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|
/* -*- 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 "vclpixelprocessor2d.hxx"
#include "vclhelperbufferdevice.hxx"
#include "helperwrongspellrenderer.hxx"
#include <sal/log.hxx>
#include <tools/stream.hxx>
#include <vcl/BitmapBasicMorphologyFilter.hxx>
#include <vcl/BitmapFilterStackBlur.hxx>
#include <vcl/outdev.hxx>
#include <vcl/dibtools.hxx>
#include <vcl/hatch.hxx>
#include <basegfx/polygon/b2dpolygontools.hxx>
#include <drawinglayer/primitive2d/drawinglayer_primitivetypes2d.hxx>
#include <drawinglayer/primitive2d/Tools.hxx>
#include <drawinglayer/primitive2d/textprimitive2d.hxx>
#include <drawinglayer/primitive2d/PolyPolygonHairlinePrimitive2D.hxx>
#include <drawinglayer/primitive2d/PolyPolygonMarkerPrimitive2D.hxx>
#include <drawinglayer/primitive2d/PolyPolygonStrokePrimitive2D.hxx>
#include <drawinglayer/primitive2d/PolyPolygonColorPrimitive2D.hxx>
#include <drawinglayer/primitive2d/PolyPolygonGradientPrimitive2D.hxx>
#include <drawinglayer/primitive2d/PolyPolygonHatchPrimitive2D.hxx>
#include <drawinglayer/primitive2d/PolyPolygonGraphicPrimitive2D.hxx>
#include <drawinglayer/primitive2d/PolyPolygonSelectionPrimitive2D.hxx>
#include <drawinglayer/primitive2d/polygonprimitive2d.hxx>
#include <drawinglayer/primitive2d/bitmapprimitive2d.hxx>
#include <drawinglayer/primitive2d/fillgraphicprimitive2d.hxx>
#include <drawinglayer/primitive2d/maskprimitive2d.hxx>
#include <drawinglayer/primitive2d/modifiedcolorprimitive2d.hxx>
#include <drawinglayer/primitive2d/transparenceprimitive2d.hxx>
#include <drawinglayer/primitive2d/transformprimitive2d.hxx>
#include <drawinglayer/primitive2d/markerarrayprimitive2d.hxx>
#include <drawinglayer/primitive2d/glowprimitive2d.hxx>
#include <drawinglayer/primitive2d/wrongspellprimitive2d.hxx>
#include <drawinglayer/primitive2d/controlprimitive2d.hxx>
#include <drawinglayer/primitive2d/borderlineprimitive2d.hxx>
#include <drawinglayer/primitive2d/unifiedtransparenceprimitive2d.hxx>
#include <drawinglayer/primitive2d/pagepreviewprimitive2d.hxx>
#include <drawinglayer/primitive2d/backgroundcolorprimitive2d.hxx>
#include <drawinglayer/primitive2d/svggradientprimitive2d.hxx>
#include <drawinglayer/primitive2d/pointarrayprimitive2d.hxx>
#include <drawinglayer/primitive2d/fillhatchprimitive2d.hxx>
#include <drawinglayer/primitive2d/epsprimitive2d.hxx>
#include <drawinglayer/primitive2d/softedgeprimitive2d.hxx>
#include <com/sun/star/awt/XWindow2.hpp>
#include <com/sun/star/awt/XControl.hpp>
using namespace com::sun::star;
namespace drawinglayer::processor2d
{
struct VclPixelProcessor2D::Impl
{
AntialiasingFlags m_nOrigAntiAliasing;
explicit Impl(OutputDevice const& rOutDev)
: m_nOrigAntiAliasing(rOutDev.GetAntialiasing())
{
}
};
VclPixelProcessor2D::VclPixelProcessor2D(const geometry::ViewInformation2D& rViewInformation,
OutputDevice& rOutDev,
const basegfx::BColorModifierStack& rInitStack)
: VclProcessor2D(rViewInformation, rOutDev, rInitStack)
, m_pImpl(new Impl(rOutDev))
{
// prepare maCurrentTransformation matrix with viewTransformation to target directly to pixels
maCurrentTransformation = rViewInformation.getObjectToViewTransformation();
// prepare output directly to pixels
mpOutputDevice->Push(PushFlags::MAPMODE);
mpOutputDevice->SetMapMode();
// react on AntiAliasing settings
if (getOptionsDrawinglayer().IsAntiAliasing())
{
mpOutputDevice->SetAntialiasing(m_pImpl->m_nOrigAntiAliasing
| AntialiasingFlags::EnableB2dDraw);
}
else
{
mpOutputDevice->SetAntialiasing(m_pImpl->m_nOrigAntiAliasing
& ~AntialiasingFlags::EnableB2dDraw);
}
}
VclPixelProcessor2D::~VclPixelProcessor2D()
{
// restore MapMode
mpOutputDevice->Pop();
// restore AntiAliasing
mpOutputDevice->SetAntialiasing(m_pImpl->m_nOrigAntiAliasing);
}
void VclPixelProcessor2D::tryDrawPolyPolygonColorPrimitive2DDirect(
const drawinglayer::primitive2d::PolyPolygonColorPrimitive2D& rSource, double fTransparency)
{
if (!rSource.getB2DPolyPolygon().count() || fTransparency < 0.0 || fTransparency >= 1.0)
{
// no geometry, done
return;
}
const basegfx::BColor aPolygonColor(
maBColorModifierStack.getModifiedColor(rSource.getBColor()));
mpOutputDevice->SetFillColor(Color(aPolygonColor));
mpOutputDevice->SetLineColor();
mpOutputDevice->DrawTransparent(maCurrentTransformation, rSource.getB2DPolyPolygon(),
fTransparency);
}
bool VclPixelProcessor2D::tryDrawPolygonHairlinePrimitive2DDirect(
const drawinglayer::primitive2d::PolygonHairlinePrimitive2D& rSource, double fTransparency)
{
const basegfx::B2DPolygon& rLocalPolygon(rSource.getB2DPolygon());
if (!rLocalPolygon.count() || fTransparency < 0.0 || fTransparency >= 1.0)
{
// no geometry, done
return true;
}
const basegfx::BColor aLineColor(maBColorModifierStack.getModifiedColor(rSource.getBColor()));
mpOutputDevice->SetFillColor();
mpOutputDevice->SetLineColor(Color(aLineColor));
//aLocalPolygon.transform(maCurrentTransformation);
// try drawing; if it did not work, use standard fallback
return mpOutputDevice->DrawPolyLineDirect(maCurrentTransformation, rLocalPolygon, 0.0,
fTransparency);
}
bool VclPixelProcessor2D::tryDrawPolygonStrokePrimitive2DDirect(
const drawinglayer::primitive2d::PolygonStrokePrimitive2D& rSource, double fTransparency)
{
const basegfx::B2DPolygon& rLocalPolygon(rSource.getB2DPolygon());
if (!rLocalPolygon.count() || fTransparency < 0.0 || fTransparency >= 1.0)
{
// no geometry, done
return true;
}
if (basegfx::B2DLineJoin::NONE == rSource.getLineAttribute().getLineJoin()
&& css::drawing::LineCap_BUTT != rSource.getLineAttribute().getLineCap())
{
// better use decompose to get that combination done for now, see discussion
// at https://bugs.documentfoundation.org/show_bug.cgi?id=130478#c17 and ff
return false;
}
// MM01: Radically change here - no dismantle/applyLineDashing,
// let that happen low-level at DrawPolyLineDirect implementations
// to open up for buffering and evtl. direct draw with sys-dep
// graphic systems. Check for stroke is in use
const bool bStrokeAttributeNotUsed(rSource.getStrokeAttribute().isDefault()
|| 0.0 == rSource.getStrokeAttribute().getFullDotDashLen());
const basegfx::BColor aLineColor(
maBColorModifierStack.getModifiedColor(rSource.getLineAttribute().getColor()));
mpOutputDevice->SetFillColor();
mpOutputDevice->SetLineColor(Color(aLineColor));
// MM01 draw direct, hand over dash data if available
return mpOutputDevice->DrawPolyLineDirect(
maCurrentTransformation, rLocalPolygon,
// tdf#124848 use LineWidth direct, do not try to solve for zero-case (aka hairline)
rSource.getLineAttribute().getWidth(), fTransparency,
bStrokeAttributeNotUsed ? nullptr : &rSource.getStrokeAttribute().getDotDashArray(),
rSource.getLineAttribute().getLineJoin(), rSource.getLineAttribute().getLineCap(),
rSource.getLineAttribute().getMiterMinimumAngle()
/* false bBypassAACheck, default*/);
}
void VclPixelProcessor2D::processBasePrimitive2D(const primitive2d::BasePrimitive2D& rCandidate)
{
switch (rCandidate.getPrimitive2DID())
{
case PRIMITIVE2D_ID_WRONGSPELLPRIMITIVE2D:
{
processWrongSpellPrimitive2D(
static_cast<const primitive2d::WrongSpellPrimitive2D&>(rCandidate));
break;
}
case PRIMITIVE2D_ID_TEXTSIMPLEPORTIONPRIMITIVE2D:
{
processTextSimplePortionPrimitive2D(
static_cast<const primitive2d::TextSimplePortionPrimitive2D&>(rCandidate));
break;
}
case PRIMITIVE2D_ID_TEXTDECORATEDPORTIONPRIMITIVE2D:
{
processTextDecoratedPortionPrimitive2D(
static_cast<const primitive2d::TextSimplePortionPrimitive2D&>(rCandidate));
break;
}
case PRIMITIVE2D_ID_POLYGONHAIRLINEPRIMITIVE2D:
{
processPolygonHairlinePrimitive2D(
static_cast<const primitive2d::PolygonHairlinePrimitive2D&>(rCandidate));
break;
}
case PRIMITIVE2D_ID_BITMAPPRIMITIVE2D:
{
// direct draw of transformed BitmapEx primitive
processBitmapPrimitive2D(
static_cast<const primitive2d::BitmapPrimitive2D&>(rCandidate));
break;
}
case PRIMITIVE2D_ID_FILLGRAPHICPRIMITIVE2D:
{
// direct draw of fillBitmapPrimitive
RenderFillGraphicPrimitive2D(
static_cast<const primitive2d::FillGraphicPrimitive2D&>(rCandidate));
break;
}
case PRIMITIVE2D_ID_POLYPOLYGONGRADIENTPRIMITIVE2D:
{
processPolyPolygonGradientPrimitive2D(
static_cast<const primitive2d::PolyPolygonGradientPrimitive2D&>(rCandidate));
break;
}
case PRIMITIVE2D_ID_POLYPOLYGONGRAPHICPRIMITIVE2D:
{
// direct draw of bitmap
RenderPolyPolygonGraphicPrimitive2D(
static_cast<const primitive2d::PolyPolygonGraphicPrimitive2D&>(rCandidate));
break;
}
case PRIMITIVE2D_ID_POLYPOLYGONCOLORPRIMITIVE2D:
{
processPolyPolygonColorPrimitive2D(
static_cast<const primitive2d::PolyPolygonColorPrimitive2D&>(rCandidate));
break;
}
case PRIMITIVE2D_ID_METAFILEPRIMITIVE2D:
{
processMetaFilePrimitive2D(rCandidate);
break;
}
case PRIMITIVE2D_ID_MASKPRIMITIVE2D:
{
// mask group.
RenderMaskPrimitive2DPixel(
static_cast<const primitive2d::MaskPrimitive2D&>(rCandidate));
break;
}
case PRIMITIVE2D_ID_MODIFIEDCOLORPRIMITIVE2D:
{
// modified color group. Force output to unified color.
RenderModifiedColorPrimitive2D(
static_cast<const primitive2d::ModifiedColorPrimitive2D&>(rCandidate));
break;
}
case PRIMITIVE2D_ID_UNIFIEDTRANSPARENCEPRIMITIVE2D:
{
processUnifiedTransparencePrimitive2D(
static_cast<const primitive2d::UnifiedTransparencePrimitive2D&>(rCandidate));
break;
}
case PRIMITIVE2D_ID_TRANSPARENCEPRIMITIVE2D:
{
// sub-transparence group. Draw to VDev first.
RenderTransparencePrimitive2D(
static_cast<const primitive2d::TransparencePrimitive2D&>(rCandidate));
break;
}
case PRIMITIVE2D_ID_TRANSFORMPRIMITIVE2D:
{
// transform group.
RenderTransformPrimitive2D(
static_cast<const primitive2d::TransformPrimitive2D&>(rCandidate));
break;
}
case PRIMITIVE2D_ID_PAGEPREVIEWPRIMITIVE2D:
{
// new XDrawPage for ViewInformation2D
RenderPagePreviewPrimitive2D(
static_cast<const primitive2d::PagePreviewPrimitive2D&>(rCandidate));
break;
}
case PRIMITIVE2D_ID_MARKERARRAYPRIMITIVE2D:
{
// marker array
RenderMarkerArrayPrimitive2D(
static_cast<const primitive2d::MarkerArrayPrimitive2D&>(rCandidate));
break;
}
case PRIMITIVE2D_ID_POINTARRAYPRIMITIVE2D:
{
// point array
RenderPointArrayPrimitive2D(
static_cast<const primitive2d::PointArrayPrimitive2D&>(rCandidate));
break;
}
case PRIMITIVE2D_ID_CONTROLPRIMITIVE2D:
{
processControlPrimitive2D(
static_cast<const primitive2d::ControlPrimitive2D&>(rCandidate));
break;
}
case PRIMITIVE2D_ID_POLYGONSTROKEPRIMITIVE2D:
{
processPolygonStrokePrimitive2D(
static_cast<const primitive2d::PolygonStrokePrimitive2D&>(rCandidate));
break;
}
case PRIMITIVE2D_ID_FILLHATCHPRIMITIVE2D:
{
processFillHatchPrimitive2D(
static_cast<const primitive2d::FillHatchPrimitive2D&>(rCandidate));
break;
}
case PRIMITIVE2D_ID_BACKGROUNDCOLORPRIMITIVE2D:
{
processBackgroundColorPrimitive2D(
static_cast<const primitive2d::BackgroundColorPrimitive2D&>(rCandidate));
break;
}
case PRIMITIVE2D_ID_TEXTHIERARCHYEDITPRIMITIVE2D:
{
// #i97628#
// This primitive means that the content is derived from an active text edit,
// not from model data itself. Some renderers need to suppress this content, e.g.
// the pixel renderer used for displaying the edit view (like this one). It's
// not to be suppressed by the MetaFile renderers, so that the edited text is
// part of the MetaFile, e.g. needed for presentation previews.
// Action: Ignore here, do nothing.
break;
}
case PRIMITIVE2D_ID_INVERTPRIMITIVE2D:
{
processInvertPrimitive2D(rCandidate);
break;
}
case PRIMITIVE2D_ID_EPSPRIMITIVE2D:
{
RenderEpsPrimitive2D(static_cast<const primitive2d::EpsPrimitive2D&>(rCandidate));
break;
}
case PRIMITIVE2D_ID_SVGLINEARATOMPRIMITIVE2D:
{
RenderSvgLinearAtomPrimitive2D(
static_cast<const primitive2d::SvgLinearAtomPrimitive2D&>(rCandidate));
break;
}
case PRIMITIVE2D_ID_SVGRADIALATOMPRIMITIVE2D:
{
RenderSvgRadialAtomPrimitive2D(
static_cast<const primitive2d::SvgRadialAtomPrimitive2D&>(rCandidate));
break;
}
case PRIMITIVE2D_ID_BORDERLINEPRIMITIVE2D:
{
processBorderLinePrimitive2D(
static_cast<const drawinglayer::primitive2d::BorderLinePrimitive2D&>(rCandidate));
break;
}
case PRIMITIVE2D_ID_GLOWPRIMITIVE2D:
{
processGlowPrimitive2D(
static_cast<const drawinglayer::primitive2d::GlowPrimitive2D&>(rCandidate));
break;
}
case PRIMITIVE2D_ID_SOFTEDGEPRIMITIVE2D:
{
processSoftEdgePrimitive2D(
static_cast<const drawinglayer::primitive2d::SoftEdgePrimitive2D&>(rCandidate));
break;
}
default:
{
SAL_INFO("drawinglayer", "default case for " << drawinglayer::primitive2d::idToString(
rCandidate.getPrimitive2DID()));
// process recursively
process(rCandidate);
break;
}
}
}
void VclPixelProcessor2D::processWrongSpellPrimitive2D(
const primitive2d::WrongSpellPrimitive2D& rWrongSpellPrimitive)
{
if (!renderWrongSpellPrimitive2D(rWrongSpellPrimitive, *mpOutputDevice, maCurrentTransformation,
maBColorModifierStack))
{
// fallback to decomposition (MetaFile)
process(rWrongSpellPrimitive);
}
}
void VclPixelProcessor2D::processTextSimplePortionPrimitive2D(
const primitive2d::TextSimplePortionPrimitive2D& rCandidate)
{
// Adapt evtl. used special DrawMode
const DrawModeFlags nOriginalDrawMode(mpOutputDevice->GetDrawMode());
adaptTextToFillDrawMode();
if (getOptionsDrawinglayer().IsRenderSimpleTextDirect())
{
RenderTextSimpleOrDecoratedPortionPrimitive2D(rCandidate);
}
else
{
process(rCandidate);
}
// restore DrawMode
mpOutputDevice->SetDrawMode(nOriginalDrawMode);
}
void VclPixelProcessor2D::processTextDecoratedPortionPrimitive2D(
const primitive2d::TextSimplePortionPrimitive2D& rCandidate)
{
// Adapt evtl. used special DrawMode
const DrawModeFlags nOriginalDrawMode(mpOutputDevice->GetDrawMode());
adaptTextToFillDrawMode();
if (getOptionsDrawinglayer().IsRenderDecoratedTextDirect())
{
RenderTextSimpleOrDecoratedPortionPrimitive2D(rCandidate);
}
else
{
process(rCandidate);
}
// restore DrawMode
mpOutputDevice->SetDrawMode(nOriginalDrawMode);
}
void VclPixelProcessor2D::processPolygonHairlinePrimitive2D(
const primitive2d::PolygonHairlinePrimitive2D& rPolygonHairlinePrimitive2D)
{
if (tryDrawPolygonHairlinePrimitive2DDirect(rPolygonHairlinePrimitive2D, 0.0))
{
return;
}
// direct draw of hairline
RenderPolygonHairlinePrimitive2D(rPolygonHairlinePrimitive2D, true);
}
void VclPixelProcessor2D::processBitmapPrimitive2D(
const primitive2d::BitmapPrimitive2D& rBitmapCandidate)
{
// check if graphic content is inside discrete local ViewPort
const basegfx::B2DRange& rDiscreteViewPort(getViewInformation2D().getDiscreteViewport());
const basegfx::B2DHomMatrix aLocalTransform(maCurrentTransformation
* rBitmapCandidate.getTransform());
if (!rDiscreteViewPort.isEmpty())
{
basegfx::B2DRange aUnitRange(0.0, 0.0, 1.0, 1.0);
aUnitRange.transform(aLocalTransform);
if (!aUnitRange.overlaps(rDiscreteViewPort))
{
// content is outside discrete local ViewPort
return;
}
}
RenderBitmapPrimitive2D(rBitmapCandidate);
}
void VclPixelProcessor2D::processPolyPolygonGradientPrimitive2D(
const primitive2d::PolyPolygonGradientPrimitive2D& rPolygonCandidate)
{
// direct draw of gradient
const attribute::FillGradientAttribute& rGradient(rPolygonCandidate.getFillGradient());
basegfx::BColor aStartColor(maBColorModifierStack.getModifiedColor(rGradient.getStartColor()));
basegfx::BColor aEndColor(maBColorModifierStack.getModifiedColor(rGradient.getEndColor()));
basegfx::B2DPolyPolygon aLocalPolyPolygon(rPolygonCandidate.getB2DPolyPolygon());
if (!aLocalPolyPolygon.count())
return;
if (aStartColor == aEndColor)
{
// no gradient at all, draw as polygon in AA and non-AA case
aLocalPolyPolygon.transform(maCurrentTransformation);
mpOutputDevice->SetLineColor();
mpOutputDevice->SetFillColor(Color(aStartColor));
mpOutputDevice->DrawPolyPolygon(aLocalPolyPolygon);
}
else
{
// use the primitive decomposition of the metafile
process(rPolygonCandidate);
}
}
void VclPixelProcessor2D::processPolyPolygonColorPrimitive2D(
const primitive2d::PolyPolygonColorPrimitive2D& rPolyPolygonColorPrimitive2D)
{
// try to use directly
basegfx::B2DPolyPolygon aLocalPolyPolygon;
tryDrawPolyPolygonColorPrimitive2DDirect(rPolyPolygonColorPrimitive2D, 0.0);
// okay, done. In this case no gaps should have to be repaired, too
// when AA is on and this filled polygons are the result of stroked line geometry,
// draw the geometry once extra as lines to avoid AA 'gaps' between partial polygons
// Caution: This is needed in both cases (!)
if (!(mnPolygonStrokePrimitive2D && getOptionsDrawinglayer().IsAntiAliasing()
&& (mpOutputDevice->GetAntialiasing() & AntialiasingFlags::EnableB2dDraw)))
return;
const basegfx::BColor aPolygonColor(
maBColorModifierStack.getModifiedColor(rPolyPolygonColorPrimitive2D.getBColor()));
sal_uInt32 nCount(aLocalPolyPolygon.count());
if (!nCount)
{
aLocalPolyPolygon = rPolyPolygonColorPrimitive2D.getB2DPolyPolygon();
aLocalPolyPolygon.transform(maCurrentTransformation);
nCount = aLocalPolyPolygon.count();
}
mpOutputDevice->SetFillColor();
mpOutputDevice->SetLineColor(Color(aPolygonColor));
for (sal_uInt32 a(0); a < nCount; a++)
{
mpOutputDevice->DrawPolyLine(aLocalPolyPolygon.getB2DPolygon(a), 0.0);
}
}
void VclPixelProcessor2D::processUnifiedTransparencePrimitive2D(
const primitive2d::UnifiedTransparencePrimitive2D& rUniTransparenceCandidate)
{
// Detect if a single PolyPolygonColorPrimitive2D is contained; in that case,
// use the faster OutputDevice::DrawTransparent method
const primitive2d::Primitive2DContainer& rContent = rUniTransparenceCandidate.getChildren();
if (rContent.empty())
return;
if (0.0 == rUniTransparenceCandidate.getTransparence())
{
// not transparent at all, use content
process(rUniTransparenceCandidate.getChildren());
}
else if (rUniTransparenceCandidate.getTransparence() > 0.0
&& rUniTransparenceCandidate.getTransparence() < 1.0)
{
bool bDrawTransparentUsed(false);
if (1 == rContent.size())
{
const primitive2d::Primitive2DReference xReference(rContent[0]);
const primitive2d::BasePrimitive2D* pBasePrimitive
= dynamic_cast<const primitive2d::BasePrimitive2D*>(xReference.get());
if (pBasePrimitive)
{
switch (pBasePrimitive->getPrimitive2DID())
{
case PRIMITIVE2D_ID_POLYPOLYGONCOLORPRIMITIVE2D:
{
// single transparent tools::PolyPolygon identified, use directly
const primitive2d::PolyPolygonColorPrimitive2D* pPoPoColor
= static_cast<const primitive2d::PolyPolygonColorPrimitive2D*>(
pBasePrimitive);
SAL_WARN_IF(!pPoPoColor, "drawinglayer",
"OOps, PrimitiveID and PrimitiveType do not match (!)");
bDrawTransparentUsed = true;
tryDrawPolyPolygonColorPrimitive2DDirect(
*pPoPoColor, rUniTransparenceCandidate.getTransparence());
break;
}
case PRIMITIVE2D_ID_POLYGONHAIRLINEPRIMITIVE2D:
{
// single transparent PolygonHairlinePrimitive2D identified, use directly
const primitive2d::PolygonHairlinePrimitive2D* pPoHair
= static_cast<const primitive2d::PolygonHairlinePrimitive2D*>(
pBasePrimitive);
SAL_WARN_IF(!pPoHair, "drawinglayer",
"OOps, PrimitiveID and PrimitiveType do not match (!)");
// do no tallow by default - problem is that self-overlapping parts of this geometry will
// not be in an all-same transparency but will already alpha-cover themselves with blending.
// This is not what the UnifiedTransparencePrimitive2D defines: It requires all its
// content to be uniformly transparent.
// For hairline the effect is pretty minimal, but still not correct.
bDrawTransparentUsed = false;
break;
}
case PRIMITIVE2D_ID_POLYGONSTROKEPRIMITIVE2D:
{
// single transparent PolygonStrokePrimitive2D identified, use directly
const primitive2d::PolygonStrokePrimitive2D* pPoStroke
= static_cast<const primitive2d::PolygonStrokePrimitive2D*>(
pBasePrimitive);
SAL_WARN_IF(!pPoStroke, "drawinglayer",
"OOps, PrimitiveID and PrimitiveType do not match (!)");
// do no tallow by default - problem is that self-overlapping parts of this geometry will
// not be in an all-same transparency but will already alpha-cover themselves with blending.
// This is not what the UnifiedTransparencePrimitive2D defines: It requires all its
// content to be uniformly transparent.
// To check, activate and draw a wide transparent self-crossing line/curve
bDrawTransparentUsed = false;
break;
}
default:
SAL_INFO("drawinglayer",
"default case for " << drawinglayer::primitive2d::idToString(
rUniTransparenceCandidate.getPrimitive2DID()));
break;
}
}
}
if (!bDrawTransparentUsed)
{
// unified sub-transparence. Draw to VDev first.
RenderUnifiedTransparencePrimitive2D(rUniTransparenceCandidate);
}
}
}
void VclPixelProcessor2D::processControlPrimitive2D(
const primitive2d::ControlPrimitive2D& rControlPrimitive)
{
// control primitive
const uno::Reference<awt::XControl>& rXControl(rControlPrimitive.getXControl());
try
{
// remember old graphics and create new
uno::Reference<awt::XView> xControlView(rXControl, uno::UNO_QUERY_THROW);
const uno::Reference<awt::XGraphics> xOriginalGraphics(xControlView->getGraphics());
const uno::Reference<awt::XGraphics> xNewGraphics(mpOutputDevice->CreateUnoGraphics());
if (xNewGraphics.is())
{
// link graphics and view
xControlView->setGraphics(xNewGraphics);
// get position
const basegfx::B2DHomMatrix aObjectToPixel(maCurrentTransformation
* rControlPrimitive.getTransform());
const basegfx::B2DPoint aTopLeftPixel(aObjectToPixel * basegfx::B2DPoint(0.0, 0.0));
// find out if the control is already visualized as a VCL-ChildWindow. If yes,
// it does not need to be painted at all.
uno::Reference<awt::XWindow2> xControlWindow(rXControl, uno::UNO_QUERY_THROW);
const bool bControlIsVisibleAsChildWindow(rXControl->getPeer().is()
&& xControlWindow->isVisible());
if (!bControlIsVisibleAsChildWindow)
{
// draw it. Do not forget to use the evtl. offsetted origin of the target device,
// e.g. when used with mask/transparence buffer device
const Point aOrigin(mpOutputDevice->GetMapMode().GetOrigin());
xControlView->draw(aOrigin.X() + basegfx::fround(aTopLeftPixel.getX()),
aOrigin.Y() + basegfx::fround(aTopLeftPixel.getY()));
}
// restore original graphics
xControlView->setGraphics(xOriginalGraphics);
}
}
catch (const uno::Exception&)
{
// #i116763# removing since there is a good alternative when the xControlView
// is not found and it is allowed to happen
// DBG_UNHANDLED_EXCEPTION();
// process recursively and use the decomposition as Bitmap
process(rControlPrimitive);
}
}
void VclPixelProcessor2D::processPolygonStrokePrimitive2D(
const primitive2d::PolygonStrokePrimitive2D& rPolygonStrokePrimitive2D)
{
// try to use directly
if (tryDrawPolygonStrokePrimitive2DDirect(rPolygonStrokePrimitive2D, 0.0))
{
return;
}
// the stroke primitive may be decomposed to filled polygons. To keep
// evtl. set DrawModes aka DrawModeFlags::BlackLine, DrawModeFlags::GrayLine,
// DrawModeFlags::GhostedLine, DrawModeFlags::WhiteLine or DrawModeFlags::SettingsLine
// working, these need to be copied to the corresponding fill modes
const DrawModeFlags nOriginalDrawMode(mpOutputDevice->GetDrawMode());
adaptLineToFillDrawMode();
// polygon stroke primitive
// Lines with 1 and 2 pixel width without AA need special treatment since their visualization
// as filled polygons is geometrically correct but looks wrong since polygon filling avoids
// the right and bottom pixels. The used method evaluates that and takes the correct action,
// including calling recursively with decomposition if line is wide enough
RenderPolygonStrokePrimitive2D(rPolygonStrokePrimitive2D);
// restore DrawMode
mpOutputDevice->SetDrawMode(nOriginalDrawMode);
}
void VclPixelProcessor2D::processFillHatchPrimitive2D(
const primitive2d::FillHatchPrimitive2D& rFillHatchPrimitive)
{
if (getOptionsDrawinglayer().IsAntiAliasing())
{
// if AA is used (or ignore smoothing is on), there is no need to smooth
// hatch painting, use decomposition
process(rFillHatchPrimitive);
}
else
{
// without AA, use VCL to draw the hatch. It snaps hatch distances to the next pixel
// and forces hatch distance to be >= 3 pixels to make the hatch display look smoother.
// This is wrong in principle, but looks nicer. This could also be done here directly
// without VCL usage if needed
const attribute::FillHatchAttribute& rFillHatchAttributes
= rFillHatchPrimitive.getFillHatch();
// create hatch polygon in range size and discrete coordinates
basegfx::B2DRange aHatchRange(rFillHatchPrimitive.getOutputRange());
aHatchRange.transform(maCurrentTransformation);
const basegfx::B2DPolygon aHatchPolygon(basegfx::utils::createPolygonFromRect(aHatchRange));
if (rFillHatchAttributes.isFillBackground())
{
// #i111846# background fill is active; draw fill polygon
const basegfx::BColor aPolygonColor(
maBColorModifierStack.getModifiedColor(rFillHatchPrimitive.getBColor()));
mpOutputDevice->SetFillColor(Color(aPolygonColor));
mpOutputDevice->SetLineColor();
mpOutputDevice->DrawPolygon(aHatchPolygon);
}
// set hatch line color
const basegfx::BColor aHatchColor(
maBColorModifierStack.getModifiedColor(rFillHatchPrimitive.getBColor()));
mpOutputDevice->SetFillColor();
mpOutputDevice->SetLineColor(Color(aHatchColor));
// get hatch style
HatchStyle eHatchStyle(HatchStyle::Single);
switch (rFillHatchAttributes.getStyle())
{
default: // HatchStyle::Single
{
break;
}
case attribute::HatchStyle::Double:
{
eHatchStyle = HatchStyle::Double;
break;
}
case attribute::HatchStyle::Triple:
{
eHatchStyle = HatchStyle::Triple;
break;
}
}
// create hatch
const basegfx::B2DVector aDiscreteDistance(
maCurrentTransformation * basegfx::B2DVector(rFillHatchAttributes.getDistance(), 0.0));
const sal_uInt32 nDistance(basegfx::fround(aDiscreteDistance.getLength()));
const sal_uInt16 nAngle10(
static_cast<sal_uInt16>(basegfx::fround(rFillHatchAttributes.getAngle() / F_PI1800)));
::Hatch aVCLHatch(eHatchStyle, Color(rFillHatchAttributes.getColor()), nDistance, nAngle10);
// draw hatch using VCL
mpOutputDevice->DrawHatch(::tools::PolyPolygon(::tools::Polygon(aHatchPolygon)), aVCLHatch);
}
}
void VclPixelProcessor2D::processBackgroundColorPrimitive2D(
const primitive2d::BackgroundColorPrimitive2D& rPrimitive)
{
// #i98404# Handle directly, especially when AA is active
const AntialiasingFlags nOriginalAA(mpOutputDevice->GetAntialiasing());
// switch AA off in all cases
mpOutputDevice->SetAntialiasing(mpOutputDevice->GetAntialiasing()
& ~AntialiasingFlags::EnableB2dDraw);
// create color for fill
const basegfx::BColor aPolygonColor(
maBColorModifierStack.getModifiedColor(rPrimitive.getBColor()));
Color aFillColor(aPolygonColor);
aFillColor.SetTransparency(sal_uInt8((rPrimitive.getTransparency() * 255.0) + 0.5));
mpOutputDevice->SetFillColor(aFillColor);
mpOutputDevice->SetLineColor();
// create rectangle for fill
const basegfx::B2DRange& aViewport(getViewInformation2D().getDiscreteViewport());
const ::tools::Rectangle aRectangle(static_cast<sal_Int32>(floor(aViewport.getMinX())),
static_cast<sal_Int32>(floor(aViewport.getMinY())),
static_cast<sal_Int32>(ceil(aViewport.getMaxX())),
static_cast<sal_Int32>(ceil(aViewport.getMaxY())));
mpOutputDevice->DrawRect(aRectangle);
// restore AA setting
mpOutputDevice->SetAntialiasing(nOriginalAA);
}
void VclPixelProcessor2D::processBorderLinePrimitive2D(
const drawinglayer::primitive2d::BorderLinePrimitive2D& rBorder)
{
// Process recursively, but switch off AntiAliasing for
// horizontal/vertical lines (*not* diagonal lines).
// Checked using AntialiasingFlags::PixelSnapHairline instead,
// but with AntiAliasing on the display really is too 'ghosty' when
// using fine stroking. Correct, but 'ghosty'.
// It has shown that there are quite some problems here:
// - vcl OutDev renderer methods still use fallbacks to paint
// multiple single lines between discrete sizes of < 3.5 what
// looks bad and does not match
// - mix of filled Polygons and Lines is bad when AA switched off
// - Alignment of AA with non-AA may be bad in diverse different
// renderers
//
// Due to these reasons I change the strategy: Always draw AAed, but
// allow fallback to test/check and if needed. The normal case
// where BorderLines will be system-dependently snapped to have at
// least a single discrete width per partial line (there may be up to
// three) works well nowadays due to most renderers moving the AA stuff
// by 0.5 pixels (discrete units) to match well with the non-AAed parts.
//
// Env-Switch for steering this, default is off.
// Enable by setting at all (and to something)
static const char* pSwitchOffAntiAliasingForHorVerBorderlines(
getenv("SAL_SWITCH_OFF_ANTIALIASING_FOR_HOR_VER_BORTDERLINES"));
static bool bSwitchOffAntiAliasingForHorVerBorderlines(
nullptr != pSwitchOffAntiAliasingForHorVerBorderlines);
if (bSwitchOffAntiAliasingForHorVerBorderlines
&& rBorder.isHorizontalOrVertical(getViewInformation2D()))
{
AntialiasingFlags nAntiAliasing = mpOutputDevice->GetAntialiasing();
mpOutputDevice->SetAntialiasing(nAntiAliasing & ~AntialiasingFlags::EnableB2dDraw);
process(rBorder);
mpOutputDevice->SetAntialiasing(nAntiAliasing);
}
else
{
process(rBorder);
}
}
void VclPixelProcessor2D::processInvertPrimitive2D(const primitive2d::BasePrimitive2D& rCandidate)
{
// invert primitive (currently only used for HighContrast fallback for selection in SW and SC).
// (Not true, also used at least for the drawing of dragged column and row boundaries in SC.)
// Set OutDev to XOR and switch AA off (XOR does not work with AA)
mpOutputDevice->Push();
mpOutputDevice->SetRasterOp(RasterOp::Xor);
const AntialiasingFlags nAntiAliasing(mpOutputDevice->GetAntialiasing());
mpOutputDevice->SetAntialiasing(nAntiAliasing & ~AntialiasingFlags::EnableB2dDraw);
// process content recursively
process(rCandidate);
// restore OutDev
mpOutputDevice->Pop();
mpOutputDevice->SetAntialiasing(nAntiAliasing);
}
void VclPixelProcessor2D::processMetaFilePrimitive2D(const primitive2d::BasePrimitive2D& rCandidate)
{
// #i98289#
const bool bForceLineSnap(getOptionsDrawinglayer().IsAntiAliasing()
&& getOptionsDrawinglayer().IsSnapHorVerLinesToDiscrete());
const AntialiasingFlags nOldAntiAliase(mpOutputDevice->GetAntialiasing());
if (bForceLineSnap)
{
mpOutputDevice->SetAntialiasing(nOldAntiAliase | AntialiasingFlags::PixelSnapHairline);
}
process(rCandidate);
if (bForceLineSnap)
{
mpOutputDevice->SetAntialiasing(nOldAntiAliase);
}
}
namespace
{
/* Returns 8-bit alpha mask created from passed mask.
Negative fErodeDilateRadius values mean erode, positive - dilate.
nTransparency defines minimal transparency level.
*/
AlphaMask ProcessAndBlurAlphaMask(const Bitmap& rMask, double fErodeDilateRadius,
double fBlurRadius, sal_uInt8 nTransparency)
{
// Only completely white pixels on the initial mask must be considered for transparency. Any
// other color must be treated as black. This creates 1-bit B&W bitmap.
BitmapEx mask(rMask.CreateMask(COL_WHITE));
// Scaling down increases performance without noticeable quality loss. Additionally,
// current blur implementation can only handle blur radius between 2 and 254.
Size aSize = mask.GetSizePixel();
double fScale = 1.0;
while (fBlurRadius > 254 || aSize.Height() > 1000 || aSize.Width() > 1000)
{
fScale /= 2;
fBlurRadius /= 2;
fErodeDilateRadius /= 2;
aSize.setHeight(aSize.Height() / 2);
aSize.setWidth(aSize.Width() / 2);
}
// BmpScaleFlag::Fast is important for following color replacement
mask.Scale(fScale, fScale, BmpScaleFlag::Fast);
if (fErodeDilateRadius > 0)
BitmapFilter::Filter(mask, BitmapDilateFilter(fErodeDilateRadius));
else if (fErodeDilateRadius < 0)
BitmapFilter::Filter(mask, BitmapErodeFilter(-fErodeDilateRadius, 0xFF));
if (nTransparency)
{
const Color aTransparency(nTransparency, nTransparency, nTransparency);
mask.Replace(COL_BLACK, aTransparency);
}
// We need 8-bit grey mask for blurring
mask.Convert(BmpConversion::N8BitGreys);
// calculate blurry effect
BitmapFilter::Filter(mask, BitmapFilterStackBlur(fBlurRadius));
mask.Scale(rMask.GetSizePixel());
return AlphaMask(mask.GetBitmap());
}
}
void VclPixelProcessor2D::processGlowPrimitive2D(const primitive2d::GlowPrimitive2D& rCandidate)
{
basegfx::B2DRange aRange(rCandidate.getB2DRange(getViewInformation2D()));
aRange.transform(maCurrentTransformation);
basegfx::B2DVector aGlowRadiusVector(rCandidate.getGlowRadius(), 0);
// Calculate the pixel size of glow radius in current transformation
aGlowRadiusVector *= maCurrentTransformation;
// Glow radius is the size of the halo from each side of the object. The halo is the
// border of glow color that fades from glow transparency level to fully transparent
// When blurring a sharp boundary (our case), it gets 50% of original intensity, and
// fades to both sides by the blur radius; thus blur radius is half of glow radius.
const double fBlurRadius = aGlowRadiusVector.getLength() / 2;
// Consider glow transparency (initial transparency near the object edge)
const sal_uInt8 nTransparency = rCandidate.getGlowColor().GetTransparency();
impBufferDevice aBufferDevice(*mpOutputDevice, aRange);
if (aBufferDevice.isVisible())
{
// remember last OutDev and set to content
OutputDevice* pLastOutputDevice = mpOutputDevice;
mpOutputDevice = &aBufferDevice.getContent();
// We don't need antialiased mask here, which would only make effect thicker
const auto aPrevAA = mpOutputDevice->GetAntialiasing();
mpOutputDevice->SetAntialiasing(AntialiasingFlags::NONE);
process(rCandidate);
const tools::Rectangle aRect(static_cast<long>(std::floor(aRange.getMinX())),
static_cast<long>(std::floor(aRange.getMinY())),
static_cast<long>(std::ceil(aRange.getMaxX())),
static_cast<long>(std::ceil(aRange.getMaxY())));
BitmapEx bmpEx = mpOutputDevice->GetBitmapEx(aRect.TopLeft(), aRect.GetSize());
mpOutputDevice->SetAntialiasing(aPrevAA);
AlphaMask mask
= ProcessAndBlurAlphaMask(bmpEx.GetAlpha(), fBlurRadius, fBlurRadius, nTransparency);
// The end result is the bitmap filled with glow color and blurred 8-bit alpha mask
const basegfx::BColor aGlowColor(
maBColorModifierStack.getModifiedColor(rCandidate.getGlowColor().getBColor()));
Bitmap bmp = bmpEx.GetBitmap();
bmp.Erase(Color(aGlowColor));
BitmapEx result(bmp, mask);
// back to old OutDev
mpOutputDevice = pLastOutputDevice;
mpOutputDevice->DrawBitmapEx(aRect.TopLeft(), result);
}
else
SAL_WARN("drawinglayer", "Temporary buffered virtual device is not visible");
}
void VclPixelProcessor2D::processSoftEdgePrimitive2D(
const primitive2d::SoftEdgePrimitive2D& rCandidate)
{
basegfx::B2DRange aRange(rCandidate.getB2DRange(getViewInformation2D()));
aRange.transform(maCurrentTransformation);
basegfx::B2DVector aRadiusVector(rCandidate.getRadius(), 0);
// Calculate the pixel size of soft edge radius in current transformation
aRadiusVector *= maCurrentTransformation;
// Blur radius is equal to soft edge radius
const double fBlurRadius = aRadiusVector.getLength();
impBufferDevice aBufferDevice(*mpOutputDevice, aRange);
if (aBufferDevice.isVisible())
{
// remember last OutDev and set to content
OutputDevice* pLastOutputDevice = mpOutputDevice;
mpOutputDevice = &aBufferDevice.getContent();
// Since the effect converts all children to bitmap, we can't disable antialiasing here,
// because it would result in poor quality in areas not affected by the effect
process(rCandidate);
const tools::Rectangle aRect(static_cast<long>(std::floor(aRange.getMinX())),
static_cast<long>(std::floor(aRange.getMinY())),
static_cast<long>(std::ceil(aRange.getMaxX())),
static_cast<long>(std::ceil(aRange.getMaxY())));
BitmapEx bitmap = mpOutputDevice->GetBitmapEx(aRect.TopLeft(), aRect.GetSize());
AlphaMask aMask = bitmap.GetAlpha();
AlphaMask blurMask = ProcessAndBlurAlphaMask(aMask, -fBlurRadius, fBlurRadius, 0);
aMask.BlendWith(blurMask);
// The end result is the original bitmap with blurred 8-bit alpha mask
BitmapEx result(bitmap.GetBitmap(), aMask);
// back to old OutDev
mpOutputDevice = pLastOutputDevice;
mpOutputDevice->DrawBitmapEx(aRect.TopLeft(), result);
}
else
SAL_WARN("drawinglayer", "Temporary buffered virtual device is not visible");
}
} // end of namespace
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