3dpcp/.svn/pristine/d9/d92c96e2785f78d1f69fffdb33ea38136a445671.svn-base
2012-09-16 14:33:11 +02:00

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/////////////////////////////////////////////////////////////////////////////
// Name: block.cpp
// Purpose: Rectangular selection storage classes for ints and doubles
// Author: John Labenski
// Created: 07/01/02
// Copyright: (c) John Labenski 2004
// Licence: wxWidgets
/////////////////////////////////////////////////////////////////////////////
#if defined(__GNUG__) && !defined(NO_GCC_PRAGMA)
#pragma implementation "block.h"
#endif
// For compilers that support precompilation, includes "wx.h".
#include "wx/wxprec.h"
#ifdef __BORLANDC__
#pragma hdrstop
#endif
#ifndef WX_PRECOMP
//#include "wx/object.h"
#endif // WX_PRECOMP
#include "wx/things/block.h"
// use this to check to see if there is any overlap after minimizing
//#define CHECK_BLOCK_OVERLAP 1
#define PRINT_BLOCK(msg, b) { wxPrintf(wxT("Block '%s' %lg %lg %lg %lg\n"), msg, (double)(b).m_x1, (double)(b).m_y1, (double)(b).m_x2, (double)(b).m_y2); }
wxBlockInt const wxEmptyBlockInt(0, 0, -1, -1);
wxBlockDouble const wxEmptyBlockDouble(0, 0, -1, -1);
#include "wx/arrimpl.cpp"
WX_DEFINE_OBJARRAY(wxArrayBlockInt);
WX_DEFINE_OBJARRAY(wxArrayBlockDouble);
WX_DEFINE_OBJARRAY(wxArrayBlockIntSelection);
WX_DEFINE_OBJARRAY(wxArrayBlockDoubleSelection);
// ----------------------------------------------------------------------------
// Sorting functions for wxBlockInt
// ----------------------------------------------------------------------------
static int wxCMPFUNC_CONV wxblockint_sort_topleft_bottomright( wxBlockInt **a, wxBlockInt **b)
{
register int y = ((*a)->m_y1 - (*b)->m_y1);
if (y < 0) return -1;
if (y == 0) return ((*a)->m_x1 - (*b)->m_x1);
return 1;
}
static int wxCMPFUNC_CONV wxblockint_sort_topright_bottomleft( wxBlockInt **a, wxBlockInt **b)
{
register int y = ((*a)->m_y1 - (*b)->m_y1);
if (y < 0) return -1;
if (y == 0) return ((*a)->m_x2 - (*b)->m_x2);
return 1;
}
static int wxCMPFUNC_CONV wxblockint_sort_bottomleft_topright( wxBlockInt **a, wxBlockInt **b)
{
register int y = ((*a)->m_y2 - (*b)->m_y2);
if (y > 0) return -1;
if (y == 0) return ((*a)->m_x1 - (*b)->m_x1);
return 1;
}
static int wxCMPFUNC_CONV wxblockint_sort_bottomright_topleft( wxBlockInt **a, wxBlockInt **b)
{
register int y = ((*a)->m_y2 - (*b)->m_y2);
if (y > 0) return -1;
if (y == 0) return ((*a)->m_x2 - (*b)->m_x2);
return 1;
}
static int wxCMPFUNC_CONV wxblockint_sort_largest_to_smallest( wxBlockInt **a, wxBlockInt **b)
{
return (*a)->IsLarger(**b);
}
static int wxCMPFUNC_CONV wxblockint_sort_smallest_to_largest( wxBlockInt **a, wxBlockInt **b)
{
return -(*a)->IsLarger(**b);
}
void wxArrayBlockIntSort(wxArrayBlockInt &blocks, wxBlockSort_Type type)
{
switch (type)
{
case wxBLOCKSORT_TOPLEFT_BOTTOMRIGHT : blocks.Sort(wxblockint_sort_topleft_bottomright); break;
case wxBLOCKSORT_TOPRIGHT_BOTTOMLEFT : blocks.Sort(wxblockint_sort_topright_bottomleft); break;
case wxBLOCKSORT_BOTTOMLEFT_TOPRIGHT : blocks.Sort(wxblockint_sort_bottomleft_topright); break;
case wxBLOCKSORT_BOTTOMRIGHT_TOPLEFT : blocks.Sort(wxblockint_sort_bottomright_topleft); break;
case wxBLOCKSORT_SMALLEST_TO_LARGEST : blocks.Sort(wxblockint_sort_smallest_to_largest); break;
case wxBLOCKSORT_LARGEST_TO_SMALLEST : blocks.Sort(wxblockint_sort_largest_to_smallest); break;
default : wxFAIL_MSG(wxT("unknown block sort type"));
}
}
// ----------------------------------------------------------------------------
// Sorting functions for wxBlockDouble
// ----------------------------------------------------------------------------
static int wxCMPFUNC_CONV wxblockdouble_sort_topleft_bottomright( wxBlockDouble **a, wxBlockDouble **b)
{
register wxDouble y = ((*a)->m_y1 - (*b)->m_y1);
if (y < 0) return -1;
if (y == 0) return int((*a)->m_x1 - (*b)->m_x1);
return 1;
}
static int wxCMPFUNC_CONV wxblockdouble_sort_topright_bottomleft( wxBlockDouble **a, wxBlockDouble **b)
{
register wxDouble y = ((*a)->m_y1 - (*b)->m_y1);
if (y < 0) return -1;
if (y == 0) return int((*a)->m_x2 - (*b)->m_x2);
return 1;
}
static int wxCMPFUNC_CONV wxblockdouble_sort_bottomleft_topright( wxBlockDouble **a, wxBlockDouble **b)
{
register wxDouble y = ((*a)->m_y2 - (*b)->m_y2);
if (y > 0) return -1;
if (y == 0) return int((*a)->m_x1 - (*b)->m_x1);
return 1;
}
static int wxCMPFUNC_CONV wxblockdouble_sort_bottomright_topleft( wxBlockDouble **a, wxBlockDouble **b)
{
register wxDouble y = ((*a)->m_y2 - (*b)->m_y2);
if (y > 0) return -1;
if (y == 0) return int((*a)->m_x2 - (*b)->m_x2);
return 1;
}
static int wxCMPFUNC_CONV wxblockdouble_sort_largest_to_smallest( wxBlockDouble **a, wxBlockDouble **b)
{
return (*a)->IsLarger(**b);
}
static int wxCMPFUNC_CONV wxblockdouble_sort_smallest_to_largest( wxBlockDouble **a, wxBlockDouble **b)
{
return -(*a)->IsLarger(**b);
}
void wxArrayBlockDoubleSort(wxArrayBlockDouble &blocks, wxBlockSort_Type type)
{
switch (type)
{
case wxBLOCKSORT_TOPLEFT_BOTTOMRIGHT : blocks.Sort(wxblockdouble_sort_topleft_bottomright); break;
case wxBLOCKSORT_TOPRIGHT_BOTTOMLEFT : blocks.Sort(wxblockdouble_sort_topright_bottomleft); break;
case wxBLOCKSORT_BOTTOMLEFT_TOPRIGHT : blocks.Sort(wxblockdouble_sort_bottomleft_topright); break;
case wxBLOCKSORT_BOTTOMRIGHT_TOPLEFT : blocks.Sort(wxblockdouble_sort_bottomright_topleft); break;
case wxBLOCKSORT_SMALLEST_TO_LARGEST : blocks.Sort(wxblockdouble_sort_smallest_to_largest); break;
case wxBLOCKSORT_LARGEST_TO_SMALLEST : blocks.Sort(wxblockdouble_sort_largest_to_smallest); break;
default : wxFAIL_MSG(wxT("unknown block sort type"));
}
}
//=============================================================================
// wxBlockInt
//=============================================================================
#define TEST_BLOCKS
#ifdef TEST_BLOCKS
void TestBlocks()
{
printf("Start Testing blocks -----------------------------------------\n");
wxBlockInt b1(1,1,4,4);
wxBlockInt b2(5,4,10,11);
PRINT_BLOCK("b1", b1)
PRINT_BLOCK("b2", b2)
wxBlockInt iB;
iB.Intersect(b1, b2, &iB);
PRINT_BLOCK("Intersect b1 b2", iB)
wxBlockInt uB;
uB.Union(b1, b2, &uB);
PRINT_BLOCK("Union b1 b2", uB)
printf("Touches b1 b2 %d %d\n", b1.Touches(b2), b2.Touches(b1));
b1 = wxBlockInt(2,3,7,9);
b2 = wxBlockInt(8,3,8,3);
printf("Touches b1 b2 %d %d\n", b1.Touches(b2), b2.Touches(b1));
b1 = wxBlockInt(2,3,7,9);
b2 = wxBlockInt(1,3,1,3);
printf("Touches b1 b2 %d %d\n", b1.Touches(b2), b2.Touches(b1));
iB.Intersect(b1, b2, &iB);
PRINT_BLOCK("Intersect b1 b2", iB)
b1 = wxBlockInt(2,3,7,9);
b2 = wxBlockInt(2,2,2,2);
printf("Touches b1 b2 %d %d\n", b1.Touches(b2), b2.Touches(b1));
b1 = wxBlockInt(2,3,7,9);
b2 = wxBlockInt(7,10,7,10);
printf("Touches b1 b2 %d %d\n", b1.Touches(b2), b2.Touches(b1));
printf("End Testing blocks -----------------------------------------\n");
fflush(stdout);
}
#endif //TEST_BLOCKS
bool wxBlockInt::Touches(const wxBlockInt &b) const // see Intersects
{
//if (((wxMax(m_x1, b.m_x1)) <= (wxMin(m_x2, b.m_x2))) &&
// ((wxMax(m_y1, b.m_y1)) <= (wxMin(m_y2, b.m_y2))))
// return true;
return Intersects(wxBlockInt(b.m_x1-1, b.m_y1-1, b.m_x2+1, b.m_y2+1));
/*
wxInt32 left = wxMax( m_x1, b.m_x1 );
wxInt32 right = wxMin( m_x2, b.m_x2 );
if (labs(left - right) <= 1)
{
wxInt32 top = wxMax( m_y1, b.m_y1 );
wxInt32 bottom = wxMin( m_y2, b.m_y2 );
if (labs(top - bottom) <= 1)
return true;
}
return false;
*/
}
bool wxBlockInt::Combine(const wxBlockInt &b)
{
if (!Touches(b)) return false;
if (Contains(b)) return true;
if (b.Contains(*this))
{
*this = b;
return true;
}
wxBlockInt unionBlock;
Union( *this, b, &unionBlock );
if (unionBlock.IsEmpty()) return false;
// at least one of the two blocks has to be at each corner of the union
if (((unionBlock.GetLeftTop() == GetLeftTop()) || (unionBlock.GetLeftTop() == b.GetLeftTop())) &&
((unionBlock.GetRightTop() == GetRightTop()) || (unionBlock.GetRightTop() == b.GetRightTop())) &&
((unionBlock.GetLeftBottom() == GetLeftBottom()) || (unionBlock.GetLeftBottom() == b.GetLeftBottom())) &&
((unionBlock.GetRightBottom() == GetRightBottom()) || (unionBlock.GetRightBottom() == b.GetRightBottom())) )
{
*this = unionBlock;
return true;
}
return false;
}
bool wxBlockInt::Combine( const wxBlockInt &block,
wxBlockInt &top, wxBlockInt &bottom,
wxBlockInt &left, wxBlockInt &right) const
{
top = bottom = left = right = wxEmptyBlockInt;
wxBlockInt iBlock;
Intersect(*this, block, &iBlock);
if (iBlock.IsEmpty()) return false; // nothing to combine
if (iBlock == *this) return true; // can combine all of this, no leftover
bool combined = false;
if ( block.m_y1 < m_y1 )
{
top = wxBlockInt( block.m_x1, block.m_y1, block.m_x2, m_y1-1 );
combined = true;
}
if ( block.m_y2 > m_y2 )
{
bottom = wxBlockInt( block.m_x1, m_y2+1, block.m_x2, block.m_y2 );
combined = true;
}
if ( block.m_x1 < m_x1 )
{
left = wxBlockInt( block.m_x1, iBlock.m_y1, m_x1-1, iBlock.m_y2 );
combined = true;
}
if ( block.m_x2 > m_x2 )
{
right = wxBlockInt( m_x2+1, iBlock.m_y1, block.m_x2, iBlock.m_y2 );
combined = true;
}
return combined;
}
bool wxBlockInt::Delete( const wxBlockInt &block,
wxBlockInt &top, wxBlockInt &bottom,
wxBlockInt &left, wxBlockInt &right) const
{
top = bottom = left = right = wxEmptyBlockInt;
wxBlockInt iBlock;
Intersect(*this, block, &iBlock);
if (iBlock.IsEmpty()) return false; // nothing to delete
if (iBlock == *this) return true; // can delete all of this, no leftover
bool deleted = false;
if ( m_y1 < iBlock.m_y1 )
{
top = wxBlockInt( m_x1, m_y1, m_x2, iBlock.m_y1-1 );
deleted = true;
}
if ( GetBottom() > iBlock.GetBottom() )
{
bottom = wxBlockInt( m_x1, iBlock.m_y2+1, m_x2, m_y2 );
deleted = true;
}
if ( m_x1 < iBlock.m_x1 )
{
left = wxBlockInt( m_x1, iBlock.m_y1, iBlock.m_x1-1, iBlock.m_y2 );
deleted = true;
}
if ( GetRight() > iBlock.GetRight() )
{
right = wxBlockInt( iBlock.m_x2+1, iBlock.m_y1, m_x2, iBlock.m_y2 );
deleted = true;
}
return deleted;
}
//=============================================================================
// wxBlockDouble
//=============================================================================
bool wxBlockDouble::Touches(const wxBlockDouble &b) const // see Intersects
{
if (((wxMax(m_x1, b.m_x1)) <= (wxMin(m_x2, b.m_x2))) &&
((wxMax(m_y1, b.m_y1)) <= (wxMin(m_y2, b.m_y2))))
return true;
return false;
}
bool wxBlockDouble::Combine(const wxBlockDouble &b)
{
if (!Touches(b)) return false;
if (Contains(b)) return true;
if (b.Contains(*this))
{
*this = b;
return true;
}
wxBlockDouble unionBlock;
Union( *this, b, &unionBlock );
if (unionBlock.IsEmpty()) return false;
// at least one of the two blocks has to be at each corner of the union
if (((unionBlock.GetLeftTop() == GetLeftTop()) || (unionBlock.GetLeftTop() == b.GetLeftTop())) &&
((unionBlock.GetRightTop() == GetRightTop()) || (unionBlock.GetRightTop() == b.GetRightTop())) &&
((unionBlock.GetLeftBottom() == GetLeftBottom()) || (unionBlock.GetLeftBottom() == b.GetLeftBottom())) &&
((unionBlock.GetRightBottom() == GetRightBottom()) || (unionBlock.GetRightBottom() == b.GetRightBottom())) )
{
*this = unionBlock;
return true;
}
return false;
}
bool wxBlockDouble::Combine( const wxBlockDouble &block,
wxBlockDouble &top, wxBlockDouble &bottom,
wxBlockDouble &left, wxBlockDouble &right) const
{
top = bottom = left = right = wxEmptyBlockDouble;
wxBlockDouble iBlock;
Intersect(*this, block, &iBlock);
if (iBlock.IsEmpty()) return false; // nothing to combine
if (iBlock == *this) return true; // can combine all of this, no leftover
bool combined = false;
if ( block.m_y1 < m_y1 )
{
top = wxBlockDouble( block.m_x1, block.m_y1, block.m_x2, m_y1 );
combined = true;
}
if ( block.m_y2 > m_y2 )
{
bottom = wxBlockDouble( block.m_x1, m_y2, block.m_x2, block.m_y2 );
combined = true;
}
if ( block.m_x1 < m_x1 )
{
left = wxBlockDouble( block.m_x1, iBlock.m_y1, m_x1, iBlock.m_y2 );
combined = true;
}
if ( block.m_x2 > m_x2 )
{
right = wxBlockDouble( m_x2, iBlock.m_y1, block.m_x2, iBlock.m_y2 );
combined = true;
}
return combined;
}
bool wxBlockDouble::Delete( const wxBlockDouble &block,
wxBlockDouble &top, wxBlockDouble &bottom,
wxBlockDouble &left, wxBlockDouble &right) const
{
top = bottom = left = right = wxEmptyBlockDouble;
wxBlockDouble iBlock;
Intersect(*this, block, &iBlock);
if (iBlock.IsEmpty()) return false; // nothing to delete
if (iBlock == *this) return true; // can delete all of this, no leftover
bool deleted = false;
if ( m_y1 < iBlock.m_y1 )
{
top = wxBlockDouble( m_x1, m_y1, m_x2, iBlock.m_y1 );
deleted = true;
}
if ( m_y2 > iBlock.m_y2 )
{
bottom = wxBlockDouble( m_x1, iBlock.m_y2, m_x2, m_y2 );
deleted = true;
}
if ( m_x1 < iBlock.m_x1 )
{
left = wxBlockDouble( m_x1, iBlock.m_y1, iBlock.m_x1, iBlock.m_y2 );
deleted = true;
}
if ( m_x2 > iBlock.m_x2 )
{
right = wxBlockDouble( iBlock.m_x2, iBlock.m_y1, m_x2, iBlock.m_y2 );
deleted = true;
}
return deleted;
}
//=============================================================================
// wxBlockIntSelection
//=============================================================================
wxBlockInt wxBlockIntSelection::GetBlock( int index ) const
{
wxCHECK_MSG((index>=0) && (index<int(m_blocks.GetCount())), wxEmptyBlockInt, wxT("Invalid index"));
return m_blocks[index];
}
#ifdef USE_wxRANGE
wxArrayRangeInt wxBlockIntSelection::GetBlockCol(int col) const
{
wxArrayRangeInt ranges;
register int n, count = m_blocks.GetCount();
for (n=0; n<count; n++)
{
if ((col >= m_blocks[n].m_x1) && (col <= m_blocks[n].m_x2))
{
wxRangeInt range(m_blocks[n].m_y1, m_blocks[n].m_y2);
ranges.Add(range);
}
}
return ranges;
}
wxArrayRangeInt wxBlockIntSelection::GetBlockRow(int row) const
{
wxArrayRangeInt ranges;
register int n, count = m_blocks.GetCount();
for (n=0; n<count; n++)
{
if ((row >= m_blocks[n].m_y1) && (row <= m_blocks[n].m_y2))
ranges.Add(wxRangeInt(m_blocks[n].m_x1, m_blocks[n].m_x2));
}
return ranges;
}
#endif // USE_wxRANGE
wxBlockInt wxBlockIntSelection::GetBoundingBlock() const
{
register int n, count = m_blocks.GetCount();
if (count == 0) return wxEmptyBlockInt;
wxBlockInt bound = m_blocks[0];
for (n=1; n<count; n++) bound.Union(m_blocks[n]);
return bound;
}
int wxBlockIntSelection::Index( int x, int y ) const
{
register int n, count = m_blocks.GetCount();
for (n=0; n<count; n++)
{
if ( m_blocks[n].Contains(x, y) )
return n;
}
return wxNOT_FOUND;
}
int wxBlockIntSelection::Index( const wxBlockInt &b ) const
{
register int n, count = m_blocks.GetCount();
for (n=0; n<count; n++)
{
if (m_blocks[n].Intersects(b))
return n;
}
return wxNOT_FOUND;
}
void wxBlockIntSelection::Sort(wxBlockSort_Type type)
{
m_sort = type;
wxArrayBlockIntSort(m_blocks, type);
}
bool wxBlockIntSelection::DeselectBlock( const wxBlockInt &block, bool combineNow)
{
wxCHECK_MSG(!block.IsEmpty(), false, wxT("Invalid block") );
bool done = false;
wxBlockInt top, bottom, left, right;
for (int n=0; n<int(m_blocks.GetCount()); n++)
{
if (m_blocks[n].Delete(block, top, bottom, left, right))
{
done = true;
m_blocks.RemoveAt(n);
n = (n > 0) ? n - 1 : -1;
if (!top.IsEmpty()) m_blocks.Add(top);
if (!bottom.IsEmpty()) m_blocks.Add(bottom);
if (!left.IsEmpty()) m_blocks.Add(left);
if (!right.IsEmpty()) m_blocks.Add(right);
}
}
if (combineNow)
Minimize();
return done;
}
bool wxBlockIntSelection::SelectBlock( const wxBlockInt &block, bool combineNow,
wxArrayBlockInt *addedBlocks )
{
wxCHECK_MSG(!block.IsEmpty(), false, wxT("Invalid block") );
//TestBlocks();
wxArrayBlockInt extraBlocks;
wxArrayBlockInt *extra = &extraBlocks;
if (addedBlocks != NULL)
{
addedBlocks->Clear();
extra = addedBlocks;
}
extra->Add(block);
int n, count = m_blocks.GetCount();
wxBlockInt top, bottom, left, right;
for (n=0; n<count; n++)
{
for (int k=0; k<int(extra->GetCount()); k++)
{
if (m_blocks[n].Combine(extra->Item(k), top, bottom, left, right))
{
extra->RemoveAt(k);
if (!top.IsEmpty()) extra->Add(top);
if (!bottom.IsEmpty()) extra->Add(bottom);
if (!left.IsEmpty()) extra->Add(left);
if (!right.IsEmpty()) extra->Add(right);
//DoMinimize( *extra );
n = -1;
break;
}
}
}
if (extra->GetCount() > 0u)
{
WX_APPEND_ARRAY(m_blocks, *extra);
if (combineNow)
Minimize();
return true;
}
return false;
}
bool wxBlockIntSelection::Minimize()
{
bool ret = DoMinimize(m_blocks);
Sort(m_sort);
return ret;
}
bool wxBlockIntSelection::DoMinimize(wxArrayBlockInt &blocks)
{
int n;
for (n=0; n<1000; n++) // should probably just take a few
{
if (!DoDoMinimize(blocks)) break;
}
#ifdef CHECK_BLOCK_OVERLAP
for (size_t a=0; a<blocks.GetCount(); a++)
{
for (size_t b=a+1; b<blocks.GetCount(); b++)
{
if (blocks[a].Intersects(blocks[b]))
{
printf("Intersecting blocks in wxBlockIntSelection::DoMinimize"); fflush(stdout);
wxBell();
}
}
}
#endif
return n != 0;
}
bool wxBlockIntSelection::DoDoMinimize(wxArrayBlockInt &blocks)
{
// wxBlockInt top, bottom, left, right;
bool done = false;
for (int i=0; i<int(blocks.GetCount())-1; i++)
{
for (int j=i+1; j<int(blocks.GetCount()); j++)
{
if (blocks[i].Combine(blocks[j]))
{
blocks.RemoveAt(j);
j--;
done = true;
//return true;
}
/*
else if (blocks[i].Combine(blocks[j], top, bottom, left, right))
{
printf("INTERSECTION!?---------------------------\n"); fflush(stdout);
blocks.RemoveAt(j);
if (!top.IsEmpty()) blocks.Add(top);
if (!bottom.IsEmpty()) blocks.Add(bottom);
if (!left.IsEmpty()) blocks.Add(left);
if (!right.IsEmpty()) blocks.Add(right);
return true;
}
*/
}
}
return done;
}
//=============================================================================
// wxBlockDoubleSelection
//=============================================================================
wxBlockDouble wxBlockDoubleSelection::GetBlock( int index ) const
{
wxCHECK_MSG((index>=0) && (index<int(m_blocks.GetCount())), wxEmptyBlockDouble, wxT("Invalid index"));
return m_blocks[index];
}
#ifdef USE_wxRANGE
wxArrayRangeDouble wxBlockDoubleSelection::GetBlockCol(wxDouble col) const
{
wxArrayRangeDouble ranges;
register int n, count = m_blocks.GetCount();
for (n=0; n<count; n++)
{
if ((col >= m_blocks[n].m_x1) && (col <= m_blocks[n].m_x2))
{
wxRangeDouble range(m_blocks[n].m_y1, m_blocks[n].m_y2);
ranges.Add(range);
}
}
return ranges;
}
wxArrayRangeDouble wxBlockDoubleSelection::GetBlockRow(wxDouble row) const
{
wxArrayRangeDouble ranges;
register int n, count = m_blocks.GetCount();
for (n=0; n<count; n++)
{
if ((row >= m_blocks[n].m_y1) && (row <= m_blocks[n].m_y2))
ranges.Add(wxRangeDouble(m_blocks[n].m_x1, m_blocks[n].m_x2));
}
return ranges;
}
#endif // USE_wxRANGE
wxBlockDouble wxBlockDoubleSelection::GetBoundingBlock() const
{
register int n, count = m_blocks.GetCount();
if (count == 0) return wxEmptyBlockDouble;
wxBlockDouble bound = m_blocks[0];
for (n=1; n<count; n++) bound.Union(m_blocks[n]);
return bound;
}
int wxBlockDoubleSelection::Index( wxDouble x, wxDouble y ) const
{
register int n, count = m_blocks.GetCount();
for (n=0; n<count; n++)
{
if ( (x >= m_blocks[n].m_x1) && (y >= m_blocks[n].m_y1) &&
(x <= m_blocks[n].m_x2) && (y <= m_blocks[n].m_y2) )
return true;
}
return wxNOT_FOUND;
}
int wxBlockDoubleSelection::Index( const wxBlockDouble &b ) const
{
register int n, count = m_blocks.GetCount();
for (n=0; n<count; n++)
{
if (m_blocks[n].Intersects(b))
return n;
}
return wxNOT_FOUND;
}
void wxBlockDoubleSelection::Sort(wxBlockSort_Type type)
{
m_sort = type;
wxArrayBlockDoubleSort(m_blocks, type);
}
bool wxBlockDoubleSelection::DeselectBlock( const wxBlockDouble &block, bool combineNow)
{
//wxCHECK_MSG(!block.IsEmpty(), false, wxT("Invalid block") );
bool done = false;
wxBlockDouble top, bottom, left, right;
for (int n=0; n<int(m_blocks.GetCount()); n++)
{
if (m_blocks[n].Delete(block, top, bottom, left, right))
{
done = true;
m_blocks.RemoveAt(n);
n = (n > 0) ? n - 1 : -1;
if (!top.IsEmpty()) m_blocks.Add(top);
if (!bottom.IsEmpty()) m_blocks.Add(bottom);
if (!left.IsEmpty()) m_blocks.Add(left);
if (!right.IsEmpty()) m_blocks.Add(right);
}
}
if (combineNow)
Minimize();
return done;
}
bool wxBlockDoubleSelection::SelectBlock( const wxBlockDouble &block, bool combineNow)
{
// It's valid to select a block with a width and height 0 since that means that point
//wxCHECK_MSG(!block.IsEmpty(), false, wxT("Invalid block") );
wxArrayBlockDouble extra;
extra.Add(block);
wxBlockDouble top, bottom, left, right;
for (int n=0; n<int(m_blocks.GetCount()); n++)
{
for (int k=0; k<int(extra.GetCount()); k++)
{
bool done = false;
// Doubles are different than ints - roundoff error problems
// always use the bigger block to soak up the smaller blocks
// this reduces problems with tiny roundoff error produced blocks
if (m_blocks[n].Intersects(extra[k]))
{
if (m_blocks[n].Contains(extra[k]))
{
extra.RemoveAt(k);
k--;
continue;
}
else if (extra[k].Contains(m_blocks[n]))
{
m_blocks.RemoveAt(n);
n = -1;
break;
}
else if (m_blocks[n].IsLarger(extra[k]) > 0)
{
done = m_blocks[n].Combine(extra[k], top, bottom, left, right);
if (done)
{
extra.RemoveAt(k);
k--;
}
}
else
{
done = extra[k].Combine(m_blocks[n], top, bottom, left, right);
if (done)
{
m_blocks.RemoveAt(n);
n = -1;
}
}
}
if (done)
{
if (!top.IsEmpty()) extra.Add(top);
if (!bottom.IsEmpty()) extra.Add(bottom);
if (!left.IsEmpty()) extra.Add(left);
if (!right.IsEmpty()) extra.Add(right);
//DoMinimize( extra );
if (n == -1)
break;
}
}
}
if (extra.GetCount() > 0u)
{
WX_APPEND_ARRAY(m_blocks, extra);
if (combineNow)
Minimize();
return true;
}
return false;
}
bool wxBlockDoubleSelection::Minimize()
{
bool ret = DoMinimize(m_blocks);
Sort(m_sort);
return ret;
}
bool wxBlockDoubleSelection::DoMinimize(wxArrayBlockDouble &blocks)
{
int n;
for (n=0; n<1000; n++) // should probably just take < 10 at most
{
if (!DoDoMinimize(blocks)) break;
}
#ifdef CHECK_BLOCK_OVERLAP
for (size_t a=0; a<blocks.GetCount(); a++)
{
printf("Checking wxBlockDoubleSelection::DoMinimize %d =", a); PRINT_BLOCK("", blocks[a])
for (size_t b=a+1; b<blocks.GetCount(); b++)
{
if (blocks[a].Intersects(blocks[b]))
{
printf("Intersecting blocks in wxBlockDoubleSelection::DoMinimize\n"); fflush(stdout);
PRINT_BLOCK("",blocks[a])
PRINT_BLOCK("",blocks[b])
wxBell();
}
}
}
#endif
return n != 0;
}
bool wxBlockDoubleSelection::DoDoMinimize(wxArrayBlockDouble &blocks)
{
//wxBlockDouble top, bottom, left, right;
bool done = false;
for (int i=0; i<int(blocks.GetCount())-1; i++)
{
for (int j=i+1; j<int(blocks.GetCount()); j++)
{
if (blocks[i].Combine(blocks[j]))
{
blocks.RemoveAt(j);
done = true;
j--;
}
/*
else if (blocks[i].Combine(blocks[j], top, bottom, left, right))
{
blocks.RemoveAt(j);
if (!top.IsEmpty()) blocks.Add(top);
if (!bottom.IsEmpty()) blocks.Add(bottom);
if (!left.IsEmpty()) blocks.Add(left);
if (!right.IsEmpty()) blocks.Add(right);
return true;
}
*/
}
}
return done;
}
//=============================================================================
// wxBlockIntSelectionIterator - iterates through a wxBlockIntSelection
//=============================================================================
wxBlockIntSelectionIterator::wxBlockIntSelectionIterator( const wxBlockIntSelection &sel,
wxBISI_Type type )
{
m_type = type;
WX_APPEND_ARRAY(m_blocks, sel.GetBlockArray());
m_blocks.Sort(wxblockint_sort_topleft_bottomright);
Reset();
}
wxBlockIntSelectionIterator::wxBlockIntSelectionIterator( const wxArrayBlockInt &blocks,
wxBISI_Type type )
{
m_type = type;
WX_APPEND_ARRAY(m_blocks, blocks);
m_blocks.Sort(wxblockint_sort_topleft_bottomright);
Reset();
}
void wxBlockIntSelectionIterator::Reset()
{
m_block_index = -1;
m_pt = wxPoint2DInt(0, 0);
}
bool wxBlockIntSelectionIterator::GetNext(wxBlockInt &block)
{
wxCHECK_MSG(m_type == wxBISI_BLOCK, false, wxT("wrong selection type"));
if (m_block_index+1 < int(m_blocks.GetCount()))
{
++m_block_index;
block = m_blocks[m_block_index];
return true;
}
return false;
}
bool wxBlockIntSelectionIterator::GetNext(wxPoint2DInt &pt)
{
wxCHECK_MSG(m_type == wxBISI_POINT, false, wxT("wrong selection type"));
if ((m_blocks.GetCount() < 1u) || (m_block_index >= int(m_blocks.GetCount())))
return false;
// first time here
if (m_block_index < 0)
{
m_block_index = 0;
pt = m_pt = m_blocks[m_block_index].GetLeftTop();
return true;
}
// at end of block swap to new one
if (m_pt == m_blocks[m_block_index].GetRightBottom())
{
++m_block_index;
if (int(m_blocks.GetCount()) > m_block_index)
{
pt = m_pt = m_blocks[m_block_index].GetLeftTop();
return true;
}
else // past end nothing more to check
return false;
}
// at end of col, down to next row
if (m_pt.m_x == m_blocks[m_block_index].GetRight())
{
m_pt.m_x = m_blocks[m_block_index].m_x1;
m_pt.m_y++;
pt = m_pt;
return true;
}
// increment the col
m_pt.m_x++;
pt = m_pt;
return true;
}
bool wxBlockIntSelectionIterator::IsInSelection(const wxPoint2DInt &pt) const
{
register int n, count = m_blocks.GetCount();
for (n=0; n<count; n++)
{
if (m_blocks[n].Contains(pt))
return true;
}
return false;
}
//=============================================================================
// wxBlockDoubleSelectionIterator - iterates through a wxBlockDoubleSelection
//=============================================================================
wxBlockDoubleSelectionIterator::wxBlockDoubleSelectionIterator( const wxBlockDoubleSelection &sel )
{
WX_APPEND_ARRAY(m_blocks, sel.GetBlockArray());
m_blocks.Sort(wxblockdouble_sort_topleft_bottomright);
Reset();
}
wxBlockDoubleSelectionIterator::wxBlockDoubleSelectionIterator( const wxArrayBlockDouble &blocks )
{
WX_APPEND_ARRAY(m_blocks, blocks);
m_blocks.Sort(wxblockdouble_sort_topleft_bottomright);
Reset();
}
void wxBlockDoubleSelectionIterator::Reset()
{
m_block_index = 0;
}
bool wxBlockDoubleSelectionIterator::GetNext(wxBlockDouble &block)
{
if (m_block_index < m_blocks.GetCount())
{
block = m_blocks[m_block_index];
m_block_index++;
return true;
}
return false;
}
bool wxBlockDoubleSelectionIterator::IsInSelection(const wxPoint2DDouble &pt) const
{
register int n, count = m_blocks.GetCount();
for (n=0; n<count; n++)
{
if (m_blocks[n].Contains(pt))
return true;
}
return false;
}
// ============================================================================
// ============================================================================
// ============================================================================
// ============================================================================
// ============================================================================
// Unit testing, sortof