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tdeaddons/konq-plugins/fsview/treemap.cpp

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/* This file is part of KCachegrind.
Copyright (C) 2002, 2003 Josef Weidendorfer <Josef.Weidendorfer@gmx.de>
KCachegrind 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, version 2.
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; see the file COPYING. If not, write to
the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
Boston, MA 02110-1301, USA.
*/
/*
* A Widget for visualizing hierarchical metrics as areas.
* The API is similar to TQListView.
*/
#include <math.h>
#include <tqpainter.h>
#include <tqtooltip.h>
#include <tqregexp.h>
#include <tqstyle.h>
#include <tqpopupmenu.h>
#include <klocale.h>
#include <tdeconfig.h>
#include <kdebug.h>
#include "treemap.h"
// set this to 1 to enable debug output
#define DEBUG_DRAWING 0
#define MAX_FIELD 12
//
// StoredDrawParams
//
StoredDrawParams::StoredDrawParams()
{
_selected = false;
_current = false;
_shaded = true;
_rotated = false;
_backColor = TQt::white;
// field array has size 0
}
StoredDrawParams::StoredDrawParams(TQColor c,
bool selected, bool current)
{
_backColor = c;
_selected = selected;
_current = current;
_shaded = true;
_rotated = false;
// field array has size 0
}
TQString StoredDrawParams::text(int f) const
{
if ((f<0) || (f >= (int)_field.size()))
return TQString();
return _field[f].text;
}
TQPixmap StoredDrawParams::pixmap(int f) const
{
if ((f<0) || (f >= (int)_field.size()))
return TQPixmap();
return _field[f].pix;
}
DrawParams::Position StoredDrawParams::position(int f) const
{
if ((f<0) || (f >= (int)_field.size()))
return Default;
return _field[f].pos;
}
int StoredDrawParams::maxLines(int f) const
{
if ((f<0) || (f >= (int)_field.size()))
return 0;
return _field[f].maxLines;
}
const TQFont& StoredDrawParams::font() const
{
static TQFont* f = 0;
if (!f) f = new TQFont(TQApplication::font());
return *f;
}
void StoredDrawParams::ensureField(int f)
{
static Field* def = 0;
if (!def) {
def = new Field();
def->pos = Default;
def->maxLines = 0;
}
if (f<0 || f>=MAX_FIELD) return;
if ((int)_field.size() < f+1) _field.resize(f+1, *def);
}
void StoredDrawParams::setField(int f, const TQString& t, TQPixmap pm,
Position p, int maxLines)
{
if (f<0 || f>=MAX_FIELD) return;
ensureField(f);
_field[f].text = t;
_field[f].pix = pm;
_field[f].pos = p;
_field[f].maxLines = maxLines;
}
void StoredDrawParams::setText(int f, const TQString& t)
{
if (f<0 || f>=MAX_FIELD) return;
ensureField(f);
_field[f].text = t;
}
void StoredDrawParams::setPixmap(int f, const TQPixmap& pm)
{
if (f<0 || f>=MAX_FIELD) return;
ensureField(f);
_field[f].pix = pm;
}
void StoredDrawParams::setPosition(int f, Position p)
{
if (f<0 || f>=MAX_FIELD) return;
ensureField(f);
_field[f].pos = p;
}
void StoredDrawParams::setMaxLines(int f, int m)
{
if (f<0 || f>=MAX_FIELD) return;
ensureField(f);
_field[f].maxLines = m;
}
//
// RectDrawing
//
RectDrawing::RectDrawing(TQRect r)
{
_fm = 0;
_dp = 0;
setRect(r);
}
RectDrawing::~RectDrawing()
{
delete _fm;
delete _dp;
}
DrawParams* RectDrawing::drawParams()
{
if (!_dp)
_dp = new StoredDrawParams();
return _dp;
}
void RectDrawing::setDrawParams(DrawParams* dp)
{
if (_dp) delete _dp;
_dp = dp;
}
void RectDrawing::setRect(TQRect r)
{
_rect = r;
_usedTopLeft = 0;
_usedTopCenter = 0;
_usedTopRight = 0;
_usedBottomLeft = 0;
_usedBottomCenter = 0;
_usedBottomRight = 0;
_fontHeight = 0;
}
TQRect RectDrawing::remainingRect(DrawParams* dp)
{
if (!dp) dp = drawParams();
if ((_usedTopLeft >0) ||
(_usedTopCenter >0) ||
(_usedTopRight >0)) {
if (dp->rotated())
_rect.setLeft(_rect.left() + _fontHeight);
else
_rect.setTop(_rect.top() + _fontHeight);
}
if ((_usedBottomLeft >0) ||
(_usedBottomCenter >0) ||
(_usedBottomRight >0)) {
if (dp->rotated())
_rect.setRight(_rect.right() - _fontHeight);
else
_rect.setBottom(_rect.bottom() - _fontHeight);
}
return _rect;
}
void RectDrawing::drawBack(TQPainter* p, DrawParams* dp)
{
if (!dp) dp = drawParams();
if (_rect.width()<=0 || _rect.height()<=0) return;
TQRect r = _rect;
TQColor normal = dp->backColor();
if (dp->selected()) normal = normal.light();
bool isCurrent = dp->current();
// 3D raised/sunken frame effect...
TQColor high = normal.light();
TQColor low = normal.dark();
p->setPen( isCurrent ? low:high);
p->drawLine(r.left(), r.top(), r.right(), r.top());
p->drawLine(r.left(), r.top(), r.left(), r.bottom());
p->setPen( isCurrent ? high:low);
p->drawLine(r.right(), r.top(), r.right(), r.bottom());
p->drawLine(r.left(), r.bottom(), r.right(), r.bottom());
r.setRect(r.x()+1, r.y()+1, r.width()-2, r.height()-2);
if (r.width()<=0 || r.height()<=0) return;
if (dp->shaded()) {
// some shading
bool goDark = tqGray(normal.rgb())>128;
int rBase, gBase, bBase;
normal.rgb(&rBase, &gBase, &bBase);
p->setBrush(TQBrush::NoBrush);
// shade parameters:
int d = 7;
float factor = 0.1, forth=0.7, back1 =0.9, toBack2 = .7, back2 = 0.97;
// coefficient corrections because of rectangle size
int s = r.width();
if (s > r.height()) s = r.height();
if (s<100) {
forth -= .3 * (100-s)/100;
back1 -= .2 * (100-s)/100;
back2 -= .02 * (100-s)/100;
}
// maximal color difference
int rDiff = goDark ? -rBase/d : (255-rBase)/d;
int gDiff = goDark ? -gBase/d : (255-gBase)/d;
int bDiff = goDark ? -bBase/d : (255-bBase)/d;
TQColor shadeColor;
while (factor<.95) {
shadeColor.setRgb((int)(rBase+factor*rDiff+.5),
(int)(gBase+factor*gDiff+.5),
(int)(bBase+factor*bDiff+.5));
p->setPen(shadeColor);
p->drawRect(r);
r.setRect(r.x()+1, r.y()+1, r.width()-2, r.height()-2);
if (r.width()<=0 || r.height()<=0) return;
factor = 1.0 - ((1.0 - factor) * forth);
}
// and back (1st half)
while (factor>toBack2) {
shadeColor.setRgb((int)(rBase+factor*rDiff+.5),
(int)(gBase+factor*gDiff+.5),
(int)(bBase+factor*bDiff+.5));
p->setPen(shadeColor);
p->drawRect(r);
r.setRect(r.x()+1, r.y()+1, r.width()-2, r.height()-2);
if (r.width()<=0 || r.height()<=0) return;
factor = 1.0 - ((1.0 - factor) / back1);
}
// and back (2nd half)
while ( factor>.01) {
shadeColor.setRgb((int)(rBase+factor*rDiff+.5),
(int)(gBase+factor*gDiff+.5),
(int)(bBase+factor*bDiff+.5));
p->setPen(shadeColor);
p->drawRect(r);
r.setRect(r.x()+1, r.y()+1, r.width()-2, r.height()-2);
if (r.width()<=0 || r.height()<=0) return;
factor = factor * back2;
}
}
// fill inside
p->setPen(TQPen::NoPen);
p->setBrush(normal);
p->drawRect(r);
}
bool RectDrawing::drawField(TQPainter* p, int f, DrawParams* dp)
{
if (!dp) dp = drawParams();
if (!_fm) {
_fm = new TQFontMetrics(dp->font());
_fontHeight = _fm->height();
}
TQRect r = _rect;
if (0) kdDebug(90100) << "DrawField: Rect " << r.x() << "/" << r.y()
<< " - " << r.width() << "x" << r.height() << endl;
int h = _fontHeight;
bool rotate = dp->rotated();
int width = (rotate ? r.height() : r.width()) -4;
int height = (rotate ? r.width() : r.height());
int lines = height / h;
// stop if we have no space available
if (lines<1) return false;
// calculate free space in first line (<unused>)
int pos = dp->position(f);
if (pos == DrawParams::Default) {
switch(f%4) {
case 0: pos = DrawParams::TopLeft; break;
case 1: pos = DrawParams::TopRight; break;
case 2: pos = DrawParams::BottomRight; break;
case 3: pos = DrawParams::BottomLeft; break;
}
}
int unused = 0;
bool isBottom = false;
bool isCenter = false;
bool isRight = false;
int* used = 0;
switch(pos) {
case DrawParams::TopLeft:
used = &_usedTopLeft;
if (_usedTopLeft == 0) {
if (_usedTopCenter)
unused = (width - _usedTopCenter)/2;
else
unused = width - _usedTopRight;
}
break;
case DrawParams::TopCenter:
isCenter = true;
used = &_usedTopCenter;
if (_usedTopCenter == 0) {
if (_usedTopLeft > _usedTopRight)
unused = width - 2 * _usedTopLeft;
else
unused = width - 2 * _usedTopRight;
}
break;
case DrawParams::TopRight:
isRight = true;
used = &_usedTopRight;
if (_usedTopRight == 0) {
if (_usedTopCenter)
unused = (width - _usedTopCenter)/2;
else
unused = width - _usedTopLeft;
}
break;
case DrawParams::BottomLeft:
isBottom = true;
used = &_usedBottomLeft;
if (_usedBottomLeft == 0) {
if (_usedBottomCenter)
unused = (width - _usedBottomCenter)/2;
else
unused = width - _usedBottomRight;
}
break;
case DrawParams::BottomCenter:
isCenter = true;
isBottom = true;
used = &_usedBottomCenter;
if (_usedBottomCenter == 0) {
if (_usedBottomLeft > _usedBottomRight)
unused = width - 2 * _usedBottomLeft;
else
unused = width - 2 * _usedBottomRight;
}
break;
case DrawParams::BottomRight:
isRight = true;
isBottom = true;
used = &_usedBottomRight;
if (_usedBottomRight == 0) {
if (_usedBottomCenter)
unused = (width - _usedBottomCenter)/2;
else
unused = width - _usedBottomLeft;
}
break;
}
if (isBottom) {
if ((_usedTopLeft >0) ||
(_usedTopCenter >0) ||
(_usedTopRight >0))
lines--;
}
else if (!isBottom) {
if ((_usedBottomLeft >0) ||
(_usedBottomCenter >0) ||
(_usedBottomRight >0))
lines--;
}
if (lines<1) return false;
int y = isBottom ? height - h : 0;
if (unused < 0) unused = 0;
if (unused == 0) {
// no space available in last line at this position
y = isBottom ? (y-h) : (y+h);
lines--;
if (lines<1) return false;
// new line: reset used space
if (isBottom)
_usedBottomLeft = _usedBottomCenter = _usedBottomRight = 0;
else
_usedTopLeft = _usedTopCenter = _usedTopRight = 0;
unused = width;
}
// stop as soon as possible when there's no space for "..."
static int dotW = 0;
if (!dotW) dotW = _fm->width("...");
if (width < dotW) return false;
// get text and pixmap now, only if we need to, because it is possible
// that they are calculated on demand (and this can take some time)
TQString name = dp->text(f);
if (name.isEmpty()) return 0;
TQPixmap pix = dp->pixmap(f);
// check if pixmap can be drawn
int pixW = pix.width();
int pixH = pix.height();
int pixY = 0;
bool pixDrawn = true;
if (pixW>0) {
pixW += 2; // X distance from pix
if ((width < pixW + dotW) || (height < pixH)) {
// don't draw
pixW = 0;
}
else
pixDrawn = false;
}
// width of text and pixmap to be drawn
int w = pixW + _fm->width(name);
if (0) kdDebug(90100) << " For '" << name << "': Unused " << unused
<< ", StrW " << w << ", Width " << width << endl;
// if we have limited space at 1st line:
// use it only if whole name does fit in last line...
if ((unused < width) && (w > unused)) {
y = isBottom ? (y-h) : (y+h);
lines--;
if (lines<1) return false;
// new line: reset used space
if (isBottom)
_usedBottomLeft = _usedBottomCenter = _usedBottomRight = 0;
else
_usedTopLeft = _usedTopCenter = _usedTopRight = 0;
}
p->save();
p->setPen( (tqGray(dp->backColor().rgb())>100) ? TQt::black : TQt::white);
p->setFont(dp->font());
if (rotate) {
//p->translate(r.x()+2, r.y()+r.height());
p->translate(r.x(), r.y()+r.height()-2);
p->rotate(270);
}
else
p->translate(r.x()+2, r.y());
// adjust available lines according to maxLines
int max = dp->maxLines(f);
if ((max > 0) && (lines>max)) lines = max;
/* loop over name parts to break up string depending on available width.
* every char category change is supposed a possible break,
* with the exception Uppercase=>Lowercase.
* It's good enough for numbers, Symbols...
*
* If the text is to be written at the bottom, we start with the
* end of the string (so everything is reverted)
*/
TQString remaining;
int origLines = lines;
while (lines>0) {
if (w>width && lines>1) {
int lastBreakPos = name.length(), lastWidth = w;
int len = name.length();
TQChar::Category caOld, ca;
if (!isBottom) {
// start with comparing categories of last 2 chars
caOld = name[len-1].category();
while (len>2) {
len--;
ca = name[len-1].category();
if (ca != caOld) {
// "Aa" has no break between...
if (ca == TQChar::Letter_Uppercase &&
caOld == TQChar::Letter_Lowercase) {
caOld = ca;
continue;
}
caOld = ca;
lastBreakPos = len;
w = pixW + _fm->width(name, len);
lastWidth = w;
if (w <= width) break;
}
}
w = lastWidth;
remaining = name.mid(lastBreakPos);
// remove space on break point
if (name[lastBreakPos-1].category() == TQChar::Separator_Space)
name = name.left(lastBreakPos-1);
else
name = name.left(lastBreakPos);
}
else { // bottom
int l = len;
caOld = name[l-len].category();
while (len>2) {
len--;
ca = name[l-len].category();
if (ca != caOld) {
// "Aa" has no break between...
if (caOld == TQChar::Letter_Uppercase &&
ca == TQChar::Letter_Lowercase) {
caOld = ca;
continue;
}
caOld = ca;
lastBreakPos = len;
w = pixW + _fm->width(name.right(len));
lastWidth = w;
if (w <= width) break;
}
}
w = lastWidth;
remaining = name.left(l-lastBreakPos);
// remove space on break point
if (name[l-lastBreakPos].category() == TQChar::Separator_Space)
name = name.right(lastBreakPos-1);
else
name = name.right(lastBreakPos);
}
}
else
remaining = TQString();
/* truncate and add ... if needed */
if (w>width) {
int len = name.length();
w += dotW;
while (len>2 && (w > width)) {
len--;
w = pixW + _fm->width(name, len) + dotW;
}
// stop drawing: we cannot draw 2 chars + "..."
if (w>width) break;
name = name.left(len) + "...";
}
int x = 0;
if (isCenter)
x = (width - w)/2;
else if (isRight)
x = width - w;
if (!pixDrawn) {
pixY = y+(h-pixH)/2; // default: center vertically
if (pixH > h) pixY = isBottom ? y-(pixH-h) : y;
p->drawPixmap( x, pixY, pix);
// for distance to next text
pixY = isBottom ? (pixY - h - 2) : (pixY + pixH + 2);
pixDrawn = true;
}
if (0) kdDebug(90100) << " Drawing '" << name << "' at "
<< x+pixW << "/" << y << endl;
p->drawText( x+pixW, y,
width - pixW, h,
TQt::AlignLeft, name);
y = isBottom ? (y-h) : (y+h);
lines--;
if (remaining.isEmpty()) break;
name = remaining;
w = pixW + _fm->width(name);
}
// make sure the pix stays visible
if (pixDrawn && (pixY>0)) {
if (isBottom && (pixY<y)) y = pixY;
if (!isBottom && (pixY>y)) y = pixY;
}
if (origLines > lines) {
// if only 1 line written, don't reset _used* vars
if (lines - origLines >1) {
if (isBottom)
_usedBottomLeft = _usedBottomCenter = _usedBottomRight = 0;
else
_usedTopLeft = _usedTopCenter = _usedTopRight = 0;
}
// take back one line
y = isBottom ? (y+h) : (y-h);
if (used) *used = w;
}
// update free space
if (!isBottom) {
if (rotate)
_rect.setRect(r.x()+y, r.y(), r.width()-y, r.height());
else
_rect.setRect(r.x(), r.y()+y, r.width(), r.height()-y);
}
else {
if (rotate)
_rect.setRect(r.x(), r.y(), y+h, r.height());
else
_rect.setRect(r.x(), r.y(), r.width(), y+h);
}
p->restore();
return true;
}
//
// TreeMapItemList
//
int TreeMapItemList::compareItems ( Item item1, Item item2 )
{
bool ascending;
int result;
TreeMapItem* parent = ((TreeMapItem*)item1)->parent();
// shouldn't happen
if (!parent) return 0;
int textNo = parent->sorting(&ascending);
if (textNo < 0) {
double diff = ((TreeMapItem*)item1)->value() -
((TreeMapItem*)item2)->value();
result = (diff < -.9) ? -1 : (diff > .9) ? 1 : 0;
}
else
result = (((TreeMapItem*)item1)->text(textNo) <
((TreeMapItem*)item2)->text(textNo)) ? -1 : 1;
return ascending ? result : -result;
}
TreeMapItem* TreeMapItemList::commonParent()
{
TreeMapItem* parent, *item;
parent = first();
if (parent)
while( (item = next()) != 0)
parent = parent->commonParent(item);
return parent;
}
// TreeMapItem
TreeMapItem::TreeMapItem(TreeMapItem* parent, double value)
{
_value = value;
_parent = parent;
_sum = 0;
_children = 0;
_widget = 0;
_index = -1;
_depth = -1; // not set
_unused_self = 0;
_freeRects = 0;
if (_parent) {
// take sorting from parent
_sortTextNo = _parent->sorting(&_sortAscending);
_parent->addItem(this);
}
else {
_sortAscending = false;
_sortTextNo = -1; // default: no sorting
}
}
TreeMapItem::TreeMapItem(TreeMapItem* parent, double value,
TQString text1, TQString text2,
TQString text3, TQString text4)
{
_value = value;
_parent = parent;
// this resizes the text vector only if needed
if (!text4.isEmpty()) setText(3, text4);
if (!text3.isEmpty()) setText(2, text3);
if (!text2.isEmpty()) setText(1, text2);
setText(0, text1);
_sum = 0;
_children = 0;
_widget = 0;
_index = -1;
_depth = -1; // not set
_unused_self = 0;
_freeRects = 0;
if (_parent) _parent->addItem(this);
}
TreeMapItem::~TreeMapItem()
{
if (_children) delete _children;
if (_freeRects) delete _freeRects;
// finally, notify widget about deletion
if (_widget) _widget->deletingItem(this);
}
void TreeMapItem::setParent(TreeMapItem* p)
{
_parent = p;
if (p) _widget = p->_widget;
}
bool TreeMapItem::isChildOf(TreeMapItem* item)
{
if (!item) return false;
TreeMapItem* i = this;
while (i) {
if (item == i) return true;
i = i->_parent;
}
return false;
}
TreeMapItem* TreeMapItem::commonParent(TreeMapItem* item)
{
while (item && !isChildOf(item)) {
item = item->parent();
}
return item;
}
void TreeMapItem::redraw()
{
if (_widget)
_widget->redraw(this);
}
void TreeMapItem::clear()
{
if (_children) {
// delete selected items below this item from selection
if (_widget) _widget->clearSelection(this);
delete _children;
_children = 0;
}
}
// invalidates current children and forces redraw
// this is only usefull when children are created on demand in items()
void TreeMapItem::refresh()
{
clear();
redraw();
}
TQStringList TreeMapItem::path(int textNo) const
{
TQStringList list(text(textNo));
TreeMapItem* i = _parent;
while (i) {
TQString text = i->text(textNo);
if (!text.isEmpty())
list.prepend(i->text(textNo));
i = i->_parent;
}
return list;
}
int TreeMapItem::depth() const
{
if (_depth>0) return _depth;
if (_parent)
return _parent->depth() + 1;
return 1;
}
bool TreeMapItem::initialized()
{
if (!_children) {
_children = new TreeMapItemList;
_children->setAutoDelete(true);
return false;
}
return true;
}
void TreeMapItem::addItem(TreeMapItem* i)
{
if (!i) return;
if (!_children) {
_children = new TreeMapItemList;
_children->setAutoDelete(true);
}
i->setParent(this);
if (sorting(0) == -1)
_children->append(i); // preserve insertion order
else
_children->inSort(i);
}
// default implementations of virtual functions
double TreeMapItem::value() const
{
return _value;
}
double TreeMapItem::sum() const
{
return _sum;
}
DrawParams::Position TreeMapItem::position(int f) const
{
Position p = StoredDrawParams::position(f);
if (_widget && (p == Default))
p = _widget->fieldPosition(f);
return p;
}
// use widget font
const TQFont& TreeMapItem::font() const
{
return _widget->currentFont();
}
bool TreeMapItem::isMarked(int) const
{
return false;
}
int TreeMapItem::borderWidth() const
{
if (_widget)
return _widget->borderWidth();
return 2;
}
int TreeMapItem::sorting(bool* ascending) const
{
if (ascending) *ascending = _sortAscending;
return _sortTextNo;
}
// do *not* set sorting recursively
void TreeMapItem::setSorting(int textNo, bool ascending)
{
if (_sortTextNo == textNo) {
if(_sortAscending == ascending) return;
if (textNo == -1) {
// when no sorting is done, order change doesn't do anything
_sortAscending = ascending;
return;
}
}
_sortAscending = ascending;
_sortTextNo = textNo;
if (_children && _sortTextNo != -1) _children->sort();
}
void TreeMapItem::resort(bool recursive)
{
if (!_children) return;
if (_sortTextNo != -1) _children->sort();
if (recursive)
for (TreeMapItem* i=_children->first(); i; i=_children->next())
i->resort(recursive);
}
TreeMapItem::SplitMode TreeMapItem::splitMode() const
{
if (_widget)
return _widget->splitMode();
return Best;
}
int TreeMapItem::rtti() const
{
return 0;
}
TreeMapItemList* TreeMapItem::children()
{
if (!_children) {
_children = new TreeMapItemList;
_children->setAutoDelete(true);
}
return _children;
}
void TreeMapItem::clearItemRect()
{
_rect = TQRect();
clearFreeRects();
}
void TreeMapItem::clearFreeRects()
{
if (_freeRects) _freeRects->clear();
}
void TreeMapItem::addFreeRect(const TQRect& r)
{
// don't add invalid rects
if ((r.width() < 1) || (r.height() < 1)) return;
if (!_freeRects) {
_freeRects = new TQPtrList<TQRect>;
_freeRects->setAutoDelete(true);
}
if (0) kdDebug(90100) << "addFree(" << path(0).join("/") << ", "
<< r.x() << "/" << r.y() << "-"
<< r.width() << "x" << r.height() << ")" << endl;
TQRect* last = _freeRects->last();
if (!last) {
_freeRects->append(new TQRect(r));
return;
}
// join rect with last rect if possible
// this saves memory and doesn't make the tooltip flicker
bool replaced = false;
if ((last->left() == r.left()) && (last->width() == r.width())) {
if ((last->bottom()+1 == r.top()) || (r.bottom()+1 == last->top())) {
*last |= r;
replaced = true;
}
}
else if ((last->top() == r.top()) && (last->height() == r.height())) {
if ((last->right()+1 == r.left()) || (r.right()+1 == last->left())) {
*last |= r;
replaced = true;
}
}
if (!replaced) {
_freeRects->append(new TQRect(r));
return;
}
if (0) kdDebug(90100) << " united with last to ("
<< last->x() << "/" << last->y() << "-"
<< last->width() << "x" << last->height() << ")" << endl;
}
// Tooltips for TreeMapWidget
class TreeMapTip: public TQToolTip
{
public:
TreeMapTip( TQWidget* p ):TQToolTip(p) {}
protected:
void maybeTip( const TQPoint & );
};
void TreeMapTip::maybeTip( const TQPoint& pos )
{
if ( !parentWidget()->inherits( "TreeMapWidget" ) )
return;
TreeMapWidget* p = (TreeMapWidget*)parentWidget();
TreeMapItem* i;
i = p->item(pos.x(), pos.y());
TQPtrList<TQRect>* rList = i ? i->freeRects() : 0;
if (rList) {
TQRect* r;
for(r=rList->first();r;r=rList->next())
if (r->contains(pos))
tip(*r, p->tipString(i));
}
}
// TreeMapWidget
TreeMapWidget::TreeMapWidget(TreeMapItem* base,
TQWidget* parent, const char* name)
: TQWidget(parent, name)
{
_base = base;
_base->setWidget(this);
_font = font();
_fontHeight = fontMetrics().height();
// default behaviour
_selectionMode = Single;
_splitMode = TreeMapItem::AlwaysBest;
_visibleWidth = 2;
_reuseSpace = false;
_skipIncorrectBorder = false;
_drawSeparators = false;
_allowRotation = true;
_borderWidth = 2;
_shading = true; // beautiful is default!
_maxSelectDepth = -1; // unlimited
_maxDrawingDepth = -1; // unlimited
_minimalArea = -1; // unlimited
_markNo = 0;
// _stopAtText will be unset on resizing (per default)
// _textVisible will be true on resizing (per default)
// _forceText will be false on resizing (per default)
// start state: _selection is an empty list
_current = 0;
_oldCurrent = 0;
_pressed = 0;
_lastOver = 0;
_needsRefresh = _base;
setBackgroundMode(TQt::NoBackground);
setFocusPolicy(TQ_StrongFocus);
_tip = new TreeMapTip(this);
}
TreeMapWidget::~TreeMapWidget()
{
}
const TQFont& TreeMapWidget::currentFont() const
{
return _font;
}
void TreeMapWidget::setSplitMode(TreeMapItem::SplitMode m)
{
if (_splitMode == m) return;
_splitMode = m;
redraw();
}
TreeMapItem::SplitMode TreeMapWidget::splitMode() const
{
return _splitMode;
}
bool TreeMapWidget::setSplitMode(TQString mode)
{
if (mode == "Bisection") setSplitMode(TreeMapItem::Bisection);
else if (mode == "Columns") setSplitMode(TreeMapItem::Columns);
else if (mode == "Rows") setSplitMode(TreeMapItem::Rows);
else if (mode == "AlwaysBest") setSplitMode(TreeMapItem::AlwaysBest);
else if (mode == "Best") setSplitMode(TreeMapItem::Best);
else if (mode == "HAlternate") setSplitMode(TreeMapItem::HAlternate);
else if (mode == "VAlternate") setSplitMode(TreeMapItem::VAlternate);
else if (mode == "Horizontal") setSplitMode(TreeMapItem::Horizontal);
else if (mode == "Vertical") setSplitMode(TreeMapItem::Vertical);
else return false;
return true;
}
TQString TreeMapWidget::splitModeString() const
{
TQString mode;
switch(splitMode()) {
case TreeMapItem::Bisection: mode = "Bisection"; break;
case TreeMapItem::Columns: mode = "Columns"; break;
case TreeMapItem::Rows: mode = "Rows"; break;
case TreeMapItem::AlwaysBest: mode = "AlwaysBest"; break;
case TreeMapItem::Best: mode = "Best"; break;
case TreeMapItem::HAlternate: mode = "HAlternate"; break;
case TreeMapItem::VAlternate: mode = "VAlternate"; break;
case TreeMapItem::Horizontal: mode = "Horizontal"; break;
case TreeMapItem::Vertical: mode = "Vertical"; break;
default: mode = "Unknown"; break;
}
return mode;
}
void TreeMapWidget::setShadingEnabled(bool s)
{
if (_shading == s) return;
_shading = s;
redraw();
}
void TreeMapWidget::setAllowRotation(bool enable)
{
if (_allowRotation == enable) return;
_allowRotation = enable;
redraw();
}
void TreeMapWidget::setVisibleWidth(int width, bool reuseSpace)
{
if (_visibleWidth == width && _reuseSpace == reuseSpace) return;
_visibleWidth = width;
_reuseSpace = reuseSpace;
redraw();
}
void TreeMapWidget::setSkipIncorrectBorder(bool enable)
{
if (_skipIncorrectBorder == enable) return;
_skipIncorrectBorder = enable;
redraw();
}
void TreeMapWidget::setBorderWidth(int w)
{
if (_borderWidth == w) return;
_borderWidth = w;
redraw();
}
void TreeMapWidget::setMaxDrawingDepth(int d)
{
if (_maxDrawingDepth == d) return;
_maxDrawingDepth = d;
redraw();
}
TQString TreeMapWidget::defaultFieldType(int f) const
{
return i18n("Text %1").arg(f+1);
}
TQString TreeMapWidget::defaultFieldStop(int) const
{
return TQString();
}
bool TreeMapWidget::defaultFieldVisible(int f) const
{
return (f<2);
}
bool TreeMapWidget::defaultFieldForced(int) const
{
return false;
}
DrawParams::Position TreeMapWidget::defaultFieldPosition(int f) const
{
switch(f%4) {
case 0: return DrawParams::TopLeft;
case 1: return DrawParams::TopRight;
case 2: return DrawParams::BottomRight;
case 3: return DrawParams::BottomLeft;
default:break;
}
return DrawParams::TopLeft;
}
bool TreeMapWidget::resizeAttr(int size)
{
if (size<0 || size>=MAX_FIELD) return false;
if (size>(int)_attr.size()) {
struct FieldAttr a;
int oldSize = _attr.size();
_attr.resize(size, a);
while (oldSize<size) {
_attr[oldSize].type = defaultFieldType(oldSize);
_attr[oldSize].stop = defaultFieldStop(oldSize);
_attr[oldSize].visible = defaultFieldVisible(oldSize);
_attr[oldSize].forced = defaultFieldForced(oldSize);
_attr[oldSize].pos = defaultFieldPosition(oldSize);
oldSize++;
}
}
return true;
}
void TreeMapWidget::setFieldType(int f, TQString type)
{
if (((int)_attr.size() < f+1) &&
(type == defaultFieldType(f))) return;
if (resizeAttr(f+1)) _attr[f].type = type;
// no need to redraw: the type string is not visible in the TreeMap
}
TQString TreeMapWidget::fieldType(int f) const
{
if (f<0 || (int)_attr.size()<f+1) return defaultFieldType(f);
return _attr[f].type;
}
void TreeMapWidget::setFieldStop(int f, TQString stop)
{
if (((int)_attr.size() < f+1) &&
(stop == defaultFieldStop(f))) return;
if (resizeAttr(f+1)) {
_attr[f].stop = stop;
redraw();
}
}
TQString TreeMapWidget::fieldStop(int f) const
{
if (f<0 || (int)_attr.size()<f+1) return defaultFieldStop(f);
return _attr[f].stop;
}
void TreeMapWidget::setFieldVisible(int f, bool enable)
{
if (((int)_attr.size() < f+1) &&
(enable == defaultFieldVisible(f))) return;
if (resizeAttr(f+1)) {
_attr[f].visible = enable;
redraw();
}
}
bool TreeMapWidget::fieldVisible(int f) const
{
if (f<0 || (int)_attr.size()<f+1)
return defaultFieldVisible(f);
return _attr[f].visible;
}
void TreeMapWidget::setFieldForced(int f, bool enable)
{
if (((int)_attr.size() < f+1) &&
(enable == defaultFieldForced(f))) return;
if (resizeAttr(f+1)) {
_attr[f].forced = enable;
if (_attr[f].visible) redraw();
}
}
bool TreeMapWidget::fieldForced(int f) const
{
if (f<0 || (int)_attr.size()<f+1)
return defaultFieldForced(f);
return _attr[f].forced;
}
void TreeMapWidget::setFieldPosition(int f, TreeMapItem::Position pos)
{
if (((int)_attr.size() < f+1) &&
(pos == defaultFieldPosition(f))) return;
if (resizeAttr(f+1)) {
_attr[f].pos = pos;
if (_attr[f].visible) redraw();
}
}
DrawParams::Position TreeMapWidget::fieldPosition(int f) const
{
if (f<0 || (int)_attr.size()<f+1)
return defaultFieldPosition(f);
return _attr[f].pos;
}
void TreeMapWidget::setFieldPosition(int f, TQString pos)
{
if (pos == "TopLeft")
setFieldPosition(f, DrawParams::TopLeft);
else if (pos == "TopCenter")
setFieldPosition(f, DrawParams::TopCenter);
else if (pos == "TopRight")
setFieldPosition(f, DrawParams::TopRight);
else if (pos == "BottomLeft")
setFieldPosition(f, DrawParams::BottomLeft);
else if (pos == "BottomCenter")
setFieldPosition(f, DrawParams::BottomCenter);
else if (pos == "BottomRight")
setFieldPosition(f, DrawParams::BottomRight);
else if (pos == "Default")
setFieldPosition(f, DrawParams::Default);
}
TQString TreeMapWidget::fieldPositionString(int f) const
{
TreeMapItem::Position pos = fieldPosition(f);
if (pos == DrawParams::TopLeft) return TQString("TopLeft");
if (pos == DrawParams::TopCenter) return TQString("TopCenter");
if (pos == DrawParams::TopRight) return TQString("TopRight");
if (pos == DrawParams::BottomLeft) return TQString("BottomLeft");
if (pos == DrawParams::BottomCenter) return TQString("BottomCenter");
if (pos == DrawParams::BottomRight) return TQString("BottomRight");
if (pos == DrawParams::Default) return TQString("Default");
return TQString("unknown");
}
void TreeMapWidget::setMinimalArea(int area)
{
if (_minimalArea == area) return;
_minimalArea = area;
redraw();
}
void TreeMapWidget::deletingItem(TreeMapItem* i)
{
// remove any references to the item to be deleted
while(_selection.findRef(i) > -1)
_selection.remove();
while(_tmpSelection.findRef(i) > -1)
_tmpSelection.remove();
if (_current == i) _current = 0;
if (_oldCurrent == i) _oldCurrent = 0;
if (_pressed == i) _pressed = 0;
if (_lastOver == i) _lastOver = 0;
// don't redraw a deleted item
if (_needsRefresh == i) {
// we can savely redraw the parent, as deleting order is
// from child to parent; i.e. i->parent() is existing.
_needsRefresh = i->parent();
}
}
TQString TreeMapWidget::tipString(TreeMapItem* i) const
{
TQString tip, itemTip;
while (i) {
if (!i->text(0).isEmpty()) {
itemTip = i->text(0);
if (!i->text(1).isEmpty())
itemTip += " (" + i->text(1) + ")";
if (!tip.isEmpty())
tip += "\n";
tip += itemTip;
}
i = i->parent();
}
return tip;
}
TreeMapItem* TreeMapWidget::item(int x, int y) const
{
TreeMapItem* p = _base;
TreeMapItem* i;
if (!TQT_TQRECT_OBJECT(rect()).contains(x, y)) return 0;
if (DEBUG_DRAWING) kdDebug(90100) << "item(" << x << "," << y << "):" << endl;
while (1) {
TreeMapItemList* list = p->children();
if (!list)
i = 0;
else {
int idx=0;
for (i=list->first();i;i=list->next(),idx++) {
if (DEBUG_DRAWING)
kdDebug(90100) << " Checking " << i->path(0).join("/") << " ("
<< i->itemRect().x() << "/" << i->itemRect().y()
<< "-" << i->itemRect().width()
<< "x" << i->itemRect().height() << ")" << endl;
if (i->itemRect().contains(x, y)) {
if (DEBUG_DRAWING) kdDebug(90100) << " .. Got. Index " << idx << endl;
p->setIndex(idx);
break;
}
}
}
if (!i) {
static TreeMapItem* last = 0;
if (p != last) {
last = p;
if (DEBUG_DRAWING)
kdDebug(90100) << "item(" << x << "," << y << "): Got "
<< p->path(0).join("/") << " (Size "
<< p->itemRect().width() << "x" << p->itemRect().height()
<< ", Val " << p->value() << ")" << endl;
}
return p;
}
p = i;
}
return 0;
}
TreeMapItem* TreeMapWidget::possibleSelection(TreeMapItem* i) const
{
if (i) {
if (_maxSelectDepth>=0) {
int depth = i->depth();
while(i && depth > _maxSelectDepth) {
i = i->parent();
depth--;
}
}
}
return i;
}
TreeMapItem* TreeMapWidget::visibleItem(TreeMapItem* i) const
{
if (i) {
/* Must have a visible area */
while(i && ((i->itemRect().width() <1) ||
(i->itemRect().height() <1))) {
TreeMapItem* p = i->parent();
if (!p) break;
int idx = p->children()->findRef(i);
idx--;
if (idx<0)
i = p;
else
i = p->children()->at(idx);
}
}
return i;
}
void TreeMapWidget::setSelected(TreeMapItem* item, bool selected)
{
item = possibleSelection(item);
setCurrent(item);
TreeMapItem* changed = setTmpSelected(item, selected);
if (!changed) return;
_selection = _tmpSelection;
if (_selectionMode == Single)
emit selectionChanged(item);
emit selectionChanged();
redraw(changed);
if (0) kdDebug(90100) << (selected ? "S":"Des") << "elected Item "
<< (item ? item->path(0).join("") : TQString("(null)"))
<< " (depth " << (item ? item->depth() : -1)
<< ")" << endl;
}
void TreeMapWidget::setMarked(int markNo, bool redrawWidget)
{
// if there's no marking, return
if ((_markNo == 0) && (markNo == 0)) return;
_markNo = markNo;
if (!clearSelection() && redrawWidget) redraw();
}
/* Returns all items which appear only in one of the given lists */
TreeMapItemList TreeMapWidget::diff(TreeMapItemList& l1,
TreeMapItemList& l2)
{
TreeMapItemList l;
TreeMapItemListIterator it1(l1), it2(l2);
TreeMapItem* item;
while ( (item = it1.current()) != 0 ) {
++it1;
if (l2.containsRef(item) > 0) continue;
l.append(item);
}
while ( (item = it2.current()) != 0 ) {
++it2;
if (l1.containsRef(item) > 0) continue;
l.append(item);
}
return l;
}
/* Only modifies _tmpSelection.
* Returns 0 when no change happened, otherwise the TreeMapItem that has
* to be redrawn for all changes.
*/
TreeMapItem* TreeMapWidget::setTmpSelected(TreeMapItem* item, bool selected)
{
if (!item) return 0;
if (_selectionMode == NoSelection) return 0;
TreeMapItemList old = _tmpSelection;
if (_selectionMode == Single) {
_tmpSelection.clear();
if (selected) _tmpSelection.append(item);
}
else {
if (selected) {
TreeMapItem* i=_tmpSelection.first();
while (i) {
if (i->isChildOf(item) || item->isChildOf(i)) {
_tmpSelection.remove();
i = _tmpSelection.current();
}
else
i = _tmpSelection.next();
}
_tmpSelection.append(item);
}
else
_tmpSelection.removeRef(item);
}
return diff(old, _tmpSelection).commonParent();
}
bool TreeMapWidget::clearSelection(TreeMapItem* parent)
{
TreeMapItemList old = _selection;
TreeMapItem* i=_selection.first();
while (i) {
if (i->isChildOf(parent)) {
_selection.remove();
i = _selection.current();
}
else
i = _selection.next();
}
TreeMapItem* changed = diff(old, _selection).commonParent();
if (changed) {
changed->redraw();
emit selectionChanged();
}
return (changed != 0);
}
bool TreeMapWidget::isSelected(TreeMapItem* i) const
{
return _selection.containsRef(i)>0;
}
bool TreeMapWidget::isTmpSelected(TreeMapItem* i)
{
return _tmpSelection.containsRef(i)>0;
}
void TreeMapWidget::setCurrent(TreeMapItem* i, bool kbd)
{
TreeMapItem* old = _current;
_current = i;
if (_markNo >0) {
// remove mark
_markNo = 0;
if (1) kdDebug(90100) << "setCurrent(" << i->path(0).join("/")
<< ") - mark removed" << endl;
// always complete redraw needed to remove mark
redraw();
if (old == _current) return;
}
else {
if (old == _current) return;
if (old) old->redraw();
if (i) i->redraw();
}
//kdDebug(90100) << "Current Item " << (i ? i->path().ascii() : "(null)") << endl;
emit currentChanged(i, kbd);
}
void TreeMapWidget::setRangeSelection(TreeMapItem* i1,
TreeMapItem* i2, bool selected)
{
i1 = possibleSelection(i1);
i2 = possibleSelection(i2);
setCurrent(i2);
TreeMapItem* changed = setTmpRangeSelection(i1, i2, selected);
if (!changed) return;
_selection = _tmpSelection;
if (_selectionMode == Single)
emit selectionChanged(i2);
emit selectionChanged();
redraw(changed);
}
TreeMapItem* TreeMapWidget::setTmpRangeSelection(TreeMapItem* i1,
TreeMapItem* i2,
bool selected)
{
if ((i1 == 0) && (i2 == 0)) return 0;
if ((i1 == 0) || i1->isChildOf(i2)) return setTmpSelected(i2, selected);
if ((i2 == 0) || i2->isChildOf(i1)) return setTmpSelected(i1, selected);
TreeMapItem* changed = setTmpSelected(i1, selected);
TreeMapItem* changed2 = setTmpSelected(i2, selected);
if (changed2) changed = changed2->commonParent(changed);
TreeMapItem* commonParent = i1;
while (commonParent && !i2->isChildOf(commonParent)) {
i1 = commonParent;
commonParent = commonParent->parent();
}
if (!commonParent) return changed;
while (i2 && i2->parent() != commonParent)
i2 = i2->parent();
if (!i2) return changed;
TreeMapItemList* list = commonParent->children();
if (!list) return changed;
TreeMapItem* i = list->first();
bool between = false;
while (i) {
if (between) {
if (i==i1 || i==i2) break;
changed2 = setTmpSelected(i, selected);
if (changed2) changed = changed2->commonParent(changed);
}
else if (i==i1 || i==i2)
between = true;
i = list->next();
}
return changed;
}
void TreeMapWidget::contextMenuEvent( TQContextMenuEvent* e )
{
//kdDebug(90100) << "TreeMapWidget::contextMenuEvent" << endl;
if ( receivers( TQT_SIGNAL(contextMenuRequested(TreeMapItem*, const TQPoint &)) ) )
e->accept();
if ( e->reason() == TQContextMenuEvent::Keyboard ) {
TQRect r = (_current) ? _current->itemRect() : _base->itemRect();
TQPoint p = TQPoint(r.left() + r.width()/2, r.top() + r.height()/2);
emit contextMenuRequested(_current, p);
}
else {
TreeMapItem* i = item(e->x(), e->y());
emit contextMenuRequested(i, e->pos());
}
}
void TreeMapWidget::mousePressEvent( TQMouseEvent* e )
{
//kdDebug(90100) << "TreeMapWidget::mousePressEvent" << endl;
_oldCurrent = _current;
TreeMapItem* i = item(e->x(), e->y());
_pressed = i;
_inShiftDrag = e->state() & ShiftButton;
_inControlDrag = e->state() & ControlButton;
_lastOver = _pressed;
TreeMapItem* changed = 0;
TreeMapItem* item = possibleSelection(_pressed);
switch(_selectionMode) {
case Single:
changed = setTmpSelected(item, true);
break;
case Multi:
changed = setTmpSelected(item, !isTmpSelected(item));
break;
case Extended:
if (_inControlDrag)
changed = setTmpSelected(item, !isTmpSelected(item));
else if (_inShiftDrag) {
TreeMapItem* sCurrent = possibleSelection(_current);
changed = setTmpRangeSelection(sCurrent, item,
!isTmpSelected(item));
}
else {
_selectionMode = Single;
changed = setTmpSelected(item, true);
_selectionMode = Extended;
}
break;
default:
break;
}
// item under mouse always selected on right button press
if (e->button() == Qt::RightButton) {
TreeMapItem* changed2 = setTmpSelected(item, true);
if (changed2) changed = changed2->commonParent(changed);
}
setCurrent(_pressed);
if (changed)
redraw(changed);
if (e->button() == Qt::RightButton) {
// emit selection change
if (! (_tmpSelection == _selection)) {
_selection = _tmpSelection;
if (_selectionMode == Single)
emit selectionChanged(_lastOver);
emit selectionChanged();
}
_pressed = 0;
_lastOver = 0;
emit rightButtonPressed(i, e->pos());
}
}
void TreeMapWidget::mouseMoveEvent( TQMouseEvent* e )
{
//kdDebug(90100) << "TreeMapWidget::mouseMoveEvent" << endl;
if (!_pressed) return;
TreeMapItem* over = item(e->x(), e->y());
if (_lastOver == over) return;
setCurrent(over);
if (over == 0) {
_lastOver = 0;
return;
}
TreeMapItem* changed = 0;
TreeMapItem* item = possibleSelection(over);
switch(_selectionMode) {
case Single:
changed = setTmpSelected(item, true);
break;
case Multi:
changed = setTmpSelected(item, !isTmpSelected(item));
break;
case Extended:
if (_inControlDrag)
changed = setTmpSelected(item, !isTmpSelected(item));
else {
TreeMapItem* sLast = possibleSelection(_lastOver);
changed = setTmpRangeSelection(sLast, item, true);
}
break;
default:
break;
}
_lastOver = over;
if (changed)
redraw(changed);
}
void TreeMapWidget::mouseReleaseEvent( TQMouseEvent* )
{
//kdDebug(90100) << "TreeMapWidget::mouseReleaseEvent" << endl;
if (!_pressed) return;
if (!_lastOver) {
// take back
setCurrent(_oldCurrent);
TreeMapItem* changed = diff(_tmpSelection, _selection).commonParent();
_tmpSelection = _selection;
if (changed)
redraw(changed);
}
else {
if (! (_tmpSelection == _selection)) {
_selection = _tmpSelection;
if (_selectionMode == Single)
emit selectionChanged(_lastOver);
emit selectionChanged();
}
if (!_inControlDrag && !_inShiftDrag && (_pressed == _lastOver))
emit clicked(_lastOver);
}
_pressed = 0;
_lastOver = 0;
}
void TreeMapWidget::mouseDoubleClickEvent( TQMouseEvent* e )
{
TreeMapItem* over = item(e->x(), e->y());
emit doubleClicked(over);
}
/* returns -1 if nothing visible found */
int nextVisible(TreeMapItem* i)
{
TreeMapItem* p = i->parent();
if (!p || p->itemRect().isEmpty()) return -1;
int idx = p->children()->findRef(i);
if (idx<0) return -1;
while (idx < (int)p->children()->count()-1) {
idx++;
TQRect r = p->children()->at(idx)->itemRect();
if (r.width()>1 && r.height()>1)
return idx;
}
return -1;
}
/* returns -1 if nothing visible found */
int prevVisible(TreeMapItem* i)
{
TreeMapItem* p = i->parent();
if (!p || p->itemRect().isEmpty()) return -1;
int idx = p->children()->findRef(i);
if (idx<0) return -1;
while (idx > 0) {
idx--;
TQRect r = p->children()->at(idx)->itemRect();
if (r.width()>1 && r.height()>1)
return idx;
}
return -1;
}
void TreeMapWidget::keyPressEvent( TQKeyEvent* e )
{
if (e->key() == Key_Escape && _pressed) {
// take back
if (_oldCurrent != _lastOver)
setCurrent(_oldCurrent);
if (! (_tmpSelection == _selection)) {
TreeMapItem* changed = diff(_tmpSelection, _selection).commonParent();
_tmpSelection = _selection;
if (changed)
redraw(changed);
}
_pressed = 0;
_lastOver = 0;
}
if ((e->key() == Key_Space) ||
(e->key() == Key_Return)) {
switch(_selectionMode) {
case NoSelection:
break;
case Single:
setSelected(_current, true);
break;
case Multi:
setSelected(_current, !isSelected(_current));
break;
case Extended:
if ((e->state() & ControlButton) || (e->state() & ShiftButton))
setSelected(_current, !isSelected(_current));
else {
_selectionMode = Single;
setSelected(_current, true);
_selectionMode = Extended;
}
}
if (_current && (e->key() == Key_Return))
emit returnPressed(_current);
return;
}
if (!_current) {
if (e->key() == Key_Down) {
setCurrent(_base, true);
}
return;
}
TreeMapItem* old = _current, *newItem;
TreeMapItem* p = _current->parent();
bool goBack;
if (_current->sorting(&goBack) == -1) {
// noSorting
goBack = false;
}
if ((e->key() == Key_Backspace) ||
(e->key() == Key_Up)) {
newItem = visibleItem(p);
setCurrent(newItem, true);
}
else if (e->key() == Key_Left) {
int newIdx = goBack ? nextVisible(_current) : prevVisible(_current);
if (p && newIdx>=0) {
p->setIndex(newIdx);
setCurrent(p->children()->at(newIdx), true);
}
}
else if (e->key() == Key_Right) {
int newIdx = goBack ? prevVisible(_current) : nextVisible(_current);
if (p && newIdx>=0) {
p->setIndex(newIdx);
setCurrent(p->children()->at(newIdx), true);
}
}
else if (e->key() == Key_Down) {
if (_current->children() && _current->children()->count()>0) {
int newIdx = _current->index();
if (newIdx<0)
newIdx = goBack ? (_current->children()->count()-1) : 0;
if (newIdx>=(int)_current->children()->count())
newIdx = _current->children()->count()-1;
newItem = visibleItem(_current->children()->at(newIdx));
setCurrent(newItem, true);
}
}
if (old == _current) return;
if (! (e->state() & ControlButton)) return;
if (! (e->state() & ShiftButton)) return;
switch(_selectionMode) {
case NoSelection:
break;
case Single:
setSelected(_current, true);
break;
case Multi:
setSelected(_current, !isSelected(_current));
break;
case Extended:
if (e->state() & ControlButton)
setSelected(_current, !isSelected(_current));
else
setSelected(_current, isSelected(old));
}
}
void TreeMapWidget::fontChange( const TQFont& )
{
redraw();
}
void TreeMapWidget::resizeEvent( TQResizeEvent * )
{
// this automatically redraws (as size is changed)
drawTreeMap();
}
void TreeMapWidget::paintEvent( TQPaintEvent * )
{
drawTreeMap();
}
void TreeMapWidget::showEvent( TQShowEvent * )
{
// refresh only if needed
drawTreeMap();
}
// Updates screen from shadow buffer,
// but redraws before if needed
void TreeMapWidget::drawTreeMap()
{
// no need to draw if hidden
if (!isVisible()) return;
if (_pixmap.size() != size())
_needsRefresh = _base;
if (_needsRefresh) {
if (DEBUG_DRAWING)
kdDebug(90100) << "Redrawing " << _needsRefresh->path(0).join("/") << endl;
if (_needsRefresh == _base) {
// redraw whole widget
_pixmap = TQPixmap(size());
_pixmap.fill(backgroundColor());
}
TQPainter p(&_pixmap);
if (_needsRefresh == _base) {
p.setPen(black);
p.drawRect(TQRect(2, 2, TQWidget::width()-4, TQWidget::height()-4));
_base->setItemRect(TQRect(3, 3, TQWidget::width()-6, TQWidget::height()-6));
}
else {
// only subitem
if (!_needsRefresh->itemRect().isValid()) return;
}
// reset cached font object; it could have been changed
_font = font();
_fontHeight = fontMetrics().height();
drawItems(&p, _needsRefresh);
_needsRefresh = 0;
}
bitBlt( TQT_TQPAINTDEVICE(this), 0, 0, TQT_TQPAINTDEVICE(&_pixmap), 0, 0,
TQWidget::width(), TQWidget::height(), CopyROP, true);
if (hasFocus()) {
TQPainter p(this);
style().tqdrawPrimitive( TQStyle::PE_FocusRect, &p,
TQRect(0, 0, TQWidget::width(), TQWidget::height()),
colorGroup() );
}
}
void TreeMapWidget::redraw(TreeMapItem* i)
{
if (!i) return;
if (!_needsRefresh)
_needsRefresh = i;
else {
if (!i->isChildOf(_needsRefresh))
_needsRefresh = _needsRefresh->commonParent(i);
}
if (isVisible()) {
// delayed drawing if we have multiple redraw requests
update();
}
}
void TreeMapWidget::drawItem(TQPainter* p,
TreeMapItem* item)
{
bool isSelected = false;
TreeMapItem* i;
if (_markNo>0) {
for(i = item;i;i=i->parent())
if (i->isMarked(_markNo)) break;
isSelected = (i!=0);
}
else {
for (i=_tmpSelection.first();i;i=_tmpSelection.next())
if (item->isChildOf(i)) break;
isSelected = (i!=0);
}
bool isCurrent = _current && item->isChildOf(_current);
RectDrawing d(item->itemRect());
item->setSelected(isSelected);
item->setCurrent(isCurrent);
item->setShaded(_shading);
d.drawBack(p, item);
}
bool TreeMapWidget::horizontal(TreeMapItem* i, const TQRect& r)
{
switch(i->splitMode()) {
case TreeMapItem::HAlternate:
return (i->depth()%2)==1;
case TreeMapItem::VAlternate:
return (i->depth()%2)==0;
case TreeMapItem::Horizontal:
return true;
case TreeMapItem::Vertical:
return false;
default:
return r.width() > r.height();
}
return false;
}
/**
* Draw TreeMapItems recursive, starting from item
*/
void TreeMapWidget::drawItems(TQPainter* p,
TreeMapItem* item)
{
if (DEBUG_DRAWING)
kdDebug(90100) << "+drawItems(" << item->path(0).join("/") << ", "
<< item->itemRect().x() << "/" << item->itemRect().y()
<< "-" << item->itemRect().width() << "x"
<< item->itemRect().height() << "), Val " << item->value()
<< ", Sum " << item->sum() << endl;
drawItem(p, item);
item->clearFreeRects();
TQRect origRect = item->itemRect();
int bw = item->borderWidth();
TQRect r = TQRect(origRect.x()+bw, origRect.y()+bw,
origRect.width()-2*bw, origRect.height()-2*bw);
TreeMapItemList* list = item->children();
TreeMapItem* i;
bool stopDrawing = false;
// only subdivide if there are children
if (!list || list->count()==0)
stopDrawing = true;
// only subdivide if there is enough space
if (!stopDrawing && (r.width()<=0 || r.height()<=0))
stopDrawing = true;
// stop drawing if maximum depth is reached
if (!stopDrawing &&
(_maxDrawingDepth>=0 && item->depth()>=_maxDrawingDepth))
stopDrawing = true;
// stop drawing if stopAtText is reached
if (!stopDrawing)
for (int no=0;no<(int)_attr.size();no++) {
TQString stopAt = fieldStop(no);
if (!stopAt.isEmpty() && (item->text(no) == stopAt)) {
stopDrawing = true;
break;
}
}
// area size is checked later...
#if 0
// stop drawing if minimal area size is reached
if (!stopDrawing &&
(_minimalArea > 0) &&
(r.width() * r.height() < _minimalArea)) stopDrawing = true;
#endif
if (stopDrawing) {
if (list) {
// invalidate rects
for (i=list->first();i;i=list->next())
i->clearItemRect();
}
// tooltip apears on whole item rect
item->addFreeRect(item->itemRect());
// if we have space for text...
if ((r.height() < _fontHeight) || (r.width() < _fontHeight)) return;
RectDrawing d(r);
item->setRotated(_allowRotation && (r.height() > r.width()));
for (int no=0;no<(int)_attr.size();no++) {
if (!fieldVisible(no)) continue;
d.drawField(p, no, item);
}
r = d.remainingRect(item);
if (DEBUG_DRAWING)
kdDebug(90100) << "-drawItems(" << item->path(0).join("/") << ")" << endl;
return;
}
double user_sum, child_sum, self;
// user supplied sum
user_sum = item->sum();
// own sum
child_sum = 0;
for (i=list->first();i;i=list->next()) {
child_sum += i->value();
if (DEBUG_DRAWING)
kdDebug(90100) << " child: " << i->text(0) << ", value "
<< i->value() << endl;
}
TQRect orig = r;
// if we have space for text...
if ((r.height() >= _fontHeight) && (r.width() >= _fontHeight)) {
RectDrawing d(r);
item->setRotated(_allowRotation && (r.height() > r.width()));
for (int no=0;no<(int)_attr.size();no++) {
if (!fieldVisible(no)) continue;
if (!fieldForced(no)) continue;
d.drawField(p, no, item);
}
r = d.remainingRect(item);
}
if (orig.x() == r.x()) {
// Strings on top
item->addFreeRect(TQRect(orig.x(), orig.y(),
orig.width(), orig.height()-r.height()));
}
else {
// Strings on the left
item->addFreeRect(TQRect(orig.x(), orig.y(),
orig.width()-r.width(), orig.height()));
}
if (user_sum == 0) {
// user didn't supply any sum
user_sum = child_sum;
self = 0;
}
else {
self = user_sum - child_sum;
if (user_sum < child_sum) {
//kdDebug(90100) << "TreeMWidget " <<
// item->path() << ": User sum " << user_sum << " < Child Items sum " << child_sum << endl;
// invalid user supplied sum: ignore and use calculate sum
user_sum = child_sum;
self = 0.0;
}
else {
// Try to put the border waste in self
// percent of wasted space on border...
float borderArea = origRect.width() * origRect.height();
borderArea = (borderArea - r.width()*r.height())/borderArea;
unsigned borderValue = (unsigned)(borderArea * user_sum);
if (borderValue > self) {
if (_skipIncorrectBorder) {
r = origRect;
// should add my self to nested self and set my self =0
}
else
self = 0.0;
}
else
self -= borderValue;
user_sum = child_sum + self;
}
}
bool rotate = (_allowRotation && (r.height() > r.width()));
int self_length = (int)( ((rotate) ? r.width() : r.height()) *
self / user_sum + .5);
if (self_length > 0) {
// take space for self cost
TQRect sr = r;
if (rotate) {
sr.setWidth( self_length );
r.setRect(r.x()+sr.width(), r.y(), r.width()-sr.width(), r.height());
}
else {
sr.setHeight( self_length );
r.setRect(r.x(), r.y()+sr.height(), r.width(), r.height()-sr.height());
}
// set selfRect (not occupied by children) for tooltip
item->addFreeRect(sr);
if (0) kdDebug(90100) << "Item " << item->path(0).join("/") << ": SelfR "
<< sr.x() << "/" << sr.y() << "-" << sr.width()
<< "/" << sr.height() << ", self " << self << "/"
<< user_sum << endl;
if ((sr.height() >= _fontHeight) && (sr.width() >= _fontHeight)) {
RectDrawing d(sr);
item->setRotated(_allowRotation && (r.height() > r.width()));
for (int no=0;no<(int)_attr.size();no++) {
if (!fieldVisible(no)) continue;
if (fieldForced(no)) continue;
d.drawField(p, no, item);
}
}
user_sum -= self;
}
bool goBack;
if (item->sorting(&goBack) == -1) {
// noSorting
goBack = false;
}
TreeMapItemListIterator it(*list);
if (goBack) it.toLast();
if (item->splitMode() == TreeMapItem::Columns) {
int len = list->count();
bool drawDetails = true;
while (len>0 && user_sum>0) {
TreeMapItemListIterator first = it;
double valSum = 0;
int lenLeft = len;
int columns = (int)(sqrt((double)len * r.width()/r.height())+.5);
if (columns==0) columns = 1; //should never be needed
while (lenLeft>0 && ((double)valSum*(len-lenLeft) <
(double)len*user_sum/columns/columns)) {
valSum += it.current()->value();
if (goBack) --it; else ++it;
lenLeft--;
}
// we always split horizontally
int nextPos = (int)((double)r.width() * valSum / user_sum);
TQRect firstRect = TQRect(r.x(), r.y(), nextPos, r.height());
if (nextPos < _visibleWidth) {
if (item->sorting(0) == -1) {
// fill current rect with hash pattern
drawFill(item, p, firstRect);
}
else {
// fill rest with hash pattern
drawFill(item, p, r, first, len, goBack);
break;
}
}
else {
drawDetails = drawItemArray(p, item, firstRect,
valSum, first, len-lenLeft, goBack);
}
r.setRect(r.x()+nextPos, r.y(), r.width()-nextPos, r.height());
user_sum -= valSum;
len = lenLeft;
if (!drawDetails) {
if (item->sorting(0) == -1)
drawDetails = true;
else {
drawFill(item, p, r, it, len, goBack);
break;
}
}
}
}
else if (item->splitMode() == TreeMapItem::Rows) {
int len = list->count();
bool drawDetails = true;
while (len>0 && user_sum>0) {
TreeMapItemListIterator first = it;
double valSum = 0;
int lenLeft = len;
int rows = (int)(sqrt((double)len * r.height()/r.width())+.5);
if (rows==0) rows = 1; //should never be needed
while (lenLeft>0 && ((double)valSum*(len-lenLeft) <
(double)len*user_sum/rows/rows)) {
valSum += it.current()->value();
if (goBack) --it; else ++it;
lenLeft--;
}
// we always split horizontally
int nextPos = (int)((double)r.height() * valSum / user_sum);
TQRect firstRect = TQRect(r.x(), r.y(), r.width(), nextPos);
if (nextPos < _visibleWidth) {
if (item->sorting(0) == -1) {
drawFill(item, p, firstRect);
}
else {
drawFill(item, p, r, first, len, goBack);
break;
}
}
else {
drawDetails = drawItemArray(p, item, firstRect,
valSum, first, len-lenLeft, goBack);
}
r.setRect(r.x(), r.y()+nextPos, r.width(), r.height()-nextPos);
user_sum -= valSum;
len = lenLeft;
if (!drawDetails) {
if (item->sorting(0) == -1)
drawDetails = true;
else {
drawFill(item, p, r, it, len, goBack);
break;
}
}
}
}
else
drawItemArray(p, item, r, user_sum, it, list->count(), goBack);
if (DEBUG_DRAWING)
kdDebug(90100) << "-drawItems(" << item->path(0).join("/") << ")" << endl;
}
// fills area with a pattern if to small to draw children
void TreeMapWidget::drawFill(TreeMapItem* i, TQPainter* p, TQRect& r)
{
p->setBrush(TQt::Dense4Pattern);
p->setPen(TQt::NoPen);
p->drawRect(r);
i->addFreeRect(r);
}
// fills area with a pattern if to small to draw children
void TreeMapWidget::drawFill(TreeMapItem* i, TQPainter* p, TQRect& r,
TreeMapItemListIterator it, int len, bool goBack)
{
if (DEBUG_DRAWING)
kdDebug(90100) << " +drawFill(" << r.x() << "/" << r.y()
<< "-" << r.width() << "x" << r.height()
<< ", len " << len << ")" << endl;
p->setBrush(TQt::Dense4Pattern);
p->setPen(TQt::NoPen);
p->drawRect(r);
i->addFreeRect(r);
// reset rects
while (len>0 && it.current()) {
if (DEBUG_DRAWING)
kdDebug(90100) << " Reset Rect " << (*it)->path(0).join("/") << endl;
(*it)->clearItemRect();
if (goBack) --it; else ++it;
len--;
}
if (DEBUG_DRAWING)
kdDebug(90100) << " -drawFill(" << r.x() << "/" << r.y()
<< "-" << r.width() << "x" << r.height()
<< ", len " << len << ")" << endl;
}
// returns false if rect gets to small
bool TreeMapWidget::drawItemArray(TQPainter* p, TreeMapItem* item,
TQRect& r, double user_sum,
TreeMapItemListIterator it, int len,
bool goBack)
{
if (user_sum == 0) return false;
static bool b2t = true;
// stop recursive bisection for small rectangles
if (((r.height() < _visibleWidth) &&
(r.width() < _visibleWidth)) ||
((_minimalArea > 0) &&
(r.width() * r.height() < _minimalArea))) {
drawFill(item, p, r, it, len, goBack);
return false;
}
if (DEBUG_DRAWING)
kdDebug(90100) << " +drawItemArray(" << item->path(0).join("/")
<< ", " << r.x() << "/" << r.y() << "-" << r.width()
<< "x" << r.height() << ")" << endl;
if (len>2 && (item->splitMode() == TreeMapItem::Bisection)) {
TreeMapItemListIterator first = it;
double valSum = 0;
int lenLeft = len;
//while (lenLeft>0 && valSum<user_sum/2) {
while (lenLeft>len/2) {
valSum += it.current()->value();
if (goBack) --it; else ++it;
lenLeft--;
}
// draw first half...
bool drawOn;
if (r.width() > r.height()) {
int halfPos = (int)((double)r.width() * valSum / user_sum);
TQRect firstRect = TQRect(r.x(), r.y(), halfPos, r.height());
drawOn = drawItemArray(p, item, firstRect,
valSum, first, len-lenLeft, goBack);
r.setRect(r.x()+halfPos, r.y(), r.width()-halfPos, r.height());
}
else {
int halfPos = (int)((double)r.height() * valSum / user_sum);
TQRect firstRect = TQRect(r.x(), r.y(), r.width(), halfPos);
drawOn = drawItemArray(p, item, firstRect,
valSum, first, len-lenLeft, goBack);
r.setRect(r.x(), r.y()+halfPos, r.width(), r.height()-halfPos);
}
// if no sorting, don't stop drawing
if (item->sorting(0) == -1) drawOn = true;
// second half
if (drawOn)
drawOn = drawItemArray(p, item, r, user_sum - valSum,
it, lenLeft, goBack);
else {
drawFill(item, p, r, it, len, goBack);
}
if (DEBUG_DRAWING)
kdDebug(90100) << " -drawItemArray(" << item->path(0).join("/")
<< ")" << endl;
return drawOn;
}
bool hor = horizontal(item,r);
TreeMapItem* i;
while (len>0) {
i = it.current();
if (user_sum <= 0) {
if (DEBUG_DRAWING)
kdDebug(90100) << "drawItemArray: Reset " << i->path(0).join("/") << endl;
i->clearItemRect();
if (goBack) --it; else ++it;
len--;
continue;
}
// stop drawing for small rectangles
if (((r.height() < _visibleWidth) &&
(r.width() < _visibleWidth)) ||
((_minimalArea > 0) &&
(r.width() * r.height() < _minimalArea))) {
drawFill(item, p, r, it, len, goBack);
if (DEBUG_DRAWING)
kdDebug(90100) << " -drawItemArray(" << item->path(0).join("/")
<< "): Stop" << endl;
return false;
}
if (i->splitMode() == TreeMapItem::AlwaysBest)
hor = r.width() > r.height();
int lastPos = hor ? r.width() : r.height();
double val = i->value();
int nextPos = (user_sum <= 0.0) ? 0: (int)(lastPos * val / user_sum +.5);
if (nextPos>lastPos) nextPos = lastPos;
if ((item->sorting(0) != -1) && (nextPos < _visibleWidth)) {
drawFill(item, p, r, it, len, goBack);
if (DEBUG_DRAWING)
kdDebug(90100) << " -drawItemArray(" << item->path(0).join("/")
<< "): Stop" << endl;
return false;
}
TQRect currRect = r;
if (hor)
currRect.setWidth(nextPos);
else {
if (b2t)
currRect.setRect(r.x(), r.bottom()-nextPos+1, r.width(), nextPos);
else
currRect.setHeight(nextPos);
}
// don't draw very small rectangles:
if (nextPos >= _visibleWidth) {
i->setItemRect(currRect);
drawItems(p, i);
}
else {
i->clearItemRect();
drawFill(item, p, currRect);
}
// draw Separator
if (_drawSeparators && (nextPos<lastPos)) {
p->setPen(black);
if (hor) {
if (r.top()<=r.bottom())
p->drawLine(r.x() + nextPos, r.top(), r.x() + nextPos, r.bottom());
}
else {
if (r.left()<=r.right())
p->drawLine(r.left(), r.y() + nextPos, r.right(), r.y() + nextPos);
}
nextPos++;
}
if (hor)
r.setRect(r.x() + nextPos, r.y(), lastPos-nextPos, r.height());
else {
if (b2t)
r.setRect(r.x(), r.y(), r.width(), lastPos-nextPos);
else
r.setRect(r.x(), r.y() + nextPos, r.width(), lastPos-nextPos);
}
user_sum -= val;
if (goBack) --it; else ++it;
len--;
}
if (DEBUG_DRAWING)
kdDebug(90100) << " -drawItemArray(" << item->path(0).join("/")
<< "): Continue" << endl;
return true;
}
/*----------------------------------------------------------------
* Popup menus for option setting
*/
void TreeMapWidget::splitActivated(int id)
{
if (id == _splitID) setSplitMode(TreeMapItem::Bisection);
else if (id == _splitID+1) setSplitMode(TreeMapItem::Columns);
else if (id == _splitID+2) setSplitMode(TreeMapItem::Rows);
else if (id == _splitID+3) setSplitMode(TreeMapItem::AlwaysBest);
else if (id == _splitID+4) setSplitMode(TreeMapItem::Best);
else if (id == _splitID+5) setSplitMode(TreeMapItem::VAlternate);
else if (id == _splitID+6) setSplitMode(TreeMapItem::HAlternate);
else if (id == _splitID+7) setSplitMode(TreeMapItem::Horizontal);
else if (id == _splitID+8) setSplitMode(TreeMapItem::Vertical);
}
void TreeMapWidget::addSplitDirectionItems(TQPopupMenu* popup, int id)
{
_splitID = id;
popup->setCheckable(true);
connect(popup, TQT_SIGNAL(activated(int)),
this, TQT_SLOT(splitActivated(int)));
popup->insertItem(i18n("Recursive Bisection"), id);
popup->insertItem(i18n("Columns"), id+1);
popup->insertItem(i18n("Rows"), id+2);
popup->insertItem(i18n("Always Best"), id+3);
popup->insertItem(i18n("Best"), id+4);
popup->insertItem(i18n("Alternate (V)"), id+5);
popup->insertItem(i18n("Alternate (H)"), id+6);
popup->insertItem(i18n("Horizontal"), id+7);
popup->insertItem(i18n("Vertical"), id+8);
switch(splitMode()) {
case TreeMapItem::Bisection: popup->setItemChecked(id,true); break;
case TreeMapItem::Columns: popup->setItemChecked(id+1,true); break;
case TreeMapItem::Rows: popup->setItemChecked(id+2,true); break;
case TreeMapItem::AlwaysBest: popup->setItemChecked(id+3,true); break;
case TreeMapItem::Best: popup->setItemChecked(id+4,true); break;
case TreeMapItem::VAlternate: popup->setItemChecked(id+5,true); break;
case TreeMapItem::HAlternate: popup->setItemChecked(id+6,true); break;
case TreeMapItem::Horizontal: popup->setItemChecked(id+7,true); break;
case TreeMapItem::Vertical: popup->setItemChecked(id+8,true); break;
default: break;
}
}
void TreeMapWidget::visualizationActivated(int id)
{
if (id == _visID+2) setSkipIncorrectBorder(!skipIncorrectBorder());
else if (id == _visID+3) setBorderWidth(0);
else if (id == _visID+4) setBorderWidth(1);
else if (id == _visID+5) setBorderWidth(2);
else if (id == _visID+6) setBorderWidth(3);
else if (id == _visID+10) setAllowRotation(!allowRotation());
else if (id == _visID+11) setShadingEnabled(!isShadingEnabled());
else if (id<_visID+19 || id>_visID+100) return;
id -= 20+_visID;
int f = id/10;
if ((id%10) == 1) setFieldVisible(f, !fieldVisible(f));
else if ((id%10) == 2) setFieldForced(f, !fieldForced(f));
else if ((id%10) == 3) setFieldPosition(f, DrawParams::TopLeft);
else if ((id%10) == 4) setFieldPosition(f, DrawParams::TopCenter);
else if ((id%10) == 5) setFieldPosition(f, DrawParams::TopRight);
else if ((id%10) == 6) setFieldPosition(f, DrawParams::BottomLeft);
else if ((id%10) == 7) setFieldPosition(f, DrawParams::BottomCenter);
else if ((id%10) == 8) setFieldPosition(f, DrawParams::BottomRight);
}
void TreeMapWidget::addVisualizationItems(TQPopupMenu* popup, int id)
{
_visID = id;
popup->setCheckable(true);
TQPopupMenu* bpopup = new TQPopupMenu();
bpopup->setCheckable(true);
connect(popup, TQT_SIGNAL(activated(int)),
this, TQT_SLOT(visualizationActivated(int)));
connect(bpopup, TQT_SIGNAL(activated(int)),
this, TQT_SLOT(visualizationActivated(int)));
TQPopupMenu* spopup = new TQPopupMenu();
addSplitDirectionItems(spopup, id+100);
popup->insertItem(i18n("Nesting"), spopup, id);
popup->insertItem(i18n("Border"), bpopup, id+1);
bpopup->insertItem(i18n("Correct Borders Only"), id+2);
bpopup->insertSeparator();
bpopup->insertItem(i18n("Width %1").arg(0), id+3);
bpopup->insertItem(i18n("Width %1").arg(1), id+4);
bpopup->insertItem(i18n("Width %1").arg(2), id+5);
bpopup->insertItem(i18n("Width %1").arg(3), id+6);
bpopup->setItemChecked(id+2, skipIncorrectBorder());
bpopup->setItemChecked(id+3, borderWidth()==0);
bpopup->setItemChecked(id+4, borderWidth()==1);
bpopup->setItemChecked(id+5, borderWidth()==2);
bpopup->setItemChecked(id+6, borderWidth()==3);
popup->insertItem(i18n("Allow Rotation"), id+10);
popup->setItemChecked(id+10,allowRotation());
popup->insertItem(i18n("Shading"), id+11);
popup->setItemChecked(id+11,isShadingEnabled());
if (_attr.size() ==0) return;
popup->insertSeparator();
int f;
TQPopupMenu* tpopup;
id += 20;
for (f=0;f<(int)_attr.size();f++, id+=10) {
tpopup = new TQPopupMenu();
tpopup->setCheckable(true);
popup->insertItem(_attr[f].type, tpopup, id);
tpopup->insertItem(i18n("Visible"), id+1);
tpopup->insertItem(i18n("Take Space From Children"), id+2);
tpopup->insertSeparator();
tpopup->insertItem(i18n("Top Left"), id+3);
tpopup->insertItem(i18n("Top Center"), id+4);
tpopup->insertItem(i18n("Top Right"), id+5);
tpopup->insertItem(i18n("Bottom Left"), id+6);
tpopup->insertItem(i18n("Bottom Center"), id+7);
tpopup->insertItem(i18n("Bottom Right"), id+8);
tpopup->setItemChecked(id+1,_attr[f].visible);
tpopup->setItemEnabled(id+2,_attr[f].visible);
tpopup->setItemEnabled(id+3,_attr[f].visible);
tpopup->setItemEnabled(id+4,_attr[f].visible);
tpopup->setItemEnabled(id+5,_attr[f].visible);
tpopup->setItemEnabled(id+6,_attr[f].visible);
tpopup->setItemEnabled(id+7,_attr[f].visible);
tpopup->setItemEnabled(id+8,_attr[f].visible);
tpopup->setItemChecked(id+2,_attr[f].forced);
tpopup->setItemChecked(id+3,_attr[f].pos == DrawParams::TopLeft);
tpopup->setItemChecked(id+4,_attr[f].pos == DrawParams::TopCenter);
tpopup->setItemChecked(id+5,_attr[f].pos == DrawParams::TopRight);
tpopup->setItemChecked(id+6,_attr[f].pos == DrawParams::BottomLeft);
tpopup->setItemChecked(id+7,_attr[f].pos == DrawParams::BottomCenter);
tpopup->setItemChecked(id+8,_attr[f].pos == DrawParams::BottomRight);
connect(tpopup, TQT_SIGNAL(activated(int)),
this, TQT_SLOT(visualizationActivated(int)));
}
}
void TreeMapWidget::selectionActivated(int id)
{
TreeMapItem* i = _menuItem;
id -= _selectionID;
while (id>0 && i) {
i=i->parent();
id--;
}
if (i)
setSelected(i, true);
}
void TreeMapWidget::addSelectionItems(TQPopupMenu* popup,
int id, TreeMapItem* i)
{
if (!i) return;
_selectionID = id;
_menuItem = i;
connect(popup, TQT_SIGNAL(activated(int)),
this, TQT_SLOT(selectionActivated(int)));
while (i) {
TQString name = i->text(0);
if (name.isEmpty()) break;
popup->insertItem(i->text(0), id++);
i = i->parent();
}
}
void TreeMapWidget::fieldStopActivated(int id)
{
if (id == _fieldStopID) setFieldStop(0, TQString());
else {
TreeMapItem* i = _menuItem;
id -= _fieldStopID+1;
while (id>0 && i) {
i=i->parent();
id--;
}
if (i)
setFieldStop(0, i->text(0));
}
}
void TreeMapWidget::addFieldStopItems(TQPopupMenu* popup,
int id, TreeMapItem* i)
{
_fieldStopID = id;
connect(popup, TQT_SIGNAL(activated(int)),
this, TQT_SLOT(fieldStopActivated(int)));
popup->insertItem(i18n("No %1 Limit").arg(fieldType(0)), id);
popup->setItemChecked(id, fieldStop(0).isEmpty());
_menuItem = i;
bool foundFieldStop = false;
if (i) {
popup->insertSeparator();
while (i) {
id++;
TQString name = i->text(0);
if (name.isEmpty()) break;
popup->insertItem(i->text(0), id);
if (fieldStop(0) == i->text(0)) {
popup->setItemChecked(id, true);
foundFieldStop = true;
}
i = i->parent();
}
}
if (!foundFieldStop && !fieldStop(0).isEmpty()) {
popup->insertSeparator();
popup->insertItem(fieldStop(0), id+1);
popup->setItemChecked(id+1, true);
}
}
void TreeMapWidget::areaStopActivated(int id)
{
if (id == _areaStopID) setMinimalArea(-1);
else if (id == _areaStopID+1) {
int area = _menuItem ? (_menuItem->width() * _menuItem->height()) : -1;
setMinimalArea(area);
}
else if (id == _areaStopID+2) setMinimalArea(100);
else if (id == _areaStopID+3) setMinimalArea(400);
else if (id == _areaStopID+4) setMinimalArea(1000);
else if (id == _areaStopID+5) setMinimalArea(minimalArea()*2);
else if (id == _areaStopID+6) setMinimalArea(minimalArea()/2);
}
void TreeMapWidget::addAreaStopItems(TQPopupMenu* popup,
int id, TreeMapItem* i)
{
_areaStopID = id;
_menuItem = i;
connect(popup, TQT_SIGNAL(activated(int)),
this, TQT_SLOT(areaStopActivated(int)));
bool foundArea = false;
popup->insertItem(i18n("No Area Limit"), id);
popup->setItemChecked(id, minimalArea() == -1);
if (i) {
int area = i->width() * i->height();
popup->insertSeparator();
popup->insertItem(i18n("Area of '%1' (%2)")
.arg(i->text(0)).arg(area), id+1);
if (area == minimalArea()) {
popup->setItemChecked(id+1, true);
foundArea = true;
}
}
popup->insertSeparator();
int area = 100, count;
for (count=0;count<3;count++) {
popup->insertItem(i18n("1 Pixel", "%n Pixels", area), id+2+count);
if (area == minimalArea()) {
popup->setItemChecked(id+2+count, true);
foundArea = true;
}
area = (area==100) ? 400 : (area==400) ? 1000 : 4000;
}
if (minimalArea()>0) {
popup->insertSeparator();
if (!foundArea) {
popup->insertItem(i18n("1 Pixel", "%n Pixels", minimalArea()), id+10);
popup->setItemChecked(id+10, true);
}
popup->insertItem(i18n("Double Area Limit (to %1)")
.arg(minimalArea()*2), id+5);
popup->insertItem(i18n("Halve Area Limit (to %1)")
.arg(minimalArea()/2), id+6);
}
}
void TreeMapWidget::depthStopActivated(int id)
{
if (id == _depthStopID) setMaxDrawingDepth(-1);
else if (id == _depthStopID+1) {
int d = _menuItem ? _menuItem->depth() : -1;
setMaxDrawingDepth(d);
}
else if (id == _depthStopID+2) setMaxDrawingDepth(maxDrawingDepth()-1);
else if (id == _depthStopID+3) setMaxDrawingDepth(maxDrawingDepth()+1);
else if (id == _depthStopID+4) setMaxDrawingDepth(2);
else if (id == _depthStopID+5) setMaxDrawingDepth(4);
else if (id == _depthStopID+6) setMaxDrawingDepth(6);
}
void TreeMapWidget::addDepthStopItems(TQPopupMenu* popup,
int id, TreeMapItem* i)
{
_depthStopID = id;
_menuItem = i;
connect(popup, TQT_SIGNAL(activated(int)),
this, TQT_SLOT(depthStopActivated(int)));
bool foundDepth = false;
popup->insertItem(i18n("No Depth Limit"), id);
popup->setItemChecked(id, maxDrawingDepth() == -1);
if (i) {
int d = i->depth();
popup->insertSeparator();
popup->insertItem(i18n("Depth of '%1' (%2)")
.arg(i->text(0)).arg(d), id+1);
if (d == maxDrawingDepth()) {
popup->setItemChecked(id+1, true);
foundDepth = true;
}
}
popup->insertSeparator();
int depth = 2, count;
for (count=0;count<3;count++) {
popup->insertItem(i18n("Depth %1").arg(depth), id+4+count);
if (depth == maxDrawingDepth()) {
popup->setItemChecked(id+4+count, true);
foundDepth = true;
}
depth = (depth==2) ? 4 : 6;
}
if (maxDrawingDepth()>1) {
popup->insertSeparator();
if (!foundDepth) {
popup->insertItem(i18n("Depth %1").arg(maxDrawingDepth()), id+10);
popup->setItemChecked(id+10, true);
}
popup->insertItem(i18n("Decrement (to %1)")
.arg(maxDrawingDepth()-1), id+2);
popup->insertItem(i18n("Increment (to %1)")
.arg(maxDrawingDepth()+1), id+3);
}
}
/*----------------------------------------------------------------
* Option saving/restoring
*/
void TreeMapWidget::saveOptions(TDEConfigGroup* config, TQString prefix)
{
config->writeEntry(prefix+"Nesting", splitModeString());
config->writeEntry(prefix+"AllowRotation", allowRotation());
config->writeEntry(prefix+"ShadingEnabled", isShadingEnabled());
config->writeEntry(prefix+"OnlyCorrectBorder", skipIncorrectBorder());
config->writeEntry(prefix+"BorderWidth", borderWidth());
config->writeEntry(prefix+"MaxDepth", maxDrawingDepth());
config->writeEntry(prefix+"MinimalArea", minimalArea());
int f, fCount = _attr.size();
config->writeEntry(prefix+"FieldCount", fCount);
for (f=0;f<fCount;f++) {
config->writeEntry(TQString(prefix+"FieldVisible%1").arg(f),
_attr[f].visible);
config->writeEntry(TQString(prefix+"FieldForced%1").arg(f),
_attr[f].forced);
config->writeEntry(TQString(prefix+"FieldStop%1").arg(f),
_attr[f].stop);
config->writeEntry(TQString(prefix+"FieldPosition%1").arg(f),
fieldPositionString(f));
}
}
void TreeMapWidget::restoreOptions(TDEConfigGroup* config, TQString prefix)
{
bool enabled;
int num;
TQString str;
str = config->readEntry(prefix+"Nesting");
if (!str.isEmpty()) setSplitMode(str);
if (config->hasKey(prefix+"AllowRotation")) {
enabled = config->readBoolEntry(prefix+"AllowRotation", true);
setAllowRotation(enabled);
}
if (config->hasKey(prefix+"ShadingEnabled")) {
enabled = config->readBoolEntry(prefix+"ShadingEnabled", true);
setShadingEnabled(enabled);
}
if (config->hasKey(prefix+"OnlyCorrectBorder")) {
enabled = config->readBoolEntry(prefix+"OnlyCorrectBorder", false);
setSkipIncorrectBorder(enabled);
}
num = config->readNumEntry(prefix+"BorderWidth", -2);
if (num!=-2) setBorderWidth(num);
num = config->readNumEntry(prefix+"MaxDepth", -2);
if (num!=-2) setMaxDrawingDepth(num);
num = config->readNumEntry(prefix+"MinimalArea", -2);
if (num!=-2) setMinimalArea(num);
num = config->readNumEntry(prefix+"FieldCount", -2);
if (num<=0 || num>MAX_FIELD) return;
int f;
for (f=0;f<num;f++) {
str = TQString(prefix+"FieldVisible%1").arg(f);
if (config->hasKey(str))
setFieldVisible(f, config->readBoolEntry(str));
str = TQString(prefix+"FieldForced%1").arg(f);
if (config->hasKey(str))
setFieldForced(f, config->readBoolEntry(str));
str = config->readEntry(TQString(prefix+"FieldStop%1").arg(f));
setFieldStop(f, str);
str = config->readEntry(TQString(prefix+"FieldPosition%1").arg(f));
if (!str.isEmpty()) setFieldPosition(f, str);
}
}
#include "treemap.moc"
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