)
{
table->setCurrentItem(item);
return;
}
item = (MarkerItem*) table->itemBelow(item);
}
}
}
}
break;
default:
break;
}
}
// copies markers from srcNode to dstNode, applying the specified shift delta to the copies. The shift is
// useful if, e.g., the caller has created the dstNode from a non-prefix substring of the srcNode.
void DocumentMarkerController::copyMarkers(Node* srcNode, unsigned startOffset, int length, Node* dstNode, int delta)
{
if (length <= 0)
return;
if (!possiblyHasMarkers(DocumentMarker::AllMarkers()))
return;
ASSERT(!m_markers.isEmpty());
MarkerList* list = m_markers.get(srcNode);
if (!list)
return;
bool docDirty = false;
unsigned endOffset = startOffset + length - 1;
for (size_t i = 0; i != list->size(); ++i) {
DocumentMarker marker = list->at(i);
// stop if we are now past the specified range
if (marker.startOffset() > endOffset)
break;
// skip marker that is before the specified range or is the wrong type
if (marker.endOffset() < startOffset)
continue;
// pin the marker to the specified range and apply the shift delta
docDirty = true;
if (marker.startOffset() < startOffset)
marker.setStartOffset(startOffset);
if (marker.endOffset() > endOffset)
marker.setEndOffset(endOffset);
marker.shiftOffsets(delta);
addMarker(dstNode, marker);
}
// repaint the affected node
if (docDirty && dstNode->renderer())
dstNode->renderer()->repaint();
}
void DocumentMarkerController::removeMarkersFromList(MarkerMap::iterator iterator, DocumentMarker::MarkerTypes markerTypes)
{
bool needsRepainting = false;
bool listCanBeRemoved;
if (markerTypes == DocumentMarker::AllMarkers()) {
needsRepainting = true;
listCanBeRemoved = true;
} else {
MarkerList* list = iterator->value.get();
for (size_t i = 0; i != list->size(); ) {
DocumentMarker marker = list->at(i);
// skip nodes that are not of the specified type
if (!markerTypes.contains(marker.type())) {
++i;
continue;
}
// pitch the old marker
list->remove(i);
needsRepainting = true;
// i now is the index of the next marker
}
listCanBeRemoved = list->isEmpty();
}
if (needsRepainting) {
if (auto renderer = iterator->key->renderer())
renderer->repaint();
}
if (listCanBeRemoved) {
m_markers.remove(iterator);
if (m_markers.isEmpty())
m_possiblyExistingMarkerTypes = 0;
}
}
void Finish() {
if (markers.empty())
return;
FlushScreen();
markers.append().Set(NULL);
for (unsigned i = 0; markers[i + 1].text != NULL; ++i) {
const Marker &start = markers[i];
const Marker &end = markers[i + 1];
LogFormat("StopWatch '%s': clock=%lu cpu=%lu", start.text,
(unsigned long)(end.clock - start.clock),
(unsigned long)(end.cpu - start.cpu));
}
const Marker &start = markers.front();
const Marker &end = markers.back();
LogFormat("StopWatch total: clock=%lu cpu=%lu",
(unsigned long)(end.clock - start.clock),
(unsigned long)(end.cpu - start.cpu));
markers.clear();
}
bool MarkerList::operator== (const MarkerList& other) const noexcept
{
if (other.markers.size() != markers.size())
return false;
for (int i = markers.size(); --i >= 0;)
{
const Marker* const m1 = markers.getUnchecked(i);
jassert (m1 != nullptr);
const Marker* const m2 = other.getMarker (m1->name);
if (m2 == nullptr || *m1 != *m2)
return false;
}
return true;
}
void MarkerView::updateList()
{
// Added p3.3.43 Manage selected item, due to clearing of table...
MarkerList* marker = song->marker();
MarkerItem* selitem = (MarkerItem*) table->currentItem();
Marker* selm = selitem ? selitem->marker() : 0;
// p3.3.44 Look for removed markers before added markers...
if (selitem)
{
MarkerItem* mitem = (MarkerItem*) table->topLevelItem(0);
while (mitem)
{
bool found = false;
for (iMarker i = marker->begin(); i != marker->end(); ++i)
{
Marker* m = &i->second;
if (m == mitem->marker())
{
found = true;
break;
}
}
// Anything removed from the marker list?
if (!found)
{
// If it is the current selected item, it no longer exists. Make the next item be selected.
if (mitem == selitem)
{
MarkerItem* mi = (MarkerItem*) table->itemBelow(selitem);
if (mi)
{
selitem = mi;
selm = selitem->marker();
}
}
}
mitem = (MarkerItem*) table->itemBelow(mitem);
}
}
// Look for added markers...
for (iMarker i = marker->begin(); i != marker->end(); ++i)
{
Marker* m = &i->second;
bool found = false;
MarkerItem* item = (MarkerItem*) table->topLevelItem(0);
while (item)
{
if (item->marker() == m)
{
found = true;
break;
}
item = (MarkerItem*) table->itemBelow(item);
}
// Anything new found in the marker list?
if (!found)
selm = m;
}
// Block signals added. Triggers itemSelectionChanged() causing crash. Tim.
table->blockSignals(true);
table->clear();
table->blockSignals(false);
//MarkerList* marker = song->marker();
for (iMarker i = marker->begin(); i != marker->end(); ++i)
{
Marker* m = &i->second;
// Changed p3.3.43
//QString tick;
//tick.setNum(i->first);
//new MarkerItem(table, m);
MarkerItem* item = new MarkerItem(table, m);
if (m == selm)
{
m->setCurrent(true);
table->setCurrentItem(item);
}
else
{
m->setCurrent(false);
}
}
}
void Mark(const char *text) {
FlushScreen();
markers.append().Set(text);
}
void CanvasNavigator::updateParts()/*{{{*/
{
m_editing = true;
m_playhead = 0;
m_start = 0;
m_canvasBox = 0;
m_punchIn = 0;
m_punchOut = 0;
m_parts.clear();
m_markers.clear();
m_scene->clear();
/*foreach(PartItem* i, m_parts)
m_scene->removeItem(i);
while(m_parts.size())
delete m_parts.takeFirst();*/
m_heightList.clear();
m_scene->setSceneRect(QRectF());
int index = 1;
//QList<QGraphicsItem*> group;
MidiTrackList* tl = song->visibletracks();
ciMidiTrack ci = tl->begin();
for(; ci != tl->end(); ci++)
{
m_heightList.append((*ci)->height());
}
ci = tl->begin();
if(ci != tl->end())
{
int mh = (*ci)->height();
double partHeight = (mh * 8)/100;
m_start = m_scene->addRect(0.0, 0.0, calcSize(song->len()), partHeight);
m_start->setBrush(QColor(63, 63, 63));
m_start->setPen(QPen(QColor(63, 63, 63)));
m_start->setZValue(-50);
ci++;//Special case for master
}
for(; ci != tl->end(); ci++)
{
MidiTrack* track = *ci;
if(track)
{
QList<int> list = m_heightList.mid(0, index);
int ypos = 0;
foreach(int i, list)
ypos += i;
ypos = (ypos * 8)/100;
int ih = m_heightList.at(index);
double partHeight = (ih * 8)/100;
//qDebug("CanvasNavigator::updateParts: partHeight: %2f, ypos: %d", partHeight, ypos);
PartList* parts = track->parts();
if(parts && !parts->empty())
{
for(iPart p = parts->begin(); p != parts->end(); p++)
{
Part *part = p->second;
int tick, len;
if(part)
{
tick = part->tick();
len = part->lenTick();
}
double w = calcSize(len);
double pos = calcSize(tick);
PartItem* item = new PartItem(pos, ypos, w, partHeight);
item->setPart(part);
m_parts.append(item);
//group.append((QGraphicsItem*)item);
int i = part->colorIndex();
QColor partWaveColor(config.partWaveColors[i]);
QColor partColor(config.partColors[i]);
//partWaveColor.setAlpha(150);
partColor.setAlpha(150);
item->setBrush(part->selected() ? partWaveColor : partColor);
item->setPen(part->selected() ? partColor : partWaveColor);
m_scene->addItem(item);
}
}
++index;
}
}
QColor colTimeLine = QColor(0, 186, 255);
int kpos = 0;
foreach(int i, m_heightList)
kpos += i;
//kpos = ((kpos + 400) * 8)/100;
kpos = ((kpos + 400) * 8)/100;
m_playhead = new QGraphicsRectItem(0, 0, 1, kpos);
m_playhead->setBrush(colTimeLine);
m_playhead->setPen(Qt::NoPen);
m_playhead->setZValue(124001.0f);
m_playhead->setFlags(QGraphicsItem::ItemIgnoresTransformations);
m_scene->addItem(m_playhead);
QColor loopColor(139, 225, 69);
QColor markerColor(243,191,124);
MarkerList* markers = song->marker();
for (iMarker m = markers->begin(); m != markers->end(); ++m)
{
//double xp = calcSize(m->second.tick());
QGraphicsRectItem *marker = m_scene->addRect(0, 0, 1, kpos);
marker->setData(Qt::UserRole, m->second.id());
m_markers[m->second.id()] = marker;
marker->setPen(Qt::NoPen);
marker->setBrush(markerColor);
marker->setZValue(124002.0f);
marker->setFlags(QGraphicsItem::ItemIgnoresTransformations);
m_updateMarkers = true;
}
m_punchIn = new QGraphicsRectItem(0, 0, 1, kpos);
m_punchIn->setBrush(loopColor);
m_punchIn->setPen(Qt::NoPen);
m_punchIn->setZValue(124003.0f);
m_punchIn->setFlags(QGraphicsItem::ItemIgnoresTransformations);
m_scene->addItem(m_punchIn);
m_punchIn->setVisible(song->loop() || song->punchin());
m_punchOut = new QGraphicsRectItem(0, 0, 1, kpos);
m_punchOut->setBrush(loopColor);
m_punchOut->setPen(Qt::NoPen);
m_punchOut->setZValue(124003.0f);
m_punchOut->setFlags(QGraphicsItem::ItemIgnoresTransformations);
m_scene->addItem(m_punchOut);
m_punchOut->setVisible(song->loop() || song->punchout());
createCanvasBox();
//group.append((QGraphicsItem*)m_start);
//group.append((QGraphicsItem*)m_playhead);
//if(group.size())
//{
// m_partGroup = m_scene->createItemGroup(group);
//}
//else
m_partGroup = 0;
updateSpacing();
m_editing = false;
}/*}}}*/
void adjustGlobalLists(Undo& operations, int startPos, int diff)
{
const TempoList* t = &MusEGlobal::tempomap;
const AL::SigList* s = &AL::sigmap;
const KeyList* k = &MusEGlobal::keymap;
criTEvent it = t->rbegin();
AL::criSigEvent is = s->rbegin();
criKeyEvent ik = k->rbegin();
// key
for (; ik != k->rend(); ik++) {
const KeyEvent &ev = (KeyEvent)ik->second;
int tick = ev.tick;
int key = ev.key;
if (tick < startPos )
break;
if (tick > startPos && tick +diff < startPos ) { // remove
operations.push_back(UndoOp(UndoOp::DeleteKey, tick, key));
}
else {
operations.push_back(UndoOp(UndoOp::DeleteKey,tick, key));
operations.push_back(UndoOp(UndoOp::AddKey,tick+diff, key));
}
}
// tempo
for (; it != t->rend(); it++) {
const TEvent* ev = (TEvent*)it->second;
int tick = ev->tick;
int tempo = ev->tempo;
if (tick < startPos )
break;
if (tick > startPos && tick +diff < startPos ) { // remove
operations.push_back(UndoOp(UndoOp::DeleteTempo,tick, tempo));
}
else {
operations.push_back(UndoOp(UndoOp::DeleteTempo,tick, tempo));
operations.push_back(UndoOp(UndoOp::AddTempo,tick+diff, tempo));
}
}
// sig
for (; is != s->rend(); is++) {
const AL::SigEvent* ev = (AL::SigEvent*)is->second;
int tick = ev->tick;
if (tick < startPos )
break;
int z = ev->sig.z;
int n = ev->sig.n;
if (tick > startPos && tick +diff < startPos ) { // remove
operations.push_back(UndoOp(UndoOp::DeleteSig,tick, z, n));
}
else {
operations.push_back(UndoOp(UndoOp::DeleteSig,tick, z, n));
operations.push_back(UndoOp(UndoOp::AddSig,tick+diff, z, n));
}
}
MarkerList *markerlist = MusEGlobal::song->marker();
for(iMarker i = markerlist->begin(); i != markerlist->end(); ++i)
{
Marker* m = &i->second;
int tick = m->tick();
if (tick > startPos)
{
if (tick + diff < startPos ) { // these ticks should be removed
operations.push_back(UndoOp(UndoOp::ModifyMarker, 0, m));
} else {
Marker *newMarker = new Marker();
*newMarker = *m;
newMarker->setTick(tick + diff);
operations.push_back(UndoOp(UndoOp::ModifyMarker, newMarker, m));
}
}
}
}
void DocumentMarkerController::removeMarkers(Node* node, unsigned startOffset, int length, DocumentMarker::MarkerTypes markerTypes, RemovePartiallyOverlappingMarkerOrNot shouldRemovePartiallyOverlappingMarker)
{
if (length <= 0)
return;
if (!possiblyHasMarkers(markerTypes))
return;
ASSERT(!(m_markers.isEmpty()));
MarkerList* list = m_markers.get(node);
if (!list)
return;
bool docDirty = false;
unsigned endOffset = startOffset + length;
for (size_t i = 0; i < list->size();) {
DocumentMarker marker = list->at(i);
// markers are returned in order, so stop if we are now past the specified range
if (marker.startOffset() >= endOffset)
break;
// skip marker that is wrong type or before target
if (marker.endOffset() <= startOffset || !markerTypes.contains(marker.type())) {
i++;
continue;
}
// at this point we know that marker and target intersect in some way
docDirty = true;
// pitch the old marker
list->remove(i);
if (shouldRemovePartiallyOverlappingMarker)
// Stop here. Don't add resulting slices back.
continue;
// add either of the resulting slices that are left after removing target
if (startOffset > marker.startOffset()) {
DocumentMarker newLeft = marker;
newLeft.setEndOffset(startOffset);
list->insert(i, RenderedDocumentMarker(newLeft));
// i now points to the newly-inserted node, but we want to skip that one
i++;
}
if (marker.endOffset() > endOffset) {
DocumentMarker newRight = marker;
newRight.setStartOffset(endOffset);
list->insert(i, RenderedDocumentMarker(newRight));
// i now points to the newly-inserted node, but we want to skip that one
i++;
}
}
if (list->isEmpty()) {
m_markers.remove(node);
if (m_markers.isEmpty())
m_possiblyExistingMarkerTypes = 0;
}
// repaint the affected node
if (docDirty && node->renderer())
node->renderer()->repaint();
}
void MTScale::pdraw(QPainter& p, const QRect& r)
{
QColor colTimeLine = QColor(172,181,176);
int x = r.x();
int w = r.width();
//printf("MTScale::pdraw x:%d w:%d\n", x, w);
x -= 20;
w += 40; // wg. Text
//---------------------------------------------------
// draw Marker
//---------------------------------------------------
int y = 12;
p.setPen(colTimeLine);
p.setFont(QFont("fixed-width", 9, QFont::Bold));
p.drawLine(r.x(), y + 1, r.x() + r.width(), y + 1);
QRect tr(r);
tr.setHeight(12);
MarkerList* marker = song->marker();
for (iMarker m = marker->begin(); m != marker->end(); ++m)
{
int xp;
if (waveMode)
xp = mapx(m->second.frame());
else
xp = mapx(m->second.tick());
if (xp > x + w)
break;
int xe = r.x() + r.width();
iMarker mm = m;
++mm;
if (mm != marker->end())
{
if (waveMode)
xe = mapx(tempomap.tick2frame(mm->first));
else
xe = mapx(mm->first);
}
QRect tr(xp, 0, xe - xp, 13);
QRect wr = r.intersect(tr);
if (!wr.isEmpty())
{
if (m->second.current())
{
p.fillRect(wr, QColor(89, 89, 102));
}
int x2;
if (mm != marker->end())
{
if (waveMode)
x2 = mapx(tempomap.tick2frame(mm->first));
else
x2 = mapx(mm->first);
}
else
x2 = xp + 200;
//printf("MTScale::pdraw marker %s xp:%d y:%d h:%d r.x:%d r.w:%d\n", m->second.name().toLatin1(), xp, height(), y, r.x(), r.width());
// Must be reasonable about very low negative x values! With long songs > 15min
// and with high horizontal magnification, 'ghost' drawings appeared,
// apparently the result of truncation later (xp = -65006 caused ghosting
// at bar 245 with magnification at max.), even with correct clipping region
// applied to painter in View::paint(). Tim. Apr 5 2009
// Quote: "Warning: Note that QPainter does not attempt to work around
// coordinate limitations in the underlying window system. Some platforms may
// behave incorrectly with coordinates as small as +/-4000."
if (xp >= -32)
p.drawPixmap(xp, 0, *flagIconS);
if (xp >= -1023)
{
QRect r = QRect(xp + 10, 0, x2 - xp, 12);
p.setPen(colTimeLine);
p.drawText(r, Qt::AlignLeft | Qt::AlignVCenter, m->second.name());
}
if (xp >= 0)
{
p.setPen(colTimeLine);
p.drawLine(xp, y, xp, height());
}
}
}
unsigned ctick;
int bar1, bar2, beat;
unsigned tick;
if (waveMode)
{
ctick = tempomap.frame2tick(mapxDev(x));
AL::sigmap.tickValues(ctick, &bar1, &beat, &tick);
AL::sigmap.tickValues(tempomap.frame2tick(mapxDev(x + w)),
&bar2, &beat, &tick);
}
else
{
ctick = mapxDev(x);
AL::sigmap.tickValues(ctick, &bar1, &beat, &tick);
AL::sigmap.tickValues(mapxDev(x + w), &bar2, &beat, &tick);
}
//printf("bar %d %d-%d=%d\n", bar, ntick, stick, ntick-stick);
int h = height() - 12;
int stick = AL::sigmap.bar2tick(bar1, 0, 0);
int ntick;
for (int bar = bar1; bar <= bar2; bar++, stick = ntick)
{
ntick = AL::sigmap.bar2tick(bar + 1, 0, 0);
int tpix, a, b = 0;
if (waveMode)
{
a = tempomap.tick2frame(ntick);
b = tempomap.tick2frame(stick);
tpix = rmapx(a - b);
}
else
{
tpix = rmapx(ntick - stick);
}
if (tpix < 64)
{
// don�t show beats if measure is this small
int n = 1;
if (tpix < 32)
n = 2;
if (tpix <= 16)
n = 4;
if (tpix < 8)
n = 8;
if (tpix <= 4)
n = 16;
if (tpix <= 2)
n = 32;
if (bar % n)
continue;
int x = mapx(waveMode ? b : stick);
QString s;
s.setNum(bar + 1);
p.drawLine(x, y + 1, x, y + 1 + h);
QRect r = QRect(x + 2, y, 1000, h);
p.setFont(QFont("fixed-width", 9, QFont::Bold));
p.drawText(r, Qt::AlignLeft | Qt::AlignVCenter | Qt::TextDontClip, s);
}
else
{
int z, n;
AL::sigmap.timesig(stick, z, n);
for (int beat = 0; beat < z; beat++)
{
int xx = AL::sigmap.bar2tick(bar, beat, 0);
if (waveMode)
xx = tempomap.tick2frame(xx);
int xp = mapx(xx);
QString s;
QRect r(xp + 2, y, 1000, h);
int y1;
int num;
if (beat == 0)
{
num = bar + 1;
y1 = y + 1;
p.setFont(QFont("fixed-width", 9, QFont::Bold));
}
else
{
num = beat + 1;
y1 = y + 7;
p.setFont(QFont("fixed-width", 7, QFont::Normal));
r.setY(y + 3);
}
s.setNum(num);
p.drawLine(xp, y1, xp, y + 1 + h);
p.drawText(r, Qt::AlignLeft | Qt::AlignVCenter | Qt::TextDontClip, s);
}
}
}
//---------------------------------------------------
// draw location marker
//---------------------------------------------------
//Christopher here is your color
p.setPen(QColor(156,75,219));
if (pos[3] != MAXINT)
{
int xp = mapx(pos[3]);
if (xp >= x && xp < x + w)
p.drawLine(xp, 0, xp, height());
}
p.setPen(colTimeLine);
if (barLocator)
{
p.setPen(QColor(0, 186, 255));
int xp = mapx(pos[0]);
if (xp >= x && xp < x + w)
p.drawLine(xp, 0, xp, height());
p.setPen(QColor(139, 225, 69));
xp = mapx(pos[1]);
if (xp >= x && xp < x + w)
p.drawLine(xp, 0, xp, height());
xp = mapx(pos[2]);
if (xp >= x && xp < x + w)
p.drawLine(xp, 0, xp, height());
}
else
{
for (int i = 0; i < 3; ++i)
{
int xp = mapx(pos[i]);
if (xp >= x && xp < x + w)
{
QPixmap* pm = markIcon[i];
p.drawPixmap(xp - pm->width() / 2, y - 1, *pm);
}
}
}
}
