///////////////////////////////////////////////////////////////////////////// // Name: src/common/sizer.cpp // Purpose: provide new wxSizer class for layout // Author: Robert Roebling and Robin Dunn, contributions by // Dirk Holtwick, Ron Lee // Modified by: Ron Lee // Created: // RCS-ID: $Id$ // Copyright: (c) Robin Dunn, Robert Roebling // Licence: wxWindows licence ///////////////////////////////////////////////////////////////////////////// // For compilers that support precompilation, includes "wx.h". #include "wx/wxprec.h" #ifdef __BORLANDC__ #pragma hdrstop #endif #include "wx/sizer.h" #include "wx/private/flagscheck.h" #ifndef WX_PRECOMP #include "wx/string.h" #include "wx/intl.h" #include "wx/math.h" #include "wx/utils.h" #include "wx/settings.h" #include "wx/button.h" #include "wx/statbox.h" #include "wx/toplevel.h" #endif // WX_PRECOMP #include "wx/display.h" #include "wx/listimpl.cpp" //--------------------------------------------------------------------------- IMPLEMENT_CLASS(wxSizerItem, wxObject) IMPLEMENT_CLASS(wxSizer, wxObject) IMPLEMENT_CLASS(wxGridSizer, wxSizer) IMPLEMENT_CLASS(wxFlexGridSizer, wxGridSizer) IMPLEMENT_CLASS(wxBoxSizer, wxSizer) #if wxUSE_STATBOX IMPLEMENT_CLASS(wxStaticBoxSizer, wxBoxSizer) #endif #if wxUSE_BUTTON IMPLEMENT_CLASS(wxStdDialogButtonSizer, wxBoxSizer) #endif WX_DEFINE_EXPORTED_LIST( wxSizerItemList ) /* TODO PROPERTIES sizeritem object object_ref minsize option flag border spacer option flag borfder boxsizer orient staticboxsizer orient label gridsizer rows cols vgap hgap flexgridsizer rows cols vgap hgap growablerows growablecols minsize */ // ---------------------------------------------------------------------------- // wxSizerItem // ---------------------------------------------------------------------------- // check for flags conflicts static const int SIZER_FLAGS_MASK = wxADD_FLAG(wxCENTRE, wxADD_FLAG(wxHORIZONTAL, wxADD_FLAG(wxVERTICAL, wxADD_FLAG(wxLEFT, wxADD_FLAG(wxRIGHT, wxADD_FLAG(wxUP, wxADD_FLAG(wxDOWN, wxADD_FLAG(wxALIGN_NOT, wxADD_FLAG(wxALIGN_CENTER_HORIZONTAL, wxADD_FLAG(wxALIGN_RIGHT, wxADD_FLAG(wxALIGN_BOTTOM, wxADD_FLAG(wxALIGN_CENTER_VERTICAL, wxADD_FLAG(wxFIXED_MINSIZE, wxADD_FLAG(wxRESERVE_SPACE_EVEN_IF_HIDDEN, wxADD_FLAG(wxSTRETCH_NOT, wxADD_FLAG(wxSHRINK, wxADD_FLAG(wxGROW, wxADD_FLAG(wxSHAPED, 0)))))))))))))))))); #define ASSERT_VALID_SIZER_FLAGS(f) wxASSERT_VALID_FLAGS(f, SIZER_FLAGS_MASK) void wxSizerItem::Init(const wxSizerFlags& flags) { Init(); m_proportion = flags.GetProportion(); m_flag = flags.GetFlags(); m_border = flags.GetBorderInPixels(); ASSERT_VALID_SIZER_FLAGS( m_flag ); } wxSizerItem::wxSizerItem() { Init(); m_proportion = 0; m_border = 0; m_flag = 0; m_id = wxID_NONE; } // window item void wxSizerItem::DoSetWindow(wxWindow *window) { wxCHECK_RET( window, wxT("NULL window in wxSizerItem::SetWindow()") ); m_kind = Item_Window; m_window = window; // window doesn't become smaller than its initial size, whatever happens m_minSize = window->GetSize(); if ( m_flag & wxFIXED_MINSIZE ) window->SetMinSize(m_minSize); // aspect ratio calculated from initial size SetRatio(m_minSize); } wxSizerItem::wxSizerItem(wxWindow *window, int proportion, int flag, int border, wxObject* userData) : m_kind(Item_None), m_proportion(proportion), m_border(border), m_flag(flag), m_id(wxID_NONE), m_userData(userData) { ASSERT_VALID_SIZER_FLAGS( m_flag ); DoSetWindow(window); } // sizer item void wxSizerItem::DoSetSizer(wxSizer *sizer) { m_kind = Item_Sizer; m_sizer = sizer; } wxSizerItem::wxSizerItem(wxSizer *sizer, int proportion, int flag, int border, wxObject* userData) : m_kind(Item_None), m_sizer(NULL), m_proportion(proportion), m_border(border), m_flag(flag), m_id(wxID_NONE), m_ratio(0.0), m_userData(userData) { ASSERT_VALID_SIZER_FLAGS( m_flag ); DoSetSizer(sizer); // m_minSize is set later } // spacer item void wxSizerItem::DoSetSpacer(const wxSize& size) { m_kind = Item_Spacer; m_spacer = new wxSizerSpacer(size); m_minSize = size; SetRatio(size); } wxSizerItem::wxSizerItem(int width, int height, int proportion, int flag, int border, wxObject* userData) : m_kind(Item_None), m_sizer(NULL), m_minSize(width, height), // minimal size is the initial size m_proportion(proportion), m_border(border), m_flag(flag), m_id(wxID_NONE), m_userData(userData) { ASSERT_VALID_SIZER_FLAGS( m_flag ); DoSetSpacer(wxSize(width, height)); } wxSizerItem::~wxSizerItem() { delete m_userData; Free(); } void wxSizerItem::Free() { switch ( m_kind ) { case Item_None: break; case Item_Window: m_window->SetContainingSizer(NULL); break; case Item_Sizer: delete m_sizer; break; case Item_Spacer: delete m_spacer; break; case Item_Max: default: wxFAIL_MSG( wxT("unexpected wxSizerItem::m_kind") ); } m_kind = Item_None; } wxSize wxSizerItem::GetSpacer() const { wxSize size; if ( m_kind == Item_Spacer ) size = m_spacer->GetSize(); return size; } wxSize wxSizerItem::GetSize() const { wxSize ret; switch ( m_kind ) { case Item_None: break; case Item_Window: ret = m_window->GetSize(); break; case Item_Sizer: ret = m_sizer->GetSize(); break; case Item_Spacer: ret = m_spacer->GetSize(); break; case Item_Max: default: wxFAIL_MSG( wxT("unexpected wxSizerItem::m_kind") ); } if (m_flag & wxWEST) ret.x += m_border; if (m_flag & wxEAST) ret.x += m_border; if (m_flag & wxNORTH) ret.y += m_border; if (m_flag & wxSOUTH) ret.y += m_border; return ret; } bool wxSizerItem::InformFirstDirection(int direction, int size, int availableOtherDir) { // The size that come here will be including borders. Child items should get it // without borders. if( size>0 ) { if( direction==wxHORIZONTAL ) { if (m_flag & wxWEST) size -= m_border; if (m_flag & wxEAST) size -= m_border; } else if( direction==wxVERTICAL ) { if (m_flag & wxNORTH) size -= m_border; if (m_flag & wxSOUTH) size -= m_border; } } bool didUse = false; // Pass the information along to the held object if (IsSizer()) { didUse = GetSizer()->InformFirstDirection(direction,size,availableOtherDir); if (didUse) m_minSize = GetSizer()->CalcMin(); } else if (IsWindow()) { didUse = GetWindow()->InformFirstDirection(direction,size,availableOtherDir); if (didUse) m_minSize = m_window->GetEffectiveMinSize(); // This information is useful for items with wxSHAPED flag, since // we can request an optimal min size for such an item. Even if // we overwrite the m_minSize member here, we can read it back from // the owned window (happens automatically). if( (m_flag & wxSHAPED) && (m_flag & wxEXPAND) && direction ) { if( !wxIsNullDouble(m_ratio) ) { wxCHECK_MSG( (m_proportion==0), false, wxT("Shaped item, non-zero proportion in wxSizerItem::InformFirstDirection()") ); if( direction==wxHORIZONTAL && !wxIsNullDouble(m_ratio) ) { // Clip size so that we don't take too much if( availableOtherDir>=0 && int(size/m_ratio)-m_minSize.y>availableOtherDir ) size = int((availableOtherDir+m_minSize.y)*m_ratio); m_minSize = wxSize(size,int(size/m_ratio)); } else if( direction==wxVERTICAL ) { // Clip size so that we don't take too much if( availableOtherDir>=0 && int(size*m_ratio)-m_minSize.x>availableOtherDir ) size = int((availableOtherDir+m_minSize.x)/m_ratio); m_minSize = wxSize(int(size*m_ratio),size); } didUse = true; } } } return didUse; } wxSize wxSizerItem::CalcMin() { if (IsSizer()) { m_minSize = m_sizer->GetMinSize(); // if we have to preserve aspect ratio _AND_ this is // the first-time calculation, consider ret to be initial size if ( (m_flag & wxSHAPED) && wxIsNullDouble(m_ratio) ) SetRatio(m_minSize); } else if ( IsWindow() ) { // Since the size of the window may change during runtime, we // should use the current minimal/best size. m_minSize = m_window->GetEffectiveMinSize(); } return GetMinSizeWithBorder(); } wxSize wxSizerItem::GetMinSizeWithBorder() const { wxSize ret = m_minSize; if (m_flag & wxWEST) ret.x += m_border; if (m_flag & wxEAST) ret.x += m_border; if (m_flag & wxNORTH) ret.y += m_border; if (m_flag & wxSOUTH) ret.y += m_border; return ret; } void wxSizerItem::SetDimension( const wxPoint& pos_, const wxSize& size_ ) { wxPoint pos = pos_; wxSize size = size_; if (m_flag & wxSHAPED) { // adjust aspect ratio int rwidth = (int) (size.y * m_ratio); if (rwidth > size.x) { // fit horizontally int rheight = (int) (size.x / m_ratio); // add vertical space if (m_flag & wxALIGN_CENTER_VERTICAL) pos.y += (size.y - rheight) / 2; else if (m_flag & wxALIGN_BOTTOM) pos.y += (size.y - rheight); // use reduced dimensions size.y =rheight; } else if (rwidth < size.x) { // add horizontal space if (m_flag & wxALIGN_CENTER_HORIZONTAL) pos.x += (size.x - rwidth) / 2; else if (m_flag & wxALIGN_RIGHT) pos.x += (size.x - rwidth); size.x = rwidth; } } // This is what GetPosition() returns. Since we calculate // borders afterwards, GetPosition() will be the left/top // corner of the surrounding border. m_pos = pos; if (m_flag & wxWEST) { pos.x += m_border; size.x -= m_border; } if (m_flag & wxEAST) { size.x -= m_border; } if (m_flag & wxNORTH) { pos.y += m_border; size.y -= m_border; } if (m_flag & wxSOUTH) { size.y -= m_border; } if (size.x < 0) size.x = 0; if (size.y < 0) size.y = 0; m_rect = wxRect(pos, size); switch ( m_kind ) { case Item_None: wxFAIL_MSG( wxT("can't set size of uninitialized sizer item") ); break; case Item_Window: { // Use wxSIZE_FORCE_EVENT here since a sizer item might // have changed alignment or some other property which would // not change the size of the window. In such a case, no // wxSizeEvent would normally be generated and thus the // control wouldn't get layed out correctly here. #if 1 m_window->SetSize(pos.x, pos.y, size.x, size.y, wxSIZE_ALLOW_MINUS_ONE|wxSIZE_FORCE_EVENT ); #else m_window->SetSize(pos.x, pos.y, size.x, size.y, wxSIZE_ALLOW_MINUS_ONE ); #endif break; } case Item_Sizer: m_sizer->SetDimension(pos, size); break; case Item_Spacer: m_spacer->SetSize(size); break; case Item_Max: default: wxFAIL_MSG( wxT("unexpected wxSizerItem::m_kind") ); } } void wxSizerItem::DeleteWindows() { switch ( m_kind ) { case Item_None: case Item_Spacer: break; case Item_Window: //We are deleting the window from this sizer - normally //the window destroys the sizer associated with it, //which might destroy this, which we don't want m_window->SetContainingSizer(NULL); m_window->Destroy(); //Putting this after the switch will result in a spacer //not being deleted properly on destruction m_kind = Item_None; break; case Item_Sizer: m_sizer->DeleteWindows(); break; case Item_Max: default: wxFAIL_MSG( wxT("unexpected wxSizerItem::m_kind") ); } } void wxSizerItem::Show( bool show ) { switch ( m_kind ) { case Item_None: wxFAIL_MSG( wxT("can't show uninitialized sizer item") ); break; case Item_Window: m_window->Show(show); break; case Item_Sizer: m_sizer->Show(show); break; case Item_Spacer: m_spacer->Show(show); break; case Item_Max: default: wxFAIL_MSG( wxT("unexpected wxSizerItem::m_kind") ); } } bool wxSizerItem::IsShown() const { if ( m_flag & wxRESERVE_SPACE_EVEN_IF_HIDDEN ) return true; switch ( m_kind ) { case Item_None: // we may be called from CalcMin(), just return false so that we're // not used break; case Item_Window: return m_window->IsShown(); case Item_Sizer: // arbitrarily decide that if at least one of our elements is // shown, so are we (this arbitrariness is the reason for // deprecating this function) { // Some apps (such as dialog editors) depend on an empty sizer still // being laid out correctly and reporting the correct size and position. if (m_sizer->GetChildren().GetCount() == 0) return true; for ( wxSizerItemList::compatibility_iterator node = m_sizer->GetChildren().GetFirst(); node; node = node->GetNext() ) { if ( node->GetData()->IsShown() ) return true; } } return false; case Item_Spacer: return m_spacer->IsShown(); case Item_Max: default: wxFAIL_MSG( wxT("unexpected wxSizerItem::m_kind") ); } return false; } #if WXWIN_COMPATIBILITY_2_6 void wxSizerItem::SetOption( int option ) { SetProportion( option ); } int wxSizerItem::GetOption() const { return GetProportion(); } #endif // WXWIN_COMPATIBILITY_2_6 //--------------------------------------------------------------------------- // wxSizer //--------------------------------------------------------------------------- wxSizer::~wxSizer() { WX_CLEAR_LIST(wxSizerItemList, m_children); } wxSizerItem* wxSizer::Insert( size_t index, wxSizerItem *item ) { m_children.Insert( index, item ); if ( item->GetWindow() ) item->GetWindow()->SetContainingSizer( this ); if ( item->GetSizer() ) item->GetSizer()->SetContainingWindow( m_containingWindow ); return item; } void wxSizer::SetContainingWindow(wxWindow *win) { if ( win == m_containingWindow ) return; m_containingWindow = win; // set the same window for all nested sizers as well, they also are in the // same window for ( wxSizerItemList::compatibility_iterator node = m_children.GetFirst(); node; node = node->GetNext() ) { wxSizerItem *const item = node->GetData(); wxSizer *const sizer = item->GetSizer(); if ( sizer ) { sizer->SetContainingWindow(win); } } } #if WXWIN_COMPATIBILITY_2_6 bool wxSizer::Remove( wxWindow *window ) { return Detach( window ); } #endif // WXWIN_COMPATIBILITY_2_6 bool wxSizer::Remove( wxSizer *sizer ) { wxASSERT_MSG( sizer, wxT("Removing NULL sizer") ); wxSizerItemList::compatibility_iterator node = m_children.GetFirst(); while (node) { wxSizerItem *item = node->GetData(); if (item->GetSizer() == sizer) { delete item; m_children.Erase( node ); return true; } node = node->GetNext(); } return false; } bool wxSizer::Remove( int index ) { wxCHECK_MSG( index >= 0 && (size_t)index < m_children.GetCount(), false, wxT("Remove index is out of range") ); wxSizerItemList::compatibility_iterator node = m_children.Item( index ); wxCHECK_MSG( node, false, wxT("Failed to find child node") ); delete node->GetData(); m_children.Erase( node ); return true; } bool wxSizer::Detach( wxSizer *sizer ) { wxASSERT_MSG( sizer, wxT("Detaching NULL sizer") ); wxSizerItemList::compatibility_iterator node = m_children.GetFirst(); while (node) { wxSizerItem *item = node->GetData(); if (item->GetSizer() == sizer) { item->DetachSizer(); delete item; m_children.Erase( node ); return true; } node = node->GetNext(); } return false; } bool wxSizer::Detach( wxWindow *window ) { wxASSERT_MSG( window, wxT("Detaching NULL window") ); wxSizerItemList::compatibility_iterator node = m_children.GetFirst(); while (node) { wxSizerItem *item = node->GetData(); if (item->GetWindow() == window) { delete item; m_children.Erase( node ); return true; } node = node->GetNext(); } return false; } bool wxSizer::Detach( int index ) { wxCHECK_MSG( index >= 0 && (size_t)index < m_children.GetCount(), false, wxT("Detach index is out of range") ); wxSizerItemList::compatibility_iterator node = m_children.Item( index ); wxCHECK_MSG( node, false, wxT("Failed to find child node") ); wxSizerItem *item = node->GetData(); if ( item->IsSizer() ) item->DetachSizer(); delete item; m_children.Erase( node ); return true; } bool wxSizer::Replace( wxWindow *oldwin, wxWindow *newwin, bool recursive ) { wxASSERT_MSG( oldwin, wxT("Replacing NULL window") ); wxASSERT_MSG( newwin, wxT("Replacing with NULL window") ); wxSizerItemList::compatibility_iterator node = m_children.GetFirst(); while (node) { wxSizerItem *item = node->GetData(); if (item->GetWindow() == oldwin) { item->AssignWindow(newwin); newwin->SetContainingSizer( this ); return true; } else if (recursive && item->IsSizer()) { if (item->GetSizer()->Replace( oldwin, newwin, true )) return true; } node = node->GetNext(); } return false; } bool wxSizer::Replace( wxSizer *oldsz, wxSizer *newsz, bool recursive ) { wxASSERT_MSG( oldsz, wxT("Replacing NULL sizer") ); wxASSERT_MSG( newsz, wxT("Replacing with NULL sizer") ); wxSizerItemList::compatibility_iterator node = m_children.GetFirst(); while (node) { wxSizerItem *item = node->GetData(); if (item->GetSizer() == oldsz) { item->AssignSizer(newsz); return true; } else if (recursive && item->IsSizer()) { if (item->GetSizer()->Replace( oldsz, newsz, true )) return true; } node = node->GetNext(); } return false; } bool wxSizer::Replace( size_t old, wxSizerItem *newitem ) { wxCHECK_MSG( old < m_children.GetCount(), false, wxT("Replace index is out of range") ); wxASSERT_MSG( newitem, wxT("Replacing with NULL item") ); wxSizerItemList::compatibility_iterator node = m_children.Item( old ); wxCHECK_MSG( node, false, wxT("Failed to find child node") ); wxSizerItem *item = node->GetData(); node->SetData(newitem); delete item; return true; } void wxSizer::Clear( bool delete_windows ) { // First clear the ContainingSizer pointers wxSizerItemList::compatibility_iterator node = m_children.GetFirst(); while (node) { wxSizerItem *item = node->GetData(); if (item->IsWindow()) item->GetWindow()->SetContainingSizer( NULL ); node = node->GetNext(); } // Destroy the windows if needed if (delete_windows) DeleteWindows(); // Now empty the list WX_CLEAR_LIST(wxSizerItemList, m_children); } void wxSizer::DeleteWindows() { wxSizerItemList::compatibility_iterator node = m_children.GetFirst(); while (node) { wxSizerItem *item = node->GetData(); item->DeleteWindows(); node = node->GetNext(); } } wxSize wxSizer::ComputeFittingClientSize(wxWindow *window) { wxCHECK_MSG( window, wxDefaultSize, "window can't be NULL" ); // take the min size by default and limit it by max size wxSize size = GetMinClientSize(window); wxSize sizeMax; wxTopLevelWindow *tlw = wxDynamicCast(window, wxTopLevelWindow); if ( tlw ) { // hack for small screen devices where TLWs are always full screen if ( tlw->IsAlwaysMaximized() ) { return tlw->GetClientSize(); } // limit the window to the size of the display it is on int disp = wxDisplay::GetFromWindow(window); if ( disp == wxNOT_FOUND ) { // or, if we don't know which one it is, of the main one disp = 0; } sizeMax = wxDisplay(disp).GetClientArea().GetSize(); // space for decorations and toolbars etc. sizeMax = tlw->WindowToClientSize(sizeMax); } else { sizeMax = GetMaxClientSize(window); } if ( sizeMax.x != wxDefaultCoord && size.x > sizeMax.x ) size.x = sizeMax.x; if ( sizeMax.y != wxDefaultCoord && size.y > sizeMax.y ) size.y = sizeMax.y; return size; } wxSize wxSizer::ComputeFittingWindowSize(wxWindow *window) { wxCHECK_MSG( window, wxDefaultSize, "window can't be NULL" ); return window->ClientToWindowSize(ComputeFittingClientSize(window)); } wxSize wxSizer::Fit( wxWindow *window ) { wxCHECK_MSG( window, wxDefaultSize, "window can't be NULL" ); // set client size window->SetClientSize(ComputeFittingClientSize(window)); // return entire size return window->GetSize(); } void wxSizer::FitInside( wxWindow *window ) { wxSize size; if (window->IsTopLevel()) size = VirtualFitSize( window ); else size = GetMinClientSize( window ); window->SetVirtualSize( size ); } void wxSizer::Layout() { // (re)calculates minimums needed for each item and other preparations // for layout CalcMin(); // Applies the layout and repositions/resizes the items RecalcSizes(); } void wxSizer::SetSizeHints( wxWindow *window ) { // Preserve the window's max size hints, but set the // lower bound according to the sizer calculations. // This is equivalent to calling Fit(), except that we need to set // the size hints _in between_ the two steps performed by Fit // (1. ComputeFittingClientSize, 2. SetClientSize). That's because // otherwise SetClientSize() could have no effect if there already are // size hints in effect that forbid requested client size. const wxSize clientSize = ComputeFittingClientSize(window); window->SetMinClientSize(clientSize); window->SetClientSize(clientSize); } #if WXWIN_COMPATIBILITY_2_8 void wxSizer::SetVirtualSizeHints( wxWindow *window ) { FitInside( window ); } #endif // WXWIN_COMPATIBILITY_2_8 // TODO on mac we need a function that determines how much free space this // min size contains, in order to make sure that we have 20 pixels of free // space around the controls wxSize wxSizer::GetMaxClientSize( wxWindow *window ) const { return window->WindowToClientSize(window->GetMaxSize()); } wxSize wxSizer::GetMinClientSize( wxWindow *WXUNUSED(window) ) { return GetMinSize(); // Already returns client size. } wxSize wxSizer::VirtualFitSize( wxWindow *window ) { wxSize size = GetMinClientSize( window ); wxSize sizeMax = GetMaxClientSize( window ); // Limit the size if sizeMax != wxDefaultSize if ( size.x > sizeMax.x && sizeMax.x != wxDefaultCoord ) size.x = sizeMax.x; if ( size.y > sizeMax.y && sizeMax.y != wxDefaultCoord ) size.y = sizeMax.y; return size; } wxSize wxSizer::GetMinSize() { wxSize ret( CalcMin() ); if (ret.x < m_minSize.x) ret.x = m_minSize.x; if (ret.y < m_minSize.y) ret.y = m_minSize.y; return ret; } void wxSizer::DoSetMinSize( int width, int height ) { m_minSize.x = width; m_minSize.y = height; } bool wxSizer::DoSetItemMinSize( wxWindow *window, int width, int height ) { wxASSERT_MSG( window, wxT("SetMinSize for NULL window") ); // Is it our immediate child? wxSizerItemList::compatibility_iterator node = m_children.GetFirst(); while (node) { wxSizerItem *item = node->GetData(); if (item->GetWindow() == window) { item->SetMinSize( width, height ); return true; } node = node->GetNext(); } // No? Search any subsizers we own then node = m_children.GetFirst(); while (node) { wxSizerItem *item = node->GetData(); if ( item->GetSizer() && item->GetSizer()->DoSetItemMinSize( window, width, height ) ) { // A child sizer found the requested windw, exit. return true; } node = node->GetNext(); } return false; } bool wxSizer::DoSetItemMinSize( wxSizer *sizer, int width, int height ) { wxASSERT_MSG( sizer, wxT("SetMinSize for NULL sizer") ); // Is it our immediate child? wxSizerItemList::compatibility_iterator node = m_children.GetFirst(); while (node) { wxSizerItem *item = node->GetData(); if (item->GetSizer() == sizer) { item->GetSizer()->DoSetMinSize( width, height ); return true; } node = node->GetNext(); } // No? Search any subsizers we own then node = m_children.GetFirst(); while (node) { wxSizerItem *item = node->GetData(); if ( item->GetSizer() && item->GetSizer()->DoSetItemMinSize( sizer, width, height ) ) { // A child found the requested sizer, exit. return true; } node = node->GetNext(); } return false; } bool wxSizer::DoSetItemMinSize( size_t index, int width, int height ) { wxSizerItemList::compatibility_iterator node = m_children.Item( index ); wxCHECK_MSG( node, false, wxT("Failed to find child node") ); wxSizerItem *item = node->GetData(); if (item->GetSizer()) { // Sizers contains the minimal size in them, if not calculated ... item->GetSizer()->DoSetMinSize( width, height ); } else { // ... but the minimal size of spacers and windows is stored via the item item->SetMinSize( width, height ); } return true; } wxSizerItem* wxSizer::GetItem( wxWindow *window, bool recursive ) { wxASSERT_MSG( window, wxT("GetItem for NULL window") ); wxSizerItemList::compatibility_iterator node = m_children.GetFirst(); while (node) { wxSizerItem *item = node->GetData(); if (item->GetWindow() == window) { return item; } else if (recursive && item->IsSizer()) { wxSizerItem *subitem = item->GetSizer()->GetItem( window, true ); if (subitem) return subitem; } node = node->GetNext(); } return NULL; } wxSizerItem* wxSizer::GetItem( wxSizer *sizer, bool recursive ) { wxASSERT_MSG( sizer, wxT("GetItem for NULL sizer") ); wxSizerItemList::compatibility_iterator node = m_children.GetFirst(); while (node) { wxSizerItem *item = node->GetData(); if (item->GetSizer() == sizer) { return item; } else if (recursive && item->IsSizer()) { wxSizerItem *subitem = item->GetSizer()->GetItem( sizer, true ); if (subitem) return subitem; } node = node->GetNext(); } return NULL; } wxSizerItem* wxSizer::GetItem( size_t index ) { wxCHECK_MSG( index < m_children.GetCount(), NULL, wxT("GetItem index is out of range") ); return m_children.Item( index )->GetData(); } wxSizerItem* wxSizer::GetItemById( int id, bool recursive ) { // This gets a sizer item by the id of the sizer item // and NOT the id of a window if the item is a window. wxSizerItemList::compatibility_iterator node = m_children.GetFirst(); while (node) { wxSizerItem *item = node->GetData(); if (item->GetId() == id) { return item; } else if (recursive && item->IsSizer()) { wxSizerItem *subitem = item->GetSizer()->GetItemById( id, true ); if (subitem) return subitem; } node = node->GetNext(); } return NULL; } bool wxSizer::Show( wxWindow *window, bool show, bool recursive ) { wxSizerItem *item = GetItem( window, recursive ); if ( item ) { item->Show( show ); return true; } return false; } bool wxSizer::Show( wxSizer *sizer, bool show, bool recursive ) { wxSizerItem *item = GetItem( sizer, recursive ); if ( item ) { item->Show( show ); return true; } return false; } bool wxSizer::Show( size_t index, bool show) { wxSizerItem *item = GetItem( index ); if ( item ) { item->Show( show ); return true; } return false; } void wxSizer::ShowItems( bool show ) { wxSizerItemList::compatibility_iterator node = m_children.GetFirst(); while (node) { node->GetData()->Show( show ); node = node->GetNext(); } } bool wxSizer::IsShown( wxWindow *window ) const { wxSizerItemList::compatibility_iterator node = m_children.GetFirst(); while (node) { wxSizerItem *item = node->GetData(); if (item->GetWindow() == window) { return item->IsShown(); } node = node->GetNext(); } wxFAIL_MSG( wxT("IsShown failed to find sizer item") ); return false; } bool wxSizer::IsShown( wxSizer *sizer ) const { wxSizerItemList::compatibility_iterator node = m_children.GetFirst(); while (node) { wxSizerItem *item = node->GetData(); if (item->GetSizer() == sizer) { return item->IsShown(); } node = node->GetNext(); } wxFAIL_MSG( wxT("IsShown failed to find sizer item") ); return false; } bool wxSizer::IsShown( size_t index ) const { wxCHECK_MSG( index < m_children.GetCount(), false, wxT("IsShown index is out of range") ); return m_children.Item( index )->GetData()->IsShown(); } //--------------------------------------------------------------------------- // wxGridSizer //--------------------------------------------------------------------------- wxGridSizer::wxGridSizer( int cols, int vgap, int hgap ) : m_rows( cols == 0 ? 1 : 0 ), m_cols( cols ), m_vgap( vgap ), m_hgap( hgap ) { } wxGridSizer::wxGridSizer( int cols, const wxSize& gap ) : m_rows( cols == 0 ? 1 : 0 ), m_cols( cols ), m_vgap( gap.GetHeight() ), m_hgap( gap.GetWidth() ) { } wxGridSizer::wxGridSizer( int rows, int cols, int vgap, int hgap ) : m_rows( rows || cols ? rows : 1 ), m_cols( cols ), m_vgap( vgap ), m_hgap( hgap ) { } wxGridSizer::wxGridSizer( int rows, int cols, const wxSize& gap ) : m_rows( rows || cols ? rows : 1 ), m_cols( cols ), m_vgap( gap.GetHeight() ), m_hgap( gap.GetWidth() ) { } wxSizerItem *wxGridSizer::Insert(size_t index, wxSizerItem *item) { // if only the number of columns or the number of rows is specified for a // sizer, arbitrarily many items can be added to it but if both of them are // fixed, then the sizer can't have more than that many items -- check for // this here to ensure that we detect errors as soon as possible if ( m_cols && m_rows ) { const int nitems = m_children.GetCount(); if ( nitems == m_cols*m_rows ) { wxFAIL_MSG( wxString::Format( "too many items (%d > %d*%d) in grid sizer (maybe you " "should omit the number of either rows or columns?)", nitems + 1, m_cols, m_rows) ); // additionally, continuing to use the specified number of columns // and rows is not a good idea as callers of CalcRowsCols() expect // that all sizer items can fit into m_cols-/m_rows-sized arrays // which is not the case if there are too many items and results in // crashes, so let it compute the number of rows automatically by // forgetting the (wrong) number of rows specified (this also has a // nice side effect of giving only one assert even if there are // many more items than allowed in this sizer) m_rows = 0; } } return wxSizer::Insert(index, item); } int wxGridSizer::CalcRowsCols(int& nrows, int& ncols) const { const int nitems = m_children.GetCount(); ncols = GetEffectiveColsCount(); nrows = GetEffectiveRowsCount(); // Since Insert() checks for overpopulation, the following // should only assert if the grid was shrunk via SetRows() / SetCols() wxASSERT_MSG( nitems <= ncols*nrows, "logic error in wxGridSizer" ); return nitems; } void wxGridSizer::RecalcSizes() { int nitems, nrows, ncols; if ( (nitems = CalcRowsCols(nrows, ncols)) == 0 ) return; wxSize sz( GetSize() ); wxPoint pt( GetPosition() ); int w = (sz.x - (ncols - 1) * m_hgap) / ncols; int h = (sz.y - (nrows - 1) * m_vgap) / nrows; int x = pt.x; for (int c = 0; c < ncols; c++) { int y = pt.y; for (int r = 0; r < nrows; r++) { int i = r * ncols + c; if (i < nitems) { wxSizerItemList::compatibility_iterator node = m_children.Item( i ); wxASSERT_MSG( node, wxT("Failed to find SizerItemList node") ); SetItemBounds( node->GetData(), x, y, w, h); } y = y + h + m_vgap; } x = x + w + m_hgap; } } wxSize wxGridSizer::CalcMin() { int nrows, ncols; if ( CalcRowsCols(nrows, ncols) == 0 ) return wxSize(); // Find the max width and height for any component int w = 0; int h = 0; wxSizerItemList::compatibility_iterator node = m_children.GetFirst(); while (node) { wxSizerItem *item = node->GetData(); wxSize sz( item->CalcMin() ); w = wxMax( w, sz.x ); h = wxMax( h, sz.y ); node = node->GetNext(); } // In case we have a nested sizer with a two step algo , give it // a chance to adjust to that (we give it width component) node = m_children.GetFirst(); bool didChangeMinSize = false; while (node) { wxSizerItem *item = node->GetData(); didChangeMinSize |= item->InformFirstDirection( wxHORIZONTAL, w, -1 ); node = node->GetNext(); } // And redo iteration in case min size changed if( didChangeMinSize ) { node = m_children.GetFirst(); w = h = 0; while (node) { wxSizerItem *item = node->GetData(); wxSize sz( item->GetMinSizeWithBorder() ); w = wxMax( w, sz.x ); h = wxMax( h, sz.y ); node = node->GetNext(); } } return wxSize( ncols * w + (ncols-1) * m_hgap, nrows * h + (nrows-1) * m_vgap ); } void wxGridSizer::SetItemBounds( wxSizerItem *item, int x, int y, int w, int h ) { wxPoint pt( x,y ); wxSize sz( item->GetMinSizeWithBorder() ); int flag = item->GetFlag(); if ((flag & wxEXPAND) || (flag & wxSHAPED)) { sz = wxSize(w, h); } else { if (flag & wxALIGN_CENTER_HORIZONTAL) { pt.x = x + (w - sz.x) / 2; } else if (flag & wxALIGN_RIGHT) { pt.x = x + (w - sz.x); } if (flag & wxALIGN_CENTER_VERTICAL) { pt.y = y + (h - sz.y) / 2; } else if (flag & wxALIGN_BOTTOM) { pt.y = y + (h - sz.y); } } item->SetDimension(pt, sz); } //--------------------------------------------------------------------------- // wxFlexGridSizer //--------------------------------------------------------------------------- wxFlexGridSizer::wxFlexGridSizer( int cols, int vgap, int hgap ) : wxGridSizer( cols, vgap, hgap ), m_flexDirection(wxBOTH), m_growMode(wxFLEX_GROWMODE_SPECIFIED) { } wxFlexGridSizer::wxFlexGridSizer( int cols, const wxSize& gap ) : wxGridSizer( cols, gap ), m_flexDirection(wxBOTH), m_growMode(wxFLEX_GROWMODE_SPECIFIED) { } wxFlexGridSizer::wxFlexGridSizer( int rows, int cols, int vgap, int hgap ) : wxGridSizer( rows, cols, vgap, hgap ), m_flexDirection(wxBOTH), m_growMode(wxFLEX_GROWMODE_SPECIFIED) { } wxFlexGridSizer::wxFlexGridSizer( int rows, int cols, const wxSize& gap ) : wxGridSizer( rows, cols, gap ), m_flexDirection(wxBOTH), m_growMode(wxFLEX_GROWMODE_SPECIFIED) { } wxFlexGridSizer::~wxFlexGridSizer() { } void wxFlexGridSizer::RecalcSizes() { int nrows, ncols; if ( !CalcRowsCols(nrows, ncols) ) return; const wxPoint pt(GetPosition()); const wxSize sz(GetSize()); AdjustForGrowables(sz); wxSizerItemList::const_iterator i = m_children.begin(); const wxSizerItemList::const_iterator end = m_children.end(); int y = 0; for ( int r = 0; r < nrows; r++ ) { if ( m_rowHeights[r] == -1 ) { // this row is entirely hidden, skip it for ( int c = 0; c < ncols; c++ ) { if ( i == end ) return; ++i; } continue; } const int hrow = m_rowHeights[r]; int h = sz.y - y; // max remaining height, don't overflow it if ( hrow < h ) h = hrow; int x = 0; for ( int c = 0; c < ncols && i != end; c++, ++i ) { const int wcol = m_colWidths[c]; if ( wcol == -1 ) continue; int w = sz.x - x; // max possible value, ensure we don't overflow if ( wcol < w ) w = wcol; SetItemBounds(*i, pt.x + x, pt.y + y, w, h); x += wcol + m_hgap; } if ( i == end ) return; y += hrow + m_vgap; } } // helper function used in CalcMin() to sum up the sizes of non-hidden items static int SumArraySizes(const wxArrayInt& sizes, int gap) { // Sum total minimum size, including gaps between rows/columns. // -1 is used as a magic number meaning empty row/column. int total = 0; const size_t count = sizes.size(); for ( size_t n = 0; n < count; n++ ) { if ( sizes[n] != -1 ) { if ( total ) total += gap; // separate from the previous column total += sizes[n]; } } return total; } void wxFlexGridSizer::FindWidthsAndHeights(int nrows, int ncols) { // We have to recalculate the sizes in case the item minimum size has // changed since the previous layout, or the item has been hidden using // wxSizer::Show(). If all the items in a row/column are hidden, the final // dimension of the row/column will be -1, indicating that the column // itself is hidden. m_rowHeights.assign(nrows, -1); m_colWidths.assign(ncols, -1); // n is the index of the item in left-to-right top-to-bottom order size_t n = 0; for ( wxSizerItemList::iterator i = m_children.begin(); i != m_children.end(); ++i, ++n ) { wxSizerItem * const item = *i; if ( item->IsShown() ) { // NOTE: Not doing the calculation here, this is just // for finding max values. const wxSize sz(item->GetMinSizeWithBorder()); const int row = n / ncols; const int col = n % ncols; if ( sz.y > m_rowHeights[row] ) m_rowHeights[row] = sz.y; if ( sz.x > m_colWidths[col] ) m_colWidths[col] = sz.x; } } AdjustForFlexDirection(); m_calculatedMinSize = wxSize(SumArraySizes(m_colWidths, m_hgap), SumArraySizes(m_rowHeights, m_vgap)); } wxSize wxFlexGridSizer::CalcMin() { int nrows, ncols; // Number of rows/columns can change as items are added or removed. if ( !CalcRowsCols(nrows, ncols) ) return wxSize(); // We have to recalculate the sizes in case the item minimum size has // changed since the previous layout, or the item has been hidden using // wxSizer::Show(). If all the items in a row/column are hidden, the final // dimension of the row/column will be -1, indicating that the column // itself is hidden. m_rowHeights.assign(nrows, -1); m_colWidths.assign(ncols, -1); for ( wxSizerItemList::iterator i = m_children.begin(); i != m_children.end(); ++i) { wxSizerItem * const item = *i; if ( item->IsShown() ) { item->CalcMin(); } } // The stage of looking for max values in each row/column has been // made a separate function, since it's reused in AdjustForGrowables. FindWidthsAndHeights(nrows,ncols); return m_calculatedMinSize; } void wxFlexGridSizer::AdjustForFlexDirection() { // the logic in CalcMin works when we resize flexibly in both directions // but maybe this is not the case if ( m_flexDirection != wxBOTH ) { // select the array corresponding to the direction in which we do *not* // resize flexibly wxArrayInt& array = m_flexDirection == wxVERTICAL ? m_colWidths : m_rowHeights; const size_t count = array.GetCount(); // find the largest value in this array size_t n; int largest = 0; for ( n = 0; n < count; ++n ) { if ( array[n] > largest ) largest = array[n]; } // and now fill it with the largest value for ( n = 0; n < count; ++n ) { // don't touch hidden rows if ( array[n] != -1 ) array[n] = largest; } } } // helper of AdjustForGrowables() which is called for rows/columns separately // // parameters: // delta: the extra space, we do nothing unless it's positive // growable: indices or growable rows/cols in sizes array // sizes: the height/widths of rows/cols to adjust // proportions: proportions of the growable rows/cols or NULL if they all // should be assumed to have proportion of 1 static void DoAdjustForGrowables(int delta, const wxArrayInt& growable, wxArrayInt& sizes, const wxArrayInt *proportions) { if ( delta <= 0 ) return; // total sum of proportions of all non-hidden rows int sum_proportions = 0; // number of currently shown growable rows int num = 0; const int max_idx = sizes.size(); const size_t count = growable.size(); size_t idx; for ( idx = 0; idx < count; idx++ ) { // Since the number of rows/columns can change as items are // inserted/deleted, we need to verify at runtime that the // requested growable rows/columns are still valid. if ( growable[idx] >= max_idx ) continue; // If all items in a row/column are hidden, that row/column will // have a dimension of -1. This causes the row/column to be // hidden completely. if ( sizes[growable[idx]] == -1 ) continue; if ( proportions ) sum_proportions += (*proportions)[idx]; num++; } if ( !num ) return; // the remaining extra free space, adjusted during each iteration for ( idx = 0; idx < count; idx++ ) { if ( growable[idx] >= max_idx ) continue; if ( sizes[ growable[idx] ] == -1 ) continue; int cur_delta; if ( sum_proportions == 0 ) { // no growable rows -- divide extra space evenly among all cur_delta = delta/num; num--; } else // allocate extra space proportionally { const int cur_prop = (*proportions)[idx]; cur_delta = (delta*cur_prop)/sum_proportions; sum_proportions -= cur_prop; } sizes[growable[idx]] += cur_delta; delta -= cur_delta; } } void wxFlexGridSizer::AdjustForGrowables(const wxSize& sz) { #if wxDEBUG_LEVEL // by the time this function is called, the sizer should be already fully // initialized and hence the number of its columns and rows is known and we // can check that all indices in m_growableCols/Rows are valid (see also // comments in AddGrowableCol/Row()) if ( !m_rows || !m_cols ) { if ( !m_rows ) { int nrows = CalcRows(); for ( size_t n = 0; n < m_growableRows.size(); n++ ) { wxASSERT_MSG( m_growableRows[n] < nrows, "invalid growable row index" ); } } if ( !m_cols ) { int ncols = CalcCols(); for ( size_t n = 0; n < m_growableCols.size(); n++ ) { wxASSERT_MSG( m_growableCols[n] < ncols, "invalid growable column index" ); } } } #endif // wxDEBUG_LEVEL if ( (m_flexDirection & wxHORIZONTAL) || (m_growMode != wxFLEX_GROWMODE_NONE) ) { DoAdjustForGrowables ( sz.x - m_calculatedMinSize.x, m_growableCols, m_colWidths, m_growMode == wxFLEX_GROWMODE_SPECIFIED ? &m_growableColsProportions : NULL ); // This gives nested objects that benefit from knowing one size // component in advance the chance to use that. bool didAdjustMinSize = false; // Iterate over all items and inform about column width const int ncols = GetEffectiveColsCount(); int col = 0; for ( wxSizerItemList::iterator i = m_children.begin(); i != m_children.end(); ++i ) { didAdjustMinSize |= (*i)->InformFirstDirection(wxHORIZONTAL, m_colWidths[col], sz.y - m_calculatedMinSize.y); if ( ++col == ncols ) col = 0; } // Only redo if info was actually used if( didAdjustMinSize ) { DoAdjustForGrowables ( sz.x - m_calculatedMinSize.x, m_growableCols, m_colWidths, m_growMode == wxFLEX_GROWMODE_SPECIFIED ? &m_growableColsProportions : NULL ); } } if ( (m_flexDirection & wxVERTICAL) || (m_growMode != wxFLEX_GROWMODE_NONE) ) { // pass NULL instead of proportions if the grow mode is ALL as we // should treat all rows as having proportion of 1 then DoAdjustForGrowables ( sz.y - m_calculatedMinSize.y, m_growableRows, m_rowHeights, m_growMode == wxFLEX_GROWMODE_SPECIFIED ? &m_growableRowsProportions : NULL ); } } bool wxFlexGridSizer::IsRowGrowable( size_t idx ) { return m_growableRows.Index( idx ) != wxNOT_FOUND; } bool wxFlexGridSizer::IsColGrowable( size_t idx ) { return m_growableCols.Index( idx ) != wxNOT_FOUND; } void wxFlexGridSizer::AddGrowableRow( size_t idx, int proportion ) { wxASSERT_MSG( !IsRowGrowable( idx ), "AddGrowableRow() called for growable row" ); // notice that we intentionally don't check the index validity here in (the // common) case when the number of rows was not specified in the ctor -- in // this case it will be computed only later, when all items are added to // the sizer, and the check will be done in AdjustForGrowables() wxCHECK_RET( !m_rows || idx < (size_t)m_rows, "invalid row index" ); m_growableRows.Add( idx ); m_growableRowsProportions.Add( proportion ); } void wxFlexGridSizer::AddGrowableCol( size_t idx, int proportion ) { wxASSERT_MSG( !IsColGrowable( idx ), "AddGrowableCol() called for growable column" ); // see comment in AddGrowableRow(): although it's less common to omit the // specification of the number of columns, it still can also happen wxCHECK_RET( !m_cols || idx < (size_t)m_cols, "invalid column index" ); m_growableCols.Add( idx ); m_growableColsProportions.Add( proportion ); } // helper function for RemoveGrowableCol/Row() static void DoRemoveFromArrays(size_t idx, wxArrayInt& items, wxArrayInt& proportions) { const size_t count = items.size(); for ( size_t n = 0; n < count; n++ ) { if ( (size_t)items[n] == idx ) { items.RemoveAt(n); proportions.RemoveAt(n); return; } } wxFAIL_MSG( wxT("column/row is already not growable") ); } void wxFlexGridSizer::RemoveGrowableCol( size_t idx ) { DoRemoveFromArrays(idx, m_growableCols, m_growableColsProportions); } void wxFlexGridSizer::RemoveGrowableRow( size_t idx ) { DoRemoveFromArrays(idx, m_growableRows, m_growableRowsProportions); } //--------------------------------------------------------------------------- // wxBoxSizer //--------------------------------------------------------------------------- void wxBoxSizer::RecalcSizes() { if ( m_children.empty() ) return; const wxCoord totalMinorSize = GetSizeInMinorDir(m_size); // the amount of free space which we should redistribute among the // stretchable items (i.e. those with non zero proportion) int delta = GetSizeInMajorDir(m_size) - GetSizeInMajorDir(m_minSize); // Inform child items about the size in minor direction, that can // change how much free space we have in major dir and how to distribute it. int majorMinSum = 0; wxSizerItemList::const_iterator i ; for ( i = m_children.begin(); i != m_children.end(); ++i ) { wxSizerItem * const item = *i; if ( !item->IsShown() ) continue; wxSize szMinPrev = item->GetMinSizeWithBorder(); item->InformFirstDirection(m_orient^wxBOTH,totalMinorSize,delta); wxSize szMin = item->GetMinSizeWithBorder(); int deltaChange = GetSizeInMajorDir(szMin-szMinPrev); if( deltaChange ) { // Since we passed available space along to the item, it should not // take too much, so delta should not become negative. delta -= deltaChange; } majorMinSum += GetSizeInMajorDir(item->GetMinSizeWithBorder()); } // And update our min size SizeInMajorDir(m_minSize) = majorMinSum; // might have a new delta now delta = GetSizeInMajorDir(m_size) - GetSizeInMajorDir(m_minSize); // the position at which we put the next child wxPoint pt(m_position); int totalProportion = m_totalProportion; for ( i = m_children.begin(); i != m_children.end(); ++i ) { wxSizerItem * const item = *i; if ( !item->IsShown() ) continue; const wxSize sizeThis(item->GetMinSizeWithBorder()); // adjust the size in the major direction using the proportion wxCoord majorSize = GetSizeInMajorDir(sizeThis); // if there is not enough space, don't try to distribute negative space // among the children, this would result in overlapping windows which // we don't want if ( delta > 0 ) { const int propItem = item->GetProportion(); if ( propItem ) { const int deltaItem = (delta * propItem) / totalProportion; majorSize += deltaItem; delta -= deltaItem; totalProportion -= propItem; } } // apply the alignment in the minor direction wxPoint posChild(pt); wxCoord minorSize = GetSizeInMinorDir(sizeThis); const int flag = item->GetFlag(); if ( flag & (wxEXPAND | wxSHAPED) ) { minorSize = totalMinorSize; } else if ( flag & (IsVertical() ? wxALIGN_RIGHT : wxALIGN_BOTTOM) ) { PosInMinorDir(posChild) += totalMinorSize - minorSize; } // NB: wxCENTRE is used here only for backwards compatibility, // wxALIGN_CENTRE should be used in new code else if ( flag & (wxCENTER | (IsVertical() ? wxALIGN_CENTRE_HORIZONTAL : wxALIGN_CENTRE_VERTICAL))) { PosInMinorDir(posChild) += (totalMinorSize - minorSize) / 2; } // apply RTL adjustment for horizontal sizers: if ( !IsVertical() && m_containingWindow ) { posChild.x = m_containingWindow->AdjustForLayoutDirection ( posChild.x, majorSize, m_size.x ); } // finally set size of this child and advance to the next one item->SetDimension(posChild, SizeFromMajorMinor(majorSize, minorSize)); PosInMajorDir(pt) += majorSize; } } wxSize wxBoxSizer::CalcMin() { m_totalProportion = 0; m_minSize = wxSize(0, 0); // calculate the minimal sizes for all items and count sum of proportions for ( wxSizerItemList::const_iterator i = m_children.begin(); i != m_children.end(); ++i ) { wxSizerItem * const item = *i; if ( !item->IsShown() ) continue; const wxSize sizeMinThis = item->CalcMin(); SizeInMajorDir(m_minSize) += GetSizeInMajorDir(sizeMinThis); if ( GetSizeInMinorDir(sizeMinThis) > GetSizeInMinorDir(m_minSize) ) SizeInMinorDir(m_minSize) = GetSizeInMinorDir(sizeMinThis); m_totalProportion += item->GetProportion(); } return m_minSize; } //--------------------------------------------------------------------------- // wxStaticBoxSizer //--------------------------------------------------------------------------- #if wxUSE_STATBOX wxStaticBoxSizer::wxStaticBoxSizer( wxStaticBox *box, int orient ) : wxBoxSizer( orient ), m_staticBox( box ) { wxASSERT_MSG( box, wxT("wxStaticBoxSizer needs a static box") ); // do this so that our Detach() is called if the static box is destroyed // before we are m_staticBox->SetContainingSizer(this); } wxStaticBoxSizer::wxStaticBoxSizer(int orient, wxWindow *win, const wxString& s) : wxBoxSizer(orient), m_staticBox(new wxStaticBox(win, wxID_ANY, s)) { // same as above m_staticBox->SetContainingSizer(this); } wxStaticBoxSizer::~wxStaticBoxSizer() { delete m_staticBox; } void wxStaticBoxSizer::RecalcSizes() { int top_border, other_border; m_staticBox->GetBordersForSizer(&top_border, &other_border); m_staticBox->SetSize( m_position.x, m_position.y, m_size.x, m_size.y ); wxSize old_size( m_size ); m_size.x -= 2*other_border; m_size.y -= top_border + other_border; wxPoint old_pos( m_position ); if (m_staticBox->GetChildren().GetCount() > 0) { #if defined( __WXGTK20__ ) // if the wxStaticBox has created a wxPizza to contain its children // (see wxStaticBox::AddChild) then we need to place the items it contains // in the wxBoxSizer::RecalcSizes() call below using coordinates relative // to the top-left corner of the staticbox: m_position.x = m_position.y = 0; #else // if the wxStaticBox has childrens, then these windows must be placed // by the wxBoxSizer::RecalcSizes() call below using coordinates relative // to the top-left corner of the staticbox (but unlike wxGTK, we need // to keep in count the static borders here!): m_position.x = other_border; m_position.y = top_border; #endif } else { // the windows contained in the staticbox have been created as siblings of the // staticbox (this is the "old" way of staticbox contents creation); in this // case we need to position them with coordinates relative to our common parent m_position.x += other_border; m_position.y += top_border; } wxBoxSizer::RecalcSizes(); m_position = old_pos; m_size = old_size; } wxSize wxStaticBoxSizer::CalcMin() { int top_border, other_border; m_staticBox->GetBordersForSizer(&top_border, &other_border); wxSize ret( wxBoxSizer::CalcMin() ); ret.x += 2*other_border; // ensure that we're wide enough to show the static box label (there is no // need to check for the static box best size in vertical direction though) const int boxWidth = m_staticBox->GetBestSize().x; if ( ret.x < boxWidth ) ret.x = boxWidth; ret.y += other_border + top_border; return ret; } void wxStaticBoxSizer::ShowItems( bool show ) { m_staticBox->Show( show ); wxBoxSizer::ShowItems( show ); } bool wxStaticBoxSizer::Detach( wxWindow *window ) { // avoid deleting m_staticBox in our dtor if it's being detached from the // sizer (which can happen because it's being already destroyed for // example) if ( window == m_staticBox ) { m_staticBox = NULL; return true; } return wxSizer::Detach( window ); } #endif // wxUSE_STATBOX //--------------------------------------------------------------------------- // wxStdDialogButtonSizer //--------------------------------------------------------------------------- #if wxUSE_BUTTON wxStdDialogButtonSizer::wxStdDialogButtonSizer() : wxBoxSizer(wxHORIZONTAL) { // Vertical buttons with lots of space on either side // looks rubbish on WinCE, so let's not do this for now. // If we are going to use vertical buttons, we should // put the sizer to the right of other controls in the dialog, // and that's beyond the scope of this sizer. #ifndef __WXWINCE__ bool is_pda = (wxSystemSettings::GetScreenType() <= wxSYS_SCREEN_PDA); // If we have a PDA screen, put yes/no button over // all other buttons, otherwise on the left side. if (is_pda) m_orient = wxVERTICAL; #endif m_buttonAffirmative = NULL; m_buttonApply = NULL; m_buttonNegative = NULL; m_buttonCancel = NULL; m_buttonHelp = NULL; } void wxStdDialogButtonSizer::AddButton(wxButton *mybutton) { switch (mybutton->GetId()) { case wxID_OK: case wxID_YES: case wxID_SAVE: m_buttonAffirmative = mybutton; break; case wxID_APPLY: m_buttonApply = mybutton; break; case wxID_NO: m_buttonNegative = mybutton; break; case wxID_CANCEL: case wxID_CLOSE: m_buttonCancel = mybutton; break; case wxID_HELP: case wxID_CONTEXT_HELP: m_buttonHelp = mybutton; break; default: break; } } void wxStdDialogButtonSizer::SetAffirmativeButton( wxButton *button ) { m_buttonAffirmative = button; } void wxStdDialogButtonSizer::SetNegativeButton( wxButton *button ) { m_buttonNegative = button; } void wxStdDialogButtonSizer::SetCancelButton( wxButton *button ) { m_buttonCancel = button; } void wxStdDialogButtonSizer::Realize() { #ifdef __WXMAC__ Add(0, 0, 0, wxLEFT, 6); if (m_buttonHelp) Add((wxWindow*)m_buttonHelp, 0, wxALIGN_CENTRE | wxLEFT | wxRIGHT, 6); if (m_buttonNegative){ // HIG POLICE BULLETIN - destructive buttons need extra padding // 24 pixels on either side Add((wxWindow*)m_buttonNegative, 0, wxALIGN_CENTRE | wxLEFT | wxRIGHT, 12); } // extra whitespace between help/negative and cancel/ok buttons Add(0, 0, 1, wxEXPAND, 0); if (m_buttonCancel){ Add((wxWindow*)m_buttonCancel, 0, wxALIGN_CENTRE | wxLEFT | wxRIGHT, 6); // Cancel or help should be default // m_buttonCancel->SetDefaultButton(); } // Ugh, Mac doesn't really have apply dialogs, so I'll just // figure the best place is between Cancel and OK if (m_buttonApply) Add((wxWindow*)m_buttonApply, 0, wxALIGN_CENTRE | wxLEFT | wxRIGHT, 6); if (m_buttonAffirmative){ Add((wxWindow*)m_buttonAffirmative, 0, wxALIGN_CENTRE | wxLEFT, 6); if (m_buttonAffirmative->GetId() == wxID_SAVE){ // these buttons have set labels under Mac so we should use them m_buttonAffirmative->SetLabel(_("Save")); if (m_buttonNegative) m_buttonNegative->SetLabel(_("Don't Save")); } } // Extra space around and at the right Add(12, 40); #elif defined(__WXGTK20__) Add(0, 0, 0, wxLEFT, 9); if (m_buttonHelp) Add((wxWindow*)m_buttonHelp, 0, wxALIGN_CENTRE | wxLEFT | wxRIGHT, 3); // extra whitespace between help and cancel/ok buttons Add(0, 0, 1, wxEXPAND, 0); if (m_buttonNegative){ Add((wxWindow*)m_buttonNegative, 0, wxALIGN_CENTRE | wxLEFT | wxRIGHT, 3); } // according to HIG, in explicit apply windows the order is: // [ Help Apply Cancel OK ] if (m_buttonApply) Add((wxWindow*)m_buttonApply, 0, wxALIGN_CENTRE | wxLEFT | wxRIGHT, 3); if (m_buttonCancel){ Add((wxWindow*)m_buttonCancel, 0, wxALIGN_CENTRE | wxLEFT | wxRIGHT, 3); // Cancel or help should be default // m_buttonCancel->SetDefaultButton(); } if (m_buttonAffirmative) Add((wxWindow*)m_buttonAffirmative, 0, wxALIGN_CENTRE | wxLEFT, 6); #elif defined(__WXMSW__) // Windows // right-justify buttons Add(0, 0, 1, wxEXPAND, 0); if (m_buttonAffirmative){ Add((wxWindow*)m_buttonAffirmative, 0, wxALIGN_CENTRE | wxLEFT | wxRIGHT, m_buttonAffirmative->ConvertDialogToPixels(wxSize(2, 0)).x); } if (m_buttonNegative){ Add((wxWindow*)m_buttonNegative, 0, wxALIGN_CENTRE | wxLEFT | wxRIGHT, m_buttonNegative->ConvertDialogToPixels(wxSize(2, 0)).x); } if (m_buttonCancel){ Add((wxWindow*)m_buttonCancel, 0, wxALIGN_CENTRE | wxLEFT | wxRIGHT, m_buttonCancel->ConvertDialogToPixels(wxSize(2, 0)).x); } if (m_buttonApply) Add((wxWindow*)m_buttonApply, 0, wxALIGN_CENTRE | wxLEFT | wxRIGHT, m_buttonApply->ConvertDialogToPixels(wxSize(2, 0)).x); if (m_buttonHelp) Add((wxWindow*)m_buttonHelp, 0, wxALIGN_CENTRE | wxLEFT | wxRIGHT, m_buttonHelp->ConvertDialogToPixels(wxSize(2, 0)).x); #else // GTK+1 and any other platform // Add(0, 0, 0, wxLEFT, 5); // Not sure what this was for but it unbalances the dialog if (m_buttonHelp) Add((wxWindow*)m_buttonHelp, 0, wxALIGN_CENTRE | wxLEFT | wxRIGHT, m_buttonHelp->ConvertDialogToPixels(wxSize(4, 0)).x); // extra whitespace between help and cancel/ok buttons Add(0, 0, 1, wxEXPAND, 0); if (m_buttonApply) Add((wxWindow*)m_buttonApply, 0, wxALIGN_CENTRE | wxLEFT | wxRIGHT, m_buttonApply->ConvertDialogToPixels(wxSize(4, 0)).x); if (m_buttonAffirmative){ Add((wxWindow*)m_buttonAffirmative, 0, wxALIGN_CENTRE | wxLEFT | wxRIGHT, m_buttonAffirmative->ConvertDialogToPixels(wxSize(4, 0)).x); } if (m_buttonNegative){ Add((wxWindow*)m_buttonNegative, 0, wxALIGN_CENTRE | wxLEFT | wxRIGHT, m_buttonNegative->ConvertDialogToPixels(wxSize(4, 0)).x); } if (m_buttonCancel){ Add((wxWindow*)m_buttonCancel, 0, wxALIGN_CENTRE | wxLEFT | wxRIGHT, m_buttonCancel->ConvertDialogToPixels(wxSize(4, 0)).x); // Cancel or help should be default // m_buttonCancel->SetDefaultButton(); } #endif } #endif // wxUSE_BUTTON