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/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4; fill-column: 100 -*- */
/*
* 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/.
*/
#include <drawingml/connectorhelper.hxx>
#include <sal/config.h>
#include <com/sun/star/beans/XPropertySet.hpp>
#include <com/sun/star/container/XIdentifierContainer.hpp>
#include <com/sun/star/drawing/XGluePointsSupplier.hpp>
#include <basegfx/curve/b2dcubicbezier.hxx>
#include <basegfx/matrix/b2dhommatrix.hxx>
#include <basegfx/point/b2dpoint.hxx>
#include <basegfx/polygon/b2dpolypolygontools.hxx>
#include <basegfx/vector/b2dvector.hxx>
#include <drawingml/customshapeproperties.hxx>
#include <oox/drawingml/drawingmltypes.hxx>
#include <oox/drawingml/shape.hxx>
#include <rtl/ustring.hxx>
#include <svl/itempool.hxx>
#include <svx/svdmodel.hxx>
#include <svx/svdoedge.hxx>
#include <svx/svdobj.hxx>
#include <tools/mapunit.hxx>
#include <tools/UnitConversion.hxx>
#include <map>
#include <set>
#include <string_view>
#include <vector>
using namespace ::com::sun::star;
// These shapes have no gluepoints defined in their mso_CustomShape struct, thus the gluepoint
// adaption to default gluepoints will be done. Other shapes having no gluepoint defined in the
// mso_CustomShape struct, have gluepoints in order top-left-bottom-right in OOXML. But the shapes
// below have order right-bottom-left-top. Adding gluepoints to mso_CustomShape structs does not
// solve the problem because MS binary gluepoints and OOXML gluepoints are different.
bool ConnectorHelper::hasClockwiseCxn(const OUString& rShapeType)
{
static const std::set<OUString> aWithClockwiseCxnSet({ u"accentBorderCallout1"_ustr,
u"accentBorderCallout2"_ustr,
u"accentBorderCallout3"_ustr,
u"accentCallout1"_ustr,
u"accentCallout2"_ustr,
u"accentCallout3"_ustr,
u"actionButtonBackPrevious"_ustr,
u"actionButtonBeginning"_ustr,
u"actionButtonBlank"_ustr,
u"actionButtonDocument"_ustr,
u"actionButtonEnd"_ustr,
u"actionButtonForwardNext"_ustr,
u"actionButtonHelp"_ustr,
u"actionButtonHome"_ustr,
u"actionButtonInformation"_ustr,
u"actionButtonMovie"_ustr,
u"actionButtonReturn"_ustr,
u"actionButtonSound"_ustr,
u"borderCallout1"_ustr,
u"borderCallout2"_ustr,
u"borderCallout3"_ustr,
u"callout1"_ustr,
u"callout2"_ustr,
u"callout3"_ustr,
u"cloud"_ustr,
u"corner"_ustr,
u"diagStripe"_ustr,
u"flowChartOfflineStorage"_ustr,
u"halfFrame"_ustr,
u"mathDivide"_ustr,
u"mathMinus"_ustr,
u"mathPlus"_ustr,
u"nonIsoscelesTrapezoid"_ustr,
u"pie"_ustr,
u"round2DiagRect"_ustr,
u"round2SameRect"_ustr,
u"snip1Rect"_ustr,
u"snip2DiagRect"_ustr,
u"snip2SameRect"_ustr,
u"snipRoundRect"_ustr });
return aWithClockwiseCxnSet.contains(rShapeType);
}
basegfx::B2DHomMatrix
ConnectorHelper::getConnectorTransformMatrix(const oox::drawingml::ShapePtr& pConnector)
{
basegfx::B2DHomMatrix aTransform; // ctor generates unit matrix
if (!pConnector)
return aTransform;
if (pConnector->getFlipH())
aTransform.scale(-1.0, 1.0);
if (pConnector->getFlipV())
aTransform.scale(1.0, -1.0);
if (pConnector->getRotation() == 0)
return aTransform;
if (pConnector->getRotation() == 5400000)
aTransform *= basegfx::B2DHomMatrix(0, -1, 0, 1, 0, 0);
else if (pConnector->getRotation() == 10800000)
aTransform *= basegfx::B2DHomMatrix(-1, 0, 0, 0, -1, 0);
else if (pConnector->getRotation() == 16200000)
aTransform *= basegfx::B2DHomMatrix(0, 1, 0, -1, 0, 0);
else
SAL_WARN("oox", "tdf#157888 LibreOffice cannot handle such connector rotation");
return aTransform;
}
void ConnectorHelper::getOOXHandlePositionsHmm(const oox::drawingml::ShapePtr& pConnector,
std::vector<basegfx::B2DPoint>& rHandlePositions)
{
rHandlePositions.clear();
if (!pConnector)
return;
if (pConnector->getConnectorName() == u"bentConnector2"_ustr
|| pConnector->getConnectorName() == u"curvedConnector2"_ustr)
return; // These have no handles.
// Convert string attribute to number. Set default 50000 if missing.
std::vector<sal_Int32> aAdjustmentOOXVec; // 1/100000 of shape size
for (size_t i = 0; i < 3; i++)
{
if (i < pConnector->getConnectorAdjustments().size())
aAdjustmentOOXVec.push_back(pConnector->getConnectorAdjustments()[i].toInt32());
else
aAdjustmentOOXVec.push_back(50000);
}
// Handle positions depend on EdgeKind and ShapeSize. bendConnector and curvedConnector use the
// same handle positions. The formulas here correspond to guides in the bendConnector in
// presetShapeDefinitions.xml.
const double fWidth = pConnector->getSize().Width; // EMU
const double fHeight = pConnector->getSize().Height; // EMU
const double fPosX = pConnector->getPosition().X; // EMU
const double fPosY = pConnector->getPosition().Y; // EMU
if (pConnector->getConnectorName() == u"bentConnector3"_ustr
|| pConnector->getConnectorName() == u"curvedConnector3"_ustr)
{
double fAdj1 = aAdjustmentOOXVec[0];
double fX1 = fAdj1 / 100000.0 * fWidth;
double fY1 = fHeight / 2.0;
rHandlePositions.push_back({ fX1, fY1 });
}
else if (pConnector->getConnectorName() == u"bentConnector4"_ustr
|| pConnector->getConnectorName() == u"curvedConnector4"_ustr)
{
double fAdj1 = aAdjustmentOOXVec[0];
double fAdj2 = aAdjustmentOOXVec[1];
double fX1 = fAdj1 / 100000.0 * fWidth;
double fX2 = (fX1 + fWidth) / 2.0;
double fY2 = fAdj2 / 100000.0 * fHeight;
double fY1 = fY2 / 2.0;
rHandlePositions.push_back({ fX1, fY1 });
rHandlePositions.push_back({ fX2, fY2 });
}
else if (pConnector->getConnectorName() == u"bentConnector5"_ustr
|| pConnector->getConnectorName() == u"curvedConnector5"_ustr)
{
double fAdj1 = aAdjustmentOOXVec[0];
double fAdj2 = aAdjustmentOOXVec[1];
double fAdj3 = aAdjustmentOOXVec[2];
double fX1 = fAdj1 / 100000.0 * fWidth;
double fX3 = fAdj3 / 100000.0 * fWidth;
double fX2 = (fX1 + fX3) / 2.0;
double fY2 = fAdj2 / 100000.0 * fHeight;
double fY1 = fY2 / 2.0;
double fY3 = (fHeight + fY2) / 2.0;
rHandlePositions.push_back({ fX1, fY1 });
rHandlePositions.push_back({ fX2, fY2 });
rHandlePositions.push_back({ fX3, fY3 });
}
// The presetGeometry has the first segment horizontal and start point left/top with
// coordinates (0|0). Other layouts are done by flipping and rotating.
basegfx::B2DHomMatrix aTransform;
const basegfx::B2DPoint aB2DCenter(fWidth / 2.0, fHeight / 2.0);
aTransform.translate(-aB2DCenter);
aTransform *= getConnectorTransformMatrix(pConnector);
aTransform.translate(aB2DCenter);
// Make coordinates absolute
aTransform.translate(fPosX, fPosY);
// Actually transform the handle coordinates
for (auto& rElem : rHandlePositions)
rElem *= aTransform;
// Convert EMU -> Hmm
for (auto& rElem : rHandlePositions)
rElem /= 360.0;
}
void ConnectorHelper::getLOBentHandlePositionsHmm(const oox::drawingml::ShapePtr& pConnector,
std::vector<basegfx::B2DPoint>& rHandlePositions)
{
// This method is intended for Edgekind css::drawing::ConnectorType_STANDARD. Those connectors
// correspond to OOX bentConnector, aka "ElbowConnector".
rHandlePositions.clear();
if (!pConnector)
return;
uno::Reference<drawing::XShape> xConnector(pConnector->getXShape());
if (!xConnector.is())
return;
// Get the EdgeTrack polygon. We cannot use UNO "PolyPolygonBezier" because that includes
// the yet not known anchor position in Writer. Thus get the polygon directly from the object.
SdrEdgeObj* pEdgeObj = dynamic_cast<SdrEdgeObj*>(SdrObject::getSdrObjectFromXShape(xConnector));
if (!pEdgeObj)
return;
basegfx::B2DPolyPolygon aB2DPolyPolygon(pEdgeObj->GetEdgeTrackPath());
if (aB2DPolyPolygon.count() == 0)
return;
basegfx::B2DPolygon aEdgePolygon = aB2DPolyPolygon.getB2DPolygon(0);
if (aEdgePolygon.count() < 4 || aEdgePolygon.areControlPointsUsed())
return;
// We need Hmm, the polygon might be e.g. in Twips, in Writer for example
MapUnit eMapUnit = pEdgeObj->getSdrModelFromSdrObject().GetItemPool().GetMetric(0);
if (eMapUnit != MapUnit::Map100thMM)
{
const auto eFrom = MapToO3tlLength(eMapUnit);
if (eFrom == o3tl::Length::invalid)
return;
const double fConvert(o3tl::convert(1.0, eFrom, o3tl::Length::mm100));
aEdgePolygon.transform(basegfx::B2DHomMatrix(fConvert, 0.0, 0.0, 0.0, fConvert, 0.0));
}
// LO has the handle in the middle of a segment, but not for first and last segment.
for (sal_uInt32 i = 1; i < aEdgePolygon.count() - 2; i++)
{
const basegfx::B2DPoint aBeforePt(aEdgePolygon.getB2DPoint(i));
const basegfx::B2DPoint aAfterPt(aEdgePolygon.getB2DPoint(i + 1));
rHandlePositions.push_back((aBeforePt + aAfterPt) / 2.0);
}
}
void ConnectorHelper::getLOCurvedHandlePositionsHmm(
const oox::drawingml::ShapePtr& pConnector, std::vector<basegfx::B2DPoint>& rHandlePositions)
{
// This method is intended for Edgekind css::drawing::ConnectorType_Curve for which OoXML
// compatible routing is enabled.
rHandlePositions.clear();
if (!pConnector)
return;
uno::Reference<drawing::XShape> xConnector(pConnector->getXShape());
if (!xConnector.is())
return;
// Get the EdgeTrack polygon. We cannot use UNO "PolyPolygonBezier" because that includes
// the yet not known anchor position in Writer. Thus get the polygon directly from the object.
SdrEdgeObj* pEdgeObj = dynamic_cast<SdrEdgeObj*>(SdrObject::getSdrObjectFromXShape(xConnector));
if (!pEdgeObj)
return;
basegfx::B2DPolyPolygon aB2DPolyPolygon(pEdgeObj->GetEdgeTrackPath());
if (aB2DPolyPolygon.count() == 0)
return;
basegfx::B2DPolygon aEdgePolygon = aB2DPolyPolygon.getB2DPolygon(0);
if (aEdgePolygon.count() < 3 || !aEdgePolygon.areControlPointsUsed())
return;
// We need Hmm, the polygon might be e.g. in Twips, in Writer for example
MapUnit eMapUnit = pEdgeObj->getSdrModelFromSdrObject().GetItemPool().GetMetric(0);
if (eMapUnit != MapUnit::Map100thMM)
{
const auto eFrom = MapToO3tlLength(eMapUnit);
if (eFrom == o3tl::Length::invalid)
return;
const double fConvert(o3tl::convert(1.0, eFrom, o3tl::Length::mm100));
aEdgePolygon.transform(basegfx::B2DHomMatrix(fConvert, 0.0, 0.0, 0.0, fConvert, 0.0));
}
// The OOXML compatible routing has the handles as polygon points, but not start or
// end point.
for (sal_uInt32 i = 1; i < aEdgePolygon.count() - 1; i++)
{
rHandlePositions.push_back(aEdgePolygon.getB2DPoint(i));
}
}
void ConnectorHelper::applyConnections(oox::drawingml::ShapePtr& pConnector,
oox::drawingml::ShapeIdMap& rShapeMap)
{
uno::Reference<drawing::XShape> xConnector(pConnector->getXShape());
if (!xConnector.is())
return;
uno::Reference<beans::XPropertySet> xPropSet(xConnector, uno::UNO_QUERY);
if (!xPropSet.is())
return;
// MS Office allows route between shapes with small distance. LO default is 5mm.
xPropSet->setPropertyValue("EdgeNode1HorzDist", uno::Any(sal_Int32(0)));
xPropSet->setPropertyValue("EdgeNode1VertDist", uno::Any(sal_Int32(0)));
xPropSet->setPropertyValue("EdgeNode2HorzDist", uno::Any(sal_Int32(0)));
xPropSet->setPropertyValue("EdgeNode2VertDist", uno::Any(sal_Int32(0)));
// A OOXML curvedConnector uses a routing method which is basically incompatible with the
// traditional way of LibreOffice. A compatible way was added and needs to be enabled before
// connections are set, so that the method is used in the default routing.
xPropSet->setPropertyValue("EdgeOOXMLCurve", uno::Any(true));
oox::drawingml::ConnectorShapePropertiesList aConnectorShapeProperties
= pConnector->getConnectorShapeProperties();
// It contains maximal two items, each a struct with mbStartShape, maDestShapeId, mnDestGlueId
for (const auto& aIt : aConnectorShapeProperties)
{
const auto& pItem = rShapeMap.find(aIt.maDestShapeId);
if (pItem == rShapeMap.end())
continue;
uno::Reference<drawing::XShape> xShape(pItem->second->getXShape(), uno::UNO_QUERY);
if (xShape.is())
{
// Connect to the found shape.
if (aIt.mbStartShape)
xPropSet->setPropertyValue("StartShape", uno::Any(xShape));
else
xPropSet->setPropertyValue("EndShape", uno::Any(xShape));
// The first four glue points are the default glue points, which are set by LibreOffice.
// They do not belong to the preset geometry of the shape.
// Adapt gluepoint index to LibreOffice
uno::Reference<drawing::XGluePointsSupplier> xSupplier(xShape, uno::UNO_QUERY);
css::uno::Reference<css::container::XIdentifierContainer> xGluePoints(
xSupplier->getGluePoints(), uno::UNO_QUERY);
sal_Int32 nCountGluePoints = xGluePoints->getIdentifiers().getLength();
sal_Int32 nGlueId = aIt.mnDestGlueId;
if (nCountGluePoints > 4)
nGlueId += 4;
else
{
// In these cases the mso_CustomShape struct defines no gluepoints (Why not?), thus
// our default gluepoints are used. The order of the default gluepoints might differ
// from the order of the OOXML gluepoints. We try to change nGlueId so, that the
// connector attaches to a default gluepoint at the same side as it attaches in OOXML.
const OUString sShapeType
= pItem->second->getCustomShapeProperties()->getShapePresetTypeName();
if (ConnectorHelper::hasClockwiseCxn(sShapeType))
nGlueId = (nGlueId + 1) % 4;
else
{
bool bFlipH = pItem->second->getFlipH();
bool bFlipV = pItem->second->getFlipV();
if (bFlipH == bFlipV)
{
// change id of the left and right glue points of the bounding box (1 <-> 3)
if (nGlueId == 1)
nGlueId = 3; // Right
else if (nGlueId == 3)
nGlueId = 1; // Left
}
}
}
if (aIt.mbStartShape)
xPropSet->setPropertyValue("StartGluePointIndex", uno::Any(nGlueId));
else
xPropSet->setPropertyValue("EndGluePointIndex", uno::Any(nGlueId));
}
}
}
void ConnectorHelper::applyBentHandleAdjustments(oox::drawingml::ShapePtr pConnector)
{
uno::Reference<drawing::XShape> xConnector(pConnector->getXShape(), uno::UNO_QUERY);
if (!xConnector.is())
return;
uno::Reference<beans::XPropertySet> xPropSet(xConnector, uno::UNO_QUERY);
if (!xPropSet.is())
return;
std::vector<basegfx::B2DPoint> aOOXMLHandles;
ConnectorHelper::getOOXHandlePositionsHmm(pConnector, aOOXMLHandles);
std::vector<basegfx::B2DPoint> aLODefaultHandles;
ConnectorHelper::getLOBentHandlePositionsHmm(pConnector, aLODefaultHandles);
if (aOOXMLHandles.size() == aLODefaultHandles.size())
{
bool bUseYforHori
= basegfx::fTools::equalZero(getConnectorTransformMatrix(pConnector).get(0, 0));
for (size_t i = 0; i < aOOXMLHandles.size(); i++)
{
basegfx::B2DVector aDiff(aOOXMLHandles[i] - aLODefaultHandles[i]);
sal_Int32 nDiff;
if ((i == 1 && !bUseYforHori) || (i != 1 && bUseYforHori))
nDiff = basegfx::fround(aDiff.getY());
else
nDiff = basegfx::fround(aDiff.getX());
xPropSet->setPropertyValue("EdgeLine" + OUString::number(i + 1) + "Delta",
uno::Any(nDiff));
}
}
}
void ConnectorHelper::applyCurvedHandleAdjustments(oox::drawingml::ShapePtr pConnector)
{
uno::Reference<drawing::XShape> xConnector(pConnector->getXShape(), uno::UNO_QUERY);
if (!xConnector.is())
return;
uno::Reference<beans::XPropertySet> xPropSet(xConnector, uno::UNO_QUERY);
if (!xPropSet.is())
return;
std::vector<basegfx::B2DPoint> aOOXMLHandles;
ConnectorHelper::getOOXHandlePositionsHmm(pConnector, aOOXMLHandles);
std::vector<basegfx::B2DPoint> aLODefaultHandles;
ConnectorHelper::getLOCurvedHandlePositionsHmm(pConnector, aLODefaultHandles);
if (aOOXMLHandles.size() == aLODefaultHandles.size())
{
bool bUseYforHori
= basegfx::fTools::equalZero(getConnectorTransformMatrix(pConnector).get(0, 0));
for (size_t i = 0; i < aOOXMLHandles.size(); i++)
{
basegfx::B2DVector aDiff(aOOXMLHandles[i] - aLODefaultHandles[i]);
sal_Int32 nDiff;
if ((i == 1 && !bUseYforHori) || (i != 1 && bUseYforHori))
nDiff = basegfx::fround(aDiff.getY());
else
nDiff = basegfx::fround(aDiff.getX());
xPropSet->setPropertyValue("EdgeLine" + OUString::number(i + 1) + "Delta",
uno::Any(nDiff));
}
}
}
/* vim:set shiftwidth=4 softtabstop=4 expandtab cinoptions=b1,g0,N-s cinkeys+=0=break: */
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