/* -*- 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 #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "svx/chrtitem.hxx" #include #include "extrusiondepthdialog.hxx" using namespace ::svx; using namespace ::cppu; using namespace ::com::sun::star::beans; using namespace ::com::sun::star::drawing; using namespace ::com::sun::star::uno; // Declare the default interface. (The slotmap must not be empty, so // we enter something which never occurs here (hopefully).) static SfxSlot aExtrusionBarSlots_Impl[] = { { 0, SfxGroupId(0), SfxSlotMode::NONE, 0, 0, nullptr, nullptr, nullptr, nullptr, nullptr, 0, SfxDisableFlags::NONE, nullptr } }; SFX_IMPL_INTERFACE(ExtrusionBar, SfxShell) void ExtrusionBar::InitInterface_Impl() { GetStaticInterface()->RegisterObjectBar(SFX_OBJECTBAR_OBJECT, SfxVisibilityFlags::Invisible, RID_SVX_EXTRUSION_BAR); } ExtrusionBar::ExtrusionBar(SfxViewShell* pViewShell ) : SfxShell(pViewShell) { DBG_ASSERT( pViewShell, "svx::ExtrusionBar::ExtrusionBar(), I need a viewshell!" ); if( pViewShell ) SetPool(&pViewShell->GetPool()); SetName(SVX_RESSTR(RID_SVX_EXTRUSION_BAR)); } ExtrusionBar::~ExtrusionBar() { SetRepeatTarget(nullptr); } void getLightingDirectionDefaults( const Direction3D **pLighting1Defaults, const Direction3D **pLighting2Defaults ) { static const Direction3D aLighting1Defaults[9] = { Direction3D( -50000, -50000, 10000 ), Direction3D( 0, -50000, 10000 ), Direction3D( 50000, -50000, 10000 ), Direction3D( -50000, 0, 10000 ), Direction3D( 0, 0, 10000 ), Direction3D( 50000, 0, 10000 ), Direction3D( -50000, 50000, 10000 ), Direction3D( 0, 50000, 10000 ), Direction3D( 50000, 50000, 10000 ) }; static const Direction3D aLighting2Defaults[9] = { Direction3D( 50000,0, 10000 ), Direction3D( 0, 50000, 10000 ), Direction3D( -50000, 0, 10000 ), Direction3D( 50000, 0, 10000 ), Direction3D( 0, 0, 10000 ), Direction3D( -50000, 0, 10000 ), Direction3D( 50000, 0, 10000 ), Direction3D( 0, -50000, 10000 ), Direction3D( -50000, 0, 10000 ) }; *pLighting1Defaults = aLighting1Defaults; *pLighting2Defaults = aLighting2Defaults; }; static void impl_execute( SdrView*, SfxRequest& rReq, SdrCustomShapeGeometryItem& rGeometryItem, SdrObject* pObj ) { static const char sExtrusion[] = "Extrusion"; static const char sRotateAngle[] = "RotateAngle"; sal_uInt16 nSID = rReq.GetSlot(); switch( nSID ) { case SID_EXTRUSION_TOOGLE: { css::uno::Any* pAny = rGeometryItem.GetPropertyValueByName( sExtrusion, sExtrusion ); if( pAny ) { bool bOn(false); (*pAny) >>= bOn; bOn = !bOn; (*pAny) <<= bOn; } else { css::beans::PropertyValue aPropValue; aPropValue.Name = sExtrusion; aPropValue.Value <<= true; rGeometryItem.SetPropertyValue( sExtrusion, aPropValue ); } } break; case SID_EXTRUSION_TILT_DOWN: case SID_EXTRUSION_TILT_UP: case SID_EXTRUSION_TILT_LEFT: case SID_EXTRUSION_TILT_RIGHT: { bool bHorizontal = ( nSID == SID_EXTRUSION_TILT_DOWN ) || ( nSID == SID_EXTRUSION_TILT_UP ); sal_Int32 nDiff = ( nSID == SID_EXTRUSION_TILT_LEFT ) || ( nSID == SID_EXTRUSION_TILT_UP ) ? 5 : -5; EnhancedCustomShapeParameterPair aRotateAnglePropPair; double fX = 0.0; double fY = 0.0; aRotateAnglePropPair.First.Value <<= fX; aRotateAnglePropPair.First.Type = EnhancedCustomShapeParameterType::NORMAL; aRotateAnglePropPair.Second.Value <<= fY; aRotateAnglePropPair.Second.Type = EnhancedCustomShapeParameterType::NORMAL; css::uno::Any* pAny = rGeometryItem.GetPropertyValueByName( sExtrusion, sRotateAngle ); if( pAny && ( *pAny >>= aRotateAnglePropPair ) ) { aRotateAnglePropPair.First.Value >>= fX; aRotateAnglePropPair.Second.Value >>= fY; } if ( bHorizontal ) fX += nDiff; else fY += nDiff; aRotateAnglePropPair.First.Value <<= fX; aRotateAnglePropPair.Second.Value <<= fY; css::beans::PropertyValue aPropValue; aPropValue.Name = sRotateAngle; aPropValue.Value <<= aRotateAnglePropPair; rGeometryItem.SetPropertyValue( sExtrusion, aPropValue ); } break; case SID_EXTRUSION_DIRECTION: { if( rReq.GetArgs() && rReq.GetArgs()->GetItemState( SID_EXTRUSION_DIRECTION ) == SfxItemState::SET ) { sal_Int32 nSkew = rReq.GetArgs()->GetItem(SID_EXTRUSION_DIRECTION)->GetValue(); Position3D aViewPoint( 3472, -3472, 25000 ); double fOriginX = 0.50; double fOriginY = -0.50; double fSkewAngle = nSkew; double fSkew = 50.0; switch( nSkew ) { case 135: aViewPoint.PositionY = 3472; fOriginY = 0.50; break; case 90: aViewPoint.PositionX = 0; aViewPoint.PositionY = 3472; fOriginX = 0; fOriginY = -0.50; break; case 45: aViewPoint.PositionX = -3472; aViewPoint.PositionY = 3472; fOriginX = -0.50; fOriginY = 0.50; break; case 180: aViewPoint.PositionY = 0; fOriginY = 0; break; case 0: aViewPoint.PositionX = 0; aViewPoint.PositionY = 0; fOriginX = 0; fOriginY = 0; fSkew = 0.0; break; case -360: aViewPoint.PositionX = -3472; aViewPoint.PositionY = 0; fOriginX = -0.50; fOriginY = 0; break; case -90: aViewPoint.PositionX = 0; fOriginX = 0; break; case -45: aViewPoint.PositionX = -3472; fOriginX = -0.50; break; } css::beans::PropertyValue aPropValue; aPropValue.Name = "ViewPoint"; aPropValue.Value <<= aViewPoint; rGeometryItem.SetPropertyValue( sExtrusion, aPropValue ); EnhancedCustomShapeParameterPair aOriginPropPair; aOriginPropPair.First.Value <<= fOriginX; aOriginPropPair.First.Type = EnhancedCustomShapeParameterType::NORMAL; aOriginPropPair.Second.Value <<= fOriginY; aOriginPropPair.Second.Type = EnhancedCustomShapeParameterType::NORMAL; aPropValue.Name = "Origin"; aPropValue.Value <<= aOriginPropPair; rGeometryItem.SetPropertyValue( sExtrusion, aPropValue ); EnhancedCustomShapeParameterPair aSkewPropPair; aSkewPropPair.First.Value <<= fSkew; aSkewPropPair.First.Type = EnhancedCustomShapeParameterType::NORMAL; aSkewPropPair.Second.Value <<= fSkewAngle; aSkewPropPair.Second.Type = EnhancedCustomShapeParameterType::NORMAL; aPropValue.Name = "Skew"; aPropValue.Value <<= aSkewPropPair; rGeometryItem.SetPropertyValue( sExtrusion, aPropValue ); } } break; case SID_EXTRUSION_PROJECTION: { if( rReq.GetArgs() && rReq.GetArgs()->GetItemState( SID_EXTRUSION_PROJECTION ) == SfxItemState::SET ) { sal_Int32 nProjection = rReq.GetArgs()->GetItem(SID_EXTRUSION_PROJECTION)->GetValue(); ProjectionMode eProjectionMode = nProjection == 1 ? ProjectionMode_PARALLEL : ProjectionMode_PERSPECTIVE; css::beans::PropertyValue aPropValue; aPropValue.Name = "ProjectionMode"; aPropValue.Value <<= eProjectionMode; rGeometryItem.SetPropertyValue( sExtrusion, aPropValue ); } } break; case SID_EXTRUSION_DEPTH: { if( rReq.GetArgs() && rReq.GetArgs()->GetItemState( SID_EXTRUSION_DEPTH ) == SfxItemState::SET) { double fDepth = rReq.GetArgs()->GetItem(SID_EXTRUSION_DEPTH)->GetValue(); double fFraction = 0.0; EnhancedCustomShapeParameterPair aDepthPropPair; aDepthPropPair.First.Value <<= fDepth; aDepthPropPair.First.Type = EnhancedCustomShapeParameterType::NORMAL; aDepthPropPair.Second.Value <<= fFraction; aDepthPropPair.Second.Type = EnhancedCustomShapeParameterType::NORMAL; css::beans::PropertyValue aPropValue; aPropValue.Name = "Depth"; aPropValue.Value <<= aDepthPropPair; rGeometryItem.SetPropertyValue( sExtrusion, aPropValue ); } } break; case SID_EXTRUSION_3D_COLOR: { if( rReq.GetArgs() && rReq.GetArgs()->GetItemState( SID_EXTRUSION_3D_COLOR ) == SfxItemState::SET) { Color aColor( static_cast(rReq.GetArgs()->Get(SID_EXTRUSION_3D_COLOR)).GetValue() ); const bool bAuto = aColor == COL_AUTO; css::beans::PropertyValue aPropValue; aPropValue.Name = "Color"; aPropValue.Value <<= !bAuto; rGeometryItem.SetPropertyValue( sExtrusion, aPropValue ); if( bAuto ) { pObj->ClearMergedItem( XATTR_SECONDARYFILLCOLOR ); } else { pObj->SetMergedItem( XSecondaryFillColorItem( "", aColor ) ); } pObj->BroadcastObjectChange(); } } break; case SID_EXTRUSION_SURFACE: { if( rReq.GetArgs() && rReq.GetArgs()->GetItemState( SID_EXTRUSION_SURFACE ) == SfxItemState::SET) { sal_Int32 nSurface = rReq.GetArgs()->GetItem(SID_EXTRUSION_SURFACE)->GetValue(); ShadeMode eShadeMode( ShadeMode_FLAT ); bool bMetal = false; double fSpecularity = 0; double fDiffusion = 0; switch( nSurface ) { case 0: // wireframe eShadeMode = ShadeMode_DRAFT; break; case 1: // matte break; case 2: // plastic fSpecularity = 122.0; break; case 3: // metal bMetal = true; fSpecularity = 122.0; fDiffusion = 122.0; break; } css::beans::PropertyValue aPropValue; aPropValue.Name = "ShadeMode"; aPropValue.Value <<= eShadeMode; rGeometryItem.SetPropertyValue( sExtrusion, aPropValue ); aPropValue.Name = "Metal"; aPropValue.Value <<= bMetal; rGeometryItem.SetPropertyValue( sExtrusion, aPropValue ); aPropValue.Name = "Specularity"; aPropValue.Value <<= fSpecularity; rGeometryItem.SetPropertyValue( sExtrusion, aPropValue ); aPropValue.Name = "Diffusion"; aPropValue.Value <<= fDiffusion; rGeometryItem.SetPropertyValue( sExtrusion, aPropValue ); } } break; case SID_EXTRUSION_LIGHTING_INTENSITY: { if( rReq.GetArgs() && rReq.GetArgs()->GetItemState( SID_EXTRUSION_LIGHTING_INTENSITY ) == SfxItemState::SET) { sal_Int32 nLevel = rReq.GetArgs()->GetItem(SID_EXTRUSION_LIGHTING_INTENSITY)->GetValue(); double fBrightness; bool bHarsh2 = false; double fLevel1; double fLevel2; switch( nLevel ) { case 0: // bright fBrightness = 34.0; bHarsh2 = false; fLevel1 = 66.0; fLevel2 = 66.0; break; case 1: // normal fBrightness = 15.0; bHarsh2 = false; fLevel1 = 67.0; fLevel2 = 37.0; break; case 2: // dim fBrightness = 6.0; bHarsh2 = true; fLevel1 = 79.0; fLevel2 = 21.0; break; } css::beans::PropertyValue aPropValue; aPropValue.Name = "Brightness"; aPropValue.Value <<= fBrightness; rGeometryItem.SetPropertyValue( sExtrusion, aPropValue ); aPropValue.Name = "LightFace"; aPropValue.Value <<= true; rGeometryItem.SetPropertyValue( sExtrusion, aPropValue ); aPropValue.Name = "FirstLightHarsh"; aPropValue.Value <<= true; rGeometryItem.SetPropertyValue( sExtrusion, aPropValue ); aPropValue.Name = "SecondLightHarsh"; aPropValue.Value <<= bHarsh2; rGeometryItem.SetPropertyValue( sExtrusion, aPropValue ); aPropValue.Name = "FirstLightLevel"; aPropValue.Value <<= fLevel1; rGeometryItem.SetPropertyValue( sExtrusion, aPropValue ); aPropValue.Name = "SecondLightLevel"; aPropValue.Value <<= fLevel2; rGeometryItem.SetPropertyValue( sExtrusion, aPropValue ); } } break; case SID_EXTRUSION_LIGHTING_DIRECTION: { if( rReq.GetArgs() && rReq.GetArgs()->GetItemState( SID_EXTRUSION_LIGHTING_DIRECTION ) == SfxItemState::SET) { sal_Int32 nDirection = rReq.GetArgs()->GetItem(SID_EXTRUSION_LIGHTING_DIRECTION)->GetValue(); if((nDirection >= 0) && (nDirection < 9)) { const Direction3D * pLighting1Defaults; const Direction3D * pLighting2Defaults; getLightingDirectionDefaults( &pLighting1Defaults, &pLighting2Defaults ); css::beans::PropertyValue aPropValue; aPropValue.Name = "FirstLightDirection"; aPropValue.Value <<= pLighting1Defaults[nDirection]; rGeometryItem.SetPropertyValue( sExtrusion, aPropValue ); aPropValue.Name = "SecondLightDirection"; aPropValue.Value <<= pLighting2Defaults[nDirection]; rGeometryItem.SetPropertyValue( sExtrusion, aPropValue ); } } } break; } } void ExtrusionBar::execute( SdrView* pSdrView, SfxRequest& rReq, SfxBindings& rBindings ) { sal_uInt16 nSID = rReq.GetSlot(); sal_uInt16 nStrResId = 0; const bool bUndo = pSdrView && pSdrView->IsUndoEnabled(); switch( nSID ) { case SID_EXTRUSION_TOOGLE: { if ( !nStrResId ) nStrResId = RID_SVXSTR_UNDO_APPLY_EXTRUSION_ON_OFF; SAL_FALLTHROUGH; } case SID_EXTRUSION_TILT_DOWN: { if ( !nStrResId ) nStrResId = RID_SVXSTR_UNDO_APPLY_EXTRUSION_ROTATE_DOWN; SAL_FALLTHROUGH; } case SID_EXTRUSION_TILT_UP: { if ( !nStrResId ) nStrResId = RID_SVXSTR_UNDO_APPLY_EXTRUSION_ROTATE_UP; SAL_FALLTHROUGH; } case SID_EXTRUSION_TILT_LEFT: { if ( !nStrResId ) nStrResId = RID_SVXSTR_UNDO_APPLY_EXTRUSION_ROTATE_LEFT; SAL_FALLTHROUGH; } case SID_EXTRUSION_TILT_RIGHT: { if ( !nStrResId ) nStrResId = RID_SVXSTR_UNDO_APPLY_EXTRUSION_ROTATE_RIGHT; SAL_FALLTHROUGH; } case SID_EXTRUSION_DIRECTION: { if ( !nStrResId ) nStrResId = RID_SVXSTR_UNDO_APPLY_EXTRUSION_ORIENTATION; SAL_FALLTHROUGH; } case SID_EXTRUSION_PROJECTION: { if ( !nStrResId ) nStrResId = RID_SVXSTR_UNDO_APPLY_EXTRUSION_PROJECTION; SAL_FALLTHROUGH; } case SID_EXTRUSION_DEPTH: { if ( !nStrResId ) nStrResId = RID_SVXSTR_UNDO_APPLY_EXTRUSION_DEPTH; SAL_FALLTHROUGH; } case SID_EXTRUSION_3D_COLOR: { if ( !nStrResId ) nStrResId = RID_SVXSTR_UNDO_APPLY_EXTRUSION_COLOR; SAL_FALLTHROUGH; } case SID_EXTRUSION_SURFACE: { if ( !nStrResId ) nStrResId = RID_SVXSTR_UNDO_APPLY_EXTRUSION_SURFACE; SAL_FALLTHROUGH; } case SID_EXTRUSION_LIGHTING_INTENSITY: { if ( !nStrResId ) nStrResId = RID_SVXSTR_UNDO_APPLY_EXTRUSION_BRIGHTNESS; SAL_FALLTHROUGH; } case SID_EXTRUSION_LIGHTING_DIRECTION: { if ( !nStrResId ) nStrResId = RID_SVXSTR_UNDO_APPLY_EXTRUSION_LIGHTING; if (pSdrView) { const SdrMarkList& rMarkList = pSdrView->GetMarkedObjectList(); const size_t nCount = rMarkList.GetMarkCount(); for(size_t i=0; iGetMarkedSdrObj(); if( dynamic_cast( pObj) != nullptr ) { if( bUndo ) { OUString aStr( SVX_RESSTR( nStrResId ) ); pSdrView->BegUndo( aStr ); pSdrView->AddUndo( pSdrView->GetModel()->GetSdrUndoFactory().CreateUndoAttrObject( *pObj ) ); } SdrCustomShapeGeometryItem aGeometryItem( static_cast(pObj->GetMergedItem( SDRATTR_CUSTOMSHAPE_GEOMETRY ))); impl_execute( pSdrView, rReq, aGeometryItem, pObj ); pObj->SetMergedItem( aGeometryItem ); pObj->BroadcastObjectChange(); if( bUndo ) pSdrView->EndUndo(); // simulate a context change: // force SelectionHasChanged() being called // so that extrusion bar will be visible/hidden pSdrView->MarkListHasChanged(); } } } } break; case SID_EXTRUSION_DEPTH_DIALOG: if( rReq.GetArgs() && (rReq.GetArgs()->GetItemState( SID_EXTRUSION_DEPTH ) == SfxItemState::SET) && (rReq.GetArgs()->GetItemState( SID_ATTR_METRIC ) == SfxItemState::SET)) { double fDepth = rReq.GetArgs()->GetItem(SID_EXTRUSION_DEPTH)->GetValue(); FieldUnit eUnit = (FieldUnit)rReq.GetArgs()->GetItem(SID_ATTR_METRIC)->GetValue(); ScopedVclPtrInstance< ExtrusionDepthDialog > aDlg(nullptr, fDepth, eUnit); sal_uInt16 nRet = aDlg->Execute(); if( nRet != 0 ) { fDepth = aDlg->getDepth(); SvxDoubleItem aItem( fDepth, SID_EXTRUSION_DEPTH ); SfxPoolItem* aItems[] = { &aItem, nullptr }; rBindings.Execute( SID_EXTRUSION_DEPTH, const_cast(aItems) ); } } break; } if( nSID == SID_EXTRUSION_TOOGLE ) { static const sal_uInt16 SidArray[] = { SID_EXTRUSION_TILT_DOWN, SID_EXTRUSION_TILT_UP, SID_EXTRUSION_TILT_LEFT, SID_EXTRUSION_TILT_RIGHT, SID_EXTRUSION_DEPTH_FLOATER, SID_EXTRUSION_DIRECTION_FLOATER, SID_EXTRUSION_LIGHTING_FLOATER, SID_EXTRUSION_SURFACE_FLOATER, SID_EXTRUSION_3D_COLOR, SID_EXTRUSION_DEPTH, SID_EXTRUSION_DIRECTION, SID_EXTRUSION_PROJECTION, SID_EXTRUSION_LIGHTING_DIRECTION, SID_EXTRUSION_LIGHTING_INTENSITY, SID_EXTRUSION_SURFACE, 0 }; rBindings.Invalidate( SidArray ); } } void getExtrusionDirectionState( SdrView* pSdrView, SfxItemSet& rSet ) { const SdrMarkList& rMarkList = pSdrView->GetMarkedObjectList(); const size_t nCount = rMarkList.GetMarkCount(); static const char sExtrusion[] = "Extrusion"; const css::uno::Any* pAny; double fFinalSkewAngle = -1; bool bHasCustomShape = false; for(size_t i=0; iGetMarkedSdrObj(); if( dynamic_cast( pObj) != nullptr ) { const SdrCustomShapeGeometryItem aGeometryItem( static_cast(pObj->GetMergedItem( SDRATTR_CUSTOMSHAPE_GEOMETRY )) ); // see if this is an extruded customshape if( !bHasCustomShape ) { const Any* pAny_ = aGeometryItem.GetPropertyValueByName( sExtrusion, sExtrusion ); if( pAny_ ) *pAny_ >>= bHasCustomShape; if( !bHasCustomShape ) continue; } bool bParallel = true; Position3D aViewPoint( 3472, -3472, 25000 ); double fSkewAngle = -135; pAny = aGeometryItem.GetPropertyValueByName( sExtrusion, "ProjectionMode" ); sal_Int16 nProjectionMode = sal_Int16(); if( pAny && ( *pAny >>= nProjectionMode ) ) bParallel = (ProjectionMode)nProjectionMode == ProjectionMode_PARALLEL; if( bParallel ) { double fSkew = 50.0; EnhancedCustomShapeParameterPair aSkewPropPair; pAny = aGeometryItem.GetPropertyValueByName( sExtrusion, "Skew" ); if( pAny && ( *pAny >>= aSkewPropPair ) ) { aSkewPropPair.First.Value >>= fSkew; aSkewPropPair.Second.Value >>= fSkewAngle; } if ( fSkew == 0.0 ) fSkewAngle = 0.0; else if ( fSkewAngle == 0.0 ) fSkewAngle = -360.0; } else { double fOriginX = 0.50; double fOriginY = -0.50; pAny = aGeometryItem.GetPropertyValueByName( sExtrusion, "ViewPoint" ); if( pAny ) *pAny >>= aViewPoint; EnhancedCustomShapeParameterPair aOriginPropPair; pAny = aGeometryItem.GetPropertyValueByName( sExtrusion, "Origin" ); if( pAny && ( *pAny >>= aOriginPropPair ) ) { aOriginPropPair.First.Value >>= fOriginX; aOriginPropPair.Second.Value >>= fOriginY; } fSkewAngle = -1; const double e = 0.0001; if( aViewPoint.PositionX > e ) { if( aViewPoint.PositionY > e ) { if( (fOriginX > e ) && ( fOriginY > e ) ) fSkewAngle = 135.0; } else if( aViewPoint.PositionY < -e ) { if( ( fOriginX > e ) && ( fOriginY < -e ) ) fSkewAngle = -135.0; } else { if( ( fOriginX > e ) && ( fOriginY > -e ) && ( fOriginY < e ) ) fSkewAngle = 180.0; } } else if( aViewPoint.PositionX < -e ) { if( aViewPoint.PositionY < -e ) { if( ( fOriginX < -e ) && ( fOriginY < -e ) ) fSkewAngle = -45.0; } else if( aViewPoint.PositionY > e ) { if( ( fOriginX < -e ) && ( fOriginY > e ) ) fSkewAngle = 45.0; } else { if( ( fOriginX < e ) && ( fOriginY > -e ) && ( fOriginY < e ) ) fSkewAngle = -360.0; } } else { if( aViewPoint.PositionY < -e ) { if( ( fOriginX > -e ) && ( fOriginX < e ) && ( fOriginY < -e ) ) fSkewAngle = -90.0; } else if( aViewPoint.PositionY > e ) { if( ( fOriginX > -e ) && ( fOriginX < e ) && ( fOriginY > e ) ) fSkewAngle = 90.0; } else { if( ( fOriginX > -e ) && ( fOriginX < e ) && ( fOriginY > -e ) && ( fOriginY < e ) ) fSkewAngle = 0.0; } } } if( rtl::math::approxEqual(fFinalSkewAngle, -1.0) ) { fFinalSkewAngle = fSkewAngle; } else if( !rtl::math::approxEqual(fSkewAngle, fFinalSkewAngle) ) { fFinalSkewAngle = -1.0; } if( rtl::math::approxEqual(fFinalSkewAngle, -1.0) ) break; } } if( bHasCustomShape ) rSet.Put( SfxInt32Item( SID_EXTRUSION_DIRECTION, (sal_Int32)fFinalSkewAngle ) ); else rSet.DisableItem( SID_EXTRUSION_DIRECTION ); } void getExtrusionProjectionState( SdrView* pSdrView, SfxItemSet& rSet ) { const SdrMarkList& rMarkList = pSdrView->GetMarkedObjectList(); const size_t nCount = rMarkList.GetMarkCount(); static const char sExtrusion[] = "Extrusion"; const css::uno::Any* pAny; sal_Int32 nFinalProjection = -1; bool bHasCustomShape = false; for(size_t i=0; iGetMarkedSdrObj(); if( dynamic_cast( pObj) != nullptr ) { // see if this is an extruded customshape if( !bHasCustomShape ) { const SdrCustomShapeGeometryItem aGeometryItem( static_cast(pObj->GetMergedItem( SDRATTR_CUSTOMSHAPE_GEOMETRY )) ); const Any* pAny_ = aGeometryItem.GetPropertyValueByName( sExtrusion, sExtrusion ); if( pAny_ ) *pAny_ >>= bHasCustomShape; if( !bHasCustomShape ) continue; } const SdrCustomShapeGeometryItem aGeometryItem( static_cast(pObj->GetMergedItem( SDRATTR_CUSTOMSHAPE_GEOMETRY )) ); bool bParallel = true; pAny = aGeometryItem.GetPropertyValueByName( sExtrusion, "ProjectionMode" ); ProjectionMode eProjectionMode; if( pAny && ( *pAny >>= eProjectionMode ) ) bParallel = eProjectionMode == ProjectionMode_PARALLEL; if( nFinalProjection == -1 ) { nFinalProjection = bParallel ? 1 : 0; } else if( nFinalProjection != (bParallel ? 1 : 0) ) { nFinalProjection = -1; break; } } } if( bHasCustomShape ) rSet.Put( SfxInt32Item( SID_EXTRUSION_PROJECTION, nFinalProjection ) ); else rSet.DisableItem( SID_EXTRUSION_PROJECTION ); } void getExtrusionSurfaceState( SdrView* pSdrView, SfxItemSet& rSet ) { const SdrMarkList& rMarkList = pSdrView->GetMarkedObjectList(); const size_t nCount = rMarkList.GetMarkCount(); static const char sExtrusion[] = "Extrusion"; const css::uno::Any* pAny; sal_Int32 nFinalSurface = -1; bool bHasCustomShape = false; for(size_t i=0; iGetMarkedSdrObj(); if( dynamic_cast( pObj) != nullptr ) { const SdrCustomShapeGeometryItem aGeometryItem( static_cast(pObj->GetMergedItem( SDRATTR_CUSTOMSHAPE_GEOMETRY )) ); // see if this is an extruded customshape if( !bHasCustomShape ) { const Any* pAny_ = aGeometryItem.GetPropertyValueByName( sExtrusion, sExtrusion ); if( pAny_ ) *pAny_ >>= bHasCustomShape; if( !bHasCustomShape ) continue; } sal_Int32 nSurface = 0; // wire frame ShadeMode eShadeMode( ShadeMode_FLAT ); pAny = aGeometryItem.GetPropertyValueByName( sExtrusion, "ShadeMode" ); if( pAny ) *pAny >>= eShadeMode; if( eShadeMode == ShadeMode_FLAT ) { bool bMetal = false; pAny = aGeometryItem.GetPropertyValueByName( sExtrusion, "Metal" ); if( pAny ) *pAny >>= bMetal; if( bMetal ) { nSurface = 3; // metal } else { double fSpecularity = 0; pAny = aGeometryItem.GetPropertyValueByName( sExtrusion, "Specularity" ); if( pAny ) *pAny >>= fSpecularity; const double e = 0.0001; if( (fSpecularity > -e) && (fSpecularity < e) ) { nSurface = 1; // matte } else { nSurface = 2; // plastic } } } if( nFinalSurface == -1 ) { nFinalSurface = nSurface; } else if( nFinalSurface != nSurface ) { nFinalSurface = -1; break; } } } if( bHasCustomShape ) rSet.Put( SfxInt32Item( SID_EXTRUSION_SURFACE, nFinalSurface ) ); else rSet.DisableItem( SID_EXTRUSION_SURFACE ); } void getExtrusionDepthState( SdrView* pSdrView, SfxItemSet& rSet ) { const SdrMarkList& rMarkList = pSdrView->GetMarkedObjectList(); const size_t nCount = rMarkList.GetMarkCount(); static const char sExtrusion[] = "Extrusion"; const css::uno::Any* pAny; double fFinalDepth = -1; bool bHasCustomShape = false; for(size_t i=0; iGetMarkedSdrObj(); if( dynamic_cast( pObj) != nullptr ) { const SdrCustomShapeGeometryItem aGeometryItem( static_cast(pObj->GetMergedItem( SDRATTR_CUSTOMSHAPE_GEOMETRY )) ); // see if this is an extruded customshape if( !bHasCustomShape ) { const Any* pAny_ = aGeometryItem.GetPropertyValueByName( sExtrusion, sExtrusion ); if( pAny_ ) *pAny_ >>= bHasCustomShape; if( !bHasCustomShape ) continue; } double fDepth = 1270.0; pAny = aGeometryItem.GetPropertyValueByName( sExtrusion, "Depth" ); if( pAny ) { EnhancedCustomShapeParameterPair aDepthPropPair; if ( *pAny >>= aDepthPropPair ) aDepthPropPair.First.Value >>= fDepth; } if( fFinalDepth == -1 ) { fFinalDepth = fDepth; } else if( !rtl::math::approxEqual(fFinalDepth, fDepth) ) { fFinalDepth = -1; break; } } } if( pSdrView->GetModel() ) { FieldUnit eUnit = pSdrView->GetModel()->GetUIUnit(); rSet.Put( SfxUInt16Item( SID_ATTR_METRIC, (sal_uInt16)eUnit ) ); } if( bHasCustomShape ) rSet.Put( SvxDoubleItem( fFinalDepth, SID_EXTRUSION_DEPTH ) ); else rSet.DisableItem( SID_EXTRUSION_DEPTH ); } static bool compare_direction( const Direction3D& d1, const Direction3D& d2 ) { if( ((d1.DirectionX < 0) && (d2.DirectionX < 0)) || ((d1.DirectionX == 0) && (d2.DirectionX == 0)) || ((d1.DirectionX > 0) && (d2.DirectionX > 0)) ) { if( ((d1.DirectionY < 0) && (d2.DirectionY < 0)) || ((d1.DirectionY == 0) && (d2.DirectionY == 0)) || ((d1.DirectionY > 0) && (d2.DirectionY > 0)) ) { if( ((d1.DirectionZ < 0) && (d2.DirectionZ < 0)) || ((d1.DirectionZ == 0) && (d2.DirectionZ == 0)) || ((d1.DirectionZ > 0) && (d2.DirectionZ > 0)) ) { return true; } } } return false; } void getExtrusionLightingDirectionState( SdrView* pSdrView, SfxItemSet& rSet ) { const SdrMarkList& rMarkList = pSdrView->GetMarkedObjectList(); const size_t nCount = rMarkList.GetMarkCount(); static const char sExtrusion[] = "Extrusion"; const Direction3D * pLighting1Defaults; const Direction3D * pLighting2Defaults; getLightingDirectionDefaults( &pLighting1Defaults, &pLighting2Defaults ); const css::uno::Any* pAny; int nFinalDirection = -1; bool bHasCustomShape = false; for(size_t i=0; iGetMarkedSdrObj(); if( dynamic_cast( pObj) != nullptr ) { const SdrCustomShapeGeometryItem aGeometryItem( static_cast(pObj->GetMergedItem( SDRATTR_CUSTOMSHAPE_GEOMETRY )) ); // see if this is an extruded customshape if( !bHasCustomShape ) { const Any* pAny_ = aGeometryItem.GetPropertyValueByName( sExtrusion, sExtrusion ); if( pAny_ ) *pAny_ >>= bHasCustomShape; if( !bHasCustomShape ) continue; } Direction3D aFirstLightDirection( 50000, 0, 10000 ); Direction3D aSecondLightDirection( -50000, 0, 10000 ); pAny = aGeometryItem.GetPropertyValueByName( sExtrusion, "FirstLightDirection" ); if( pAny ) *pAny >>= aFirstLightDirection; pAny = aGeometryItem.GetPropertyValueByName( sExtrusion, "SecondLightDirection" ); if( pAny ) *pAny >>= aSecondLightDirection; int nDirection = -1; int j; for( j = 0; j < 9; j++ ) { if( compare_direction( aFirstLightDirection, pLighting1Defaults[j] ) && compare_direction( aSecondLightDirection, pLighting2Defaults[j] )) { nDirection = j; break; } } if( nFinalDirection == -1 ) { nFinalDirection = nDirection; } else if( nDirection != nFinalDirection ) { nFinalDirection = -1; } if( nFinalDirection == -1 ) break; } } if( bHasCustomShape ) rSet.Put( SfxInt32Item( SID_EXTRUSION_LIGHTING_DIRECTION, (sal_Int32)nFinalDirection ) ); else rSet.DisableItem( SID_EXTRUSION_LIGHTING_DIRECTION ); } void getExtrusionLightingIntensityState( SdrView* pSdrView, SfxItemSet& rSet ) { const SdrMarkList& rMarkList = pSdrView->GetMarkedObjectList(); const size_t nCount = rMarkList.GetMarkCount(); static const char sExtrusion[] = "Extrusion"; const css::uno::Any* pAny; int nFinalLevel = -1; bool bHasCustomShape = false; for(size_t i=0; iGetMarkedSdrObj(); if( dynamic_cast( pObj) != nullptr ) { const SdrCustomShapeGeometryItem aGeometryItem( static_cast(pObj->GetMergedItem( SDRATTR_CUSTOMSHAPE_GEOMETRY )) ); // see if this is an extruded customshape if( !bHasCustomShape ) { const Any* pAny_ = aGeometryItem.GetPropertyValueByName( sExtrusion, sExtrusion ); if( pAny_ ) *pAny_ >>= bHasCustomShape; if( !bHasCustomShape ) continue; } double fBrightness = 22178.0 / 655.36; pAny = aGeometryItem.GetPropertyValueByName( sExtrusion, "Brightness" ); if( pAny ) *pAny >>= fBrightness; int nLevel; if( fBrightness >= 30.0 ) { nLevel = 0; // Bright } else if( fBrightness >= 10.0 ) { nLevel = 1; // Normal; } else { nLevel = 2; // Dim } if( nFinalLevel == -1 ) { nFinalLevel = nLevel; } else if( nFinalLevel != nLevel ) { nFinalLevel = -1; break; } } } if( bHasCustomShape ) rSet.Put( SfxInt32Item( SID_EXTRUSION_LIGHTING_INTENSITY, nFinalLevel ) ); else rSet.DisableItem( SID_EXTRUSION_LIGHTING_INTENSITY ); } void getExtrusionColorState( SdrView* pSdrView, SfxItemSet& rSet ) { const SdrMarkList& rMarkList = pSdrView->GetMarkedObjectList(); const size_t nCount = rMarkList.GetMarkCount(); static const char sExtrusion[] = "Extrusion"; const css::uno::Any* pAny; bool bInit = false; bool bAmbigius = false; Color aFinalColor; bool bHasCustomShape = false; for(size_t i=0; iGetMarkedSdrObj(); if( dynamic_cast( pObj) != nullptr ) { const SdrCustomShapeGeometryItem aGeometryItem( static_cast(pObj->GetMergedItem( SDRATTR_CUSTOMSHAPE_GEOMETRY )) ); // see if this is an extruded customshape if( !bHasCustomShape ) { const Any* pAny_ = aGeometryItem.GetPropertyValueByName( sExtrusion, sExtrusion ); if( pAny_ ) *pAny_ >>= bHasCustomShape; if( !bHasCustomShape ) continue; } Color aColor; bool bUseColor = false; pAny = aGeometryItem.GetPropertyValueByName( sExtrusion, "Color" ); if( pAny ) *pAny >>= bUseColor; if( bUseColor ) { const XSecondaryFillColorItem& rItem = *static_cast(&(pObj->GetMergedItem( XATTR_SECONDARYFILLCOLOR ))); aColor = rItem.GetColorValue(); } else { aColor = COL_AUTO; } if( !bInit ) { aFinalColor = aColor; bInit = true; } else if( aFinalColor != aColor ) { bAmbigius = true; break; } } } if( bAmbigius ) aFinalColor = COL_AUTO; if( bHasCustomShape ) rSet.Put( SvxColorItem( aFinalColor, SID_EXTRUSION_3D_COLOR ) ); else rSet.DisableItem( SID_EXTRUSION_3D_COLOR ); } namespace svx { bool checkForSelectedCustomShapes( SdrView* pSdrView, bool bOnlyExtruded ) { static const char sExtrusion[] = "Extrusion"; const SdrMarkList& rMarkList = pSdrView->GetMarkedObjectList(); const size_t nCount = rMarkList.GetMarkCount(); bool bFound = false; for(size_t i=0;(iGetMarkedSdrObj(); if( dynamic_cast( pObj) != nullptr ) { if( bOnlyExtruded ) { const SdrCustomShapeGeometryItem aGeometryItem( static_cast(pObj->GetMergedItem( SDRATTR_CUSTOMSHAPE_GEOMETRY ) )); const Any* pAny = aGeometryItem.GetPropertyValueByName( sExtrusion, sExtrusion ); if( pAny ) *pAny >>= bFound; } else { bFound = true; } } } return bFound; } } void ExtrusionBar::getState( SdrView* pSdrView, SfxItemSet& rSet ) { if (rSet.GetItemState(SID_EXTRUSION_DIRECTION) != SfxItemState::UNKNOWN) { getExtrusionDirectionState( pSdrView, rSet ); } if (rSet.GetItemState(SID_EXTRUSION_PROJECTION) != SfxItemState::UNKNOWN) { getExtrusionProjectionState( pSdrView, rSet ); } const bool bOnlyExtrudedCustomShapes = checkForSelectedCustomShapes( pSdrView, true ); if (rSet.GetItemState(SID_EXTRUSION_TILT_DOWN) != SfxItemState::UNKNOWN) { if (! bOnlyExtrudedCustomShapes) rSet.DisableItem( SID_EXTRUSION_TILT_DOWN ); } if (rSet.GetItemState(SID_EXTRUSION_TILT_DOWN) != SfxItemState::UNKNOWN) { if (! bOnlyExtrudedCustomShapes) rSet.DisableItem( SID_EXTRUSION_TILT_DOWN ); } if (rSet.GetItemState(SID_EXTRUSION_TILT_UP) != SfxItemState::UNKNOWN) { if (! bOnlyExtrudedCustomShapes) rSet.DisableItem( SID_EXTRUSION_TILT_UP ); } if (rSet.GetItemState(SID_EXTRUSION_TILT_LEFT) != SfxItemState::UNKNOWN) { if (! bOnlyExtrudedCustomShapes) rSet.DisableItem( SID_EXTRUSION_TILT_LEFT ); } if (rSet.GetItemState(SID_EXTRUSION_TILT_RIGHT) != SfxItemState::UNKNOWN) { if (! bOnlyExtrudedCustomShapes) rSet.DisableItem( SID_EXTRUSION_TILT_RIGHT ); } if (rSet.GetItemState(SID_EXTRUSION_3D_COLOR) != SfxItemState::UNKNOWN) { if (! bOnlyExtrudedCustomShapes) rSet.DisableItem( SID_EXTRUSION_3D_COLOR ); } if (rSet.GetItemState(SID_EXTRUSION_DEPTH_FLOATER) != SfxItemState::UNKNOWN) { if (! bOnlyExtrudedCustomShapes) rSet.DisableItem( SID_EXTRUSION_DEPTH_FLOATER ); } if (rSet.GetItemState(SID_EXTRUSION_DIRECTION_FLOATER) != SfxItemState::UNKNOWN) { if (! bOnlyExtrudedCustomShapes) rSet.DisableItem( SID_EXTRUSION_DIRECTION_FLOATER ); } if (rSet.GetItemState(SID_EXTRUSION_LIGHTING_FLOATER) != SfxItemState::UNKNOWN) { if (! bOnlyExtrudedCustomShapes) rSet.DisableItem( SID_EXTRUSION_LIGHTING_FLOATER ); } if (rSet.GetItemState(SID_EXTRUSION_SURFACE_FLOATER) != SfxItemState::UNKNOWN) { if(! bOnlyExtrudedCustomShapes) rSet.DisableItem( SID_EXTRUSION_SURFACE_FLOATER ); } if (rSet.GetItemState(SID_EXTRUSION_TOOGLE) != SfxItemState::UNKNOWN) { if( !checkForSelectedCustomShapes( pSdrView, false ) ) rSet.DisableItem( SID_EXTRUSION_TOOGLE ); } if (rSet.GetItemState(SID_EXTRUSION_DEPTH) != SfxItemState::UNKNOWN) { getExtrusionDepthState( pSdrView, rSet ); } if (rSet.GetItemState(SID_EXTRUSION_SURFACE) != SfxItemState::UNKNOWN) { getExtrusionSurfaceState( pSdrView, rSet ); } if (rSet.GetItemState(SID_EXTRUSION_LIGHTING_INTENSITY) != SfxItemState::UNKNOWN) { getExtrusionLightingIntensityState( pSdrView, rSet ); } if (rSet.GetItemState(SID_EXTRUSION_LIGHTING_DIRECTION) != SfxItemState::UNKNOWN) { getExtrusionLightingDirectionState( pSdrView, rSet ); } if (rSet.GetItemState(SID_EXTRUSION_3D_COLOR) != SfxItemState::UNKNOWN) { getExtrusionColorState( pSdrView, rSet ); } } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */