INFO: No output directory specified (--dir) INFO: Using directory: "Test_Pol_Bender_20250815_071603" INFO: Regenerating c-file: Test_Pol_Bender.c DEBUG: CMD: /home/willend/micromamba/bin/mcstas -t -o ./Test_Pol_Bender.c Test_Pol_Bender.instr CFLAGS= WARNING: The parameter rTopUpPar of bender is initialized using a static {,,,} vector. -> Such static vectors support literal numbers ONLY. -> Any vector use of variables or defines must happen via a DECLARE/INITIALIZE pointer. WARNING: The parameter rTopDownPar of bender is initialized using a static {,,,} vector. -> Such static vectors support literal numbers ONLY. -> Any vector use of variables or defines must happen via a DECLARE/INITIALIZE pointer. WARNING: The parameter rBotUpPar of bender is initialized using a static {,,,} vector. -> Such static vectors support literal numbers ONLY. -> Any vector use of variables or defines must happen via a DECLARE/INITIALIZE pointer. WARNING: The parameter rBotDownPar of bender is initialized using a static {,,,} vector. -> Such static vectors support literal numbers ONLY. -> Any vector use of variables or defines must happen via a DECLARE/INITIALIZE pointer. WARNING: The parameter rLeftUpPar of bender is initialized using a static {,,,} vector. -> Such static vectors support literal numbers ONLY. -> Any vector use of variables or defines must happen via a DECLARE/INITIALIZE pointer. WARNING: The parameter rLeftDownPar of bender is initialized using a static {,,,} vector. -> Such static vectors support literal numbers ONLY. -> Any vector use of variables or defines must happen via a DECLARE/INITIALIZE pointer. WARNING: The parameter rRightUpPar of bender is initialized using a static {,,,} vector. -> Such static vectors support literal numbers ONLY. -> Any vector use of variables or defines must happen via a DECLARE/INITIALIZE pointer. WARNING: The parameter rRightDownPar of bender is initialized using a static {,,,} vector. -> Such static vectors support literal numbers ONLY. -> Any vector use of variables or defines must happen via a DECLARE/INITIALIZE pointer. ----------------------------------------------------------- Generating single GPU kernel or single CPU section layout: ----------------------------------------------------------- Generating GPU/CPU -DFUNNEL layout: ----------------------------------------------------------- DEBUG: CMD: /home/willend/micromamba/bin/mcstas finished INFO: Linting generated code: ./Test_Pol_Bender.c DEBUG: CMD: cppcheck ./Test_Pol_Bender.c --check-level=exhaustive --force -DMCDEFAULT_NCOUNT=1000000 -UMC_PORTABLE -DND_BUFFER=10000000 -UNOABSORB_INF_NAN -UOMPI_MPI_H -DSIGABRT -DSIGBREAK -DSIGBUS -DSIGPE -DSIGHUP -DSIGILL -DSIGINT -DSIGKILL -DSIGUSR1 -DSIGUSR2 -DSIGPIPE -DSIGQUIT -DSIGSEGV -DSIGTRAP -DSIGURG -DSIGFPE -DSIGKILL -DSIGTERM -UTEST -UUSE_OPENCL -UWIN32 -UOPENACC -UGCCOFFLOAD -U_MSC_VER -U_MSC_EXTENSIONS -U_WIN32 -UWIN32 -D__unix__ -UDANSE -UFUNNEL -UMC_ANCIENT_COMPATIBILITY -UMC_POL_COMPAT -UNEUTRONICS -Uisnan -Uisinf Checking Test_Pol_Bender.c ... Checking Test_Pol_Bender.c: MCDEFAULT_NCOUNT=1000000;ND_BUFFER=10000000;SIGABRT=1;SIGBREAK=1;SIGBUS=1;SIGPE=1;SIGHUP=1;SIGILL=1;SIGINT=1;SIGKILL=1;SIGUSR1=1;SIGUSR2=1;SIGPIPE=1;SIGQUIT=1;SIGSEGV=1;SIGTRAP=1;SIGURG=1;SIGFPE=1;SIGKILL=1;SIGTERM=1;__unix__=1... Test_Pol_Bender.c:9090:3: warning: If memory allocation fails, then there is a possible null pointer dereference: node [nullPointerOutOfMemory] node->depth = depth; ^ Test_Pol_Bender.c:9089:26: note: Assuming allocation function fails treeNode *node = malloc(sizeof(treeNode)); ^ Test_Pol_Bender.c:9089:26: note: Assignment 'node=malloc(sizeof(struct treeNode))', assigned value is 0 treeNode *node = malloc(sizeof(treeNode)); ^ Test_Pol_Bender.c:9090:3: note: Null pointer dereference node->depth = depth; ^ Test_Pol_Bender.c:9093:3: warning: If memory allocation fails, then there is a possible null pointer dereference: node [nullPointerOutOfMemory] node->point = points[med]; ^ Test_Pol_Bender.c:9089:26: note: Assuming allocation function fails treeNode *node = malloc(sizeof(treeNode)); ^ Test_Pol_Bender.c:9089:26: note: Assignment 'node=malloc(sizeof(struct treeNode))', assigned value is 0 treeNode *node = malloc(sizeof(treeNode)); ^ Test_Pol_Bender.c:9093:3: note: Null pointer dereference node->point = points[med]; ^ Test_Pol_Bender.c:9095:3: warning: If memory allocation fails, then there is a possible null pointer dereference: node [nullPointerOutOfMemory] node->lChild = kdtree_addToTree(points, left, med-1, depth + 1); ^ Test_Pol_Bender.c:9089:26: note: Assuming allocation function fails treeNode *node = malloc(sizeof(treeNode)); ^ Test_Pol_Bender.c:9089:26: note: Assignment 'node=malloc(sizeof(struct treeNode))', assigned value is 0 treeNode *node = malloc(sizeof(treeNode)); ^ Test_Pol_Bender.c:9095:3: note: Null pointer dereference node->lChild = kdtree_addToTree(points, left, med-1, depth + 1); ^ Test_Pol_Bender.c:9096:3: warning: If memory allocation fails, then there is a possible null pointer dereference: node [nullPointerOutOfMemory] node->rChild = kdtree_addToTree(points, med+1, right, depth + 1); ^ Test_Pol_Bender.c:9089:26: note: Assuming allocation function fails treeNode *node = malloc(sizeof(treeNode)); ^ Test_Pol_Bender.c:9089:26: note: Assignment 'node=malloc(sizeof(struct treeNode))', assigned value is 0 treeNode *node = malloc(sizeof(treeNode)); ^ Test_Pol_Bender.c:9096:3: note: Null pointer dereference node->rChild = kdtree_addToTree(points, med+1, right, depth + 1); ^ Test_Pol_Bender.c:9222:9: warning: If memory allocation fails, then there is a possible null pointer dereference: indices [nullPointerOutOfMemory] if (indices[i] < 0) indices[i]=0; ^ Test_Pol_Bender.c:9504:27: note: Assuming allocation function fails long *indices = malloc((int)interpolator->space_dimensionality*sizeof(double)); ^ Test_Pol_Bender.c:9504:27: note: Assignment 'indices=malloc((int)interpolator->space_dimensionality*sizeof(double))', assigned value is 0 long *indices = malloc((int)interpolator->space_dimensionality*sizeof(double)); ^ Test_Pol_Bender.c:9508:60: note: Calling function 'interpolator_offset', 3rd argument 'indices' value is 0 long index = interpolator_offset(3, interpolator->bin, indices); ^ Test_Pol_Bender.c:9222:9: note: Null pointer dereference if (indices[i] < 0) indices[i]=0; ^ Test_Pol_Bender.c:9223:9: warning: If memory allocation fails, then there is a possible null pointer dereference: indices [nullPointerOutOfMemory] if (indices[i] >= dimInfo[i]) indices[i]=dimInfo[i]-1; ^ Test_Pol_Bender.c:9504:27: note: Assuming allocation function fails long *indices = malloc((int)interpolator->space_dimensionality*sizeof(double)); ^ Test_Pol_Bender.c:9504:27: note: Assignment 'indices=malloc((int)interpolator->space_dimensionality*sizeof(double))', assigned value is 0 long *indices = malloc((int)interpolator->space_dimensionality*sizeof(double)); ^ Test_Pol_Bender.c:9508:60: note: Calling function 'interpolator_offset', 3rd argument 'indices' value is 0 long index = interpolator_offset(3, interpolator->bin, indices); ^ Test_Pol_Bender.c:9223:9: note: Null pointer dereference if (indices[i] >= dimInfo[i]) indices[i]=dimInfo[i]-1; ^ Test_Pol_Bender.c:9227:23: warning: If memory allocation fails, then there is a possible null pointer dereference: indices [nullPointerOutOfMemory] result = i == 0 ? indices[0] ^ Test_Pol_Bender.c:9504:27: note: Assuming allocation function fails long *indices = malloc((int)interpolator->space_dimensionality*sizeof(double)); ^ Test_Pol_Bender.c:9504:27: note: Assignment 'indices=malloc((int)interpolator->space_dimensionality*sizeof(double))', assigned value is 0 long *indices = malloc((int)interpolator->space_dimensionality*sizeof(double)); ^ Test_Pol_Bender.c:9508:60: note: Calling function 'interpolator_offset', 3rd argument 'indices' value is 0 long index = interpolator_offset(3, interpolator->bin, indices); ^ Test_Pol_Bender.c:9227:23: note: Null pointer dereference result = i == 0 ? indices[0] ^ Test_Pol_Bender.c:9228:45: warning: If memory allocation fails, then there is a possible null pointer dereference: indices [nullPointerOutOfMemory] : result * dimInfo[i] + indices[i]; ^ Test_Pol_Bender.c:9504:27: note: Assuming allocation function fails long *indices = malloc((int)interpolator->space_dimensionality*sizeof(double)); ^ Test_Pol_Bender.c:9504:27: note: Assignment 'indices=malloc((int)interpolator->space_dimensionality*sizeof(double))', assigned value is 0 long *indices = malloc((int)interpolator->space_dimensionality*sizeof(double)); ^ Test_Pol_Bender.c:9508:60: note: Calling function 'interpolator_offset', 3rd argument 'indices' value is 0 long index = interpolator_offset(3, interpolator->bin, indices); ^ Test_Pol_Bender.c:9228:45: note: Null pointer dereference : result * dimInfo[i] + indices[i]; ^ Test_Pol_Bender.c:9321:7: warning: If memory allocation fails, then there is a possible null pointer dereference: vector [nullPointerOutOfMemory] vector[index] = x; ^ Test_Pol_Bender.c:9313:38: note: Assuming allocation function fails double* vector = (double*) calloc(sizeof(double), table.rows); ^ Test_Pol_Bender.c:9313:22: note: Assignment 'vector=(double*)calloc(sizeof(double),table.rows)', assigned value is 0 double* vector = (double*) calloc(sizeof(double), table.rows); ^ Test_Pol_Bender.c:9321:7: note: Null pointer dereference vector[index] = x; ^ Test_Pol_Bender.c:9324:11: warning: If memory allocation fails, then there is a possible null pointer dereference: vector [nullPointerOutOfMemory] qsort(vector, table.rows, sizeof(double), interpolator_double_vector_compare); ^ Test_Pol_Bender.c:9313:38: note: Assuming allocation function fails double* vector = (double*) calloc(sizeof(double), table.rows); ^ Test_Pol_Bender.c:9313:22: note: Assignment 'vector=(double*)calloc(sizeof(double),table.rows)', assigned value is 0 double* vector = (double*) calloc(sizeof(double), table.rows); ^ Test_Pol_Bender.c:9324:11: note: Null pointer dereference qsort(vector, table.rows, sizeof(double), interpolator_double_vector_compare); ^ Test_Pol_Bender.c:9328:18: warning: If memory allocation fails, then there is a possible null pointer dereference: vector [nullPointerOutOfMemory] double x = vector[index]; ^ Test_Pol_Bender.c:9313:38: note: Assuming allocation function fails double* vector = (double*) calloc(sizeof(double), table.rows); ^ Test_Pol_Bender.c:9313:22: note: Assignment 'vector=(double*)calloc(sizeof(double),table.rows)', assigned value is 0 double* vector = (double*) calloc(sizeof(double), table.rows); ^ Test_Pol_Bender.c:9328:18: note: Null pointer dereference double x = vector[index]; ^ Test_Pol_Bender.c:9404:11: warning: If memory allocation fails, then there is a possible null pointer dereference: indices [nullPointerOutOfMemory] indices[axis] = round((x - interpolator->min[axis])/interpolator->step[axis]); ^ Test_Pol_Bender.c:9397:31: note: Assuming allocation function fails long *indices = malloc(interpolator->space_dimensionality*sizeof(long)); ^ Test_Pol_Bender.c:9397:31: note: Assignment 'indices=malloc(interpolator->space_dimensionality*sizeof(long))', assigned value is 0 long *indices = malloc(interpolator->space_dimensionality*sizeof(long)); ^ Test_Pol_Bender.c:9404:11: note: Null pointer dereference indices[axis] = round((x - interpolator->min[axis])/interpolator->step[axis]); ^ Test_Pol_Bender.c:9506:7: warning: If memory allocation fails, then there is a possible null pointer dereference: indices [nullPointerOutOfMemory] indices[axis] = round((space[axis]-interpolator->min[axis])/interpolator->step[axis]); ^ Test_Pol_Bender.c:9504:27: note: Assuming allocation function fails long *indices = malloc((int)interpolator->space_dimensionality*sizeof(double)); ^ Test_Pol_Bender.c:9504:27: note: Assignment 'indices=malloc((int)interpolator->space_dimensionality*sizeof(double))', assigned value is 0 long *indices = malloc((int)interpolator->space_dimensionality*sizeof(double)); ^ Test_Pol_Bender.c:9506:7: note: Null pointer dereference indices[axis] = round((space[axis]-interpolator->min[axis])/interpolator->step[axis]); ^ Test_Pol_Bender.c:9692:5: warning: If memory allocation fails, then there is a possible null pointer dereference: stack [nullPointerOutOfMemory] stack[i+1]=stack[i]; ^ Test_Pol_Bender.c:9684:31: note: Assuming allocation function fails _particle->mcMagnet=calloc(MCMAGNET_STACKSIZE,sizeof(mcmagnet_field_info *)); ^ Test_Pol_Bender.c:9684:31: note: Assignment '_particle->mcMagnet=calloc(12,sizeof(struct mcmagnet_field_info*))', assigned value is 0 _particle->mcMagnet=calloc(MCMAGNET_STACKSIZE,sizeof(mcmagnet_field_info *)); ^ Test_Pol_Bender.c:9687:30: note: stack is assigned '(struct mcmagnet_field_info**)_particle->mcMagnet' here. mcmagnet_field_info **stack=((mcmagnet_field_info **) _particle->mcMagnet); ^ Test_Pol_Bender.c:9692:5: note: Null pointer dereference stack[i+1]=stack[i]; ^ Test_Pol_Bender.c:9692:16: warning: If memory allocation fails, then there is a possible null pointer dereference: stack [nullPointerOutOfMemory] stack[i+1]=stack[i]; ^ Test_Pol_Bender.c:9684:31: note: Assuming allocation function fails _particle->mcMagnet=calloc(MCMAGNET_STACKSIZE,sizeof(mcmagnet_field_info *)); ^ Test_Pol_Bender.c:9684:31: note: Assignment '_particle->mcMagnet=calloc(12,sizeof(struct mcmagnet_field_info*))', assigned value is 0 _particle->mcMagnet=calloc(MCMAGNET_STACKSIZE,sizeof(mcmagnet_field_info *)); ^ Test_Pol_Bender.c:9687:30: note: stack is assigned '(struct mcmagnet_field_info**)_particle->mcMagnet' here. mcmagnet_field_info **stack=((mcmagnet_field_info **) _particle->mcMagnet); ^ Test_Pol_Bender.c:9692:16: note: Null pointer dereference stack[i+1]=stack[i]; ^ Test_Pol_Bender.c:9698:3: warning: If memory allocation fails, then there is a possible null pointer dereference: stack [nullPointerOutOfMemory] stack[0]=calloc(1, sizeof(mcmagnet_field_info)); ^ Test_Pol_Bender.c:9684:31: note: Assuming allocation function fails _particle->mcMagnet=calloc(MCMAGNET_STACKSIZE,sizeof(mcmagnet_field_info *)); ^ Test_Pol_Bender.c:9684:31: note: Assignment '_particle->mcMagnet=calloc(12,sizeof(struct mcmagnet_field_info*))', assigned value is 0 _particle->mcMagnet=calloc(MCMAGNET_STACKSIZE,sizeof(mcmagnet_field_info *)); ^ Test_Pol_Bender.c:9687:30: note: stack is assigned '(struct mcmagnet_field_info**)_particle->mcMagnet' here. mcmagnet_field_info **stack=((mcmagnet_field_info **) _particle->mcMagnet); ^ Test_Pol_Bender.c:9698:3: note: Null pointer dereference stack[0]=calloc(1, sizeof(mcmagnet_field_info)); ^ Test_Pol_Bender.c:9701:3: warning: If memory allocation fails, then there is a possible null pointer dereference: stack [nullPointerOutOfMemory] mcmagnet_pack(stack[0],func_id,magnet_rot,magnet_pos,stopbit,prms); ^ Test_Pol_Bender.c:9684:31: note: Assuming allocation function fails _particle->mcMagnet=calloc(MCMAGNET_STACKSIZE,sizeof(mcmagnet_field_info *)); ^ Test_Pol_Bender.c:9684:31: note: Assignment '_particle->mcMagnet=calloc(12,sizeof(struct mcmagnet_field_info*))', assigned value is 0 _particle->mcMagnet=calloc(MCMAGNET_STACKSIZE,sizeof(mcmagnet_field_info *)); ^ Test_Pol_Bender.c:9687:30: note: stack is assigned '(struct mcmagnet_field_info**)_particle->mcMagnet' here. mcmagnet_field_info **stack=((mcmagnet_field_info **) _particle->mcMagnet); ^ Test_Pol_Bender.c:9701:3: note: Null pointer dereference mcmagnet_pack(stack[0],func_id,magnet_rot,magnet_pos,stopbit,prms); ^ Test_Pol_Bender.c:9701:3: warning: If memory allocation fails, then there is a possible null pointer dereference: mctmp_p [nullPointerOutOfMemory] mcmagnet_pack(stack[0],func_id,magnet_rot,magnet_pos,stopbit,prms); ^ Test_Pol_Bender.c:9698:18: note: Assuming allocation function fails stack[0]=calloc(1, sizeof(mcmagnet_field_info)); ^ Test_Pol_Bender.c:9698:18: note: Assignment 'stack[0]=calloc(1,sizeof(struct mcmagnet_field_info))', assigned value is 0 stack[0]=calloc(1, sizeof(mcmagnet_field_info)); ^ Test_Pol_Bender.c:9701:3: note: mctmp_p is assigned 'stack[0]' here. mcmagnet_pack(stack[0],func_id,magnet_rot,magnet_pos,stopbit,prms); ^ Test_Pol_Bender.c:9701:3: note: Null pointer dereference mcmagnet_pack(stack[0],func_id,magnet_rot,magnet_pos,stopbit,prms); ^ Test_Pol_Bender.c:9230:10: warning: Uninitialized variable: result [uninitvar] return result; ^ Test_Pol_Bender.c:9226:15: note: Assuming condition is false for (i=0; i < dim; i++) { ^ Test_Pol_Bender.c:9230:10: note: Uninitialized variable: result return result; ^ Test_Pol_Bender.c:14387:8: warning: Uninitialized variable: x1 [uninitvar] line(x1, 0.5*yheight, z1, x2, 0.5*yheight, z2); ^ Test_Pol_Bender.c:14345:16: note: Assuming condition is false for(ns=0; ns < nSlitsMax+1; ns++) { ^ Test_Pol_Bender.c:14387:8: note: Uninitialized variable: x1 line(x1, 0.5*yheight, z1, x2, 0.5*yheight, z2); ^ Test_Pol_Bender.c:14387:25: warning: Uninitialized variable: z1 [uninitvar] line(x1, 0.5*yheight, z1, x2, 0.5*yheight, z2); ^ Test_Pol_Bender.c:14345:16: note: Assuming condition is false for(ns=0; ns < nSlitsMax+1; ns++) { ^ Test_Pol_Bender.c:14387:25: note: Uninitialized variable: z1 line(x1, 0.5*yheight, z1, x2, 0.5*yheight, z2); ^ Test_Pol_Bender.c:14387:29: warning: Uninitialized variable: x2 [uninitvar] line(x1, 0.5*yheight, z1, x2, 0.5*yheight, z2); ^ Test_Pol_Bender.c:14345:16: note: Assuming condition is false for(ns=0; ns < nSlitsMax+1; ns++) { ^ Test_Pol_Bender.c:14387:29: note: Uninitialized variable: x2 line(x1, 0.5*yheight, z1, x2, 0.5*yheight, z2); ^ Test_Pol_Bender.c:14387:46: warning: Uninitialized variable: z2 [uninitvar] line(x1, 0.5*yheight, z1, x2, 0.5*yheight, z2); ^ Test_Pol_Bender.c:14345:16: note: Assuming condition is false for(ns=0; ns < nSlitsMax+1; ns++) { ^ Test_Pol_Bender.c:14387:46: note: Uninitialized variable: z2 line(x1, 0.5*yheight, z1, x2, 0.5*yheight, z2); ^ Test_Pol_Bender.c:9228:23: error: Uninitialized variable: result [legacyUninitvar] : result * dimInfo[i] + indices[i]; ^ Checking Test_Pol_Bender.c: MCDEFAULT_NCOUNT=1000000;ND_BUFFER=10000000;SIGABRT=1;SIGBREAK=1;SIGBUS=1;SIGPE=1;SIGHUP=1;SIGILL=1;SIGINT=1;SIGKILL=1;SIGUSR1=1;SIGUSR2=1;SIGPIPE=1;SIGQUIT=1;SIGSEGV=1;SIGTRAP=1;SIGURG=1;SIGFPE=1;SIGKILL=1;SIGTERM=1;__unix__=1;SIGKILL;SIGUSR1;SIGUSR2... Checking Test_Pol_Bender.c: MCDEFAULT_NCOUNT=1000000;ND_BUFFER=10000000;SIGABRT=1;SIGBREAK=1;SIGBUS=1;SIGPE=1;SIGHUP=1;SIGILL=1;SIGINT=1;SIGKILL=1;SIGUSR1=1;SIGUSR2=1;SIGPIPE=1;SIGQUIT=1;SIGSEGV=1;SIGTRAP=1;SIGURG=1;SIGFPE=1;SIGKILL=1;SIGTERM=1;__unix__=1;USE_MPI... Checking Test_Pol_Bender.c: MCDEFAULT_NCOUNT=1000000;ND_BUFFER=10000000;SIGABRT=1;SIGBREAK=1;SIGBUS=1;SIGPE=1;SIGHUP=1;SIGILL=1;SIGINT=1;SIGKILL=1;SIGUSR1=1;SIGUSR2=1;SIGPIPE=1;SIGQUIT=1;SIGSEGV=1;SIGTRAP=1;SIGURG=1;SIGFPE=1;SIGKILL=1;SIGTERM=1;__unix__=1;USE_MPI;USE_NEXUS... Checking Test_Pol_Bender.c: MCDEFAULT_NCOUNT=1000000;ND_BUFFER=10000000;SIGABRT=1;SIGBREAK=1;SIGBUS=1;SIGPE=1;SIGHUP=1;SIGILL=1;SIGINT=1;SIGKILL=1;SIGUSR1=1;SIGUSR2=1;SIGPIPE=1;SIGQUIT=1;SIGSEGV=1;SIGTRAP=1;SIGURG=1;SIGFPE=1;SIGKILL=1;SIGTERM=1;__unix__=1;USE_NEXUS... Checking Test_Pol_Bender.c: MCDEFAULT_NCOUNT=1000000;ND_BUFFER=10000000;SIGABRT=1;SIGBREAK=1;SIGBUS=1;SIGPE=1;SIGHUP=1;SIGILL=1;SIGINT=1;SIGKILL=1;SIGUSR1=1;SIGUSR2=1;SIGPIPE=1;SIGQUIT=1;SIGSEGV=1;SIGTRAP=1;SIGURG=1;SIGFPE=1;SIGKILL=1;SIGTERM=1;__unix__=1;__APPLE__;__GNUC__... Checking Test_Pol_Bender.c: MCDEFAULT_NCOUNT=1000000;ND_BUFFER=10000000;SIGABRT=1;SIGBREAK=1;SIGBUS=1;SIGPE=1;SIGHUP=1;SIGILL=1;SIGINT=1;SIGKILL=1;SIGUSR1=1;SIGUSR2=1;SIGPIPE=1;SIGQUIT=1;SIGSEGV=1;SIGTRAP=1;SIGURG=1;SIGFPE=1;SIGKILL=1;SIGTERM=1;__unix__=1;__APPLE__;__unix__... Checking Test_Pol_Bender.c: MCDEFAULT_NCOUNT=1000000;ND_BUFFER=10000000;SIGABRT=1;SIGBREAK=1;SIGBUS=1;SIGPE=1;SIGHUP=1;SIGILL=1;SIGINT=1;SIGKILL=1;SIGUSR1=1;SIGUSR2=1;SIGPIPE=1;SIGQUIT=1;SIGSEGV=1;SIGTRAP=1;SIGURG=1;SIGFPE=1;SIGKILL=1;SIGTERM=1;__unix__=1;__FreeBSD__... Checking Test_Pol_Bender.c: MCDEFAULT_NCOUNT=1000000;ND_BUFFER=10000000;SIGABRT=1;SIGBREAK=1;SIGBUS=1;SIGPE=1;SIGHUP=1;SIGILL=1;SIGINT=1;SIGKILL=1;SIGUSR1=1;SIGUSR2=1;SIGPIPE=1;SIGQUIT=1;SIGSEGV=1;SIGTRAP=1;SIGURG=1;SIGFPE=1;SIGKILL=1;SIGTERM=1;__unix__=1;__GNUC__... Checking Test_Pol_Bender.c: MCDEFAULT_NCOUNT=1000000;ND_BUFFER=10000000;SIGABRT=1;SIGBREAK=1;SIGBUS=1;SIGPE=1;SIGHUP=1;SIGILL=1;SIGINT=1;SIGKILL=1;SIGUSR1=1;SIGUSR2=1;SIGPIPE=1;SIGQUIT=1;SIGSEGV=1;SIGTRAP=1;SIGURG=1;SIGFPE=1;SIGKILL=1;SIGTERM=1;__unix__=1;__GNUC__;__clang__... Checking Test_Pol_Bender.c: MCDEFAULT_NCOUNT=1000000;ND_BUFFER=10000000;SIGABRT=1;SIGBREAK=1;SIGBUS=1;SIGPE=1;SIGHUP=1;SIGILL=1;SIGINT=1;SIGKILL=1;SIGUSR1=1;SIGUSR2=1;SIGPIPE=1;SIGQUIT=1;SIGSEGV=1;SIGTRAP=1;SIGURG=1;SIGFPE=1;SIGKILL=1;SIGTERM=1;__unix__=1;__dest_os... DEBUG: CMD: cppcheck finished INFO: End of linting ./Test_Pol_Bender.c