1 // Copyright (C) 2014-2015 EDF-R&D
2 // This library is free software; you can redistribute it and/or
3 // modify it under the terms of the GNU Lesser General Public
4 // License as published by the Free Software Foundation; either
5 // version 2.1 of the License, or (at your option) any later version.
7 // This library is distributed in the hope that it will be useful,
8 // but WITHOUT ANY WARRANTY; without even the implied warranty of
9 // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
10 // Lesser General Public License for more details.
12 // You should have received a copy of the GNU Lesser General Public
13 // License along with this library; if not, write to the Free Software
14 // Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
16 // See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
19 #include "HYDROData_SinusX.h"
21 #include <HYDROData_PolylineXY.h>
22 #include <HYDROData_Bathymetry.h>
23 #include <HYDROData_Entity.h>
24 #include <HYDROData_Document.h>
25 #include <HYDROData_Profile.h>
26 #include <HYDROData_Iterator.h>
34 #include <QStringList>
35 #include <QTextStream>
39 #include "HYDRO_trace.hxx"
41 HYDROData_SinusX::HYDROData_SinusX( )
45 HYDROData_SinusX::~HYDROData_SinusX()
49 void HYDROData_SinusX::CollectExistingNames(Handle(HYDROData_Document) theDocument)
51 HYDROData_Iterator anIter( theDocument );
53 myExistingNames.clear();
54 std::vector<int> anAllowedIndexes;
55 for( ; anIter.More(); anIter.Next() )
56 myExistingNames.push_back(anIter.Current()->GetName());
59 QString HYDROData_SinusX::GetName(const QString& theName)
61 if (myExistingNames.contains(theName))
63 QString aName = theName;
64 while (myExistingNames.contains(aName))
66 QStringList aList = aName.split("_");
67 int aLastInd = aName.lastIndexOf("_");
70 anInd = aList.last().toInt(&IsNum);
73 aName = aName.left(aLastInd) + "_";
74 aName+= QString::number(++anInd);
77 aName = theName + "_0";
80 myExistingNames.push_back(aName);
85 myExistingNames.push_back(theName);
92 bool HYDROData_SinusX::OpenAndParse(const QString& theFilePath)
94 if ( theFilePath.isEmpty() )
99 QString anExt = theFilePath.split('.', QString::SkipEmptyParts).back();
103 QFile aFile (theFilePath);
105 aFile.open(QIODevice::ReadOnly);
117 void HYDROData_SinusX::Import(Handle(HYDROData_Document) theDocument,
118 NCollection_Sequence<Handle(HYDROData_Entity)>& theEntities, std::vector<ImportOptions>* importOptions)
120 CollectExistingNames(theDocument);
121 SXToHydro(theDocument, theEntities, importOptions);
125 void HYDROData_SinusX::SXToHydro(Handle(HYDROData_Document) theDocument, NCollection_Sequence<Handle(HYDROData_Entity)>& theEntities,
126 std::vector<ImportOptions>* importOptions )
128 if (importOptions && (myCurveBlocks.size() != importOptions->size()))
129 importOptions = NULL; //incorrect input
131 for ( size_t i = 0; i < myCurveBlocks.size(); i++ )
133 if (myCurveBlocks[i].myType == 4) /// scatter plot -> to bathy
135 if (!importOptions || (importOptions && (*importOptions)[i].ImportAsBathy == true))
137 Handle(HYDROData_Bathymetry) aBath = Handle(HYDROData_Bathymetry)::DownCast( theDocument->CreateObject( KIND_BATHYMETRY ) );
138 HYDROData_Bathymetry::AltitudePoints aAPoints;
139 size_t n = myCurveBlocks[i].myXYZPoints.size();
140 aAPoints.reserve( n );
141 for (size_t j = 0; j < n; j++)
143 gp_XYZ aLocalPoint = gp_XYZ (myCurveBlocks[i].myXYZPoints[j]);
144 theDocument->Transform(aLocalPoint, true);
145 HYDROData_Bathymetry::AltitudePoint p;
146 p.X = aLocalPoint.X();
147 p.Y = aLocalPoint.Y();
148 p.Z = aLocalPoint.Z();
149 aAPoints.push_back(p);
152 aBath->SetAltitudePoints(aAPoints);
153 aBath->SetName(GetName(myCurveBlocks[i].myName));
154 theEntities.Append(aBath);
157 if (myCurveBlocks[i].myType == 1 || myCurveBlocks[i].myType == 3) // XYZ curve or isocontour
159 if (!importOptions || (importOptions && (*importOptions)[i].ImportAsPolyXY == true))
161 NCollection_Sequence<gp_XYZ> aPoints;
162 for (size_t j = 0; j < myCurveBlocks[i].myXYZPoints.size(); j++)
164 gp_XYZ aLocalPoint = gp_XYZ (myCurveBlocks[i].myXYZPoints[j]);
165 theDocument->Transform(aLocalPoint, true);
166 aPoints.Append(aLocalPoint);
169 Handle(HYDROData_PolylineXY) aPolyXY = Handle(HYDROData_PolylineXY)::DownCast( theDocument->CreateObject( KIND_POLYLINEXY ) );
170 aPolyXY->AddSection( "",
171 myCurveBlocks[i].myIsSpline ? HYDROData_PolylineXY::SECTION_SPLINE : HYDROData_PolylineXY::SECTION_POLYLINE,
172 myCurveBlocks[i].myIsClosed ? true : false);
173 aPolyXY->SetName(GetName(myCurveBlocks[i].myName));
174 aPolyXY->SetWireColor(HYDROData_PolylineXY::DefaultWireColor());
176 for ( int k = 1; k <= aPoints.Size(); k++ ) {
177 const HYDROData_Profile::ProfilePoint& aBottomPoint = aPoints.Value( k );
178 aPolyXY->AddPoint( 0, HYDROData_PolylineXY::Point( aBottomPoint.X(), aBottomPoint.Y() ) );
181 theEntities.Append(aPolyXY);
182 if (!importOptions || (importOptions && (*importOptions)[i].ImportAsProfile == true))
184 Handle(HYDROData_ProfileUZ) aProfileUZ = Handle(HYDROData_ProfileUZ)::DownCast( theDocument->CreateObject( KIND_PROFILEUZ ) );
185 aProfileUZ->CalculateAndAddPoints(aPoints, aPolyXY, false);
186 Handle(HYDROData_Profile) aProfile = Handle(HYDROData_Profile)::DownCast( theDocument->CreateObject( KIND_PROFILE ) );
187 aProfile->SetParametricPoints(aProfileUZ->GetPoints());
189 aProfileUZ->SetName(GetName(myCurveBlocks[i].myName));
190 aProfile->SetName(GetName(myCurveBlocks[i].myName));
192 theEntities.Append(aProfileUZ);
193 theEntities.Append(aProfile);
198 if (myCurveBlocks[i].myType == 2) // XYZ profile
200 if (!importOptions || (importOptions && (*importOptions)[i].ImportAsProfile == true))
202 if (myCurveBlocks[i].myCurvePlane == 2) // plane XoZ
204 if (myCurveBlocks[i].myAdditionalCurveInfo.size() == 4)
206 Handle(HYDROData_Profile) aProfile = Handle(HYDROData_Profile)::DownCast( theDocument->CreateObject( KIND_PROFILE ) );
207 HYDROData_ProfileUZ::PointsList aPointList;
208 for (size_t j = 0; j < myCurveBlocks[i].myXYZPoints.size(); j++)
209 aPointList.Append(gp_XY (myCurveBlocks[i].myXYZPoints[j].X(), myCurveBlocks[i].myXYZPoints[j].Z()));
210 aProfile->GetProfileUZ()->SetSectionType(0, myCurveBlocks[i].myIsSpline ? HYDROData_PolylineXY::SECTION_SPLINE : HYDROData_PolylineXY::SECTION_POLYLINE);
211 aProfile->GetProfileUZ()->SetSectionClosed(0, myCurveBlocks[i].myIsClosed ? true : false);
212 aProfile->SetParametricPoints(aPointList);
213 if ( ! (myCurveBlocks[i].myAdditionalCurveInfo[0] == 0 && myCurveBlocks[i].myAdditionalCurveInfo[1] == 0 &&
214 myCurveBlocks[i].myAdditionalCurveInfo[2] == 0 && myCurveBlocks[i].myAdditionalCurveInfo[3] == 0) )
215 { // georeferenced profile
216 double xl = myCurveBlocks[i].myAdditionalCurveInfo[0];
217 double yl = myCurveBlocks[i].myAdditionalCurveInfo[1];
218 double xr = myCurveBlocks[i].myAdditionalCurveInfo[2];
219 double yr = myCurveBlocks[i].myAdditionalCurveInfo[3];
220 theDocument->Transform(xl, yl , true);
221 theDocument->Transform(xr, yr , true);
222 aProfile->SetLeftPoint(gp_XY(xl, yl));
223 aProfile->SetRightPoint(gp_XY(xr, yr));
226 aProfile->SetName(GetName(myCurveBlocks[i].myName));
227 theEntities.Append(aProfile);
230 if (myCurveBlocks[i].myCurvePlane == 0) // plane XoY
232 Handle(HYDROData_Profile) aProfile = Handle(HYDROData_Profile)::DownCast( theDocument->CreateObject( KIND_PROFILE ) );
233 HYDROData_Profile::ProfilePoints aPointList;
234 for (size_t j = 0; j < myCurveBlocks[i].myXYZPoints.size(); j++)
236 gp_XYZ aLocalPoint = gp_XYZ (myCurveBlocks[i].myXYZPoints[j]);
237 theDocument->Transform(aLocalPoint, true);
238 aPointList.Append(aLocalPoint);
240 aProfile->GetProfileUZ()->SetSectionType(0, myCurveBlocks[i].myIsSpline ? HYDROData_PolylineXY::SECTION_SPLINE : HYDROData_PolylineXY::SECTION_POLYLINE);
241 aProfile->GetProfileUZ()->SetSectionClosed(0, myCurveBlocks[i].myIsClosed ? true : false);
242 aProfile->SetProfilePoints(aPointList, false);
243 aProfile->SetName(GetName(myCurveBlocks[i].myName));
244 theEntities.Append(aProfile);
253 bool HYDROData_SinusX::Parse(QFile& theFile)
255 if ( !theFile.isOpen() )
262 myCurveBlocks.clear();
263 bool aTotStat = true;
265 aLine = theFile.readLine().simplified();
266 aList = aLine.split( ' ', QString::SkipEmptyParts );
268 for (;!theFile.atEnd();)
270 if (aList[0] == "B" && (aList[1] == "C" || aList[1] == "P" || aList[1] == "N" || aList[1] == "S" ))
272 HYDROGUI_CurveBlock aCurveBlockInfo;
274 aCurveBlockInfo.myType = 1; // XYZ curve
275 else if (aList[1] == "P")
276 aCurveBlockInfo.myType = 2; // XYZ profile
277 else if (aList[1] == "N")
278 aCurveBlockInfo.myType = 3; // isocontour
279 else if (aList[1] == "S")
280 aCurveBlockInfo.myType = 4; // Scatter plot
282 if (aList.size() == 9)
284 for (int j = 2; j < 8; j++)
285 aCurveBlockInfo.myRefCoords.push_back(aList[j].toDouble());
286 aCurveBlockInfo.myRefRatio = aList[8].toDouble();
292 aBLine = theFile.readLine().simplified();
293 aBList = aBLine.split( ' ', QString::SkipEmptyParts );
295 if (aBList[0] == "CP")
297 if (aBList.size() == 2 && (aBList[1] == "0" || aBList[1] == "1" || aBList[1] == "2"))
298 aCurveBlockInfo.myCurvePlane = aBList[1].toInt();
299 else if (aBList.size() == 3 && (aBList[1] == "0" || aBList[1] == "1") && (aBList[2] == "0" || aBList[2] == "1"))
301 aCurveBlockInfo.myIsClosed = aBList[1].toInt();
302 aCurveBlockInfo.myIsSpline = aBList[2].toInt();
306 for (int j = 1; j < aBList.size(); j++)
307 aCurveBlockInfo.myAdditionalCurveInfo.push_back(aBList[j].toDouble());
310 if (aBList[0] == "CN")
312 for (int i = 1; i < aBList.size(); i++)
313 Name += aBList[i] + "_";
314 if (Name.size() <= 1)
316 Name.remove(Name.size() - 1, 1);
317 aCurveBlockInfo.myName = Name;
319 } while (!theFile.atEnd() && aBLine[0] == 'C' );
325 if (aBList.size() >= 3 && aBLine[0] != 'B' && aBLine[0] != 'C') {
327 anXYZ.SetX (aBList[0].toDouble(&aStat));
328 aTotStat = aTotStat && aStat;
329 anXYZ.SetY (aBList[1].toDouble(&aStat));
330 aTotStat = aTotStat && aStat;
331 anXYZ.SetZ (aBList[2].toDouble(&aStat));
332 aTotStat = aTotStat && aStat;
334 aCurveBlockInfo.myXYZPoints.push_back(anXYZ);
336 aBLine = theFile.readLine().simplified();
337 aBList = aBLine.split( ' ', QString::SkipEmptyParts );
342 } while (!theFile.atEnd() || !aBLine.isEmpty());
344 myCurveBlocks.push_back(aCurveBlockInfo);
352 aLine = theFile.readLine().simplified();
353 aList = aLine.split( ' ', QString::SkipEmptyParts );
362 bool HYDROData_SinusX::Export(const QString& theFilePath, const NCollection_Sequence<Handle(HYDROData_Entity)>& theEntities)
364 if ( theFilePath.isEmpty() )
369 QString anExt = theFilePath.split('.', QString::SkipEmptyParts).back();
373 QFile aFile (theFilePath);
375 aFile.open(QIODevice::WriteOnly | QIODevice::Truncate | QIODevice::Text);
377 HydroToSX(aFile, theEntities);
388 void HYDROData_SinusX::HydroToSX(QFile& theFile, const NCollection_Sequence<Handle(HYDROData_Entity)>& theEntities)
390 QTextStream aTextStream(&theFile);
391 aTextStream << "C Generated by HYDRO Module\n";
392 aTextStream << "C\n";
394 for (int i = 1; i <= theEntities.Size(); i++)
396 Handle(HYDROData_Entity) anEnt = theEntities.Value(i);
397 if (anEnt->IsKind( STANDARD_TYPE(HYDROData_Bathymetry) ))
399 Handle(HYDROData_Bathymetry) aBathy = Handle(HYDROData_Bathymetry)::DownCast( anEnt );
400 HYDROData_Bathymetry::AltitudePoints anXYZPoints = aBathy->GetAltitudePoints(true);
402 aTextStream << "B S\n";
403 aTextStream << "CN " << aBathy->GetName() << "\n";
404 aTextStream << "CP 0 0\n";
405 aTextStream << "CP 0\n";
406 for (size_t j = 0, m = anXYZPoints.size(); j < m; j++)
407 aTextStream << " " << QString::number(anXYZPoints[j].X, 'f', 3)
408 << " " << QString::number(anXYZPoints[j].Y, 'f', 3)
409 << " " << QString::number(anXYZPoints[j].Z, 'f', 3) << "\n";
411 else if (anEnt->IsKind( STANDARD_TYPE(HYDROData_PolylineXY) ))
413 Handle(HYDROData_PolylineXY) aPolyXY = Handle(HYDROData_PolylineXY)::DownCast( anEnt );
414 for (int j = 0; j < aPolyXY->NbSections(); j++)
417 bool IsClosed = aPolyXY->IsClosedSection(j);
418 bool IsSpline = false;
419 if (aPolyXY->GetSectionType(j) == HYDROData_PolylineXY::SECTION_SPLINE)
421 HYDROData_PolylineXY::PointsList anXYPoints = aPolyXY->GetPoints(j, true);
423 aTextStream << "B N\n";
424 aTextStream << "CN " << aPolyXY->GetName() << "\n";
425 aTextStream << "CP " << IsClosed << " " << IsSpline << "\n";
426 aTextStream << "CP 0.0\n";
427 aTextStream << "CP 0\n";
428 if (aPolyXY->NbSections() > 1)
429 aTextStream << "C " << aPolyXY->GetName() << "_section_" << QString::number(j) << "\n";
430 for (int k = anXYPoints.Lower(); k <= anXYPoints.Upper(); k++)
431 aTextStream << " " << QString::number(anXYPoints(k).X(), 'f', 3)
432 << " " << QString::number(anXYPoints(k).Y(), 'f', 3)
436 else if (anEnt->IsKind( STANDARD_TYPE(HYDROData_Profile) ))
439 Handle(HYDROData_Profile) aProfile = Handle(HYDROData_Profile)::DownCast( anEnt );
440 HYDROData_ProfileUZ::PointsList aPointList = aProfile->GetParametricPoints();
441 bool IsClosed = aProfile->GetProfileUZ(false)->IsClosedSection(0);;
442 bool IsSpline = false;
443 if (aProfile->GetProfileUZ(false)->GetSectionType(0) == HYDROData_PolylineXY::SECTION_SPLINE)
446 aTextStream << "B P\n";
447 aTextStream << "CN " << aProfile->GetName() << "\n";
448 aTextStream << "CP " << IsClosed << " " << IsSpline << "\n";
449 gp_XY aLeftPoint(0.0, 0.0);
450 gp_XY aRightPoint(0.0, 0.0);
451 if (aProfile->GetLeftPoint(aLeftPoint, true) && aProfile->GetRightPoint(aRightPoint, true))
452 aTextStream << "CP " << QString::number(aLeftPoint.X(), 'f', 3) << " " <<
453 QString::number(aLeftPoint.Y(), 'f', 3) << " " <<
454 QString::number(aRightPoint.X(), 'f', 3) << " " <<
455 QString::number(aRightPoint.Y(), 'f', 3) << "\n";
457 aTextStream << "CP 0.0 0.0 0.0 0.0\n";
458 aTextStream << "CP 2\n";
459 for (int k = aPointList.Lower(); k <= aPointList.Upper(); k++)
460 aTextStream << " " << QString::number(aPointList(k).X(), 'f', 3)
462 << QString::number(aPointList(k).Y(), 'f', 3) << "\n";
467 std::vector<HYDROGUI_CurveBlock> HYDROData_SinusX::GetCurveBlocks() const
469 return myCurveBlocks;