// ----------------------------------------------------------------------------
void CViewBitmap::draw ()
{
CInterfaceManager *pIM = CInterfaceManager::getInstance();
CViewRenderer &rVR = pIM->getViewRenderer();
CRGBA col;
if(getModulateGlobalColor())
{
col.modulateFromColor (_Color, pIM->getGlobalColorForContent());
}
else
{
col= _Color;
col.A = (uint8)(((sint32)col.A*((sint32)pIM->getGlobalColorForContent().A+1))>>8);
}
if (_InheritGCAlpha)
{
// search a parent container
CInterfaceGroup *gr = getParent();
while (gr)
{
if (gr->isGroupContainer())
{
CGroupContainer *gc = static_cast<CGroupContainer *>(gr);
col.A = (uint8)(((sint32)col.A*((sint32)gc->getCurrentContainerAlpha()+1))>>8);
break;
}
gr = gr->getParent();
}
}
// ***************************************************************************
void CGroupTab::setup()
{
if(_Setuped)
return;
_Setuped= true;
_Buttons.clear();
_Groups.clear();
/* Buttons must be named tab0,tab1,tab2...
and tab_array0_0, tab_array0_1 .... (for vector of tab)
Only 10 tab array are allowed
*/
for(sint tabArrayIndex= -1;tabArrayIndex<10;tabArrayIndex++)
{
// prefix according to array or not
string prefix;
if(tabArrayIndex==-1)
prefix= "tab";
else
prefix= toString("tab_array%d_", tabArrayIndex);
// for all tab of this type (standard tab or array of tab), find the Buttons and groups.
uint tabIndex=0;
for(;;)
{
// find the ctrl named "tab0"
CCtrlTabButton *but= dynamic_cast<CCtrlTabButton*>(getCtrl(toString("%s%d", prefix.c_str(), tabIndex)));
if(!but)
break;
// find the associated group
CInterfaceGroup *pGroup = NULL;
CInterfaceGroup *pFather = this;
while ((pGroup == NULL) && (pFather != NULL))
{
pGroup = pFather->getGroup(but->_AssociatedGroup);
pFather = pFather->getParent();
}
// add to the button and group list
_Buttons.push_back(but);
_Groups.push_back(pGroup);
// try next
tabIndex++;
}
}
// at the first setup, select by default the 1st
if(_Selection<0)
select(0);
}
bool CInterfaceElement::isInGroup( CInterfaceGroup *group )
{
CInterfaceGroup *parent = getParent();
while( parent != NULL )
{
if( parent == group )
return true;
else
parent = parent->getParent();
}
return false;
}
// ----------------------------------------------------------------------------
void CGroupList::draw ()
{
// TEMP TEMP
//CViewRenderer &rVR = *CViewRenderer::getInstance();
//rVR.drawRotFlipBitmap _RenderLayer, (_XReal, _YReal, _WReal, _HReal, 0, false, rVR.getBlankTextureId(), CRGBA(0, 255, 0, 255) );
if (_Over)
{
CViewRenderer &rVR = *CViewRenderer::getInstance();
if (CWidgetManager::getInstance()->getModalWindow() == NULL)
{
sint32 x = CWidgetManager::getInstance()->getPointer()->getX();
sint32 y = CWidgetManager::getInstance()->getPointer()->getY();
CInterfaceGroup *pIG = CWidgetManager::getInstance()->getWindowUnder(x, y);
CInterfaceGroup *pParent = this;
bool bFound = false;
while (pParent != NULL)
{
if (pParent == pIG)
{
bFound = true;
break;
}
pParent = pParent->getParent();
}
sint32 clipx, clipy, clipw, cliph;
getClip(clipx, clipy, clipw, cliph);
if ((x < clipx) ||
(x > (clipx + clipw)) ||
(y < clipy) ||
(y > (clipy + cliph)) || !bFound)
{
_OverElt = -1;
}
else
{
for (uint32 i = 0; i < _Elements.size(); ++i)
if (_Elements[i].Element->getActive())
{
CViewBase *pVB = _Elements[i].Element;
if ((x >= pVB->getXReal()) &&
(x < (pVB->getXReal() + pVB->getWReal()))&&
(y >= pVB->getYReal()) &&
(y < (pVB->getYReal() + pVB->getHReal())))
{
_OverElt = i;
}
}
}
}
if (_OverElt != -1)
{
// Find the first container
CInterfaceGroup *pIG = _Parent;
CGroupContainerBase *pGC = dynamic_cast<CGroupContainerBase*>(pIG);
while (pIG != NULL)
{
pIG = pIG->_Parent;
if (pIG == NULL) break;
if (dynamic_cast<CGroupContainerBase*>(pIG) != NULL)
pGC = dynamic_cast<CGroupContainerBase*>(pIG);
}
bool bDisplayOverSelection = true;
if (pGC != NULL)
{
if (pGC->isGrayed())
bDisplayOverSelection = false;
}
if (bDisplayOverSelection)
{
CViewBase *pVB = _Elements[_OverElt].Element;
CRGBA col = _OverColor;
if(getModulateGlobalColor())
{
col.modulateFromColor (_OverColor, CWidgetManager::getInstance()->getGlobalColorForContent());
}
else
{
col= _OverColor;
col.A = (uint8)(((sint32)col.A*((sint32)CWidgetManager::getInstance()->getGlobalColorForContent().A+1))>>8);
}
rVR.drawRotFlipBitmap (_RenderLayer, pVB->getXReal(), pVB->getYReal(),
pVB->getWReal(), pVB->getHReal(), 0, false, rVR.getBlankTextureId(),
col );
}
}
}
//*****************************************************************************************************************
void CGroupHeader::enlargeColumns(sint32 margin)
{
std::vector<CGroupHeaderEntry *> entries;
getEntries(entries);
sint32 totalWidth = 0;
for (uint k = 0; k < entries.size(); ++k)
{
CInterfaceGroup *colEnclosing = entries[k]->getTargetColumn();
if (colEnclosing && !colEnclosing->getGroups().empty())
{
CInterfaceGroup *col = colEnclosing->getGroups()[0];
if (col)
{
// enlarge to the max to be able to measure the sub text (they may clamp themselves based
// on their first non-"child resizing" parent (see CViewText::updateCoords)
colEnclosing->setW(16384);
colEnclosing->invalidateCoords();
colEnclosing->updateCoords();
// assume that first child is resizing from its children width (either 'child_resize_w=true' or a CGroupList)
entries[k]->setW(std::max(entries[k]->getMinSize(), col->getW() + margin));
entries[k]->invalidateCoords();
totalWidth += entries[k]->getW();
}
}
}
// if total width bigger than allowed, reduce proportionnally
if (totalWidth > _HeaderMaxSize)
{
while (totalWidth > _HeaderMaxSize)
{
bool adjusted = false;
// stupid algo here, but ponctual ...
for (uint k = 0; k < entries.size() && totalWidth > _HeaderMaxSize; ++k)
{
if (entries[k]->getW() > entries[k]->getMinSize())
{
entries[k]->setW(entries[k]->getW() - 1);
entries[k]->invalidateCoords();
--totalWidth;
adjusted = true;
}
}
// if all at min size, just exit ...
if (!adjusted) break;
}
}
else
{
// search first parent that limit size, if it is larger then enlarge to fit size
CInterfaceGroup *limitingParent = getParent();
while (limitingParent && (limitingParent->getResizeFromChildW() || dynamic_cast<CGroupList *>(limitingParent)))
{
// NB nico : the dynamic_cast for CGroupList is bad!!
// can't avoid it for now, because, CGroupList implicitly does a "resize from child" in its update coords
// ...
limitingParent = limitingParent->getParent();
}
if (limitingParent && limitingParent->getWReal() > totalWidth)
{
while (limitingParent->getWReal() > totalWidth && totalWidth < _HeaderMaxSize)
{
// enlarge to matche parent size
// stupid algo here, but ponctual ...
for (uint k = 0; k < entries.size(); ++k)
{
entries[k]->setW(entries[k]->getW() + 1);
entries[k]->invalidateCoords();
++totalWidth;
if (limitingParent->getWReal() <= totalWidth || totalWidth >= _HeaderMaxSize) break;
}
}
}
}
invalidateCoords();
}
//*****************************************************************************************************************
void CGroupHeader::resizeColumnsAndContainer(sint32 margin)
{
std::vector<CGroupHeaderEntry *> entries;
getEntries(entries);
sint32 totalWidth = 0;
for (uint k = 0; k < entries.size(); ++k)
{
CInterfaceGroup *colEnclosing = entries[k]->getTargetColumn();
if (colEnclosing && !colEnclosing->getGroups().empty())
{
CInterfaceGroup *col = colEnclosing->getGroups()[0];
if (col)
{
// enlarge to the max to be able to measure the sub text (they may clamp themselves based
// on their first non-"child resizing" parent (see CViewText::updateCoords)
colEnclosing->setW(16384);
colEnclosing->invalidateCoords();
colEnclosing->updateCoords();
// assume that first child is resizing from its children width (either 'child_resize_w=true' or a CGroupList)
entries[k]->setW(std::max(entries[k]->getMinSize(), col->getW() + margin));
entries[k]->invalidateCoords();
totalWidth += entries[k]->getW();
}
}
}
// resize W
if (totalWidth <= _HeaderMaxSize)
{
// search first parent that limit size, if it is larger then enlarge to fit size
CInterfaceGroup *limitingParent = getParent();
while (limitingParent && (limitingParent->getResizeFromChildW() || dynamic_cast<CGroupList *>(limitingParent)))
{
// NB nico : the dynamic_cast for CGroupList is bad!!
// can't avoid it for now, because, CGroupList implicitly does a "resize from child" in its update coords
// ...
limitingParent = limitingParent->getParent();
}
getParentContainer()->setW(totalWidth + getParentContainer()->getWReal() - limitingParent->getWReal());
}
// resize H
if(entries.size()>0)
{
CInterfaceGroup *colEnclosing = entries[0]->getTargetColumn();
if (colEnclosing && !colEnclosing->getGroups().empty())
{
CInterfaceGroup *col = colEnclosing->getGroups()[0];
if (col)
{
// search first parent that limit size, if it is larger then enlarge to fit size
CInterfaceGroup *limitingParent = colEnclosing->getParent();
while (limitingParent && (limitingParent->getResizeFromChildH() || dynamic_cast<CGroupList *>(limitingParent)))
limitingParent = limitingParent->getParent();
getParentContainer()->setH(col->getH() + getParentContainer()->getHReal() - limitingParent->getHReal());
}
}
}
invalidateCoords();
}
