/* -*- 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 "strings.hrc" #include "sdresid.hxx" #include "DrawDocShell.hxx" #include "sdmod.hxx" #include "sdiocmpt.hxx" #include "vectdlg.hxx" #include "vectdlg.hrc" #include #include #include #define VECTORIZE_MAX_EXTENT 512 SdVectorizeDlg::SdVectorizeDlg( Window* pParent, const Bitmap& rBmp, ::sd::DrawDocShell* pDocShell ) : ModalDialog ( pParent, SdResId( DLG_VECTORIZE ) ), mpDocSh ( pDocShell ), aGrpSettings ( this, SdResId( GRP_SETTINGS ) ), aFtLayers ( this, SdResId( FT_LAYERS ) ), aNmLayers ( this, SdResId( NM_LAYERS ) ), aFtReduce ( this, SdResId( FT_REDUCE ) ), aMtReduce ( this, SdResId( MT_REDUCE ) ), aFtFillHoles ( this, SdResId( FT_FILLHOLES ) ), aMtFillHoles ( this, SdResId( MT_FILLHOLES ) ), aCbFillHoles ( this, SdResId( CB_FILLHOLES ) ), aFtOriginal ( this, SdResId( FT_ORIGINAL ) ), aBmpWin ( this, SdResId( CTL_BMP ) ), aFtVectorized ( this, SdResId( FT_VECTORIZED ) ), aMtfWin ( this, SdResId( CTL_WMF ) ), aGrpPrgs ( this, SdResId( GRP_PRGS ) ), aPrgs ( this, SdResId( WND_PRGS ) ), aBtnOK ( this, SdResId( BTN_OK ) ), aBtnCancel ( this, SdResId( BTN_CANCEL ) ), aBtnHelp ( this, SdResId( BTN_HELP ) ), aBtnPreview ( this, SdResId( BTN_PREVIEW ) ), aBmp ( rBmp ) { FreeResource(); aBtnPreview.SetClickHdl( LINK( this, SdVectorizeDlg, ClickPreviewHdl ) ); aBtnOK.SetClickHdl( LINK( this, SdVectorizeDlg, ClickOKHdl ) ); aNmLayers.SetModifyHdl( LINK( this, SdVectorizeDlg, ModifyHdl ) ); aMtReduce.SetModifyHdl( LINK( this, SdVectorizeDlg, ModifyHdl ) ); aMtFillHoles.SetModifyHdl( LINK( this, SdVectorizeDlg, ModifyHdl ) ); aCbFillHoles.SetToggleHdl( LINK( this, SdVectorizeDlg, ToggleHdl ) ); // disable 3D border aBmpWin.SetBorderStyle(WINDOW_BORDER_MONO); aMtfWin.SetBorderStyle(WINDOW_BORDER_MONO); LoadSettings(); InitPreviewBmp(); } SdVectorizeDlg::~SdVectorizeDlg() { } Rectangle SdVectorizeDlg::GetRect( const Size& rDispSize, const Size& rBmpSize ) const { Rectangle aRect; if( rBmpSize.Width() && rBmpSize.Height() && rDispSize.Width() && rDispSize.Height() ) { Size aBmpSize( rBmpSize ); const double fGrfWH = (double) aBmpSize.Width() / aBmpSize.Height(); const double fWinWH = (double) rDispSize.Width() / rDispSize.Height(); if( fGrfWH < fWinWH ) { aBmpSize.Width() = (long) ( rDispSize.Height() * fGrfWH ); aBmpSize.Height()= rDispSize.Height(); } else { aBmpSize.Width() = rDispSize.Width(); aBmpSize.Height()= (long) ( rDispSize.Width() / fGrfWH); } const Point aBmpPos( ( rDispSize.Width() - aBmpSize.Width() ) >> 1, ( rDispSize.Height() - aBmpSize.Height() ) >> 1 ); aRect = Rectangle( aBmpPos, aBmpSize ); } return aRect; } void SdVectorizeDlg::InitPreviewBmp() { const Rectangle aRect( GetRect( aBmpWin.GetSizePixel(), aBmp.GetSizePixel() ) ); aPreviewBmp = aBmp; aPreviewBmp.Scale( aRect.GetSize() ); aBmpWin.SetGraphic( aPreviewBmp ); } Bitmap SdVectorizeDlg::GetPreparedBitmap( Bitmap& rBmp, Fraction& rScale ) { Bitmap aNew( rBmp ); const Size aSizePix( aNew.GetSizePixel() ); if( aSizePix.Width() > VECTORIZE_MAX_EXTENT || aSizePix.Height() > VECTORIZE_MAX_EXTENT ) { const Rectangle aRect( GetRect( Size( VECTORIZE_MAX_EXTENT, VECTORIZE_MAX_EXTENT ), aSizePix ) ); rScale = Fraction( aSizePix.Width(), aRect.GetWidth() ); aNew.Scale( aRect.GetSize() ); } else rScale = Fraction( 1, 1 ); aNew.ReduceColors( (sal_uInt16) aNmLayers.GetValue(), BMP_REDUCE_SIMPLE ); return aNew; } void SdVectorizeDlg::Calculate( Bitmap& rBmp, GDIMetaFile& rMtf ) { mpDocSh->SetWaitCursor( sal_True ); aPrgs.SetValue( 0 ); Fraction aScale; Bitmap aTmp( GetPreparedBitmap( rBmp, aScale ) ); if( !!aTmp ) { const Link aPrgsHdl( LINK( this, SdVectorizeDlg, ProgressHdl ) ); aTmp.Vectorize( rMtf, (sal_uInt8) aMtReduce.GetValue(), BMP_VECTORIZE_OUTER | BMP_VECTORIZE_REDUCE_EDGES, &aPrgsHdl ); if( aCbFillHoles.IsChecked() ) { GDIMetaFile aNewMtf; BitmapReadAccess* pRAcc = aTmp.AcquireReadAccess(); if( pRAcc ) { const long nWidth = pRAcc->Width(); const long nHeight = pRAcc->Height(); const long nTileX = static_cast(aMtFillHoles.GetValue()); const long nTileY = static_cast(aMtFillHoles.GetValue()); const long nCountX = nWidth / nTileX; const long nCountY = nHeight / nTileY; const long nRestX = nWidth % nTileX; const long nRestY = nHeight % nTileY; MapMode aMap( rMtf.GetPrefMapMode() ); aNewMtf.SetPrefSize( rMtf.GetPrefSize() ); aNewMtf.SetPrefMapMode( aMap ); for( long nTY = 0; nTY < nCountY; nTY++ ) { const long nY = nTY * nTileY; for( long nTX = 0; nTX < nCountX; nTX++ ) AddTile( pRAcc, aNewMtf, nTX * nTileX, nTY * nTileY, nTileX, nTileY ); if( nRestX ) AddTile( pRAcc, aNewMtf, nCountX * nTileX, nY, nRestX, nTileY ); } if( nRestY ) { const long nY = nCountY * nTileY; for( long nTX = 0; nTX < nCountX; nTX++ ) AddTile( pRAcc, aNewMtf, nTX * nTileX, nY, nTileX, nRestY ); if( nRestX ) AddTile( pRAcc, aNewMtf, nCountX * nTileX, nCountY * nTileY, nRestX, nRestY ); } aTmp.ReleaseAccess( pRAcc ); for( size_t n = 0, nCount = rMtf.GetActionSize(); n < nCount; n++ ) aNewMtf.AddAction( rMtf.GetAction( n )->Clone() ); aMap.SetScaleX( aMap.GetScaleX() * aScale ); aMap.SetScaleY( aMap.GetScaleY() * aScale ); aNewMtf.SetPrefMapMode( aMap ); rMtf = aNewMtf; } } } aPrgs.SetValue( 0 ); mpDocSh->SetWaitCursor( sal_False ); } void SdVectorizeDlg::AddTile( BitmapReadAccess* pRAcc, GDIMetaFile& rMtf, long nPosX, long nPosY, long nWidth, long nHeight ) { sal_uLong nSumR = 0UL, nSumG = 0UL, nSumB = 0UL; const long nRight = nPosX + nWidth - 1L; const long nBottom = nPosY + nHeight - 1L; const double fMult = 1.0 / ( nWidth * nHeight ); for( long nY = nPosY; nY <= nBottom; nY++ ) { for( long nX = nPosX; nX <= nRight; nX++ ) { const BitmapColor aPixel( pRAcc->GetColor( nY, nX ) ); nSumR += aPixel.GetRed(); nSumG += aPixel.GetGreen(); nSumB += aPixel.GetBlue(); } } const Color aColor( (sal_uInt8) FRound( nSumR * fMult ), (sal_uInt8) FRound( nSumG * fMult ), (sal_uInt8) FRound( nSumB * fMult ) ); Rectangle aRect( Point( nPosX, nPosY ), Size( nWidth + 1, nHeight + 1 ) ); const Size& rMaxSize = rMtf.GetPrefSize(); aRect = PixelToLogic( aRect, rMtf.GetPrefMapMode() ); if( aRect.Right() > ( rMaxSize.Width() - 1L ) ) aRect.Right() = rMaxSize.Width() - 1L; if( aRect.Bottom() > ( rMaxSize.Height() - 1L ) ) aRect.Bottom() = rMaxSize.Height() - 1L; rMtf.AddAction( new MetaLineColorAction( aColor, sal_True ) ); rMtf.AddAction( new MetaFillColorAction( aColor, sal_True ) ); rMtf.AddAction( new MetaRectAction( aRect ) ); } IMPL_LINK( SdVectorizeDlg, ProgressHdl, void*, pData ) { aPrgs.SetValue( (sal_uInt16)(sal_uLong) pData ); return 0L; } IMPL_LINK_NOARG(SdVectorizeDlg, ClickPreviewHdl) { Calculate( aBmp, aMtf ); aMtfWin.SetGraphic( aMtf ); aBtnPreview.Disable(); return 0L; } IMPL_LINK_NOARG(SdVectorizeDlg, ClickOKHdl) { if( aBtnPreview.IsEnabled() ) Calculate( aBmp, aMtf ); SaveSettings(); EndDialog( RET_OK ); return 0L; } IMPL_LINK( SdVectorizeDlg, ToggleHdl, CheckBox*, pCb ) { if( pCb->IsChecked() ) { aFtFillHoles.Enable(); aMtFillHoles.Enable(); } else { aFtFillHoles.Disable(); aMtFillHoles.Disable(); } ModifyHdl( NULL ); return 0L; } IMPL_LINK_NOARG(SdVectorizeDlg, ModifyHdl) { aBtnPreview.Enable(); return 0L; } void SdVectorizeDlg::LoadSettings() { SvStorageStreamRef xIStm( SD_MOD()->GetOptionStream( rtl::OUString( SD_OPTION_VECTORIZE ) , SD_OPTION_LOAD ) ); sal_uInt16 nLayers; sal_uInt16 nReduce; sal_uInt16 nFillHoles; sal_Bool bFillHoles; if( xIStm.Is() ) { SdIOCompat aCompat( *xIStm, STREAM_READ ); *xIStm >> nLayers >> nReduce >> nFillHoles >> bFillHoles; } else { nLayers = 8; nReduce = 0; nFillHoles = 32; bFillHoles = sal_False; } aNmLayers.SetValue( nLayers ); aMtReduce.SetValue( nReduce ); aMtFillHoles.SetValue( nFillHoles ); aCbFillHoles.Check( bFillHoles ); ToggleHdl( &aCbFillHoles ); } void SdVectorizeDlg::SaveSettings() const { SvStorageStreamRef xOStm( SD_MOD()->GetOptionStream( rtl::OUString(SD_OPTION_VECTORIZE) , SD_OPTION_STORE ) ); if( xOStm.Is() ) { SdIOCompat aCompat( *xOStm, STREAM_WRITE, 1 ); *xOStm << (sal_uInt16) aNmLayers.GetValue() << (sal_uInt16) aMtReduce.GetValue(); *xOStm << (sal_uInt16) aMtFillHoles.GetValue() << aCbFillHoles.IsChecked(); } } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */