[wxWidgets.git] / src / common / wrapsizer.cpp

/////////////////////////////////////////////////////////////////////////////
// Name:        src/common/wrapsizer.cpp
// Purpose:     provides wxWrapSizer class for layout
// Author:      Arne Steinarson
// Created:     2008-05-08
// RCS-ID:      $Id$
// Copyright:   (c) Arne Steinarson
// Licence:     wxWindows licence
/////////////////////////////////////////////////////////////////////////////

// ============================================================================
// declarations
// ============================================================================

// ----------------------------------------------------------------------------
// headers
// ----------------------------------------------------------------------------

// For compilers that support precompilation, includes "wx.h".
#include "wx/wxprec.h"

#ifdef __BORLANDC__
    #pragma hdrstop
#endif

#include "wx/wrapsizer.h"
#include "wx/vector.h"

namespace
{

// ----------------------------------------------------------------------------
// helper local classes
// ----------------------------------------------------------------------------

// This object changes the item proportion to INT_MAX in its ctor and restores
// it back in the dtor.
class wxPropChanger : public wxObject
{
public:
    wxPropChanger(wxSizer& sizer, wxSizerItem& item)
        : m_sizer(sizer),
          m_item(item),
          m_propOld(item.GetProportion())
    {
        // ensure that this item expands more than all the other ones
        item.SetProportion(INT_MAX);
    }

    ~wxPropChanger()
    {
        // check if the sizer still has this item, it could have been removed
        if ( m_sizer.GetChildren().Find(&m_item) )
            m_item.SetProportion(m_propOld);
    }

private:
    wxSizer& m_sizer;
    wxSizerItem& m_item;
    const int m_propOld;

    wxDECLARE_NO_COPY_CLASS(wxPropChanger);
};

} // anonymous namespace

// ============================================================================
// wxWrapSizer implementation
// ============================================================================

IMPLEMENT_DYNAMIC_CLASS(wxWrapSizer, wxBoxSizer)

wxWrapSizer::wxWrapSizer(int orient, int flags)
           : wxBoxSizer(orient),
             m_flags(flags),
             m_dirInform(0),
             m_availSize(-1),
             m_availableOtherDir(0),
             m_lastUsed(true),
             m_minSizeMinor(0),
             m_maxSizeMajor(0),
             m_minItemMajor(INT_MAX),
             m_rows(orient ^ wxBOTH)
{
}

wxWrapSizer::~wxWrapSizer()
{
    ClearRows();
}

void wxWrapSizer::ClearRows()
{
    // all elements of the row sizers are also elements of this one (we
    // directly add pointers to elements of our own m_children list to the row
    // sizers in RecalcSizes()), so we need to detach them from the row sizer
    // to avoid double deletion
    wxSizerItemList& rows = m_rows.GetChildren();
    for ( wxSizerItemList::iterator i = rows.begin(),
                                  end = rows.end();
          i != end;
          ++i )
    {
        wxSizerItem * const item = *i;
        wxSizer * const row = item->GetSizer();
        if ( !row )
        {
            wxFAIL_MSG( "all elements of m_rows must be sizers" );
            continue;
        }

        row->GetChildren().clear();

        wxPropChanger * const
            propChanger = static_cast<wxPropChanger *>(item->GetUserData());
        if ( propChanger )
        {
            // this deletes propChanger and so restores the old proportion
            item->SetUserData(NULL);
        }
    }
}

wxSizer *wxWrapSizer::GetRowSizer(size_t n)
{
    const wxSizerItemList& rows = m_rows.GetChildren();
    if ( n < rows.size() )
        return rows[n]->GetSizer();

    wxSizer * const sizer = new wxBoxSizer(GetOrientation());
    m_rows.Add(sizer, wxSizerFlags().Expand());
    return sizer;
}

bool wxWrapSizer::InformFirstDirection(int direction,
                                       int size,
                                       int availableOtherDir)
{
    if ( !direction )
        return false;

    // Store the values for later use
    m_availSize = size;
    m_availableOtherDir = availableOtherDir +
                            (direction == wxHORIZONTAL ? m_minSize.y
                                                       : m_minSize.x);
    m_dirInform = direction;
    m_lastUsed = false;
    return true;
}


void wxWrapSizer::AdjustLastRowItemProp(size_t n, wxSizerItem *itemLast)
{
    if ( !itemLast || !(m_flags & wxEXTEND_LAST_ON_EACH_LINE) )
    {
        // nothing to do
        return;
    }

    wxSizerItem * const item = m_rows.GetItem(n);
    wxCHECK_RET( item, "invalid sizer item" );

    // store the item we modified and its original proportion
    item->SetUserData(new wxPropChanger(*this, *itemLast));
}

wxSize wxWrapSizer::CalcMin()
{
    if ( m_children.empty() )
        return wxSize();

    // We come here to calculate min size in two different situations:
    // 1 - Immediately after InformFirstDirection, then we find a min size that
    //     uses one dimension maximally and the other direction minimally.
    // 2 - Ordinary case, get a sensible min size value using the current line
    //     layout, trying to maintain the possibility to re-arrange lines by
    //     sizing

    if ( !m_lastUsed )
    {
        // Case 1 above: InformFirstDirection() has just been called
        m_lastUsed = true;

        // There are two different algorithms for finding a useful min size for
        // a wrap sizer, depending on whether the first reported size component
        // is the opposite as our own orientation (the simpler case) or the same
        // one (more complicated).
        if ( m_dirInform == m_orient )
            CalcMinFromMajor(m_availSize);
        else
            CalcMinFromMinor(m_availSize);
    }
    else // Case 2 above: not immediately after InformFirstDirection()
    {
        if ( m_availSize > 0 )
        {
            wxSize szAvail;    // Keep track of boundary so we don't overflow
            if ( m_dirInform == m_orient )
                szAvail = SizeFromMajorMinor(m_availSize, m_availableOtherDir);
            else
                szAvail = SizeFromMajorMinor(m_availableOtherDir, m_availSize);

            CalcMinFittingSize(szAvail);
        }
        else // Initial calculation, before we have size available to us
        {
            CalcMaxSingleItemSize();
        }
    }

    return m_minSize;
}

void wxWrapSizer::CalcMinFittingSize(const wxSize& szBoundary)
{
    // Min size based on current line layout. It is important to
    // provide a smaller size when possible to allow for resizing with
    // the help of re-arranging the lines.
    wxSize sizeMin = SizeFromMajorMinor(m_maxSizeMajor, m_minSizeMinor);
    if ( m_minSizeMinor < SizeInMinorDir(m_size) &&
            m_maxSizeMajor < SizeInMajorDir(m_size) )
    {
        m_minSize = sizeMin;
    }
    else
    {
        // Try making it a bit more narrow
        bool done = false;
        if ( m_minItemMajor != INT_MAX && m_maxSizeMajor > 0 )
        {
            // We try to present a lower min value by removing an item in
            // the major direction (and preserving current minor min size).
            CalcMinFromMajor(m_maxSizeMajor - m_minItemMajor);
            if ( m_minSize.x <= szBoundary.x && m_minSize.y <= szBoundary.y )
            {
                SizeInMinorDir(m_minSize) = SizeInMinorDir(sizeMin);
                done = true;
            }
        }

        if ( !done )
        {
            // If failed finding little smaller area, go back to what we had
            m_minSize = sizeMin;
        }
    }
}

void wxWrapSizer::CalcMaxSingleItemSize()
{
    // Find max item size in each direction
    int maxMajor = 0;    // Widest item
    int maxMinor = 0;    // Line height
    for ( wxSizerItemList::const_iterator i = m_children.begin();
          i != m_children.end();
          ++i )
    {
        wxSizerItem * const item = *i;
        if ( item->IsShown() )
        {
            wxSize sz = item->CalcMin();
            if ( SizeInMajorDir(sz) > maxMajor )
                maxMajor = SizeInMajorDir(sz);
            if ( SizeInMinorDir(sz) > maxMinor )
                maxMinor = SizeInMinorDir(sz);
        }
    }

    // This is, of course, not our real minimal size but if we return more
    // than this it would be impossible to shrink us to one row/column so
    // we have to pretend that this is all we need for now.
    m_minSize = SizeFromMajorMinor(maxMajor, maxMinor);
}

void wxWrapSizer::CalcMinFromMajor(int totMajor)
{
    // Algorithm for calculating min size: (assuming horizontal orientation)
    // This is the simpler case (known major size)
    // X: Given, totMajor
    // Y: Based on X, calculate how many lines needed

    int maxTotalMajor = 0;      // max of rowTotalMajor over all rows
    int minorSum = 0;           // sum of sizes of all rows in minor direction
    int maxRowMinor = 0;        // max of item minor sizes in this row
    int rowTotalMajor = 0;      // sum of major sizes of items in this row

    // pack the items in each row until we reach totMajor, then start a new row
    for ( wxSizerItemList::const_iterator i = m_children.begin();
          i != m_children.end();
          ++i )
    {
        wxSizerItem * const item = *i;
        if ( !item->IsShown() )
            continue;

        wxSize minItemSize = item->CalcMin();
        const int itemMajor = SizeInMajorDir(minItemSize);
        const int itemMinor = SizeInMinorDir(minItemSize);

        // check if this is the first item in a new row: if so, we have to put
        // it in it, whether it fits or not, as it would never fit better
        // anyhow
        //
        // otherwise check if we have enough space left for this item here
        if ( !rowTotalMajor || rowTotalMajor + itemMajor <= totMajor )
        {
            // continue this row
            rowTotalMajor += itemMajor;
            if ( itemMinor > maxRowMinor )
                maxRowMinor = itemMinor;
        }
        else // start a new row
        {
            // minor size of the row is the max of minor sizes of its items
            minorSum += maxRowMinor;
            if ( rowTotalMajor > maxTotalMajor )
                maxTotalMajor = rowTotalMajor;
            maxRowMinor = itemMinor;
            rowTotalMajor = itemMajor;
        }
    }

    // account for the last (unfinished) row too
    minorSum += maxRowMinor;
    if ( rowTotalMajor > maxTotalMajor )
        maxTotalMajor = rowTotalMajor;

    m_minSize = SizeFromMajorMinor(maxTotalMajor, minorSum);
}

// Helper struct for CalcMinFromMinor
struct wxWrapLine
{
    wxWrapLine() : m_first(NULL), m_width(0) { }
    wxSizerItem *m_first;
    int m_width;        // Width of line
};

void wxWrapSizer::CalcMinFromMinor(int totMinor)
{
    // Algorithm for calculating min size:
    // This is the more complex case (known minor size)

    // First step, find total sum of all items in primary direction
    // and max item size in secondary direction, that gives initial
    // estimate of the minimum number of lines.

    int totMajor = 0;    // Sum of widths
    int maxMinor = 0;    // Line height
    int maxMajor = 0;    // Widest item
    int itemCount = 0;
    wxSizerItemList::compatibility_iterator node = m_children.GetFirst();
    wxSize sz;
    while (node)
    {
        wxSizerItem *item = node->GetData();
        if ( item->IsShown() )
        {
            sz = item->CalcMin();
            totMajor += SizeInMajorDir(sz);
            if ( SizeInMinorDir(sz)>maxMinor )
                maxMinor = SizeInMinorDir(sz);
            if ( SizeInMajorDir(sz)>maxMinor )
                maxMajor = SizeInMajorDir(sz);
            itemCount++;
        }
        node = node->GetNext();
    }

    // The trivial case
    if ( !itemCount || totMajor==0 || maxMinor==0 )
    {
        m_minSize = wxSize(0,0);
        return;
    }

    // First attempt, use lines of average size:
    int nrLines = totMinor / maxMinor; // Rounding down is right here
    if ( nrLines<=1 )
    {
        // Another simple case, everything fits on one line
        m_minSize = SizeFromMajorMinor(totMajor,maxMinor);
        return;
    }

    int lineSize = totMajor / nrLines;
    if ( lineSize<maxMajor )     // At least as wide as the widest element
        lineSize = maxMajor;

    // The algorithm is as follows (horz case):
    // 1 - Vertical (minor) size is known.
    // 2 - We have a reasonable estimated width from above
    // 3 - Loop
    // 3a - Do layout with suggested width
    // 3b - See how much we spill over in minor dir
    // 3c - If no spill, we're done
    // 3d - Otherwise increase width by known smallest item
    //      and redo loop

    // First algo step: put items on lines of known max width
    wxVector<wxWrapLine*> lines;

    int sumMinor;       // Sum of all minor sizes (height of all lines)

    // While we still have items 'spilling over' extend the tested line width
    for ( ;; )
    {
        wxWrapLine *line = new wxWrapLine;
        lines.push_back( line );

        int tailSize = 0;   // Width of what exceeds nrLines
        maxMinor = 0;
        sumMinor = 0;
        for ( node=m_children.GetFirst(); node; node=node->GetNext() )
        {
            wxSizerItem *item = node->GetData();
            if ( item->IsShown() )
            {
                sz = item->GetMinSizeWithBorder();
                if ( line->m_width+SizeInMajorDir(sz)>lineSize )
                {
                    line = new wxWrapLine;
                    lines.push_back(line);
                    sumMinor += maxMinor;
                    maxMinor = 0;
                }
                line->m_width += SizeInMajorDir(sz);
                if ( line->m_width && !line->m_first )
                    line->m_first = item;
                if ( SizeInMinorDir(sz)>maxMinor )
                    maxMinor = SizeInMinorDir(sz);
                if ( sumMinor+maxMinor>totMinor )
                {
                    // Keep track of widest tail item
                    if ( SizeInMajorDir(sz)>tailSize )
                        tailSize = SizeInMajorDir(sz);
                }
            }
        }

        if ( tailSize )
        {
            // Now look how much we need to extend our size
            // We know we must have at least one more line than nrLines
            // (otherwise no tail size).
            int bestExtSize = 0; // Minimum extension width for current tailSize
            for ( int ix=0; ix<nrLines; ix++ )
            {
                // Take what is not used on this line, see how much extension we get
                // by adding first item on next line.
                int size = lineSize-lines[ix]->m_width; // Left over at end of this line
                int extSize = GetSizeInMajorDir(lines[ix+1]->m_first->GetMinSizeWithBorder()) - size;
                if ( (extSize>=tailSize && (extSize<bestExtSize || bestExtSize<tailSize)) ||
                    (extSize>bestExtSize && bestExtSize<tailSize) )
                    bestExtSize = extSize;
            }
            // Have an extension size, ready to redo line layout
            lineSize += bestExtSize;
        }

        // Clear helper items
        for ( wxVector<wxWrapLine*>::iterator it=lines.begin(); it<lines.end(); ++it )
            delete *it;
        lines.clear();

        // No spill over?
        if ( !tailSize )
            break;
    }

    // Now have min size in the opposite direction
    m_minSize = SizeFromMajorMinor(lineSize,sumMinor);
}

void wxWrapSizer::FinishRow(size_t n,
                            int rowMajor, int rowMinor,
                            wxSizerItem *itemLast)
{
    // Account for the finished row size.
    m_minSizeMinor += rowMinor;
    if ( rowMajor > m_maxSizeMajor )
        m_maxSizeMajor = rowMajor;

    // And adjust proportion of its last item if necessary.
    AdjustLastRowItemProp(n, itemLast);
}

void wxWrapSizer::RecalcSizes()
{
    // First restore any proportions we may have changed and remove the old rows
    ClearRows();

    if ( m_children.empty() )
        return;

    // Put all our items into as many row box sizers as needed.
    const int majorSize = SizeInMajorDir(m_size);   // max size of each row
    int rowTotalMajor = 0;                          // running row major size
    int maxRowMinor = 0;

    m_minSizeMinor = 0;
    m_minItemMajor = INT_MAX;
    m_maxSizeMajor = 0;

    // We need at least one row
    size_t nRow = 0;
    wxSizer *sizer = GetRowSizer(nRow);

    wxSizerItem *itemLast = NULL,   // last item processed in this row
                *itemSpace = NULL;  // spacer which we delayed adding

    // Now put our child items into child sizers instead
    for ( wxSizerItemList::iterator i = m_children.begin();
          i != m_children.end();
          ++i )
    {
        wxSizerItem * const item = *i;
        if ( !item->IsShown() )
            continue;

        wxSize minItemSize = item->GetMinSizeWithBorder();
        const int itemMajor = SizeInMajorDir(minItemSize);
        const int itemMinor = SizeInMinorDir(minItemSize);
        if ( itemMajor > 0 && itemMajor < m_minItemMajor )
            m_minItemMajor = itemMajor;

        // Is there more space on this line? Notice that if this is the first
        // item we add it unconditionally as it wouldn't fit in the next line
        // any better than in this one.
        if ( !rowTotalMajor || rowTotalMajor + itemMajor <= majorSize )
        {
            // There is enough space here
            rowTotalMajor += itemMajor;
            if ( itemMinor > maxRowMinor )
                maxRowMinor = itemMinor;
        }
        else // Start a new row
        {
            FinishRow(nRow, rowTotalMajor, maxRowMinor, itemLast);

            rowTotalMajor = itemMajor;
            maxRowMinor = itemMinor;

            // Get a new empty sizer to insert into
            sizer = GetRowSizer(++nRow);

            itemLast =
            itemSpace = NULL;
        }

        // Only remove first/last spaces if that flag is set
        if ( (m_flags & wxREMOVE_LEADING_SPACES) && IsSpaceItem(item) )
        {
            // Remember space only if we have a first item
            if ( itemLast )
                itemSpace = item;
        }
        else // not a space
        {
            if ( itemLast && itemSpace )
            {
                // We had a spacer after a real item and now that we add
                // another real item to the same row we need to add the spacer
                // between them two.
                sizer->Add(itemSpace);
            }

            // Notice that we reuse a pointer to our own sizer item here, so we
            // must remember to remove it by calling ClearRows() to avoid
            // double deletion later
            sizer->Add(item);

            itemLast = item;
            itemSpace = NULL;
        }

        // If item is a window, it now has a pointer to the child sizer,
        // which is wrong. Set it to point to us.
        if ( wxWindow *win = item->GetWindow() )
            win->SetContainingSizer(this);
    }

    FinishRow(nRow, rowTotalMajor, maxRowMinor, itemLast);

    // Now do layout on row sizer
    m_rows.SetDimension(m_position, m_size);
}
Commit	Line	Data
13a38887 VZ	1	/////////////////////////////////////////////////////////////////////////////
	2	// Name: src/common/wrapsizer.cpp
	3	// Purpose: provides wxWrapSizer class for layout
	4	// Author: Arne Steinarson
	5	// Created: 2008-05-08
	6	// RCS-ID: $Id$
	7	// Copyright: (c) Arne Steinarson
	8	// Licence: wxWindows licence
	9	/////////////////////////////////////////////////////////////////////////////
	10
	11	// ============================================================================
	12	// declarations
	13	// ============================================================================
	14
	15	// ----------------------------------------------------------------------------
	16	// headers
	17	// ----------------------------------------------------------------------------
	18
	19	// For compilers that support precompilation, includes "wx.h".
	20	#include "wx/wxprec.h"
	21
	22	#ifdef __BORLANDC__
	23	#pragma hdrstop
	24	#endif
	25
	26	#include "wx/wrapsizer.h"
	27	#include "wx/vector.h"
	28
	29	namespace
	30	{
	31
	32	// ----------------------------------------------------------------------------
	33	// helper local classes
	34	// ----------------------------------------------------------------------------
	35
	36	// This object changes the item proportion to INT_MAX in its ctor and restores
	37	// it back in the dtor.
	38	class wxPropChanger : public wxObject
	39	{
	40	public:
	41	wxPropChanger(wxSizer& sizer, wxSizerItem& item)
	42	: m_sizer(sizer),
	43	m_item(item),
	44	m_propOld(item.GetProportion())
	45	{
	46	// ensure that this item expands more than all the other ones
	47	item.SetProportion(INT_MAX);
	48	}
	49
	50	~wxPropChanger()
	51	{
	52	// check if the sizer still has this item, it could have been removed
	53	if ( m_sizer.GetChildren().Find(&m_item) )
	54	m_item.SetProportion(m_propOld);
	55	}
	56
	57	private:
	58	wxSizer& m_sizer;
	59	wxSizerItem& m_item;
	60	const int m_propOld;
	61
c0c133e1	62	wxDECLARE_NO_COPY_CLASS(wxPropChanger);
13a38887 VZ	63	};
	64
	65	} // anonymous namespace
	66
	67	// ============================================================================
	68	// wxWrapSizer implementation
	69	// ============================================================================
	70
573bd31f	71	IMPLEMENT_DYNAMIC_CLASS(wxWrapSizer, wxBoxSizer)
13a38887 VZ	72
	73	wxWrapSizer::wxWrapSizer(int orient, int flags)
	74	: wxBoxSizer(orient),
	75	m_flags(flags),
	76	m_dirInform(0),
	77	m_availSize(-1),
	78	m_availableOtherDir(0),
	79	m_lastUsed(true),
	80	m_minSizeMinor(0),
	81	m_maxSizeMajor(0),
	82	m_minItemMajor(INT_MAX),
	83	m_rows(orient ^ wxBOTH)
	84	{
	85	}
	86
	87	wxWrapSizer::~wxWrapSizer()
	88	{
	89	ClearRows();
	90	}
	91
	92	void wxWrapSizer::ClearRows()
	93	{
	94	// all elements of the row sizers are also elements of this one (we
	95	// directly add pointers to elements of our own m_children list to the row
	96	// sizers in RecalcSizes()), so we need to detach them from the row sizer
	97	// to avoid double deletion
	98	wxSizerItemList& rows = m_rows.GetChildren();
	99	for ( wxSizerItemList::iterator i = rows.begin(),
	100	end = rows.end();
	101	i != end;
	102	++i )
	103	{
	104	wxSizerItem * const item = *i;
	105	wxSizer * const row = item->GetSizer();
	106	if ( !row )
	107	{
	108	wxFAIL_MSG( "all elements of m_rows must be sizers" );
	109	continue;
	110	}
	111
	112	row->GetChildren().clear();
	113
	114	wxPropChanger * const
5c33522f	115	propChanger = static_cast<wxPropChanger *>(item->GetUserData());
13a38887 VZ	116	if ( propChanger )
	117	{
	118	// this deletes propChanger and so restores the old proportion
	119	item->SetUserData(NULL);
	120	}
	121	}
	122	}
	123
	124	wxSizer *wxWrapSizer::GetRowSizer(size_t n)
	125	{
	126	const wxSizerItemList& rows = m_rows.GetChildren();
	127	if ( n < rows.size() )
	128	return rows[n]->GetSizer();
	129
	130	wxSizer * const sizer = new wxBoxSizer(GetOrientation());
	131	m_rows.Add(sizer, wxSizerFlags().Expand());
	132	return sizer;
	133	}
	134
	135	bool wxWrapSizer::InformFirstDirection(int direction,
	136	int size,
	137	int availableOtherDir)
	138	{
	139	if ( !direction )
	140	return false;
	141
	142	// Store the values for later use
	143	m_availSize = size;
	144	m_availableOtherDir = availableOtherDir +
	145	(direction == wxHORIZONTAL ? m_minSize.y
	146	: m_minSize.x);
	147	m_dirInform = direction;
	148	m_lastUsed = false;
	149	return true;
	150	}
	151
	152
	153	void wxWrapSizer::AdjustLastRowItemProp(size_t n, wxSizerItem *itemLast)
	154	{
	155	if ( !itemLast \|\| !(m_flags & wxEXTEND_LAST_ON_EACH_LINE) )
	156	{
	157	// nothing to do
	158	return;
	159	}
	160
	161	wxSizerItem * const item = m_rows.GetItem(n);
	162	wxCHECK_RET( item, "invalid sizer item" );
	163
	164	// store the item we modified and its original proportion
	165	item->SetUserData(new wxPropChanger(this, itemLast));
	166	}
	167
	168	wxSize wxWrapSizer::CalcMin()
	169	{
	170	if ( m_children.empty() )
	171	return wxSize();
	172
	173	// We come here to calculate min size in two different situations:
	174	// 1 - Immediately after InformFirstDirection, then we find a min size that
	175	// uses one dimension maximally and the other direction minimally.
	176	// 2 - Ordinary case, get a sensible min size value using the current line
	177	// layout, trying to maintain the possibility to re-arrange lines by
	178	// sizing
	179
13a38887 VZ	180	if ( !m_lastUsed )
	181	{
	182	// Case 1 above: InformFirstDirection() has just been called
	183	m_lastUsed = true;
	184
	185	// There are two different algorithms for finding a useful min size for
	186	// a wrap sizer, depending on whether the first reported size component
	187	// is the opposite as our own orientation (the simpler case) or the same
	188	// one (more complicated).
13a38887 VZ	189	if ( m_dirInform == m_orient )
	190	CalcMinFromMajor(m_availSize);
	191	else
	192	CalcMinFromMinor(m_availSize);
13a38887 VZ	193	}
	194	else // Case 2 above: not immediately after InformFirstDirection()
	195	{
	196	if ( m_availSize > 0 )
	197	{
863dc042 VZ	198	wxSize szAvail; // Keep track of boundary so we don't overflow
	199	if ( m_dirInform == m_orient )
	200	szAvail = SizeFromMajorMinor(m_availSize, m_availableOtherDir);
	201	else
	202	szAvail = SizeFromMajorMinor(m_availableOtherDir, m_availSize);
	203
	204	CalcMinFittingSize(szAvail);
13a38887 VZ	205	}
	206	else // Initial calculation, before we have size available to us
	207	{
	208	CalcMaxSingleItemSize();
	209	}
	210	}
	211
	212	return m_minSize;
	213	}
	214
	215	void wxWrapSizer::CalcMinFittingSize(const wxSize& szBoundary)
	216	{
	217	// Min size based on current line layout. It is important to
	218	// provide a smaller size when possible to allow for resizing with
	219	// the help of re-arranging the lines.
	220	wxSize sizeMin = SizeFromMajorMinor(m_maxSizeMajor, m_minSizeMinor);
	221	if ( m_minSizeMinor < SizeInMinorDir(m_size) &&
	222	m_maxSizeMajor < SizeInMajorDir(m_size) )
	223	{
	224	m_minSize = sizeMin;
	225	}
	226	else
	227	{
	228	// Try making it a bit more narrow
	229	bool done = false;
	230	if ( m_minItemMajor != INT_MAX && m_maxSizeMajor > 0 )
	231	{
	232	// We try to present a lower min value by removing an item in
	233	// the major direction (and preserving current minor min size).
	234	CalcMinFromMajor(m_maxSizeMajor - m_minItemMajor);
	235	if ( m_minSize.x <= szBoundary.x && m_minSize.y <= szBoundary.y )
	236	{
	237	SizeInMinorDir(m_minSize) = SizeInMinorDir(sizeMin);
	238	done = true;
	239	}
	240	}
	241
	242	if ( !done )
	243	{
	244	// If failed finding little smaller area, go back to what we had
	245	m_minSize = sizeMin;
	246	}
	247	}
	248	}
	249
	250	void wxWrapSizer::CalcMaxSingleItemSize()
	251	{
	252	// Find max item size in each direction
	253	int maxMajor = 0; // Widest item
	254	int maxMinor = 0; // Line height
	255	for ( wxSizerItemList::const_iterator i = m_children.begin();
	256	i != m_children.end();
	257	++i )
	258	{
	259	wxSizerItem * const item = *i;
	260	if ( item->IsShown() )
	261	{
	262	wxSize sz = item->CalcMin();
	263	if ( SizeInMajorDir(sz) > maxMajor )
	264	maxMajor = SizeInMajorDir(sz);
	265	if ( SizeInMinorDir(sz) > maxMinor )
	266	maxMinor = SizeInMinorDir(sz);
	267	}
	268	}
269
270	// This is, of course, not our real minimal size but if we return more
271	// than this it would be impossible to shrink us to one row/column so
272	// we have to pretend that this is all we need for now.
273	m_minSize = SizeFromMajorMinor(maxMajor, maxMinor);
274	}
275
276	void wxWrapSizer::CalcMinFromMajor(int totMajor)
277	{
278	// Algorithm for calculating min size: (assuming horizontal orientation)
279	// This is the simpler case (known major size)
280	// X: Given, totMajor
281	// Y: Based on X, calculate how many lines needed
282
283	int maxTotalMajor = 0; // max of rowTotalMajor over all rows
284	int minorSum = 0; // sum of sizes of all rows in minor direction
285	int maxRowMinor = 0; // max of item minor sizes in this row
286	int rowTotalMajor = 0; // sum of major sizes of items in this row
287
288	// pack the items in each row until we reach totMajor, then start a new row
289	for ( wxSizerItemList::const_iterator i = m_children.begin();
290	i != m_children.end();
291	++i )
292	{
293	wxSizerItem * const item = *i;
294	if ( !item->IsShown() )
295	continue;
296
297	wxSize minItemSize = item->CalcMin();
298	const int itemMajor = SizeInMajorDir(minItemSize);
299	const int itemMinor = SizeInMinorDir(minItemSize);
300
301	// check if this is the first item in a new row: if so, we have to put
302	// it in it, whether it fits or not, as it would never fit better
303	// anyhow
304	//
305	// otherwise check if we have enough space left for this item here
306	if ( !rowTotalMajor \|\| rowTotalMajor + itemMajor <= totMajor )
307	{
308	// continue this row
309	rowTotalMajor += itemMajor;
310	if ( itemMinor > maxRowMinor )
311	maxRowMinor = itemMinor;
312	}
313	else // start a new row
314	{
315	// minor size of the row is the max of minor sizes of its items
316	minorSum += maxRowMinor;
317	if ( rowTotalMajor > maxTotalMajor )
318	maxTotalMajor = rowTotalMajor;
319	maxRowMinor = itemMinor;
320	rowTotalMajor = itemMajor;
321	}
322	}
323
324	// account for the last (unfinished) row too
325	minorSum += maxRowMinor;
326	if ( rowTotalMajor > maxTotalMajor )
327	maxTotalMajor = rowTotalMajor;
328
329	m_minSize = SizeFromMajorMinor(maxTotalMajor, minorSum);
330	}
331
332	// Helper struct for CalcMinFromMinor
333	struct wxWrapLine
334	{
335	wxWrapLine() : m_first(NULL), m_width(0) { }
336	wxSizerItem *m_first;
337	int m_width; // Width of line
338	};
339
340	void wxWrapSizer::CalcMinFromMinor(int totMinor)
341	{
342	// Algorithm for calculating min size:
343	// This is the more complex case (known minor size)
344
345	// First step, find total sum of all items in primary direction
346	// and max item size in secondary direction, that gives initial
347	// estimate of the minimum number of lines.
348
349	int totMajor = 0; // Sum of widths
350	int maxMinor = 0; // Line height
351	int maxMajor = 0; // Widest item
352	int itemCount = 0;
353	wxSizerItemList::compatibility_iterator node = m_children.GetFirst();
354	wxSize sz;
355	while (node)
356	{
357	wxSizerItem *item = node->GetData();
358	if ( item->IsShown() )
359	{
360	sz = item->CalcMin();
361	totMajor += SizeInMajorDir(sz);
362	if ( SizeInMinorDir(sz)>maxMinor )
363	maxMinor = SizeInMinorDir(sz);
364	if ( SizeInMajorDir(sz)>maxMinor )
365	maxMajor = SizeInMajorDir(sz);
366	itemCount++;
367	}
368	node = node->GetNext();
369	}
370
371	// The trivial case
372	if ( !itemCount \|\| totMajor==0 \|\| maxMinor==0 )
373	{
374	m_minSize = wxSize(0,0);
375	return;
376	}
377
378	// First attempt, use lines of average size:
379	int nrLines = totMinor / maxMinor; // Rounding down is right here
380	if ( nrLines<=1 )
381	{
382	// Another simple case, everything fits on one line
383	m_minSize = SizeFromMajorMinor(totMajor,maxMinor);
384	return;
385	}
386
387	int lineSize = totMajor / nrLines;
388	if ( lineSize<maxMajor ) // At least as wide as the widest element
389	lineSize = maxMajor;
390
391	// The algorithm is as follows (horz case):
392	// 1 - Vertical (minor) size is known.
393	// 2 - We have a reasonable estimated width from above
394	// 3 - Loop
395	// 3a - Do layout with suggested width
396	// 3b - See how much we spill over in minor dir
397	// 3c - If no spill, we're done
398	// 3d - Otherwise increase width by known smallest item
399	// and redo loop
400
401	// First algo step: put items on lines of known max width
402	wxVector<wxWrapLine*> lines;
403
404	int sumMinor; // Sum of all minor sizes (height of all lines)
405
406	// While we still have items 'spilling over' extend the tested line width
407	for ( ;; )
408	{
409	wxWrapLine *line = new wxWrapLine;
410	lines.push_back( line );
411
412	int tailSize = 0; // Width of what exceeds nrLines
413	maxMinor = 0;
414	sumMinor = 0;
415	for ( node=m_children.GetFirst(); node; node=node->GetNext() )
416	{
417	wxSizerItem *item = node->GetData();
418	if ( item->IsShown() )
419	{
e2512c23	420	sz = item->GetMinSizeWithBorder();
13a38887 VZ	421	if ( line->m_width+SizeInMajorDir(sz)>lineSize )
	422	{
	423	line = new wxWrapLine;
	424	lines.push_back(line);
	425	sumMinor += maxMinor;
	426	maxMinor = 0;
	427	}
	428	line->m_width += SizeInMajorDir(sz);
	429	if ( line->m_width && !line->m_first )
	430	line->m_first = item;
	431	if ( SizeInMinorDir(sz)>maxMinor )
	432	maxMinor = SizeInMinorDir(sz);
	433	if ( sumMinor+maxMinor>totMinor )
	434	{
	435	// Keep track of widest tail item
	436	if ( SizeInMajorDir(sz)>tailSize )
	437	tailSize = SizeInMajorDir(sz);
	438	}
	439	}
	440	}
	441
	442	if ( tailSize )
	443	{
	444	// Now look how much we need to extend our size
	445	// We know we must have at least one more line than nrLines
	446	// (otherwise no tail size).
	447	int bestExtSize = 0; // Minimum extension width for current tailSize
	448	for ( int ix=0; ix<nrLines; ix++ )
	449	{
	450	// Take what is not used on this line, see how much extension we get
	451	// by adding first item on next line.
	452	int size = lineSize-lines[ix]->m_width; // Left over at end of this line
e2512c23	453	int extSize = GetSizeInMajorDir(lines[ix+1]->m_first->GetMinSizeWithBorder()) - size;
13a38887 VZ	454	if ( (extSize>=tailSize && (extSize<bestExtSize \|\| bestExtSize<tailSize)) \|\|
	455	(extSize>bestExtSize && bestExtSize<tailSize) )
	456	bestExtSize = extSize;
	457	}
	458	// Have an extension size, ready to redo line layout
	459	lineSize += bestExtSize;
	460	}
	461
	462	// Clear helper items
	463	for ( wxVector<wxWrapLine*>::iterator it=lines.begin(); it<lines.end(); ++it )
	464	delete *it;
	465	lines.clear();
	466
	467	// No spill over?
	468	if ( !tailSize )
	469	break;
	470	}
	471
	472	// Now have min size in the opposite direction
	473	m_minSize = SizeFromMajorMinor(lineSize,sumMinor);
	474	}
	475
	476	void wxWrapSizer::FinishRow(size_t n,
	477	int rowMajor, int rowMinor,
	478	wxSizerItem *itemLast)
	479	{
	480	// Account for the finished row size.
	481	m_minSizeMinor += rowMinor;
	482	if ( rowMajor > m_maxSizeMajor )
	483	m_maxSizeMajor = rowMajor;
	484
	485	// And adjust proportion of its last item if necessary.
	486	AdjustLastRowItemProp(n, itemLast);
	487	}
	488
	489	void wxWrapSizer::RecalcSizes()
	490	{
	491	// First restore any proportions we may have changed and remove the old rows
	492	ClearRows();
	493
	494	if ( m_children.empty() )
	495	return;
	496
	497	// Put all our items into as many row box sizers as needed.
	498	const int majorSize = SizeInMajorDir(m_size); // max size of each row
	499	int rowTotalMajor = 0; // running row major size
	500	int maxRowMinor = 0;
	501
	502	m_minSizeMinor = 0;
	503	m_minItemMajor = INT_MAX;
	504	m_maxSizeMajor = 0;
	505
	506	// We need at least one row
	507	size_t nRow = 0;
	508	wxSizer *sizer = GetRowSizer(nRow);
	509
	510	wxSizerItem *itemLast = NULL, // last item processed in this row
	511	*itemSpace = NULL; // spacer which we delayed adding
	512
	513	// Now put our child items into child sizers instead
	514	for ( wxSizerItemList::iterator i = m_children.begin();
	515	i != m_children.end();
	516	++i )
	517	{
518	wxSizerItem * const item = *i;
519	if ( !item->IsShown() )
520	continue;
521
e2512c23	522	wxSize minItemSize = item->GetMinSizeWithBorder();
13a38887 VZ	523	const int itemMajor = SizeInMajorDir(minItemSize);
	524	const int itemMinor = SizeInMinorDir(minItemSize);
	525	if ( itemMajor > 0 && itemMajor < m_minItemMajor )
	526	m_minItemMajor = itemMajor;
	527
	528	// Is there more space on this line? Notice that if this is the first
	529	// item we add it unconditionally as it wouldn't fit in the next line
	530	// any better than in this one.
	531	if ( !rowTotalMajor \|\| rowTotalMajor + itemMajor <= majorSize )
	532	{
	533	// There is enough space here
	534	rowTotalMajor += itemMajor;
	535	if ( itemMinor > maxRowMinor )
	536	maxRowMinor = itemMinor;
	537	}
	538	else // Start a new row
	539	{
	540	FinishRow(nRow, rowTotalMajor, maxRowMinor, itemLast);
	541
	542	rowTotalMajor = itemMajor;
	543	maxRowMinor = itemMinor;
	544
	545	// Get a new empty sizer to insert into
	546	sizer = GetRowSizer(++nRow);
	547
	548	itemLast =
	549	itemSpace = NULL;
	550	}
	551
	552	// Only remove first/last spaces if that flag is set
	553	if ( (m_flags & wxREMOVE_LEADING_SPACES) && IsSpaceItem(item) )
	554	{
	555	// Remember space only if we have a first item
	556	if ( itemLast )
	557	itemSpace = item;
	558	}
	559	else // not a space
	560	{
	561	if ( itemLast && itemSpace )
	562	{
	563	// We had a spacer after a real item and now that we add
	564	// another real item to the same row we need to add the spacer
	565	// between them two.
	566	sizer->Add(itemSpace);
	567	}
	568
	569	// Notice that we reuse a pointer to our own sizer item here, so we
	570	// must remember to remove it by calling ClearRows() to avoid
	571	// double deletion later
	572	sizer->Add(item);
	573
	574	itemLast = item;
	575	itemSpace = NULL;
	576	}
	577
	578	// If item is a window, it now has a pointer to the child sizer,
	579	// which is wrong. Set it to point to us.
	580	if ( wxWindow *win = item->GetWindow() )
	581	win->SetContainingSizer(this);
	582	}
	583
	584	FinishRow(nRow, rowTotalMajor, maxRowMinor, itemLast);
	585
	586	// Now do layout on row sizer
587	m_rows.SetDimension(m_position, m_size);
588	}
589
590