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Last missing 3D algorithm
authorgeay <anthony.geay@cea.fr>
Tue, 17 Jun 2014 15:51:58 +0000 (17:51 +0200)
committergeay <anthony.geay@cea.fr>
Tue, 17 Jun 2014 15:51:58 +0000 (17:51 +0200)
src/MEDCoupling/MEDCouplingIMesh.cxx
src/MEDCoupling/MEDCouplingIMesh.hxx
src/MEDCoupling_Swig/MEDCouplingBasicsTest.py

index d26364a52ce96f3f367d398de71313bb126d95a1..9a5f1c53596e2a53967cd11d7d9ac05008d040a8 100644 (file)
@@ -780,48 +780,26 @@ void MEDCouplingIMesh::SpreadCoarseToFineGhostZone(const DataArrayDouble *coarse
       }
     case 2:
       {
-        int nxwg(coarseSt[0]+2*ghostSize),fact0(facts[0]),fact1(facts[1]);
-        int kk(fineLocInCoarse[0].first+ghostSize-1+nxwg*(fineLocInCoarse[1].first+ghostSize-1));//kk is always >=0 thanks to the fact that ghostSize>=1 !
-        for(int jg=0;jg<ghostSize;jg++)
-          {
-            for(int ig=0;ig<ghostSize;ig++)
-              outPtr=std::copy(inPtr+kk*nbCompo,inPtr+(kk+1)*nbCompo,outPtr);
-            int kk0(kk+1);
-            for(int ig=0;ig<dims[0];ig++,kk0++)
-              for(int ifact=0;ifact<fact0;ifact++)
-                outPtr=std::copy(inPtr+(kk0)*nbCompo,inPtr+(kk0+1)*nbCompo,outPtr);
-            for(int ik=0;ik<ghostSize;ik++)
-              outPtr=std::copy(inPtr+kk0*nbCompo,inPtr+(kk0+1)*nbCompo,outPtr);
-          }
-        for(int j=0;j<dims[1];j++)
-          {
-            kk=fineLocInCoarse[0].first-1+ghostSize+nxwg*(fineLocInCoarse[1].first+ghostSize+j);
-            for(int jfact=0;jfact<fact1;jfact++)
-              {
-                for(int ig=0;ig<ghostSize;ig++)
-                  outPtr=std::copy(inPtr+kk*nbCompo,inPtr+(kk+1)*nbCompo,outPtr);
-                int kk0(kk+1+dims[0]);//1 not ghost. We make the hypothesis that factors is >= ghostlev
-                outPtr+=fact0*nbCompo*dims[0];
-                for(int ig=0;ig<ghostSize;ig++)
-                  outPtr=std::copy(inPtr+kk0*nbCompo,inPtr+(kk0+1)*nbCompo,outPtr);
-              }
-          }
-        kk=fineLocInCoarse[0].first+ghostSize-1+nxwg*(fineLocInCoarse[1].second+ghostSize);
-        for(int jg=0;jg<ghostSize;jg++)
-          {
-            for(int ig=0;ig<ghostSize;ig++)
-              outPtr=std::copy(inPtr+kk*nbCompo,inPtr+(kk+1)*nbCompo,outPtr);
-            int kk0(kk+1);
-            for(int ig=0;ig<dims[0];ig++,kk0++)
-              for(int ifact=0;ifact<fact0;ifact++)
-                outPtr=std::copy(inPtr+(kk0)*nbCompo,inPtr+(kk0+1)*nbCompo,outPtr);
-            for(int ik=0;ik<ghostSize;ik++)
-              outPtr=std::copy(inPtr+kk0*nbCompo,inPtr+(kk0+1)*nbCompo,outPtr);
-          }
+        SpreadCoarseToFineGhostZone2D(inPtr,outPtr,nbCompo,coarseSt,fineLocInCoarse,facts,ghostSize);
+        break;
+      }
+    case 3:
+      {
+        int fact0(facts[0]),fact1(facts[1]),fact2(facts[2]);
+        int nxyWgCoarse((coarseSt[0]+2*ghostSize)*(coarseSt[1]+2*ghostSize)),nxyWgFine((dims[0]*fact0+2*ghostSize)*(dims[1]*fact1+2*ghostSize));
+        int offset((fineLocInCoarse[2].first+ghostSize-1)*nxyWgCoarse);//offset is always >=0 thanks to the fact that ghostSize>=1 !
+        for(int i=0;i<ghostSize;i++,outPtr+=nxyWgFine*nbCompo)
+          SpreadCoarseToFineGhost2D(inPtr+offset*nbCompo,outPtr,nbCompo,coarseSt,fineLocInCoarse,facts,ghostSize);
+        offset+=nxyWgCoarse;
+        for(int i=0;i<dims[2];i++,offset+=nxyWgCoarse)
+          for(int j=0;j<fact2;j++,outPtr+=nxyWgFine*nbCompo)
+            SpreadCoarseToFineGhostZone2D(inPtr+offset*nbCompo,outPtr,nbCompo,coarseSt,fineLocInCoarse,facts,ghostSize);
+        for(int i=0;i<ghostSize;i++,outPtr+=nxyWgFine*nbCompo)
+          SpreadCoarseToFineGhost2D(inPtr+offset*nbCompo,outPtr,nbCompo,coarseSt,fineLocInCoarse,facts,ghostSize);
         break;
       }
     default:
-      throw INTERP_KERNEL::Exception("MEDCouplingIMesh::SpreadCoarseToFineGhostZone : only dimensions 1, 2 supported !");
+      throw INTERP_KERNEL::Exception("MEDCouplingIMesh::SpreadCoarseToFineGhostZone : only dimensions 1, 2, 3 supported !");
   }
 }
 
@@ -1466,3 +1444,47 @@ void MEDCouplingIMesh::SpreadCoarseToFineGhost2D(const double *inPtr, double *ou
         outPtrWork=std::copy(inPtr+kk0*nbCompo,inPtr+(kk0+1)*nbCompo,outPtrWork);
     }
 }
+
+void MEDCouplingIMesh::SpreadCoarseToFineGhostZone2D(const double *inPtr, double *outPtr, int nbCompo, const std::vector<int>& coarseSt, const std::vector< std::pair<int,int> >& fineLocInCoarse, const std::vector<int>& facts, int ghostSize)
+{
+  double *outPtr2(outPtr);
+  std::vector<int> dims(MEDCouplingStructuredMesh::GetDimensionsFromCompactFrmt(fineLocInCoarse));
+  int nxwg(coarseSt[0]+2*ghostSize),fact0(facts[0]),fact1(facts[1]);
+  int kk(fineLocInCoarse[0].first+ghostSize-1+nxwg*(fineLocInCoarse[1].first+ghostSize-1));//kk is always >=0 thanks to the fact that ghostSize>=1 !
+  for(int jg=0;jg<ghostSize;jg++)
+    {
+      for(int ig=0;ig<ghostSize;ig++)
+        outPtr2=std::copy(inPtr+kk*nbCompo,inPtr+(kk+1)*nbCompo,outPtr2);
+      int kk0(kk+1);
+      for(int ig=0;ig<dims[0];ig++,kk0++)
+        for(int ifact=0;ifact<fact0;ifact++)
+          outPtr2=std::copy(inPtr+(kk0)*nbCompo,inPtr+(kk0+1)*nbCompo,outPtr2);
+      for(int ik=0;ik<ghostSize;ik++)
+        outPtr2=std::copy(inPtr+kk0*nbCompo,inPtr+(kk0+1)*nbCompo,outPtr2);
+    }
+  for(int j=0;j<dims[1];j++)
+    {
+      kk=fineLocInCoarse[0].first-1+ghostSize+nxwg*(fineLocInCoarse[1].first+ghostSize+j);
+      for(int jfact=0;jfact<fact1;jfact++)
+        {
+          for(int ig=0;ig<ghostSize;ig++)
+            outPtr2=std::copy(inPtr+kk*nbCompo,inPtr+(kk+1)*nbCompo,outPtr2);
+          int kk0(kk+1+dims[0]);//1 not ghost. We make the hypothesis that factors is >= ghostlev
+          outPtr2+=fact0*nbCompo*dims[0];
+          for(int ig=0;ig<ghostSize;ig++)
+            outPtr2=std::copy(inPtr+kk0*nbCompo,inPtr+(kk0+1)*nbCompo,outPtr2);
+        }
+    }
+  kk=fineLocInCoarse[0].first+ghostSize-1+nxwg*(fineLocInCoarse[1].second+ghostSize);
+  for(int jg=0;jg<ghostSize;jg++)
+    {
+      for(int ig=0;ig<ghostSize;ig++)
+        outPtr2=std::copy(inPtr+kk*nbCompo,inPtr+(kk+1)*nbCompo,outPtr2);
+      int kk0(kk+1);
+      for(int ig=0;ig<dims[0];ig++,kk0++)
+        for(int ifact=0;ifact<fact0;ifact++)
+          outPtr2=std::copy(inPtr+(kk0)*nbCompo,inPtr+(kk0+1)*nbCompo,outPtr2);
+      for(int ik=0;ik<ghostSize;ik++)
+        outPtr2=std::copy(inPtr+kk0*nbCompo,inPtr+(kk0+1)*nbCompo,outPtr2);
+    }
+}
index 5a203700e6535a22942bddea1dbed3d4786ca0ac..dd0f314aaf656af3b8251b37520a5109f96dfe99 100644 (file)
@@ -111,6 +111,7 @@ namespace ParaMEDMEM
     static void CheckSpaceDimension(int spaceDim);
     static int FindIntRoot(int val, int order);
     static void SpreadCoarseToFineGhost2D(const double *inPtr, double *outPtr, int nbCompo, const std::vector<int>& coarseSt, const std::vector< std::pair<int,int> >& fineLocInCoarse, const std::vector<int>& facts, int ghostSize);
+    static void SpreadCoarseToFineGhostZone2D(const double *inPtr, double *outPtr, int nbCompo, const std::vector<int>& coarseSt, const std::vector< std::pair<int,int> >& fineLocInCoarse, const std::vector<int>& facts, int ghostSize);
   private:
     int _space_dim;
     double _origin[3];
index 36a7125cd038527aca8016b375e64ccf5516fec2..1bf0b4efc37e11da30e12453d2c004835de4a66f 100644 (file)
@@ -15507,6 +15507,7 @@ class MEDCouplingBasicsTest(unittest.TestCase):
         exp4=DataArrayDouble([692.,692.,693.,693.,694.,694.,695.,695.,696.,696.,697.,697.,692.,692.,693.,693.,694.,694.,695.,695.,696.,696.,697.,697.,702.,702.,703.,703.,704.,704.,705.,705.,706.,706.,707.,707.,702.,702.,703.,703.,704.,704.,705.,705.,706.,706.,707.,707.,702.,702.,703.,703.,704.,704.,705.,705.,706.,706.,707.,707.,712.,712.,713.,713.,714.,714.,715.,715.,716.,716.,717.,717.,712.,712.,713.,713.,714.,714.,715.,715.,716.,716.,717.,717.,712.,712.,713.,713.,714.,714.,715.,715.,716.,716.,717.,717.,722.,722.,723.,723.,724.,724.,725.,725.,726.,726.,727.,727.,722.,722.,723.,723.,724.,724.,725.,725.,726.,726.,727.,727.])
         exp=DataArrayDouble.Aggregate([exp0,exp0,exp1,exp1,exp1,exp1,exp2,exp2,exp2,exp2,exp3,exp3,exp3,exp3,exp4,exp4])
         self.assertTrue(fine.isEqual(exp,1e-12))
+        #
         fine.iota()
         coarse.iota(0.5)
         MEDCouplingIMesh.CondenseFineToCoarseGhost([6,7,5],fine,[(1,5),(2,4),(1,4)],[2,3,4],coarse,2)
@@ -15519,11 +15520,22 @@ class MEDCouplingBasicsTest(unittest.TestCase):
         vals=DataArrayDouble([11004.,11052.,11100.,11148.,11868.,11916.,11964.,12012.,22524.,22572.,22620.,22668.,23388.,23436.,23484.,23532.,34044.,34092.,34140.,34188.,34908.,34956.,35004.,35052.])
         exp1[ids]=vals
         self.assertTrue(coarse.isEqual(exp1,1e-12))
-        MEDCouplingStructuredMesh.MultiplyPartOf([10,11,9],[(3,7),(4,6),(3,6)],1/24.,coarse)
         #
+        MEDCouplingStructuredMesh.MultiplyPartOf([10,11,9],[(3,7),(4,6),(3,6)],1/24.,coarse)
         exp2=DataArrayDouble(990) ; exp2.iota(0.5)
         exp2[ids]=vals/24.
         self.assertTrue(coarse.isEqual(exp2,1e-12))
+        #
+        coarse.iota(0.5) ; fine.iota(0.1)
+        MEDCouplingIMesh.SpreadCoarseToFineGhostZone(coarse,[6,7,5],fine,[(1,5),(2,4),(1,4)],[2,3,4],2)
+        #
+        coarse.iota(0.5) ; fine.iota(0.1)
+        MEDCouplingIMesh.SpreadCoarseToFineGhostZone(coarse,[6,7,5],fine,[(1,5),(2,4),(1,4)],[2,3,4],2)
+        exp00=DataArrayDouble.Aggregate([exp0,exp0]) ; exp00+=0.5
+        self.assertTrue(fine[:240].isEqual(exp00,1e-12))
+        exp44=DataArrayDouble.Aggregate([exp4,exp4]) ; exp44+=0.5
+        self.assertTrue(fine[-240:].isEqual(exp44,1e-12))
+        self.assertTrue(fine[240:-240].isEqual(DataArrayDouble([362.5,362.5,363.5,363.5,364.5,364.5,365.5,365.5,366.5,366.5,367.5,367.5,362.5,362.5,363.5,363.5,364.5,364.5,365.5,365.5,366.5,366.5,367.5,367.5,372.5,372.5,266.1,267.1,268.1,269.1,270.1,271.1,272.1,273.1,377.5,377.5,372.5,372.5,278.1,279.1,280.1,281.1,282.1,283.1,284.1,285.1,377.5,377.5,372.5,372.5,290.1,291.1,292.1,293.1,294.1,295.1,296.1,297.1,377.5,377.5,382.5,382.5,302.1,303.1,304.1,305.1,306.1,307.1,308.1,309.1,387.5,387.5,382.5,382.5,314.1,315.1,316.1,317.1,318.1,319.1,320.1,321.1,387.5,387.5,382.5,382.5,326.1,327.1,328.1,329.1,330.1,331.1,332.1,333.1,387.5,387.5,392.5,392.5,393.5,393.5,394.5,394.5,395.5,395.5,396.5,396.5,397.5,397.5,392.5,392.5,393.5,393.5,394.5,394.5,395.5,395.5,396.5,396.5,397.5,397.5,362.5,362.5,363.5,363.5,364.5,364.5,365.5,365.5,366.5,366.5,367.5,367.5,362.5,362.5,363.5,363.5,364.5,364.5,365.5,365.5,366.5,366.5,367.5,367.5,372.5,372.5,386.1,387.1,388.1,389.1,390.1,391.1,392.1,393.1,377.5,377.5,372.5,372.5,398.1,399.1,400.1,401.1,402.1,403.1,404.1,405.1,377.5,377.5,372.5,372.5,410.1,411.1,412.1,413.1,414.1,415.1,416.1,417.1,377.5,377.5,382.5,382.5,422.1,423.1,424.1,425.1,426.1,427.1,428.1,429.1,387.5,387.5,382.5,382.5,434.1,435.1,436.1,437.1,438.1,439.1,440.1,441.1,387.5,387.5,382.5,382.5,446.1,447.1,448.1,449.1,450.1,451.1,452.1,453.1,387.5,387.5,392.5,392.5,393.5,393.5,394.5,394.5,395.5,395.5,396.5,396.5,397.5,397.5,392.5,392.5,393.5,393.5,394.5,394.5,395.5,395.5,396.5,396.5,397.5,397.5,362.5,362.5,363.5,363.5,364.5,364.5,365.5,365.5,366.5,366.5,367.5,367.5,362.5,362.5,363.5,363.5,364.5,364.5,365.5,365.5,366.5,366.5,367.5,367.5,372.5,372.5,506.1,507.1,508.1,509.1,510.1,511.1,512.1,513.1,377.5,377.5,372.5,372.5,518.1,519.1,520.1,521.1,522.1,523.1,524.1,525.1,377.5,377.5,372.5,372.5,530.1,531.1,532.1,533.1,534.1,535.1,536.1,537.1,377.5,377.5,382.5,382.5,542.1,543.1,544.1,545.1,546.1,547.1,548.1,549.1,387.5,387.5,382.5,382.5,554.1,555.1,556.1,557.1,558.1,559.1,560.1,561.1,387.5,387.5,382.5,382.5,566.1,567.1,568.1,569.1,570.1,571.1,572.1,573.1,387.5,387.5,392.5,392.5,393.5,393.5,394.5,394.5,395.5,395.5,396.5,396.5,397.5,397.5,392.5,392.5,393.5,393.5,394.5,394.5,395.5,395.5,396.5,396.5,397.5,397.5,362.5,362.5,363.5,363.5,364.5,364.5,365.5,365.5,366.5,366.5,367.5,367.5,362.5,362.5,363.5,363.5,364.5,364.5,365.5,365.5,366.5,366.5,367.5,367.5,372.5,372.5,626.1,627.1,628.1,629.1,630.1,631.1,632.1,633.1,377.5,377.5,372.5,372.5,638.1,639.1,640.1,641.1,642.1,643.1,644.1,645.1,377.5,377.5,372.5,372.5,650.1,651.1,652.1,653.1,654.1,655.1,656.1,657.1,377.5,377.5,382.5,382.5,662.1,663.1,664.1,665.1,666.1,667.1,668.1,669.1,387.5,387.5,382.5,382.5,674.1,675.1,676.1,677.1,678.1,679.1,680.1,681.1,387.5,387.5,382.5,382.5,686.1,687.1,688.1,689.1,690.1,691.1,692.1,693.1,387.5,387.5,392.5,392.5,393.5,393.5,394.5,394.5,395.5,395.5,396.5,396.5,397.5,397.5,392.5,392.5,393.5,393.5,394.5,394.5,395.5,395.5,396.5,396.5,397.5,397.5,472.5,472.5,473.5,473.5,474.5,474.5,475.5,475.5,476.5,476.5,477.5,477.5,472.5,472.5,473.5,473.5,474.5,474.5,475.5,475.5,476.5,476.5,477.5,477.5,482.5,482.5,746.1,747.1,748.1,749.1,750.1,751.1,752.1,753.1,487.5,487.5,482.5,482.5,758.1,759.1,760.1,761.1,762.1,763.1,764.1,765.1,487.5,487.5,482.5,482.5,770.1,771.1,772.1,773.1,774.1,775.1,776.1,777.1,487.5,487.5,492.5,492.5,782.1,783.1,784.1,785.1,786.1,787.1,788.1,789.1,497.5,497.5,492.5,492.5,794.1,795.1,796.1,797.1,798.1,799.1,800.1,801.1,497.5,497.5,492.5,492.5,806.1,807.1,808.1,809.1,810.1,811.1,812.1,813.1,497.5,497.5,502.5,502.5,503.5,503.5,504.5,504.5,505.5,505.5,506.5,506.5,507.5,507.5,502.5,502.5,503.5,503.5,504.5,504.5,505.5,505.5,506.5,506.5,507.5,507.5,472.5,472.5,473.5,473.5,474.5,474.5,475.5,475.5,476.5,476.5,477.5,477.5,472.5,472.5,473.5,473.5,474.5,474.5,475.5,475.5,476.5,476.5,477.5,477.5,482.5,482.5,866.1,867.1,868.1,869.1,870.1,871.1,872.1,873.1,487.5,487.5,482.5,482.5,878.1,879.1,880.1,881.1,882.1,883.1,884.1,885.1,487.5,487.5,482.5,482.5,890.1,891.1,892.1,893.1,894.1,895.1,896.1,897.1,487.5,487.5,492.5,492.5,902.1,903.1,904.1,905.1,906.1,907.1,908.1,909.1,497.5,497.5,492.5,492.5,914.1,915.1,916.1,917.1,918.1,919.1,920.1,921.1,497.5,497.5,492.5,492.5,926.1,927.1,928.1,929.1,930.1,931.1,932.1,933.1,497.5,497.5,502.5,502.5,503.5,503.5,504.5,504.5,505.5,505.5,506.5,506.5,507.5,507.5,502.5,502.5,503.5,503.5,504.5,504.5,505.5,505.5,506.5,506.5,507.5,507.5,472.5,472.5,473.5,473.5,474.5,474.5,475.5,475.5,476.5,476.5,477.5,477.5,472.5,472.5,473.5,473.5,474.5,474.5,475.5,475.5,476.5,476.5,477.5,477.5,482.5,482.5,986.1,987.1,988.1,989.1,990.1,991.1,992.1,993.1,487.5,487.5,482.5,482.5,998.1,999.1,1000.1,1001.1,1002.1,1003.1,1004.1,1005.1,487.5,487.5,482.5,482.5,1010.1,1011.1,1012.1,1013.1,1014.1,1015.1,1016.1,1017.1,487.5,487.5,492.5,492.5,1022.1,1023.1,1024.1,1025.1,1026.1,1027.1,1028.1,1029.1,497.5,497.5,492.5,492.5,1034.1,1035.1,1036.1,1037.1,1038.1,1039.1,1040.1,1041.1,497.5,497.5,492.5,492.5,1046.1,1047.1,1048.1,1049.1,1050.1,1051.1,1052.1,1053.1,497.5,497.5,5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         pass
 
     pass