//===== Copyright 1996-2005, Valve Corporation, All rights reserved. ======// // // Purpose: // // $NoKeywords: $ //===========================================================================// #include <vgui/IScheme.h> #include <vgui/Cursor.h> #include <vgui/iinput.h> #include <vgui_controls/Splitter.h> #include "tier1/keyvalues.h" #include <limits.h> // memdbgon must be the last include file in a .cpp file!!! #include "tier0/memdbgon.h" using namespace vgui; enum { SPLITTER_HANDLE_WIDTH = 4 }; //----------------------------------------------------------------------------- // Splitter handle //----------------------------------------------------------------------------- namespace vgui { class SplitterHandle : public Panel { DECLARE_CLASS_SIMPLE( SplitterHandle, Panel ); public: SplitterHandle( Splitter *parent, const char *name, SplitterMode_t mode, int nIndex ); ~SplitterHandle(); virtual void ApplySchemeSettings( IScheme *pScheme ); virtual void OnMousePressed( MouseCode code ); virtual void OnMouseReleased( MouseCode code ); virtual void OnCursorMoved( int x, int y ); virtual void OnMouseDoublePressed( MouseCode code ); private: SplitterMode_t m_nMode; int m_nIndex; bool m_bDragging; }; } // end namespace vgui //----------------------------------------------------------------------------- // Purpose: Constructor //----------------------------------------------------------------------------- SplitterHandle::SplitterHandle( Splitter *parent, const char *name, SplitterMode_t mode, int nIndex ) : BaseClass( parent, name ) { int w, h; parent->GetSize( w, h ); if ( mode == SPLITTER_MODE_HORIZONTAL ) { SetSize( w, SPLITTER_HANDLE_WIDTH ); SetCursor( dc_sizens ); } else { SetSize( SPLITTER_HANDLE_WIDTH, h ); SetCursor( dc_sizewe ); } SetVisible( true ); SetPaintBackgroundEnabled( false ); SetPaintEnabled( false ); SetPaintBorderEnabled( true ); m_bDragging = false; m_nIndex = nIndex; m_nMode = mode; } //----------------------------------------------------------------------------- // Purpose: Destructor //----------------------------------------------------------------------------- SplitterHandle::~SplitterHandle() { } //----------------------------------------------------------------------------- // Scheme settings //----------------------------------------------------------------------------- void SplitterHandle::ApplySchemeSettings(IScheme *pScheme) { // Cache off background color stored in SetSplitterColor Color c = GetBgColor(); SetBorder(pScheme->GetBorder("ButtonDepressedBorder")); BaseClass::ApplySchemeSettings(pScheme); SetBgColor( c ); } //----------------------------------------------------------------------------- // Capture mouse when dragging //----------------------------------------------------------------------------- void SplitterHandle::OnMousePressed(MouseCode code) { if ( !m_bDragging ) { input()->SetMouseCapture(GetVPanel()); m_bDragging = true; } } //----------------------------------------------------------------------------- // Release mouse capture when finished dragging //----------------------------------------------------------------------------- void SplitterHandle::OnMouseReleased(MouseCode code) { if ( m_bDragging ) { input()->SetMouseCapture(NULL); m_bDragging = false; } } //----------------------------------------------------------------------------- // While dragging, update the splitter position //----------------------------------------------------------------------------- void SplitterHandle::OnCursorMoved(int x, int y) { if (m_bDragging) { input()->GetCursorPos( x, y ); Splitter *pSplitter = assert_cast<Splitter*>( GetParent() ); pSplitter->ScreenToLocal( x,y ); pSplitter->SetSplitterPosition( m_nIndex, (m_nMode == SPLITTER_MODE_HORIZONTAL) ? y : x ); } } //----------------------------------------------------------------------------- // Double-click: make both panels on either side of the splitter equal size //----------------------------------------------------------------------------- void SplitterHandle::OnMouseDoublePressed( MouseCode code ) { Splitter *pSplitter = assert_cast<Splitter*>( GetParent() ); pSplitter->EvenlyRespaceSplitters(); } //----------------------------------------------------------------------------- // Returns a panel that chains user configs //----------------------------------------------------------------------------- namespace vgui { class SplitterChildPanel : public EditablePanel { DECLARE_CLASS_SIMPLE( SplitterChildPanel, EditablePanel ); public: SplitterChildPanel( Panel *parent, const char *panelName ) : BaseClass( parent, panelName ) { SetPaintBackgroundEnabled( false ); SetPaintEnabled( false ); SetPaintBorderEnabled( false ); } virtual ~SplitterChildPanel() {} // Children may have user config settings bool HasUserConfigSettings() { return true; } }; } // end namespace vgui //----------------------------------------------------------------------------- // // Splitter panel // //----------------------------------------------------------------------------- vgui::Panel *Splitter_V_Factory() { return new Splitter( NULL, NULL, SPLITTER_MODE_VERTICAL, 1 ); } vgui::Panel *Splitter_H_Factory() { return new Splitter( NULL, NULL, SPLITTER_MODE_HORIZONTAL, 1 ); } //----------------------------------------------------------------------------- // Purpose: Constructor //----------------------------------------------------------------------------- Splitter::Splitter( Panel *parent, const char *name, SplitterMode_t mode, int nCount ) : BaseClass( parent, name ) { Assert( nCount >= 1 ); m_Mode = mode; SetPaintBackgroundEnabled( false ); SetPaintEnabled( false ); SetPaintBorderEnabled( false ); RecreateSplitters( nCount ); EvenlyRespaceSplitters(); } //----------------------------------------------------------------------------- // Purpose: Destructor //----------------------------------------------------------------------------- Splitter::~Splitter() { m_Splitters.RemoveAll(); } void Splitter::RecreateSplitters( int nCount ) { int i; int c = m_Splitters.Count(); for ( i = 0; i < c; ++i ) { delete m_Splitters[ i ].m_pPanel; delete m_Splitters[ i ].m_pHandle; } m_Splitters.RemoveAll(); for ( i = 0; i < (nCount + 1); ++i ) { char pBuffer[512]; Q_snprintf( pBuffer, sizeof(pBuffer), "child%d", i ); int nIndex = m_Splitters.AddToTail( ); SplitterChildPanel *pEditablePanel = new SplitterChildPanel( this, pBuffer ); m_Splitters[nIndex].m_pPanel = pEditablePanel; m_Splitters[nIndex].m_bLocked = false; m_Splitters[nIndex].m_nLockedSize = 0; } // We do this in 2 loops so that the first N children are actual child panels for ( i = 0; i < nCount; ++i ) { SplitterHandle *pHandle = new SplitterHandle( this, "SplitterHandle", m_Mode, i ); m_Splitters[i].m_pHandle = pHandle; pHandle->MoveToFront(); } m_Splitters[nCount].m_pHandle = NULL; } //----------------------------------------------------------------------------- // Sets the splitter color //----------------------------------------------------------------------------- void Splitter::SetSplitterColor( Color c ) { int nCount = m_Splitters.Count() - 1; if ( c.a() != 0 ) { for ( int i = 0; i < nCount; ++i ) { m_Splitters[i].m_pHandle->SetBgColor( c ); m_Splitters[i].m_pHandle->SetPaintBackgroundEnabled( true ); } } else { for ( int i = 0; i < nCount; ++i ) { m_Splitters[i].m_pHandle->SetPaintBackgroundEnabled( false ); } } } //----------------------------------------------------------------------------- // Enables borders on the splitters //----------------------------------------------------------------------------- void Splitter::EnableBorders( bool bEnable ) { int nCount = m_Splitters.Count() - 1; for ( int i = 0; i < nCount; ++i ) { m_Splitters[i].m_pHandle->SetPaintBorderEnabled( bEnable ); } } //----------------------------------------------------------------------------- // controls splitters //----------------------------------------------------------------------------- int Splitter::GetSplitterCount() const { return m_Splitters.Count() - 1; } //----------------------------------------------------------------------------- // controls splitters //----------------------------------------------------------------------------- int Splitter::GetSubPanelCount() const { return m_Splitters.Count(); } //----------------------------------------------------------------------------- // Purpose: Applies resouce settings //----------------------------------------------------------------------------- void Splitter::ApplySettings(KeyValues *inResourceData) { BaseClass::ApplySettings(inResourceData); // Look for splitter positions int nSplitterCount = GetSplitterCount(); for ( int i = 0; i < nSplitterCount; ++i ) { char pBuffer[512]; Q_snprintf( pBuffer, sizeof(pBuffer), "splitter%d", i ); int nSplitterPos = inResourceData->GetInt( pBuffer , -1 ); if ( nSplitterPos >= 0 ) { SetSplitterPosition( i, nSplitterPos ); } } } //----------------------------------------------------------------------------- // Purpose: //----------------------------------------------------------------------------- int Splitter::GetPosRange() { int w, h; GetSize( w, h ); int nPosRange = (m_Mode == SPLITTER_MODE_HORIZONTAL) ? h : w; return nPosRange; } //----------------------------------------------------------------------------- // Locks the size of a particular child in pixels. //----------------------------------------------------------------------------- void Splitter::LockChildSize( int nChildIndex, int nSize ) { Assert( nChildIndex < m_Splitters.Count() ); SplitterInfo_t &info = m_Splitters[nChildIndex]; nSize += SPLITTER_HANDLE_WIDTH; if ( !info.m_bLocked || (info.m_nLockedSize != nSize) ) { float flPrevPos = (nChildIndex > 0) ? m_Splitters[nChildIndex-1].m_flPos : 0.0f; float flOldSize = info.m_flPos - flPrevPos; float flDelta = nSize - flOldSize; int nCount = m_Splitters.Count(); for ( int i = nChildIndex; i < nCount-1; ++i ) { m_Splitters[i].m_flPos += flDelta; } m_Splitters[nCount-1].m_flPos = GetPosRange(); info.m_bLocked = true; info.m_nLockedSize = nSize; InvalidateLayout(); } } void Splitter::UnlockChildSize( int nChildIndex ) { Assert( nChildIndex < m_Splitters.Count() ); SplitterInfo_t &info = m_Splitters[nChildIndex]; if ( info.m_bLocked ) { info.m_bLocked = false; float flPrevPos = (nChildIndex > 0) ? m_Splitters[nChildIndex-1].m_flPos : 0.0f; float flBelowSize = GetPosRange() - flPrevPos; int nLockedSize = ComputeLockedSize( nChildIndex + 1 ); int nUnlockedCount = 1; int nCount = m_Splitters.Count(); for ( int i = nChildIndex + 1; i < nCount; ++i ) { if ( !m_Splitters[i].m_bLocked ) { ++nUnlockedCount; } } float flUnlockedSize = ( flBelowSize - nLockedSize ) / nUnlockedCount; for ( int i = nChildIndex; i < nCount; ++i ) { if ( !m_Splitters[i].m_bLocked ) { m_Splitters[i].m_flPos = flPrevPos + flUnlockedSize; } else { m_Splitters[i].m_flPos = flPrevPos + m_Splitters[i].m_nLockedSize; } flPrevPos = m_Splitters[i].m_flPos; } InvalidateLayout(); } } //----------------------------------------------------------------------------- // Called when size changes //----------------------------------------------------------------------------- void Splitter::OnSizeChanged( int newWide, int newTall ) { BaseClass::OnSizeChanged( newWide, newTall ); int nLockedSize = 0; float flUnlockedSize = 0.0f; int nCount = m_Splitters.Count(); float flLastPos = 0.0f; int nUnlockedCount = 0; for ( int i = 0; i < nCount; ++i ) { SplitterInfo_t &info = m_Splitters[i]; if ( info.m_bLocked ) { nLockedSize += info.m_nLockedSize; } else { ++nUnlockedCount; flUnlockedSize += info.m_flPos - flLastPos; } flLastPos = info.m_flPos; } int nNewTotalSize = (m_Mode == SPLITTER_MODE_HORIZONTAL) ? newTall : newWide; int nNewUnlockedSize = nNewTotalSize - nLockedSize; if ( nNewUnlockedSize < nUnlockedCount * SPLITTER_HANDLE_WIDTH ) { nNewUnlockedSize = nUnlockedCount * SPLITTER_HANDLE_WIDTH; } float flRatio = nNewUnlockedSize / flUnlockedSize; float flLastPrevPos = 0.0f; flLastPos = 0.0f; for ( int i = 0; i < nCount - 1; ++i ) { SplitterInfo_t &info = m_Splitters[i]; if ( info.m_bLocked ) { flLastPrevPos = info.m_flPos; info.m_flPos = flLastPos + info.m_nLockedSize; } else { float flNewSize = info.m_flPos - flLastPrevPos; flNewSize *= flRatio; flLastPrevPos = info.m_flPos; info.m_flPos = flLastPos + flNewSize; } flLastPos = info.m_flPos; } // Clamp the bottom to 1.0 m_Splitters[nCount-1].m_flPos = nNewTotalSize; } //----------------------------------------------------------------------------- // Splitter position //----------------------------------------------------------------------------- int Splitter::GetSplitterPosition( int nIndex ) { return (int)( m_Splitters[nIndex].m_flPos + 0.5f ); } void Splitter::SetSplitterPosition( int nIndex, int nPos ) { int nPosRange = GetPosRange(); if ( nPosRange == 0 ) return; // If we're locked to a sibling, move the previous sibling first while ( ( nIndex >= 0 ) && m_Splitters[nIndex].m_bLocked ) { nPos -= m_Splitters[nIndex].m_nLockedSize; --nIndex; } if ( nIndex < 0 ) return; // Clamp to the valid positional range int i; int nMinPos = 0; for ( i = 0; i < nIndex; ++i ) { if ( !m_Splitters[i].m_bLocked ) { nMinPos += SPLITTER_HANDLE_WIDTH; } else { nMinPos += m_Splitters[i].m_nLockedSize; } } int nMaxPos = nPosRange - SPLITTER_HANDLE_WIDTH; int c = GetSplitterCount(); for ( i = nIndex + 1; i < c; ++i ) { if ( !m_Splitters[i].m_bLocked ) { nMaxPos -= SPLITTER_HANDLE_WIDTH; } else { nMaxPos -= m_Splitters[i].m_nLockedSize; } } nPos = clamp( nPos, nMinPos, nMaxPos ); m_Splitters[nIndex].m_flPos = nPos; int p = nPos; for ( i = nIndex - 1 ; i >= 0; --i ) { int nMinPrevPos; int nMaxPrevPos; if ( !m_Splitters[i+1].m_bLocked ) { nMinPrevPos = -INT_MAX; nMaxPrevPos = nPos - SPLITTER_HANDLE_WIDTH; } else { nMinPrevPos = nMaxPrevPos = p - m_Splitters[i+1].m_nLockedSize; } int nCurPos = GetSplitterPosition( i ); if ( nMaxPrevPos < nCurPos || nMinPrevPos > nCurPos ) { m_Splitters[ i ].m_flPos = nMaxPrevPos; p = nMaxPrevPos; } else { p = m_Splitters[ i ].m_flPos; } } for ( i = nIndex + 1 ; i < c; ++i ) { int nMinNextPos; int nMaxNextPos; if ( !m_Splitters[i].m_bLocked ) { nMinNextPos = nPos + SPLITTER_HANDLE_WIDTH; nMaxNextPos = INT_MAX; } else { nMinNextPos = nMaxNextPos = nPos + m_Splitters[i].m_nLockedSize; } int nCurPos = GetSplitterPosition( i ); if ( nMinNextPos > nCurPos || nMaxNextPos < nCurPos ) { m_Splitters[ i ].m_flPos = nMinNextPos; nPos = nMinNextPos; } else { nPos = m_Splitters[ i ].m_flPos; } } InvalidateLayout(); } //----------------------------------------------------------------------------- // Computes the locked size //----------------------------------------------------------------------------- int Splitter::ComputeLockedSize( int nStartingIndex ) { int nLockedSize = 0; int nCount = m_Splitters.Count(); for ( int i = nStartingIndex; i < nCount; ++i ) { if ( m_Splitters[i].m_bLocked ) { nLockedSize += m_Splitters[i].m_nLockedSize; } } return nLockedSize; } //----------------------------------------------------------------------------- // Evenly respaces all the splitters //----------------------------------------------------------------------------- void Splitter::EvenlyRespaceSplitters( ) { int nSplitterCount = GetSubPanelCount(); if ( nSplitterCount == 0 ) return; int nLockedSize = ComputeLockedSize( 0 ); float flUnlockedSize = (float)( GetPosRange() - nLockedSize ); float flDPos = flUnlockedSize / (float)nSplitterCount; if ( flDPos < SPLITTER_HANDLE_WIDTH ) { flDPos = SPLITTER_HANDLE_WIDTH; } float flPos = 0.0f; for ( int i = 0; i < nSplitterCount; ++i ) { if ( !m_Splitters[i].m_bLocked ) { flPos += flDPos; } else { flPos += m_Splitters[i].m_nLockedSize; } m_Splitters[i].m_flPos = flPos; } InvalidateLayout(); } void Splitter::RespaceSplitters( float *flFractions ) { int nSplitterCount = GetSubPanelCount(); if ( nSplitterCount == 0 ) return; float flPos = 0.0f; int nPosRange = GetPosRange(); for ( int i = 0; i < nSplitterCount; ++i ) { flPos += flFractions[i]; m_Splitters[i].m_flPos = flPos * nPosRange; } Assert( flPos == 1.0f ); InvalidateLayout(); } //----------------------------------------------------------------------------- // Purpose: sets user settings //----------------------------------------------------------------------------- void Splitter::ApplyUserConfigSettings(KeyValues *userConfig) { BaseClass::ApplyUserConfigSettings( userConfig ); // read the splitter sizes int c = m_Splitters.Count(); float *pFractions = (float*)_alloca( c * sizeof(float) ); float flTotalSize = 0.0f; for ( int i = 0; i < c; i++ ) { char name[128]; _snprintf(name, sizeof(name), "%d_splitter_pos", i); pFractions[i] = userConfig->GetFloat( name, flTotalSize + SPLITTER_HANDLE_WIDTH + 1 ); flTotalSize = pFractions[i]; } if ( flTotalSize != 0.0f ) { int nPosRange = GetPosRange(); for ( int i = 0; i < c; ++i ) { pFractions[i] /= flTotalSize; m_Splitters[i].m_flPos = pFractions[i] * nPosRange; } } } //----------------------------------------------------------------------------- // Purpose: returns user config settings for this control //----------------------------------------------------------------------------- void Splitter::GetUserConfigSettings(KeyValues *userConfig) { BaseClass::GetUserConfigSettings( userConfig ); // save which columns are hidden int c = m_Splitters.Count(); for ( int i = 0 ; i < c; i++ ) { char name[128]; _snprintf(name, sizeof(name), "%d_splitter_pos", i); userConfig->SetFloat( name, m_Splitters[i].m_flPos ); } } //----------------------------------------------------------------------------- // Called to perform layout //----------------------------------------------------------------------------- void Splitter::PerformLayout( ) { BaseClass::PerformLayout(); int nSplitterCount = GetSubPanelCount(); if ( nSplitterCount == 0 ) return; int w, h; GetSize( w, h ); int nLastPos = 0; for ( int i = 0; i < nSplitterCount; ++i ) { Panel *pChild = m_Splitters[i].m_pPanel; SplitterHandle *pHandle = m_Splitters[i].m_pHandle; int nSplitterPos = (int)( m_Splitters[i].m_flPos + 0.5f ); if ( m_Mode == SPLITTER_MODE_HORIZONTAL ) { pChild->SetPos( 0, nLastPos ); pChild->SetSize( w, nSplitterPos - nLastPos ); if ( pHandle ) { pHandle->SetPos( 0, nSplitterPos ); pHandle->SetSize( w, SPLITTER_HANDLE_WIDTH ); } } else { pChild->SetPos( nLastPos, 0 ); pChild->SetSize( nSplitterPos - nLastPos, h ); if ( pHandle ) { pHandle->SetPos( nSplitterPos, 0 ); pHandle->SetSize( SPLITTER_HANDLE_WIDTH, h ); } } nLastPos = nSplitterPos + SPLITTER_HANDLE_WIDTH; } } //----------------------------------------------------------------------------- // Purpose: //----------------------------------------------------------------------------- void Splitter::GetSettings( KeyValues *outResourceData ) { BaseClass::GetSettings( outResourceData ); }
# | Change | User | Description | Committed | |
---|---|---|---|---|---|
#1 | 5821 | Knut Wikstrom |
Added Valve Source code. This is NOT to be commited to other than new code from Valve. |