/* -*- 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 <com/sun/star/embed/EmbedMisc.hpp>
#include <scitems.hxx>
#include <editeng/boxitem.hxx>
#include <editeng/brushitem.hxx>
#include <editeng/editdata.hxx>
#include <svtools/colorcfg.hxx>
#include <svx/rotmodit.hxx>
#include <editeng/shaditem.hxx>
#include <editeng/svxfont.hxx>
#include <svx/svdoole2.hxx>
#include <tools/poly.hxx>
#include <vcl/svapp.hxx>
#include <vcl/pdfextoutdevdata.hxx>
#include <svtools/accessibilityoptions.hxx>
#include <svx/framelinkarray.hxx>
#include <drawinglayer/geometry/viewinformation2d.hxx>
#include <drawinglayer/processor2d/baseprocessor2d.hxx>
#include <basegfx/matrix/b2dhommatrix.hxx>
#include <drawinglayer/processor2d/processorfromoutputdevice.hxx>
#include <vcl/lineinfo.hxx>
#include <vcl/gradient.hxx>
#include <vcl/settings.hxx>
#include <svx/unoapi.hxx>
#include <sal/log.hxx>
#include <output.hxx>
#include <document.hxx>
#include <drwlayer.hxx>
#include <formulacell.hxx>
#include <attrib.hxx>
#include <patattr.hxx>
#include <docpool.hxx>
#include <tabvwsh.hxx>
#include <progress.hxx>
#include <pagedata.hxx>
#include <chgtrack.hxx>
#include <chgviset.hxx>
#include <viewutil.hxx>
#include <gridmerg.hxx>
#include <invmerge.hxx>
#include <fillinfo.hxx>
#include <scmod.hxx>
#include <appoptio.hxx>
#include <postit.hxx>
#include <colorscale.hxx>
#include <math.h>
#include <iostream>
#include <map>
#include <memory>
#include <utility>
using namespace com::sun::star;
// Static Data
// color for ChangeTracking "by author" as in the writer (swmodul1.cxx)
#define SC_AUTHORCOLORCOUNT 9
static const Color nAuthorColor[ SC_AUTHORCOLORCOUNT ] = {
COL_LIGHTRED, COL_LIGHTBLUE, COL_LIGHTMAGENTA,
COL_GREEN, COL_RED, COL_BLUE,
COL_BROWN, COL_MAGENTA, COL_CYAN };
// Helper class for color assignment to avoid repeated lookups for the same user
ScActionColorChanger::ScActionColorChanger( const ScChangeTrack& rTrack ) :
rOpt( SC_MOD()->GetAppOptions() ),
rUsers( rTrack.GetUserCollection() ),
nLastUserIndex( 0 ),
nColor( COL_BLACK )
{
}
void ScActionColorChanger::Update( const ScChangeAction& rAction )
{
Color nSetColor;
switch (rAction.GetType())
{
case SC_CAT_INSERT_COLS:
case SC_CAT_INSERT_ROWS:
case SC_CAT_INSERT_TABS:
nSetColor = rOpt.GetTrackInsertColor();
break;
case SC_CAT_DELETE_COLS:
case SC_CAT_DELETE_ROWS:
case SC_CAT_DELETE_TABS:
nSetColor = rOpt.GetTrackDeleteColor();
break;
case SC_CAT_MOVE:
nSetColor = rOpt.GetTrackMoveColor();
break;
default:
nSetColor = rOpt.GetTrackContentColor();
break;
}
if ( nSetColor != COL_TRANSPARENT ) // color assigned
nColor = nSetColor;
else // by author
{
if (aLastUserName != rAction.GetUser())
{
aLastUserName = rAction.GetUser();
std::set<OUString>::const_iterator it = rUsers.find(aLastUserName);
if (it == rUsers.end())
{
// empty string is possible if a name wasn't found while saving a 5.0 file
SAL_INFO_IF( aLastUserName.isEmpty(), "sc.ui", "Author not found" );
nLastUserIndex = 0;
}
else
{
size_t nPos = std::distance(rUsers.begin(), it);
nLastUserIndex = nPos % SC_AUTHORCOLORCOUNT;
}
}
nColor = nAuthorColor[nLastUserIndex];
}
}
ScOutputData::ScOutputData( OutputDevice* pNewDev, ScOutputType eNewType,
ScTableInfo& rTabInfo, ScDocument* pNewDoc,
SCTAB nNewTab, long nNewScrX, long nNewScrY,
SCCOL nNewX1, SCROW nNewY1, SCCOL nNewX2, SCROW nNewY2,
double nPixelPerTwipsX, double nPixelPerTwipsY,
const Fraction* pZoomX, const Fraction* pZoomY ) :
mpDev( pNewDev ),
mpRefDevice( pNewDev ), // default is output device
pFmtDevice( pNewDev ), // default is output device
mrTabInfo( rTabInfo ),
pRowInfo( rTabInfo.mpRowInfo.get() ),
nArrCount( rTabInfo.mnArrCount ),
mpDoc( pNewDoc ),
nTab( nNewTab ),
nScrX( nNewScrX ),
nScrY( nNewScrY ),
nX1( nNewX1 ),
nY1( nNewY1 ),
nX2( nNewX2 ),
nY2( nNewY2 ),
eType( eNewType ),
mnPPTX( nPixelPerTwipsX ),
mnPPTY( nPixelPerTwipsY ),
pViewShell( nullptr ),
pDrawView( nullptr ),
bEditMode( false ),
nEditCol( 0 ),
nEditRow( 0 ),
bMetaFile( false ),
bPagebreakMode( false ),
bSolidBackground( false ),
mbUseStyleColor( false ),
mbForceAutoColor( SC_MOD()->GetAccessOptions().GetIsAutomaticFontColor() ),
mbSyntaxMode( false ),
aGridColor( COL_BLACK ),
mbShowNullValues( true ),
mbShowFormulas( false ),
bShowSpellErrors( false ),
bMarkClipped( false ), // sal_False for printer/metafile etc.
bSnapPixel( false ),
bAnyClipped( false ),
mpTargetPaintWindow(nullptr), // #i74769# use SdrPaintWindow direct
mpSpellCheckCxt(nullptr)
{
if (pZoomX)
aZoomX = *pZoomX;
else
aZoomX = Fraction(1,1);
if (pZoomY)
aZoomY = *pZoomY;
else
aZoomY = Fraction(1,1);
nVisX1 = nX1;
nVisY1 = nY1;
nVisX2 = nX2;
nVisY2 = nY2;
mpDoc->StripHidden( nVisX1, nVisY1, nVisX2, nVisY2, nTab );
nScrW = 0;
for (SCCOL nX=nVisX1; nX<=nVisX2; nX++)
nScrW += pRowInfo[0].pCellInfo[nX+1].nWidth;
nMirrorW = nScrW;
nScrH = 0;
for (SCSIZE nArrY=1; nArrY+1<nArrCount; nArrY++)
nScrH += pRowInfo[nArrY].nHeight;
bTabProtected = mpDoc->IsTabProtected( nTab );
bLayoutRTL = mpDoc->IsLayoutRTL( nTab );
// always needed, so call at the end of the constructor
SetCellRotations();
}
ScOutputData::~ScOutputData()
{
}
void ScOutputData::SetSpellCheckContext( const sc::SpellCheckContext* pCxt )
{
mpSpellCheckCxt = pCxt;
}
void ScOutputData::SetContentDevice( OutputDevice* pContentDev )
{
// use pContentDev instead of pDev where used
if ( mpRefDevice == mpDev )
mpRefDevice = pContentDev;
if ( pFmtDevice == mpDev )
pFmtDevice = pContentDev;
mpDev = pContentDev;
}
void ScOutputData::SetMirrorWidth( long nNew )
{
nMirrorW = nNew;
}
void ScOutputData::SetGridColor( const Color& rColor )
{
aGridColor = rColor;
}
void ScOutputData::SetMarkClipped( bool bSet )
{
bMarkClipped = bSet;
}
void ScOutputData::SetShowNullValues( bool bSet )
{
mbShowNullValues = bSet;
}
void ScOutputData::SetShowFormulas( bool bSet )
{
mbShowFormulas = bSet;
}
void ScOutputData::SetShowSpellErrors( bool bSet )
{
bShowSpellErrors = bSet;
}
void ScOutputData::SetSnapPixel()
{
bSnapPixel = true;
}
void ScOutputData::SetEditCell( SCCOL nCol, SCROW nRow )
{
nEditCol = nCol;
nEditRow = nRow;
bEditMode = true;
}
void ScOutputData::SetMetaFileMode( bool bNewMode )
{
bMetaFile = bNewMode;
}
void ScOutputData::SetSyntaxMode( bool bNewMode )
{
mbSyntaxMode = bNewMode;
if ( bNewMode )
if ( !pValueColor )
{
const svtools::ColorConfig& rColorCfg = SC_MOD()->GetColorConfig();
pValueColor.reset( new Color( rColorCfg.GetColorValue( svtools::CALCVALUE ).nColor ) );
pTextColor.reset( new Color( rColorCfg.GetColorValue( svtools::CALCTEXT ).nColor ) );
pFormulaColor.reset( new Color( rColorCfg.GetColorValue( svtools::CALCFORMULA ).nColor ) );
}
}
void ScOutputData::DrawGrid(vcl::RenderContext& rRenderContext, bool bGrid, bool bPage)
{
SCCOL nX;
SCROW nY;
long nPosX;
long nPosY;
SCSIZE nArrY;
ScBreakType nBreak = ScBreakType::NONE;
ScBreakType nBreakOld = ScBreakType::NONE;
bool bSingle;
bool bDashed = false;
Color aPageColor;
Color aManualColor;
if (bPagebreakMode)
bPage = false; // no "normal" breaks over the whole width/height
// It is a big mess to distinguish when we are using pixels and when logic
// units for drawing. Ultimately we want to work only in the logic units,
// but until that happens, we need to special-case:
//
// * metafile
// * drawing to the screen - everything is internally counted in pixels there
//
// 'Internally' in the above means the pCellInfo[...].nWidth and
// pRowInfo[...]->nHeight:
//
// * when bWorksInPixels is true: these are in pixels
// * when bWorksInPixels is false: these are in the logic units
//
// This is where all the confusion comes from, ultimately we want them
// always in the logic units (100th of millimeters), but we need to get
// there gradually (get rid of setting MapUnit::MapPixel first), otherwise we'd
// break all the drawing by one change.
// So until that happens, we need to special case.
bool bWorksInPixels = bMetaFile;
if ( eType == OUTTYPE_WINDOW )
{
bWorksInPixels = true;
const svtools::ColorConfig& rColorCfg = SC_MOD()->GetColorConfig();
aPageColor = rColorCfg.GetColorValue(svtools::CALCPAGEBREAKAUTOMATIC).nColor;
aManualColor = rColorCfg.GetColorValue(svtools::CALCPAGEBREAKMANUAL).nColor;
}
else
{
aPageColor = aGridColor;
aManualColor = aGridColor;
}
long nOneX = 1;
long nOneY = 1;
if (!bWorksInPixels)
{
Size aOnePixel = rRenderContext.PixelToLogic(Size(1,1));
nOneX = aOnePixel.Width();
nOneY = aOnePixel.Height();
}
long nLayoutSign = bLayoutRTL ? -1 : 1;
long nSignedOneX = nOneX * nLayoutSign;
rRenderContext.SetLineColor(aGridColor);
ScGridMerger aGrid(&rRenderContext, nOneX, nOneY);
// vertical lines
nPosX = nScrX;
if ( bLayoutRTL )
nPosX += nMirrorW - nOneX;
for (nX=nX1; nX<=nX2; nX++)
{
SCCOL nXplus1 = nX+1;
SCCOL nXplus2 = nX+2;
sal_uInt16 nWidth = pRowInfo[0].pCellInfo[nXplus1].nWidth;
if (nWidth)
{
nPosX += nWidth * nLayoutSign;
if ( bPage )
{
// Search also in hidden part for page breaks
SCCOL nCol = nXplus1;
while (nCol <= MAXCOL)
{
nBreak = mpDoc->HasColBreak(nCol, nTab);
bool bHidden = mpDoc->ColHidden(nCol, nTab);
if ( nBreak != ScBreakType::NONE || !bHidden )
break;
++nCol;
}
if (nBreak != nBreakOld)
{
aGrid.Flush();
if (static_cast<int>(nBreak))
{
rRenderContext.SetLineColor( (nBreak & ScBreakType::Manual) ? aManualColor :
aPageColor );
bDashed = true;
}
else
{
rRenderContext.SetLineColor( aGridColor );
bDashed = false;
}
nBreakOld = nBreak;
}
}
bool bDraw = bGrid || nBreakOld != ScBreakType::NONE; // simple grid only if set that way
sal_uInt16 nWidthXplus2 = pRowInfo[0].pCellInfo[nXplus2].nWidth;
bSingle = false; //! get into Fillinfo !!!!!
if ( nX<MAXCOL && !bSingle )
{
bSingle = ( nWidthXplus2 == 0 );
for (nArrY=1; nArrY+1<nArrCount && !bSingle; nArrY++)
{
if (pRowInfo[nArrY].pCellInfo[nXplus2].bHOverlapped)
bSingle = true;
if (pRowInfo[nArrY].pCellInfo[nXplus1].bHideGrid)
bSingle = true;
}
}
if (bDraw)
{
if ( nX<MAXCOL && bSingle )
{
SCCOL nVisX = nXplus1;
while ( nVisX < MAXCOL && !mpDoc->GetColWidth(nVisX,nTab) )
++nVisX;
nPosY = nScrY;
for (nArrY=1; nArrY+1<nArrCount; nArrY++)
{
RowInfo* pThisRowInfo = &pRowInfo[nArrY];
const long nNextY = nPosY + pThisRowInfo->nHeight;
bool bHOver = pThisRowInfo->pCellInfo[nXplus1].bHideGrid;
if (!bHOver)
{
if (nWidthXplus2)
bHOver = pThisRowInfo->pCellInfo[nXplus2].bHOverlapped;
else
{
if (nVisX <= nX2)
bHOver = pThisRowInfo->pCellInfo[nVisX+1].bHOverlapped;
else
bHOver = mpDoc->GetAttr(
nVisX,pThisRowInfo->nRowNo,nTab,ATTR_MERGE_FLAG)
->IsHorOverlapped();
if (bHOver)
bHOver = mpDoc->GetAttr(
nXplus1,pThisRowInfo->nRowNo,nTab,ATTR_MERGE_FLAG)
->IsHorOverlapped();
}
}
if (pThisRowInfo->bChanged && !bHOver)
{
aGrid.AddVerLine(bWorksInPixels, nPosX-nSignedOneX, nPosY, nNextY-nOneY, bDashed);
}
nPosY = nNextY;
}
}
else
{
aGrid.AddVerLine(bWorksInPixels, nPosX-nSignedOneX, nScrY, nScrY+nScrH-nOneY, bDashed);
}
}
}
}
// horizontal lines
bool bHiddenRow = true;
SCROW nHiddenEndRow = -1;
nPosY = nScrY;
for (nArrY=1; nArrY+1<nArrCount; nArrY++)
{
SCSIZE nArrYplus1 = nArrY+1;
nY = pRowInfo[nArrY].nRowNo;
SCROW nYplus1 = nY+1;
nPosY += pRowInfo[nArrY].nHeight;
if (pRowInfo[nArrY].bChanged)
{
if ( bPage )
{
for (SCROW i = nYplus1; i <= MAXROW; ++i)
{
if (i > nHiddenEndRow)
bHiddenRow = mpDoc->RowHidden(i, nTab, nullptr, &nHiddenEndRow);
/* TODO: optimize the row break thing for large hidden
* segments where HasRowBreak() has to be called
* nevertheless for each row, as a row break is drawn also
* for hidden rows, above them. This needed to be done only
* once per hidden segment, maybe giving manual breaks
* priority. Something like GetNextRowBreak() and
* GetNextManualRowBreak(). */
nBreak = mpDoc->HasRowBreak(i, nTab);
if (!bHiddenRow || nBreak != ScBreakType::NONE)
break;
}
if (nBreakOld != nBreak)
{
aGrid.Flush();
if (static_cast<int>(nBreak))
{
rRenderContext.SetLineColor( (nBreak & ScBreakType::Manual) ? aManualColor :
aPageColor );
bDashed = true;
}
else
{
rRenderContext.SetLineColor( aGridColor );
bDashed = false;
}
nBreakOld = nBreak;
}
}
bool bDraw = bGrid || nBreakOld != ScBreakType::NONE; // simple grid only if set so
bool bNextYisNextRow = (pRowInfo[nArrYplus1].nRowNo == nYplus1);
bSingle = !bNextYisNextRow; // Hidden
for (SCCOL i=nX1; i<=nX2 && !bSingle; i++)
{
if (pRowInfo[nArrYplus1].pCellInfo[i+1].bVOverlapped)
bSingle = true;
}
if (bDraw)
{
if ( bSingle && nY<MAXROW )
{
SCROW nVisY = pRowInfo[nArrYplus1].nRowNo;
nPosX = nScrX;
if ( bLayoutRTL )
nPosX += nMirrorW - nOneX;
for (SCCOL i=nX1; i<=nX2; i++)
{
const long nNextX = nPosX + pRowInfo[0].pCellInfo[i+1].nWidth * nLayoutSign;
if (nNextX != nPosX) // visible
{
bool bVOver;
if ( bNextYisNextRow )
bVOver = pRowInfo[nArrYplus1].pCellInfo[i+1].bVOverlapped;
else
{
bVOver = mpDoc->GetAttr(
i,nYplus1,nTab,ATTR_MERGE_FLAG)
->IsVerOverlapped()
&& mpDoc->GetAttr(
i,nVisY,nTab,ATTR_MERGE_FLAG)
->IsVerOverlapped();
//! nVisY from Array ??
}
if (!bVOver)
{
aGrid.AddHorLine(bWorksInPixels, nPosX, nNextX-nSignedOneX, nPosY-nOneY, bDashed);
}
}
nPosX = nNextX;
}
}
else
{
aGrid.AddHorLine(bWorksInPixels, nScrX, nScrX+nScrW-nOneX, nPosY-nOneY, bDashed);
}
}
}
}
}
void ScOutputData::SetPagebreakMode( ScPageBreakData* pPageData )
{
bPagebreakMode = true;
if (!pPageData)
return; // not yet initialized -> everything "not printed"
// mark printed range
// (everything in FillInfo is already initialized to sal_False)
sal_uInt16 nRangeCount = sal::static_int_cast<sal_uInt16>(pPageData->GetCount());
for (sal_uInt16 nPos=0; nPos<nRangeCount; nPos++)
{
ScRange aRange = pPageData->GetData( nPos ).GetPrintRange();
SCCOL nStartX = std::max( aRange.aStart.Col(), nX1 );
SCCOL nEndX = std::min( aRange.aEnd.Col(), nX2 );
SCROW nStartY = std::max( aRange.aStart.Row(), nY1 );
SCROW nEndY = std::min( aRange.aEnd.Row(), nY2 );
for (SCSIZE nArrY=1; nArrY+1<nArrCount; nArrY++)
{
RowInfo* pThisRowInfo = &pRowInfo[nArrY];
if ( pThisRowInfo->bChanged && pThisRowInfo->nRowNo >= nStartY &&
pThisRowInfo->nRowNo <= nEndY )
{
for (SCCOL nX=nStartX; nX<=nEndX; nX++)
pThisRowInfo->pCellInfo[nX+1].bPrinted = true;
}
}
}
}
void ScOutputData::SetCellRotations()
{
//! save nRotMax
SCCOL nRotMax = nX2;
for (SCSIZE nRotY=0; nRotY<nArrCount; nRotY++)
if (pRowInfo[nRotY].nRotMaxCol != SC_ROTMAX_NONE && pRowInfo[nRotY].nRotMaxCol > nRotMax)
nRotMax = pRowInfo[nRotY].nRotMaxCol;
for (SCSIZE nArrY=1; nArrY<nArrCount; nArrY++)
{
RowInfo* pThisRowInfo = &pRowInfo[nArrY];
if ( pThisRowInfo->nRotMaxCol != SC_ROTMAX_NONE &&
( pThisRowInfo->bChanged || pRowInfo[nArrY-1].bChanged ||
( nArrY+1<nArrCount && pRowInfo[nArrY+1].bChanged ) ) )
{
SCROW nY = pThisRowInfo->nRowNo;
for (SCCOL nX=0; nX<=nRotMax; nX++)
{
CellInfo* pInfo = &pThisRowInfo->pCellInfo[nX+1];
const ScPatternAttr* pPattern = pInfo->pPatternAttr;
const SfxItemSet* pCondSet = pInfo->pConditionSet;
if ( !pPattern && !mpDoc->ColHidden(nX, nTab) )
{
pPattern = mpDoc->GetPattern( nX, nY, nTab );
pCondSet = mpDoc->GetCondResult( nX, nY, nTab );
}
if ( pPattern ) // column isn't hidden
{
ScRotateDir nDir = pPattern->GetRotateDir( pCondSet );
if (nDir != ScRotateDir::NONE)
{
// Needed for CellInfo internal decisions (bg fill, ...)
pInfo->nRotateDir = nDir;
// create target coordinates
const SCCOL nTargetX(nX - nVisX1 + 1);
const SCROW nTargetY(nY - nVisY1 + 1);
// Check for values - below in SetCellRotation these will
// be converted to size_t and thus may not be negative
if(nTargetX >= 0 && nTargetY >= 0)
{
// add rotation info to Array information
const long nAttrRotate(pPattern->GetRotateVal(pCondSet));
const SvxRotateMode eRotMode(pPattern->GetItem(ATTR_ROTATE_MODE, pCondSet).GetValue());
const double fOrient((bLayoutRTL ? -1.0 : 1.0) * nAttrRotate * F_PI18000); // 1/100th degrees -> [0..2PI]
svx::frame::Array& rArray = mrTabInfo.maArray;
rArray.SetCellRotation(nTargetX, nTargetY, eRotMode, fOrient);
}
}
}
}
}
}
}
static ScRotateDir lcl_GetRotateDir( const ScDocument* pDoc, SCCOL nCol, SCROW nRow, SCTAB nTab )
{
const ScPatternAttr* pPattern = pDoc->GetPattern( nCol, nRow, nTab );
const SfxItemSet* pCondSet = pDoc->GetCondResult( nCol, nRow, nTab );
ScRotateDir nRet = ScRotateDir::NONE;
long nAttrRotate = pPattern->GetRotateVal( pCondSet );
if ( nAttrRotate )
{
SvxRotateMode eRotMode =
pPattern->GetItem(ATTR_ROTATE_MODE, pCondSet).GetValue();
if ( eRotMode == SVX_ROTATE_MODE_STANDARD )
nRet = ScRotateDir::Standard;
else if ( eRotMode == SVX_ROTATE_MODE_CENTER )
nRet = ScRotateDir::Center;
else if ( eRotMode == SVX_ROTATE_MODE_TOP || eRotMode == SVX_ROTATE_MODE_BOTTOM )
{
long nRot180 = nAttrRotate % 18000; // 1/100 degree
if ( nRot180 == 9000 )
nRet = ScRotateDir::Center;
else if ( ( eRotMode == SVX_ROTATE_MODE_TOP && nRot180 < 9000 ) ||
( eRotMode == SVX_ROTATE_MODE_BOTTOM && nRot180 > 9000 ) )
nRet = ScRotateDir::Left;
else
nRet = ScRotateDir::Right;
}
}
return nRet;
}
static const SvxBrushItem* lcl_FindBackground( const ScDocument* pDoc, SCCOL nCol, SCROW nRow, SCTAB nTab )
{
const ScPatternAttr* pPattern = pDoc->GetPattern( nCol, nRow, nTab );
const SfxItemSet* pCondSet = pDoc->GetCondResult( nCol, nRow, nTab );
const SvxBrushItem* pBackground =
&pPattern->GetItem( ATTR_BACKGROUND, pCondSet );
ScRotateDir nDir = lcl_GetRotateDir( pDoc, nCol, nRow, nTab );
// treat CENTER like RIGHT
if ( nDir == ScRotateDir::Right || nDir == ScRotateDir::Center )
{
// text goes to the right -> take background from the left
while ( nCol > 0 && lcl_GetRotateDir( pDoc, nCol, nRow, nTab ) == nDir &&
pBackground->GetColor().GetTransparency() != 255 )
{
--nCol;
pPattern = pDoc->GetPattern( nCol, nRow, nTab );
pCondSet = pDoc->GetCondResult( nCol, nRow, nTab );
pBackground = &pPattern->GetItem( ATTR_BACKGROUND, pCondSet );
}
}
else if ( nDir == ScRotateDir::Left )
{
// text goes to the left -> take background from the right
while ( nCol < MAXCOL && lcl_GetRotateDir( pDoc, nCol, nRow, nTab ) == nDir &&
pBackground->GetColor().GetTransparency() != 255 )
{
++nCol;
pPattern = pDoc->GetPattern( nCol, nRow, nTab );
pCondSet = pDoc->GetCondResult( nCol, nRow, nTab );
pBackground = &pPattern->GetItem( ATTR_BACKGROUND, pCondSet );
}
}
return pBackground;
}
static bool lcl_EqualBack( const RowInfo& rFirst, const RowInfo& rOther,
SCCOL nX1, SCCOL nX2, bool bShowProt, bool bPagebreakMode )
{
if ( rFirst.bChanged != rOther.bChanged ||
rFirst.bEmptyBack != rOther.bEmptyBack )
return false;
SCCOL nX;
if ( bShowProt )
{
for ( nX=nX1; nX<=nX2; nX++ )
{
const ScPatternAttr* pPat1 = rFirst.pCellInfo[nX+1].pPatternAttr;
const ScPatternAttr* pPat2 = rOther.pCellInfo[nX+1].pPatternAttr;
if ( !pPat1 || !pPat2 ||
&pPat1->GetItem(ATTR_PROTECTION) != &pPat2->GetItem(ATTR_PROTECTION) )
return false;
}
}
else
{
for ( nX=nX1; nX<=nX2; nX++ )
if ( rFirst.pCellInfo[nX+1].pBackground != rOther.pCellInfo[nX+1].pBackground )
return false;
}
if ( rFirst.nRotMaxCol != SC_ROTMAX_NONE || rOther.nRotMaxCol != SC_ROTMAX_NONE )
for ( nX=nX1; nX<=nX2; nX++ )
if ( rFirst.pCellInfo[nX+1].nRotateDir != rOther.pCellInfo[nX+1].nRotateDir )
return false;
if ( bPagebreakMode )
for ( nX=nX1; nX<=nX2; nX++ )
if ( rFirst.pCellInfo[nX+1].bPrinted != rOther.pCellInfo[nX+1].bPrinted )
return false;
for ( nX=nX1; nX<=nX2; nX++ )
{
const Color* pCol1 = rFirst.pCellInfo[nX+1].pColorScale.get();
const Color* pCol2 = rOther.pCellInfo[nX+1].pColorScale.get();
if( (pCol1 && !pCol2) || (!pCol1 && pCol2) )
return false;
if (pCol1 && (*pCol1 != *pCol2))
return false;
const ScDataBarInfo* pInfo1 = rFirst.pCellInfo[nX+1].pDataBar.get();
const ScDataBarInfo* pInfo2 = rOther.pCellInfo[nX+1].pDataBar.get();
if( (pInfo1 && !pInfo2) || (!pInfo1 && pInfo2) )
return false;
if (pInfo1 && (*pInfo1 != *pInfo2))
return false;
// each cell with an icon set should be painted the same way
const ScIconSetInfo* pIconSet1 = rFirst.pCellInfo[nX+1].pIconSet.get();
const ScIconSetInfo* pIconSet2 = rOther.pCellInfo[nX+1].pIconSet.get();
if(pIconSet1 || pIconSet2)
return false;
}
return true;
}
void ScOutputData::DrawDocumentBackground()
{
if ( !bSolidBackground )
return;
Color aBgColor( SC_MOD()->GetColorConfig().GetColorValue(svtools::DOCCOLOR).nColor );
mpDev->SetLineColor(aBgColor);
mpDev->SetFillColor(aBgColor);
Point aScreenPos = mpDev->PixelToLogic(Point(nScrX, nScrY));
Size aScreenSize = mpDev->PixelToLogic(Size(nScrW - 1,nScrH - 1));
mpDev->DrawRect(tools::Rectangle(aScreenPos, aScreenSize));
}
namespace {
static const double lclCornerRectTransparency = 40.0;
void drawDataBars(vcl::RenderContext& rRenderContext, const ScDataBarInfo* pOldDataBarInfo, const tools::Rectangle& rRect, long nOneX, long nOneY)
{
long nPosZero = 0;
tools::Rectangle aPaintRect = rRect;
aPaintRect.AdjustTop(2 * nOneY );
aPaintRect.AdjustBottom( -(2 * nOneY) );
aPaintRect.AdjustLeft( 2 * nOneX );
aPaintRect.AdjustRight( -(2 * nOneX) );
if(pOldDataBarInfo->mnZero)
{
// need to calculate null point in cell
long nLength = aPaintRect.Right() - aPaintRect.Left();
nPosZero = static_cast<long>(aPaintRect.Left() + nLength*pOldDataBarInfo->mnZero/100.0);
}
else
{
nPosZero = aPaintRect.Left();
}
if(pOldDataBarInfo->mnLength < 0)
{
aPaintRect.SetRight( nPosZero );
long nLength = nPosZero - aPaintRect.Left();
aPaintRect.SetLeft( nPosZero + static_cast<long>(nLength * pOldDataBarInfo->mnLength/100.0) );
}
else if(pOldDataBarInfo->mnLength > 0)
{
aPaintRect.SetLeft( nPosZero );
long nLength = aPaintRect.Right() - nPosZero;
aPaintRect.SetRight( nPosZero + static_cast<long>(nLength * pOldDataBarInfo->mnLength/100.0) );
}
else
return;
if(pOldDataBarInfo->mbGradient)
{
rRenderContext.SetLineColor(pOldDataBarInfo->maColor);
Gradient aGradient(GradientStyle::Linear, pOldDataBarInfo->maColor, COL_TRANSPARENT);
aGradient.SetSteps(255);
if(pOldDataBarInfo->mnLength < 0)
aGradient.SetAngle(2700);
else
aGradient.SetAngle(900);
rRenderContext.DrawGradient(aPaintRect, aGradient);
rRenderContext.SetLineColor();
}
else
{
rRenderContext.SetFillColor(pOldDataBarInfo->maColor);
rRenderContext.DrawRect(aPaintRect);
}
//draw axis
if(pOldDataBarInfo->mnZero && pOldDataBarInfo->mnZero != 100)
{
Point aPoint1(nPosZero, rRect.Top());
Point aPoint2(nPosZero, rRect.Bottom());
LineInfo aLineInfo(LineStyle::Dash, 1);
aLineInfo.SetDashCount( 4 );
aLineInfo.SetDistance( 3 );
aLineInfo.SetDashLen( 3 );
rRenderContext.SetFillColor(pOldDataBarInfo->maAxisColor);
rRenderContext.SetLineColor(pOldDataBarInfo->maAxisColor);
rRenderContext.DrawLine(aPoint1, aPoint2, aLineInfo);
rRenderContext.SetLineColor();
rRenderContext.SetFillColor();
}
}
const BitmapEx& getIcon(sc::IconSetBitmapMap & rIconSetBitmapMap, ScIconSetType eType, sal_Int32 nIndex)
{
return ScIconSetFormat::getBitmap(rIconSetBitmapMap, eType, nIndex);
}
void drawIconSets(vcl::RenderContext& rRenderContext, const ScIconSetInfo* pOldIconSetInfo, const tools::Rectangle& rRect, long nOneX, long nOneY,
sc::IconSetBitmapMap & rIconSetBitmapMap)
{
//long nSize = 16;
ScIconSetType eType = pOldIconSetInfo->eIconSetType;
sal_Int32 nIndex = pOldIconSetInfo->nIconIndex;
const BitmapEx& rIcon = getIcon(rIconSetBitmapMap, eType, nIndex);
long aOrigSize = std::max<long>(0,std::min(rRect.GetSize().getWidth() - 4 * nOneX, rRect.GetSize().getHeight() -4 * nOneY));
rRenderContext.DrawBitmapEx( Point( rRect.Left() + 2 * nOneX, rRect.Top() + 2 * nOneY), Size(aOrigSize, aOrigSize), rIcon );
}
void drawCells(vcl::RenderContext& rRenderContext, const Color* pColor, const SvxBrushItem* pBackground, const Color*& pOldColor, const SvxBrushItem*& pOldBackground,
tools::Rectangle& rRect, long nPosX, long nLayoutSign, long nOneX, long nOneY, const ScDataBarInfo* pDataBarInfo, const ScDataBarInfo*& pOldDataBarInfo,
const ScIconSetInfo* pIconSetInfo, const ScIconSetInfo*& pOldIconSetInfo,
sc::IconSetBitmapMap & rIconSetBitmapMap)
{
long nSignedOneX = nOneX * nLayoutSign;
// need to paint if old color scale has been used and now
// we have a different color or a style based background
// we can here fall back to pointer comparison
if (pOldColor && (pBackground || pOldColor != pColor || pOldDataBarInfo || pDataBarInfo || pIconSetInfo || pOldIconSetInfo))
{
rRect.SetRight( nPosX-nSignedOneX );
if( !pOldColor->GetTransparency() )
{
rRenderContext.SetFillColor( *pOldColor );
rRenderContext.DrawRect( rRect );
}
if( pOldDataBarInfo )
drawDataBars(rRenderContext, pOldDataBarInfo, rRect, nOneX, nOneY);
if( pOldIconSetInfo )
drawIconSets(rRenderContext, pOldIconSetInfo, rRect, nOneX, nOneY, rIconSetBitmapMap);
rRect.SetLeft( nPosX - nSignedOneX );
}
if ( pOldBackground && (pColor ||pBackground != pOldBackground || pOldDataBarInfo || pDataBarInfo || pIconSetInfo || pOldIconSetInfo) )
{
rRect.SetRight( nPosX-nSignedOneX );
if (pOldBackground) // ==0 if hidden
{
Color aBackCol = pOldBackground->GetColor();
if ( !aBackCol.GetTransparency() ) //! partial transparency?
{
rRenderContext.SetFillColor( aBackCol );
rRenderContext.DrawRect( rRect );
}
}
if( pOldDataBarInfo )
drawDataBars(rRenderContext, pOldDataBarInfo, rRect, nOneX, nOneY);
if( pOldIconSetInfo )
drawIconSets(rRenderContext, pOldIconSetInfo, rRect, nOneX, nOneY, rIconSetBitmapMap);
rRect.SetLeft( nPosX - nSignedOneX );
}
if (!pOldBackground && !pOldColor && (pDataBarInfo || pIconSetInfo))
{
rRect.SetRight( nPosX -nSignedOneX );
rRect.SetLeft( nPosX - nSignedOneX );
}
if(pColor)
{
// only update pOldColor if the colors changed
if (!pOldColor || *pOldColor != *pColor)
pOldColor = pColor;
pOldBackground = nullptr;
}
else if(pBackground)
{
pOldBackground = pBackground;
pOldColor = nullptr;
}
if(pDataBarInfo)
pOldDataBarInfo = pDataBarInfo;
else
pOldDataBarInfo = nullptr;
if(pIconSetInfo)
pOldIconSetInfo = pIconSetInfo;
else
pOldIconSetInfo = nullptr;
}
}
void ScOutputData::DrawBackground(vcl::RenderContext& rRenderContext)
{
Size aOnePixel = rRenderContext.PixelToLogic(Size(1,1));
long nOneXLogic = aOnePixel.Width();
long nOneYLogic = aOnePixel.Height();
// See more about bWorksInPixels in ScOutputData::DrawGrid
bool bWorksInPixels = false;
if (eType == OUTTYPE_WINDOW)
bWorksInPixels = true;
long nOneX = 1;
long nOneY = 1;
if (!bWorksInPixels)
{
nOneX = nOneXLogic;
nOneY = nOneYLogic;
}
tools::Rectangle aRect;
long nLayoutSign = bLayoutRTL ? -1 : 1;
rRenderContext.SetLineColor();
bool bShowProt = mbSyntaxMode && mpDoc->IsTabProtected(nTab);
bool bDoAll = bShowProt || bPagebreakMode || bSolidBackground;
bool bCellContrast = mbUseStyleColor &&
Application::GetSettings().GetStyleSettings().GetHighContrastMode();
long nPosY = nScrY;
const svtools::ColorConfig& rColorCfg = SC_MOD()->GetColorConfig();
Color aProtectedColor( rColorCfg.GetColorValue( svtools::CALCPROTECTEDBACKGROUND ).nColor );
std::shared_ptr<SvxBrushItem> pProtectedBackground( new SvxBrushItem( aProtectedColor, ATTR_BACKGROUND ) );
// iterate through the rows to show
for (SCSIZE nArrY=1; nArrY+1<nArrCount; nArrY++)
{
RowInfo* pThisRowInfo = &pRowInfo[nArrY];
long nRowHeight = pThisRowInfo->nHeight;
if ( pThisRowInfo->bChanged )
{
if ( ( ( pThisRowInfo->bEmptyBack ) || mbSyntaxMode ) && !bDoAll )
{
// nothing
}
else
{
// scan for rows with the same background:
SCSIZE nSkip = 0;
while ( nArrY+nSkip+2<nArrCount &&
lcl_EqualBack( *pThisRowInfo, pRowInfo[nArrY+nSkip+1],
nX1, nX2, bShowProt, bPagebreakMode ) )
{
++nSkip;
nRowHeight += pRowInfo[nArrY+nSkip].nHeight; // after incrementing
}
long nPosX = nScrX;
if ( bLayoutRTL )
nPosX += nMirrorW - nOneX;
aRect = tools::Rectangle(nPosX, nPosY - nOneY, nPosX, nPosY - nOneY + nRowHeight);
if (bWorksInPixels)
aRect = rRenderContext.PixelToLogic(aRect); // internal data in pixels, but we'll be drawing in logic units
const SvxBrushItem* pOldBackground = nullptr;
const SvxBrushItem* pBackground = nullptr;
const Color* pOldColor = nullptr;
const ScDataBarInfo* pOldDataBarInfo = nullptr;
const ScIconSetInfo* pOldIconSetInfo = nullptr;
SCCOL nMergedCols = 1;
SCCOL nOldMerged = 0;
for (SCCOL nX=nX1; nX + nMergedCols <= nX2 + 1; nX += nOldMerged)
{
CellInfo* pInfo = &pThisRowInfo->pCellInfo[nX+nMergedCols];
nOldMerged = nMergedCols;
if (bCellContrast)
{
// high contrast for cell borders and backgrounds -> empty background
pBackground = ScGlobal::GetEmptyBrushItem();
}
else if (bShowProt) // show cell protection in syntax mode
{
const ScPatternAttr* pP = pInfo->pPatternAttr;
if (pP)
{
const ScProtectionAttr& rProt = pP->GetItem(ATTR_PROTECTION);
if (rProt.GetProtection() || rProt.GetHideCell())
pBackground = pProtectedBackground.get();
else
pBackground = ScGlobal::GetEmptyBrushItem();
}
else
pBackground = nullptr;
}
else
pBackground = pInfo->pBackground;
if ( bPagebreakMode && !pInfo->bPrinted )
pBackground = pProtectedBackground.get();
if ( pInfo->nRotateDir > ScRotateDir::Standard &&
pBackground->GetColor().GetTransparency() != 255 &&
!bCellContrast )
{
SCROW nY = pRowInfo[nArrY].nRowNo;
pBackground = lcl_FindBackground( mpDoc, nX, nY, nTab );
}
const Color* pColor = pInfo->pColorScale.get();
const ScDataBarInfo* pDataBarInfo = pInfo->pDataBar.get();
const ScIconSetInfo* pIconSetInfo = pInfo->pIconSet.get();
long nPosXLogic = nPosX;
if (bWorksInPixels)
nPosXLogic = rRenderContext.PixelToLogic(Point(nPosX, 0)).X();
drawCells(rRenderContext, pColor, pBackground, pOldColor, pOldBackground, aRect, nPosXLogic, nLayoutSign, nOneXLogic, nOneYLogic, pDataBarInfo, pOldDataBarInfo, pIconSetInfo, pOldIconSetInfo, mpDoc->GetIconSetBitmapMap());
// extend for all merged cells
nMergedCols = 1;
if (pInfo->bMerged && pInfo->pPatternAttr)
{
const ScMergeAttr* pMerge =
&pInfo->pPatternAttr->GetItem(ATTR_MERGE);
nMergedCols = std::max<SCCOL>(1, pMerge->GetColMerge());
}
for (SCCOL nMerged = 0; nMerged < nMergedCols; ++nMerged)
{
SCCOL nCol = nX+nOldMerged+nMerged;
if (nCol > nX2+2)
break;
nPosX += pRowInfo[0].pCellInfo[nCol].nWidth * nLayoutSign;
}
}
long nPosXLogic = nPosX;
if (bWorksInPixels)
nPosXLogic = rRenderContext.PixelToLogic(Point(nPosX, 0)).X();
drawCells(rRenderContext, nullptr, nullptr, pOldColor, pOldBackground, aRect, nPosXLogic, nLayoutSign, nOneXLogic, nOneYLogic, nullptr, pOldDataBarInfo, nullptr, pOldIconSetInfo, mpDoc->GetIconSetBitmapMap());
nArrY += nSkip;
}
}
nPosY += nRowHeight;
}
}
void ScOutputData::DrawShadow()
{
DrawExtraShadow( false, false, false, false );
}
void ScOutputData::DrawExtraShadow(bool bLeft, bool bTop, bool bRight, bool bBottom)
{
mpDev->SetLineColor();
const StyleSettings& rStyleSettings = Application::GetSettings().GetStyleSettings();
bool bCellContrast = mbUseStyleColor && rStyleSettings.GetHighContrastMode();
Color aAutoTextColor;
if ( bCellContrast )
aAutoTextColor = SC_MOD()->GetColorConfig().GetColorValue(svtools::FONTCOLOR).nColor;
long nInitPosX = nScrX;
if ( bLayoutRTL )
{
Size aOnePixel = mpDev->PixelToLogic(Size(1,1));
long nOneX = aOnePixel.Width();
nInitPosX += nMirrorW - nOneX;
}
long nLayoutSign = bLayoutRTL ? -1 : 1;
long nPosY = nScrY - pRowInfo[0].nHeight;
for (SCSIZE nArrY=0; nArrY<nArrCount; nArrY++)
{
bool bCornerY = ( nArrY == 0 ) || ( nArrY+1 == nArrCount );
bool bSkipY = ( nArrY==0 && !bTop ) || ( nArrY+1 == nArrCount && !bBottom );
RowInfo* pThisRowInfo = &pRowInfo[nArrY];
long nRowHeight = pThisRowInfo->nHeight;
if ( pThisRowInfo->bChanged && !bSkipY )
{
long nPosX = nInitPosX - pRowInfo[0].pCellInfo[nX1].nWidth * nLayoutSign;
for (SCCOL nArrX=nX1; nArrX<=nX2+2; nArrX++)
{
bool bCornerX = ( nArrX==nX1 || nArrX==nX2+2 );
bool bSkipX = ( nArrX==nX1 && !bLeft ) || ( nArrX==nX2+2 && !bRight );
for (sal_uInt16 nPass=0; nPass<2; nPass++) // horizontal / vertical
{
const SvxShadowItem* pAttr = nPass ?
pThisRowInfo->pCellInfo[nArrX].pVShadowOrigin :
pThisRowInfo->pCellInfo[nArrX].pHShadowOrigin;
if ( pAttr && !bSkipX )
{
ScShadowPart ePart = nPass ?
pThisRowInfo->pCellInfo[nArrX].eVShadowPart :
pThisRowInfo->pCellInfo[nArrX].eHShadowPart;
bool bDo = true;
if ( (nPass==0 && bCornerX) || (nPass==1 && bCornerY) )
if ( ePart != SC_SHADOW_CORNER )
bDo = false;
if (bDo)
{
long nThisWidth = pRowInfo[0].pCellInfo[nArrX].nWidth;
long nMaxWidth = nThisWidth;
if (!nMaxWidth)
{
//! direction must depend on shadow location
SCCOL nWx = nArrX; // nX+1
while (nWx<nX2 && !pRowInfo[0].pCellInfo[nWx+1].nWidth)
++nWx;
nMaxWidth = pRowInfo[0].pCellInfo[nWx+1].nWidth;
}
// rectangle is in logical orientation
tools::Rectangle aRect( nPosX, nPosY,
nPosX + ( nThisWidth - 1 ) * nLayoutSign,
nPosY + pRowInfo[nArrY].nHeight - 1 );
long nSize = pAttr->GetWidth();
long nSizeX = static_cast<long>(nSize*mnPPTX);
if (nSizeX >= nMaxWidth) nSizeX = nMaxWidth-1;
long nSizeY = static_cast<long>(nSize*mnPPTY);
if (nSizeY >= nRowHeight) nSizeY = nRowHeight-1;
nSizeX *= nLayoutSign; // used only to add to rectangle values
SvxShadowLocation eLoc = pAttr->GetLocation();
if ( bLayoutRTL )
{
// Shadow location is specified as "visual" (right is always right),
// so the attribute's location value is mirrored here and in FillInfo.
switch (eLoc)
{
case SvxShadowLocation::BottomRight: eLoc = SvxShadowLocation::BottomLeft; break;
case SvxShadowLocation::BottomLeft: eLoc = SvxShadowLocation::BottomRight; break;
case SvxShadowLocation::TopRight: eLoc = SvxShadowLocation::TopLeft; break;
case SvxShadowLocation::TopLeft: eLoc = SvxShadowLocation::TopRight; break;
default:
{
// added to avoid warnings
}
}
}
if (ePart == SC_SHADOW_HORIZ || ePart == SC_SHADOW_HSTART ||
ePart == SC_SHADOW_CORNER)
{
if (eLoc == SvxShadowLocation::TopLeft || eLoc == SvxShadowLocation::TopRight)
aRect.SetTop( aRect.Bottom() - nSizeY );
else
aRect.SetBottom( aRect.Top() + nSizeY );
}
if (ePart == SC_SHADOW_VERT || ePart == SC_SHADOW_VSTART ||
ePart == SC_SHADOW_CORNER)
{
if (eLoc == SvxShadowLocation::TopLeft || eLoc == SvxShadowLocation::BottomLeft)
aRect.SetLeft( aRect.Right() - nSizeX );
else
aRect.SetRight( aRect.Left() + nSizeX );
}
if (ePart == SC_SHADOW_HSTART)
{
if (eLoc == SvxShadowLocation::TopLeft || eLoc == SvxShadowLocation::BottomLeft)
aRect.AdjustRight( -nSizeX );
else
aRect.AdjustLeft(nSizeX );
}
if (ePart == SC_SHADOW_VSTART)
{
if (eLoc == SvxShadowLocation::TopLeft || eLoc == SvxShadowLocation::TopRight)
aRect.AdjustBottom( -nSizeY );
else
aRect.AdjustTop(nSizeY );
}
//! merge rectangles?
mpDev->SetFillColor( bCellContrast ? aAutoTextColor : pAttr->GetColor() );
mpDev->DrawRect( aRect );
}
}
}
nPosX += pRowInfo[0].pCellInfo[nArrX].nWidth * nLayoutSign;
}
}
nPosY += nRowHeight;
}
}
void ScOutputData::DrawClear()
{
tools::Rectangle aRect;
Size aOnePixel = mpDev->PixelToLogic(Size(1,1));
long nOneX = aOnePixel.Width();
long nOneY = aOnePixel.Height();
// (called only for ScGridWindow)
Color aBgColor( SC_MOD()->GetColorConfig().GetColorValue(svtools::DOCCOLOR).nColor );
if (bMetaFile)
nOneX = nOneY = 0;
mpDev->SetLineColor();
mpDev->SetFillColor( aBgColor );
long nPosY = nScrY;
for (SCSIZE nArrY=1; nArrY+1<nArrCount; nArrY++)
{
RowInfo* pThisRowInfo = &pRowInfo[nArrY];
long nRowHeight = pThisRowInfo->nHeight;
if ( pThisRowInfo->bChanged )
{
// scan for more rows which must be painted:
SCSIZE nSkip = 0;
while ( nArrY+nSkip+2<nArrCount && pRowInfo[nArrY+nSkip+1].bChanged )
{
++nSkip;
nRowHeight += pRowInfo[nArrY+nSkip].nHeight; // after incrementing
}
aRect = tools::Rectangle( Point( nScrX, nPosY ),
Size( nScrW+1-nOneX, nRowHeight+1-nOneY) );
mpDev->DrawRect( aRect );
nArrY += nSkip;
}
nPosY += nRowHeight;
}
}
// Lines
long lclGetSnappedX( const OutputDevice& rDev, long nPosX, bool bSnapPixel )
{
return (bSnapPixel && nPosX) ? rDev.PixelToLogic( rDev.LogicToPixel( Size( nPosX, 0 ) ) ).Width() : nPosX;
}
long lclGetSnappedY( const OutputDevice& rDev, long nPosY, bool bSnapPixel )
{
return (bSnapPixel && nPosY) ? rDev.PixelToLogic( rDev.LogicToPixel( Size( 0, nPosY ) ) ).Height() : nPosY;
}
size_t lclGetArrayColFromCellInfoX( sal_uInt16 nCellInfoX, sal_uInt16 nCellInfoFirstX, sal_uInt16 nCellInfoLastX, bool bRTL )
{
return static_cast< size_t >( bRTL ? (nCellInfoLastX + 2 - nCellInfoX) : (nCellInfoX - nCellInfoFirstX) );
}
void ScOutputData::DrawFrame(vcl::RenderContext& rRenderContext)
{
DrawModeFlags nOldDrawMode = rRenderContext.GetDrawMode();
Color aSingleColor;
bool bUseSingleColor = false;
const StyleSettings& rStyleSettings = Application::GetSettings().GetStyleSettings();
bool bCellContrast = mbUseStyleColor && rStyleSettings.GetHighContrastMode();
// if a Calc OLE object is embedded in Draw/Impress, the VCL DrawMode is used
// for display mode / B&W printing. The VCL DrawMode handling doesn't work for lines
// that are drawn with DrawRect, so if the line/background bits are set, the DrawMode
// must be reset and the border colors handled here.
if ( ( nOldDrawMode & DrawModeFlags::WhiteFill ) && ( nOldDrawMode & DrawModeFlags::BlackLine ) )
{
rRenderContext.SetDrawMode( nOldDrawMode & (~DrawModeFlags::WhiteFill) );
aSingleColor = COL_BLACK;
bUseSingleColor = true;
}
else if ( ( nOldDrawMode & DrawModeFlags::SettingsFill ) && ( nOldDrawMode & DrawModeFlags::SettingsLine ) )
{
rRenderContext.SetDrawMode( nOldDrawMode & (~DrawModeFlags::SettingsFill) );
aSingleColor = rStyleSettings.GetWindowTextColor(); // same as used in VCL for DrawModeFlags::SettingsLine
bUseSingleColor = true;
}
else if ( bCellContrast )
{
aSingleColor = SC_MOD()->GetColorConfig().GetColorValue(svtools::FONTCOLOR).nColor;
bUseSingleColor = true;
}
const Color* pForceColor = bUseSingleColor ? &aSingleColor : nullptr;
if (mrTabInfo.maArray.HasCellRotation())
{
DrawRotatedFrame(rRenderContext); // removes the lines that must not be painted here
}
long nInitPosX = nScrX;
if ( bLayoutRTL )
{
Size aOnePixel = rRenderContext.PixelToLogic(Size(1,1));
long nOneX = aOnePixel.Width();
nInitPosX += nMirrorW - nOneX;
}
long nLayoutSign = bLayoutRTL ? -1 : 1;
// *** set column and row sizes of the frame border array ***
svx::frame::Array& rArray = mrTabInfo.maArray;
size_t nColCount = rArray.GetColCount();
size_t nRowCount = rArray.GetRowCount();
// row heights
// row 0 is not visible (dummy for borders from top) - subtract its height from initial position
// subtract 1 unit more, because position 0 is first *in* cell, grid line is one unit before
long nOldPosY = nScrY - 1 - pRowInfo[ 0 ].nHeight;
long nOldSnapY = lclGetSnappedY( rRenderContext, nOldPosY, bSnapPixel );
rArray.SetYOffset( nOldSnapY );
for( size_t nRow = 0; nRow < nRowCount; ++nRow )
{
long nNewPosY = nOldPosY + pRowInfo[ nRow ].nHeight;
long nNewSnapY = lclGetSnappedY( rRenderContext, nNewPosY, bSnapPixel );
rArray.SetRowHeight( nRow, nNewSnapY - nOldSnapY );
nOldPosY = nNewPosY;
nOldSnapY = nNewSnapY;
}
// column widths
// column nX1 is not visible (dummy for borders from left) - subtract its width from initial position
// subtract 1 unit more, because position 0 is first *in* cell, grid line is one unit above
long nOldPosX = nInitPosX - nLayoutSign * (1 + pRowInfo[ 0 ].pCellInfo[ nX1 ].nWidth);
long nOldSnapX = lclGetSnappedX( rRenderContext, nOldPosX, bSnapPixel );
// set X offset for left-to-right sheets; for right-to-left sheets this is done after for() loop
if( !bLayoutRTL )
rArray.SetXOffset( nOldSnapX );
for( sal_uInt16 nInfoIdx = nX1; nInfoIdx <= nX2 + 2; ++nInfoIdx )
{
size_t nCol = lclGetArrayColFromCellInfoX( nInfoIdx, nX1, nX2, bLayoutRTL );
long nNewPosX = nOldPosX + pRowInfo[ 0 ].pCellInfo[ nInfoIdx ].nWidth * nLayoutSign;
long nNewSnapX = lclGetSnappedX( rRenderContext, nNewPosX, bSnapPixel );
rArray.SetColWidth( nCol, std::abs( nNewSnapX - nOldSnapX ) );
nOldPosX = nNewPosX;
nOldSnapX = nNewSnapX;
}
if( bLayoutRTL )
rArray.SetXOffset( nOldSnapX );
// *** draw the array ***
size_t nFirstCol = 1;
size_t nFirstRow = 1;
size_t nLastCol = nColCount - 2;
size_t nLastRow = nRowCount - 2;
if( mrTabInfo.mbPageMode )
rArray.SetClipRange( nFirstCol, nFirstRow, nLastCol, nLastRow );
// draw only rows with set RowInfo::bChanged flag
size_t nRow1 = nFirstRow;
std::unique_ptr<drawinglayer::processor2d::BaseProcessor2D> pProcessor(CreateProcessor2D());
if (!pProcessor)
return;
drawinglayer::primitive2d::Primitive2DContainer aPrimitives;
while( nRow1 <= nLastRow )
{
while( (nRow1 <= nLastRow) && !pRowInfo[ nRow1 ].bChanged ) ++nRow1;
if( nRow1 <= nLastRow )
{
size_t nRow2 = nRow1;
while( (nRow2 + 1 <= nLastRow) && pRowInfo[ nRow2 + 1 ].bChanged ) ++nRow2;
aPrimitives.append(
rArray.CreateB2DPrimitiveRange(
nFirstCol, nRow1, nLastCol, nRow2, pForceColor ));
nRow1 = nRow2 + 1;
}
}
pProcessor->process(aPrimitives);
pProcessor.reset();
rRenderContext.SetDrawMode(nOldDrawMode);
}
void ScOutputData::DrawRotatedFrame(vcl::RenderContext& rRenderContext)
{
//! save nRotMax
SCCOL nRotMax = nX2;
for (SCSIZE nRotY=0; nRotY<nArrCount; nRotY++)
if (pRowInfo[nRotY].nRotMaxCol != SC_ROTMAX_NONE && pRowInfo[nRotY].nRotMaxCol > nRotMax)
nRotMax = pRowInfo[nRotY].nRotMaxCol;
const ScPatternAttr* pPattern;
const SfxItemSet* pCondSet;
const StyleSettings& rStyleSettings = Application::GetSettings().GetStyleSettings();
bool bCellContrast = mbUseStyleColor && rStyleSettings.GetHighContrastMode();
long nInitPosX = nScrX;
if ( bLayoutRTL )
{
Size aOnePixel = rRenderContext.PixelToLogic(Size(1,1));
long nOneX = aOnePixel.Width();
nInitPosX += nMirrorW - nOneX;
}
long nLayoutSign = bLayoutRTL ? -1 : 1;
tools::Rectangle aClipRect( Point(nScrX, nScrY), Size(nScrW, nScrH) );
if (bMetaFile)
{
rRenderContext.Push();
rRenderContext.IntersectClipRegion( aClipRect );
}
else
rRenderContext.SetClipRegion( vcl::Region( aClipRect ) );
std::unique_ptr<drawinglayer::processor2d::BaseProcessor2D> pProcessor(CreateProcessor2D( ));
long nPosY = nScrY;
for (SCSIZE nArrY=1; nArrY<nArrCount; nArrY++)
{
// Rotated is also drawn one line above/below Changed if parts extend into the cell
RowInfo& rPrevRowInfo = pRowInfo[nArrY-1];
RowInfo& rThisRowInfo = pRowInfo[nArrY];
RowInfo& rNextRowInfo = pRowInfo[nArrY+1];
long nRowHeight = rThisRowInfo.nHeight;
if ( rThisRowInfo.nRotMaxCol != SC_ROTMAX_NONE &&
( rThisRowInfo.bChanged || rPrevRowInfo.bChanged ||
( nArrY+1<nArrCount && rNextRowInfo.bChanged ) ) )
{
SCROW nY = rThisRowInfo.nRowNo;
long nPosX = 0;
SCCOL nX;
for (nX=0; nX<=nRotMax; nX++)
{
if (nX==nX1) nPosX = nInitPosX; // calculated individually for preceding positions
sal_uInt16 nArrX = nX + 1;
CellInfo* pInfo = &rThisRowInfo.pCellInfo[nArrX];
long nColWidth = pRowInfo[0].pCellInfo[nArrX].nWidth;
if ( pInfo->nRotateDir > ScRotateDir::Standard &&
!pInfo->bHOverlapped && !pInfo->bVOverlapped )
{
pPattern = pInfo->pPatternAttr;
pCondSet = pInfo->pConditionSet;
if (!pPattern)
{
pPattern = mpDoc->GetPattern( nX, nY, nTab );
pInfo->pPatternAttr = pPattern;
pCondSet = mpDoc->GetCondResult( nX, nY, nTab );
pInfo->pConditionSet = pCondSet;
}
//! LastPattern etc.
long nAttrRotate = pPattern->GetRotateVal( pCondSet );
SvxRotateMode eRotMode =
pPattern->GetItem(ATTR_ROTATE_MODE, pCondSet).GetValue();
if (nAttrRotate)
{
if (nX < nX1) // compute negative position
{
nPosX = nInitPosX;
SCCOL nCol = nX1;
while (nCol > nX)
{
--nCol;
nPosX -= nLayoutSign * static_cast<long>(pRowInfo[0].pCellInfo[nCol + 1].nWidth);
}
}
// start position minus 1 so rotated backgrounds suit the border
// (border is on the grid)
long nTop = nPosY - 1;
long nBottom = nPosY + nRowHeight - 1;
long nTopLeft = nPosX - nLayoutSign;
long nTopRight = nPosX + (nColWidth - 1) * nLayoutSign;
long nBotLeft = nTopLeft;
long nBotRight = nTopRight;
// inclusion of the sign here hasn't been decided yet
// (if not, the extension of the non-rotated background must also be changed)
double nRealOrient = nLayoutSign * nAttrRotate * F_PI18000; // 1/100th degrees
double nCos = cos(nRealOrient);
double nSin = sin(nRealOrient);
//! restrict !!!
long nSkew = static_cast<long>(nRowHeight * nCos / nSin);
switch (eRotMode)
{
case SVX_ROTATE_MODE_BOTTOM:
nTopLeft += nSkew;
nTopRight += nSkew;
break;
case SVX_ROTATE_MODE_CENTER:
nSkew /= 2;
nTopLeft += nSkew;
nTopRight += nSkew;
nBotLeft -= nSkew;
nBotRight -= nSkew;
break;
case SVX_ROTATE_MODE_TOP:
nBotLeft -= nSkew;
nBotRight -= nSkew;
break;
default:
{
// added to avoid warnings
}
}
Point aPoints[4];
aPoints[0] = Point(nTopLeft, nTop);
aPoints[1] = Point(nTopRight, nTop);
aPoints[2] = Point(nBotRight, nBottom);
aPoints[3] = Point(nBotLeft, nBottom);
const SvxBrushItem* pBackground = pInfo->pBackground;
if (!pBackground)
pBackground = &pPattern->GetItem(ATTR_BACKGROUND, pCondSet);
if (bCellContrast)
{
// high contrast for cell borders and backgrounds -> empty background
pBackground = ScGlobal::GetEmptyBrushItem();
}
if (!pInfo->pColorScale)
{
const Color& rColor = pBackground->GetColor();
if (rColor.GetTransparency() != 255)
{
// draw background only for the changed row itself
// (background doesn't extend into other cells).
// For the borders (rotated and normal), clipping should be
// set if the row isn't changed, but at least the borders
// don't cover the cell contents.
if (rThisRowInfo.bChanged)
{
tools::Polygon aPoly(4, aPoints);
// for DrawPolygon, whitout Pen one pixel is left out
// to the right and below...
if (rColor.GetTransparency() == 0)
rRenderContext.SetLineColor(rColor);
else
rRenderContext.SetLineColor();
rRenderContext.SetFillColor(rColor);
rRenderContext.DrawPolygon(aPoly);
}
}
}
else
{
tools::Polygon aPoly(4, aPoints);
const Color* pColor = pInfo->pColorScale.get();
// for DrawPolygon, whitout Pen one pixel is left out
// to the right and below...
if (pColor->GetTransparency() == 0)
rRenderContext.SetLineColor(*pColor);
else
rRenderContext.SetLineColor();
rRenderContext.SetFillColor(*pColor);
rRenderContext.DrawPolygon(aPoly);
}
}
}
nPosX += nColWidth * nLayoutSign;
}
}
nPosY += nRowHeight;
}
pProcessor.reset();
if (bMetaFile)
rRenderContext.Pop();
else
rRenderContext.SetClipRegion();
}
std::unique_ptr<drawinglayer::processor2d::BaseProcessor2D> ScOutputData::CreateProcessor2D( )
{
mpDoc->InitDrawLayer(mpDoc->GetDocumentShell());
ScDrawLayer* pDrawLayer = mpDoc->GetDrawLayer();
if (!pDrawLayer)
return nullptr;
basegfx::B2DRange aViewRange;
SdrPage *pDrawPage = pDrawLayer->GetPage( static_cast< sal_uInt16 >( nTab ) );
const drawinglayer::geometry::ViewInformation2D aNewViewInfos(
basegfx::B2DHomMatrix( ),
mpDev->GetViewTransformation(),
aViewRange,
GetXDrawPageForSdrPage( pDrawPage ),
0.0,
uno::Sequence< beans::PropertyValue >() );
return drawinglayer::processor2d::createBaseProcessor2DFromOutputDevice(
*mpDev, aNewViewInfos );
}
// Printer
vcl::Region ScOutputData::GetChangedAreaRegion()
{
vcl::Region aRegion;
tools::Rectangle aDrawingRect;
bool bHad(false);
long nPosY = nScrY;
SCSIZE nArrY;
aDrawingRect.SetLeft( nScrX );
aDrawingRect.SetRight( nScrX+nScrW-1 );
for(nArrY=1; nArrY+1<nArrCount; nArrY++)
{
RowInfo* pThisRowInfo = &pRowInfo[nArrY];
if(pThisRowInfo->bChanged)
{
if(!bHad)
{
aDrawingRect.SetTop( nPosY );
bHad = true;
}
aDrawingRect.SetBottom( nPosY + pRowInfo[nArrY].nHeight - 1 );
}
else if(bHad)
{
aRegion.Union(mpDev->PixelToLogic(aDrawingRect));
bHad = false;
}
nPosY += pRowInfo[nArrY].nHeight;
}
if(bHad)
{
aRegion.Union(mpDev->PixelToLogic(aDrawingRect));
}
return aRegion;
}
bool ScOutputData::SetChangedClip()
{
tools::PolyPolygon aPoly;
tools::Rectangle aDrawingRect;
aDrawingRect.SetLeft( nScrX );
aDrawingRect.SetRight( nScrX+nScrW-1 );
bool bHad = false;
long nPosY = nScrY;
SCSIZE nArrY;
for (nArrY=1; nArrY+1<nArrCount; nArrY++)
{
RowInfo* pThisRowInfo = &pRowInfo[nArrY];
if ( pThisRowInfo->bChanged )
{
if (!bHad)
{
aDrawingRect.SetTop( nPosY );
bHad = true;
}
aDrawingRect.SetBottom( nPosY + pRowInfo[nArrY].nHeight - 1 );
}
else if (bHad)
{
aPoly.Insert( tools::Polygon( mpDev->PixelToLogic(aDrawingRect) ) );
bHad = false;
}
nPosY += pRowInfo[nArrY].nHeight;
}
if (bHad)
aPoly.Insert( tools::Polygon( mpDev->PixelToLogic(aDrawingRect) ) );
bool bRet = (aPoly.Count() != 0);
if (bRet)
mpDev->SetClipRegion(vcl::Region(aPoly));
return bRet;
}
void ScOutputData::FindChanged()
{
SCCOL nX;
SCSIZE nArrY;
bool bWasIdleEnabled = mpDoc->IsIdleEnabled();
mpDoc->EnableIdle(false);
for (nArrY=0; nArrY<nArrCount; nArrY++)
pRowInfo[nArrY].bChanged = false;
bool bProgress = false;
for (nArrY=0; nArrY<nArrCount; nArrY++)
{
RowInfo* pThisRowInfo = &pRowInfo[nArrY];
for (nX=nX1; nX<=nX2; nX++)
{
const ScRefCellValue& rCell = pThisRowInfo->pCellInfo[nX+1].maCell;
if (rCell.meType != CELLTYPE_FORMULA)
continue;
ScFormulaCell* pFCell = rCell.mpFormula;
if ( !bProgress && pFCell->GetDirty() )
{
ScProgress::CreateInterpretProgress(mpDoc);
bProgress = true;
}
if (pFCell->IsRunning())
// still being interpreted. Skip it.
continue;
(void)pFCell->GetValue();
if (!pFCell->IsChanged())
// the result hasn't changed. Skip it.
continue;
pThisRowInfo->bChanged = true;
if ( pThisRowInfo->pCellInfo[nX+1].bMerged )
{
SCSIZE nOverY = nArrY + 1;
while ( nOverY<nArrCount &&
pRowInfo[nOverY].pCellInfo[nX+1].bVOverlapped )
{
pRowInfo[nOverY].bChanged = true;
++nOverY;
}
}
}
}
if ( bProgress )
ScProgress::DeleteInterpretProgress();
mpDoc->EnableIdle(bWasIdleEnabled);
}
void ScOutputData::DrawRefMark( SCCOL nRefStartX, SCROW nRefStartY,
SCCOL nRefEndX, SCROW nRefEndY,
const Color& rColor, bool bHandle )
{
PutInOrder( nRefStartX, nRefEndX );
PutInOrder( nRefStartY, nRefEndY );
if ( nRefStartX == nRefEndX && nRefStartY == nRefEndY )
mpDoc->ExtendMerge( nRefStartX, nRefStartY, nRefEndX, nRefEndY, nTab );
if ( nRefStartX <= nVisX2 && nRefEndX >= nVisX1 &&
nRefStartY <= nVisY2 && nRefEndY >= nVisY1 )
{
long nMinX = nScrX;
long nMinY = nScrY;
long nMaxX = nScrX + nScrW - 1;
long nMaxY = nScrY + nScrH - 1;
if ( bLayoutRTL )
{
long nTemp = nMinX;
nMinX = nMaxX;
nMaxX = nTemp;
}
long nLayoutSign = bLayoutRTL ? -1 : 1;
bool bTop = false;
bool bBottom = false;
bool bLeft = false;
bool bRight = false;
long nPosY = nScrY;
bool bNoStartY = ( nY1 < nRefStartY );
bool bNoEndY = false;
for (SCSIZE nArrY=1; nArrY<nArrCount; nArrY++) // loop to end for bNoEndY check
{
SCROW nY = pRowInfo[nArrY].nRowNo;
if ( nY==nRefStartY || (nY>nRefStartY && bNoStartY) )
{
nMinY = nPosY;
bTop = true;
}
if ( nY==nRefEndY )
{
nMaxY = nPosY + pRowInfo[nArrY].nHeight - 2;
bBottom = true;
}
if ( nY>nRefEndY && bNoEndY )
{
nMaxY = nPosY-2;
bBottom = true;
}
bNoStartY = ( nY < nRefStartY );
bNoEndY = ( nY < nRefEndY );
nPosY += pRowInfo[nArrY].nHeight;
}
long nPosX = nScrX;
if ( bLayoutRTL )
nPosX += nMirrorW - 1; // always in pixels
for (SCCOL nX=nX1; nX<=nX2; nX++)
{
if ( nX==nRefStartX )
{
nMinX = nPosX;
bLeft = true;
}
if ( nX==nRefEndX )
{
nMaxX = nPosX + ( pRowInfo[0].pCellInfo[nX+1].nWidth - 2 ) * nLayoutSign;
bRight = true;
}
nPosX += pRowInfo[0].pCellInfo[nX+1].nWidth * nLayoutSign;
}
if ( nMaxX * nLayoutSign >= nMinX * nLayoutSign &&
nMaxY >= nMinY )
{
mpDev->SetLineColor( rColor );
if (bTop && bBottom && bLeft && bRight)
{
mpDev->SetFillColor();
mpDev->DrawRect( tools::Rectangle( nMinX, nMinY, nMaxX, nMaxY ) );
}
else
{
if (bTop)
mpDev->DrawLine( Point( nMinX, nMinY ), Point( nMaxX, nMinY ) );
if (bBottom)
mpDev->DrawLine( Point( nMinX, nMaxY ), Point( nMaxX, nMaxY ) );
if (bLeft)
mpDev->DrawLine( Point( nMinX, nMinY ), Point( nMinX, nMaxY ) );
if (bRight)
mpDev->DrawLine( Point( nMaxX, nMinY ), Point( nMaxX, nMaxY ) );
}
if ( bHandle && bRight && bBottom )
{
mpDev->SetLineColor( rColor );
mpDev->SetFillColor( rColor );
const sal_Int32 aRadius = 4;
sal_Int32 aRectMaxX1 = nMaxX - nLayoutSign * aRadius;
sal_Int32 aRectMaxX2 = nMaxX + nLayoutSign;
sal_Int32 aRectMinX1 = nMinX - nLayoutSign;
sal_Int32 aRectMinX2 = nMinX + nLayoutSign * aRadius;
sal_Int32 aRectMaxY1 = nMaxY - aRadius;
sal_Int32 aRectMaxY2 = nMaxY + 1;
sal_Int32 aRectMinY1 = nMinY - 1;
sal_Int32 aRectMinY2 = nMinY + aRadius;
// Draw corner rectangles
tools::Rectangle aLowerRight( aRectMaxX1, aRectMaxY1, aRectMaxX2, aRectMaxY2 );
tools::Rectangle aUpperLeft ( aRectMinX1, aRectMinY1, aRectMinX2, aRectMinY2 );
tools::Rectangle aLowerLeft ( aRectMinX1, aRectMaxY1, aRectMinX2, aRectMaxY2 );
tools::Rectangle aUpperRight( aRectMaxX1, aRectMinY1, aRectMaxX2, aRectMinY2 );
mpDev->DrawTransparent( tools::PolyPolygon( tools::Polygon( aLowerRight ) ), lclCornerRectTransparency );
mpDev->DrawTransparent( tools::PolyPolygon( tools::Polygon( aUpperLeft ) ), lclCornerRectTransparency );
mpDev->DrawTransparent( tools::PolyPolygon( tools::Polygon( aLowerLeft ) ), lclCornerRectTransparency );
mpDev->DrawTransparent( tools::PolyPolygon( tools::Polygon( aUpperRight ) ), lclCornerRectTransparency );
}
}
}
}
void ScOutputData::DrawOneChange( SCCOL nRefStartX, SCROW nRefStartY,
SCCOL nRefEndX, SCROW nRefEndY,
const Color& rColor, sal_uInt16 nType )
{
PutInOrder( nRefStartX, nRefEndX );
PutInOrder( nRefStartY, nRefEndY );
if ( nRefStartX == nRefEndX && nRefStartY == nRefEndY )
mpDoc->ExtendMerge( nRefStartX, nRefStartY, nRefEndX, nRefEndY, nTab );
if ( nRefStartX <= nVisX2 + 1 && nRefEndX >= nVisX1 &&
nRefStartY <= nVisY2 + 1 && nRefEndY >= nVisY1 ) // +1 because it touches next cells left/top
{
long nMinX = nScrX;
long nMinY = nScrY;
long nMaxX = nScrX+nScrW-1;
long nMaxY = nScrY+nScrH-1;
if ( bLayoutRTL )
{
long nTemp = nMinX;
nMinX = nMaxX;
nMaxX = nTemp;
}
long nLayoutSign = bLayoutRTL ? -1 : 1;
bool bTop = false;
bool bBottom = false;
bool bLeft = false;
bool bRight = false;
long nPosY = nScrY;
bool bNoStartY = ( nY1 < nRefStartY );
bool bNoEndY = false;
for (SCSIZE nArrY=1; nArrY<nArrCount; nArrY++) // loop to end for bNoEndY check
{
SCROW nY = pRowInfo[nArrY].nRowNo;
if ( nY==nRefStartY || (nY>nRefStartY && bNoStartY) )
{
nMinY = nPosY - 1;
bTop = true;
}
if ( nY==nRefEndY )
{
nMaxY = nPosY + pRowInfo[nArrY].nHeight - 1;
bBottom = true;
}
if ( nY>nRefEndY && bNoEndY )
{
nMaxY = nPosY - 1;
bBottom = true;
}
bNoStartY = ( nY < nRefStartY );
bNoEndY = ( nY < nRefEndY );
nPosY += pRowInfo[nArrY].nHeight;
}
long nPosX = nScrX;
if ( bLayoutRTL )
nPosX += nMirrorW - 1; // always in pixels
for (SCCOL nX=nX1; nX<=nX2+1; nX++)
{
if ( nX==nRefStartX )
{
nMinX = nPosX - nLayoutSign;
bLeft = true;
}
if ( nX==nRefEndX )
{
nMaxX = nPosX + ( pRowInfo[0].pCellInfo[nX+1].nWidth - 1 ) * nLayoutSign;
bRight = true;
}
nPosX += pRowInfo[0].pCellInfo[nX+1].nWidth * nLayoutSign;
}
if ( nMaxX * nLayoutSign >= nMinX * nLayoutSign &&
nMaxY >= nMinY )
{
if ( nType == SC_CAT_DELETE_ROWS )
bLeft = bRight = bBottom = false; //! thick lines???
else if ( nType == SC_CAT_DELETE_COLS )
bTop = bBottom = bRight = false; //! thick lines???
mpDev->SetLineColor( rColor );
if (bTop && bBottom && bLeft && bRight)
{
mpDev->SetFillColor();
mpDev->DrawRect( tools::Rectangle( nMinX, nMinY, nMaxX, nMaxY ) );
}
else
{
if (bTop)
{
mpDev->DrawLine( Point( nMinX,nMinY ), Point( nMaxX,nMinY ) );
if ( nType == SC_CAT_DELETE_ROWS )
mpDev->DrawLine( Point( nMinX,nMinY+1 ), Point( nMaxX,nMinY+1 ) );
}
if (bBottom)
mpDev->DrawLine( Point( nMinX,nMaxY ), Point( nMaxX,nMaxY ) );
if (bLeft)
{
mpDev->DrawLine( Point( nMinX,nMinY ), Point( nMinX,nMaxY ) );
if ( nType == SC_CAT_DELETE_COLS )
mpDev->DrawLine( Point( nMinX+nLayoutSign,nMinY ), Point( nMinX+nLayoutSign,nMaxY ) );
}
if (bRight)
mpDev->DrawLine( Point( nMaxX,nMinY ), Point( nMaxX,nMaxY ) );
}
if ( bLeft && bTop )
{
mpDev->SetLineColor();
mpDev->SetFillColor( rColor );
mpDev->DrawRect( tools::Rectangle( nMinX+nLayoutSign, nMinY+1, nMinX+3*nLayoutSign, nMinY+3 ) );
}
}
}
}
void ScOutputData::DrawChangeTrack()
{
ScChangeTrack* pTrack = mpDoc->GetChangeTrack();
ScChangeViewSettings* pSettings = mpDoc->GetChangeViewSettings();
if ( !pTrack || !pTrack->GetFirst() || !pSettings || !pSettings->ShowChanges() )
return; // nothing there or hidden
ScActionColorChanger aColorChanger(*pTrack);
// clipping happens from the outside
//! without clipping, only paint affected cells ??!??!?
SCCOL nEndX = nX2;
SCROW nEndY = nY2;
if ( nEndX < MAXCOL ) ++nEndX; // also from the next cell since the mark
if ( nEndY < MAXROW ) ++nEndY; // protrudes from the preceding cell
ScRange aViewRange( nX1, nY1, nTab, nEndX, nEndY, nTab );
const ScChangeAction* pAction = pTrack->GetFirst();
while (pAction)
{
ScChangeActionType eActionType;
if ( pAction->IsVisible() )
{
eActionType = pAction->GetType();
const ScBigRange& rBig = pAction->GetBigRange();
if ( rBig.aStart.Tab() == nTab )
{
ScRange aRange = rBig.MakeRange();
if ( eActionType == SC_CAT_DELETE_ROWS )
aRange.aEnd.SetRow( aRange.aStart.Row() );
else if ( eActionType == SC_CAT_DELETE_COLS )
aRange.aEnd.SetCol( aRange.aStart.Col() );
if ( aRange.Intersects( aViewRange ) &&
ScViewUtil::IsActionShown( *pAction, *pSettings, *mpDoc ) )
{
aColorChanger.Update( *pAction );
Color aColor( aColorChanger.GetColor() );
DrawOneChange( aRange.aStart.Col(), aRange.aStart.Row(),
aRange.aEnd.Col(), aRange.aEnd.Row(), aColor, sal::static_int_cast<sal_uInt16>(eActionType) );
}
}
if ( eActionType == SC_CAT_MOVE &&
static_cast<const ScChangeActionMove*>(pAction)->
GetFromRange().aStart.Tab() == nTab )
{
ScRange aRange = static_cast<const ScChangeActionMove*>(pAction)->
GetFromRange().MakeRange();
if ( aRange.Intersects( aViewRange ) &&
ScViewUtil::IsActionShown( *pAction, *pSettings, *mpDoc ) )
{
aColorChanger.Update( *pAction );
Color aColor( aColorChanger.GetColor() );
DrawOneChange( aRange.aStart.Col(), aRange.aStart.Row(),
aRange.aEnd.Col(), aRange.aEnd.Row(), aColor, sal::static_int_cast<sal_uInt16>(eActionType) );
}
}
}
pAction = pAction->GetNext();
}
}
//TODO: moggi Need to check if this can't be written simpler
void ScOutputData::DrawNoteMarks(vcl::RenderContext& rRenderContext)
{
bool bFirst = true;
long nInitPosX = nScrX;
if ( bLayoutRTL )
nInitPosX += nMirrorW - 1; // always in pixels
long nLayoutSign = bLayoutRTL ? -1 : 1;
long nPosY = nScrY;
for (SCSIZE nArrY=1; nArrY+1<nArrCount; nArrY++)
{
RowInfo* pThisRowInfo = &pRowInfo[nArrY];
if ( pThisRowInfo->bChanged )
{
long nPosX = nInitPosX;
for (SCCOL nX=nX1; nX<=nX2; nX++)
{
CellInfo* pInfo = &pThisRowInfo->pCellInfo[nX+1];
bool bIsMerged = false;
if ( nX==nX1 && pInfo->bHOverlapped && !pInfo->bVOverlapped )
{
// find start of merged cell
bIsMerged = true;
SCROW nY = pRowInfo[nArrY].nRowNo;
SCCOL nMergeX = nX;
SCROW nMergeY = nY;
mpDoc->ExtendOverlapped( nMergeX, nMergeY, nX, nY, nTab );
// use origin's pCell for NotePtr test below
}
if ( mpDoc->GetNote(nX, pRowInfo[nArrY].nRowNo, nTab) && ( bIsMerged ||
( !pInfo->bHOverlapped && !pInfo->bVOverlapped ) ) )
{
if (bFirst)
{
rRenderContext.SetLineColor(COL_WHITE);
const StyleSettings& rStyleSettings = Application::GetSettings().GetStyleSettings();
if ( mbUseStyleColor && rStyleSettings.GetHighContrastMode() )
rRenderContext.SetFillColor( SC_MOD()->GetColorConfig().GetColorValue(svtools::FONTCOLOR).nColor );
else
rRenderContext.SetFillColor(COL_LIGHTRED);
bFirst = false;
}
long nMarkX = nPosX + ( pRowInfo[0].pCellInfo[nX+1].nWidth - 4 ) * nLayoutSign;
if ( bIsMerged || pInfo->bMerged )
{
// if merged, add widths of all cells
SCCOL nNextX = nX + 1;
while ( nNextX <= nX2 + 1 && pThisRowInfo->pCellInfo[nNextX+1].bHOverlapped )
{
nMarkX += pRowInfo[0].pCellInfo[nNextX+1].nWidth * nLayoutSign;
++nNextX;
}
}
if ( bLayoutRTL ? ( nMarkX >= 0 ) : ( nMarkX < nScrX+nScrW ) )
rRenderContext.DrawRect( tools::Rectangle( nMarkX-5*nLayoutSign,nPosY,nMarkX+1*nLayoutSign,nPosY+6 ) );
}
nPosX += pRowInfo[0].pCellInfo[nX+1].nWidth * nLayoutSign;
}
}
nPosY += pThisRowInfo->nHeight;
}
}
void ScOutputData::AddPDFNotes()
{
vcl::PDFExtOutDevData* pPDFData = dynamic_cast< vcl::PDFExtOutDevData* >( mpDev->GetExtOutDevData() );
if ( !pPDFData || !pPDFData->GetIsExportNotes() )
return;
long nInitPosX = nScrX;
if ( bLayoutRTL )
{
Size aOnePixel = mpDev->PixelToLogic(Size(1,1));
long nOneX = aOnePixel.Width();
nInitPosX += nMirrorW - nOneX;
}
long nLayoutSign = bLayoutRTL ? -1 : 1;
long nPosY = nScrY;
for (SCSIZE nArrY=1; nArrY+1<nArrCount; nArrY++)
{
RowInfo* pThisRowInfo = &pRowInfo[nArrY];
if ( pThisRowInfo->bChanged )
{
long nPosX = nInitPosX;
for (SCCOL nX=nX1; nX<=nX2; nX++)
{
CellInfo* pInfo = &pThisRowInfo->pCellInfo[nX+1];
bool bIsMerged = false;
SCROW nY = pRowInfo[nArrY].nRowNo;
SCCOL nMergeX = nX;
SCROW nMergeY = nY;
if ( nX==nX1 && pInfo->bHOverlapped && !pInfo->bVOverlapped )
{
// find start of merged cell
bIsMerged = true;
mpDoc->ExtendOverlapped( nMergeX, nMergeY, nX, nY, nTab );
// use origin's pCell for NotePtr test below
}
if ( mpDoc->GetNote(nMergeX, nMergeY, nTab) && ( bIsMerged ||
( !pInfo->bHOverlapped && !pInfo->bVOverlapped ) ) )
{
long nNoteWidth = static_cast<long>( SC_CLIPMARK_SIZE * mnPPTX );
long nNoteHeight = static_cast<long>( SC_CLIPMARK_SIZE * mnPPTY );
long nMarkX = nPosX + ( pRowInfo[0].pCellInfo[nX+1].nWidth - nNoteWidth ) * nLayoutSign;
if ( bIsMerged || pInfo->bMerged )
{
// if merged, add widths of all cells
SCCOL nNextX = nX + 1;
while ( nNextX <= nX2 + 1 && pThisRowInfo->pCellInfo[nNextX+1].bHOverlapped )
{
nMarkX += pRowInfo[0].pCellInfo[nNextX+1].nWidth * nLayoutSign;
++nNextX;
}
}
if ( bLayoutRTL ? ( nMarkX >= 0 ) : ( nMarkX < nScrX+nScrW ) )
{
tools::Rectangle aNoteRect( nMarkX, nPosY, nMarkX+nNoteWidth*nLayoutSign, nPosY+nNoteHeight );
const ScPostIt* pNote = mpDoc->GetNote(nMergeX, nMergeY, nTab);
// Note title is the cell address (as on printed note pages)
ScAddress aAddress( nMergeX, nMergeY, nTab );
OUString aTitle(aAddress.Format(ScRefFlags::VALID, mpDoc, mpDoc->GetAddressConvention()));
// Content has to be a simple string without line breaks
OUString aContent = pNote->GetText();
aContent = aContent.replaceAll("\n", " ");
vcl::PDFNote aNote;
aNote.Title = aTitle;
aNote.Contents = aContent;
pPDFData->CreateNote( aNoteRect, aNote );
}
}
nPosX += pRowInfo[0].pCellInfo[nX+1].nWidth * nLayoutSign;
}
}
nPosY += pThisRowInfo->nHeight;
}
}
void ScOutputData::DrawClipMarks()
{
if (!bAnyClipped)
return;
Color aArrowFillCol( COL_LIGHTRED );
DrawModeFlags nOldDrawMode = mpDev->GetDrawMode();
const StyleSettings& rStyleSettings = Application::GetSettings().GetStyleSettings();
if ( mbUseStyleColor && rStyleSettings.GetHighContrastMode() )
{
// use DrawMode to change the arrow's outline color
mpDev->SetDrawMode( nOldDrawMode | DrawModeFlags::SettingsLine );
// use text color also for the fill color
aArrowFillCol = SC_MOD()->GetColorConfig().GetColorValue(svtools::FONTCOLOR).nColor;
}
long nInitPosX = nScrX;
if ( bLayoutRTL )
nInitPosX += nMirrorW - 1; // always in pixels
long nLayoutSign = bLayoutRTL ? -1 : 1;
tools::Rectangle aCellRect;
long nPosY = nScrY;
for (SCSIZE nArrY=1; nArrY+1<nArrCount; nArrY++)
{
RowInfo* pThisRowInfo = &pRowInfo[nArrY];
if ( pThisRowInfo->bChanged )
{
SCROW nY = pThisRowInfo->nRowNo;
long nPosX = nInitPosX;
for (SCCOL nX=nX1; nX<=nX2; nX++)
{
CellInfo* pInfo = &pThisRowInfo->pCellInfo[nX+1];
if (pInfo->nClipMark != ScClipMark::NONE)
{
if (pInfo->bHOverlapped || pInfo->bVOverlapped)
{
// merge origin may be outside of visible area - use document functions
SCCOL nOverX = nX;
SCROW nOverY = nY;
long nStartPosX = nPosX;
long nStartPosY = nPosY;
while ( nOverX > 0 && ( mpDoc->GetAttr(
nOverX, nOverY, nTab, ATTR_MERGE_FLAG )->GetValue() & ScMF::Hor ) )
{
--nOverX;
nStartPosX -= nLayoutSign * static_cast<long>( mpDoc->GetColWidth(nOverX,nTab) * mnPPTX );
}
while ( nOverY > 0 && ( mpDoc->GetAttr(
nOverX, nOverY, nTab, ATTR_MERGE_FLAG )->GetValue() & ScMF::Ver ) )
{
--nOverY;
nStartPosY -= nLayoutSign * static_cast<long>( mpDoc->GetRowHeight(nOverY,nTab) * mnPPTY );
}
long nOutWidth = static_cast<long>( mpDoc->GetColWidth(nOverX,nTab) * mnPPTX );
long nOutHeight = static_cast<long>( mpDoc->GetRowHeight(nOverY,nTab) * mnPPTY );
const ScMergeAttr* pMerge = mpDoc->GetAttr( nOverX, nOverY, nTab, ATTR_MERGE );
SCCOL nCountX = pMerge->GetColMerge();
for (SCCOL i=1; i<nCountX; i++)
nOutWidth += static_cast<long>( mpDoc->GetColWidth(nOverX+i,nTab) * mnPPTX );
SCROW nCountY = pMerge->GetRowMerge();
nOutHeight += static_cast<long>(mpDoc->GetScaledRowHeight( nOverY+1, nOverY+nCountY-1, nTab, mnPPTY));
if ( bLayoutRTL )
nStartPosX -= nOutWidth - 1;
aCellRect = tools::Rectangle( Point( nStartPosX, nStartPosY ), Size( nOutWidth, nOutHeight ) );
}
else
{
long nOutWidth = pRowInfo[0].pCellInfo[nX+1].nWidth;
long nOutHeight = pThisRowInfo->nHeight;
if ( pInfo->bMerged && pInfo->pPatternAttr )
{
SCCOL nOverX = nX;
SCROW nOverY = nY;
const ScMergeAttr* pMerge =
&pInfo->pPatternAttr->GetItem(ATTR_MERGE);
SCCOL nCountX = pMerge->GetColMerge();
for (SCCOL i=1; i<nCountX; i++)
nOutWidth += static_cast<long>( mpDoc->GetColWidth(nOverX+i,nTab) * mnPPTX );
SCROW nCountY = pMerge->GetRowMerge();
nOutHeight += static_cast<long>(mpDoc->GetScaledRowHeight( nOverY+1, nOverY+nCountY-1, nTab, mnPPTY));
}
long nStartPosX = nPosX;
if ( bLayoutRTL )
nStartPosX -= nOutWidth - 1;
// #i80447# create aCellRect from two points in case nOutWidth is 0
aCellRect = tools::Rectangle( Point( nStartPosX, nPosY ),
Point( nStartPosX+nOutWidth-1, nPosY+nOutHeight-1 ) );
}
aCellRect.AdjustBottom( -1 ); // don't paint over the cell grid
if ( bLayoutRTL )
aCellRect.AdjustLeft(1 );
else
aCellRect.AdjustRight( -1 );
long nMarkPixel = static_cast<long>( SC_CLIPMARK_SIZE * mnPPTX );
Size aMarkSize( nMarkPixel, (nMarkPixel-1)*2 );
if ( pInfo->nClipMark & ( bLayoutRTL ? ScClipMark::Right : ScClipMark::Left ) )
{
// visually left
tools::Rectangle aMarkRect = aCellRect;
aMarkRect.SetRight( aCellRect.Left()+nMarkPixel-1 );
SvxFont::DrawArrow( *mpDev, aMarkRect, aMarkSize, aArrowFillCol, true );
}
if ( pInfo->nClipMark & ( bLayoutRTL ? ScClipMark::Left : ScClipMark::Right ) )
{
// visually right
tools::Rectangle aMarkRect = aCellRect;
aMarkRect.SetLeft( aCellRect.Right()-nMarkPixel+1 );
SvxFont::DrawArrow( *mpDev, aMarkRect, aMarkSize, aArrowFillCol, false );
}
}
nPosX += pRowInfo[0].pCellInfo[nX+1].nWidth * nLayoutSign;
}
}
nPosY += pThisRowInfo->nHeight;
}
mpDev->SetDrawMode(nOldDrawMode);
}
/* vim:set shiftwidth=4 softtabstop=4 expandtab: */
↑ V728 An excessive check can be simplified. The '(A && !B) || (!A && B)' expression is equivalent to the 'bool(A) != bool(B)' expression.
↑ V728 An excessive check can be simplified. The '(A && !B) || (!A && B)' expression is equivalent to the 'bool(A) != bool(B)' expression.
↑ V560 A part of conditional expression is always true: eRotMode == SVX_ROTATE_MODE_BOTTOM.
↑ V560 A part of conditional expression is always true: !bSingle.