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Executable	/home1/jenkins/workspace/ProjectX_Weekly/PX_ARC/relwithdebinfo_gnu/buildnode/reynolds/platforms/relwithdebinfo_gnu/bin/ProjectXExec
PID	26354
PPID	16382
Unique ID	0x103a
Text	672 bytes in 1 blocks are still reachable in loss record 4,153 of 4,624
Auxiliary
Suppression	{ <insert_a_suppression_name_here> Memcheck:Leak match-leak-kinds: reachable fun:malloc fun:PXAllocate fun:PXConvertGrid2Mesh fun:PXAdaptHPDirectSingleStepWrapper fun:PXSolveUnsteadyDualProblem fun:PXSolveDual fun:PXPSequencing fun:main }

Stacktrace

Object	/usr/lib/valgrind/vgpreload_memcheck-amd64-linux.so
Function	malloc
File/Line
Code	Source code not available

Object /home1/jenkins/workspace/ProjectX_Weekly/PX_ARC/relwithdebinfo_gnu/buildnode/reynolds/platforms/relwithdebinfo_gnu/bin/ProjectXExec

Function PXAllocate

File/Line /home1/jenkins/workspace/ProjectX_Weekly/PX_ARC/relwithdebinfo_gnu/buildnode/reynolds/src/Fundamentals/PXMemory.c:99

Code


089 

090 

091   tot = n*size;

092   

093   if (likely(tot)){

094     if (unlikely(n<0)){

095       printf("Error, requesting allocation of negative memory size.\n"); fflush(stdout);

096       *po = NULL;

097       return PXError(PX_MEMORY_ERROR);

098     }


099     else if ( unlikely(( _po = (char *)malloc(tot)) == NULL) ){


100       *po = NULL;

101       return PXError(PX_MEMORY_ERROR);

102     }

103   }

104   *po = (void *) _po;

Object /home1/jenkins/workspace/ProjectX_Weekly/PX_ARC/relwithdebinfo_gnu/buildnode/reynolds/platforms/relwithdebinfo_gnu/bin/ProjectXExec

Function PXConvertGrid2Mesh

File/Line /home1/jenkins/workspace/ProjectX_Weekly/PX_ARC/relwithdebinfo_gnu/buildnode/reynolds/src/Grid/PXMesh.c:1065

Code


1055       //one more element added

1056       nElem ++ ;

1057     } /* end of elem */

1058   } /* end of egrp */

1059 

1060 

1061   /*Number of vertices*/

1062   mesh->nVertex = nNode;

1063   if (Mesh2GridMap != NULL) {

1064   Mesh2GridMap->vertexmap = NULL;


1065     PXErrorReturn(PXAllocate(mesh->nVertex,sizeof(int),(void**)&Mesh2GridMap->vertexmap));


1066   }

1067 

1068   /*Coordinate*/

1069   PXErrorReturn(PXAllocate2(mesh->nVertex,dim,sizeof(PX_REAL),(void**)&(mesh->coordinate)));

1070   for (node = 0; node < pg->nNode; node++) {

Object /home1/jenkins/workspace/ProjectX_Weekly/PX_ARC/relwithdebinfo_gnu/buildnode/reynolds/platforms/relwithdebinfo_gnu/bin/ProjectXExec

Function PXAdaptHPDirectSingleStepWrapper

File/Line /home1/jenkins/workspace/ProjectX_Weekly/PX_ARC/relwithdebinfo_gnu/buildnode/reynolds/src/PXHPAdaptDirect.c:7863

Code


7853   /* Construct mesh */

7854   PXErrorReturn(PXCreateMesh(&meshback));

7855   Mesh2GridMap = Mesh2GridMapLoc;

7856   if (CutFlag == PXE_False) {

7857     pgmesh = pg;

7858   }

7859   else {

7860     pgmesh = pg->pgback;

7861     if (pgmesh == NULL) PXErrorReturn(PX_BAD_INPUT);

7862   }


7863   PXErrorReturn(PXConvertGrid2Mesh(pgmesh,meshback,Mesh2GridMap));


7864 

7865   /* Initialize elemerror */

7866   PXErrorReturn(PXAllocateElementError(meshback,ElemError));

7867 

7868   /* Fill element error for this single step */

Object /home1/jenkins/workspace/ProjectX_Weekly/PX_ARC/relwithdebinfo_gnu/buildnode/reynolds/platforms/relwithdebinfo_gnu/bin/ProjectXExec

Function PXSolveUnsteadyDualProblem

File/Line /home1/jenkins/workspace/ProjectX_Weekly/PX_ARC/relwithdebinfo_gnu/buildnode/reynolds/src/PXSolver.c:10865

Code


10855                                                               &ErrorEstSum, &ErrorEstAbsSum) );

10856 

10857       }

10858       else

10859       {

10860 

10861 #ifdef PX_TIMING

10862         c0 = PXclock();

10863 #endif

10864         /* Build grid and fill ElemError structure */


10865         PXErrorReturn( PXAdaptHPDirectSingleStepWrapper(pxa, currentIndex,


10866                                                         &ErrorEstSum, &ErrorEstAbsSum) );

10867 #ifdef PX_TIMING

10868         c1 = PXclock();

10869         PXPrintf("Time : (DualSolve(P+1andLocSolve)) = %f\n", c1-c0 );

10870 #endif

Object /home1/jenkins/workspace/ProjectX_Weekly/PX_ARC/relwithdebinfo_gnu/buildnode/reynolds/platforms/relwithdebinfo_gnu/bin/ProjectXExec

Function PXSolveDual

File/Line /home1/jenkins/workspace/ProjectX_Weekly/PX_ARC/relwithdebinfo_gnu/buildnode/reynolds/src/PXRunSolver.c:529

Code


0519   PXErrorReturn( PXGetKeyValueInt( pxa->Parameter, "AdaptIter", &AdaptIter ) );

0520 

0521   /*--------------------*/

0522   /* Solve Dual Problem */

0523   /*--------------------*/

0524 

0525   PXPrintf("\n*************\n");

0526   PXPrintf(  " Dual Solver \n");

0527   PXPrintf(  "*************\n");

0528


0529   PXErrorReturn( PXSolveUnsteadyDualProblem(pxa, &AdaptFlag, &ConvergedFlag) );


0530 

0531   /*-------------------*/

0532   /* Write Output File */

0533   /*-------------------*/

0534

Object /home1/jenkins/workspace/ProjectX_Weekly/PX_ARC/relwithdebinfo_gnu/buildnode/reynolds/platforms/relwithdebinfo_gnu/bin/ProjectXExec

Function PXPSequencing

File/Line /home1/jenkins/workspace/ProjectX_Weekly/PX_ARC/relwithdebinfo_gnu/buildnode/reynolds/src/PXRunSolver.c:710

Code


0700       if ( iSolOrder == SolOrder ){

0701   iAdaptFlag = AdaptFlag;

0702       } else {

0703   iAdaptFlag = PXE_False;

0704       }

0705 

0706 #ifdef PX_TIMING

0707     PXBarrier();

0708     c0 = PXclock();

0709 #endif


0710       PXErrorReturn( PXSolveDual(pxa, iAdaptFlag, aiter, &ConvergedFlag, &iSolOrder) );


0711 #ifdef PX_TIMING

0712     PXBarrier();

0713     c1 = PXclock();

0714     PXPrintf("Time : (DualSolveTotal) = %f\n", c1-c0 );

0715 #endif

Object /home1/jenkins/workspace/ProjectX_Weekly/PX_ARC/relwithdebinfo_gnu/buildnode/reynolds/platforms/relwithdebinfo_gnu/bin/ProjectXExec

Function main

File/Line /home1/jenkins/workspace/ProjectX_Weekly/PX_ARC/relwithdebinfo_gnu/buildnode/reynolds/src/PXRunSolver.c:999

Code


0989     PXErrorReturn( PXInitializeAdaptIter( pxa, aiter ) );

0990     //pg = pxa->pg;

0991 

0992 #ifdef PX_TIMING

0993     PXBarrier();

0994     c2=PXclock();

0995     PXPrintf("Time : (InitializeAdaptIter) = %f\n", c2 - c1 );

0996 #endif

0997 

0998     /* Perform PSequencing */


0999     PXErrorReturn( PXPSequencing( pxa, AdaptFlag, aiter, &ConvergedFlag ) );


1000 

1001 #ifdef PX_TIMING

1002     PXBarrier();

1003     c1=PXclock();

1004     PXPrintf("Time : (PXPSequencing) = %f\n",  c1 - c2);