\section{\class{wxBoxSizer}}\label{wxboxsizer} The basic idea behind a box sizer is that windows will most often be laid out in rather simple basic geomerty, typically in a row or a column or several hierachies of either. As an exmaple, we will construct a dialog that will contain a text field at the top and two buttons at the bottom. This can be seen as a top-hierarchy column with the text at the top and buttons at the bottom and a low-hierchary row with an OK button to the left and a Cancel button to the right. In many cases (particulary dialogs under Unix and normal frames) the main window will be resizable by the user and this change of size will have to get propagated to its children. In our case, we want the text area to grow with the dialog, whereas the button shall have a fixed size. In addition, there will be a thin border around all controls to make the dialog look nice and - to make matter worse - the buttons shall be centred as the width of the dialog changes. It is the unique feature of a box sizer, that it can grow in both directions (height and width) but can distribute its growth in the main direction (horizontal for a row) {\it unevenly} among its children. In our example case, the vertical sizer is supposed to propagate all its height changes to only the text area, not to the button area. This is determined by the {\it option} parameter when adding a window (or another sizer) to a sizer. It is interpreted as a weight factor, i.e. it can be zero, indicating that the window may not be resized at all, or above zero. If several windows have a value above zero, the value is interpreted relative to the sum of all weight factors of the sizer, so when adding two windows with a value of 1, they will both get resized equally much and each half as much as the sizer owning them. Then what do we do when a column sizer changes its width? This behaviour is controlled by {\it flags} (the second parameter of the Add() function): Zero or no flag indicates that the window will get aligned at the left (in a column sizer) and the top (row sizer), whereas wxALIGN\_RIGHT and wxALIGN\_BOTTOM will do what they say. The item can also be centered using the wxCENTRE flag (same as wxCENTER) or it can be forced to grow with the sizer (using the wxGROW flag (same as wxEXPAND)). As mentioned above, any window belonging to a sizer may have border, and it can be specified which of the four sides may have this border, using the wxTOP, wxLEFT, wxRIGHT and wxBOTTOM constants or wxALL for all directions (and you may also use wxNORTH, wxWEST etc instead). These flags can be used in combintaion with the alignement flags above as the second paramter of the Add() method using the binary or operator |. The sizer of the border also must be made known, and it is the third parameter in the Add() method. This means, that the entire behaviour of a sizer and its children can be controlled by the three parameters of the Add() method. \begin{verbatim} // we want to get a dialog that is stretchable because it // has a text ctrl at the top and two buttons at the bottom MyDialog::MyDialog(wxFrame *parent, wxWindowID id, const wxString &title ) : wxDialog( parent, id, title, wxDefaultPosition, wxDefaultSize, wxDIALOG_STYLE | wxRESIZE_BORDER ) { wxBoxSizer *topsizer = new wxBoxSizer( wxVERTICAL ); // create text ctrl with minimal size 100x60 topsizer->Add( new wxTextCtrl( this, -1, "My text.", wxDefaultPosition, wxSize(100,60), wxTE_MULTILINE), 1, // make vertically stretchable wxEXPAND | // make horizontally stretchable wxALL, // and make border all around 10 ); // set border width to 10 wxBoxSizer *button_sizer = new wxBoxSizer( wxHORIZONTAL ); button_sizer->Add( new wxButton( this, wxID_OK, "OK" ), 0, // make horizontally unstretchable wxALL, // make border all around (implicit top alignment) 10 ); // set border width to 10 button_sizer->Add( new wxButton( this, wxID_CANCEL, "Cancel" ), 0, // make horizontally unstretchable wxALL, // make border all around (implicit top alignment) 10 ); // set border width to 10 topsizer->Add( button_sizer, 0, // make vertically unstretchable wxCENTER ); // no border and centre horizontally SetAutoLayout( TRUE ); // tell dialog to use sizer SetSizer( topsizer ); // actually set the sizer topsizer->Fit( this ); // set size to minimum size as calculated by the sizer topsizer->SetSizeHints( this ); // set size hints to honour mininum size } \end{verbatim} \wxheading{Derived from} \helpref{wxSizer}{wxsizer} \helpref{wxObject}{wxobject} \membersection{wxBoxSizer::wxBoxSizer}\label{wxboxsizerwxboxsizer} \func{}{wxBoxSizer}{\param{int }{orient}} Constructor for a wxBoxSizer. {\it orient} may be either of wxVERTICAL or wxHORIZONTAL for creating either a column sizer or a row sizer. \membersection{wxBoxSizer::RecalcSizes}\label{wxboxsizerrecalcsizes} \func{void}{RecalcSizes}{\void} Implements the calculation of a box sizer's dimensions and then sets the size of its its children (calling \helpref{wxWindow::SetSize}{wxwindowsetsize} if the child is a window). It is used internally only and must not be called by the users. Documented for information. \membersection{wxBoxSizer::CalcMin}\label{wxboxsizercalcmin} \func{wxSize}{CalcMin}{\void} Implements the calculation of a box sizer's minimal. It is used internally only and must not be called by the users. Documented for information. \membersection{wxBoxSizer::GetOrientation}\label{wxboxsizergetorientation} \func{int}{GetOrientation}{\void} Returns the orientation of the boxsizer, either of wxVERTICAL or wxHORIZONTAL.