/************************************************************** * * 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 * * Unless required by applicable law or agreed to in writing, * software distributed under the License is distributed on an * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY * KIND, either express or implied. See the License for the * specific language governing permissions and limitations * under the License. * *************************************************************/ // MARKER(update_precomp.py): autogen include statement, do not remove #include "precompiled_framework.hxx" #include #include #ifndef __FRAMEWORK_UIELEMENT_SPINFIELDTOOLBARCONTROLLER_HXX #include "uielement/spinfieldtoolbarcontroller.hxx" #endif //_________________________________________________________________________________________________________________ // my own includes //_________________________________________________________________________________________________________________ #ifndef __FRAMEWORK_TOOLBAR_HXX_ #include "uielement/toolbar.hxx" #endif //_________________________________________________________________________________________________________________ // interface includes //_________________________________________________________________________________________________________________ #include #include #include #include #include #include #include //_________________________________________________________________________________________________________________ // other includes //_________________________________________________________________________________________________________________ #include #include #include #ifndef _VCL_MNEMONIC_HXX_ #include #endif #include #ifdef WINNT #include #endif using namespace ::com::sun::star; using namespace ::com::sun::star::uno; using namespace ::com::sun::star::beans; using namespace ::com::sun::star::lang; using namespace ::com::sun::star::frame; using namespace ::com::sun::star::frame::status; using namespace ::com::sun::star::util; namespace framework { // ------------------------------------------------------------------ // Wrapper class to notify controller about events from combobox. // Unfortunaltly the events are notifed through virtual methods instead // of Listeners. class SpinfieldControl : public SpinField { public: SpinfieldControl( Window* pParent, WinBits nStyle, ISpinfieldListener* pSpinFieldListener ); virtual ~SpinfieldControl(); virtual void Up(); virtual void Down(); virtual void First(); virtual void Last(); virtual void KeyInput( const ::KeyEvent& rKEvt ); virtual void Modify(); virtual void GetFocus(); virtual void LoseFocus(); virtual void StateChanged( StateChangedType nType ); virtual void DataChanged( const DataChangedEvent& rDCEvt ); virtual long PreNotify( NotifyEvent& rNEvt ); private: ISpinfieldListener* m_pSpinFieldListener; }; SpinfieldControl::SpinfieldControl( Window* pParent, WinBits nStyle, ISpinfieldListener* pSpinFieldListener ) : SpinField( pParent, nStyle ) , m_pSpinFieldListener( pSpinFieldListener ) { } SpinfieldControl::~SpinfieldControl() { m_pSpinFieldListener = 0; } void SpinfieldControl::Up() { SpinField::Up(); if ( m_pSpinFieldListener ) m_pSpinFieldListener->Up(); } void SpinfieldControl::Down() { SpinField::Down(); if ( m_pSpinFieldListener ) m_pSpinFieldListener->Down(); } void SpinfieldControl::First() { SpinField::First(); if ( m_pSpinFieldListener ) m_pSpinFieldListener->First(); } void SpinfieldControl::Last() { SpinField::First(); if ( m_pSpinFieldListener ) m_pSpinFieldListener->Last(); } void SpinfieldControl::KeyInput( const ::KeyEvent& rKEvt ) { SpinField::KeyInput( rKEvt ); if ( m_pSpinFieldListener ) m_pSpinFieldListener->KeyInput( rKEvt ); } void SpinfieldControl::Modify() { SpinField::Modify(); if ( m_pSpinFieldListener ) m_pSpinFieldListener->Modify(); } void SpinfieldControl::GetFocus() { SpinField::GetFocus(); if ( m_pSpinFieldListener ) m_pSpinFieldListener->GetFocus(); } void SpinfieldControl::LoseFocus() { SpinField::GetFocus(); if ( m_pSpinFieldListener ) m_pSpinFieldListener->GetFocus(); } void SpinfieldControl::StateChanged( StateChangedType nType ) { SpinField::StateChanged( nType ); if ( m_pSpinFieldListener ) m_pSpinFieldListener->StateChanged( nType ); } void SpinfieldControl::DataChanged( const DataChangedEvent& rDCEvt ) { SpinField::DataChanged( rDCEvt ); if ( m_pSpinFieldListener ) m_pSpinFieldListener->DataChanged( rDCEvt ); } long SpinfieldControl::PreNotify( NotifyEvent& rNEvt ) { long nRet( 0 ); if ( m_pSpinFieldListener ) nRet = m_pSpinFieldListener->PreNotify( rNEvt ); if ( nRet == 0 ) nRet = SpinField::PreNotify( rNEvt ); return nRet; } // ------------------------------------------------------------------ SpinfieldToolbarController::SpinfieldToolbarController( const Reference< XMultiServiceFactory >& rServiceManager, const Reference< XFrame >& rFrame, ToolBox* pToolbar, sal_uInt16 nID, sal_Int32 nWidth, const ::rtl::OUString& aCommand ) : ComplexToolbarController( rServiceManager, rFrame, pToolbar, nID, aCommand ) , m_bFloat( false ) , m_bMaxSet( false ) , m_bMinSet( false ) , m_nMax( 0.0 ) , m_nMin( 0.0 ) , m_nValue( 0.0 ) , m_nStep( 0.0 ) , m_pSpinfieldControl( 0 ) { m_pSpinfieldControl = new SpinfieldControl( m_pToolbar, WB_SPIN|WB_BORDER, this ); if ( nWidth == 0 ) nWidth = 100; // Calculate height of the spin field according to the application font height sal_Int32 nHeight = getFontSizePixel( m_pSpinfieldControl ) + 5 + 1; m_pSpinfieldControl->SetSizePixel( ::Size( nWidth, nHeight )); m_pToolbar->SetItemWindow( m_nID, m_pSpinfieldControl ); } // ------------------------------------------------------------------ SpinfieldToolbarController::~SpinfieldToolbarController() { } // ------------------------------------------------------------------ void SAL_CALL SpinfieldToolbarController::dispose() throw ( RuntimeException ) { vos::OGuard aSolarMutexGuard( Application::GetSolarMutex() ); m_pToolbar->SetItemWindow( m_nID, 0 ); delete m_pSpinfieldControl; ComplexToolbarController::dispose(); m_pSpinfieldControl = 0; } // ------------------------------------------------------------------ Sequence SpinfieldToolbarController::getExecuteArgs(sal_Int16 KeyModifier) const { Sequence aArgs( 2 ); ::rtl::OUString aSpinfieldText = m_pSpinfieldControl->GetText(); // Add key modifier to argument list aArgs[0].Name = rtl::OUString( RTL_CONSTASCII_USTRINGPARAM( "KeyModifier" )); aArgs[0].Value <<= KeyModifier; aArgs[1].Name = rtl::OUString( RTL_CONSTASCII_USTRINGPARAM( "Value" )); if ( m_bFloat ) aArgs[1].Value <<= aSpinfieldText.toDouble(); else aArgs[1].Value <<= aSpinfieldText.toInt32(); return aArgs; } // ------------------------------------------------------------------ void SpinfieldToolbarController::Up() { double nValue = m_nValue + m_nStep; if ( m_bMaxSet && nValue > m_nMax ) return; m_nValue = nValue; rtl::OUString aText = impl_formatOutputString( m_nValue ); m_pSpinfieldControl->SetText( aText ); execute( 0 ); } void SpinfieldToolbarController::Down() { double nValue = m_nValue - m_nStep; if ( m_bMinSet && nValue < m_nMin ) return; m_nValue = nValue; rtl::OUString aText = impl_formatOutputString( m_nValue ); m_pSpinfieldControl->SetText( aText ); execute( 0 ); } void SpinfieldToolbarController::First() { if ( m_bMinSet ) { m_nValue = m_nMin; rtl::OUString aText = impl_formatOutputString( m_nValue ); m_pSpinfieldControl->SetText( aText ); execute( 0 ); } } void SpinfieldToolbarController::Last() { if ( m_bMaxSet ) { m_nValue = m_nMax; rtl::OUString aText = impl_formatOutputString( m_nValue ); m_pSpinfieldControl->SetText( aText ); execute( 0 ); } } void SpinfieldToolbarController::Modify() { notifyTextChanged( m_pSpinfieldControl->GetText() ); } void SpinfieldToolbarController::KeyInput( const ::KeyEvent& /*rKEvt*/ ) { } void SpinfieldToolbarController::GetFocus() { notifyFocusGet(); } void SpinfieldToolbarController::LoseFocus() { notifyFocusLost(); } void SpinfieldToolbarController::StateChanged( StateChangedType /*nType*/ ) { } void SpinfieldToolbarController::DataChanged( const DataChangedEvent& /*rDCEvt*/ ) { } long SpinfieldToolbarController::PreNotify( NotifyEvent& rNEvt ) { if( rNEvt.GetType() == EVENT_KEYINPUT ) { const ::KeyEvent* pKeyEvent = rNEvt.GetKeyEvent(); const KeyCode& rKeyCode = pKeyEvent->GetKeyCode(); if(( rKeyCode.GetModifier() | rKeyCode.GetCode()) == KEY_RETURN ) { // Call execute only with non-empty text if ( m_pSpinfieldControl->GetText().Len() > 0 ) execute( rKeyCode.GetModifier() ); return 1; } } return 0; } // -------------------------------------------------------- void SpinfieldToolbarController::executeControlCommand( const ::com::sun::star::frame::ControlCommand& rControlCommand ) { rtl::OUString aValue; rtl::OUString aMax; rtl::OUString aMin; rtl::OUString aStep; bool bFloatValue( false ); if ( rControlCommand.Command.equalsAsciiL( "SetStep", 7 )) { for ( sal_Int32 i = 0; i < rControlCommand.Arguments.getLength(); i++ ) { sal_Int32 nValue; double fValue; bool bFloat( false ); if ( rControlCommand.Arguments[i].Name.equalsAsciiL( "Step", 4 )) { if ( impl_getValue( rControlCommand.Arguments[i].Value, nValue, fValue, bFloat )) aStep = bFloat ? ::rtl::OUString::valueOf( fValue ) : ::rtl::OUString::valueOf( nValue ); break; } } } else if ( rControlCommand.Command.equalsAsciiL( "SetValue", 8 )) { for ( sal_Int32 i = 0; i < rControlCommand.Arguments.getLength(); i++ ) { if ( rControlCommand.Arguments[i].Name.equalsAsciiL( "Value", 5 )) { sal_Int32 nValue; double fValue; bool bFloat( false ); if ( impl_getValue( rControlCommand.Arguments[i].Value, nValue, fValue, bFloat )) { aValue = bFloat ? ::rtl::OUString::valueOf( fValue ) : ::rtl::OUString::valueOf( nValue ); bFloatValue = bFloat; } break; } } } else if ( rControlCommand.Command.equalsAsciiL( "SetValues", 9 )) { for ( sal_Int32 i = 0; i < rControlCommand.Arguments.getLength(); i++ ) { sal_Int32 nValue; double fValue; bool bFloat( false ); rtl::OUString aName = rControlCommand.Arguments[i].Name; if ( impl_getValue( rControlCommand.Arguments[i].Value, nValue, fValue, bFloat )) { if ( aName.equalsAsciiL( "Value", 5 )) { aValue = bFloat ? ::rtl::OUString::valueOf( fValue ) : ::rtl::OUString::valueOf( nValue ); bFloatValue = bFloat; } else if ( aName.equalsAsciiL( "Step", 4 )) aStep = bFloat ? ::rtl::OUString::valueOf( fValue ) : ::rtl::OUString::valueOf( nValue ); else if ( aName.equalsAsciiL( "LowerLimit", 10 )) aMin = bFloat ? ::rtl::OUString::valueOf( fValue ) : ::rtl::OUString::valueOf( nValue ); else if ( aName.equalsAsciiL( "UpperLimit", 10 )) aMax = bFloat ? ::rtl::OUString::valueOf( fValue ) : ::rtl::OUString::valueOf( nValue ); } else if ( aName.equalsAsciiL( "OutputFormat", 12 )) rControlCommand.Arguments[i].Value >>= m_aOutFormat; } } else if ( rControlCommand.Command.equalsAsciiL( "SetLowerLimit", 13 )) { for ( sal_Int32 i = 0; i < rControlCommand.Arguments.getLength(); i++ ) { sal_Int32 nValue; double fValue; bool bFloat( false ); if ( rControlCommand.Arguments[i].Name.equalsAsciiL( "LowerLimit", 10 )) { if ( impl_getValue( rControlCommand.Arguments[i].Value, nValue, fValue, bFloat )) aMin = bFloat ? ::rtl::OUString::valueOf( fValue ) : ::rtl::OUString::valueOf( nValue ); break; } } } else if ( rControlCommand.Command.equalsAsciiL( "SetUpperLimit", 13 )) { for ( sal_Int32 i = 0; i < rControlCommand.Arguments.getLength(); i++ ) { sal_Int32 nValue; double fValue; bool bFloat( false ); if ( rControlCommand.Arguments[i].Name.equalsAsciiL( "UpperLimit", 10 )) { if ( impl_getValue( rControlCommand.Arguments[i].Value, nValue, fValue, bFloat )) aMax = bFloat ? ::rtl::OUString::valueOf( fValue ) : ::rtl::OUString::valueOf( nValue ); break; } } } else if ( rControlCommand.Command.equalsAsciiL( "SetOutputFormat", 15 )) { for ( sal_Int32 i = 0; i < rControlCommand.Arguments.getLength(); i++ ) { if ( rControlCommand.Arguments[i].Name.equalsAsciiL( "OutputFormat", 10 )) { rControlCommand.Arguments[i].Value >>= m_aOutFormat; break; } } } // Check values and set members if ( aValue.getLength() > 0 ) { m_bFloat = bFloatValue; m_nValue = aValue.toDouble(); rtl::OUString aOutString = impl_formatOutputString( m_nValue ); m_pSpinfieldControl->SetText( aOutString ); notifyTextChanged( aOutString ); } if ( aMax.getLength() > 0 ) { m_nMax = aMax.toDouble(); m_bMaxSet = true; } if ( aMin.getLength() > 0 ) { m_nMin = aMin.toDouble(); m_bMinSet = true; } if ( aStep.getLength() > 0 ) m_nStep = aStep.toDouble(); } bool SpinfieldToolbarController::impl_getValue( const Any& rAny, sal_Int32& nValue, double& fValue, bool& bFloat ) { using ::com::sun::star::uno::TypeClass; bool bValueValid( false ); bFloat = false; TypeClass aTypeClass = rAny.getValueTypeClass(); if (( aTypeClass == TypeClass( typelib_TypeClass_LONG )) || ( aTypeClass == TypeClass( typelib_TypeClass_SHORT )) || ( aTypeClass == TypeClass( typelib_TypeClass_BYTE ))) bValueValid = rAny >>= nValue; else if (( aTypeClass == TypeClass( typelib_TypeClass_FLOAT )) || ( aTypeClass == TypeClass( typelib_TypeClass_DOUBLE ))) { bValueValid = rAny >>= fValue; bFloat = true; } return bValueValid; } rtl::OUString SpinfieldToolbarController::impl_formatOutputString( double fValue ) { if ( m_aOutFormat.getLength() == 0 ) { if ( m_bFloat ) return rtl::OUString::valueOf( fValue ); else return rtl::OUString::valueOf( sal_Int32( fValue )); } else { #ifdef WNT sal_Unicode aBuffer[128]; aBuffer[0] = 0; if ( m_bFloat ) snwprintf( reinterpret_cast(aBuffer), 128, reinterpret_cast(m_aOutFormat.getStr()), fValue ); else snwprintf( reinterpret_cast(aBuffer), 128, reinterpret_cast(m_aOutFormat.getStr()), sal_Int32( fValue )); sal_Int32 nSize = rtl_ustr_getLength( aBuffer ); return rtl::OUString( aBuffer, nSize ); #else // Currently we have no support for a format string using sal_Unicode. wchar_t // is 32 bit on Unix platform! char aBuffer[128]; ::rtl::OString aFormat = OUStringToOString( m_aOutFormat, osl_getThreadTextEncoding() ); if ( m_bFloat ) snprintf( aBuffer, 128, aFormat.getStr(), fValue ); else snprintf( aBuffer, 128, aFormat.getStr(), static_cast( fValue )); sal_Int32 nSize = strlen( aBuffer ); rtl::OString aTmp( aBuffer, nSize ); return rtl::OStringToOUString( aTmp, osl_getThreadTextEncoding() ); #endif } } } // namespace