/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */ /* * This file is part of the LibreOffice project. * * This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. * * This file incorporates work covered by the following license notice: * * Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed * with this work for additional information regarding copyright * ownership. The ASF licenses this file to you under the Apache * License, Version 2.0 (the "License"); you may not use this file * except in compliance with the License. You may obtain a copy of * the License at http://www.apache.org/licenses/LICENSE-2.0 . */ #include "progressbar.hxx" #include #include #include #include #include #include #include #include #include using namespace ::cppu; using namespace ::osl; using namespace ::com::sun::star::uno; using namespace ::com::sun::star::lang; using namespace ::com::sun::star::awt; namespace unocontrols{ // construct/destruct ProgressBar::ProgressBar( const Reference< XComponentContext >& rxContext ) : BaseControl ( rxContext ) , m_bHorizontal ( PROGRESSBAR_DEFAULT_HORIZONTAL ) , m_aBlockSize ( PROGRESSBAR_DEFAULT_BLOCKDIMENSION ) , m_nForegroundColor ( PROGRESSBAR_DEFAULT_FOREGROUNDCOLOR ) , m_nBackgroundColor ( PROGRESSBAR_DEFAULT_BACKGROUNDCOLOR ) , m_nMinRange ( PROGRESSBAR_DEFAULT_MINRANGE ) , m_nMaxRange ( PROGRESSBAR_DEFAULT_MAXRANGE ) , m_nBlockValue ( PROGRESSBAR_DEFAULT_BLOCKVALUE ) , m_nValue ( PROGRESSBAR_DEFAULT_VALUE ) { } ProgressBar::~ProgressBar() { } // XInterface Any SAL_CALL ProgressBar::queryInterface( const Type& rType ) { // Attention: // Don't use mutex or guard in this method!!! Is a method of XInterface. Any aReturn; Reference< XInterface > xDel = BaseControl::impl_getDelegator(); if ( xDel.is() ) { // If an delegator exist, forward question to his queryInterface. // Delegator will ask his own queryAggregation! aReturn = xDel->queryInterface( rType ); } else { // If an delegator unknown, forward question to own queryAggregation. aReturn = queryAggregation( rType ); } return aReturn; } // XInterface void SAL_CALL ProgressBar::acquire() throw() { // Attention: // Don't use mutex or guard in this method!!! Is a method of XInterface. // Forward to baseclass BaseControl::acquire(); } // XInterface void SAL_CALL ProgressBar::release() throw() { // Attention: // Don't use mutex or guard in this method!!! Is a method of XInterface. // Forward to baseclass BaseControl::release(); } // XTypeProvider Sequence< Type > SAL_CALL ProgressBar::getTypes() { // Optimize this method ! // We initialize a static variable only one time. And we don't must use a mutex at every call! // For the first call; pTypeCollection is NULL - for the second call pTypeCollection is different from NULL! static OTypeCollection* pTypeCollection = nullptr; if ( pTypeCollection == nullptr ) { // Ready for multithreading; get global mutex for first call of this method only! see before MutexGuard aGuard( Mutex::getGlobalMutex() ); // Control these pointer again ... it can be, that another instance will be faster then these! if ( pTypeCollection == nullptr ) { // Create a static typecollection ... static OTypeCollection aTypeCollection ( cppu::UnoType::get(), cppu::UnoType::get(), BaseControl::getTypes() ); // ... and set his address to static pointer! pTypeCollection = &aTypeCollection; } } return pTypeCollection->getTypes(); } // XAggregation Any SAL_CALL ProgressBar::queryAggregation( const Type& aType ) { // Ask for my own supported interfaces ... // Attention: XTypeProvider and XInterface are supported by OComponentHelper! Any aReturn ( ::cppu::queryInterface( aType , static_cast< XControlModel* > ( this ) , static_cast< XProgressBar* > ( this ) ) ); // If searched interface not supported by this class ... if ( !aReturn.hasValue() ) { // ... ask baseclasses. aReturn = BaseControl::queryAggregation( aType ); } return aReturn; } // XProgressBar void SAL_CALL ProgressBar::setForegroundColor( sal_Int32 nColor ) { // Ready for multithreading MutexGuard aGuard (m_aMutex); // Safe color for later use. m_nForegroundColor = nColor; // Repaint control impl_paint ( 0, 0, impl_getGraphicsPeer() ); } // XProgressBar void SAL_CALL ProgressBar::setBackgroundColor ( sal_Int32 nColor ) { // Ready for multithreading MutexGuard aGuard (m_aMutex); // Safe color for later use. m_nBackgroundColor = nColor; // Repaint control impl_paint ( 0, 0, impl_getGraphicsPeer() ); } // XProgressBar void SAL_CALL ProgressBar::setValue ( sal_Int32 nValue ) { // This method is defined for follow things: // 1) Values >= _nMinRange // 2) Values <= _nMaxRange // Ready for multithreading MutexGuard aGuard (m_aMutex); // save impossible cases // This method is only defined for valid values DBG_ASSERT ( (( nValue >= m_nMinRange ) && ( nValue <= m_nMaxRange )), "ProgressBar::setValue()\nNot valid value.\n" ); // If new value not valid ... do nothing in release version! if ( ( nValue >= m_nMinRange ) && ( nValue <= m_nMaxRange ) ) { // New value is ok => save this m_nValue = nValue; // Repaint to display changes impl_paint ( 0, 0, impl_getGraphicsPeer() ); } } // XProgressBar void SAL_CALL ProgressBar::setRange ( sal_Int32 nMin, sal_Int32 nMax ) { // This method is defined for follow things: // 1) All values of sal_Int32 // 2) Min < Max // 3) Min > Max // save impossible cases // This method is only defined for valid values // If you ignore this, the release version wil produce an error "division by zero" in "ProgressBar::setValue()"! DBG_ASSERT ( ( nMin != nMax ) , "ProgressBar::setRange()\nValues for MIN and MAX are the same. This is not allowed!\n" ); // Ready for multithreading MutexGuard aGuard (m_aMutex); // control the values for min and max if ( nMin < nMax ) { // Take correct Min and Max m_nMinRange = nMin; m_nMaxRange = nMax; } else { // Change Min and Max automatically m_nMinRange = nMax; m_nMaxRange = nMin; } // assure that m_nValue is within the range if (!(m_nMinRange < m_nValue && m_nValue < m_nMaxRange)) m_nValue = m_nMinRange; impl_recalcRange (); // Do not repaint the control at this place!!! // An old "m_nValue" is set and can not be correct for this new range. // Next call of "ProgressBar::setValue()" do this. } // XProgressBar sal_Int32 SAL_CALL ProgressBar::getValue () { // Ready for multithreading MutexGuard aGuard (m_aMutex); return m_nValue; } // XWindow void SAL_CALL ProgressBar::setPosSize ( sal_Int32 nX, sal_Int32 nY, sal_Int32 nWidth, sal_Int32 nHeight, sal_Int16 nFlags ) { // Take old size BEFORE you set the new values at baseclass! // You will control changes. At the other way, the values are the same! Rectangle aBasePosSize = getPosSize (); BaseControl::setPosSize (nX, nY, nWidth, nHeight, nFlags); // Do only, if size has changed. if ( ( nWidth != aBasePosSize.Width ) || ( nHeight != aBasePosSize.Height ) ) { impl_recalcRange ( ); impl_paint ( 0, 0, impl_getGraphicsPeer () ); } } // XControl sal_Bool SAL_CALL ProgressBar::setModel( const Reference< XControlModel >& /*xModel*/ ) { // A model is not possible for this control. return false; } // XControl Reference< XControlModel > SAL_CALL ProgressBar::getModel() { // A model is not possible for this control. return Reference< XControlModel >(); } // impl but public method to register service const Sequence< OUString > ProgressBar::impl_getStaticSupportedServiceNames() { return css::uno::Sequence(); } // impl but public method to register service const OUString ProgressBar::impl_getStaticImplementationName() { return OUString("stardiv.UnoControls.ProgressBar"); } // protected method void ProgressBar::impl_paint ( sal_Int32 nX, sal_Int32 nY, const Reference< XGraphics > & rGraphics ) { // save impossible cases DBG_ASSERT ( rGraphics.is(), "ProgressBar::paint()\nCalled with invalid Reference< XGraphics > ." ); // This paint method is not buffered !! // Every request paint the completely control. ( but only, if peer exist ) if ( rGraphics.is () ) { MutexGuard aGuard (m_aMutex); // Clear background // (same color for line and fill) rGraphics->setFillColor ( m_nBackgroundColor ); rGraphics->setLineColor ( m_nBackgroundColor ); rGraphics->drawRect ( nX, nY, impl_getWidth(), impl_getHeight() ); // same color for line and fill for blocks rGraphics->setFillColor ( m_nForegroundColor ); rGraphics->setLineColor ( m_nForegroundColor ); sal_Int32 nBlockStart = 0; // = left site of new block sal_Int32 nBlockCount = m_nBlockValue!=0.00 ? (sal_Int32)((m_nValue-m_nMinRange)/m_nBlockValue) : 0; // = number of next block // Draw horizontal progressbar // decision in "recalcRange()" if (m_bHorizontal) { // Step to left side of window nBlockStart = nX; for ( sal_Int32 i=1; i<=nBlockCount; ++i ) { // step free field nBlockStart += PROGRESSBAR_FREESPACE; // paint block rGraphics->drawRect (nBlockStart, nY+PROGRESSBAR_FREESPACE, m_aBlockSize.Width, m_aBlockSize.Height); // step next free field nBlockStart += m_aBlockSize.Width; } } // draw vertikal progressbar // decision in "recalcRange()" else { // step to bottom side of window nBlockStart = nY+impl_getHeight(); nBlockStart -= m_aBlockSize.Height; for ( sal_Int32 i=1; i<=nBlockCount; ++i ) { // step free field nBlockStart -= PROGRESSBAR_FREESPACE; // paint block rGraphics->drawRect (nX+PROGRESSBAR_FREESPACE, nBlockStart, m_aBlockSize.Width, m_aBlockSize.Height); // step next free field nBlockStart -= m_aBlockSize.Height; } } // Paint shadow border around the progressbar rGraphics->setLineColor ( PROGRESSBAR_LINECOLOR_SHADOW ); rGraphics->drawLine ( nX, nY, impl_getWidth(), nY ); rGraphics->drawLine ( nX, nY, nX , impl_getHeight() ); rGraphics->setLineColor ( PROGRESSBAR_LINECOLOR_BRIGHT ); rGraphics->drawLine ( impl_getWidth()-1, impl_getHeight()-1, impl_getWidth()-1, nY ); rGraphics->drawLine ( impl_getWidth()-1, impl_getHeight()-1, nX , impl_getHeight()-1 ); } } // protected method void ProgressBar::impl_recalcRange () { MutexGuard aGuard (m_aMutex); sal_Int32 nWindowWidth = impl_getWidth(); sal_Int32 nWindowHeight = impl_getHeight(); double fBlockHeight; double fBlockWidth; double fMaxBlocks; if( nWindowWidth > nWindowHeight ) { m_bHorizontal = true; fBlockHeight = (nWindowHeight-(2*PROGRESSBAR_FREESPACE)); fBlockWidth = fBlockHeight; fMaxBlocks = nWindowWidth/(fBlockWidth+PROGRESSBAR_FREESPACE); } else { m_bHorizontal = false; fBlockWidth = (nWindowWidth-(2*PROGRESSBAR_FREESPACE)); fBlockHeight = fBlockWidth; fMaxBlocks = nWindowHeight/(fBlockHeight+PROGRESSBAR_FREESPACE); } double fRange = m_nMaxRange-m_nMinRange; double fBlockValue = fRange/fMaxBlocks; m_nBlockValue = fBlockValue; m_aBlockSize.Height = (sal_Int32)fBlockHeight; m_aBlockSize.Width = (sal_Int32)fBlockWidth; } } // namespace unocontrols /* vim:set shiftwidth=4 softtabstop=4 expandtab: */