office-gobmx/drawinglayer/source/tools/emfphelperdata.cxx
Noel Grandin 8c67e94cf7 loplugin:ostr in drawinglayer
Change-Id: I80d424ca042371f4d2e0a1d6be68683c7bad1784
Reviewed-on: https://gerrit.libreoffice.org/c/core/+/167271
Reviewed-by: Noel Grandin <noel.grandin@collabora.co.uk>
Tested-by: Jenkins
2024-05-08 08:14:58 +02:00

2292 lines
116 KiB
C++

/* -*- 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 "emfpcustomlinecap.hxx"
#include "emfphelperdata.hxx"
#include "emfpbrush.hxx"
#include "emfppen.hxx"
#include "emfppath.hxx"
#include "emfpregion.hxx"
#include "emfpimage.hxx"
#include "emfpimageattributes.hxx"
#include "emfpfont.hxx"
#include "emfpstringformat.hxx"
#include <basegfx/curve/b2dcubicbezier.hxx>
#include <wmfemfhelper.hxx>
#include <drawinglayer/primitive2d/PolygonStrokeArrowPrimitive2D.hxx>
#include <drawinglayer/primitive2d/unifiedtransparenceprimitive2d.hxx>
#include <drawinglayer/primitive2d/PolyPolygonStrokePrimitive2D.hxx>
#include <drawinglayer/primitive2d/PolyPolygonColorPrimitive2D.hxx>
#include <drawinglayer/primitive2d/svggradientprimitive2d.hxx>
#include <drawinglayer/primitive2d/textdecoratedprimitive2d.hxx>
#include <drawinglayer/primitive2d/textlayoutdevice.hxx>
#include <drawinglayer/primitive2d/textprimitive2d.hxx>
#include <drawinglayer/primitive2d/bitmapprimitive2d.hxx>
#include <drawinglayer/primitive2d/metafileprimitive2d.hxx>
#include <drawinglayer/primitive2d/transformprimitive2d.hxx>
#include <drawinglayer/attribute/fontattribute.hxx>
#include <basegfx/color/bcolor.hxx>
#include <basegfx/color/bcolormodifier.hxx>
#include <basegfx/matrix/b2dhommatrixtools.hxx>
#include <basegfx/polygon/b2dpolygonclipper.hxx>
#include <basegfx/polygon/b2dpolygontools.hxx>
#include <basegfx/polygon/b2dpolypolygoncutter.hxx>
#include <sal/log.hxx>
#include <vcl/svapp.hxx>
#include <vcl/settings.hxx>
#include <i18nlangtag/languagetag.hxx>
#include <toolkit/helper/vclunohelper.hxx>
#include <algorithm>
namespace emfplushelper
{
enum
{
WrapModeTile = 0x00000000,
WrapModeTileFlipX = 0x00000001,
WrapModeTileFlipY = 0x00000002,
WrapModeTileFlipXY = 0x00000003,
WrapModeClamp = 0x00000004
};
const char* emfTypeToName(sal_uInt16 type)
{
switch (type)
{
case EmfPlusRecordTypeHeader: return "EmfPlusRecordTypeHeader";
case EmfPlusRecordTypeEndOfFile: return "EmfPlusRecordTypeEndOfFile";
case EmfPlusRecordTypeComment: return "EmfPlusRecordTypeComment";
case EmfPlusRecordTypeGetDC: return "EmfPlusRecordTypeGetDC";
case EmfPlusRecordTypeObject: return "EmfPlusRecordTypeObject";
case EmfPlusRecordTypeFillRects: return "EmfPlusRecordTypeFillRects";
case EmfPlusRecordTypeDrawRects: return "EmfPlusRecordTypeDrawRects";
case EmfPlusRecordTypeFillPolygon: return "EmfPlusRecordTypeFillPolygon";
case EmfPlusRecordTypeDrawLines: return "EmfPlusRecordTypeDrawLines";
case EmfPlusRecordTypeFillClosedCurve: return "EmfPlusRecordTypeFillClosedCurve";
case EmfPlusRecordTypeDrawClosedCurve: return "EmfPlusRecordTypeDrawClosedCurve";
case EmfPlusRecordTypeDrawCurve: return "EmfPlusRecordTypeDrawCurve";
case EmfPlusRecordTypeFillEllipse: return "EmfPlusRecordTypeFillEllipse";
case EmfPlusRecordTypeDrawEllipse: return "EmfPlusRecordTypeDrawEllipse";
case EmfPlusRecordTypeFillPie: return "EmfPlusRecordTypeFillPie";
case EmfPlusRecordTypeDrawPie: return "EmfPlusRecordTypeDrawPie";
case EmfPlusRecordTypeDrawArc: return "EmfPlusRecordTypeDrawArc";
case EmfPlusRecordTypeFillRegion: return "EmfPlusRecordTypeFillRegion";
case EmfPlusRecordTypeFillPath: return "EmfPlusRecordTypeFillPath";
case EmfPlusRecordTypeDrawPath: return "EmfPlusRecordTypeDrawPath";
case EmfPlusRecordTypeDrawBeziers: return "EmfPlusRecordTypeDrawBeziers";
case EmfPlusRecordTypeDrawImage: return "EmfPlusRecordTypeDrawImage";
case EmfPlusRecordTypeDrawImagePoints: return "EmfPlusRecordTypeDrawImagePoints";
case EmfPlusRecordTypeDrawString: return "EmfPlusRecordTypeDrawString";
case EmfPlusRecordTypeSetRenderingOrigin: return "EmfPlusRecordTypeSetRenderingOrigin";
case EmfPlusRecordTypeSetAntiAliasMode: return "EmfPlusRecordTypeSetAntiAliasMode";
case EmfPlusRecordTypeSetTextRenderingHint: return "EmfPlusRecordTypeSetTextRenderingHint";
case EmfPlusRecordTypeSetTextContrast: return "EmfPlusRecordTypeSetTextContrast";
case EmfPlusRecordTypeSetInterpolationMode: return "EmfPlusRecordTypeSetInterpolationMode";
case EmfPlusRecordTypeSetPixelOffsetMode: return "EmfPlusRecordTypeSetPixelOffsetMode";
case EmfPlusRecordTypeSetCompositingQuality: return "EmfPlusRecordTypeSetCompositingQuality";
case EmfPlusRecordTypeSave: return "EmfPlusRecordTypeSave";
case EmfPlusRecordTypeRestore: return "EmfPlusRecordTypeRestore";
case EmfPlusRecordTypeBeginContainer: return "EmfPlusRecordTypeBeginContainer";
case EmfPlusRecordTypeBeginContainerNoParams: return "EmfPlusRecordTypeBeginContainerNoParams";
case EmfPlusRecordTypeEndContainer: return "EmfPlusRecordTypeEndContainer";
case EmfPlusRecordTypeSetWorldTransform: return "EmfPlusRecordTypeSetWorldTransform";
case EmfPlusRecordTypeResetWorldTransform: return "EmfPlusRecordTypeResetWorldTransform";
case EmfPlusRecordTypeMultiplyWorldTransform: return "EmfPlusRecordTypeMultiplyWorldTransform";
case EmfPlusRecordTypeTranslateWorldTransform: return "EmfPlusRecordTypeTranslateWorldTransform";
case EmfPlusRecordTypeScaleWorldTransform: return "EmfPlusRecordTypeScaleWorldTransform";
case EmfPlusRecordTypeSetPageTransform: return "EmfPlusRecordTypeSetPageTransform";
case EmfPlusRecordTypeResetClip: return "EmfPlusRecordTypeResetClip";
case EmfPlusRecordTypeSetClipRect: return "EmfPlusRecordTypeSetClipRect";
case EmfPlusRecordTypeSetClipPath: return "EmfPlusRecordTypeSetClipPath";
case EmfPlusRecordTypeSetClipRegion: return "EmfPlusRecordTypeSetClipRegion";
case EmfPlusRecordTypeOffsetClip: return "EmfPlusRecordTypeOffsetClip";
case EmfPlusRecordTypeDrawDriverString: return "EmfPlusRecordTypeDrawDriverString";
}
return "";
}
static OUString emfObjectToName(sal_uInt16 type)
{
switch (type)
{
case EmfPlusObjectTypeBrush: return u"EmfPlusObjectTypeBrush"_ustr;
case EmfPlusObjectTypePen: return u"EmfPlusObjectTypePen"_ustr;
case EmfPlusObjectTypePath: return u"EmfPlusObjectTypePath"_ustr;
case EmfPlusObjectTypeRegion: return u"EmfPlusObjectTypeRegion"_ustr;
case EmfPlusObjectTypeImage: return u"EmfPlusObjectTypeImage"_ustr;
case EmfPlusObjectTypeFont: return u"EmfPlusObjectTypeFont"_ustr;
case EmfPlusObjectTypeStringFormat: return u"EmfPlusObjectTypeStringFormat"_ustr;
case EmfPlusObjectTypeImageAttributes: return u"EmfPlusObjectTypeImageAttributes"_ustr;
case EmfPlusObjectTypeCustomLineCap: return u"EmfPlusObjectTypeCustomLineCap"_ustr;
}
return u""_ustr;
}
static OUString PixelOffsetModeToString(sal_uInt16 nPixelOffset)
{
switch (nPixelOffset)
{
case PixelOffsetMode::PixelOffsetModeDefault: return u"PixelOffsetModeDefault"_ustr;
case PixelOffsetMode::PixelOffsetModeHighSpeed: return u"PixelOffsetModeHighSpeed"_ustr;
case PixelOffsetMode::PixelOffsetModeHighQuality: return u"PixelOffsetModeHighQuality"_ustr;
case PixelOffsetMode::PixelOffsetModeNone: return u"PixelOffsetModeNone"_ustr;
case PixelOffsetMode::PixelOffsetModeHalf: return u"PixelOffsetModeHalf"_ustr;
}
return u""_ustr;
}
static OUString SmoothingModeToString(sal_uInt16 nSmoothMode)
{
switch (nSmoothMode)
{
case SmoothingMode::SmoothingModeDefault: return u"SmoothingModeDefault"_ustr;
case SmoothingMode::SmoothingModeHighSpeed: return u"SmoothModeHighSpeed"_ustr;
case SmoothingMode::SmoothingModeHighQuality: return u"SmoothingModeHighQuality"_ustr;
case SmoothingMode::SmoothingModeNone: return u"SmoothingModeNone"_ustr;
case SmoothingMode::SmoothingModeAntiAlias8x4: return u"SmoothingModeAntiAlias8x4"_ustr;
case SmoothingMode::SmoothingModeAntiAlias8x8: return u"SmoothingModeAntiAlias8x8"_ustr;
}
return u""_ustr;
}
static OUString TextRenderingHintToString(sal_uInt16 nHint)
{
switch (nHint)
{
case TextRenderingHint::TextRenderingHintSystemDefault: return u"TextRenderingHintSystemDefault"_ustr;
case TextRenderingHint::TextRenderingHintSingleBitPerPixelGridFit: return u"TextRenderingHintSingleBitPerPixelGridFit"_ustr;
case TextRenderingHint::TextRenderingHintSingleBitPerPixel: return u"TextRenderingHintSingleBitPerPixel"_ustr;
case TextRenderingHint::TextRenderingHintAntialiasGridFit: return u"TextRenderingHintAntialiasGridFit"_ustr;
case TextRenderingHint::TextRenderingHintAntialias: return u"TextRenderingHintAntialias"_ustr;
case TextRenderingHint::TextRenderingHintClearTypeGridFit: return u"TextRenderingHintClearTypeGridFit"_ustr;
}
return u""_ustr;
}
static OUString InterpolationModeToString(sal_uInt16 nMode)
{
switch (nMode)
{
case InterpolationMode::InterpolationModeDefault: return u"InterpolationModeDefault"_ustr;
case InterpolationMode::InterpolationModeLowQuality: return u"InterpolationModeLowQuality"_ustr;
case InterpolationMode::InterpolationModeHighQuality: return u"InterpolationModeHighQuality"_ustr;
case InterpolationMode::InterpolationModeBilinear: return u"InterpolationModeBilinear"_ustr;
case InterpolationMode::InterpolationModeBicubic: return u"InterpolationModeBicubic"_ustr;
case InterpolationMode::InterpolationModeNearestNeighbor: return u"InterpolationModeNearestNeighbor"_ustr;
case InterpolationMode::InterpolationModeHighQualityBilinear: return u"InterpolationModeHighQualityBilinear"_ustr;
case InterpolationMode::InterpolationModeHighQualityBicubic: return u"InterpolationModeHighQualityBicubic"_ustr;
}
return u""_ustr;
}
OUString UnitTypeToString(sal_uInt16 nType)
{
switch (nType)
{
case UnitTypeWorld: return u"UnitTypeWorld"_ustr;
case UnitTypeDisplay: return u"UnitTypeDisplay"_ustr;
case UnitTypePixel: return u"UnitTypePixel"_ustr;
case UnitTypePoint: return u"UnitTypePoint"_ustr;
case UnitTypeInch: return u"UnitTypeInch"_ustr;
case UnitTypeDocument: return u"UnitTypeDocument"_ustr;
case UnitTypeMillimeter: return u"UnitTypeMillimeter"_ustr;
}
return u""_ustr;
}
static bool IsBrush(sal_uInt16 flags)
{
return (!((flags >> 15) & 0x0001));
}
static OUString BrushIDToString(sal_uInt16 flags, sal_uInt32 brushid)
{
if (IsBrush(flags))
return "EmfPlusBrush ID: " + OUString::number(brushid);
else
return "ARGB: 0x" + OUString::number(brushid, 16);
}
EMFPObject::~EMFPObject()
{
}
double EmfPlusHelperData::unitToPixel(double n, sal_uInt32 aUnitType, Direction d)
{
switch (static_cast<UnitType>(aUnitType))
{
case UnitTypePixel:
return n;
case UnitTypePoint:
return o3tl::convert(n, o3tl::Length::pt, o3tl::Length::in) * DPI(d);
case UnitTypeInch:
return n * DPI(d);
case UnitTypeMillimeter:
return o3tl::convert(n, o3tl::Length::mm, o3tl::Length::in) * DPI(d);
case UnitTypeDocument:
return n * DPI(d) / 300.0;
case UnitTypeWorld:
case UnitTypeDisplay:
SAL_WARN("drawinglayer.emf", "EMF+\t Converting to World/Display.");
return n;
default:
SAL_WARN("drawinglayer.emf", "EMF+\tTODO Unimplemented support of Unit Type: 0x" << std::hex << aUnitType);
return n;
}
}
void EmfPlusHelperData::processObjectRecord(SvMemoryStream& rObjectStream, sal_uInt16 flags, sal_uInt32 dataSize, bool bUseWholeStream)
{
sal_uInt16 objecttype = flags & 0x7f00;
sal_uInt16 index = flags & 0xff;
SAL_INFO("drawinglayer.emf", "EMF+ Object: " << emfObjectToName(objecttype) << " (0x" << objecttype << ")");
SAL_INFO("drawinglayer.emf", "EMF+\tObject slot: " << index);
SAL_INFO("drawinglayer.emf", "EMF+\tFlags: " << (flags & 0xff00));
switch (objecttype)
{
case EmfPlusObjectTypeBrush:
{
EMFPBrush *brush = new EMFPBrush();
maEMFPObjects[index].reset(brush);
brush->Read(rObjectStream, *this);
break;
}
case EmfPlusObjectTypePen:
{
EMFPPen *pen = new EMFPPen();
maEMFPObjects[index].reset(pen);
pen->Read(rObjectStream, *this);
pen->penWidth = unitToPixel(pen->penWidth, pen->penUnit, Direction::horizontal);
break;
}
case EmfPlusObjectTypePath:
{
sal_uInt32 aVersion, aPathPointCount, aPathPointFlags;
rObjectStream.ReadUInt32(aVersion).ReadUInt32(aPathPointCount).ReadUInt32(aPathPointFlags);
SAL_INFO("drawinglayer.emf", "EMF+\t\tVersion: 0x" << std::hex << aVersion);
SAL_INFO("drawinglayer.emf", "EMF+\t\tNumber of points: " << std::dec << aPathPointCount);
SAL_INFO("drawinglayer.emf", "EMF+\t\tPath point flags: 0x" << std::hex << aPathPointFlags << std::dec);
EMFPPath *path = new EMFPPath(aPathPointCount);
maEMFPObjects[index].reset(path);
path->Read(rObjectStream, aPathPointFlags);
break;
}
case EmfPlusObjectTypeRegion:
{
EMFPRegion *region = new EMFPRegion();
maEMFPObjects[index].reset(region);
region->ReadRegion(rObjectStream, *this);
break;
}
case EmfPlusObjectTypeImage:
{
EMFPImage *image = new EMFPImage;
maEMFPObjects[index].reset(image);
image->type = 0;
image->width = 0;
image->height = 0;
image->stride = 0;
image->pixelFormat = 0;
image->Read(rObjectStream, dataSize, bUseWholeStream);
break;
}
case EmfPlusObjectTypeFont:
{
EMFPFont *font = new EMFPFont;
maEMFPObjects[index].reset(font);
font->emSize = 0;
font->sizeUnit = 0;
font->fontFlags = 0;
font->Read(rObjectStream);
// tdf#113624 Convert unit to Pixels
font->emSize = unitToPixel(font->emSize, font->sizeUnit, Direction::horizontal);
break;
}
case EmfPlusObjectTypeStringFormat:
{
EMFPStringFormat *stringFormat = new EMFPStringFormat();
maEMFPObjects[index].reset(stringFormat);
stringFormat->Read(rObjectStream);
break;
}
case EmfPlusObjectTypeImageAttributes:
{
EMFPImageAttributes *imageAttributes = new EMFPImageAttributes();
maEMFPObjects[index].reset(imageAttributes);
imageAttributes->Read(rObjectStream);
break;
}
case EmfPlusObjectTypeCustomLineCap:
{
SAL_WARN("drawinglayer.emf", "EMF+\t TODO Object type 'custom line cap' not yet implemented");
break;
}
default:
{
SAL_WARN("drawinglayer.emf", "EMF+\t TODO Object unhandled flags: 0x" << std::hex << (flags & 0xff00) << std::dec);
}
}
}
void EmfPlusHelperData::ReadPoint(SvStream& s, float& x, float& y, sal_uInt32 flags)
{
if (flags & 0x800)
{
// specifies a location in the coordinate space that is relative to
// the location specified by the previous element in the array. In the case of the first element in
// PointData, a previous location at coordinates (0,0) is assumed.
SAL_WARN("drawinglayer.emf", "EMF+\t\t TODO Relative coordinates bit detected. Implement parse EMFPlusPointR");
}
if (flags & 0x4000)
{
sal_Int16 ix, iy;
s.ReadInt16(ix).ReadInt16(iy);
x = ix;
y = iy;
}
else
{
s.ReadFloat(x).ReadFloat(y);
}
}
void EmfPlusHelperData::ReadRectangle(SvStream& s, float& x, float& y, float &width, float& height, bool bCompressed)
{
if (bCompressed)
{
sal_Int16 ix, iy, iw, ih;
s.ReadInt16(ix).ReadInt16(iy).ReadInt16(iw).ReadInt16(ih);
x = ix;
y = iy;
width = iw;
height = ih;
}
else
{
s.ReadFloat(x).ReadFloat(y).ReadFloat(width).ReadFloat(height);
}
}
bool EmfPlusHelperData::readXForm(SvStream& rIn, basegfx::B2DHomMatrix& rTarget)
{
rTarget.identity();
if (sizeof(float) != 4)
{
OSL_FAIL("EnhWMFReader::sizeof( float ) != 4");
return false;
}
else
{
float eM11(0.0);
float eM12(0.0);
float eM21(0.0);
float eM22(0.0);
float eDx(0.0);
float eDy(0.0);
rIn.ReadFloat(eM11).ReadFloat(eM12).ReadFloat(eM21).ReadFloat(eM22).ReadFloat(eDx).ReadFloat(eDy);
rTarget = basegfx::B2DHomMatrix(
eM11, eM21, eDx,
eM12, eM22, eDy);
}
return true;
}
void EmfPlusHelperData::mappingChanged()
{
if (mnPixX == 0 || mnPixY == 0)
{
SAL_WARN("drawinglayer.emf", "dimensions in pixels is 0");
return;
}
// Call when mnMmX/mnMmY/mnPixX/mnPixY/mnFrameLeft/mnFrameTop/maWorldTransform/ changes.
// Currently not used are mnHDPI/mnVDPI/mnFrameRight/mnFrameBottom. *If* these should
// be used in the future, this method will need to be called.
//
// Re-calculate maMapTransform to contain the complete former transformation so that
// it can be applied by a single matrix multiplication or be added to an encapsulated
// primitive later
//
// To evtl. correct and see where this came from, please compare with the implementations
// of EmfPlusHelperData::MapToDevice and EmfPlusHelperData::Map* in prev versions
maMapTransform = maWorldTransform;
maMapTransform *= basegfx::utils::createScaleTranslateB2DHomMatrix(100.0 * mnMmX / mnPixX, 100.0 * mnMmY / mnPixY,
double(-mnFrameLeft), double(-mnFrameTop));
maMapTransform *= maBaseTransform;
// Used only for performance optimization, to do not calculate it every line draw
mdExtractedXScale = std::hypot(maMapTransform.a(), maMapTransform.b());
mdExtractedYScale = std::hypot(maMapTransform.c(), maMapTransform.d());
}
::basegfx::B2DPoint EmfPlusHelperData::Map(double ix, double iy) const
{
// map in one step using complete MapTransform (see mappingChanged)
return maMapTransform * ::basegfx::B2DPoint(ix, iy);
}
Color EmfPlusHelperData::EMFPGetBrushColorOrARGBColor(const sal_uInt16 flags, const sal_uInt32 brushIndexOrColor) const {
Color color;
if (flags & 0x8000) // we use a color
{
color = Color(ColorAlpha, (brushIndexOrColor >> 24), (brushIndexOrColor >> 16) & 0xff,
(brushIndexOrColor >> 8) & 0xff, brushIndexOrColor & 0xff);
}
else // we use a brush
{
const EMFPBrush* brush = dynamic_cast<EMFPBrush*>(maEMFPObjects[brushIndexOrColor & 0xff].get());
if (brush)
{
color = brush->GetColor();
if (brush->type != BrushTypeSolidColor)
SAL_WARN("drawinglayer.emf", "EMF+\t\t TODO Brush other than solid color is not supported");
}
}
return color;
}
void EmfPlusHelperData::GraphicStatePush(GraphicStateMap& map, sal_Int32 index)
{
GraphicStateMap::iterator iter = map.find( index );
if ( iter != map.end() )
{
map.erase( iter );
SAL_INFO("drawinglayer.emf", "EMF+\t\tStack index: " << index << " found and erased");
}
wmfemfhelper::PropertyHolder state = mrPropertyHolders.Current();
// tdf#112500 We need to save world transform somehow, during graphic state push
state.setTransformation(maWorldTransform);
map[ index ] = state;
}
void EmfPlusHelperData::GraphicStatePop(GraphicStateMap& map, sal_Int32 index)
{
GraphicStateMap::iterator iter = map.find(index);
if (iter != map.end())
{
wmfemfhelper::PropertyHolder state = iter->second;
maWorldTransform = state.getTransformation();
if (state.getClipPolyPolygonActive())
{
SAL_INFO("drawinglayer.emf",
"EMF+\t Restore clipping region to saved in index: " << index);
wmfemfhelper::HandleNewClipRegion(state.getClipPolyPolygon(), mrTargetHolders,
mrPropertyHolders);
}
else
{
SAL_INFO("drawinglayer.emf", "EMF+\t Disable clipping");
wmfemfhelper::HandleNewClipRegion(::basegfx::B2DPolyPolygon(), mrTargetHolders,
mrPropertyHolders);
}
mappingChanged();
SAL_INFO("drawinglayer.emf",
"EMF+\t\tStack index: " << index
<< " found, maWorldTransform: " << maWorldTransform);
}
}
drawinglayer::attribute::LineStartEndAttribute
EmfPlusHelperData::CreateLineEnd(const sal_Int32 aCap, const float aPenWidth) const
{
const double pw = mdExtractedYScale * aPenWidth;
if (aCap == LineCapTypeSquare)
{
basegfx::B2DPolygon aCapPolygon(
{ {-1.0, -1.0}, {1.0, -1.0}, {1.0, 1.0}, {-1.0, 1.0} });
aCapPolygon.setClosed(true);
return drawinglayer::attribute::LineStartEndAttribute(
pw, basegfx::B2DPolyPolygon(aCapPolygon), true);
}
else if (aCap == LineCapTypeRound)
{
basegfx::B2DPolygon aCapPolygon(
{ {-1.0, 1.0}, {1.0, 1.0}, {1.0, 0.0}, {0.9236, -0.3827},
{0.7071, -0.7071}, {0.3827, -0.9236}, {0.0, -1.0}, {-0.3827, -0.9236},
{-0.7071, -0.7071}, {-0.9236, -0.3827}, {-1.0, 0.0} });
aCapPolygon.setClosed(true);
return drawinglayer::attribute::LineStartEndAttribute(
pw, basegfx::B2DPolyPolygon(aCapPolygon), true);
}
else if (aCap == LineCapTypeTriangle)
{
basegfx::B2DPolygon aCapPolygon(
{ {-1.0, 1.0}, {1.0, 1.0}, {1.0, 0.0}, {0.0, -1.0}, {-1.0, 0.0} });
aCapPolygon.setClosed(true);
return drawinglayer::attribute::LineStartEndAttribute(
pw, basegfx::B2DPolyPolygon(aCapPolygon), true);
}
else if (aCap == LineCapTypeSquareAnchor)
{
basegfx::B2DPolygon aCapPolygon(
{ {-1.0, -1.0}, {1.0, -1.0}, {1.0, 1.0}, {-1.0, 1.0} });
aCapPolygon.setClosed(true);
return drawinglayer::attribute::LineStartEndAttribute(
1.5 * pw, basegfx::B2DPolyPolygon(aCapPolygon), true);
}
else if (aCap == LineCapTypeRoundAnchor)
{
const basegfx::B2DPolygon aCapPolygon
= ::basegfx::utils::createPolygonFromEllipse(::basegfx::B2DPoint(0.0, 0.0), 1.0, 1.0);
return drawinglayer::attribute::LineStartEndAttribute(
2.0 * pw, basegfx::B2DPolyPolygon(aCapPolygon), true);
}
else if (aCap == LineCapTypeDiamondAnchor)
{
basegfx::B2DPolygon aCapPolygon({ {0.0, -1.0}, {1.0, 0.0}, {0.5, 0.5},
{0.5, 1.0}, {-0.5, 1.0}, {-0.5, 0.5},
{-1.0, 0.0} });
aCapPolygon.setClosed(true);
return drawinglayer::attribute::LineStartEndAttribute(
2.0 * pw, basegfx::B2DPolyPolygon(aCapPolygon), true);
}
else if (aCap == LineCapTypeArrowAnchor)
{
basegfx::B2DPolygon aCapPolygon({ {0.0, -1.0}, {1.0, 1.0}, {-1.0, 1.0} });
aCapPolygon.setClosed(true);
return drawinglayer::attribute::LineStartEndAttribute(
2.0 * pw, basegfx::B2DPolyPolygon(aCapPolygon), true);
}
return drawinglayer::attribute::LineStartEndAttribute();
}
void EmfPlusHelperData::EMFPPlusDrawPolygon(const ::basegfx::B2DPolyPolygon& polygon,
sal_uInt32 penIndex)
{
const EMFPPen* pen = dynamic_cast<EMFPPen*>(maEMFPObjects[penIndex & 0xff].get());
SAL_WARN_IF(!pen, "drawinglayer.emf", "emf+ missing pen");
if (!(pen && polygon.count()))
return;
const double transformedPenWidth = mdExtractedYScale * pen->penWidth;
drawinglayer::attribute::LineAttribute lineAttribute(
pen->GetColor().getBColor(), transformedPenWidth, pen->maLineJoin,
css::drawing::LineCap_BUTT, //TODO implement PenDataDashedLineCap support here
pen->fMiterMinimumAngle);
drawinglayer::attribute::LineStartEndAttribute aStart;
if (pen->penDataFlags & EmfPlusPenDataStartCap)
{
if ((pen->penDataFlags & EmfPlusPenDataCustomStartCap)
&& (pen->customStartCap->polygon.begin()->count() > 1))
aStart = drawinglayer::attribute::LineStartEndAttribute(
pen->customStartCap->polygon.getB2DRange().getRange().getX() * mdExtractedXScale
* pen->customStartCap->widthScale * pen->penWidth,
pen->customStartCap->polygon, false);
else
aStart = EmfPlusHelperData::CreateLineEnd(pen->startCap, pen->penWidth);
}
drawinglayer::attribute::LineStartEndAttribute aEnd;
if (pen->penDataFlags & EmfPlusPenDataEndCap)
{
if ((pen->penDataFlags & EmfPlusPenDataCustomEndCap)
&& (pen->customEndCap->polygon.begin()->count() > 1))
aEnd = drawinglayer::attribute::LineStartEndAttribute(
pen->customEndCap->polygon.getB2DRange().getRange().getX() * mdExtractedXScale
* pen->customEndCap->widthScale * pen->penWidth,
pen->customEndCap->polygon, false);
else
aEnd = EmfPlusHelperData::CreateLineEnd(pen->endCap, pen->penWidth);
}
if (pen->GetColor().IsTransparent())
{
drawinglayer::primitive2d::Primitive2DContainer aContainer;
if (aStart.isDefault() && aEnd.isDefault())
aContainer.append(
new drawinglayer::primitive2d::PolyPolygonStrokePrimitive2D(
polygon, lineAttribute, pen->GetStrokeAttribute(mdExtractedXScale)));
else
{
aContainer.resize(polygon.count());
for (sal_uInt32 i = 0; i < polygon.count(); i++)
aContainer[i] =
new drawinglayer::primitive2d::PolygonStrokeArrowPrimitive2D(
polygon.getB2DPolygon(i), lineAttribute,
pen->GetStrokeAttribute(mdExtractedXScale), aStart, aEnd);
}
mrTargetHolders.Current().append(
new drawinglayer::primitive2d::UnifiedTransparencePrimitive2D(
std::move(aContainer), (255 - pen->GetColor().GetAlpha()) / 255.0));
}
else
{
if (aStart.isDefault() && aEnd.isDefault())
mrTargetHolders.Current().append(
new drawinglayer::primitive2d::PolyPolygonStrokePrimitive2D(
polygon, lineAttribute, pen->GetStrokeAttribute(mdExtractedXScale)));
else
for (sal_uInt32 i = 0; i < polygon.count(); i++)
{
mrTargetHolders.Current().append(
new drawinglayer::primitive2d::PolygonStrokeArrowPrimitive2D(
polygon.getB2DPolygon(i), lineAttribute,
pen->GetStrokeAttribute(mdExtractedXScale), aStart, aEnd));
}
}
mrPropertyHolders.Current().setLineColor(pen->GetColor().getBColor());
mrPropertyHolders.Current().setLineColorActive(true);
mrPropertyHolders.Current().setFillColorActive(false);
}
void EmfPlusHelperData::EMFPPlusFillPolygonSolidColor(const ::basegfx::B2DPolyPolygon& polygon, Color const& color)
{
if (color.GetAlpha() == 0)
return;
if (!color.IsTransparent())
{
// not transparent
mrTargetHolders.Current().append(
new drawinglayer::primitive2d::PolyPolygonColorPrimitive2D(
polygon,
color.getBColor()));
}
else
{
const drawinglayer::primitive2d::Primitive2DReference aPrimitive(
new drawinglayer::primitive2d::PolyPolygonColorPrimitive2D(
polygon,
color.getBColor()));
mrTargetHolders.Current().append(
new drawinglayer::primitive2d::UnifiedTransparencePrimitive2D(
drawinglayer::primitive2d::Primitive2DContainer { aPrimitive },
(255 - color.GetAlpha()) / 255.0));
}
}
void EmfPlusHelperData::EMFPPlusFillPolygon(const ::basegfx::B2DPolyPolygon& polygon, const bool isColor, const sal_uInt32 brushIndexOrColor)
{
if (!polygon.count())
return;
if (isColor) // use Color
{
SAL_INFO("drawinglayer.emf", "EMF+\t\t Fill polygon, ARGB color: 0x" << std::hex << brushIndexOrColor << std::dec);
// EMF Alpha (1 byte): An 8-bit unsigned integer that specifies the transparency of the background,
// ranging from 0 for completely transparent to 0xFF for completely opaque.
const Color color(ColorAlpha, (brushIndexOrColor >> 24), (brushIndexOrColor >> 16) & 0xff, (brushIndexOrColor >> 8) & 0xff, brushIndexOrColor & 0xff);
EMFPPlusFillPolygonSolidColor(polygon, color);
mrPropertyHolders.Current().setFillColor(color.getBColor());
mrPropertyHolders.Current().setFillColorActive(true);
mrPropertyHolders.Current().setLineColorActive(false);
}
else // use Brush
{
EMFPBrush* brush = dynamic_cast<EMFPBrush*>(maEMFPObjects[brushIndexOrColor & 0xff].get());
SAL_INFO("drawinglayer.emf", "EMF+\t\t Fill polygon, brush slot: " << brushIndexOrColor << " (brush type: " << (brush ? brush->GetType() : -1) << ")");
// give up in case something wrong happened
if( !brush )
return;
mrPropertyHolders.Current().setFillColorActive(false);
mrPropertyHolders.Current().setLineColorActive(false);
if (brush->type == BrushTypeSolidColor)
{
Color fillColor = brush->solidColor;
EMFPPlusFillPolygonSolidColor(polygon, fillColor);
}
else if (brush->type == BrushTypeHatchFill)
{
// EMF+ like hatching is currently not supported. These are just color blends which serve as an approximation for some of them
// for the others the hatch "background" color (secondColor in brush) is used.
bool isHatchBlend = true;
double blendFactor = 0.0;
switch (brush->hatchStyle)
{
case HatchStyle05Percent: blendFactor = 0.05; break;
case HatchStyle10Percent: blendFactor = 0.10; break;
case HatchStyle20Percent: blendFactor = 0.20; break;
case HatchStyle25Percent: blendFactor = 0.25; break;
case HatchStyle30Percent: blendFactor = 0.30; break;
case HatchStyle40Percent: blendFactor = 0.40; break;
case HatchStyle50Percent: blendFactor = 0.50; break;
case HatchStyle60Percent: blendFactor = 0.60; break;
case HatchStyle70Percent: blendFactor = 0.70; break;
case HatchStyle75Percent: blendFactor = 0.75; break;
case HatchStyle80Percent: blendFactor = 0.80; break;
case HatchStyle90Percent: blendFactor = 0.90; break;
default:
isHatchBlend = false;
break;
}
Color fillColor;
if (isHatchBlend)
{
fillColor = brush->solidColor;
fillColor.Merge(brush->secondColor, static_cast<sal_uInt8>(255 * blendFactor));
}
else
{
fillColor = brush->secondColor;
}
// temporal solution: create a solid colored polygon
// TODO create a 'real' hatching primitive
mrTargetHolders.Current().append(
new drawinglayer::primitive2d::PolyPolygonColorPrimitive2D(
polygon,
fillColor.getBColor()));
}
else if (brush->type == BrushTypeTextureFill)
{
SAL_WARN("drawinglayer.emf", "EMF+\tTODO: implement BrushTypeTextureFill brush");
}
else if (brush->type == BrushTypePathGradient || brush->type == BrushTypeLinearGradient)
{
if (brush->type == BrushTypePathGradient && !(brush->additionalFlags & 0x1))
{
SAL_WARN("drawinglayer.emf", "EMF+\t TODO Implement displaying BrushTypePathGradient with Boundary: ");
}
::basegfx::B2DHomMatrix aTextureTransformation;
if (brush->hasTransformation) {
aTextureTransformation = brush->brush_transformation;
// adjust aTextureTransformation for our world space:
// -> revert the mapping -> apply the transformation -> map back
basegfx::B2DHomMatrix aInvertedMapTrasform(maMapTransform);
aInvertedMapTrasform.invert();
aTextureTransformation = maMapTransform * aTextureTransformation * aInvertedMapTrasform;
}
// select the stored colors
const basegfx::BColor aStartColor = brush->solidColor.getBColor();
const basegfx::BColor aEndColor = brush->secondColor.getBColor();
drawinglayer::primitive2d::SvgGradientEntryVector aVector;
if (brush->blendPositions)
{
SAL_INFO("drawinglayer.emf", "EMF+\t\tUse blend");
// store the blendpoints in the vector
for (sal_uInt32 i = 0; i < brush->blendPoints; i++)
{
const double aBlendPoint = brush->blendPositions[i];
basegfx::BColor aColor;
aColor.setGreen(aStartColor.getGreen() + brush->blendFactors[i] * (aEndColor.getGreen() - aStartColor.getGreen()));
aColor.setBlue (aStartColor.getBlue() + brush->blendFactors[i] * (aEndColor.getBlue() - aStartColor.getBlue()));
aColor.setRed (aStartColor.getRed() + brush->blendFactors[i] * (aEndColor.getRed() - aStartColor.getRed()));
const double aAlpha = brush->solidColor.GetAlpha() + brush->blendFactors[i] * (brush->secondColor.GetAlpha() - brush->solidColor.GetAlpha());
aVector.emplace_back(aBlendPoint, aColor, aAlpha / 255.0);
}
}
else if (brush->colorblendPositions)
{
SAL_INFO("drawinglayer.emf", "EMF+\t\tUse color blend");
// store the colorBlends in the vector
for (sal_uInt32 i = 0; i < brush->colorblendPoints; i++)
{
const double aBlendPoint = brush->colorblendPositions[i];
const basegfx::BColor aColor = brush->colorblendColors[i].getBColor();
aVector.emplace_back(aBlendPoint, aColor, brush->colorblendColors[i].GetAlpha() / 255.0);
}
}
else // ok, no extra points: just start and end
{
aVector.emplace_back(0.0, aStartColor, brush->solidColor.GetAlpha() / 255.0);
aVector.emplace_back(1.0, aEndColor, brush->secondColor.GetAlpha() / 255.0);
}
// get the polygon range to be able to map the start/end/center point correctly
// therefore, create a mapping and invert it
basegfx::B2DRange aPolygonRange= polygon.getB2DRange();
basegfx::B2DHomMatrix aPolygonTransformation = basegfx::utils::createScaleTranslateB2DHomMatrix(
aPolygonRange.getWidth(),aPolygonRange.getHeight(),
aPolygonRange.getMinX(), aPolygonRange.getMinY());
aPolygonTransformation.invert();
if (brush->type == BrushTypeLinearGradient)
{
// support for public enum EmfPlusWrapMode
basegfx::B2DPoint aStartPoint = Map(brush->firstPointX, 0.0);
aStartPoint = aPolygonTransformation * aStartPoint;
basegfx::B2DPoint aEndPoint = Map(brush->firstPointX + brush->aWidth, 0.0);
aEndPoint = aPolygonTransformation * aEndPoint;
// support for public enum EmfPlusWrapMode
drawinglayer::primitive2d::SpreadMethod aSpreadMethod(drawinglayer::primitive2d::SpreadMethod::Pad);
switch(brush->wrapMode)
{
case WrapModeTile:
case WrapModeTileFlipY:
{
aSpreadMethod = drawinglayer::primitive2d::SpreadMethod::Repeat;
break;
}
case WrapModeTileFlipX:
case WrapModeTileFlipXY:
{
aSpreadMethod = drawinglayer::primitive2d::SpreadMethod::Reflect;
break;
}
default:
break;
}
// create the same one used for SVG
mrTargetHolders.Current().append(
new drawinglayer::primitive2d::SvgLinearGradientPrimitive2D(
aTextureTransformation,
polygon,
std::move(aVector),
aStartPoint,
aEndPoint,
false, // do not use UnitCoordinates
aSpreadMethod));
}
else // BrushTypePathGradient
{ // TODO The PathGradient is not implemented, and Radial Gradient is used instead
basegfx::B2DPoint aCenterPoint = Map(brush->firstPointX, brush->firstPointY);
aCenterPoint = aPolygonTransformation * aCenterPoint;
// create the same one used for SVG
mrTargetHolders.Current().append(
new drawinglayer::primitive2d::SvgRadialGradientPrimitive2D(
aTextureTransformation,
polygon,
std::move(aVector),
aCenterPoint,
0.7, // relative radius little bigger to cover all elements
true, // use UnitCoordinates to stretch the gradient
drawinglayer::primitive2d::SpreadMethod::Pad,
nullptr));
}
}
}
}
EmfPlusHelperData::EmfPlusHelperData(
SvMemoryStream& rMS,
wmfemfhelper::TargetHolders& rTargetHolders,
wmfemfhelper::PropertyHolders& rPropertyHolders)
: mfPageScale(0.0),
mnOriginX(0),
mnOriginY(0),
mnHDPI(0),
mnVDPI(0),
mbSetTextContrast(false),
mnTextContrast(0),
mnFrameLeft(0),
mnFrameTop(0),
mnFrameRight(0),
mnFrameBottom(0),
mnPixX(0),
mnPixY(0),
mnMmX(0),
mnMmY(0),
mbMultipart(false),
mMFlags(0),
mdExtractedXScale(1.0),
mdExtractedYScale(1.0),
mrTargetHolders(rTargetHolders),
mrPropertyHolders(rPropertyHolders),
bIsGetDCProcessing(false)
{
rMS.ReadInt32(mnFrameLeft).ReadInt32(mnFrameTop).ReadInt32(mnFrameRight).ReadInt32(mnFrameBottom);
SAL_INFO("drawinglayer.emf", "EMF+ picture frame: " << mnFrameLeft << "," << mnFrameTop << " - " << mnFrameRight << "," << mnFrameBottom);
rMS.ReadInt32(mnPixX).ReadInt32(mnPixY).ReadInt32(mnMmX).ReadInt32(mnMmY);
SAL_INFO("drawinglayer.emf", "EMF+ ref device pixel size: " << mnPixX << "x" << mnPixY << " mm size: " << mnMmX << "x" << mnMmY);
readXForm(rMS, maBaseTransform);
SAL_INFO("drawinglayer.emf", "EMF+ base transform: " << maBaseTransform);
mappingChanged();
}
EmfPlusHelperData::~EmfPlusHelperData()
{
}
::basegfx::B2DPolyPolygon EmfPlusHelperData::combineClip(::basegfx::B2DPolyPolygon const & leftPolygon, int combineMode, ::basegfx::B2DPolyPolygon const & rightPolygon)
{
basegfx::B2DPolyPolygon aClippedPolyPolygon;
switch (combineMode)
{
case EmfPlusCombineModeReplace:
{
aClippedPolyPolygon = rightPolygon;
break;
}
case EmfPlusCombineModeIntersect:
{
aClippedPolyPolygon = basegfx::utils::clipPolyPolygonOnPolyPolygon(
leftPolygon, rightPolygon, true, false);
break;
}
case EmfPlusCombineModeUnion:
{
aClippedPolyPolygon = ::basegfx::utils::solvePolygonOperationOr(leftPolygon, rightPolygon);
break;
}
case EmfPlusCombineModeXOR:
{
aClippedPolyPolygon = ::basegfx::utils::solvePolygonOperationXor(leftPolygon, rightPolygon);
break;
}
case EmfPlusCombineModeExclude:
{
// Replaces the existing region with the part of itself that is not in the new region.
aClippedPolyPolygon = ::basegfx::utils::solvePolygonOperationDiff(leftPolygon, rightPolygon);
break;
}
case EmfPlusCombineModeComplement:
{
// Replaces the existing region with the part of the new region that is not in the existing region.
aClippedPolyPolygon = ::basegfx::utils::solvePolygonOperationDiff(rightPolygon, leftPolygon);
break;
}
}
return aClippedPolyPolygon;
}
void EmfPlusHelperData::processEmfPlusData(
SvMemoryStream& rMS,
const drawinglayer::geometry::ViewInformation2D& /*rViewInformation*/)
{
sal_uInt64 length = rMS.GetSize();
if (length < 12)
SAL_WARN("drawinglayer.emf", "length is less than required header size");
// 12 is minimal valid EMF+ record size; remaining bytes are padding
while (length >= 12)
{
sal_uInt16 type, flags;
sal_uInt32 size, dataSize;
sal_uInt64 next;
rMS.ReadUInt16(type).ReadUInt16(flags).ReadUInt32(size).ReadUInt32(dataSize);
next = rMS.Tell() + (size - 12);
if (size < 12)
{
SAL_WARN("drawinglayer.emf", "Size field is less than 12 bytes");
break;
}
else if (size > length)
{
SAL_WARN("drawinglayer.emf", "Size field is greater than bytes left");
break;
}
if (dataSize > (size - 12))
{
SAL_WARN("drawinglayer.emf", "DataSize field is greater than Size-12");
break;
}
SAL_INFO("drawinglayer.emf", "EMF+ " << emfTypeToName(type) << " (0x" << std::hex << type << ")" << std::dec);
SAL_INFO("drawinglayer.emf", "EMF+\t record size: " << size);
SAL_INFO("drawinglayer.emf", "EMF+\t flags: 0x" << std::hex << flags << std::dec);
SAL_INFO("drawinglayer.emf", "EMF+\t data size: " << dataSize);
if (bIsGetDCProcessing)
{
if (aGetDCState.getClipPolyPolygonActive())
{
SAL_INFO("drawinglayer.emf", "EMF+\t Restore region to GetDC saved");
wmfemfhelper::HandleNewClipRegion(aGetDCState.getClipPolyPolygon(), mrTargetHolders,
mrPropertyHolders);
}
else
{
SAL_INFO("drawinglayer.emf", "EMF+\t Disable clipping");
wmfemfhelper::HandleNewClipRegion(::basegfx::B2DPolyPolygon(), mrTargetHolders,
mrPropertyHolders);
}
bIsGetDCProcessing = false;
}
if (type == EmfPlusRecordTypeObject && ((mbMultipart && (flags & 0x7fff) == (mMFlags & 0x7fff)) || (flags & 0x8000)))
{
if (!mbMultipart)
{
mbMultipart = true;
mMFlags = flags;
mMStream.Seek(0);
}
OSL_ENSURE(dataSize >= 4, "No room for TotalObjectSize in EmfPlusContinuedObjectRecord");
// 1st 4 bytes are TotalObjectSize
mMStream.WriteBytes(static_cast<const char *>(rMS.GetData()) + rMS.Tell() + 4, dataSize - 4);
SAL_INFO("drawinglayer.emf", "EMF+ read next object part size: " << size << " type: " << type << " flags: " << flags << " data size: " << dataSize);
}
else
{
if (mbMultipart)
{
SAL_INFO("drawinglayer.emf", "EMF+ multipart record flags: " << mMFlags);
mMStream.Seek(0);
processObjectRecord(mMStream, mMFlags, 0, true);
}
mbMultipart = false;
}
if (type != EmfPlusRecordTypeObject || !(flags & 0x8000))
{
switch (type)
{
case EmfPlusRecordTypeHeader:
{
sal_uInt32 version, emfPlusFlags;
SAL_INFO("drawinglayer.emf", "EMF+\tDual: " << ((flags & 1) ? "true" : "false"));
rMS.ReadUInt32(version).ReadUInt32(emfPlusFlags).ReadUInt32(mnHDPI).ReadUInt32(mnVDPI);
SAL_INFO("drawinglayer.emf", "EMF+\tVersion: 0x" << std::hex << version);
SAL_INFO("drawinglayer.emf", "EMF+\tEmf+ Flags: 0x" << emfPlusFlags << std::dec);
SAL_INFO("drawinglayer.emf", "EMF+\tMetafile was recorded with a reference device context for " << ((emfPlusFlags & 1) ? "video display" : "printer"));
SAL_INFO("drawinglayer.emf", "EMF+\tHorizontal DPI: " << mnHDPI);
SAL_INFO("drawinglayer.emf", "EMF+\tVertical DPI: " << mnVDPI);
break;
}
case EmfPlusRecordTypeEndOfFile:
{
break;
}
case EmfPlusRecordTypeComment:
{
#if OSL_DEBUG_LEVEL > 1
unsigned char data;
OUString hexdata;
SAL_INFO("drawinglayer.emf", "EMF+\tDatasize: 0x" << std::hex << dataSize << std::dec);
for (sal_uInt32 i=0; i<dataSize; i++)
{
rMS.ReadUChar(data);
if (i % 16 == 0)
hexdata += "\n";
OUString padding;
if ((data & 0xF0) == 0)
padding = "0";
hexdata += "0x" + padding + OUString::number(data, 16) + " ";
}
SAL_INFO("drawinglayer.emf", "EMF+\t" << hexdata);
#endif
break;
}
case EmfPlusRecordTypeGetDC:
{
bIsGetDCProcessing = true;
aGetDCState = mrPropertyHolders.Current();
SAL_INFO("drawinglayer.emf", "EMF+\tAlready used in svtools wmf/emf filter parser");
break;
}
case EmfPlusRecordTypeObject:
{
processObjectRecord(rMS, flags, dataSize);
break;
}
case EmfPlusRecordTypeFillPie:
case EmfPlusRecordTypeDrawPie:
case EmfPlusRecordTypeDrawArc:
{
float startAngle, sweepAngle;
// Silent MSVC warning C4701: potentially uninitialized local variable 'brushIndexOrColor' used
sal_uInt32 brushIndexOrColor = 999;
if (type == EmfPlusRecordTypeFillPie)
{
rMS.ReadUInt32(brushIndexOrColor);
SAL_INFO("drawinglayer.emf", "EMF+\t FillPie colorOrIndex: " << brushIndexOrColor);
}
else if (type == EmfPlusRecordTypeDrawPie)
{
SAL_INFO("drawinglayer.emf", "EMF+\t DrawPie");
}
else
{
SAL_INFO("drawinglayer.emf", "EMF+\t DrawArc");
}
rMS.ReadFloat(startAngle).ReadFloat(sweepAngle);
float dx, dy, dw, dh;
ReadRectangle(rMS, dx, dy, dw, dh, bool(flags & 0x4000));
SAL_INFO("drawinglayer.emf", "EMF+\t RectData: " << dx << "," << dy << " " << dw << "x" << dh);
startAngle = basegfx::deg2rad(startAngle);
sweepAngle = basegfx::deg2rad(sweepAngle);
float endAngle = startAngle + sweepAngle;
startAngle = fmodf(startAngle, static_cast<float>(M_PI * 2));
if (startAngle < 0.0)
{
startAngle += static_cast<float>(M_PI * 2.0);
}
endAngle = fmodf(endAngle, static_cast<float>(M_PI * 2.0));
if (endAngle < 0.0)
{
endAngle += static_cast<float>(M_PI * 2.0);
}
if (sweepAngle < 0)
{
std::swap(endAngle, startAngle);
}
SAL_INFO("drawinglayer.emf", "EMF+\t Adjusted angles: start " <<
basegfx::rad2deg(startAngle) << ", end: " << basegfx::rad2deg(endAngle) <<
" startAngle: " << startAngle << " sweepAngle: " << sweepAngle);
const ::basegfx::B2DPoint centerPoint(dx + 0.5 * dw, dy + 0.5 * dh);
::basegfx::B2DPolygon polygon(
::basegfx::utils::createPolygonFromEllipseSegment(centerPoint,
0.5 * dw, 0.5 * dh,
startAngle, endAngle));
if (type != EmfPlusRecordTypeDrawArc)
{
polygon.append(centerPoint);
polygon.setClosed(true);
}
::basegfx::B2DPolyPolygon polyPolygon(polygon);
polyPolygon.transform(maMapTransform);
if (type == EmfPlusRecordTypeFillPie)
EMFPPlusFillPolygon(polyPolygon, flags & 0x8000, brushIndexOrColor);
else
EMFPPlusDrawPolygon(polyPolygon, flags & 0xff);
}
break;
case EmfPlusRecordTypeFillPath:
{
sal_uInt32 index = flags & 0xff;
sal_uInt32 brushIndexOrColor;
rMS.ReadUInt32(brushIndexOrColor);
SAL_INFO("drawinglayer.emf", "EMF+ FillPath slot: " << index);
EMFPPath* path = dynamic_cast<EMFPPath*>(maEMFPObjects[index].get());
if (path)
EMFPPlusFillPolygon(path->GetPolygon(*this), flags & 0x8000, brushIndexOrColor);
else
SAL_WARN("drawinglayer.emf", "EMF+\tEmfPlusRecordTypeFillPath missing path");
}
break;
case EmfPlusRecordTypeFillRegion:
{
sal_uInt32 index = flags & 0xff;
sal_uInt32 brushIndexOrColor;
rMS.ReadUInt32(brushIndexOrColor);
SAL_INFO("drawinglayer.emf", "EMF+\t FillRegion slot: " << index);
EMFPRegion* region = dynamic_cast<EMFPRegion*>(maEMFPObjects[flags & 0xff].get());
if (region)
EMFPPlusFillPolygon(region->regionPolyPolygon, flags & 0x8000, brushIndexOrColor);
else
SAL_WARN("drawinglayer.emf", "EMF+\tEmfPlusRecordTypeFillRegion missing region");
}
break;
case EmfPlusRecordTypeDrawEllipse:
case EmfPlusRecordTypeFillEllipse:
{
// Intentionally very bogus initial value to avoid MSVC complaining about potentially uninitialized local
// variable. As long as the code stays as intended, this variable will be assigned a (real) value in the case
// when it is later used.
sal_uInt32 brushIndexOrColor = 1234567;
if (type == EmfPlusRecordTypeFillEllipse)
{
rMS.ReadUInt32(brushIndexOrColor);
}
SAL_INFO("drawinglayer.emf", "EMF+\t " << (type == EmfPlusRecordTypeFillEllipse ? "Fill" : "Draw") << "Ellipse slot: " << (flags & 0xff));
float dx, dy, dw, dh;
ReadRectangle(rMS, dx, dy, dw, dh, bool(flags & 0x4000));
SAL_INFO("drawinglayer.emf", "EMF+\t RectData: " << dx << "," << dy << " " << dw << "x" << dh);
::basegfx::B2DPolyPolygon polyPolygon(
::basegfx::utils::createPolygonFromEllipse(::basegfx::B2DPoint(dx + 0.5 * dw, dy + 0.5 * dh),
0.5 * dw, 0.5 * dh));
polyPolygon.transform(maMapTransform);
if (type == EmfPlusRecordTypeFillEllipse)
EMFPPlusFillPolygon(polyPolygon, flags & 0x8000, brushIndexOrColor);
else
EMFPPlusDrawPolygon(polyPolygon, flags & 0xff);
}
break;
case EmfPlusRecordTypeFillRects:
case EmfPlusRecordTypeDrawRects:
{
// Silent MSVC warning C4701: potentially uninitialized local variable 'brushIndexOrColor' used
sal_uInt32 brushIndexOrColor = 999;
::basegfx::B2DPolyPolygon polyPolygon;
sal_uInt32 rectangles;
float x, y, width, height;
const bool isColor = (flags & 0x8000);
::basegfx::B2DPolygon polygon;
if (EmfPlusRecordTypeFillRects == type)
{
SAL_INFO("drawinglayer.emf", "EMF+\t FillRects");
rMS.ReadUInt32(brushIndexOrColor);
SAL_INFO("drawinglayer.emf", "EMF+\t" << (isColor ? "color" : "brush index") << ": 0x" << std::hex << brushIndexOrColor << std::dec);
}
else
{
SAL_INFO("drawinglayer.emf", "EMF+\t DrawRects");
}
rMS.ReadUInt32(rectangles);
for (sal_uInt32 i = 0; i < rectangles; i++)
{
ReadRectangle(rMS, x, y, width, height, bool(flags & 0x4000));
polygon.clear();
polygon.append(Map(x, y));
polygon.append(Map(x + width, y));
polygon.append(Map(x + width, y + height));
polygon.append(Map(x, y + height));
polygon.setClosed(true);
SAL_INFO("drawinglayer.emf", "EMF+\t\t rectangle: " << x << ", "<< y << " " << width << "x" << height);
polyPolygon.append(polygon);
}
if (type == EmfPlusRecordTypeFillRects)
EMFPPlusFillPolygon(polyPolygon, isColor, brushIndexOrColor);
else
EMFPPlusDrawPolygon(polyPolygon, flags & 0xff);
break;
}
case EmfPlusRecordTypeFillPolygon:
{
sal_uInt32 brushIndexOrColor, points;
rMS.ReadUInt32(brushIndexOrColor);
rMS.ReadUInt32(points);
SAL_INFO("drawinglayer.emf", "EMF+\t Points: " << points);
SAL_INFO("drawinglayer.emf", "EMF+\t " << ((flags & 0x8000) ? "Color" : "Brush index") << " : 0x" << std::hex << brushIndexOrColor << std::dec);
EMFPPath path(points, true);
path.Read(rMS, flags);
EMFPPlusFillPolygon(path.GetPolygon(*this), flags & 0x8000, brushIndexOrColor);
break;
}
case EmfPlusRecordTypeDrawLines:
{
sal_uInt32 points;
rMS.ReadUInt32(points);
SAL_INFO("drawinglayer.emf", "EMF+\t Points: " << points);
EMFPPath path(points, true);
path.Read(rMS, flags);
// 0x2000 bit indicates whether to draw an extra line between the last point
// and the first point, to close the shape.
EMFPPlusDrawPolygon(path.GetPolygon(*this, true, (flags & 0x2000)), flags);
break;
}
case EmfPlusRecordTypeDrawPath:
{
sal_uInt32 penIndex;
rMS.ReadUInt32(penIndex);
SAL_INFO("drawinglayer.emf", "EMF+\t Pen: " << penIndex);
EMFPPath* path = dynamic_cast<EMFPPath*>(maEMFPObjects[flags & 0xff].get());
if (path)
EMFPPlusDrawPolygon(path->GetPolygon(*this), penIndex);
else
SAL_WARN("drawinglayer.emf", "\t\tEmfPlusRecordTypeDrawPath missing path");
break;
}
case EmfPlusRecordTypeDrawBeziers:
{
sal_uInt32 aCount;
float x1, y1, x2, y2, x3, y3, x4, y4;
::basegfx::B2DPolygon aPolygon;
rMS.ReadUInt32(aCount);
SAL_INFO("drawinglayer.emf", "EMF+\t DrawBeziers slot: " << (flags & 0xff));
SAL_INFO("drawinglayer.emf", "EMF+\t Number of points: " << aCount);
SAL_WARN_IF((aCount - 1) % 3 != 0, "drawinglayer.emf",
"EMF+\t Bezier Draw not support number of points other than 4, 7, "
"10, 13, 16...");
if (aCount < 4)
{
SAL_WARN("drawinglayer.emf", "EMF+\t Bezier Draw does not support less "
"than 4 points. Number of points: "
<< aCount);
break;
}
ReadPoint(rMS, x1, y1, flags);
// We need to add first starting point
aPolygon.append(Map(x1, y1));
SAL_INFO("drawinglayer.emf",
"EMF+\t Bezier starting point: " << x1 << "," << y1);
for (sal_uInt32 i = 4; i <= aCount; i += 3)
{
ReadPoint(rMS, x2, y2, flags);
ReadPoint(rMS, x3, y3, flags);
ReadPoint(rMS, x4, y4, flags);
SAL_INFO("drawinglayer.emf",
"EMF+\t Bezier points: " << x2 << "," << y2 << " " << x3 << ","
<< y3 << " " << x4 << "," << y4);
aPolygon.appendBezierSegment(Map(x2, y2), Map(x3, y3), Map(x4, y4));
}
EMFPPlusDrawPolygon(::basegfx::B2DPolyPolygon(aPolygon), flags & 0xff);
break;
}
case EmfPlusRecordTypeDrawCurve:
{
sal_uInt32 aOffset, aNumSegments, points;
float aTension;
rMS.ReadFloat(aTension);
rMS.ReadUInt32(aOffset);
rMS.ReadUInt32(aNumSegments);
rMS.ReadUInt32(points);
SAL_WARN("drawinglayer.emf",
"EMF+\t Tension: " << aTension << " Offset: " << aOffset
<< " NumSegments: " << aNumSegments
<< " Points: " << points);
EMFPPath path(points, true);
path.Read(rMS, flags);
if (points >= 2)
EMFPPlusDrawPolygon(
path.GetCardinalSpline(*this, aTension, aOffset, aNumSegments),
flags & 0xff);
else
SAL_WARN("drawinglayer.emf", "Not enough number of points");
break;
}
case EmfPlusRecordTypeDrawClosedCurve:
case EmfPlusRecordTypeFillClosedCurve:
{
// Silent MSVC warning C4701: potentially uninitialized local variable 'brushIndexOrColor' used
sal_uInt32 brushIndexOrColor = 999, points;
float aTension;
if (type == EmfPlusRecordTypeFillClosedCurve)
{
rMS.ReadUInt32(brushIndexOrColor);
SAL_INFO(
"drawinglayer.emf",
"EMF+\t Fill Mode: " << (flags & 0x2000 ? "Winding" : "Alternate"));
}
rMS.ReadFloat(aTension);
rMS.ReadUInt32(points);
SAL_WARN("drawinglayer.emf",
"EMF+\t Tension: " << aTension << " Points: " << points);
SAL_INFO("drawinglayer.emf",
"EMF+\t " << (flags & 0x8000 ? "Color" : "Brush index") << " : 0x"
<< std::hex << brushIndexOrColor << std::dec);
if (points < 3)
{
SAL_WARN("drawinglayer.emf", "Not enough number of points");
break;
}
EMFPPath path(points, true);
path.Read(rMS, flags);
if (type == EmfPlusRecordTypeFillClosedCurve)
EMFPPlusFillPolygon(path.GetClosedCardinalSpline(*this, aTension),
flags & 0x8000, brushIndexOrColor);
else
EMFPPlusDrawPolygon(path.GetClosedCardinalSpline(*this, aTension),
flags & 0xff);
break;
}
case EmfPlusRecordTypeDrawImage:
case EmfPlusRecordTypeDrawImagePoints:
{
sal_uInt32 imageAttributesId;
sal_Int32 sourceUnit;
rMS.ReadUInt32(imageAttributesId).ReadInt32(sourceUnit);
SAL_INFO("drawinglayer.emf",
"EMF+\t " << (type == EmfPlusRecordTypeDrawImage ? "DrawImage"
: "DrawImagePoints")
<< " image attributes Id: " << imageAttributesId
<< " source unit: " << sourceUnit);
SAL_INFO("drawinglayer.emf", "EMF+\t TODO: use image attributes");
// Source unit of measurement type must be 1 pixel
if (EMFPImage* image = sourceUnit == UnitTypePixel ?
dynamic_cast<EMFPImage*>(maEMFPObjects[flags & 0xff].get()) :
nullptr)
{
float sx, sy, sw, sh;
ReadRectangle(rMS, sx, sy, sw, sh);
::tools::Rectangle aSource(Point(sx, sy), Size(sw + 1, sh + 1));
SAL_INFO("drawinglayer.emf",
"EMF+\t "
<< (type == EmfPlusRecordTypeDrawImage ? "DrawImage"
: "DrawImagePoints")
<< " source rectangle: " << sx << "," << sy << " " << sw << "x"
<< sh);
float dx(0.), dy(0.), dw(0.), dh(0.);
double fShearX = 0.0;
double fShearY = 0.0;
if (type == EmfPlusRecordTypeDrawImagePoints)
{
sal_uInt32 aCount;
rMS.ReadUInt32(aCount);
// Number of points used by DrawImagePoints. Exactly 3 points must be specified.
if (aCount != 3)
{
SAL_WARN("drawinglayer.emf", "EMF+\t Wrong EMF+ file. Expected "
"3 points, received: "
<< aCount);
break;
}
float x1, y1, x2, y2, x3, y3;
ReadPoint(rMS, x1, y1, flags); // upper-left point
ReadPoint(rMS, x2, y2, flags); // upper-right
ReadPoint(rMS, x3, y3, flags); // lower-left
SAL_INFO("drawinglayer.emf", "EMF+\t destination points: "
<< x1 << "," << y1 << " " << x2 << ","
<< y2 << " " << x3 << "," << y3);
dx = x1;
dy = y2;
dw = x2 - x1;
dh = y3 - y1;
fShearX = x3 - x1;
fShearY = y2 - y1;
}
else if (type == EmfPlusRecordTypeDrawImage)
ReadRectangle(rMS, dx, dy, dw, dh, bool(flags & 0x4000));
SAL_INFO("drawinglayer.emf",
"EMF+\t Rectangle: " << dx << "," << dy << " " << dw << "x" << dh);
Size aSize;
if (image->type == ImageDataTypeBitmap)
{
aSize = image->graphic.GetBitmapEx().GetSizePixel();
SAL_INFO("drawinglayer.emf", "EMF+\t Bitmap size: " << aSize.Width()
<< "x"
<< aSize.Height());
if (sx < 0)
{
// If src position is negative then we need shift image to right
dx = dx + ((-sx) / sw) * dw;
if (sx + sw <= aSize.Width())
dw = ((sw + sx) / sw) * dw;
else
dw = (aSize.Width() / sw) * dw;
}
else if (sx + sw > aSize.Width())
// If the src image is smaller that what we want to cut, then we need to scale down
dw = ((aSize.Width() - sx) / sw) * dw;
if (sy < 0)
{
dy = dy + ((-sy) / sh) * dh;
if (sy + sh <= aSize.Height())
dh = ((sh + sy) / sh) * dh;
else
dh = (aSize.Height() / sh) * dh;
}
else if (sy + sh > aSize.Height())
dh = ((aSize.Height() - sy) / sh) * dh;
}
else
SAL_INFO(
"drawinglayer.emf",
"EMF+\t TODO: Add support for SrcRect to ImageDataTypeMetafile");
const ::basegfx::B2DPoint aDstPoint(dx, dy);
const ::basegfx::B2DSize aDstSize(dw, dh);
const basegfx::B2DHomMatrix aTransformMatrix
= maMapTransform
* basegfx::B2DHomMatrix(
/* Row 0, Column 0 */ aDstSize.getWidth(),
/* Row 0, Column 1 */ fShearX,
/* Row 0, Column 2 */ aDstPoint.getX(),
/* Row 1, Column 0 */ fShearY,
/* Row 1, Column 1 */ aDstSize.getHeight(),
/* Row 1, Column 2 */ aDstPoint.getY());
if (image->type == ImageDataTypeBitmap)
{
BitmapEx aBmp(image->graphic.GetBitmapEx());
aBmp.Crop(aSource);
aSize = aBmp.GetSizePixel();
if (aSize.Width() > 0 && aSize.Height() > 0)
{
mrTargetHolders.Current().append(
new drawinglayer::primitive2d::BitmapPrimitive2D(
aBmp, aTransformMatrix));
}
else
SAL_WARN("drawinglayer.emf", "EMF+\t warning: empty bitmap");
}
else if (image->type == ImageDataTypeMetafile)
{
GDIMetaFile aGDI(image->graphic.GetGDIMetaFile());
aGDI.Clip(aSource);
mrTargetHolders.Current().append(
new drawinglayer::primitive2d::MetafilePrimitive2D(aTransformMatrix,
aGDI));
}
}
else
{
SAL_WARN("drawinglayer.emf",
"EMF+\tDrawImage(Points) Wrong EMF+ file. Only Unit Type Pixel is "
"support by EMF+ specification for DrawImage(Points)");
}
break;
}
case EmfPlusRecordTypeDrawString:
{
sal_uInt32 brushId, formatId, stringLength;
rMS.ReadUInt32(brushId).ReadUInt32(formatId).ReadUInt32(stringLength);
SAL_INFO("drawinglayer.emf", "EMF+\t FontId: " << OUString::number(flags & 0xFF));
SAL_INFO("drawinglayer.emf", "EMF+\t BrushId: " << BrushIDToString(flags, brushId));
SAL_INFO("drawinglayer.emf", "EMF+\t FormatId: " << formatId);
SAL_INFO("drawinglayer.emf", "EMF+\t Length: " << stringLength);
// read the layout rectangle
float lx, ly, lw, lh;
rMS.ReadFloat(lx).ReadFloat(ly).ReadFloat(lw).ReadFloat(lh);
SAL_INFO("drawinglayer.emf", "EMF+\t DrawString layoutRect: " << lx << "," << ly << " - " << lw << "x" << lh);
// parse the string
const OUString text = read_uInt16s_ToOUString(rMS, stringLength);
SAL_INFO("drawinglayer.emf", "EMF+\t DrawString string: " << text);
// get the stringFormat from the Object table ( this is OPTIONAL and may be nullptr )
const EMFPStringFormat *stringFormat = dynamic_cast<EMFPStringFormat*>(maEMFPObjects[formatId & 0xff].get());
// get the font from the flags
const EMFPFont *font = dynamic_cast<EMFPFont*>(maEMFPObjects[flags & 0xff].get());
if (!font)
{
break;
}
mrPropertyHolders.Current().setFont(vcl::Font(font->family, Size(font->emSize, font->emSize)));
drawinglayer::attribute::FontAttribute fontAttribute(
font->family, // font family
u""_ustr, // (no) font style
font->Bold() ? 8u : 1u, // weight: 8 = bold
font->family == "SYMBOL", // symbol
stringFormat && stringFormat->DirectionVertical(), // vertical
font->Italic(), // italic
false, // monospaced
false, // outline = false, no such thing in MS-EMFPLUS
stringFormat && stringFormat->DirectionRightToLeft(), // right-to-left
false); // BiDiStrong
css::lang::Locale locale;
double stringAlignmentHorizontalOffset = 0.0;
double stringAlignmentVerticalOffset = font->emSize;
if (stringFormat)
{
LanguageTag aLanguageTag(static_cast<LanguageType>(stringFormat->language));
locale = aLanguageTag.getLocale();
drawinglayer::primitive2d::TextLayouterDevice aTextLayouter;
aTextLayouter.setFontAttribute(fontAttribute, font->emSize,
font->emSize, locale);
double fTextWidth = aTextLayouter.getTextWidth(text, 0, stringLength);
SAL_WARN_IF(stringFormat->DirectionRightToLeft(), "drawinglayer.emf",
"EMF+\t DrawString Alignment TODO For a right-to-left layout rectangle, the origin should be at the upper right.");
if (stringFormat->stringAlignment == StringAlignmentNear)
// Alignment is to the left side of the layout rectangle (lx, ly, lw, lh)
stringAlignmentHorizontalOffset = stringFormat->leadingMargin * font->emSize;
else if (stringFormat->stringAlignment == StringAlignmentCenter)
// Alignment is centered between the origin and extent of the layout rectangle
stringAlignmentHorizontalOffset = 0.5 * lw + (stringFormat->leadingMargin - stringFormat->trailingMargin) * font->emSize - 0.5 * fTextWidth;
else if (stringFormat->stringAlignment == StringAlignmentFar)
// Alignment is to the right side of the layout rectangle
stringAlignmentHorizontalOffset = lw - stringFormat->trailingMargin * font->emSize - fTextWidth;
if (stringFormat->lineAlign == StringAlignmentNear)
stringAlignmentVerticalOffset = font->emSize;
else if (stringFormat->lineAlign == StringAlignmentCenter)
stringAlignmentVerticalOffset = 0.5 * lh + 0.5 * font->emSize;
else if (stringFormat->lineAlign == StringAlignmentFar)
stringAlignmentVerticalOffset = lh;
}
else
{
// By default LeadingMargin is 1/6 inch
// TODO for typographic fonts set value to 0.
stringAlignmentHorizontalOffset = 16.0;
// use system default
locale = Application::GetSettings().GetLanguageTag().getLocale();
}
const basegfx::B2DHomMatrix transformMatrix = basegfx::utils::createScaleTranslateB2DHomMatrix(
::basegfx::B2DVector(font->emSize, font->emSize),
::basegfx::B2DPoint(lx + stringAlignmentHorizontalOffset,
ly + stringAlignmentVerticalOffset));
Color uncorrectedColor = EMFPGetBrushColorOrARGBColor(flags, brushId);
Color color;
if (mbSetTextContrast)
{
const auto gammaVal = mnTextContrast / 1000;
const basegfx::BColorModifier_gamma gamma(gammaVal);
// gamma correct transparency color
sal_uInt16 alpha = uncorrectedColor.GetAlpha();
alpha = std::clamp(std::pow(alpha, 1.0 / gammaVal), 0.0, 1.0) * 255;
basegfx::BColor modifiedColor(gamma.getModifiedColor(uncorrectedColor.getBColor()));
color.SetRed(modifiedColor.getRed() * 255);
color.SetGreen(modifiedColor.getGreen() * 255);
color.SetBlue(modifiedColor.getBlue() * 255);
color.SetAlpha(alpha);
}
else
{
color = uncorrectedColor;
}
mrPropertyHolders.Current().setTextColor(color.getBColor());
mrPropertyHolders.Current().setTextColorActive(true);
if (color.GetAlpha() > 0)
{
std::vector<double> emptyVector;
rtl::Reference<drawinglayer::primitive2d::BasePrimitive2D> pBaseText;
if (font->Underline() || font->Strikeout())
{
pBaseText = new drawinglayer::primitive2d::TextDecoratedPortionPrimitive2D(
transformMatrix,
text,
0, // text always starts at 0
stringLength,
std::move(emptyVector), // EMF-PLUS has no DX-array
{},
fontAttribute,
locale,
color.getBColor(), // Font Color
COL_TRANSPARENT, // Fill Color
color.getBColor(), // OverlineColor
color.getBColor(), // TextlineColor
drawinglayer::primitive2d::TEXT_LINE_NONE,
font->Underline() ? drawinglayer::primitive2d::TEXT_LINE_SINGLE : drawinglayer::primitive2d::TEXT_LINE_NONE,
false,
font->Strikeout() ? drawinglayer::primitive2d::TEXT_STRIKEOUT_SINGLE : drawinglayer::primitive2d::TEXT_STRIKEOUT_NONE);
}
else
{
pBaseText = new drawinglayer::primitive2d::TextSimplePortionPrimitive2D(
transformMatrix,
text,
0, // text always starts at 0
stringLength,
std::move(emptyVector), // EMF-PLUS has no DX-array
{},
fontAttribute,
locale,
color.getBColor());
}
drawinglayer::primitive2d::Primitive2DReference aPrimitiveText(pBaseText);
if (color.IsTransparent())
{
aPrimitiveText = new drawinglayer::primitive2d::UnifiedTransparencePrimitive2D(
drawinglayer::primitive2d::Primitive2DContainer { aPrimitiveText },
(255 - color.GetAlpha()) / 255.0);
}
mrTargetHolders.Current().append(
new drawinglayer::primitive2d::TransformPrimitive2D(
maMapTransform,
drawinglayer::primitive2d::Primitive2DContainer { aPrimitiveText } ));
}
break;
}
case EmfPlusRecordTypeSetPageTransform:
{
rMS.ReadFloat(mfPageScale);
SAL_INFO("drawinglayer.emf", "EMF+\t Scale: " << mfPageScale << " unit: " << UnitTypeToString(flags));
if ((flags == UnitTypeDisplay) || (flags == UnitTypeWorld))
{
SAL_WARN("drawinglayer.emf", "EMF+\t file error. UnitTypeDisplay and UnitTypeWorld are not supported by SetPageTransform in EMF+ specification.");
}
else
{
mnMmX = std::round(unitToPixel(static_cast<double>(mnMmX) * mfPageScale, flags, Direction::horizontal));
mnMmY = std::round(unitToPixel(static_cast<double>(mnMmY) * mfPageScale, flags, Direction::vertical));
mappingChanged();
}
break;
}
case EmfPlusRecordTypeSetRenderingOrigin:
{
rMS.ReadInt32(mnOriginX).ReadInt32(mnOriginY);
SAL_INFO("drawinglayer.emf", "EMF+\t SetRenderingOrigin, [x,y]: " << mnOriginX << "," << mnOriginY);
break;
}
case EmfPlusRecordTypeSetTextContrast:
{
const sal_uInt16 LOWERGAMMA = 1000;
const sal_uInt16 UPPERGAMMA = 2200;
mbSetTextContrast = true;
mnTextContrast = flags & 0xFFF;
SAL_WARN_IF(mnTextContrast > UPPERGAMMA || mnTextContrast < LOWERGAMMA,
"drawinglayer.emf", "EMF+\t Gamma value is not with bounds 1000 to 2200, value is " << mnTextContrast);
mnTextContrast = std::min(mnTextContrast, UPPERGAMMA);
mnTextContrast = std::max(mnTextContrast, LOWERGAMMA);
SAL_INFO("drawinglayer.emf", "EMF+\t Text contrast: " << (mnTextContrast / 1000) << " gamma");
break;
}
case EmfPlusRecordTypeSetTextRenderingHint:
{
sal_uInt8 nTextRenderingHint = (flags & 0xFF) >> 1;
SAL_INFO("drawinglayer.emf", "EMF+\t Text rendering hint: " << TextRenderingHintToString(nTextRenderingHint));
SAL_WARN("drawinglayer.emf", "EMF+\t TODO SetTextRenderingHint");
break;
}
case EmfPlusRecordTypeSetAntiAliasMode:
{
bool bUseAntiAlias = (flags & 0x0001);
sal_uInt8 nSmoothingMode = (flags & 0xFE00) >> 1;
SAL_INFO("drawinglayer.emf", "EMF+\t Antialiasing: " << (bUseAntiAlias ? "enabled" : "disabled"));
SAL_INFO("drawinglayer.emf", "EMF+\t Smoothing mode: " << SmoothingModeToString(nSmoothingMode));
SAL_WARN("drawinglayer.emf", "EMF+\t TODO SetAntiAliasMode");
break;
}
case EmfPlusRecordTypeSetInterpolationMode:
{
sal_uInt16 nInterpolationMode = flags & 0xFF;
SAL_INFO("drawinglayer.emf", "EMF+\t Interpolation mode: " << InterpolationModeToString(nInterpolationMode));
SAL_WARN("drawinglayer.emf", "EMF+\t TODO InterpolationMode");
break;
}
case EmfPlusRecordTypeSetPixelOffsetMode:
{
SAL_INFO("drawinglayer.emf", "EMF+\t Pixel offset mode: " << PixelOffsetModeToString(flags));
SAL_WARN("drawinglayer.emf", "EMF+\t TODO SetPixelOffsetMode");
break;
}
case EmfPlusRecordTypeSetCompositingQuality:
{
SAL_INFO("drawinglayer.emf", "EMF+\t TODO SetCompositingQuality");
break;
}
case EmfPlusRecordTypeSave:
{
sal_uInt32 stackIndex;
rMS.ReadUInt32(stackIndex);
SAL_INFO("drawinglayer.emf", "EMF+\t Save stack index: " << stackIndex);
GraphicStatePush(mGSStack, stackIndex);
break;
}
case EmfPlusRecordTypeRestore:
{
sal_uInt32 stackIndex;
rMS.ReadUInt32(stackIndex);
SAL_INFO("drawinglayer.emf", "EMF+\t Restore stack index: " << stackIndex);
GraphicStatePop(mGSStack, stackIndex);
break;
}
case EmfPlusRecordTypeBeginContainer:
{
float dx, dy, dw, dh;
ReadRectangle(rMS, dx, dy, dw, dh);
SAL_INFO("drawinglayer.emf", "EMF+\t Dest RectData: " << dx << "," << dy << " " << dw << "x" << dh);
float sx, sy, sw, sh;
ReadRectangle(rMS, sx, sy, sw, sh);
SAL_INFO("drawinglayer.emf", "EMF+\t Source RectData: " << sx << "," << sy << " " << sw << "x" << sh);
sal_uInt32 stackIndex;
rMS.ReadUInt32(stackIndex);
SAL_INFO("drawinglayer.emf", "EMF+\t Begin Container stack index: " << stackIndex << ", PageUnit: " << flags);
if ((flags == UnitTypeDisplay) || (flags == UnitTypeWorld))
{
SAL_WARN("drawinglayer.emf", "EMF+\t file error. UnitTypeDisplay and UnitTypeWorld are not supported by BeginContainer in EMF+ specification.");
break;
}
GraphicStatePush(mGSContainerStack, stackIndex);
const basegfx::B2DHomMatrix transform = basegfx::utils::createScaleTranslateB2DHomMatrix(
unitToPixel(static_cast<double>(dw) / sw, flags, Direction::horizontal),
unitToPixel(static_cast<double>(dh) / sh, flags, Direction::vertical),
unitToPixel(static_cast<double>(dx) - sx, flags, Direction::horizontal),
unitToPixel(static_cast<double>(dy) - sy, flags, Direction::vertical));
maWorldTransform *= transform;
mappingChanged();
break;
}
case EmfPlusRecordTypeBeginContainerNoParams:
{
sal_uInt32 stackIndex;
rMS.ReadUInt32(stackIndex);
SAL_INFO("drawinglayer.emf", "EMF+\t Begin Container No Params stack index: " << stackIndex);
GraphicStatePush(mGSContainerStack, stackIndex);
break;
}
case EmfPlusRecordTypeEndContainer:
{
sal_uInt32 stackIndex;
rMS.ReadUInt32(stackIndex);
SAL_INFO("drawinglayer.emf", "EMF+\t End Container stack index: " << stackIndex);
GraphicStatePop(mGSContainerStack, stackIndex);
break;
}
case EmfPlusRecordTypeSetWorldTransform:
{
SAL_INFO("drawinglayer.emf", "EMF+\t SetWorldTransform, Post multiply: " << bool(flags & 0x2000));
readXForm(rMS, maWorldTransform);
mappingChanged();
SAL_INFO("drawinglayer.emf", "EMF+\t\t: " << maWorldTransform);
break;
}
case EmfPlusRecordTypeResetWorldTransform:
{
maWorldTransform.identity();
SAL_INFO("drawinglayer.emf", "EMF+\t World transform: " << maWorldTransform);
mappingChanged();
break;
}
case EmfPlusRecordTypeMultiplyWorldTransform:
{
SAL_INFO("drawinglayer.emf", "EMF+\t MultiplyWorldTransform, post multiply: " << bool(flags & 0x2000));
basegfx::B2DHomMatrix transform;
readXForm(rMS, transform);
SAL_INFO("drawinglayer.emf",
"EMF+\t Transform matrix: " << transform);
if (flags & 0x2000)
{
// post multiply
maWorldTransform *= transform;
}
else
{
// pre multiply
transform *= maWorldTransform;
maWorldTransform = transform;
}
mappingChanged();
SAL_INFO("drawinglayer.emf",
"EMF+\t World transform matrix: " << maWorldTransform);
break;
}
case EmfPlusRecordTypeTranslateWorldTransform:
{
SAL_INFO("drawinglayer.emf", "EMF+\t TranslateWorldTransform, Post multiply: " << bool(flags & 0x2000));
basegfx::B2DHomMatrix transform;
float eDx, eDy;
rMS.ReadFloat(eDx).ReadFloat(eDy);
transform.set(0, 2, eDx);
transform.set(1, 2, eDy);
SAL_INFO("drawinglayer.emf",
"EMF+\t Translate matrix: " << transform);
if (flags & 0x2000)
{
// post multiply
maWorldTransform *= transform;
}
else
{
// pre multiply
transform *= maWorldTransform;
maWorldTransform = transform;
}
mappingChanged();
SAL_INFO("drawinglayer.emf",
"EMF+\t World transform matrix: " << maWorldTransform);
break;
}
case EmfPlusRecordTypeScaleWorldTransform:
{
basegfx::B2DHomMatrix transform;
float eSx, eSy;
rMS.ReadFloat(eSx).ReadFloat(eSy);
transform.set(0, 0, eSx);
transform.set(1, 1, eSy);
SAL_INFO("drawinglayer.emf", "EMF+\t ScaleWorldTransform Sx: " << eSx <<
" Sy: " << eSy << ", Post multiply:" << bool(flags & 0x2000));
SAL_INFO("drawinglayer.emf",
"EMF+\t World transform matrix: " << maWorldTransform);
if (flags & 0x2000)
{
// post multiply
maWorldTransform *= transform;
}
else
{
// pre multiply
transform *= maWorldTransform;
maWorldTransform = transform;
}
mappingChanged();
SAL_INFO("drawinglayer.emf",
"EMF+\t World transform matrix: " << maWorldTransform);
break;
}
case EmfPlusRecordTypeRotateWorldTransform:
{
// Angle of rotation in degrees
float eAngle;
rMS.ReadFloat(eAngle);
SAL_INFO("drawinglayer.emf", "EMF+\t RotateWorldTransform Angle: " << eAngle <<
", post multiply: " << bool(flags & 0x2000));
// Skipping flags & 0x2000
// For rotation transformation there is no difference between post and pre multiply
maWorldTransform.rotate(basegfx::deg2rad(eAngle));
mappingChanged();
SAL_INFO("drawinglayer.emf",
"EMF+\t " << maWorldTransform);
break;
}
case EmfPlusRecordTypeResetClip:
{
SAL_INFO("drawinglayer.emf", "EMF+ ResetClip");
// We don't need to read anything more, as Size needs to be set 0x0000000C
// and DataSize must be set to 0.
// Resets the current clipping region for the world space to infinity.
HandleNewClipRegion(::basegfx::B2DPolyPolygon(), mrTargetHolders, mrPropertyHolders);
break;
}
case EmfPlusRecordTypeSetClipRect:
case EmfPlusRecordTypeSetClipPath:
case EmfPlusRecordTypeSetClipRegion:
{
int combineMode = (flags >> 8) & 0xf;
::basegfx::B2DPolyPolygon polyPolygon;
if (type == EmfPlusRecordTypeSetClipRect)
{
SAL_INFO("drawinglayer.emf", "EMF+\t SetClipRect");
float dx, dy, dw, dh;
ReadRectangle(rMS, dx, dy, dw, dh);
SAL_INFO("drawinglayer.emf",
"EMF+\t RectData: " << dx << "," << dy << " " << dw << "x" << dh);
::basegfx::B2DPoint mappedPoint1(Map(dx, dy));
::basegfx::B2DPoint mappedPoint2(Map(dx + dw, dy + dh));
polyPolygon
= ::basegfx::B2DPolyPolygon(::basegfx::utils::createPolygonFromRect(
::basegfx::B2DRectangle(mappedPoint1.getX(), mappedPoint1.getY(),
mappedPoint2.getX(), mappedPoint2.getY())));
}
else if (type == EmfPlusRecordTypeSetClipPath)
{
SAL_INFO("drawinglayer.emf", "EMF+\tSetClipPath " << (flags & 0xff));
EMFPPath* path = dynamic_cast<EMFPPath*>(maEMFPObjects[flags & 0xff].get());
if (!path)
{
SAL_WARN("drawinglayer.emf",
"EMF+\t TODO Unable to find path in slot: " << (flags & 0xff));
break;
}
polyPolygon = path->GetPolygon(*this);
}
else if (type == EmfPlusRecordTypeSetClipRegion)
{
SAL_INFO("drawinglayer.emf", "EMF+\t Region in slot: " << (flags & 0xff));
EMFPRegion* region
= dynamic_cast<EMFPRegion*>(maEMFPObjects[flags & 0xff].get());
if (!region)
{
SAL_WARN(
"drawinglayer.emf",
"EMF+\t TODO Unable to find region in slot: " << (flags & 0xff));
break;
}
polyPolygon = region->regionPolyPolygon;
}
SAL_INFO("drawinglayer.emf", "EMF+\t Combine mode: " << combineMode);
::basegfx::B2DPolyPolygon aClippedPolyPolygon;
if (mrPropertyHolders.Current().getClipPolyPolygonActive())
{
aClippedPolyPolygon
= combineClip(mrPropertyHolders.Current().getClipPolyPolygon(),
combineMode, polyPolygon);
}
else
{
//Combine with infinity
switch (combineMode)
{
case EmfPlusCombineModeReplace:
case EmfPlusCombineModeIntersect:
{
aClippedPolyPolygon = polyPolygon;
break;
}
case EmfPlusCombineModeUnion:
{
// Disable clipping as the clipping is infinity
aClippedPolyPolygon = ::basegfx::B2DPolyPolygon();
break;
}
case EmfPlusCombineModeXOR:
case EmfPlusCombineModeComplement:
{
//TODO It is not correct and it should be fixed
aClippedPolyPolygon = polyPolygon;
break;
}
case EmfPlusCombineModeExclude:
{
//TODO It is not correct and it should be fixed
aClippedPolyPolygon = ::basegfx::B2DPolyPolygon();
break;
}
}
}
HandleNewClipRegion(aClippedPolyPolygon, mrTargetHolders, mrPropertyHolders);
break;
}
case EmfPlusRecordTypeOffsetClip:
{
float dx, dy;
rMS.ReadFloat(dx).ReadFloat(dy);
SAL_INFO("drawinglayer.emf", "EMF+\tOffset x:" << dx << ", y:" << dy);
basegfx::B2DPolyPolygon aPolyPolygon(
mrPropertyHolders.Current().getClipPolyPolygon());
SAL_INFO("drawinglayer.emf",
"EMF+\t PolyPolygon before translate: " << aPolyPolygon);
basegfx::B2DPoint aOffset = Map(dx, dy);
basegfx::B2DHomMatrix transformMatrix;
transformMatrix.set(0, 2, aOffset.getX());
transformMatrix.set(1, 2, aOffset.getY());
aPolyPolygon.transform(transformMatrix);
SAL_INFO("drawinglayer.emf",
"EMF+\t PolyPolygon after translate: " << aPolyPolygon <<
", mapped offset x" << aOffset.getX() << ", mapped offset y" << aOffset.getY());
HandleNewClipRegion(aPolyPolygon, mrTargetHolders, mrPropertyHolders);
break;
}
case EmfPlusRecordTypeDrawDriverString:
{
sal_uInt32 brushIndexOrColor;
sal_uInt32 optionFlags;
sal_uInt32 hasMatrix;
sal_uInt32 glyphsCount;
rMS.ReadUInt32(brushIndexOrColor).ReadUInt32(optionFlags).ReadUInt32(hasMatrix).ReadUInt32(glyphsCount);
SAL_INFO("drawinglayer.emf", "EMF+\t " << ((flags & 0x8000) ? "Color" : "Brush index") << ": 0x" << std::hex << brushIndexOrColor << std::dec);
SAL_INFO("drawinglayer.emf", "EMF+\t Option flags: 0x" << std::hex << optionFlags << std::dec);
SAL_INFO("drawinglayer.emf", "EMF+\t Has matrix: " << hasMatrix);
SAL_INFO("drawinglayer.emf", "EMF+\t Glyphs: " << glyphsCount);
if ((optionFlags & 1) && glyphsCount > 0)
{
std::unique_ptr<float[]> charsPosX(new float[glyphsCount]);
std::unique_ptr<float[]> charsPosY(new float[glyphsCount]);
OUString text = read_uInt16s_ToOUString(rMS, glyphsCount);
SAL_INFO("drawinglayer.emf", "EMF+\t DrawDriverString string: " << text);
for (sal_uInt32 i = 0; i<glyphsCount; i++)
{
rMS.ReadFloat(charsPosX[i]).ReadFloat(charsPosY[i]);
SAL_INFO("drawinglayer.emf", "EMF+\t\t glyphPosition[" << i << "]: " << charsPosX[i] << "," << charsPosY[i]);
}
basegfx::B2DHomMatrix transform;
if (hasMatrix)
{
readXForm(rMS, transform);
SAL_INFO("drawinglayer.emf", "EMF+\tmatrix: " << transform);
}
// get the font from the flags
EMFPFont *font = dynamic_cast<EMFPFont*>(maEMFPObjects[flags & 0xff].get());
if (!font)
{
break;
}
// done reading
drawinglayer::attribute::FontAttribute fontAttribute(
font->family, // font family
u""_ustr, // (no) font style
font->Bold() ? 8u : 1u, // weight: 8 = bold
font->family == "SYMBOL", // symbol
optionFlags & 0x2, // vertical
font->Italic(), // italic
false, // monospaced
false, // outline = false, no such thing in MS-EMFPLUS
false, // right-to-left
false); // BiDiStrong
const Color color = EMFPGetBrushColorOrARGBColor(flags, brushIndexOrColor);
// generate TextSimplePortionPrimitive2Ds or TextDecoratedPortionPrimitive2D
// for all portions of text with the same charsPosY values
sal_uInt32 pos = 0;
while (pos < glyphsCount)
{
//determine the current length
sal_uInt32 aLength = 1;
while (pos + aLength < glyphsCount && std::abs( charsPosY[pos + aLength] - charsPosY[pos] ) < std::numeric_limits< float >::epsilon())
aLength++;
// generate the DX-Array
std::vector<double> aDXArray;
for (size_t i = 0; i < aLength - 1; i++)
{
aDXArray.push_back(charsPosX[pos + i + 1] - charsPosX[pos]);
}
// last entry
aDXArray.push_back(0);
basegfx::B2DHomMatrix transformMatrix = basegfx::utils::createScaleTranslateB2DHomMatrix(
::basegfx::B2DVector(font->emSize, font->emSize),
::basegfx::B2DPoint(charsPosX[pos], charsPosY[pos]));
if (hasMatrix)
transformMatrix *= transform;
if (color.GetAlpha() > 0)
{
rtl::Reference<drawinglayer::primitive2d::BasePrimitive2D> pBaseText;
if (font->Underline() || font->Strikeout())
{
pBaseText = new drawinglayer::primitive2d::TextDecoratedPortionPrimitive2D(
transformMatrix,
text,
pos, // take character at current pos
aLength, // use determined length
std::move(aDXArray), // generated DXArray
{},
fontAttribute,
Application::GetSettings().GetLanguageTag().getLocale(),
color.getBColor(),
COL_TRANSPARENT,
color.getBColor(),
color.getBColor(),
drawinglayer::primitive2d::TEXT_LINE_NONE,
font->Underline() ? drawinglayer::primitive2d::TEXT_LINE_SINGLE : drawinglayer::primitive2d::TEXT_LINE_NONE,
false,
font->Strikeout() ? drawinglayer::primitive2d::TEXT_STRIKEOUT_SINGLE : drawinglayer::primitive2d::TEXT_STRIKEOUT_NONE);
}
else
{
pBaseText = new drawinglayer::primitive2d::TextSimplePortionPrimitive2D(
transformMatrix,
text,
pos, // take character at current pos
aLength, // use determined length
std::move(aDXArray), // generated DXArray
{},
fontAttribute,
Application::GetSettings().GetLanguageTag().getLocale(),
color.getBColor());
}
drawinglayer::primitive2d::Primitive2DReference aPrimitiveText(pBaseText);
if (color.IsTransparent())
{
aPrimitiveText = new drawinglayer::primitive2d::UnifiedTransparencePrimitive2D(
drawinglayer::primitive2d::Primitive2DContainer { aPrimitiveText },
(255 - color.GetAlpha()) / 255.0);
}
mrTargetHolders.Current().append(
new drawinglayer::primitive2d::TransformPrimitive2D(
maMapTransform,
drawinglayer::primitive2d::Primitive2DContainer { aPrimitiveText } ));
}
// update pos
pos += aLength;
}
}
else
{
SAL_WARN("drawinglayer.emf", "EMF+\tTODO: fonts (non-unicode glyphs chars)");
}
break;
}
default:
{
SAL_WARN("drawinglayer.emf", "EMF+ TODO unhandled record type: 0x" << std::hex << type << std::dec);
}
}
}
rMS.Seek(next);
if (size <= length)
{
length -= size;
}
else
{
SAL_WARN("drawinglayer.emf", "ImplRenderer::processEMFPlus: "
"size " << size << " > length " << length);
length = 0;
}
}
}
}
/* vim:set shiftwidth=4 softtabstop=4 expandtab: */