// Copyright (c) 2003 Charles Samuels // See the file COPYING for redistribution terms. #include "tree.h" #include "file.h" #include "query.h" #include "menu.h" #include "oblique.h" #include #include #include #include #include // this is used for comparing pointers // (I should _not_ need this) template inline static long subtract(const T *end, const T *begin) { return long(end-begin); } static void treeItemMerge( TreeItem **set, TreeItem **intofirst, TreeItem **intolast, TreeItem **fromfirst, TreeItem **fromlast ) { const int items = subtract(intolast, intofirst) + subtract(fromlast, fromfirst)+2; TreeItem **temp = new TreeItem*[items]; TreeItem **tempat = temp; while (1) { if (intofirst[0]->compare(fromfirst[0], 0, true) >= 0) { // from goes before into *tempat = *fromfirst; tempat++; fromfirst++; if (fromfirst > fromlast) break; } else { *tempat = *intofirst; tempat++; intofirst++; if (intofirst > intolast) break; } } while (intofirst <= intolast) *tempat++ = *intofirst++; while (fromfirst <= fromlast) *tempat++ = *fromfirst++; ::memcpy(set, temp, items*sizeof(TreeItem**)); delete [] temp; } static void treeItemSort(TreeItem **begin, TreeItem **end) { if (begin == end) return; TreeItem **middle = subtract(end, begin)/2 + begin; if (begin != middle) treeItemSort(begin, middle); if (middle+1 != end) treeItemSort(middle+1, end); treeItemMerge(begin, begin, middle, middle+1, end); } static void treeItemSort(TreeItem *first) { const int count = first->tqparent() ? first->tqparent()->childCount() : first->listView()->childCount(); if (count < 2) return; Query *q = first->tree()->query(); TreeItem **set = new TreeItem*[count]; int manually = 0; // I store these starting at the end (of set) int at=0; // I store these starting at the beginning for (TreeItem *i = first; i; i = i->nextSibling()) { File after; if (i->file() && i->file().getPosition(q, &after)) { set[count-manually-1] = i; manually++; } else { set[at] = i; at++; } } assert(count == at + manually); if (at > 1) treeItemSort(set, set+count-manually-1); // grr, TQListView sucks set[0]->moveItem(set[1]); TreeItem *previous = set[0]; int manualPosition = count - manually; for (int i=1; i file(); // perhaps one of the manually sorted ones fit here.. for (int mi = manualPosition; mi < count; mi++) { TreeItem *now = set[mi]; File after; if (now->file() && now->file().getPosition(q, &after)) { if (after == maybeafter) { now->moveItem(previous); previous = now; // just try again now, as another manually sorted item // may be after previous maybeafter = previous->file(); manualPosition++; } } } set[i]->moveItem(previous); previous = set[i]; } delete [] set; } template inline static void sortify(T *item) { treeItemSort(item->firstChild()); } TreeItem::TreeItem(Tree *tqparent, QueryGroup *group, const File &file, const TQString &p) : KListViewItem(tqparent, p), mGroup(group), mUserOpened(false), mHidden(false) { if (group->option(QueryGroup::Playable)) { if (mFile = file) tqparent->mPlayableItemCount++; } sortify(tqparent); } TreeItem::TreeItem(TreeItem *tqparent, QueryGroup *group, const File &file, const TQString &p) : KListViewItem(tqparent, p), mGroup(group), mUserOpened(false), mHidden(false) { if (group->option(QueryGroup::Playable)) { if (mFile = file) tqparent->tree()->mPlayableItemCount++; } sortify(tqparent); } TreeItem::~TreeItem() { if (playable()) { tree()->mPlayableItemCount--; } // I have to remove my tqchildren, because they need their tqparent // in tact for the below code while (TreeItem *c = firstChild()) delete c; tree()->deleted(this); } void Tree::deleted(TreeItem *item) { mAutoExpanded.removeRef(item); if (current() == item) { oblique()->next(); } } static void pad(TQString &str) { int len=str.length(); int at = 0; int blocklen=0; static const int paddingsize=12; // not static for reason const TQChar chars[paddingsize] = { TQChar('0'), TQChar('0'), TQChar('0'), TQChar('0'), TQChar('0'), TQChar('0'), TQChar('0'), TQChar('0'), TQChar('0'), TQChar('0'), TQChar('0'), TQChar('0') }; for (int i=0; i < len; i++) { if (str[i].isNumber()) { if (!blocklen) at = i; blocklen++; } else if (blocklen) { int pads=paddingsize; pads -= blocklen; str.insert(at, chars, pads); i += pads; blocklen = 0; } } if (blocklen) { int pads=paddingsize; pads -= blocklen; str.insert(at, chars, pads); } } int TreeItem::compare(TQListViewItem *i, int col, bool) const { TQString text1 = text(col); TQString text2 = i->text(col); pad(text1); pad(text2); return text1.compare(text2); } Tree *TreeItem::tree() { return static_cast(KListViewItem::listView()); } TQString TreeItem::presentation() const { return text(0); } TreeItem *TreeItem::tqfind(File item) { TreeItem *i = firstChild(); while (i) { if (i->file() == item) return i; TreeItem *found = i->tqfind(item); if (found and found->playable()) return found; i = i->nextSibling(); } return 0; } bool TreeItem::playable() const { return mFile && mGroup->option(QueryGroup::Playable); } TreeItem *TreeItem::nextPlayable() { TreeItem *next=this; do { next = next->next(); } while (next && !next->playable()); return next; } void TreeItem::paintCell(TQPainter *p, const TQColorGroup &cg, int column, int width, int align) { TQFont font = p->font(); if (tree()->current() == this) { font.setUnderline(true); p->setFont(font); } TQColorGroup newcg(cg); if (tqparent() && tqparent()->isOpen() && !tqparent()->mUserOpened) { // slow, but not often used TQColor text = newcg.text(); TQColor bg = newcg.background(); int r = text.red() + bg.red(); int g = text.green() + bg.green(); int b = text.blue() + bg.blue(); text.setRgb(r/2,g/2,b/2); newcg.setColor(TQColorGroup::Text, text); } KListViewItem::paintCell(p, newcg, column, width, align); font.setUnderline(false); p->setFont(font); } void TreeItem::setOpen(bool o) { if (!tree()->autoExpanding()) { mUserOpened = o; tree()->removeAutoExpanded(this); } KListViewItem::setOpen(o); } void TreeItem::autoExpand() { tree()->setAutoExpanding(true); if (tree()->current() == this) { tree()->resetAutoExpanded(); forceAutoExpand(); } tree()->setAutoExpanding(false); } void TreeItem::forceAutoExpand() { if (tqparent()) tqparent()->forceAutoExpand(); if (!mUserOpened) tree()->addAutoExpanded(this); setOpen(true); } bool TreeItem::hideIfNoMatch(const TQString &match) { if (!firstChild()) { if (match.length()) { if (!text(0).tqcontains(match, false)) { setHidden(true); return false; } } setHidden(false); return true; } else { bool visible=true; if (match.length()) { visible = text(0).tqcontains(match, false); } if (visible) { TQString empty; for (TreeItem *ch = firstChild(); ch; ch = ch->nextSibling()) { ch->hideIfNoMatch(empty); } } else { for (TreeItem *ch = firstChild(); ch; ch = ch->nextSibling()) { bool here = ch->hideIfNoMatch(match); visible = visible || here; } } setHidden(!visible); return visible; } } void TreeItem::setup() { TQListViewItem::setup(); if (mHidden) setHeight(0); } void TreeItem::setHidden(bool h) { mHidden = h; setup(); } TreeItem *TreeItem::next() { if (firstChild()) { return firstChild(); } else { // go up the tree TreeItem *upYours = this; do { if (upYours->nextSibling()) return upYours->nextSibling(); upYours = upYours->tqparent(); } while (upYours); } return 0; } Tree::Tree(Oblique *oblique, TQWidget *tqparent) : KListView(tqparent), mOblique(oblique), mAutoExpanding(0) { mCurrent = 0; lastMenu =0; mPlayableItemCount = 0; mLoader = 0; addColumn(""); setCaption(i18n("Oblique")); setRootIsDecorated(true); setAcceptDrops(true); setDragEnabled(true); setItemsMovable(true); setDropVisualizer(true); setSorting(-1); ((TQWidget*)header())->hide(); connect( this, TQT_SIGNAL(moved(TQPtrList&, TQPtrList&, TQPtrList&)), TQT_SLOT(dropped(TQPtrList&, TQPtrList&, TQPtrList&)) ); connect( this, TQT_SIGNAL(contextMenu(KListView*, TQListViewItem*, const TQPoint&)), TQT_SLOT(contextMenu(KListView*, TQListViewItem*, const TQPoint&)) ); connect( this, TQT_SIGNAL(executed(TQListViewItem*)), TQT_SLOT(play(TQListViewItem*)) ); Base *base = oblique->base(); connect(base, TQT_SIGNAL(added(File)), TQT_SLOT(insert(File))); connect(base, TQT_SIGNAL(removed(File)), TQT_SLOT(remove(File))); connect(base, TQT_SIGNAL(modified(File)), TQT_SLOT(update(File))); connect(base, TQT_SIGNAL(addedTo(Slice*, File)), TQT_SLOT(checkInsert(Slice*, File))); connect(base, TQT_SIGNAL(removedFrom(Slice*, File)), TQT_SLOT(checkRemove(Slice*, File))); connect(this, TQT_SIGNAL(selected(TreeItem*)), oblique, TQT_SLOT(selected(TreeItem*))); mSlice = oblique->base()->defaultSlice(); KConfigGroup g(KGlobal::config(), "oblique"); mFileOfQuery = g.readEntry("schema", "standard"); if (!setSchema(mFileOfQuery)) { setSchema("standard"); } } Tree::~Tree() { // have to clear here to prevent sigsegv on exit clear(); } void Tree::clear() { if (mCurrent) { napp->player()->stop(); setCurrent(0); } KListView::clear(); } void Tree::movableDropEvent (TQListViewItem* tqparent, TQListViewItem* afterme) { TQPtrList items = selectedItems(true); for (TQPtrList::Iterator i(items.begin()); *i; ++i) { if ((*i)->tqparent() != tqparent) return; } KListView::movableDropEvent(tqparent, afterme); } void Tree::dropped(TQPtrList &items, TQPtrList &, TQPtrList &afterNow) { TQPtrList::Iterator itemi = items.begin(); TQPtrList::Iterator afteri = afterNow.begin(); while (*itemi) { TreeItem *item = static_cast(*itemi); TreeItem *after = static_cast(*afteri); item->file().setPosition(query(), after ? after->file() : File()); ++itemi; ++afteri; } } TreeItem *Tree::firstChild() { return static_cast(KListView::firstChild()); } TreeItem *Tree::tqfind(File item) { TreeItem *i = firstChild(); while (i) { if (i->file() == item) return i; TreeItem *found = i->tqfind(item); if (found) return found; i = i->nextSibling(); } return i; } void Tree::insert(TreeItem *tqreplace, File file) { TreeItem *created = collate(tqreplace, file); if (mCurrent == tqreplace) { mCurrent = created; tqrepaintItem(created); if (isSelected(tqreplace)) setSelected(created, true); } if (created != tqreplace) { delete tqreplace; } } void Tree::insert(File file) { collate(file); } void Tree::remove(File file) { remove(firstChild(), file); } void Tree::checkInsert(Slice *slice, File f) { if (slice == mSlice) insert(f); } void Tree::checkRemove(Slice *slice, File f) { if (slice == mSlice) remove(f); } void Tree::update(File file) { if (TreeItem *item = tqfind(file)) { insert(item, file); } } void Tree::remove(TreeItem *ti, const File &file) { while (ti) { if (ti->file() == file) { TreeItem *t = ti->nextSibling(); delete ti; ti = t; } else { remove(ti->firstChild(), file); ti = ti->nextSibling(); } } } void Tree::setCurrent(TreeItem *cur) { if (cur == mCurrent) return; // undo the old one TreeItem *old = mCurrent; mCurrent = cur; TQPtrList oldAutoExpanded = mAutoExpanded; mAutoExpanded.clear(); tqrepaintItem(old); tqrepaintItem(cur); if (cur) cur->autoExpand(); // do an anti-intersection on oldAutoUpdated and the new mAutoExpanded for (TQPtrListIterator i(mAutoExpanded); *i; ++i) { oldAutoExpanded.removeRef(*i); } bool user=false; for (TQPtrListIterator i(oldAutoExpanded); *i; ++i) { if ((*i)->userOpened()) { user = true; break; } } if (!user) { for (TQPtrListIterator i(oldAutoExpanded); *i; ++i) { (*i)->setOpen(false); } } ensureItemVisible(cur); } void Tree::reload() { delete mLoader; clear(); mLoader = new Loader(this); connect(mLoader, TQT_SIGNAL(finished()), TQT_SLOT(destroyLoader())); } void Tree::setSlice(Slice *slice) { if (mSlice == slice) return; mSlice = slice; reload(); } bool Tree::setSchema(const TQString &name) { mFileOfQuery = name; if (!oblique()->loadSchema(mQuery, name)) return false; reload(); return true; } TQDragObject *Tree::dragObject() { if (currentItem() && static_cast(currentItem())->file()) return KListView::dragObject(); return 0; } void Tree::destroyLoader() { delete mLoader; mLoader = 0; } void Tree::setLimit(const TQString &text) { for (TreeItem *ch = firstChild(); ch; ch = ch->nextSibling()) { ch->hideIfNoMatch(text); } } void Tree::contextMenu(KListView*, TQListViewItem* i, const TQPoint& p) { if (!i) return; delete lastMenu; lastMenu = new FileMenu(this, oblique(), static_cast(i) ); lastMenu->popup(p); } void Tree::play(TQListViewItem *_item) { if (!_item) return; TreeItem *item = static_cast(_item); if (item->playable()) emit selected(item); else play(item->nextPlayable()); } TreeItem *Tree::collate(TreeItem *fix, QueryGroup *group, const File &file, TreeItem *childOf) { do { if (group->matches(file)) { TreeItem *nodefix=0; if (fix && fix->group() == group) nodefix = fix; TreeItem *item = node(nodefix, group, file, childOf); TreeItem *ti=0; if (group->firstChild()) { ti = collate(fix, group->firstChild(), file, item); } if (ti && ti->playable()) return ti; else if(item && item->playable()) return item; else return 0; } } while (( group = group->nextSibling())); return 0; } TreeItem *Tree::node(TreeItem *fix, QueryGroup *group, const File &file, TreeItem *childOf) { // search childOf's immediate tqchildren TreeItem *tqchildren; if (childOf) tqchildren = childOf->firstChild(); else tqchildren = firstChild(); TQString presentation = group->presentation(file); while (tqchildren) { // merging would be done here bool matches=false; if (group->fuzzyness(QueryGroup::Case)) { matches = (tqchildren->text(0).lower() == presentation.lower()); } else { matches = (tqchildren->text(0) == presentation); } matches = matches && !tqchildren->group()->option(QueryGroup::Playable); if (matches) { tqchildren->setFile(File()); return tqchildren; } tqchildren = tqchildren->nextSibling(); } TreeItem *item; if (group->option(QueryGroup::ChildrenVisible)) { item = childOf; } else if (fix) { item = fix; if (fix->tqparent() != childOf) moveItem(fix, childOf, 0); item->setText(0, presentation); } else if (childOf) { item = new TreeItem(childOf, group, file, presentation); } else { item = new TreeItem(this, group, file, presentation); } item->setOpen(group->option(QueryGroup::AutoOpen)); return item; } #include "tree.moc"