/*************************************************************************** * Copyright (C) 2003 by S�astien Laot * * slaout@linux62.org * * * * 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. * * * * This program is distributed in the hope that it will be useful, * * but WITHOUT ANY WARRANTY; without even the implied warranty of * * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * * GNU General Public License for more details. * * * * You should have received a copy of the GNU General Public License * * along with this program; if not, write to the * * Free Software Foundation, Inc., * * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. * ***************************************************************************/ #include #include #include #include #include #include #include #include #include #include #include #include #include #include // rand() function #include // sqrt() and pow() functions #include #ifdef None #undef None #endif #include "basket.h" #include "tag.h" #include "note.h" #include "tools.h" #include "settings.h" #include "notefactory.h" // For NoteFactory::filteredURL() /** class Note: */ #define FOR_EACH_CHILD(childVar) \ for (Note *childVar = firstChild(); childVar; childVar = childVar->next()) // TODO: #define FOR_EACH_VISIBLE_CHILD(childVar) \ for (...) int Note::NOTE_MARGIN = 2; int Note::INSERTION_HEIGHT = 5; int Note::EXPANDER_WIDTH = 9; int Note::EXPANDER_HEIGHT = 9; int Note::GROUP_WIDTH = 2*NOTE_MARGIN + EXPANDER_WIDTH; int Note::HANDLE_WIDTH = GROUP_WIDTH; int Note::RESIZER_WIDTH = GROUP_WIDTH; int Note::TAG_ARROW_WIDTH = 5; int Note::EMBLEM_SIZE = 16; int Note::MIN_HEIGHT = 2*NOTE_MARGIN + EMBLEM_SIZE; Note::Note(Basket *tqparent) : m_prev(0), m_next(0), m_x(0), m_y(-1), m_width(-1), m_height(-1), m_groupWidth(250), m_isFolded(false), m_firstChild(0L), m_parentNote(0), m_basket(tqparent), m_content(0), m_addedDate(TQDateTime::tqcurrentDateTime()), m_lastModificationDate(TQDateTime::tqcurrentDateTime()), m_computedAreas(false), m_onTop(false), m_deltaX(0), m_deltaY(0), m_deltaHeight(0), m_collapseFinished(true), m_expandingFinished(true), m_hovered(false), m_hoveredZone(Note::None), m_focused(false), m_selected(false), m_wasInLastSelectionRect(false), m_computedState(), m_emblemsCount(0), m_haveInvisibleTags(false), m_matching(true) { } Note::~Note() { delete m_content; deleteChilds(); } TQString Note::addedStringDate() { return KGlobal::locale()->formatDateTime(m_addedDate); } TQString Note::lastModificationStringDate() { return KGlobal::locale()->formatDateTime(m_lastModificationDate); } TQString Note::toText(const TQString &cuttedFullPath) { if (content()) { // Convert note to text: TQString text = content()->toText(cuttedFullPath); // If we should not export tags with the text, return immediatly: if (!Settings::exportTextTags()) return text; // Compute the text equivalent of the tag states: TQString firstLine; TQString otherLines; for (State::List::Iterator it = m_states.begin(); it != m_states.end(); ++it) { if (!(*it)->textEquivalent().isEmpty()) { firstLine += (*it)->textEquivalent() + " "; if ((*it)->onAllTextLines()) otherLines += (*it)->textEquivalent() + " "; } } // Merge the texts: if (firstLine.isEmpty()) return text; if (otherLines.isEmpty()) return firstLine + text; TQStringList lines = TQStringList::split('\n', text, /*allowEmptyEntries=*/true); TQString result = firstLine + lines[0] + (lines.count() > 1 ? "\n" : ""); for (uint i = 1/*Skip the first line*/; i < lines.count(); ++i) result += otherLines + lines[i] + (i < lines.count() - 1 ? "\n" : ""); return result; } else return ""; } bool Note::computeMatching(const FilterData &data) { // Groups are always matching: if (!content()) return true; // If we were editing this note and there is a save operation in the middle, then do not hide it suddently: if (basket()->editedNote() == this) return true; bool matching; // First match tags (they are fast to compute): switch (data.tagFilterType) { default: case FilterData::DontCareTagsFilter: matching = true; break; case FilterData::NotTaggedFilter: matching = m_states.count() <= 0; break; case FilterData::TaggedFilter: matching = m_states.count() > 0; break; case FilterData::TagFilter: matching = hasTag(data.tag); break; case FilterData::StateFilter: matching = hasState(data.state); break; } // Don't try to match the content text if we are not matching now (the filter is of 'AND' type) or if we shouldn't try to match the string: if (matching && !data.string.isEmpty()) matching = content()->match(data); return matching; } int Note::newFilter(const FilterData &data) { bool wasMatching = matching(); m_matching = computeMatching(data); setOnTop(wasMatching && matching()); if (!matching()) setSelected(false); int countMatches = (content() && matching() ? 1 : 0); FOR_EACH_CHILD (child) countMatches += child->newFilter(data); return countMatches; } void Note::deleteSelectedNotes(bool deleteFilesToo) { if (content() && isSelected()) { basket()->unplugNote(this); if (deleteFilesToo && content() && content()->useFile()) Tools::deleteRecursively(fullPath());//basket()->deleteFiles(fullPath()); // Also delete the folder if it's a folder //delete this; return; } Note *child = firstChild(); Note *next; while (child) { next = child->next(); // If we delete 'child' on the next line, child->next() will be 0! child->deleteSelectedNotes(deleteFilesToo); child = next; } } int Note::count() { if (content()) return 1; int count = 0; FOR_EACH_CHILD (child) count += child->count(); return count; } int Note::countDirectChilds() { int count = 0; FOR_EACH_CHILD (child) ++count; return count; } TQString Note::fullPath() { if (content()) return basket()->fullPath() + content()->fileName(); else return ""; } void Note::update() { basket()->updateNote(this); } void Note::setFocused(bool focused) { if (m_focused == focused) return; m_focused = focused; unbufferize(); update(); // FIXME: ??? } void Note::setSelected(bool selected) { if (isGroup()) selected = false; // A group cannot be selected! if (m_selected == selected) return; if (!selected && basket()->editedNote() == this) { basket()->closeEditor(); return; // To avoid a bug that would count 2 less selected notes instead of 1 less! Because m_selected is modified only below. } if (selected) basket()->addSelectedNote(); else basket()->removeSelectedNote(); m_selected = selected; unbufferize(); update(); // FIXME: ??? } void Note::resetWasInLastSelectionRect() { m_wasInLastSelectionRect = false; FOR_EACH_CHILD (child) child->resetWasInLastSelectionRect(); } void Note::finishLazyLoad() { if (content()) content()->finishLazyLoad(); FOR_EACH_CHILD (child) child->finishLazyLoad(); } void Note::selectIn(const TQRect &rect, bool invertSelection, bool unselectOthers /*= true*/) { // TQRect myRect(x(), y(), width(), height()); // bool intersects = myRect.intersects(rect); // Only intersects with visible areas. // If the note is not visible, the user don't think it will be selected while selecting the note(s) that hide this, so act like the user think: bool intersects = false; for (TQValueList::iterator it = m_areas.begin(); it != m_areas.end(); ++it) { TQRect &r = *it; if (r.intersects(rect)) { intersects = true; break; } } bool toSelect = intersects || (!unselectOthers && isSelected()); if (invertSelection) { if (m_wasInLastSelectionRect == intersects) toSelect = isSelected(); else if (intersects xor m_wasInLastSelectionRect) toSelect = !isSelected();// xor intersects; } setSelected(toSelect); m_wasInLastSelectionRect = intersects; Note *child = firstChild(); bool first = true; while (child) { if ((showSubNotes() || first) && child->matching()) child->selectIn(rect, invertSelection, unselectOthers); else child->setSelectedRecursivly(false); child = child->next(); first = false; } } bool Note::allSelected() { if (isGroup()) { Note *child = firstChild(); bool first = true; while (child) { if ((showSubNotes() || first) && child->matching()) if (!child->allSelected()) return false;; child = child->next(); first = false; } return true; } else return isSelected(); } void Note::setSelectedRecursivly(bool selected) { setSelected(selected && matching()); FOR_EACH_CHILD (child) child->setSelectedRecursivly(selected); } void Note::invertSelectionRecursivly() { if (content()) setSelected(!isSelected() && matching()); FOR_EACH_CHILD (child) child->invertSelectionRecursivly(); } void Note::unselectAllBut(Note *toSelect) { if (this == toSelect) setSelectedRecursivly(true); else { setSelected(false); Note *child = firstChild(); bool first = true; while (child) { if ((showSubNotes() || first) && child->matching()) child->unselectAllBut(toSelect); else child->setSelectedRecursivly(false); child = child->next(); first = false; } } } void Note::invertSelectionOf(Note *toSelect) { if (this == toSelect) setSelectedRecursivly(!isSelected()); else { Note *child = firstChild(); bool first = true; while (child) { if ((showSubNotes() || first) && child->matching()) child->invertSelectionOf(toSelect); child = child->next(); first = false; } } } Note* Note::theSelectedNote() { if (!isGroup() && isSelected()) return this; Note *selectedOne; Note *child = firstChild(); while (child) { selectedOne = child->theSelectedNote(); if (selectedOne) return selectedOne; child = child->next(); } return 0; } NoteSelection* Note::selectedNotes() { if (content()) if (isSelected()) return new NoteSelection(this); else return 0; NoteSelection *selection = new NoteSelection(this); FOR_EACH_CHILD (child) selection->append(child->selectedNotes()); if (selection->firstChild) { if (selection->firstChild->next) return selection; else { // If 'selection' is a groupe with only one content, return directly that content: NoteSelection *reducedSelection = selection->firstChild; // delete selection; // TODO: Cut all connexions of 'selection' before deleting it! for (NoteSelection *node = reducedSelection; node; node = node->next) node->tqparent = 0; return reducedSelection; } } else { delete selection; return 0; } } bool Note::isAfter(Note *note) { if (this == 0 || note == 0) return true; Note *next = this; while (next) { if (next == note) return false; next = next->nextInStack(); } return true; } bool Note::tqcontains(Note *note) { // if (this == note) // return true; while (note) if (note == this) return true; else note = note->tqparentNote(); // FOR_EACH_CHILD (child) // if (child->tqcontains(note)) // return true; return false; } Note* Note::firstRealChild() { Note *child = m_firstChild; while (child) { if ( !child->isGroup() /*&& child->matching()*/ ) return child; child = child->firstChild(); } // Empty group: return 0; } Note* Note::lastRealChild() { Note *child = lastChild(); while (child) { if (child->content()) return child; Note *possibleChild = child->lastRealChild(); if (possibleChild && possibleChild->content()) return possibleChild; child = child->prev(); } return 0; } Note* Note::lastChild() { Note *child = m_firstChild; while (child && child->next()) child = child->next(); return child; } Note* Note::lastSibling() { Note *last = this; while (last && last->next()) last = last->next(); return last; } int Note::yExpander() { Note *child = firstRealChild(); if (child && !child->isShown()) child = child->nextShownInStack(); // FIXME: Restrict scope to 'this' if (child) return (child->height() - EXPANDER_HEIGHT) / 2 + !(child->height()%2); else // Groups always have at least 2 notes, except for columns which can have no child (but should exists anyway): return 0; } bool Note::isFree() { return tqparentNote() == 0 && basket()->isFreeLayout(); } bool Note::isColumn() { return tqparentNote() == 0 && basket()->isColumnsLayout(); } bool Note::hasResizer() { // "isFree" || "isColmun but not the last" return tqparentNote() == 0 && (basket()->isFreeLayout() || m_next != 0L); } int Note::resizerHeight() { return (isColumn() ? basket()->contentsHeight() : height()); } void Note::setHoveredZone(Zone zone) // TODO: Remove setHovered(bool) and assume it is hovered if zone != None !!!!!!! { if (m_hoveredZone != zone) { if (content()) content()->setHoveredZone(m_hoveredZone, zone); m_hoveredZone = zone; unbufferize(); } } Note::Zone Note::zoneAt(const TQPoint &pos, bool toAdd) { // Keep the resizer highlighted when resizong, even if the cursor is over another note: if (basket()->resizingNote() == this) return Resizer; // When dropping/pasting something on a column resizer, add it at the bottom of the column, and don't group it whith the whole column: if (toAdd && isColumn() && hasResizer()) { int right = rightLimit() - x(); if ((pos.x() >= right) && (pos.x() < right + RESIZER_WIDTH) && (pos.y() >= 0) && (pos.y() < resizerHeight())) // Code copied from below return BottomColumn; } // Below a column: if (isColumn()) { if (pos.y() >= height() && pos.x() < rightLimit() - x()) return BottomColumn; } // If toAdd, return only TopInsert, TopGroup, BottomInsert or BottomGroup // (by spanning those areas in 4 equal rectangles in the note): if (toAdd) { if (!isFree() && !Settings::groupOnInsertionLine()) return (pos.y() < height() / 2 ? TopInsert : BottomInsert); if (isColumn() && pos.y() >= height()) return BottomGroup; if (pos.y() < height() / 2) if (pos.x() < width() / 2 && !isFree()) return TopInsert; else return TopGroup; else if (pos.x() < width() / 2 && !isFree()) return BottomInsert; else return BottomGroup; } // If in the resizer: if (hasResizer()) { int right = rightLimit() - x(); if ((pos.x() >= right) && (pos.x() < right + RESIZER_WIDTH) && (pos.y() >= 0) && (pos.y() < resizerHeight())) return Resizer; } // If isGroup, return only Group, GroupExpander, TopInsert or BottomInsert: if (isGroup()) { if (pos.y() < INSERTION_HEIGHT) return (isFree() ? TopGroup : TopInsert); if (pos.y() >= height() - INSERTION_HEIGHT) return (isFree() ? BottomGroup : BottomInsert); if (pos.x() >= NOTE_MARGIN && pos.x() < NOTE_MARGIN + EXPANDER_WIDTH) { int yExp = yExpander(); if (pos.y() >= yExp && pos.y() < yExp + EXPANDER_HEIGHT) return GroupExpander; } if (pos.x() < width()) return Group; else return Note::None; } // Else, it's a normal note: if (pos.x() < HANDLE_WIDTH) return Handle; if (pos.y() < INSERTION_HEIGHT) if ((!isFree() && !Settings::groupOnInsertionLine()) || pos.x() < width() / 2 && !isFree()) return TopInsert; else return TopGroup; if (pos.y() >= height() - INSERTION_HEIGHT) if ((!isFree() && !Settings::groupOnInsertionLine()) || pos.x() < width() / 2 && !isFree()) return BottomInsert; else return BottomGroup; for (int i =0; i < m_emblemsCount; i++) { if ( pos.x() >= HANDLE_WIDTH + (NOTE_MARGIN+EMBLEM_SIZE)*i && pos.x() < HANDLE_WIDTH + (NOTE_MARGIN+EMBLEM_SIZE)*i + NOTE_MARGIN+EMBLEM_SIZE ) return (Zone)(Emblem0 + i); } if (pos.x() < HANDLE_WIDTH + (NOTE_MARGIN+EMBLEM_SIZE)*m_emblemsCount + NOTE_MARGIN + TAG_ARROW_WIDTH + NOTE_MARGIN) return TagsArrow; if (!linkAt(pos).isEmpty()) return Link; int customZone = content()->zoneAt(pos - TQPoint(contentX(), NOTE_MARGIN)); if (customZone) return (Note::Zone)customZone; return Content; } TQString Note::linkAt(const TQPoint &pos) { TQString link = m_content->linkAt(pos - TQPoint(contentX(), NOTE_MARGIN)); if (link.isEmpty()) return link; else return NoteFactory::filteredURL(KURL(link)).prettyURL();//KURIFilter::self()->filteredURI(link); } int Note::contentX() { return HANDLE_WIDTH + NOTE_MARGIN + (EMBLEM_SIZE+NOTE_MARGIN)*m_emblemsCount + TAG_ARROW_WIDTH + NOTE_MARGIN; } TQRect Note::zoneRect(Note::Zone zone, const TQPoint &pos) { if (zone >= Emblem0) return TQRect(HANDLE_WIDTH + (NOTE_MARGIN+EMBLEM_SIZE)*(zone-Emblem0), INSERTION_HEIGHT, NOTE_MARGIN + EMBLEM_SIZE, height() - 2*INSERTION_HEIGHT); int yExp; int right; int xGroup = (isFree() ? (isGroup() ? 0 : GROUP_WIDTH) : width() / 2); TQRect rect; int insertSplit = (Settings::groupOnInsertionLine() ? 2 : 1); switch (zone) { case Note::Handle: return TQRect(0, 0, HANDLE_WIDTH, height()); case Note::Group: yExp = yExpander(); if (pos.y() < yExp) return TQRect(0, INSERTION_HEIGHT, width(), yExp - INSERTION_HEIGHT); if (pos.y() > yExp + EXPANDER_HEIGHT) return TQRect(0, yExp + EXPANDER_HEIGHT, width(), height() - yExp - EXPANDER_HEIGHT - INSERTION_HEIGHT); if (pos.x() < NOTE_MARGIN) return TQRect(0, 0, NOTE_MARGIN, height()); else return TQRect(width() - NOTE_MARGIN, 0, NOTE_MARGIN, height()); case Note::TagsArrow: return TQRect(HANDLE_WIDTH + (NOTE_MARGIN+EMBLEM_SIZE)*m_emblemsCount, INSERTION_HEIGHT, NOTE_MARGIN + TAG_ARROW_WIDTH + NOTE_MARGIN, height() - 2*INSERTION_HEIGHT); case Note::Custom0: case Note::Content: rect = content()->zoneRect(zone, pos - TQPoint(contentX(), NOTE_MARGIN)); rect.moveBy(contentX(), NOTE_MARGIN); return rect.intersect( TQRect(contentX(), INSERTION_HEIGHT, width() - contentX(), height() - 2*INSERTION_HEIGHT) ); // Only IN contentRect case Note::GroupExpander: return TQRect(NOTE_MARGIN, yExpander(), EXPANDER_WIDTH, EXPANDER_HEIGHT); case Note::Resizer: right = rightLimit(); return TQRect(right - x(), 0, RESIZER_WIDTH, resizerHeight()); case Note::Link: case Note::TopInsert: if (isGroup()) return TQRect(0, 0, width(), INSERTION_HEIGHT); else return TQRect(HANDLE_WIDTH, 0, width() / insertSplit - HANDLE_WIDTH, INSERTION_HEIGHT); case Note::TopGroup: return TQRect(xGroup, 0, width() - xGroup, INSERTION_HEIGHT); case Note::BottomInsert: if (isGroup()) return TQRect(0, height() - INSERTION_HEIGHT, width(), INSERTION_HEIGHT); else return TQRect(HANDLE_WIDTH, height() - INSERTION_HEIGHT, width() / insertSplit - HANDLE_WIDTH, INSERTION_HEIGHT); case Note::BottomGroup: return TQRect(xGroup, height() - INSERTION_HEIGHT, width() - xGroup, INSERTION_HEIGHT); case Note::BottomColumn: return TQRect(0, height(), rightLimit() - x(), basket()->contentsHeight() - height()); case Note::None: return TQRect(/*0, 0, -1, -1*/); default: return TQRect(/*0, 0, -1, -1*/); } } void Note::setCursor(Zone zone) { switch (zone) { case Note::Handle: case Note::Group: basket()->viewport()->setCursor(TQt::SizeAllCursor); break; case Note::Resizer: if (isColumn()) basket()->viewport()->setCursor(TQt::SplitHCursor); else basket()->viewport()->setCursor(TQt::SizeHorCursor); break; case Note::Custom0: content()->setCursor(basket()->viewport(), zone); break; case Note::Link: case Note::TagsArrow: case Note::GroupExpander: basket()->viewport()->setCursor(TQt::PointingHandCursor); break; case Note::Content: basket()->viewport()->setCursor(TQt::IbeamCursor); break; case Note::TopInsert: case Note::TopGroup: case Note::BottomInsert: case Note::BottomGroup: case Note::BottomColumn: basket()->viewport()->setCursor(TQt::CrossCursor); break; case Note::None: basket()->viewport()->unsetCursor(); break; default: State *state = stateForEmblemNumber(zone - Emblem0); if (state && state->tqparentTag()->states().count() > 1) basket()->viewport()->setCursor(TQt::PointingHandCursor); else basket()->viewport()->unsetCursor(); } } void Note::addAnimation(int deltaX, int deltaY, int deltaHeight) { // Don't process animation that make the note stay in place! if (deltaX == 0 && deltaY == 0 && deltaHeight == 0) return; // If it was not animated previsouly, make it animated: if (m_deltaX == 0 && m_deltaY == 0 && m_deltaHeight == 0) basket()->addAnimatedNote(this); // Configure the animation: m_deltaX += deltaX; m_deltaY += deltaY; m_deltaHeight += deltaHeight; } void Note::setFinalPosition(int x, int y) { addAnimation(x - finalX(), y - finalY()); } void Note::initAnimationLoad() { int x, y; switch (rand() % 4) { case 0: // Put it on top: x = basket()->contentsX() + rand() % basket()->contentsWidth(); y = -height(); break; case 1: // Put it on bottom: x = basket()->contentsX() + rand() % basket()->contentsWidth(); y = basket()->contentsY() + basket()->visibleHeight(); break; case 2: // Put it on left: x = -width() - (hasResizer() ? Note::RESIZER_WIDTH : 0); y = basket()->contentsY() + rand() % basket()->visibleHeight(); break; case 3: // Put it on right: default: // In the case of... x = basket()->contentsX() + basket()->visibleWidth(); y = basket()->contentsY() + rand() % basket()->visibleHeight(); break; } cancelAnimation(); addAnimation(finalX() - x, finalY() - y); setX(x); setY(y); if (isGroup()) { const int viewHeight = basket()->contentsY() + basket()->visibleHeight(); Note *child = firstChild(); bool first = true; while (child) { if (child->finalY() < viewHeight) { if ((showSubNotes() || first) && child->matching()) child->initAnimationLoad(); } else break; // 'child' are not a free notes (because child of at least one note, 'this'), so 'child' is ordered vertically. child = child->next(); first = false; } } } bool Note::advance() { // Animate X: if (m_deltaX != 0) { int deltaX = m_deltaX / 3; if (deltaX == 0) deltaX = (m_deltaX > 0 ? 1 : -1); setX(m_x + deltaX); m_deltaX -= deltaX; } // Animate Y: if (m_deltaY != 0) { int deltaY = m_deltaY / 3; if (deltaY == 0) deltaY = (m_deltaY > 0 ? 1 : -1); setY(m_y + deltaY); m_deltaY -= deltaY; } // Animate Height: if (m_deltaHeight != 0) { int deltaHeight = m_deltaHeight / 3; if (deltaHeight == 0) deltaHeight = (m_deltaHeight > 0 ? 1 : -1); m_height += deltaHeight; unbufferize(); m_deltaHeight -= deltaHeight; } if (m_deltaHeight == 0) { m_collapseFinished = true; m_expandingFinished = true; } // Return true if the animation is finished: return (m_deltaX == 0 && m_deltaY == 0 && m_deltaHeight == 0); } void Note::unsetWidth() { m_width = 0; unbufferize(); FOR_EACH_CHILD (child) child->unsetWidth(); } void Note::requestRetqlayout() { m_width = 0; unbufferize(); basket()->retqlayoutNotes(true); // TODO: A signal that will retqlayout ONCE and DELAYED if called several times } void Note::setWidth(int width) // TODO: inline ? { if (m_width != width) setWidthForceRetqlayout(width); } void Note::setWidthForceRetqlayout(int width) { unbufferize(); m_width = (width < minWidth() ? minWidth() : width); int contentWidth = width - contentX() - NOTE_MARGIN; if (m_content) { ///// FIXME: is this OK? if (contentWidth < 1) contentWidth = 1; if (contentWidth < m_content->minWidth()) contentWidth = m_content->minWidth(); m_height = m_content->setWidthAndGetHeight(contentWidth/* < 1 ? 1 : contentWidth*/) + 2 * NOTE_MARGIN; if (m_height < 3 * INSERTION_HEIGHT) // Assure a minimal size... m_height = 3 * INSERTION_HEIGHT; } } int Note::minWidth() { if (m_content) return contentX() + m_content->minWidth() + NOTE_MARGIN; else return GROUP_WIDTH; ///// FIXME: is this OK? } int Note::minRight() { if (isGroup()) { int right = finalX() + width(); Note* child = firstChild(); bool first = true; while (child) { if ((showSubNotes() || first) && child->matching()) right = TQMAX(right, child->minRight()); child = child->next(); first = false; } if (isColumn()) { int minColumnRight = finalX() + 2*HANDLE_WIDTH; if (right < minColumnRight) return minColumnRight; } return right; } else return finalX() + minWidth(); } void Note::setX(int x) { if (m_x == x) return; if (isBufferized() && basket()->hasBackgroundImage()) { // Unbufferize only if the background change: if (basket()->isTiledBackground()) unbufferize(); else { int bgw = basket()->backgroundPixmap()->width(); if (m_x >= bgw && x < bgw) // Was not in the background image and is now inside it: unbufferize(); else if (m_x < bgw) // Was in the background image and is now at another position of the background image or is now outside: unbufferize(); } } m_x = x; } void Note::setY(int y) { if (m_y == y) return; if (isBufferized() && basket()->hasBackgroundImage()) { // Unbufferize only if the background change: if (basket()->isTiledBackground()) unbufferize(); else { int bgh = basket()->backgroundPixmap()->height(); if (m_y >= bgh && y < bgh) // Was not in the background image and is now inside it: unbufferize(); else if (m_y < bgh) // Was in the background image and is now at another position of the background image or is now outside: unbufferize(); } } m_y = y; } void Note::toggleFolded(bool animate) { // Close the editor if it was editing a note that we are about to hide after collapsing: if (!m_isFolded && basket() && basket()->isDuringEdit()) { if (tqcontains(basket()->editedNote()) && firstRealChild() != basket()->editedNote()) basket()->closeEditor(); } // Important to close the editor FIRST, because else, the last edited note would not show during folding animation (don't ask me why ;-) ): m_isFolded = ! m_isFolded; unbufferize(); if (animate) { // We animate collapsing (so sub-notes fluidly go under the first note) // We don't animate expanding: we place sub-notes directly under the first note (and the next retqlayout will animate the expanding) // But if user quickly collapsed and then expand (while the collapsing animation isn't finished), we animate anyway bool animateSetUnder = (m_isFolded || !m_collapseFinished); // std::cout << "fold:" << m_isFolded << " collapseFinished:" << m_collapseFinished << " animateSetUnder:" << animateSetUnder << std::endl; if (m_isFolded) m_collapseFinished = false; else m_expandingFinished = false; Note* note = firstChild(); if (note) { note->setOnTop(true); while ( (note = note->next()) ) { // Don't process the first child: it is OK note->setRecursivelyUnder(/*firstRealChild*/firstChild(), animateSetUnder); note->setOnTop(false); } } } //if (basket()->focusedNote() && !basket()->focusedNote()->isShown()) { if (basket()->isLoaded()) { basket()->setFocusedNote(firstRealChild()); basket()->m_startOfShiftSelectionNote = firstRealChild(); } if (basket()->isLoaded() && !m_isFolded) { //basket()->setFocusedNote(this); basket()->retqlayoutNotes(true); basket()->ensureNoteVisible(this); } basket()->save(); // FIXME: SHOULD WE ALWAYS SAVE ???????? } void Note::setRecursivelyUnder(Note *under, bool animate) { int y = /*finalHeight() > under->finalHeight() ? under->finalY() :*/ under->finalBottom() - finalHeight() + 1; if (animate) setFinalPosition(finalX(), y); else { setY(y); cancelAnimation(); } if (isGroup()) FOR_EACH_CHILD (child) child->setRecursivelyUnder(under, animate); } Note* Note::noteAt(int x, int y) { if (matching() && hasResizer()) { int right = rightLimit(); // TODO: This code is dupliacted 3 times: !!!! if ((x >= right) && (x < right + RESIZER_WIDTH) && (y >= m_y) && (y < m_y + resizerHeight())) { if ( ! m_computedAreas ) recomputeAreas(); for (TQValueList::iterator it = m_areas.begin(); it != m_areas.end(); ++it) { TQRect &rect = *it; if (rect.tqcontains(x, y)) return this; } } } if (isGroup()) { if ((x >= m_x) && (x < m_x + width()) && (y >= m_y) && (y < m_y + m_height)) { if ( ! m_computedAreas ) recomputeAreas(); for (TQValueList::iterator it = m_areas.begin(); it != m_areas.end(); ++it) { TQRect &rect = *it; if (rect.tqcontains(x, y)) return this; } return NULL; } Note *child = firstChild(); Note *found; bool first = true; while (child) { if ((showSubNotes() || first) && child->matching()) { found = child->noteAt(x, y); if (found) return found; } child = child->next(); first = false; } } else if (matching() && y >= m_y && y < m_y + m_height && x >= m_x && x < m_x + m_width) { if ( ! m_computedAreas ) recomputeAreas(); for (TQValueList::iterator it = m_areas.begin(); it != m_areas.end(); ++it) { TQRect &rect = *it; if (rect.tqcontains(x, y)) return this; } return NULL; } return NULL; } TQRect Note::rect() { return TQRect(x(), y(), width(), height()); } TQRect Note::resizerRect() { return TQRect(rightLimit(), y(), RESIZER_WIDTH, resizerHeight()); } bool Note::showSubNotes() { return !m_isFolded || !m_collapseFinished || basket()->isFiltering(); } void Note::retqlayoutAt(int x, int y, bool animate) { if (!matching()) return; m_computedAreas = false; m_areas.clear(); // Don't retqlayout free notes one under the other, because by definition they are freely positionned! if (isFree()) { x = finalX(); y = finalY(); // If it's a column, it always have the same "fixed" position (no animation): } else if (isColumn()) { x = (prev() ? prev()->rightLimit() + RESIZER_WIDTH : 0); y = 0; cancelAnimation(); setX(x); setY(y); // But retqlayout others vertically if they are inside such primary groups or if it is a "normal" basket: } else { if (animate) setFinalPosition(x, y); else { cancelAnimation(); setX(x); setY(y); } } // Then, retqlayout sub-notes (only the first, if the group is folded) and so, assign an height to the group: if (isGroup()) { int h = 0; Note *child = firstChild(); bool first = true; while (child) { if (child->matching() && (!m_isFolded || first || basket()->isFiltering())) { // Don't use showSubNotes() but use !m_isFolded because we don't want a retqlayout for the animated collapsing notes child->retqlayoutAt(x + width(), y+h, animate); h += child->finalHeight(); } else // In case the user collapse a group, then move it and then expand it: child->setXRecursivly(x + width()); // notes SHOULD have a good X coordonate, and not the old one! // For future animation when re-match, but on bottom of already matched notes! // Find tqparent primary note and set the Y to THAT y: if (!child->matching()) child->setY(tqparentPrimaryNote()->y()); child = child->next(); first = false; } if (finalHeight() != h || m_height != h) { unbufferize(); if (animate) addAnimation(0, 0, h - finalHeight()); else { m_height = h; unbufferize(); } } } else { setWidth(finalRightLimit() - x); // If rightLimit is excedded, set the top-level right limit!!! // and NEED RELAYOUT } // Set the basket area limits (but not for child notes: no need, because they will look for theire tqparent note): if (!tqparentNote()) { if (basket()->tmpWidth < finalRightLimit() + (hasResizer() ? RESIZER_WIDTH : 0)) basket()->tmpWidth = finalRightLimit() + (hasResizer() ? RESIZER_WIDTH : 0); if (basket()->tmpHeight < finalY() + finalHeight()) basket()->tmpHeight = finalY() + finalHeight(); // However, if the note exceed the allowed size, let it! : } else if (!isGroup()) { if (basket()->tmpWidth < finalX() + width()) basket()->tmpWidth = finalX() + width(); if (basket()->tmpHeight < finalY() + finalHeight()) basket()->tmpHeight = finalY() + finalHeight(); } } void Note::setXRecursivly(int x) { m_deltaX = 0; setX(x); FOR_EACH_CHILD (child) child->setXRecursivly(x + width()); } void Note::setYRecursivly(int y) { m_deltaY = 0; setY(y); FOR_EACH_CHILD (child) child->setYRecursivly(y); } void Note::setGroupWidth(int width) { m_groupWidth = width; } int Note::groupWidth() { if (hasResizer()) return m_groupWidth; else return rightLimit() - x(); } int Note::rightLimit() { if (isColumn() && m_next == 0L) // The last column return TQMAX(x() + minWidth(), basket()->visibleWidth()); else if (tqparentNote()) return tqparentNote()->rightLimit(); else return m_x + m_groupWidth; } int Note::finalRightLimit() { if (isColumn() && m_next == 0L) // The last column return TQMAX(finalX() + minWidth(), basket()->visibleWidth()); else if (tqparentNote()) return tqparentNote()->finalRightLimit(); else return finalX() + m_groupWidth; } /* * This code is derivated from drawMetalGradient() from the TQt documentation: */ void drawGradient( TQPainter *p, const TQColor &colorTop, const TQColor & colorBottom, int x, int y, int w, int h, bool sunken, bool horz, bool flat ) /*const*/ { TQColor highlight(colorBottom); TQColor subh1(colorTop); TQColor subh2(colorTop); TQColor topgrad(colorTop); TQColor botgrad(colorBottom); if ( flat && !sunken ) p->fillRect(x, y, w, h, colorTop); else { int i = 0; int x1 = x; int y1 = y; int x2 = x + w - 1; int y2 = y + h - 1; if ( horz ) x2 = x2; else y2 = y2; #define DRAWLINE if (horz) \ p->drawLine( x1, y1+i, x2, y1+i ); \ else \ p->drawLine( x1+i, y1, x1+i, y2 ); \ i++; // Gradient: int ng = (horz ? h : w); // how many lines for the gradient? int h1, h2, s1, s2, v1, v2; if ( !sunken ) { topgrad.hsv( &h1, &s1, &v1 ); botgrad.hsv( &h2, &s2, &v2 ); } else { botgrad.hsv( &h1, &s1, &v1 ); topgrad.hsv( &h2, &s2, &v2 ); } if ( ng > 1 ) { for ( int j =0; j < ng; j++ ) { p->setPen( TQColor( h1 + ((h2-h1)*j)/(ng-1), s1 + ((s2-s1)*j)/(ng-1), v1 + ((v2-v1)*j)/(ng-1), TQColor::Hsv ) ); DRAWLINE; } } else if ( ng == 1 ) { p->setPen( TQColor((h1+h2)/2, (s1+s2)/2, (v1+v2)/2, TQColor::Hsv) ); DRAWLINE; } } } void Note::drawExpander(TQPainter *painter, int x, int y, const TQColor &background, bool expand, Basket *basket) { // If the current style is a KStyle, use it to draw the expander (plus or minus): if (dynamic_cast(&(kapp->tqstyle())) != NULL) { // Set the 4 rounded corners background to background color: TQColorGroup cg(basket->tqcolorGroup()); cg.setColor(TQColorGroup::Base, background); // Fill the inside of the expander in white, typically: TQBrush brush(KGlobalSettings::baseColor()); painter->fillRect(x, y, 9, 9, brush); // Draw it: ((KStyle&)(kapp->tqstyle())).drawKStylePrimitive( KStyle::KPE_ListViewExpander, painter, basket->viewport(), TQRect(x, y, 9, 9), cg, (expand ? TQStyle::Style_On : TQStyle::Style_Off) ); // Else, TQStyle does not provide easy way to do so (if it's doable at all...) // So, I'm drawing it myself my immitating Plastik (pretty style)... // After all, the note/group handles are all non-TQStyle aware so that doesn't matter if the expander is a custom one too. } else { int width = EXPANDER_WIDTH; int height = EXPANDER_HEIGHT; const TQColorGroup &cg = basket->tqcolorGroup(); // Fill white area: painter->fillRect(x + 1, y + 1, width - 2, height - 2, cg.base()); // Draw contour lines: painter->setPen(cg.dark()); painter->drawLine(x + 2, y, x + width - 3, y); painter->drawLine(x + 2, y + height - 1, x + width - 3, y + height - 1); painter->drawLine(x, y + 2, x, y + height - 3); painter->drawLine(x + width - 1, y + 2, x + width - 1, y + height - 3); // Draw edge points: painter->drawPoint(x + 1, y + 1); painter->drawPoint(x + width - 2, y + 1); painter->drawPoint(x + 1, y + height - 2); painter->drawPoint(x + width - 2, y + height - 2); // Draw anti-aliased points: painter->setPen(Tools::mixColor(cg.dark(), background)); painter->drawPoint(x + 1, y); painter->drawPoint(x + width - 2, y); painter->drawPoint(x, y + 1); painter->drawPoint(x + width - 1, y + 1); painter->drawPoint(x, y + height - 2); painter->drawPoint(x + width - 1, y + height - 2); painter->drawPoint(x + 1, y + height - 1); painter->drawPoint(x + width - 2, y + height - 1); // Draw plus / minus: painter->setPen(cg.text()); painter->drawLine(x + 2, y + height / 2, x + width - 3, y + height / 2); if (expand) painter->drawLine(x + width / 2, y + 2, x + width / 2, y + height - 3); } } TQColor expanderBackground(int height, int y, const TQColor &foreground) { // We will divide height per two, substract one and use that below a division bar: // To avoid division by zero error, height should be bigger than 3. // And to avoid y errors or if y is on the borders, we return the border color: the background color. if (height <= 3 || y <= 0 || y >= height - 1) return foreground; TQColor dark = foreground.dark(110); // 1/1.1 of brightness TQColor light = foreground.light(150); // 50% brighter int h1, h2, s1, s2, v1, v2; int ng; if (y <= (height-2)/2) { light.hsv( &h1, &s1, &v1 ); dark.hsv( &h2, &s2, &v2 ); ng = (height-2)/2; y -= 1; } else { dark.hsv( &h1, &s1, &v1 ); foreground.hsv( &h2, &s2, &v2 ); ng = (height-2)-(height-2)/2; y -= 1 + (height-2)/2; } return TQColor( h1 + ((h2-h1)*y)/(ng-1), s1 + ((s2-s1)*y)/(ng-1), v1 + ((v2-v1)*y)/(ng-1), TQColor::Hsv ); } void Note::drawHandle(TQPainter *painter, int x, int y, int width, int height, const TQColor &background, const TQColor &foreground) { TQPen backgroundPen(background); TQPen foregroundPen(foreground); TQColor dark = foreground.dark(110); // 1/1.1 of brightness TQColor light = foreground.light(150); // 50% brighter // Draw the surrounding rectangle: painter->setPen(foregroundPen); painter->drawLine(0, 0, width - 1, 0); painter->drawLine(0, 0, 0, height - 1); painter->drawLine(width - 1, 0, width - 1, height - 1); painter->drawLine(0, height - 1, width - 1, height - 1); // Draw the gradients: drawGradient( painter, light, dark, 1 + x, 1 + y, width-2, (height-2)/2, /*sunken=*/false, /*horz=*/true, /*flat=*/false ); drawGradient( painter, dark, foreground, 1 + x, 1 + y + (height-2)/2, width-2, (height-2)-(height-2)/2, /*sunken=*/false, /*horz=*/true, /*flat=*/false ); // Round the top corner with background color: painter->setPen(backgroundPen); painter->drawLine(0, 0, 0, 3); painter->drawLine(1, 0, 3, 0); painter->drawPoint(1, 1); // Round the bottom corner with background color: painter->drawLine(0, height-1, 0, height-4); painter->drawLine(1, height-1, 3, height-1); painter->drawPoint(1, height-2); // Surrounding line of the rounded top-left corner: painter->setPen(foregroundPen); painter->drawLine(1, 2, 1, 3); painter->drawLine(2, 1, 3, 1); // Anti-aliased rounded top corner (1/2): painter->setPen(Tools::mixColor(foreground, background)); painter->drawPoint(0, 3); painter->drawPoint(3, 0); // Anti-aliased rounded bottom corner: painter->drawPoint(0, height - 4); painter->drawPoint(3, height - 1); // Anti-aliased rounded top corner (2/2): painter->setPen(Tools::mixColor(foreground, light)); painter->drawPoint(2, 2); // Draw the grips: int xGrips = 4; int marginedHeight = (height * 80 / 100); // 10% empty on top, and 10% empty on bottom, so 20% of the height should be empty of any grip, and 80% should be in the grips int nbGrips = (marginedHeight - 3) / 6; if (nbGrips < 2) nbGrips = 2; int yGrips = (height + 1 - nbGrips * 6 - 3) / 2; // +1 to avoid rounding errors, -nbGrips*6-3 the size of the grips TQColor darker = foreground.dark(130); TQColor lighter = foreground.light(130); for (int i = 0; i < nbGrips; ++i) { /// Dark color: painter->setPen(darker); // Top-left point: painter->drawPoint(xGrips, yGrips); painter->drawPoint(xGrips + 1, yGrips); painter->drawPoint(xGrips, yGrips + 1); // Bottom-right point: painter->drawPoint(xGrips + 4, yGrips + 3); painter->drawPoint(xGrips + 5, yGrips + 3); painter->drawPoint(xGrips + 4, yGrips + 4); /// Light color: painter->setPen(lighter); // Top-left point: painter->drawPoint(xGrips + 1, yGrips + 1); // Bottom-right point: painter->drawPoint(xGrips + 5, yGrips + 4); yGrips += 6; } // The remaining point: painter->setPen(darker); painter->drawPoint(xGrips, yGrips); painter->drawPoint(xGrips + 1, yGrips); painter->drawPoint(xGrips, yGrips + 1); painter->setPen(lighter); painter->drawPoint(xGrips + 1, yGrips + 1); } void Note::drawResizer(TQPainter *painter, int x, int y, int width, int height, const TQColor &background, const TQColor &foreground, bool rounded) { TQPen backgroundPen(background); TQPen foregroundPen(foreground); TQColor dark = foreground.dark(110); // 1/1.1 of brightness TQColor light = foreground.light(150); // 50% brighter TQColor midLight = foreground.light(105); // 5% brighter // Draw the surrounding rectangle: painter->setPen(foregroundPen); painter->drawRect(0, 0, width, height); // Draw the gradients: drawGradient( painter, light, dark, 1 + x, 1 + y, width-2, (height-2)/2, /*sunken=*/false, /*horz=*/true, /*flat=*/false ); drawGradient( painter, dark, foreground, 1 + x, 1 + y + (height-2)/2, width-2, (height-2)-(height-2)/2, /*sunken=*/false, /*horz=*/true, /*flat=*/false ); if (rounded) { // Round the top corner with background color: painter->setPen(backgroundPen); painter->drawLine(width - 1, 0, width - 3, 0); painter->drawLine(width - 1, 1, width - 1, 2); painter->drawPoint(width - 2, 1); // Round the bottom corner with background color: painter->drawLine(width - 1, height - 1, width - 1, height - 4); painter->drawLine(width - 2, height - 1, width - 4, height - 1); painter->drawPoint(width - 2, height-2); // Surrounding line of the rounded top-left corner: painter->setPen(foregroundPen); painter->drawLine(width-2, 2, width-2, 3); painter->drawLine(width-3, 1, width-4, 1); // Anti-aliased rounded top corner (1/2): painter->setPen(Tools::mixColor(foreground, background)); painter->drawPoint(width - 1, 3); painter->drawPoint(width - 4, 0); // Anti-aliased rounded bottom corner: painter->drawPoint(width - 1, height - 4); painter->drawPoint(width - 4, height - 1); // Anti-aliased rounded top corner (2/2): painter->setPen(Tools::mixColor(foreground, light)); painter->drawPoint(width - 3, 2); } // Draw the arows: int xArrow = 2; int hMargin = 9; int countArrows = (height >= hMargin*4 + 6*3 ? 3 : (height >= hMargin*3 + 6*2 ? 2 : 1)); TQColor darker = foreground.dark(130); TQColor lighter = foreground.light(130); for (int i = 0; i < countArrows; ++i) { int yArrow; switch (countArrows) { default: case 1: yArrow = (height-6) / 2; break; case 2: yArrow = (i == 1 ? hMargin : height - hMargin - 6); break; case 3: yArrow = (i == 1 ? hMargin : (i == 2 ? (height-6) / 2 : height - hMargin - 6)); break; } /// Dark color: painter->setPen(darker); // Left arrow: painter->drawLine(xArrow, yArrow + 2, xArrow + 2, yArrow); painter->drawLine(xArrow, yArrow + 2, xArrow + 2, yArrow + 4); // Right arrow: painter->drawLine(width - 1 - xArrow, yArrow + 2, width - 1 - xArrow - 2, yArrow); painter->drawLine(width - 1 - xArrow, yArrow + 2, width - 1 - xArrow - 2, yArrow + 4); /// Light color: painter->setPen(lighter); // Left arrow: painter->drawLine(xArrow, yArrow + 2 + 1, xArrow + 2, yArrow + 1); painter->drawLine(xArrow, yArrow + 2 + 1, xArrow + 2, yArrow + 4 + 1); // Right arrow: painter->drawLine(width - 1 - xArrow, yArrow + 2 + 1, width - 1 - xArrow - 2, yArrow + 1); painter->drawLine(width - 1 - xArrow, yArrow + 2 + 1, width - 1 - xArrow - 2, yArrow + 4 + 1); } } void Note::drawInactiveResizer(TQPainter *painter, int x, int y, int height, const TQColor &background, bool column) { // If background color is too dark, we compute a lighter color instead of a darker: TQColor darkBgColor = (Tools::tooDark(background) ? background.light(120) : background.dark(105)); if (column) { int halfWidth = RESIZER_WIDTH / 2; drawGradient(painter, darkBgColor, background, x, y, halfWidth, height, /*sunken=*/false, /*horz=*/false, /*flat=*/false); drawGradient(painter, background, darkBgColor, halfWidth, y, RESIZER_WIDTH - halfWidth, height, /*sunken=*/false, /*horz=*/false, /*flat=*/false); } else drawGradient(painter, darkBgColor, background, x, y, RESIZER_WIDTH, height, /*sunken=*/false, /*horz=*/false, /*flat=*/false ); } #include #include /* type: 1: topLeft * 2: bottomLeft * 3: topRight * 4: bottomRight * 5: fourCorners * 6: noteInsideAndOutsideCorners * (x,y) relate to the painter origin * (width,height) only used for 5:fourCorners type */ void Note::drawRoundings(TQPainter *painter, int x, int y, int type, int width, int height) { int right; switch (type) { case 1: x += this->x(); y += this->y(); basket()->blendBackground(*painter, TQRect(x, y, 4, 1), this->x(), this->y()); basket()->blendBackground(*painter, TQRect(x, y + 1, 2, 1), this->x(), this->y()); basket()->blendBackground(*painter, TQRect(x, y + 2, 1, 1), this->x(), this->y()); basket()->blendBackground(*painter, TQRect(x, y + 3, 1, 1), this->x(), this->y()); break; case 2: x += this->x(); y += this->y(); basket()->blendBackground(*painter, TQRect(x, y - 1, 1, 1), this->x(), this->y()); basket()->blendBackground(*painter, TQRect(x, y, 1, 1), this->x(), this->y()); basket()->blendBackground(*painter, TQRect(x, y + 1, 2, 1), this->x(), this->y()); basket()->blendBackground(*painter, TQRect(x, y + 2, 4, 1), this->x(), this->y()); break; case 3: right = rightLimit(); x += right; y += this->y(); basket()->blendBackground(*painter, TQRect(x - 1, y, 4, 1), right, this->y()); basket()->blendBackground(*painter, TQRect(x + 1, y + 1, 2, 1), right, this->y()); basket()->blendBackground(*painter, TQRect(x + 2, y + 2, 1, 1), right, this->y()); basket()->blendBackground(*painter, TQRect(x + 2, y + 3, 1, 1), right, this->y()); break; case 4: right = rightLimit(); x += right; y += this->y(); basket()->blendBackground(*painter, TQRect(x + 2, y - 1, 1, 1), right, this->y()); basket()->blendBackground(*painter, TQRect(x + 2, y, 1, 1), right, this->y()); basket()->blendBackground(*painter, TQRect(x + 1, y + 1, 2, 1), right, this->y()); basket()->blendBackground(*painter, TQRect(x - 1, y + 2, 4, 1), right, this->y()); break; case 5: // First make sure the corners are white (depending on the widget style): painter->setPen(basket()->backgroundColor()); painter->drawPoint(x, y); painter->drawPoint(x + width - 1, y); painter->drawPoint(x + width - 1, y + height - 1); painter->drawPoint(x, y + height - 1); // And then blend corners: x += this->x(); y += this->y(); basket()->blendBackground(*painter, TQRect(x, y, 1, 1), this->x(), this->y()); basket()->blendBackground(*painter, TQRect(x + width - 1, y, 1, 1), this->x(), this->y()); basket()->blendBackground(*painter, TQRect(x + width - 1, y + height - 1, 1, 1), this->x(), this->y()); basket()->blendBackground(*painter, TQRect(x, y + height - 1, 1, 1), this->x(), this->y()); break; case 6: x += this->x(); y += this->y(); //if (!isSelected()) { // Inside left corners: basket()->blendBackground(*painter, TQRect(x + HANDLE_WIDTH + 1, y + 1, 1, 1), this->x(), this->y()); basket()->blendBackground(*painter, TQRect(x + HANDLE_WIDTH, y + 2, 1, 1), this->x(), this->y()); basket()->blendBackground(*painter, TQRect(x + HANDLE_WIDTH + 1, y + height - 2, 1, 1), this->x(), this->y()); basket()->blendBackground(*painter, TQRect(x + HANDLE_WIDTH, y + height - 3, 1, 1), this->x(), this->y()); // Inside right corners: basket()->blendBackground(*painter, TQRect(x + width - 4, y + 1, 1, 1), this->x(), this->y()); basket()->blendBackground(*painter, TQRect(x + width - 3, y + 2, 1, 1), this->x(), this->y()); basket()->blendBackground(*painter, TQRect(x + width - 4, y + height - 2, 1, 1), this->x(), this->y()); basket()->blendBackground(*painter, TQRect(x + width - 3, y + height - 3, 1, 1), this->x(), this->y()); //} // Outside right corners: basket()->blendBackground(*painter, TQRect(x + width - 1, y, 1, 1), this->x(), this->y()); basket()->blendBackground(*painter, TQRect(x + width - 1, y + height - 1, 1, 1), this->x(), this->y()); break; } } /// Blank Spaces Drawing: void Note::setOnTop(bool onTop) { m_onTop = onTop; Note *note = firstChild(); while (note) { note->setOnTop(onTop); note = note->next(); } } void substractRectOnAreas(const TQRect &rectToSubstract, TQValueList &areas, bool andRemove) { for (TQValueList::iterator it = areas.begin(); it != areas.end(); ) { TQRect &rect = *it; // Split the rectangle if it intersects with rectToSubstract: if (rect.intersects(rectToSubstract)) { // Create the top rectangle: if (rectToSubstract.top() > rect.top()) { areas.insert(it, TQRect(rect.left(), rect.top(), rect.width(), rectToSubstract.top() - rect.top())); rect.setTop(rectToSubstract.top()); } // Create the bottom rectangle: if (rectToSubstract.bottom() < rect.bottom()) { areas.insert(it, TQRect(rect.left(), rectToSubstract.bottom() + 1, rect.width(), rect.bottom() - rectToSubstract.bottom())); rect.setBottom(rectToSubstract.bottom()); } // Create the left rectangle: if (rectToSubstract.left() > rect.left()) { areas.insert(it, TQRect(rect.left(), rect.top(), rectToSubstract.left() - rect.left(), rect.height())); rect.setLeft(rectToSubstract.left()); } // Create the right rectangle: if (rectToSubstract.right() < rect.right()) { areas.insert(it, TQRect(rectToSubstract.right() + 1, rect.top(), rect.right() - rectToSubstract.right(), rect.height())); rect.setRight(rectToSubstract.right()); } // Remove the rectangle if it's entirely contained: if (andRemove && rectToSubstract.tqcontains(rect)) it = areas.remove(it); else ++it; } else ++it; } } void Note::recomputeAreas() { // Initialize the areas with the note rectangle(s): m_areas.clear(); m_areas.append(visibleRect()); if (hasResizer()) m_areas.append(resizerRect()); // Cut the areas where other notes are on top of this note: Note *note = basket()->firstNote(); bool noteIsAfterThis = false; while (note) { noteIsAfterThis = recomputeAreas(note, noteIsAfterThis); note = note->next(); } } bool Note::recomputeAreas(Note *note, bool noteIsAfterThis) { if (note == this) noteIsAfterThis = true; // Only compute overlapping of notes AFTER this, or ON TOP this: //else if ( note->matching() && noteIsAfterThis && (!isOnTop() || (isOnTop() && note->isOnTop())) || (!isOnTop() && note->isOnTop()) ) { else if ( note->matching() && noteIsAfterThis && (!(isOnTop() || isEditing()) || ((isOnTop() || isEditing()) && (note->isOnTop() || note->isEditing()))) || (!(isOnTop() || isEditing()) && (note->isOnTop() || note->isEditing())) ) { //if (!(isSelected() && !note->isSelected())) { // FIXME: FIXME: FIXME: FIXME: This last condition was added LATE, so we should look if it's ALWAYS good: substractRectOnAreas(note->visibleRect(), m_areas, true); if (note->hasResizer()) substractRectOnAreas(note->resizerRect(), m_areas, true); //} } if (note->isGroup()) { Note *child = note->firstChild(); bool first = true; while (child) { if ((note->showSubNotes() || first) && note->matching()) noteIsAfterThis = recomputeAreas(child, noteIsAfterThis); child = child->next(); first = false; } } return noteIsAfterThis; } bool Note::isEditing() { return basket()->editedNote() == this; } void Note::getGradientColors(const TQColor &originalBackground, TQColor *colorTop, TQColor *colorBottom) { bool wasTooDark = Tools::tooDark(originalBackground); if (wasTooDark) { *colorTop = originalBackground; *colorBottom = originalBackground.light(120); } else { *colorTop = originalBackground.dark(105); *colorBottom = originalBackground; } } /* Drawing policy: * ============== * - Draw the note on a pixmap and then draw the pixmap on screen is faster and flicker-free, rather than drawing directly on screen * - The next time the pixmap can be directly redrawn on screen without (relatively low, for small texts) time-consuming text-drawing * - To keep memory footprint low, we can destruct the bufferPixmap because redrawing it offscreen and applying it onscreen is nearly as fast as just drawing the pixmap onscreen * - But as drawing the pixmap offscreen is little time consuming we can keep last visible notes buffered and then the redraw of the entire window is INSTANTANEOUS * - We keep bufferized note/group draws BUT NOT the resizer: such objects are small and fast to draw, so we don't complexify code for that */ void Note::draw(TQPainter *painter, const TQRect &clipRect) { if (!matching()) return; /** Paint childs: */ if (isGroup()) { Note *child = firstChild(); bool first = true; while (child) { if ((showSubNotes() || first) && child->matching()) child->draw(painter, clipRect); child = child->next(); first = false; } } TQRect myRect(x(), y(), width(), height()); /** Paint the resizer if needed: */ if (hasResizer()) { int right = rightLimit(); TQRect resizerRect(right, y(), RESIZER_WIDTH, resizerHeight()); if (resizerRect.intersects(clipRect)) { // Prepare to draw the resizer: TQPixmap pixmap(RESIZER_WIDTH, resizerHeight()); TQPainter painter2(&pixmap); // Draw gradient or resizer: if (m_hovered && m_hoveredZone == Resizer) { TQColor baseColor(basket()->backgroundColor()); TQColor highColor(KGlobalSettings::highlightColor()); drawResizer(&painter2, 0, 0, RESIZER_WIDTH, resizerHeight(), baseColor, highColor, /*rounded=*/!isColumn()); if (!isColumn()) { drawRoundings(&painter2, RESIZER_WIDTH - 3, 0, /*type=*/3); drawRoundings(&painter2, RESIZER_WIDTH - 3, resizerHeight() - 3, /*type=*/4); } } else { drawInactiveResizer(&painter2, /*x=*/0, /*y=*/0, /*height=*/resizerHeight(), basket()->backgroundColor(), isColumn()); basket()->blendBackground(painter2, resizerRect); } // Draw inserter: if (basket()->inserterShown() && resizerRect.intersects(basket()->inserterRect())) basket()->drawInserter(painter2, right, y()); // Draw selection rect: if (basket()->isSelecting() && resizerRect.intersects(basket()->selectionRect())) { TQRect selectionRect = basket()->selectionRect(); selectionRect.moveBy(-right, -y()); TQRect selectionRectInside(selectionRect.x() + 1, selectionRect.y() + 1, selectionRect.width() - 2, selectionRect.height() - 2); if (selectionRectInside.width() > 0 && selectionRectInside.height() > 0) { TQColor insideColor = basket()->selectionRectInsideColor(); TQColor darkInsideColor(insideColor.dark(105)); painter2.setClipRect(selectionRectInside); if (isColumn()) { int halfWidth = RESIZER_WIDTH / 2; drawGradient(&painter2, darkInsideColor, insideColor, 0, 0, halfWidth, resizerHeight(), /*sunken=*/false, /*horz=*/false, /*flat=*/false ); drawGradient(&painter2, insideColor, darkInsideColor, halfWidth, 0, RESIZER_WIDTH-halfWidth, resizerHeight(), /*sunken=*/false, /*horz=*/false, /*flat=*/false ); } else drawGradient( &painter2, darkInsideColor, insideColor, 0, 0, RESIZER_WIDTH, resizerHeight(), /*sunken=*/false, /*horz=*/false, /*flat=*/false ); painter2.setClipping(false); selectionRectInside.moveBy(right, y()); basket()->blendBackground(painter2, selectionRectInside, right, y(), false); } painter2.setPen(KGlobalSettings::highlightColor().dark()); painter2.drawRect(selectionRect); painter2.setPen(Tools::mixColor(KGlobalSettings::highlightColor().dark(), basket()->backgroundColor())); painter2.drawPoint(selectionRect.topLeft()); painter2.drawPoint(selectionRect.topRight()); painter2.drawPoint(selectionRect.bottomLeft()); painter2.drawPoint(selectionRect.bottomRight()); } // Draw on screen: painter2.end(); /** Compute visible areas: */ if ( ! m_computedAreas ) recomputeAreas(); if (m_areas.isEmpty()) return; for (TQValueList::iterator it = m_areas.begin(); it != m_areas.end(); ++it) { TQRect &rect = *it; painter->drawPixmap(rect.x(), rect.y(), pixmap, rect.x() - right, rect.y() - y(), rect.width(), rect.height()); } } } /** Then, draw the note/group ONLY if needed: */ if ( ! myRect.intersects(clipRect) ) return; /** Compute visible areas: */ if ( ! m_computedAreas ) recomputeAreas(); if (m_areas.isEmpty()) return; /** Directly draw pixmap on screen if it is already buffered: */ if (isBufferized()) { drawBufferOnScreen(painter, m_bufferedPixmap); return; } /** Initialise buffer painter: */ m_bufferedPixmap.resize(width(), height()); TQPainter painter2(&m_bufferedPixmap); /** Initialise colors: */ TQColor baseColor(basket()->backgroundColor()); TQColor highColor(KGlobalSettings::highlightColor()); TQColor midColor = Tools::mixColor(baseColor, highColor); /** Initialise brushs and pens: */ TQBrush baseBrush(baseColor); TQBrush highBrush(highColor); TQPen basePen(baseColor); TQPen highPen(highColor); TQPen midPen(midColor); /** Figure out the state of the note: */ bool hovered = m_hovered && m_hoveredZone != TopInsert && m_hoveredZone != BottomInsert && m_hoveredZone != Resizer; /** And then draw the group: */ if (isGroup()) { // Draw background or handle: if (hovered) { drawHandle(&painter2, 0, 0, width(), height(), baseColor, highColor); drawRoundings(&painter2, 0, 0, /*type=*/1); drawRoundings(&painter2, 0, height() - 3, /*type=*/2); } else { painter2.fillRect(0, 0, width(), height(), baseBrush); basket()->blendBackground(painter2, myRect, -1, -1, /*opaque=*/true); } // Draw expander: int yExp = yExpander(); drawExpander(&painter2, NOTE_MARGIN, yExp, (hovered ? expanderBackground(height(), yExp+EXPANDER_HEIGHT/2, highColor) : baseColor), m_isFolded, basket()); // Draw expander rounded edges: if (hovered) { TQColor color1 = expanderBackground(height(), yExp, highColor); TQColor color2 = expanderBackground(height(), yExp + EXPANDER_HEIGHT - 1, highColor); painter2.setPen(color1); painter2.drawPoint(NOTE_MARGIN, yExp); painter2.drawPoint(NOTE_MARGIN + 9 - 1, yExp); painter2.setPen(color2); painter2.drawPoint(NOTE_MARGIN, yExp + 9 - 1); painter2.drawPoint(NOTE_MARGIN + 9 - 1, yExp + 9 - 1); } else drawRoundings(&painter2, NOTE_MARGIN, yExp, /*type=*/5, 9, 9); // Draw on screen: painter2.end(); drawBufferOnScreen(painter, m_bufferedPixmap); return; } /** Or draw the note: */ // What are the background colors: TQColor background = basket()->backgroundColor(); if (isSelected()) if (m_computedState.backgroundColor().isValid()) background = Tools::mixColor(Tools::mixColor(m_computedState.backgroundColor(), KGlobalSettings::highlightColor()), KGlobalSettings::highlightColor()); else background = KGlobalSettings::highlightColor(); else if (m_computedState.backgroundColor().isValid()) background = m_computedState.backgroundColor(); TQColor bgColor; TQColor darkBgColor; getGradientColors(background, &darkBgColor, &bgColor); // Draw background (color, gradient and pixmap): drawGradient( &painter2, bgColor, darkBgColor, 0, 0, width(), height(), /*sunken=*/!hovered, /*horz=*/true, /*flat=*/false ); if (!hovered) { painter2.setPen(Tools::mixColor(bgColor, darkBgColor)); painter2.drawLine(0, height() - 1, width(), height() - 1); } basket()->blendBackground(painter2, myRect); if (hovered) { // Top/Bottom lines: painter2.setPen(highPen); painter2.drawLine(0, height() - 1, width(), height() - 1); painter2.drawLine(0, 0, width(), 0); // The handle: drawHandle(&painter2, 0, 0, HANDLE_WIDTH, height(), baseColor, highColor); drawRoundings(&painter2, 0, 0, /*type=*/1); drawRoundings(&painter2, 0, height() - 3, /*type=*/2); // Round handle-right-side border: painter2.setPen(highPen); painter2.drawPoint(HANDLE_WIDTH, 1); painter2.drawPoint(HANDLE_WIDTH, height() - 2); // Light handle top-right round corner: painter2.setPen(TQPen(highColor.light(150))); painter2.drawPoint(HANDLE_WIDTH - 1, 1); // Handle anti-aliased rounded handle-right-side corners: TQColor insideMidColor = Tools::mixColor(bgColor, highColor); painter2.setPen(insideMidColor); // Left inside round corners: painter2.drawPoint(HANDLE_WIDTH + 1, 1); painter2.drawPoint(HANDLE_WIDTH, 2); painter2.drawPoint(HANDLE_WIDTH + 1, height() - 2); painter2.drawPoint(HANDLE_WIDTH, height() - 3); // Right inside round corners: painter2.drawPoint(width() - 4, 1); painter2.drawPoint(width() - 3, 2); painter2.drawPoint(width() - 4, height() - 2); painter2.drawPoint(width() - 3, height() - 3); // Right rounded edge: painter2.setPen(highPen); painter2.fillRect(width() - 2, 0, 2, height(), highBrush); painter2.drawPoint(width() - 3, 1); painter2.drawPoint(width() - 3, height() - 2); // Right anti-aliased rounded edge: painter2.setPen(midPen); painter2.drawPoint(width() - 1, 0); painter2.drawPoint(width() - 1, height() - 1); // Blend background pixmap: drawRoundings(&painter2, 0, 0, /*type=*/6, width(), height()); } if (isFocused()) { TQRect focusRect(HANDLE_WIDTH, NOTE_MARGIN - 1, width() - HANDLE_WIDTH - 2, height() - 2*NOTE_MARGIN + 2); painter2.drawWinFocusRect(focusRect); } // Draw the Emblems: int yIcon = (height() - EMBLEM_SIZE) / 2; int xIcon = HANDLE_WIDTH + NOTE_MARGIN; for (State::List::Iterator it = m_states.begin(); it != m_states.end(); ++it) { if (!(*it)->emblem().isEmpty()) { TQPixmap stateEmblem = kapp->iconLoader()->loadIcon((*it)->emblem(), KIcon::NoGroup, 16, KIcon::DefaultState, 0L, false); painter2.drawPixmap(xIcon, yIcon, stateEmblem); xIcon += NOTE_MARGIN + EMBLEM_SIZE; } } // Determine the colors (for the richText drawing) and the text color (for the tags arrow too): TQColorGroup cg(basket()->tqcolorGroup()); cg.setColor(TQColorGroup::Text, (m_computedState.textColor().isValid() ? m_computedState.textColor() : basket()->textColor()) ); cg.setColor(TQColorGroup::Background, bgColor); if (isSelected()) cg.setColor(TQColorGroup::Text, KGlobalSettings::highlightedTextColor()); // Draw the Tags Arrow: if (hovered) { TQColor textColor = cg.color(TQColorGroup::Text); TQColor light = Tools::mixColor(textColor, bgColor); TQColor mid = Tools::mixColor(textColor, light); painter2.setPen(light);//TQPen(basket()->tqcolorGroup().dark().light(150))); painter2.drawLine(xIcon, yIcon + 6, xIcon + 4, yIcon + 6); painter2.setPen(mid);//TQPen(basket()->tqcolorGroup().dark())); painter2.drawLine(xIcon + 1, yIcon + 7, xIcon + 3, yIcon + 7); painter2.setPen(textColor);//TQPen(basket()->tqcolorGroup().foreground())); painter2.drawPoint(xIcon + 2, yIcon + 8); } else if (m_haveInvisibleTags) { painter2.setPen(cg.color(TQColorGroup::Text)/*TQPen(basket()->tqcolorGroup().foreground())*/); painter2.drawPoint(xIcon, yIcon + 7); painter2.drawPoint(xIcon + 2, yIcon + 7); painter2.drawPoint(xIcon + 4, yIcon + 7); } // Draw content: // Optimization: do not draw text notes because it is time consuming and should be done nearly at each tetx modification. if (basket()->editedNote() != this || basket()->editedNote()->content()->type() != NoteType::Html) { painter2.translate(contentX(), NOTE_MARGIN); painter2.setFont( m_computedState.font(painter2.font()) ); m_content->paint(&painter2, width() - contentX() - NOTE_MARGIN, height() - 2*NOTE_MARGIN, cg, !m_computedState.textColor().isValid(), isSelected(), hovered); } // Draw on screen: painter2.end(); drawBufferOnScreen(painter, m_bufferedPixmap); } void Note::drawBufferOnScreen(TQPainter *painter, const TQPixmap &contentPixmap) { for (TQValueList::iterator it = m_areas.begin(); it != m_areas.end(); ++it) { TQRect &rect = *it; if (rect.x() >= x() + width()) // It's a rect of the resizer, don't draw it! continue; // If the inserter is above the note, draw it, BUT NOT in the buffer pixmap, // we copy the rectangle in a new pixmap, apply the inserter and then draw this new pixmap on screen: if ( (basket()->inserterShown() && rect.intersects(basket()->inserterRect())) || (basket()->isSelecting() && rect.intersects(basket()->selectionRect())) ) { TQPixmap pixmap3(rect.width(), rect.height()); TQPainter painter3(&pixmap3); painter3.drawPixmap(0, 0, contentPixmap, rect.x() - x(), rect.y() - y(), rect.width(), rect.height()); // Draw inserter: if (basket()->inserterShown() && rect.intersects(basket()->inserterRect())) basket()->drawInserter(painter3, rect.x(), rect.y()); // Draw selection rect: if (basket()->isSelecting() && rect.intersects(basket()->selectionRect())) { TQRect selectionRect = basket()->selectionRect(); selectionRect.moveBy(-rect.x(), -rect.y()); TQRect selectionRectInside(selectionRect.x() + 1, selectionRect.y() + 1, selectionRect.width() - 2, selectionRect.height() - 2); if (selectionRectInside.width() > 0 && selectionRectInside.height() > 0) { bufferizeSelectionPixmap(); selectionRectInside.moveBy(rect.x(), rect.y()); TQRect rectToPaint = rect.intersect(selectionRectInside); rectToPaint.moveBy(-x(), -y()); painter3.drawPixmap(rectToPaint.topLeft() + TQPoint(x(), y()) - rect.topLeft(), m_bufferedSelectionPixmap, rectToPaint); //blendBackground(painter2, selectionRectInside, rect.x(), rect.y(), true, &m_selectedBackgroundPixmap); } painter3.setPen(KGlobalSettings::highlightColor().dark()); painter3.drawRect(selectionRect); if (isGroup()) painter3.setPen(Tools::mixColor(KGlobalSettings::highlightColor().dark(), basket()->backgroundColor())); else { // What are the background colors: TQColor bgColor = basket()->backgroundColor(); if (isSelected()) bgColor = (m_computedState.backgroundColor().isValid() ? Tools::mixColor(Tools::mixColor(m_computedState.backgroundColor(), KGlobalSettings::highlightColor()), KGlobalSettings::highlightColor()) : KGlobalSettings::highlightColor()); else if (m_computedState.backgroundColor().isValid()) bgColor = m_computedState.backgroundColor(); painter3.setPen(Tools::mixColor(KGlobalSettings::highlightColor().dark(), bgColor)); } painter3.drawPoint(selectionRect.topLeft()); painter3.drawPoint(selectionRect.topRight()); painter3.drawPoint(selectionRect.bottomLeft()); painter3.drawPoint(selectionRect.bottomRight()); } painter3.end(); painter->drawPixmap(rect.x(), rect.y(), pixmap3); // Else, draw the rect pixmap directly on screen: } else painter->drawPixmap(rect.x(), rect.y(), contentPixmap, rect.x() - x(), rect.y() - y(), rect.width(), rect.height()); } } void Note::setContent(NoteContent *content) { m_content = content; } /*const */State::List& Note::states() const { return (State::List&)m_states; } void Note::addState(State *state, bool orReplace) { if (!content()) return; Tag *tag = state->tqparentTag(); State::List::iterator itStates = m_states.begin(); // Browse all tags, see if the note has it, increment itSates if yes, and then insert the state at this position... // For each existing tags: for (Tag::List::iterator it = Tag::all.begin(); it != Tag::all.end(); ++it) { // If the current tag isn't the one to assign or the current one on the note, go to the next tag: if (*it != tag && itStates != m_states.end() && *it != (*itStates)->tqparentTag()) continue; // We found the tag to insert: if (*it == tag) { // And the note already have the tag: if (itStates != m_states.end() && *it == (*itStates)->tqparentTag()) { // We replace the state if wanted: if (orReplace) { itStates = m_states.insert(itStates, state); ++itStates; m_states.remove(itStates); recomputeStyle(); } } else { m_states.insert(itStates, state); recomputeStyle(); } return; } // The note has this tag: if (itStates != m_states.end() && *it == (*itStates)->tqparentTag()) ++itStates; } } TQFont Note::font() { return m_computedState.font( basket()->TQScrollView::font() ); } TQColor Note::backgroundColor() { if (m_computedState.backgroundColor().isValid()) return m_computedState.backgroundColor(); else return basket()->backgroundColor(); } TQColor Note::textColor() { if (m_computedState.textColor().isValid()) return m_computedState.textColor(); else return basket()->textColor(); } void Note::recomputeStyle() { State::merge(m_states, &m_computedState, &m_emblemsCount, &m_haveInvisibleTags, basket()->backgroundColor()); // unsetWidth(); if (content()) content()->fontChanged(); // requestRetqlayout(); // TODO! } void Note::recomputeAllStyles() { if (content()) // We do the merge ourself, without calling recomputeStyle(), so there is no infinite recursion: //State::merge(m_states, &m_computedState, &m_emblemsCount, &m_haveInvisibleTags, basket()->backgroundColor()); recomputeStyle(); else if (isGroup()) FOR_EACH_CHILD (child) child->recomputeAllStyles(); } bool Note::removedStates(const TQValueList &deletedStates) { bool modifiedBasket = false; if (!states().isEmpty()) { for (TQValueList::const_iterator it = deletedStates.begin(); it != deletedStates.end(); ++it) if (hasState(*it)) { removeState(*it); modifiedBasket = true; } } FOR_EACH_CHILD (child) if (child->removedStates(deletedStates)) modifiedBasket = true; return modifiedBasket; } void Note::addTag(Tag *tag) { addState(tag->states().first(), /*but do not tqreplace:*/false); } void Note::removeState(State *state) { for (State::List::iterator it = m_states.begin(); it != m_states.end(); ++it) if (*it == state) { m_states.remove(it); recomputeStyle(); return; } } void Note::removeTag(Tag *tag) { for (State::List::iterator it = m_states.begin(); it != m_states.end(); ++it) if ((*it)->tqparentTag() == tag) { m_states.remove(it); recomputeStyle(); return; } } void Note::removeAllTags() { m_states.clear(); recomputeStyle(); } void Note::addTagToSelectedNotes(Tag *tag) { if (content() && isSelected()) addTag(tag); FOR_EACH_CHILD (child) child->addTagToSelectedNotes(tag); } void Note::removeTagFromSelectedNotes(Tag *tag) { if (content() && isSelected()) { if (hasTag(tag)) setWidth(0); removeTag(tag); } FOR_EACH_CHILD (child) child->removeTagFromSelectedNotes(tag); } void Note::removeAllTagsFromSelectedNotes() { if (content() && isSelected()) { if (m_states.count() > 0) setWidth(0); removeAllTags(); } FOR_EACH_CHILD (child) child->removeAllTagsFromSelectedNotes(); } void Note::addStateToSelectedNotes(State *state, bool orReplace) { if (content() && isSelected()) addState(state, orReplace); FOR_EACH_CHILD (child) child->addStateToSelectedNotes(state, orReplace); // TODO: Basket::addStateToSelectedNotes() does not have orReplace } void Note::changeStateOfSelectedNotes(State *state) { if (content() && isSelected() && hasTag(state->tqparentTag())) addState(state); FOR_EACH_CHILD (child) child->changeStateOfSelectedNotes(state); } bool Note::selectedNotesHaveTags() { if (content() && isSelected() && m_states.count() > 0) return true; FOR_EACH_CHILD (child) if (child->selectedNotesHaveTags()) return true; return false; } bool Note::hasState(State *state) { for (State::List::iterator it = m_states.begin(); it != m_states.end(); ++it) if (*it == state) return true; return false; } bool Note::hasTag(Tag *tag) { for (State::List::iterator it = m_states.begin(); it != m_states.end(); ++it) if ((*it)->tqparentTag() == tag) return true; return false; } State* Note::stateOfTag(Tag *tag) { for (State::List::iterator it = m_states.begin(); it != m_states.end(); ++it) if ((*it)->tqparentTag() == tag) return *it; return 0; } State* Note::stateForEmblemNumber(int number) { int i = -1; for (State::List::Iterator it = m_states.begin(); it != m_states.end(); ++it) if (!(*it)->emblem().isEmpty()) { ++i; if (i == number) return *it; } return 0; } bool Note::stateForTagFromSelectedNotes(Tag *tag, State **state) { if (content() && isSelected()) { // What state is the tag on this note? State* stateOfTag = this->stateOfTag(tag); // This tag is not assigned to this note, the action will assign it, then: if (stateOfTag == 0) *state = 0; else { // Take the LOWEST state of all the selected notes: // Say the two selected notes have the state "Done" and "To Do". // The first note set *state to "Done". // When reaching the second note, we should recognize "To Do" is first in the tag states, then take it // Because pressing the tag shortcut key should first change state before removing the tag! if (*state == 0) *state = stateOfTag; else { bool stateIsFirst = true; for (State *nextState = stateOfTag->nextState(); nextState; nextState = nextState->nextState(/*cycle=*/false)) if (nextState == *state) stateIsFirst = false; if (!stateIsFirst) *state = stateOfTag; } } return true; // We encountered a selected note } bool encounteredSelectedNote = false; FOR_EACH_CHILD (child) { bool encountered = child->stateForTagFromSelectedNotes(tag, state); if (encountered && *state == 0) return true; if (encountered) encounteredSelectedNote = true; } return encounteredSelectedNote; } void Note::inheritTagsOf(Note *note) { if (!note || !content()) return; for (State::List::iterator it = note->states().begin(); it != note->states().end(); ++it) if ((*it)->tqparentTag() && (*it)->tqparentTag()->inheritedBySiblings()) addTag((*it)->tqparentTag()); } void Note::unbufferizeAll() { unbufferize(); if (isGroup()) { Note *child = firstChild(); while (child) { child->unbufferizeAll(); child = child->next(); } } } void Note::bufferizeSelectionPixmap() { if (m_bufferedSelectionPixmap.isNull()) { TQColor insideColor = KGlobalSettings::highlightColor(); KPixmap kpixmap(m_bufferedPixmap); m_bufferedSelectionPixmap = KPixmapEffect::fade(kpixmap, 0.25, insideColor); } } TQRect Note::visibleRect() { TQValueList areas; areas.append(rect()); // When we are folding a tqparent group, if this note is bigger than the first real note of the group, cut the top of this: Note *tqparent = tqparentNote(); while (tqparent) { if (tqparent->expandingOrCollapsing()) substractRectOnAreas(TQRect(x(), tqparent->y() - height(), width(), height()), areas, true); tqparent = tqparent->tqparentNote(); } if (areas.count() > 0) return areas[0]; else return TQRect(); } void Note::recomputeBlankRects(TQValueList &blankAreas) { if (!matching()) return; // visibleRect() instead of rect() because if we are folding/expanding a smaller tqparent group, then some part is hidden! // But anyway, a resizer is always a primary note and is never hidden by a tqparent group, so no visibleResizerRect() method! substractRectOnAreas(visibleRect(), blankAreas, true); if (hasResizer()) substractRectOnAreas(resizerRect(), blankAreas, true); if (isGroup()) { Note *child = firstChild(); bool first = true; while (child) { if ((showSubNotes() || first) && child->matching()) child->recomputeBlankRects(blankAreas); child = child->next(); first = false; } } } void Note::linkLookChanged() { if (isGroup()) { Note *child = firstChild(); while (child) { child->linkLookChanged(); child = child->next(); } } else content()->linkLookChanged(); } Note* Note::noteForFullPath(const TQString &path) { if (content() && fullPath() == path) return this; Note *child = firstChild(); Note *found; while (child) { found = child->noteForFullPath(path); if (found) return found; child = child->next(); } return 0; } void Note::listUsedTags(TQValueList &list) { for (State::List::Iterator it = m_states.begin(); it != m_states.end(); ++it) { Tag *tag = (*it)->tqparentTag(); if (!list.tqcontains(tag)) list.append(tag); } FOR_EACH_CHILD (child) child->listUsedTags(list); } void Note::usedStates(TQValueList &states) { if (content()) for (State::List::Iterator it = m_states.begin(); it != m_states.end(); ++it) if (!states.tqcontains(*it)) states.append(*it); FOR_EACH_CHILD (child) child->usedStates(states); } Note* Note::nextInStack() { // First, search in the childs: if (firstChild()) if (firstChild()->content()) return firstChild(); else return firstChild()->nextInStack(); // Then, in the next: if (next()) if (next()->content()) return next(); else return next()->nextInStack(); // And finally, in the tqparent: Note *note = tqparentNote(); while (note) if (note->next()) if (note->next()->content()) return note->next(); else return note->next()->nextInStack(); else note = note->tqparentNote(); // Not found: return 0; } Note* Note::prevInStack() { // First, search in the previous: if (prev() && prev()->content()) return prev(); // Else, it's a group, get the last item in that group: if (prev()) { Note *note = prev()->lastRealChild(); if (note) return note; } if (tqparentNote()) return tqparentNote()->prevInStack(); else return 0; } Note* Note::nextShownInStack() { Note *next = nextInStack(); while (next && !next->isShown()) next = next->nextInStack(); return next; } Note* Note::prevShownInStack() { Note *prev = prevInStack(); while (prev && !prev->isShown()) prev = prev->prevInStack(); return prev; } bool Note::isShown() { // First, the easy one: groups are always shown: if (isGroup()) return true; // And another easy part: non-matching notes are hidden: if (!matching()) return false; if (basket()->isFiltering()) // And isMatching() because of the line above! return true; // So, here we go to the complexe case: if the note is inside a collapsed group: Note *group = tqparentNote(); Note *child = this; while (group) { if (group->isFolded() && group->firstChild() != child) return false; child = group; group = group->tqparentNote(); } return true; } void Note::debug() { std::cout << "Note@" << (TQ_UINT64)this; if (!this) { std::cout << std::endl; return; } if (isColumn()) std::cout << ": Column"; else if (isGroup()) std::cout << ": Group"; else std::cout << ": Content[" << content()->lowerTypeName() << "]: " << toText(""); std::cout << std::endl; } Note* Note::firstSelected() { if (isSelected()) return this; Note *first = 0; FOR_EACH_CHILD (child) { first = child->firstSelected(); if (first) break; } return first; } Note* Note::lastSelected() { if (isSelected()) return this; Note *last = 0, *tmp = 0; FOR_EACH_CHILD (child) { tmp = child->lastSelected(); if (tmp) last = tmp; } return last; } Note* Note::selectedGroup() { if (isGroup() && allSelected() && count() == basket()->countSelecteds()) return this; FOR_EACH_CHILD (child) { Note *selectedGroup = child->selectedGroup(); if (selectedGroup) return selectedGroup; } return 0; } void Note::groupIn(Note *group) { if (this == group) return; if (allSelected() && !isColumn()) { basket()->unplugNote(this); basket()->insertNote(this, group, Note::BottomColumn, TQPoint(), /*animateNewPosition=*/true); } else { Note *next; Note *child = firstChild(); while (child) { next = child->next(); child->groupIn(group); child = next; } } } bool Note::tryExpandParent() { Note *tqparent = tqparentNote(); Note *child = this; while (tqparent) { if (tqparent->firstChild() != child) return false; if (tqparent->isColumn()) return false; if (tqparent->isFolded()) { tqparent->toggleFolded(true); basket()->retqlayoutNotes(true); return true; } child = tqparent; tqparent = tqparent->tqparentNote(); } return false; } bool Note::tryFoldParent() // TODO: withCtrl ? withShift ? { Note *tqparent = tqparentNote(); Note *child = this; while (tqparent) { if (tqparent->firstChild() != child) return false; if (tqparent->isColumn()) return false; if (!tqparent->isFolded()) { tqparent->toggleFolded(true); basket()->retqlayoutNotes(true); return true; } child = tqparent; tqparent = tqparent->tqparentNote(); } return false; } int Note::distanceOnLeftRight(Note *note, int side) { if (side == Basket::RIGHT_SIDE) { // If 'note' is on left of 'this': cannot switch from this to note by pressing Right key: if (finalX() > note->finalX() || finalRightLimit() > note->finalRightLimit()) return -1; } else /*LEFT_SIDE:*/ { // If 'note' is on left of 'this': cannot switch from this to note by pressing Right key: if (finalX() < note->finalX() || finalRightLimit() < note->finalRightLimit()) return -1; } if (finalX() == note->finalX() && finalRightLimit() == note->finalRightLimit()) return -1; float thisCenterX = finalX() + (side == Basket::LEFT_SIDE ? width() : /*RIGHT_SIDE:*/ 0); float thisCenterY = finalY() + finalHeight() / 2; float noteCenterX = note->finalX() + note->width() / 2; float noteCenterY = note->finalY() + note->finalHeight() / 2; if (thisCenterY > note->finalBottom()) noteCenterY = note->finalBottom(); else if (thisCenterY < note->finalY()) noteCenterY = note->finalY(); else noteCenterY = thisCenterY; float angle = 0; if (noteCenterX - thisCenterX != 0) angle = 1000 * ((noteCenterY - thisCenterY) / (noteCenterX - thisCenterX)); if (angle < 0) angle = -angle; return int(sqrt(pow(noteCenterX - thisCenterX, 2) + pow(noteCenterY - thisCenterY, 2)) + angle); } int Note::distanceOnTopBottom(Note *note, int side) { if (side == Basket::BOTTOM_SIDE) { // If 'note' is on left of 'this': cannot switch from this to note by pressing Right key: if (finalY() > note->finalY() || finalBottom() > note->finalBottom()) return -1; } else /*TOP_SIDE:*/ { // If 'note' is on left of 'this': cannot switch from this to note by pressing Right key: if (finalY() < note->finalY() || finalBottom() < note->finalBottom()) return -1; } if (finalY() == note->finalY() && finalBottom() == note->finalBottom()) return -1; float thisCenterX = finalX() + width() / 2; float thisCenterY = finalY() + (side == Basket::TOP_SIDE ? finalHeight() : /*BOTTOM_SIDE:*/ 0); float noteCenterX = note->finalX() + note->width() / 2; float noteCenterY = note->finalY() + note->finalHeight() / 2; if (thisCenterX > note->finalRightLimit()) noteCenterX = note->finalRightLimit(); else if (thisCenterX < note->finalX()) noteCenterX = note->finalX(); else noteCenterX = thisCenterX; float angle = 0; if (noteCenterX - thisCenterX != 0) angle = 1000 * ((noteCenterY - thisCenterY) / (noteCenterX - thisCenterX)); if (angle < 0) angle = -angle; return int(sqrt(pow(noteCenterX - thisCenterX, 2) + pow(noteCenterY - thisCenterY, 2)) + angle); } Note* Note::tqparentPrimaryNote() { Note *primary = this; while (primary->tqparentNote()) primary = primary->tqparentNote(); return primary; } void Note::deleteChilds() { Note *child = firstChild(); while (child) { Note *tmp = child->next(); delete child; child = tmp; } } bool Note::saveAgain() { if(content()) { if(!content()->saveToFile()) return false; } FOR_EACH_CHILD (child) { if(!child->saveAgain()) return false; } return true; } bool Note::convertTexts() { bool convertedNotes = false; if (content() && content()->lowerTypeName() == "text") { TQString text = ((TextContent*)content())->text(); TQString html = "" + Tools::textToHTMLWithoutP(text) + ""; basket()->saveToFile(fullPath(), html, /*isLocalEncoding=*/true); setContent( new HtmlContent(this, content()->fileName()) ); convertedNotes = true; } FOR_EACH_CHILD (child) if (child->convertTexts()) convertedNotes = true; return convertedNotes; } #if 0 /** Note */ TQString Note::toHtml(const TQString &imageName) { switch (m_type) { case Text: /*return "" + Tools::textToHTMLWithoutP(text()) + "";*/ return Tools::textToHTMLWithoutP(text()); case Html: return Tools::htmlToParagraph(html()); case Image: case Animation: { if ( (m_type == Image && pixmap() == 0L) || (m_type == Animation && movie() == 0L) ) { TQMimeSourceFactory::defaultFactory()->setData(imageName, 0L); return i18n("(Image)"); // Image or animation not yet loaded!! } TQImage image; if (m_type == Image) image = pixmap()->convertToImage(); else image = movie()->framePixmap().convertToImage(); image = image.smoothScale(200, 150, TQ_ScaleMin); TQPixmap pixmap = TQPixmap(image); TQMimeSourceFactory::defaultFactory()->setPixmap(imageName, pixmap); return ""; /// /* // FIXME: movie isn't loaded yet: CRASH! return i18n("(Image)"); // Not executed, because don't work: TQImage image; if (m_type == Image) image = pixmap()->convertToImage(); else image = movie()->framePixmap().convertToImage(); image = image.smoothScale(200, 150, TQ_ScaleMin); TQPixmap pixmap = TQPixmap(image); TQMimeSourceFactory::defaultFactory()->setPixmap(imageName, pixmap); return ""; /// */ //TODO?: TQMimeSourceFactory::defaultFactory()->setData(imageName, 0L); } case Sound: case File: { /// FIXME: Since fullPath() doesn't exist yet, the icon rely on the extension. /// Bad if there isn't one or if it's a wrong one. /*TQPixmap icon = DesktopIcon( NoteFactory::iconForURL(fullPath()), (m_type == Sound ? LinkLook::soundLook : LinkLook::fileLook)->iconSize()); TQMimeSourceFactory::defaultFactory()->setPixmap(imageName, icon); return " " + fileName(); */ /// return m_linkLabel->toHtml(imageName); } case Link: { TQString link = m_linkLabel->toHtml(imageName); if (!autoTitle() && title() != NoteFactory::titleForURL(url().prettyURL())) link += "
" + url().prettyURL() + ""; /// return link; } case Launcher: { return m_linkLabel->toHtml(imageName); //KService service(fullPath()); // service.icon() //return service.name() + "
" + service.exec() + ""; /// } case Color: return "" + color().name() + ""; case Unknown: return text(); } return TQString(); } #endif // #if 0