INFO: No output directory specified (--dir)
INFO: Using directory: "Incoherent_validation_20250816_140148"
INFO: Regenerating c-file: Incoherent_validation.c
DEBUG: CMD: /home/willend/micromamba/bin/mcstas -t -o ./Incoherent_validation.c Incoherent_validation.instr
Warning: DECLARE block contains 2 assignments (= sign).
         Move them into an INITIALIZE section. May fail at compile.
CFLAGS= -DFUNNEL 
      
-----------------------------------------------------------

Generating single GPU kernel or single CPU section layout: 

-----------------------------------------------------------

Generating GPU/CPU -DFUNNEL layout:
Component test_sample is NOACC, CPUONLY=1
-> FUNNEL mode enabled, SPLIT within buffer.
-> CPU section from component test_sample
-> GPU kernel from component cylinder_sample_incoherent

-----------------------------------------------------------
DEBUG: CMD: /home/willend/micromamba/bin/mcstas finished
INFO: Linting generated code: ./Incoherent_validation.c
DEBUG: CMD: cppcheck ./Incoherent_validation.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 Incoherent_validation.c ...
Checking Incoherent_validation.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...
Incoherent_validation.c:7813:5: error: Memory leak: temp_logger_with_data.logger_pointers [memleak]
    } else {
    ^
Incoherent_validation.c:7843:5: error: Memory leak: temp_abs_logger_with_data.abs_logger_pointers [memleak]
    } else {
    ^
Incoherent_validation.c:8474:5: error: Memory leak: temp_history.elements [memleak]
    } else {
    ^
Incoherent_validation.c:14719:5: error: Memory leak: removed_under_2.elements [memleak]
    };
    ^
Incoherent_validation.c:7704:66: warning: If memory allocation fails, then there is a possible null pointer dereference: temp [nullPointerOutOfMemory]
        for (iterate = 0;iterate < list->num_elements;iterate++) temp[iterate] = list->elements[iterate];
                                                                 ^
Incoherent_validation.c:7703:22: note: Assuming allocation function fails
        temp = malloc(list->num_elements * sizeof(int));
                     ^
Incoherent_validation.c:7703:22: note: Assignment 'temp=malloc(list->num_elements*sizeof(int))', assigned value is 0
        temp = malloc(list->num_elements * sizeof(int));
                     ^
Incoherent_validation.c:7704:66: note: Null pointer dereference
        for (iterate = 0;iterate < list->num_elements;iterate++) temp[iterate] = list->elements[iterate];
                                                                 ^
Incoherent_validation.c:7707:92: warning: If memory allocation fails, then there is a possible null pointer dereference: temp [nullPointerOutOfMemory]
        for (iterate = 0;iterate < list->num_elements;iterate++) list->elements[iterate] = temp[iterate];
                                                                                           ^
Incoherent_validation.c:7703:22: note: Assuming allocation function fails
        temp = malloc(list->num_elements * sizeof(int));
                     ^
Incoherent_validation.c:7703:22: note: Assignment 'temp=malloc(list->num_elements*sizeof(int))', assigned value is 0
        temp = malloc(list->num_elements * sizeof(int));
                     ^
Incoherent_validation.c:7707:92: note: Null pointer dereference
        for (iterate = 0;iterate < list->num_elements;iterate++) list->elements[iterate] = temp[iterate];
                                                                                           ^
Incoherent_validation.c:7741:60: warning: If memory allocation fails, then there is a possible null pointer dereference: temp [nullPointerOutOfMemory]
      for (iterate=0;iterate<list->num_elements;iterate++) temp[iterate] = list->elements[iterate];
                                                           ^
Incoherent_validation.c:7739:26: note: Assuming allocation function fails
      double *temp=malloc(list->num_elements*sizeof(double));
                         ^
Incoherent_validation.c:7739:26: note: Assignment 'temp=malloc(list->num_elements*sizeof(double))', assigned value is 0
      double *temp=malloc(list->num_elements*sizeof(double));
                         ^
Incoherent_validation.c:7741:60: note: Null pointer dereference
      for (iterate=0;iterate<list->num_elements;iterate++) temp[iterate] = list->elements[iterate];
                                                           ^
Incoherent_validation.c:7745:88: warning: If memory allocation fails, then there is a possible null pointer dereference: temp [nullPointerOutOfMemory]
      for (iterate=0;iterate<list->num_elements-1;iterate++) list->elements[iterate] = temp[iterate];
                                                                                       ^
Incoherent_validation.c:7739:26: note: Assuming allocation function fails
      double *temp=malloc(list->num_elements*sizeof(double));
                         ^
Incoherent_validation.c:7739:26: note: Assignment 'temp=malloc(list->num_elements*sizeof(double))', assigned value is 0
      double *temp=malloc(list->num_elements*sizeof(double));
                         ^
Incoherent_validation.c:7745:88: note: Null pointer dereference
      for (iterate=0;iterate<list->num_elements-1;iterate++) list->elements[iterate] = temp[iterate];
                                                                                       ^
Incoherent_validation.c:7759:60: warning: If memory allocation fails, then there is a possible null pointer dereference: temp [nullPointerOutOfMemory]
      for (iterate=0;iterate<list->num_elements;iterate++) temp[iterate] = list->elements[iterate];
                                                           ^
Incoherent_validation.c:7757:26: note: Assuming allocation function fails
      double *temp=malloc(list->num_elements*sizeof(double));
                         ^
Incoherent_validation.c:7757:26: note: Assignment 'temp=malloc(list->num_elements*sizeof(double))', assigned value is 0
      double *temp=malloc(list->num_elements*sizeof(double));
                         ^
Incoherent_validation.c:7759:60: note: Null pointer dereference
      for (iterate=0;iterate<list->num_elements;iterate++) temp[iterate] = list->elements[iterate];
                                                           ^
Incoherent_validation.c:7763:88: warning: If memory allocation fails, then there is a possible null pointer dereference: temp [nullPointerOutOfMemory]
      for (iterate=0;iterate<list->num_elements-1;iterate++) list->elements[iterate] = temp[iterate];
                                                                                       ^
Incoherent_validation.c:7757:26: note: Assuming allocation function fails
      double *temp=malloc(list->num_elements*sizeof(double));
                         ^
Incoherent_validation.c:7757:26: note: Assignment 'temp=malloc(list->num_elements*sizeof(double))', assigned value is 0
      double *temp=malloc(list->num_elements*sizeof(double));
                         ^
Incoherent_validation.c:7763:88: note: Null pointer dereference
      for (iterate=0;iterate<list->num_elements-1;iterate++) list->elements[iterate] = temp[iterate];
                                                                                       ^
Incoherent_validation.c:7778:72: warning: If memory allocation fails, then there is a possible null pointer dereference: temp [nullPointerOutOfMemory]
      for (iterate=0;iterate<focus_data_array->num_elements;iterate++) temp[iterate] = focus_data_array->elements[iterate];
                                                                       ^
Incoherent_validation.c:7776:44: note: Assuming allocation function fails
      struct focus_data_struct *temp=malloc(focus_data_array->num_elements*sizeof(struct focus_data_struct));
                                           ^
Incoherent_validation.c:7776:44: note: Assignment 'temp=malloc(focus_data_array->num_elements*sizeof(struct focus_data_struct))', assigned value is 0
      struct focus_data_struct *temp=malloc(focus_data_array->num_elements*sizeof(struct focus_data_struct));
                                           ^
Incoherent_validation.c:7778:72: note: Null pointer dereference
      for (iterate=0;iterate<focus_data_array->num_elements;iterate++) temp[iterate] = focus_data_array->elements[iterate];
                                                                       ^
Incoherent_validation.c:7782:112: warning: If memory allocation fails, then there is a possible null pointer dereference: temp [nullPointerOutOfMemory]
      for (iterate=0;iterate<focus_data_array->num_elements-1;iterate++) focus_data_array->elements[iterate] = temp[iterate];
                                                                                                               ^
Incoherent_validation.c:7776:44: note: Assuming allocation function fails
      struct focus_data_struct *temp=malloc(focus_data_array->num_elements*sizeof(struct focus_data_struct));
                                           ^
Incoherent_validation.c:7776:44: note: Assignment 'temp=malloc(focus_data_array->num_elements*sizeof(struct focus_data_struct))', assigned value is 0
      struct focus_data_struct *temp=malloc(focus_data_array->num_elements*sizeof(struct focus_data_struct));
                                           ^
Incoherent_validation.c:7782:112: note: Null pointer dereference
      for (iterate=0;iterate<focus_data_array->num_elements-1;iterate++) focus_data_array->elements[iterate] = temp[iterate];
                                                                                                               ^
Incoherent_validation.c:7865:7: warning: If memory allocation fails, then there is a possible null pointer dereference: temp_fp [nullPointerOutOfMemory]
      temp_fp[iterate] = list->conditional_functions[iterate];
      ^
Incoherent_validation.c:7860:49: note: Assuming allocation function fails
    conditional_function_pointer *temp_fp=malloc(list->num_elements*sizeof(conditional_function_pointer));
                                                ^
Incoherent_validation.c:7860:49: note: Assignment 'temp_fp=malloc(list->num_elements*sizeof(intconditional_function_pointer))', assigned value is 0
    conditional_function_pointer *temp_fp=malloc(list->num_elements*sizeof(conditional_function_pointer));
                                                ^
Incoherent_validation.c:7865:7: note: Null pointer dereference
      temp_fp[iterate] = list->conditional_functions[iterate];
      ^
Incoherent_validation.c:7866:7: warning: If memory allocation fails, then there is a possible null pointer dereference: temp_du [nullPointerOutOfMemory]
      temp_du[iterate] = list->p_data_unions[iterate];
      ^
Incoherent_validation.c:7861:50: note: Assuming allocation function fails
    union conditional_data_union **temp_du=malloc(list->num_elements*sizeof(union conditional_data_union));
                                                 ^
Incoherent_validation.c:7861:50: note: Assignment 'temp_du=malloc(list->num_elements*sizeof(union conditional_data_union))', assigned value is 0
    union conditional_data_union **temp_du=malloc(list->num_elements*sizeof(union conditional_data_union));
                                                 ^
Incoherent_validation.c:7866:7: note: Null pointer dereference
      temp_du[iterate] = list->p_data_unions[iterate];
      ^
Incoherent_validation.c:7875:46: warning: If memory allocation fails, then there is a possible null pointer dereference: temp_fp [nullPointerOutOfMemory]
      list->conditional_functions[iterate] = temp_fp[iterate];
                                             ^
Incoherent_validation.c:7860:49: note: Assuming allocation function fails
    conditional_function_pointer *temp_fp=malloc(list->num_elements*sizeof(conditional_function_pointer));
                                                ^
Incoherent_validation.c:7860:49: note: Assignment 'temp_fp=malloc(list->num_elements*sizeof(intconditional_function_pointer))', assigned value is 0
    conditional_function_pointer *temp_fp=malloc(list->num_elements*sizeof(conditional_function_pointer));
                                                ^
Incoherent_validation.c:7875:46: note: Null pointer dereference
      list->conditional_functions[iterate] = temp_fp[iterate];
                                             ^
Incoherent_validation.c:7876:38: warning: If memory allocation fails, then there is a possible null pointer dereference: temp_du [nullPointerOutOfMemory]
      list->p_data_unions[iterate] = temp_du[iterate];
                                     ^
Incoherent_validation.c:7861:50: note: Assuming allocation function fails
    union conditional_data_union **temp_du=malloc(list->num_elements*sizeof(union conditional_data_union));
                                                 ^
Incoherent_validation.c:7861:50: note: Assignment 'temp_du=malloc(list->num_elements*sizeof(union conditional_data_union))', assigned value is 0
    union conditional_data_union **temp_du=malloc(list->num_elements*sizeof(union conditional_data_union));
                                                 ^
Incoherent_validation.c:7876:38: note: Null pointer dereference
      list->p_data_unions[iterate] = temp_du[iterate];
                                     ^
Incoherent_validation.c:7969:9: warning: If memory allocation fails, then there is a possible null pointer dereference: temp [nullPointerOutOfMemory]
        temp[iterate] = list->positions[iterate];
        ^
Incoherent_validation.c:7964:20: note: Assuming allocation function fails
      temp = malloc(list->num_elements*sizeof(Coords*));
                   ^
Incoherent_validation.c:7964:20: note: Assignment 'temp=malloc(list->num_elements*sizeof(struct Coords*))', assigned value is 0
      temp = malloc(list->num_elements*sizeof(Coords*));
                   ^
Incoherent_validation.c:7969:9: note: Null pointer dereference
        temp[iterate] = list->positions[iterate];
        ^
Incoherent_validation.c:7976:36: warning: If memory allocation fails, then there is a possible null pointer dereference: temp [nullPointerOutOfMemory]
        list->positions[iterate] = temp[iterate];
                                   ^
Incoherent_validation.c:7964:20: note: Assuming allocation function fails
      temp = malloc(list->num_elements*sizeof(Coords*));
                   ^
Incoherent_validation.c:7964:20: note: Assignment 'temp=malloc(list->num_elements*sizeof(struct Coords*))', assigned value is 0
      temp = malloc(list->num_elements*sizeof(Coords*));
                   ^
Incoherent_validation.c:7976:36: note: Null pointer dereference
        list->positions[iterate] = temp[iterate];
                                   ^
Incoherent_validation.c:7992:9: warning: If memory allocation fails, then there is a possible null pointer dereference: temp [nullPointerOutOfMemory]
        temp[iterate] = list->rotations[iterate];
        ^
Incoherent_validation.c:7989:20: note: Assuming allocation function fails
      temp = malloc(list->num_elements*sizeof(Rotation*));
                   ^
Incoherent_validation.c:7989:20: note: Assignment 'temp=malloc(list->num_elements*sizeof(double(*)[3][3]))', assigned value is 0
      temp = malloc(list->num_elements*sizeof(Rotation*));
                   ^
Incoherent_validation.c:7992:9: note: Null pointer dereference
        temp[iterate] = list->rotations[iterate];
        ^
Incoherent_validation.c:7998:36: warning: If memory allocation fails, then there is a possible null pointer dereference: temp [nullPointerOutOfMemory]
        list->rotations[iterate] = temp[iterate];
                                   ^
Incoherent_validation.c:7989:20: note: Assuming allocation function fails
      temp = malloc(list->num_elements*sizeof(Rotation*));
                   ^
Incoherent_validation.c:7989:20: note: Assignment 'temp=malloc(list->num_elements*sizeof(double(*)[3][3]))', assigned value is 0
      temp = malloc(list->num_elements*sizeof(Rotation*));
                   ^
Incoherent_validation.c:7998:36: note: Null pointer dereference
        list->rotations[iterate] = temp[iterate];
                                   ^
Incoherent_validation.c:8013:58: warning: If memory allocation fails, then there is a possible null pointer dereference: temp [nullPointerOutOfMemory]
    for (iterate=0;iterate<list->num_elements;iterate++) temp[iterate] = list->elements[iterate];
                                                         ^
Incoherent_validation.c:8011:56: note: Assuming allocation function fails
      struct global_process_element_struct *temp=malloc(list->num_elements*sizeof(struct global_process_element_struct));
                                                       ^
Incoherent_validation.c:8011:56: note: Assignment 'temp=malloc(list->num_elements*sizeof(struct global_process_element_struct))', assigned value is 0
      struct global_process_element_struct *temp=malloc(list->num_elements*sizeof(struct global_process_element_struct));
                                                       ^
Incoherent_validation.c:8013:58: note: Null pointer dereference
    for (iterate=0;iterate<list->num_elements;iterate++) temp[iterate] = list->elements[iterate];
                                                         ^
Incoherent_validation.c:8017:86: warning: If memory allocation fails, then there is a possible null pointer dereference: temp [nullPointerOutOfMemory]
    for (iterate=0;iterate<list->num_elements-1;iterate++) list->elements[iterate] = temp[iterate];
                                                                                     ^
Incoherent_validation.c:8011:56: note: Assuming allocation function fails
      struct global_process_element_struct *temp=malloc(list->num_elements*sizeof(struct global_process_element_struct));
                                                       ^
Incoherent_validation.c:8011:56: note: Assignment 'temp=malloc(list->num_elements*sizeof(struct global_process_element_struct))', assigned value is 0
      struct global_process_element_struct *temp=malloc(list->num_elements*sizeof(struct global_process_element_struct));
                                                       ^
Incoherent_validation.c:8017:86: note: Null pointer dereference
    for (iterate=0;iterate<list->num_elements-1;iterate++) list->elements[iterate] = temp[iterate];
                                                                                     ^
Incoherent_validation.c:8032:58: warning: If memory allocation fails, then there is a possible null pointer dereference: temp [nullPointerOutOfMemory]
    for (iterate=0;iterate<list->num_elements;iterate++) temp[iterate] = list->elements[iterate];
                                                         ^
Incoherent_validation.c:8030:55: note: Assuming allocation function fails
    struct global_material_element_struct *temp=malloc(list->num_elements*sizeof(struct global_material_element_struct));
                                                      ^
Incoherent_validation.c:8030:55: note: Assignment 'temp=malloc(list->num_elements*sizeof(struct global_material_element_struct))', assigned value is 0
    struct global_material_element_struct *temp=malloc(list->num_elements*sizeof(struct global_material_element_struct));
                                                      ^
Incoherent_validation.c:8032:58: note: Null pointer dereference
    for (iterate=0;iterate<list->num_elements;iterate++) temp[iterate] = list->elements[iterate];
                                                         ^
Incoherent_validation.c:8036:86: warning: If memory allocation fails, then there is a possible null pointer dereference: temp [nullPointerOutOfMemory]
    for (iterate=0;iterate<list->num_elements-1;iterate++) list->elements[iterate] = temp[iterate];
                                                                                     ^
Incoherent_validation.c:8030:55: note: Assuming allocation function fails
    struct global_material_element_struct *temp=malloc(list->num_elements*sizeof(struct global_material_element_struct));
                                                      ^
Incoherent_validation.c:8030:55: note: Assignment 'temp=malloc(list->num_elements*sizeof(struct global_material_element_struct))', assigned value is 0
    struct global_material_element_struct *temp=malloc(list->num_elements*sizeof(struct global_material_element_struct));
                                                      ^
Incoherent_validation.c:8036:86: note: Null pointer dereference
    for (iterate=0;iterate<list->num_elements-1;iterate++) list->elements[iterate] = temp[iterate];
                                                                                     ^
Incoherent_validation.c:8051:58: warning: If memory allocation fails, then there is a possible null pointer dereference: temp [nullPointerOutOfMemory]
    for (iterate=0;iterate<list->num_elements;iterate++) temp[iterate] = list->elements[iterate];
                                                         ^
Incoherent_validation.c:8049:55: note: Assuming allocation function fails
    struct global_geometry_element_struct *temp=malloc(list->num_elements*sizeof(struct global_geometry_element_struct));
                                                      ^
Incoherent_validation.c:8049:55: note: Assignment 'temp=malloc(list->num_elements*sizeof(struct global_geometry_element_struct))', assigned value is 0
    struct global_geometry_element_struct *temp=malloc(list->num_elements*sizeof(struct global_geometry_element_struct));
                                                      ^
Incoherent_validation.c:8051:58: note: Null pointer dereference
    for (iterate=0;iterate<list->num_elements;iterate++) temp[iterate] = list->elements[iterate];
                                                         ^
Incoherent_validation.c:8055:86: warning: If memory allocation fails, then there is a possible null pointer dereference: temp [nullPointerOutOfMemory]
    for (iterate=0;iterate<list->num_elements-1;iterate++) list->elements[iterate] = temp[iterate];
                                                                                     ^
Incoherent_validation.c:8049:55: note: Assuming allocation function fails
    struct global_geometry_element_struct *temp=malloc(list->num_elements*sizeof(struct global_geometry_element_struct));
                                                      ^
Incoherent_validation.c:8049:55: note: Assignment 'temp=malloc(list->num_elements*sizeof(struct global_geometry_element_struct))', assigned value is 0
    struct global_geometry_element_struct *temp=malloc(list->num_elements*sizeof(struct global_geometry_element_struct));
                                                      ^
Incoherent_validation.c:8055:86: note: Null pointer dereference
    for (iterate=0;iterate<list->num_elements-1;iterate++) list->elements[iterate] = temp[iterate];
                                                                                     ^
Incoherent_validation.c:8070:58: warning: If memory allocation fails, then there is a possible null pointer dereference: temp [nullPointerOutOfMemory]
    for (iterate=0;iterate<list->num_elements;iterate++) temp[iterate] = list->elements[iterate];
                                                         ^
Incoherent_validation.c:8068:53: note: Assuming allocation function fails
    struct global_logger_element_struct *temp=malloc(list->num_elements*sizeof(struct global_logger_element_struct));
                                                    ^
Incoherent_validation.c:8068:53: note: Assignment 'temp=malloc(list->num_elements*sizeof(struct global_logger_element_struct))', assigned value is 0
    struct global_logger_element_struct *temp=malloc(list->num_elements*sizeof(struct global_logger_element_struct));
                                                    ^
Incoherent_validation.c:8070:58: note: Null pointer dereference
    for (iterate=0;iterate<list->num_elements;iterate++) temp[iterate] = list->elements[iterate];
                                                         ^
Incoherent_validation.c:8074:86: warning: If memory allocation fails, then there is a possible null pointer dereference: temp [nullPointerOutOfMemory]
    for (iterate=0;iterate<list->num_elements-1;iterate++) list->elements[iterate] = temp[iterate];
                                                                                     ^
Incoherent_validation.c:8068:53: note: Assuming allocation function fails
    struct global_logger_element_struct *temp=malloc(list->num_elements*sizeof(struct global_logger_element_struct));
                                                    ^
Incoherent_validation.c:8068:53: note: Assignment 'temp=malloc(list->num_elements*sizeof(struct global_logger_element_struct))', assigned value is 0
    struct global_logger_element_struct *temp=malloc(list->num_elements*sizeof(struct global_logger_element_struct));
                                                    ^
Incoherent_validation.c:8074:86: note: Null pointer dereference
    for (iterate=0;iterate<list->num_elements-1;iterate++) list->elements[iterate] = temp[iterate];
                                                                                     ^
Incoherent_validation.c:8089:60: warning: If memory allocation fails, then there is a possible null pointer dereference: temp [nullPointerOutOfMemory]
      for (iterate=0;iterate<list->num_elements;iterate++) temp[iterate] = list->elements[iterate];
                                                           ^
Incoherent_validation.c:8087:59: note: Assuming allocation function fails
      struct global_abs_logger_element_struct *temp=malloc(list->num_elements*sizeof(struct global_abs_logger_element_struct));
                                                          ^
Incoherent_validation.c:8087:59: note: Assignment 'temp=malloc(list->num_elements*sizeof(struct global_abs_logger_element_struct))', assigned value is 0
      struct global_abs_logger_element_struct *temp=malloc(list->num_elements*sizeof(struct global_abs_logger_element_struct));
                                                          ^
Incoherent_validation.c:8089:60: note: Null pointer dereference
      for (iterate=0;iterate<list->num_elements;iterate++) temp[iterate] = list->elements[iterate];
                                                           ^
Incoherent_validation.c:8093:88: warning: If memory allocation fails, then there is a possible null pointer dereference: temp [nullPointerOutOfMemory]
      for (iterate=0;iterate<list->num_elements-1;iterate++) list->elements[iterate] = temp[iterate];
                                                                                       ^
Incoherent_validation.c:8087:59: note: Assuming allocation function fails
      struct global_abs_logger_element_struct *temp=malloc(list->num_elements*sizeof(struct global_abs_logger_element_struct));
                                                          ^
Incoherent_validation.c:8087:59: note: Assignment 'temp=malloc(list->num_elements*sizeof(struct global_abs_logger_element_struct))', assigned value is 0
      struct global_abs_logger_element_struct *temp=malloc(list->num_elements*sizeof(struct global_abs_logger_element_struct));
                                                          ^
Incoherent_validation.c:8093:88: note: Null pointer dereference
      for (iterate=0;iterate<list->num_elements-1;iterate++) list->elements[iterate] = temp[iterate];
                                                                                       ^
Incoherent_validation.c:8108:58: warning: If memory allocation fails, then there is a possible null pointer dereference: temp [nullPointerOutOfMemory]
    for (iterate=0;iterate<list->num_elements;iterate++) temp[iterate] = list->elements[iterate];
                                                         ^
Incoherent_validation.c:8106:66: note: Assuming allocation function fails
    struct global_tagging_conditional_element_struct *temp=malloc(list->num_elements*sizeof(struct global_tagging_conditional_element_struct));
                                                                 ^
Incoherent_validation.c:8106:66: note: Assignment 'temp=malloc(list->num_elements*sizeof(struct global_tagging_conditional_element_struct))', assigned value is 0
    struct global_tagging_conditional_element_struct *temp=malloc(list->num_elements*sizeof(struct global_tagging_conditional_element_struct));
                                                                 ^
Incoherent_validation.c:8108:58: note: Null pointer dereference
    for (iterate=0;iterate<list->num_elements;iterate++) temp[iterate] = list->elements[iterate];
                                                         ^
Incoherent_validation.c:8112:86: warning: If memory allocation fails, then there is a possible null pointer dereference: temp [nullPointerOutOfMemory]
    for (iterate=0;iterate<list->num_elements-1;iterate++) list->elements[iterate] = temp[iterate];
                                                                                     ^
Incoherent_validation.c:8106:66: note: Assuming allocation function fails
    struct global_tagging_conditional_element_struct *temp=malloc(list->num_elements*sizeof(struct global_tagging_conditional_element_struct));
                                                                 ^
Incoherent_validation.c:8106:66: note: Assignment 'temp=malloc(list->num_elements*sizeof(struct global_tagging_conditional_element_struct))', assigned value is 0
    struct global_tagging_conditional_element_struct *temp=malloc(list->num_elements*sizeof(struct global_tagging_conditional_element_struct));
                                                                 ^
Incoherent_validation.c:8112:86: note: Null pointer dereference
    for (iterate=0;iterate<list->num_elements-1;iterate++) list->elements[iterate] = temp[iterate];
                                                                                     ^
Incoherent_validation.c:8127:58: warning: If memory allocation fails, then there is a possible null pointer dereference: temp [nullPointerOutOfMemory]
    for (iterate=0;iterate<list->num_elements;iterate++) temp[iterate] = list->elements[iterate];
                                                         ^
Incoherent_validation.c:8125:53: note: Assuming allocation function fails
    struct global_master_element_struct *temp=malloc(list->num_elements*sizeof(struct global_master_element_struct));
                                                    ^
Incoherent_validation.c:8125:53: note: Assignment 'temp=malloc(list->num_elements*sizeof(struct global_master_element_struct))', assigned value is 0
    struct global_master_element_struct *temp=malloc(list->num_elements*sizeof(struct global_master_element_struct));
                                                    ^
Incoherent_validation.c:8127:58: note: Null pointer dereference
    for (iterate=0;iterate<list->num_elements;iterate++) temp[iterate] = list->elements[iterate];
                                                         ^
Incoherent_validation.c:8131:86: warning: If memory allocation fails, then there is a possible null pointer dereference: temp [nullPointerOutOfMemory]
    for (iterate=0;iterate<list->num_elements-1;iterate++) list->elements[iterate] = temp[iterate];
                                                                                     ^
Incoherent_validation.c:8125:53: note: Assuming allocation function fails
    struct global_master_element_struct *temp=malloc(list->num_elements*sizeof(struct global_master_element_struct));
                                                    ^
Incoherent_validation.c:8125:53: note: Assignment 'temp=malloc(list->num_elements*sizeof(struct global_master_element_struct))', assigned value is 0
    struct global_master_element_struct *temp=malloc(list->num_elements*sizeof(struct global_master_element_struct));
                                                    ^
Incoherent_validation.c:8131:86: note: Null pointer dereference
    for (iterate=0;iterate<list->num_elements-1;iterate++) list->elements[iterate] = temp[iterate];
                                                                                     ^
Incoherent_validation.c:8150:61: warning: If memory allocation fails, then there is a possible null pointer dereference: temp [nullPointerOutOfMemory]
    for (iterate=0;iterate<loggers->num_elements;iterate++) temp[iterate] = loggers->p_logger_volume[iterate];
                                                            ^
Incoherent_validation.c:8148:53: note: Assuming allocation function fails
    struct logger_for_each_process_list *temp=malloc(loggers->num_elements*sizeof(struct logger_for_each_process_list));
                                                    ^
Incoherent_validation.c:8148:53: note: Assignment 'temp=malloc(loggers->num_elements*sizeof(struct logger_for_each_process_list))', assigned value is 0
    struct logger_for_each_process_list *temp=malloc(loggers->num_elements*sizeof(struct logger_for_each_process_list));
                                                    ^
Incoherent_validation.c:8150:61: note: Null pointer dereference
    for (iterate=0;iterate<loggers->num_elements;iterate++) temp[iterate] = loggers->p_logger_volume[iterate];
                                                            ^
Incoherent_validation.c:8154:99: warning: If memory allocation fails, then there is a possible null pointer dereference: temp [nullPointerOutOfMemory]
    for (iterate=0;iterate<loggers->num_elements-1;iterate++) loggers->p_logger_volume[iterate] = temp[iterate];
                                                                                                  ^
Incoherent_validation.c:8148:53: note: Assuming allocation function fails
    struct logger_for_each_process_list *temp=malloc(loggers->num_elements*sizeof(struct logger_for_each_process_list));
                                                    ^
Incoherent_validation.c:8148:53: note: Assignment 'temp=malloc(loggers->num_elements*sizeof(struct logger_for_each_process_list))', assigned value is 0
    struct logger_for_each_process_list *temp=malloc(loggers->num_elements*sizeof(struct logger_for_each_process_list));
                                                    ^
Incoherent_validation.c:8154:99: note: Null pointer dereference
    for (iterate=0;iterate<loggers->num_elements-1;iterate++) loggers->p_logger_volume[iterate] = temp[iterate];
                                                                                                  ^
Incoherent_validation.c:8201:65: warning: If memory allocation fails, then there is a possible null pointer dereference: temp [nullPointerOutOfMemory]
    for (iterate=0;iterate<abs_loggers->num_elements;iterate++) temp[iterate] = abs_loggers->p_abs_logger[iterate];
                                                                ^
Incoherent_validation.c:8199:43: note: Assuming allocation function fails
    struct abs_logger_struct **temp=malloc(abs_loggers->num_elements*sizeof(struct abs_logger_struct *));
                                          ^
Incoherent_validation.c:8199:43: note: Assignment 'temp=malloc(abs_loggers->num_elements*sizeof(struct abs_logger_struct*))', assigned value is 0
    struct abs_logger_struct **temp=malloc(abs_loggers->num_elements*sizeof(struct abs_logger_struct *));
                                          ^
Incoherent_validation.c:8201:65: note: Null pointer dereference
    for (iterate=0;iterate<abs_loggers->num_elements;iterate++) temp[iterate] = abs_loggers->p_abs_logger[iterate];
                                                                ^
Incoherent_validation.c:8206:104: warning: If memory allocation fails, then there is a possible null pointer dereference: temp [nullPointerOutOfMemory]
    for (iterate=0;iterate<abs_loggers->num_elements-1;iterate++) abs_loggers->p_abs_logger[iterate] = temp[iterate];
                                                                                                       ^
Incoherent_validation.c:8199:43: note: Assuming allocation function fails
    struct abs_logger_struct **temp=malloc(abs_loggers->num_elements*sizeof(struct abs_logger_struct *));
                                          ^
Incoherent_validation.c:8199:43: note: Assignment 'temp=malloc(abs_loggers->num_elements*sizeof(struct abs_logger_struct*))', assigned value is 0
    struct abs_logger_struct **temp=malloc(abs_loggers->num_elements*sizeof(struct abs_logger_struct *));
                                          ^
Incoherent_validation.c:8206:104: note: Null pointer dereference
    for (iterate=0;iterate<abs_loggers->num_elements-1;iterate++) abs_loggers->p_abs_logger[iterate] = temp[iterate];
                                                                                                       ^
Incoherent_validation.c:8500:13: warning: If resource allocation fails, then there is a possible null pointer dereference: fp [nullPointerOutOfResources]
    fprintf(fp,"%d\t N I=%E \t", history->number_of_rays, history->intensity);
            ^
Incoherent_validation.c:8664:3: note: Assuming allocation function fails
  MPI_MASTER(
  ^
Incoherent_validation.c:8664:3: note: Assignment 'fp=fopen("union_history.dat","w")', assigned value is 0
  MPI_MASTER(
  ^
Incoherent_validation.c:8664:3: note: Calling function 'fprintf_total_history', 2nd argument 'fp' value is 0
  MPI_MASTER(
  ^
Incoherent_validation.c:8500:13: note: Null pointer dereference
    fprintf(fp,"%d\t N I=%E \t", history->number_of_rays, history->intensity);
            ^
Incoherent_validation.c:8664:3: warning: If resource allocation fails, then there is a possible null pointer dereference: fp [nullPointerOutOfResources]
  MPI_MASTER(
  ^
Incoherent_validation.c:8664:3: note: Assuming allocation function fails
  MPI_MASTER(
  ^
Incoherent_validation.c:8664:3: note: Assignment 'fp=fopen("union_history.dat","w")', assigned value is 0
  MPI_MASTER(
  ^
Incoherent_validation.c:8664:3: note: Null pointer dereference
  MPI_MASTER(
  ^
Incoherent_validation.c:8786:73: warning: If memory allocation fails, then there is a possible null pointer dereference: temp_lines [nullPointerOutOfMemory]
    for (iterate = 0;iterate < lines_master->number_of_lines;iterate++) temp_lines[iterate] = lines_master->lines[iterate];
                                                                        ^
Incoherent_validation.c:8785:24: note: Assuming allocation function fails
    temp_lines = malloc(lines_master->number_of_lines*sizeof(struct line_segment));
                       ^
Incoherent_validation.c:8785:24: note: Assignment 'temp_lines=malloc(lines_master->number_of_lines*sizeof(struct line_segment))', assigned value is 0
    temp_lines = malloc(lines_master->number_of_lines*sizeof(struct line_segment));
                       ^
Incoherent_validation.c:8786:73: note: Null pointer dereference
    for (iterate = 0;iterate < lines_master->number_of_lines;iterate++) temp_lines[iterate] = lines_master->lines[iterate];
                                                                        ^
Incoherent_validation.c:8789:104: warning: If memory allocation fails, then there is a possible null pointer dereference: temp_lines [nullPointerOutOfMemory]
    for (iterate = 0;iterate < lines_master->number_of_lines;iterate++) lines_master->lines[iterate] = temp_lines[iterate];
                                                                                                       ^
Incoherent_validation.c:8785:24: note: Assuming allocation function fails
    temp_lines = malloc(lines_master->number_of_lines*sizeof(struct line_segment));
                       ^
Incoherent_validation.c:8785:24: note: Assignment 'temp_lines=malloc(lines_master->number_of_lines*sizeof(struct line_segment))', assigned value is 0
    temp_lines = malloc(lines_master->number_of_lines*sizeof(struct line_segment));
                       ^
Incoherent_validation.c:8789:104: note: Null pointer dereference
    for (iterate = 0;iterate < lines_master->number_of_lines;iterate++) lines_master->lines[iterate] = temp_lines[iterate];
                                                                                                       ^
Incoherent_validation.c:8953:5: warning: If memory allocation fails, then there is a possible null pointer dereference: points [nullPointerOutOfMemory]
    points[0] = coords_set(r1[0],r1[1],r1[2]);
    ^
Incoherent_validation.c:8952:26: note: Assuming allocation function fails
    Coords *points=malloc((intersection_list.num_elements+2)*sizeof(Coords));
                         ^
Incoherent_validation.c:8952:26: note: Assignment 'points=malloc((intersection_list.num_elements+2)*sizeof(struct Coords))', assigned value is 0
    Coords *points=malloc((intersection_list.num_elements+2)*sizeof(Coords));
                         ^
Incoherent_validation.c:8953:5: note: Null pointer dereference
    points[0] = coords_set(r1[0],r1[1],r1[2]);
    ^
Incoherent_validation.c:8954:5: warning: If memory allocation fails, then there is a possible null pointer dereference: points [nullPointerOutOfMemory]
    points[intersection_list.num_elements+1] = coords_set(r2[0],r2[1],r2[2]);
    ^
Incoherent_validation.c:8952:26: note: Assuming allocation function fails
    Coords *points=malloc((intersection_list.num_elements+2)*sizeof(Coords));
                         ^
Incoherent_validation.c:8952:26: note: Assignment 'points=malloc((intersection_list.num_elements+2)*sizeof(struct Coords))', assigned value is 0
    Coords *points=malloc((intersection_list.num_elements+2)*sizeof(Coords));
                         ^
Incoherent_validation.c:8954:5: note: Null pointer dereference
    points[intersection_list.num_elements+1] = coords_set(r2[0],r2[1],r2[2]);
    ^
Incoherent_validation.c:8956:9: warning: If memory allocation fails, then there is a possible null pointer dereference: points [nullPointerOutOfMemory]
        points[iterate].x = r1[0] + direction[0]*intersection_list.elements[iterate-1];
        ^
Incoherent_validation.c:8952:26: note: Assuming allocation function fails
    Coords *points=malloc((intersection_list.num_elements+2)*sizeof(Coords));
                         ^
Incoherent_validation.c:8952:26: note: Assignment 'points=malloc((intersection_list.num_elements+2)*sizeof(struct Coords))', assigned value is 0
    Coords *points=malloc((intersection_list.num_elements+2)*sizeof(Coords));
                         ^
Incoherent_validation.c:8956:9: note: Null pointer dereference
        points[iterate].x = r1[0] + direction[0]*intersection_list.elements[iterate-1];
        ^
Incoherent_validation.c:8957:9: warning: If memory allocation fails, then there is a possible null pointer dereference: points [nullPointerOutOfMemory]
        points[iterate].y = r1[1] + direction[1]*intersection_list.elements[iterate-1];
        ^
Incoherent_validation.c:8952:26: note: Assuming allocation function fails
    Coords *points=malloc((intersection_list.num_elements+2)*sizeof(Coords));
                         ^
Incoherent_validation.c:8952:26: note: Assignment 'points=malloc((intersection_list.num_elements+2)*sizeof(struct Coords))', assigned value is 0
    Coords *points=malloc((intersection_list.num_elements+2)*sizeof(Coords));
                         ^
Incoherent_validation.c:8957:9: note: Null pointer dereference
        points[iterate].y = r1[1] + direction[1]*intersection_list.elements[iterate-1];
        ^
Incoherent_validation.c:8958:9: warning: If memory allocation fails, then there is a possible null pointer dereference: points [nullPointerOutOfMemory]
        points[iterate].z = r1[2] + direction[2]*intersection_list.elements[iterate-1];
        ^
Incoherent_validation.c:8952:26: note: Assuming allocation function fails
    Coords *points=malloc((intersection_list.num_elements+2)*sizeof(Coords));
                         ^
Incoherent_validation.c:8952:26: note: Assignment 'points=malloc((intersection_list.num_elements+2)*sizeof(struct Coords))', assigned value is 0
    Coords *points=malloc((intersection_list.num_elements+2)*sizeof(Coords));
                         ^
Incoherent_validation.c:8958:9: note: Null pointer dereference
        points[iterate].z = r1[2] + direction[2]*intersection_list.elements[iterate-1];
        ^
Incoherent_validation.c:8978:9: warning: If memory allocation fails, then there is a possible null pointer dereference: lines [nullPointerOutOfMemory]
        lines[iterate].point1 = points[iterate];
        ^
Incoherent_validation.c:8967:38: note: Assuming allocation function fails
    struct line_segment *lines=malloc((intersection_list.num_elements+1)*sizeof(struct line_segment));
                                     ^
Incoherent_validation.c:8967:38: note: Assignment 'lines=malloc((intersection_list.num_elements+1)*sizeof(struct line_segment))', assigned value is 0
    struct line_segment *lines=malloc((intersection_list.num_elements+1)*sizeof(struct line_segment));
                                     ^
Incoherent_validation.c:8978:9: note: Null pointer dereference
        lines[iterate].point1 = points[iterate];
        ^
Incoherent_validation.c:8978:33: warning: If memory allocation fails, then there is a possible null pointer dereference: points [nullPointerOutOfMemory]
        lines[iterate].point1 = points[iterate];
                                ^
Incoherent_validation.c:8952:26: note: Assuming allocation function fails
    Coords *points=malloc((intersection_list.num_elements+2)*sizeof(Coords));
                         ^
Incoherent_validation.c:8952:26: note: Assignment 'points=malloc((intersection_list.num_elements+2)*sizeof(struct Coords))', assigned value is 0
    Coords *points=malloc((intersection_list.num_elements+2)*sizeof(Coords));
                         ^
Incoherent_validation.c:8978:33: note: Null pointer dereference
        lines[iterate].point1 = points[iterate];
                                ^
Incoherent_validation.c:8979:9: warning: If memory allocation fails, then there is a possible null pointer dereference: lines [nullPointerOutOfMemory]
        lines[iterate].point2 = points[iterate+1];
        ^
Incoherent_validation.c:8967:38: note: Assuming allocation function fails
    struct line_segment *lines=malloc((intersection_list.num_elements+1)*sizeof(struct line_segment));
                                     ^
Incoherent_validation.c:8967:38: note: Assignment 'lines=malloc((intersection_list.num_elements+1)*sizeof(struct line_segment))', assigned value is 0
    struct line_segment *lines=malloc((intersection_list.num_elements+1)*sizeof(struct line_segment));
                                     ^
Incoherent_validation.c:8979:9: note: Null pointer dereference
        lines[iterate].point2 = points[iterate+1];
        ^
Incoherent_validation.c:8979:33: warning: If memory allocation fails, then there is a possible null pointer dereference: points [nullPointerOutOfMemory]
        lines[iterate].point2 = points[iterate+1];
                                ^
Incoherent_validation.c:8952:26: note: Assuming allocation function fails
    Coords *points=malloc((intersection_list.num_elements+2)*sizeof(Coords));
                         ^
Incoherent_validation.c:8952:26: note: Assignment 'points=malloc((intersection_list.num_elements+2)*sizeof(struct Coords))', assigned value is 0
    Coords *points=malloc((intersection_list.num_elements+2)*sizeof(Coords));
                         ^
Incoherent_validation.c:8979:33: note: Null pointer dereference
        lines[iterate].point2 = points[iterate+1];
                                ^
Incoherent_validation.c:8980:27: warning: If memory allocation fails, then there is a possible null pointer dereference: lines [nullPointerOutOfMemory]
        midpoint.x = 0.5*(lines[iterate].point1.x + lines[iterate].point2.x);
                          ^
Incoherent_validation.c:8967:38: note: Assuming allocation function fails
    struct line_segment *lines=malloc((intersection_list.num_elements+1)*sizeof(struct line_segment));
                                     ^
Incoherent_validation.c:8967:38: note: Assignment 'lines=malloc((intersection_list.num_elements+1)*sizeof(struct line_segment))', assigned value is 0
    struct line_segment *lines=malloc((intersection_list.num_elements+1)*sizeof(struct line_segment));
                                     ^
Incoherent_validation.c:8980:27: note: Null pointer dereference
        midpoint.x = 0.5*(lines[iterate].point1.x + lines[iterate].point2.x);
                          ^
Incoherent_validation.c:8980:53: warning: If memory allocation fails, then there is a possible null pointer dereference: lines [nullPointerOutOfMemory]
        midpoint.x = 0.5*(lines[iterate].point1.x + lines[iterate].point2.x);
                                                    ^
Incoherent_validation.c:8967:38: note: Assuming allocation function fails
    struct line_segment *lines=malloc((intersection_list.num_elements+1)*sizeof(struct line_segment));
                                     ^
Incoherent_validation.c:8967:38: note: Assignment 'lines=malloc((intersection_list.num_elements+1)*sizeof(struct line_segment))', assigned value is 0
    struct line_segment *lines=malloc((intersection_list.num_elements+1)*sizeof(struct line_segment));
                                     ^
Incoherent_validation.c:8980:53: note: Null pointer dereference
        midpoint.x = 0.5*(lines[iterate].point1.x + lines[iterate].point2.x);
                                                    ^
Incoherent_validation.c:8981:27: warning: If memory allocation fails, then there is a possible null pointer dereference: lines [nullPointerOutOfMemory]
        midpoint.y = 0.5*(lines[iterate].point1.y + lines[iterate].point2.y);
                          ^
Incoherent_validation.c:8967:38: note: Assuming allocation function fails
    struct line_segment *lines=malloc((intersection_list.num_elements+1)*sizeof(struct line_segment));
                                     ^
Incoherent_validation.c:8967:38: note: Assignment 'lines=malloc((intersection_list.num_elements+1)*sizeof(struct line_segment))', assigned value is 0
    struct line_segment *lines=malloc((intersection_list.num_elements+1)*sizeof(struct line_segment));
                                     ^
Incoherent_validation.c:8981:27: note: Null pointer dereference
        midpoint.y = 0.5*(lines[iterate].point1.y + lines[iterate].point2.y);
                          ^
Incoherent_validation.c:8981:53: warning: If memory allocation fails, then there is a possible null pointer dereference: lines [nullPointerOutOfMemory]
        midpoint.y = 0.5*(lines[iterate].point1.y + lines[iterate].point2.y);
                                                    ^
Incoherent_validation.c:8967:38: note: Assuming allocation function fails
    struct line_segment *lines=malloc((intersection_list.num_elements+1)*sizeof(struct line_segment));
                                     ^
Incoherent_validation.c:8967:38: note: Assignment 'lines=malloc((intersection_list.num_elements+1)*sizeof(struct line_segment))', assigned value is 0
    struct line_segment *lines=malloc((intersection_list.num_elements+1)*sizeof(struct line_segment));
                                     ^
Incoherent_validation.c:8981:53: note: Null pointer dereference
        midpoint.y = 0.5*(lines[iterate].point1.y + lines[iterate].point2.y);
                                                    ^
Incoherent_validation.c:8982:27: warning: If memory allocation fails, then there is a possible null pointer dereference: lines [nullPointerOutOfMemory]
        midpoint.z = 0.5*(lines[iterate].point1.z + lines[iterate].point2.z);
                          ^
Incoherent_validation.c:8967:38: note: Assuming allocation function fails
    struct line_segment *lines=malloc((intersection_list.num_elements+1)*sizeof(struct line_segment));
                                     ^
Incoherent_validation.c:8967:38: note: Assignment 'lines=malloc((intersection_list.num_elements+1)*sizeof(struct line_segment))', assigned value is 0
    struct line_segment *lines=malloc((intersection_list.num_elements+1)*sizeof(struct line_segment));
                                     ^
Incoherent_validation.c:8982:27: note: Null pointer dereference
        midpoint.z = 0.5*(lines[iterate].point1.z + lines[iterate].point2.z);
                          ^
Incoherent_validation.c:8982:53: warning: If memory allocation fails, then there is a possible null pointer dereference: lines [nullPointerOutOfMemory]
        midpoint.z = 0.5*(lines[iterate].point1.z + lines[iterate].point2.z);
                                                    ^
Incoherent_validation.c:8967:38: note: Assuming allocation function fails
    struct line_segment *lines=malloc((intersection_list.num_elements+1)*sizeof(struct line_segment));
                                     ^
Incoherent_validation.c:8967:38: note: Assignment 'lines=malloc((intersection_list.num_elements+1)*sizeof(struct line_segment))', assigned value is 0
    struct line_segment *lines=malloc((intersection_list.num_elements+1)*sizeof(struct line_segment));
                                     ^
Incoherent_validation.c:8982:53: note: Null pointer dereference
        midpoint.z = 0.5*(lines[iterate].point1.z + lines[iterate].point2.z);
                                                    ^
Incoherent_validation.c:9194:16: warning: If memory allocation fails, then there is a possible null pointer dereference: union_output.p_box_storage [nullPointerOutOfMemory]
  *union_output.p_box_storage = *union_input->p_box_storage;
               ^
Incoherent_validation.c:9192:38: note: Assuming allocation function fails
  union_output.p_box_storage = malloc(sizeof(struct box_storage));
                                     ^
Incoherent_validation.c:9192:38: note: Assignment 'union_output.p_box_storage=malloc(sizeof(struct box_storage))', assigned value is 0
  union_output.p_box_storage = malloc(sizeof(struct box_storage));
                                     ^
Incoherent_validation.c:9194:16: note: Null pointer dereference
  *union_output.p_box_storage = *union_input->p_box_storage;
               ^
Incoherent_validation.c:9205:16: warning: If memory allocation fails, then there is a possible null pointer dereference: union_output.p_cylinder_storage [nullPointerOutOfMemory]
  *union_output.p_cylinder_storage = *union_input->p_cylinder_storage;
               ^
Incoherent_validation.c:9203:43: note: Assuming allocation function fails
  union_output.p_cylinder_storage = malloc(sizeof(struct cylinder_storage));
                                          ^
Incoherent_validation.c:9203:43: note: Assignment 'union_output.p_cylinder_storage=malloc(sizeof(struct cylinder_storage))', assigned value is 0
  union_output.p_cylinder_storage = malloc(sizeof(struct cylinder_storage));
                                          ^
Incoherent_validation.c:9205:16: note: Null pointer dereference
  *union_output.p_cylinder_storage = *union_input->p_cylinder_storage;
               ^
Incoherent_validation.c:9215:16: warning: If memory allocation fails, then there is a possible null pointer dereference: union_output.p_sphere_storage [nullPointerOutOfMemory]
  *union_output.p_sphere_storage = *union_input->p_sphere_storage;
               ^
Incoherent_validation.c:9213:41: note: Assuming allocation function fails
  union_output.p_sphere_storage = malloc(sizeof(struct sphere_storage));
                                        ^
Incoherent_validation.c:9213:41: note: Assignment 'union_output.p_sphere_storage=malloc(sizeof(struct sphere_storage))', assigned value is 0
  union_output.p_sphere_storage = malloc(sizeof(struct sphere_storage));
                                        ^
Incoherent_validation.c:9215:16: note: Null pointer dereference
  *union_output.p_sphere_storage = *union_input->p_sphere_storage;
               ^
Incoherent_validation.c:9225:16: warning: If memory allocation fails, then there is a possible null pointer dereference: union_output.p_cone_storage [nullPointerOutOfMemory]
  *union_output.p_cone_storage = *union_input->p_cone_storage;
               ^
Incoherent_validation.c:9223:39: note: Assuming allocation function fails
  union_output.p_cone_storage = malloc(sizeof(struct cone_storage));
                                      ^
Incoherent_validation.c:9223:39: note: Assignment 'union_output.p_cone_storage=malloc(sizeof(struct cone_storage))', assigned value is 0
  union_output.p_cone_storage = malloc(sizeof(struct cone_storage));
                                      ^
Incoherent_validation.c:9225:16: note: Null pointer dereference
  *union_output.p_cone_storage = *union_input->p_cone_storage;
               ^
Incoherent_validation.c:9235:16: warning: If memory allocation fails, then there is a possible null pointer dereference: union_output.p_mesh_storage [nullPointerOutOfMemory]
  *union_output.p_mesh_storage = *union_input->p_mesh_storage;
               ^
Incoherent_validation.c:9233:39: note: Assuming allocation function fails
  union_output.p_mesh_storage = malloc(sizeof(struct mesh_storage));
                                      ^
Incoherent_validation.c:9233:39: note: Assignment 'union_output.p_mesh_storage=malloc(sizeof(struct mesh_storage))', assigned value is 0
  union_output.p_mesh_storage = malloc(sizeof(struct mesh_storage));
                                      ^
Incoherent_validation.c:9235:16: note: Null pointer dereference
  *union_output.p_mesh_storage = *union_input->p_mesh_storage;
               ^
Incoherent_validation.c:9293:9: warning: If memory allocation fails, then there is a possible null pointer dereference: output [nullPointerOutOfMemory]
        rotate(output[point_nr].x,output[point_nr].y,output[point_nr].z,cross_product.x,cross_product.y,cross_product.z,rotate_angle,direction.x,direction.y,direction.z);
        ^
Incoherent_validation.c:12604:32: note: Assuming allocation function fails
    circle_point_array = malloc(number_of_points * sizeof(Coords));
                               ^
Incoherent_validation.c:12604:32: note: Assignment 'circle_point_array=malloc(number_of_points*sizeof(struct Coords))', assigned value is 0
    circle_point_array = malloc(number_of_points * sizeof(Coords));
                               ^
Incoherent_validation.c:12606:22: note: Calling function 'points_on_circle', 1st argument 'circle_point_array' value is 0
    points_on_circle(circle_point_array,cyl_top_point,cyl_direction,radius,number_of_points);
                     ^
Incoherent_validation.c:9293:9: note: Null pointer dereference
        rotate(output[point_nr].x,output[point_nr].y,output[point_nr].z,cross_product.x,cross_product.y,cross_product.z,rotate_angle,direction.x,direction.y,direction.z);
        ^
Incoherent_validation.c:9294:9: warning: If memory allocation fails, then there is a possible null pointer dereference: output [nullPointerOutOfMemory]
        output[point_nr] = coords_add(output[point_nr],center);
        ^
Incoherent_validation.c:12604:32: note: Assuming allocation function fails
    circle_point_array = malloc(number_of_points * sizeof(Coords));
                               ^
Incoherent_validation.c:12604:32: note: Assignment 'circle_point_array=malloc(number_of_points*sizeof(struct Coords))', assigned value is 0
    circle_point_array = malloc(number_of_points * sizeof(Coords));
                               ^
Incoherent_validation.c:12606:22: note: Calling function 'points_on_circle', 1st argument 'circle_point_array' value is 0
    points_on_circle(circle_point_array,cyl_top_point,cyl_direction,radius,number_of_points);
                     ^
Incoherent_validation.c:9294:9: note: Null pointer dereference
        output[point_nr] = coords_add(output[point_nr],center);
        ^
Incoherent_validation.c:9294:39: warning: If memory allocation fails, then there is a possible null pointer dereference: output [nullPointerOutOfMemory]
        output[point_nr] = coords_add(output[point_nr],center);
                                      ^
Incoherent_validation.c:12604:32: note: Assuming allocation function fails
    circle_point_array = malloc(number_of_points * sizeof(Coords));
                               ^
Incoherent_validation.c:12604:32: note: Assignment 'circle_point_array=malloc(number_of_points*sizeof(struct Coords))', assigned value is 0
    circle_point_array = malloc(number_of_points * sizeof(Coords));
                               ^
Incoherent_validation.c:12606:22: note: Calling function 'points_on_circle', 1st argument 'circle_point_array' value is 0
    points_on_circle(circle_point_array,cyl_top_point,cyl_direction,radius,number_of_points);
                     ^
Incoherent_validation.c:9294:39: note: Null pointer dereference
        output[point_nr] = coords_add(output[point_nr],center);
                                      ^
Incoherent_validation.c:11804:43: warning: If memory allocation fails, then there is a possible null pointer dereference: circle_point_array [nullPointerOutOfMemory]
        if (geometry_box->within_function(circle_point_array[iterate],geometry_box) == 1) {
                                          ^
Incoherent_validation.c:11798:32: note: Assuming allocation function fails
    circle_point_array = malloc(number_of_points * sizeof(Coords));
                               ^
Incoherent_validation.c:11798:32: note: Assignment 'circle_point_array=malloc(number_of_points*sizeof(struct Coords))', assigned value is 0
    circle_point_array = malloc(number_of_points * sizeof(Coords));
                               ^
Incoherent_validation.c:11804:43: note: Null pointer dereference
        if (geometry_box->within_function(circle_point_array[iterate],geometry_box) == 1) {
                                          ^
Incoherent_validation.c:11812:43: warning: If memory allocation fails, then there is a possible null pointer dereference: circle_point_array [nullPointerOutOfMemory]
        if (geometry_box->within_function(circle_point_array[iterate],geometry_box) == 1) {
                                          ^
Incoherent_validation.c:11798:32: note: Assuming allocation function fails
    circle_point_array = malloc(number_of_points * sizeof(Coords));
                               ^
Incoherent_validation.c:11798:32: note: Assignment 'circle_point_array=malloc(number_of_points*sizeof(struct Coords))', assigned value is 0
    circle_point_array = malloc(number_of_points * sizeof(Coords));
                               ^
Incoherent_validation.c:11804:85: note: Assuming condition is false
        if (geometry_box->within_function(circle_point_array[iterate],geometry_box) == 1) {
                                                                                    ^
Incoherent_validation.c:11812:43: note: Null pointer dereference
        if (geometry_box->within_function(circle_point_array[iterate],geometry_box) == 1) {
                                          ^
Incoherent_validation.c:12611:46: warning: If memory allocation fails, then there is a possible null pointer dereference: circle_point_array [nullPointerOutOfMemory]
        if (geometry_parent->within_function(circle_point_array[iterate],geometry_parent) == 0) {
                                             ^
Incoherent_validation.c:12604:32: note: Assuming allocation function fails
    circle_point_array = malloc(number_of_points * sizeof(Coords));
                               ^
Incoherent_validation.c:12604:32: note: Assignment 'circle_point_array=malloc(number_of_points*sizeof(struct Coords))', assigned value is 0
    circle_point_array = malloc(number_of_points * sizeof(Coords));
                               ^
Incoherent_validation.c:12611:46: note: Null pointer dereference
        if (geometry_parent->within_function(circle_point_array[iterate],geometry_parent) == 0) {
                                             ^
Incoherent_validation.c:12619:46: warning: If memory allocation fails, then there is a possible null pointer dereference: circle_point_array [nullPointerOutOfMemory]
        if (geometry_parent->within_function(circle_point_array[iterate],geometry_parent) == 0) {
                                             ^
Incoherent_validation.c:12604:32: note: Assuming allocation function fails
    circle_point_array = malloc(number_of_points * sizeof(Coords));
                               ^
Incoherent_validation.c:12604:32: note: Assignment 'circle_point_array=malloc(number_of_points*sizeof(struct Coords))', assigned value is 0
    circle_point_array = malloc(number_of_points * sizeof(Coords));
                               ^
Incoherent_validation.c:12611:91: note: Assuming condition is false
        if (geometry_parent->within_function(circle_point_array[iterate],geometry_parent) == 0) {
                                                                                          ^
Incoherent_validation.c:12619:46: note: Null pointer dereference
        if (geometry_parent->within_function(circle_point_array[iterate],geometry_parent) == 0) {
                                             ^
Incoherent_validation.c:13435:3: warning: If memory allocation fails, then there is a possible null pointer dereference: temporary_children_lists [nullPointerOutOfMemory]
  temporary_children_lists[0].num_elements = number_of_volumes - 1;
  ^
Incoherent_validation.c:13432:36: note: Assuming allocation function fails
  temporary_children_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list));
                                   ^
Incoherent_validation.c:13432:36: note: Assignment 'temporary_children_lists=malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list))', assigned value is 0
  temporary_children_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list));
                                   ^
Incoherent_validation.c:13435:3: note: Null pointer dereference
  temporary_children_lists[0].num_elements = number_of_volumes - 1;
  ^
Incoherent_validation.c:13436:3: warning: If memory allocation fails, then there is a possible null pointer dereference: temporary_children_lists [nullPointerOutOfMemory]
  temporary_children_lists[0].elements = malloc(temporary_children_lists[0].num_elements*sizeof(int));
  ^
Incoherent_validation.c:13432:36: note: Assuming allocation function fails
  temporary_children_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list));
                                   ^
Incoherent_validation.c:13432:36: note: Assignment 'temporary_children_lists=malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list))', assigned value is 0
  temporary_children_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list));
                                   ^
Incoherent_validation.c:13436:3: note: Null pointer dereference
  temporary_children_lists[0].elements = malloc(temporary_children_lists[0].num_elements*sizeof(int));
  ^
Incoherent_validation.c:13436:49: warning: If memory allocation fails, then there is a possible null pointer dereference: temporary_children_lists [nullPointerOutOfMemory]
  temporary_children_lists[0].elements = malloc(temporary_children_lists[0].num_elements*sizeof(int));
                                                ^
Incoherent_validation.c:13432:36: note: Assuming allocation function fails
  temporary_children_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list));
                                   ^
Incoherent_validation.c:13432:36: note: Assignment 'temporary_children_lists=malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list))', assigned value is 0
  temporary_children_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list));
                                   ^
Incoherent_validation.c:13436:49: note: Null pointer dereference
  temporary_children_lists[0].elements = malloc(temporary_children_lists[0].num_elements*sizeof(int));
                                                ^
Incoherent_validation.c:13440:7: warning: If memory allocation fails, then there is a possible null pointer dereference: temporary_children_lists [nullPointerOutOfMemory]
      temporary_children_lists[0].elements[parent-1] = parent;
      ^
Incoherent_validation.c:13432:36: note: Assuming allocation function fails
  temporary_children_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list));
                                   ^
Incoherent_validation.c:13432:36: note: Assignment 'temporary_children_lists=malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list))', assigned value is 0
  temporary_children_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list));
                                   ^
Incoherent_validation.c:13440:7: note: Null pointer dereference
      temporary_children_lists[0].elements[parent-1] = parent;
      ^
Incoherent_validation.c:13449:3: warning: If memory allocation fails, then there is a possible null pointer dereference: true_children_lists [nullPointerOutOfMemory]
  true_children_lists[0] = malloc(sizeof(struct pointer_to_1d_int_list));
  ^
Incoherent_validation.c:15068:33: note: Assuming allocation function fails
    true_children_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                                ^
Incoherent_validation.c:15068:33: note: Assignment 'true_children_lists=malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*))', assigned value is 0
    true_children_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                                ^
Incoherent_validation.c:15070:38: note: Calling function 'generate_children_lists', 2nd argument 'true_children_lists' value is 0
    generate_children_lists(Volumes, true_children_lists, number_of_volumes,verbal);
                                     ^
Incoherent_validation.c:13449:3: note: Null pointer dereference
  true_children_lists[0] = malloc(sizeof(struct pointer_to_1d_int_list));
  ^
Incoherent_validation.c:13450:3: warning: If memory allocation fails, then there is a possible null pointer dereference: true_children_lists [nullPointerOutOfMemory]
  true_children_lists[0]->num_elements = number_of_volumes - 1;
  ^
Incoherent_validation.c:15068:33: note: Assuming allocation function fails
    true_children_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                                ^
Incoherent_validation.c:15068:33: note: Assignment 'true_children_lists=malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*))', assigned value is 0
    true_children_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                                ^
Incoherent_validation.c:15070:38: note: Calling function 'generate_children_lists', 2nd argument 'true_children_lists' value is 0
    generate_children_lists(Volumes, true_children_lists, number_of_volumes,verbal);
                                     ^
Incoherent_validation.c:13450:3: note: Null pointer dereference
  true_children_lists[0]->num_elements = number_of_volumes - 1;
  ^
Incoherent_validation.c:13451:3: warning: If memory allocation fails, then there is a possible null pointer dereference: true_children_lists [nullPointerOutOfMemory]
  true_children_lists[0]->elements = malloc((number_of_volumes-1)*sizeof(int));
  ^
Incoherent_validation.c:15068:33: note: Assuming allocation function fails
    true_children_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                                ^
Incoherent_validation.c:15068:33: note: Assignment 'true_children_lists=malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*))', assigned value is 0
    true_children_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                                ^
Incoherent_validation.c:15070:38: note: Calling function 'generate_children_lists', 2nd argument 'true_children_lists' value is 0
    generate_children_lists(Volumes, true_children_lists, number_of_volumes,verbal);
                                     ^
Incoherent_validation.c:13451:3: note: Null pointer dereference
  true_children_lists[0]->elements = malloc((number_of_volumes-1)*sizeof(int));
  ^
Incoherent_validation.c:13457:7: warning: If memory allocation fails, then there is a possible null pointer dereference: true_children_lists [nullPointerOutOfMemory]
      true_children_lists[0]->elements[parent-1] = parent;
      ^
Incoherent_validation.c:15068:33: note: Assuming allocation function fails
    true_children_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                                ^
Incoherent_validation.c:15068:33: note: Assignment 'true_children_lists=malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*))', assigned value is 0
    true_children_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                                ^
Incoherent_validation.c:15070:38: note: Calling function 'generate_children_lists', 2nd argument 'true_children_lists' value is 0
    generate_children_lists(Volumes, true_children_lists, number_of_volumes,verbal);
                                     ^
Incoherent_validation.c:13457:7: note: Null pointer dereference
      true_children_lists[0]->elements[parent-1] = parent;
      ^
Incoherent_validation.c:13492:7: warning: If memory allocation fails, then there is a possible null pointer dereference: temporary_children_lists [nullPointerOutOfMemory]
      temporary_children_lists[parent].num_elements=0;
      ^
Incoherent_validation.c:13432:36: note: Assuming allocation function fails
  temporary_children_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list));
                                   ^
Incoherent_validation.c:13432:36: note: Assignment 'temporary_children_lists=malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list))', assigned value is 0
  temporary_children_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list));
                                   ^
Incoherent_validation.c:13492:7: note: Null pointer dereference
      temporary_children_lists[parent].num_elements=0;
      ^
Incoherent_validation.c:13496:7: warning: If memory allocation fails, then there is a possible null pointer dereference: temporary_children_lists [nullPointerOutOfMemory]
      MPI_MASTER(
      ^
Incoherent_validation.c:13432:36: note: Assuming allocation function fails
  temporary_children_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list));
                                   ^
Incoherent_validation.c:13432:36: note: Assignment 'temporary_children_lists=malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list))', assigned value is 0
  temporary_children_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list));
                                   ^
Incoherent_validation.c:13496:7: note: Null pointer dereference
      MPI_MASTER(
      ^
Incoherent_validation.c:13620:5: warning: If memory allocation fails, then there is a possible null pointer dereference: true_children_lists [nullPointerOutOfMemory]
    true_children_lists[parent] = malloc(sizeof(struct pointer_to_1d_int_list));
    ^
Incoherent_validation.c:15068:33: note: Assuming allocation function fails
    true_children_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                                ^
Incoherent_validation.c:15068:33: note: Assignment 'true_children_lists=malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*))', assigned value is 0
    true_children_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                                ^
Incoherent_validation.c:15070:38: note: Calling function 'generate_children_lists', 2nd argument 'true_children_lists' value is 0
    generate_children_lists(Volumes, true_children_lists, number_of_volumes,verbal);
                                     ^
Incoherent_validation.c:13620:5: note: Null pointer dereference
    true_children_lists[parent] = malloc(sizeof(struct pointer_to_1d_int_list));
    ^
Incoherent_validation.c:13621:5: warning: If memory allocation fails, then there is a possible null pointer dereference: true_children_lists [nullPointerOutOfMemory]
    true_children_lists[parent]->num_elements = 0;
    ^
Incoherent_validation.c:15068:33: note: Assuming allocation function fails
    true_children_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                                ^
Incoherent_validation.c:15068:33: note: Assignment 'true_children_lists=malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*))', assigned value is 0
    true_children_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                                ^
Incoherent_validation.c:15070:38: note: Calling function 'generate_children_lists', 2nd argument 'true_children_lists' value is 0
    generate_children_lists(Volumes, true_children_lists, number_of_volumes,verbal);
                                     ^
Incoherent_validation.c:13621:5: note: Null pointer dereference
    true_children_lists[parent]->num_elements = 0;
    ^
Incoherent_validation.c:13622:64: warning: If memory allocation fails, then there is a possible null pointer dereference: true_children_lists [nullPointerOutOfMemory]
    allocate_list_from_temp(used_elements,true_temp_list_local,true_children_lists[parent]);
                                                               ^
Incoherent_validation.c:15068:33: note: Assuming allocation function fails
    true_children_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                                ^
Incoherent_validation.c:15068:33: note: Assignment 'true_children_lists=malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*))', assigned value is 0
    true_children_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                                ^
Incoherent_validation.c:15070:38: note: Calling function 'generate_children_lists', 2nd argument 'true_children_lists' value is 0
    generate_children_lists(Volumes, true_children_lists, number_of_volumes,verbal);
                                     ^
Incoherent_validation.c:13622:64: note: Null pointer dereference
    allocate_list_from_temp(used_elements,true_temp_list_local,true_children_lists[parent]);
                                                               ^
Incoherent_validation.c:13624:5: warning: If memory allocation fails, then there is a possible null pointer dereference: true_children_lists [nullPointerOutOfMemory]
    MPI_MASTER(
    ^
Incoherent_validation.c:15068:33: note: Assuming allocation function fails
    true_children_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                                ^
Incoherent_validation.c:15068:33: note: Assignment 'true_children_lists=malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*))', assigned value is 0
    true_children_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                                ^
Incoherent_validation.c:15070:38: note: Calling function 'generate_children_lists', 2nd argument 'true_children_lists' value is 0
    generate_children_lists(Volumes, true_children_lists, number_of_volumes,verbal);
                                     ^
Incoherent_validation.c:13624:5: note: Null pointer dereference
    MPI_MASTER(
    ^
Incoherent_validation.c:13633:53: warning: If memory allocation fails, then there is a possible null pointer dereference: temporary_children_lists [nullPointerOutOfMemory]
  for(child=0;child<number_of_volumes;child++) free(temporary_children_lists[child].elements);
                                                    ^
Incoherent_validation.c:13432:36: note: Assuming allocation function fails
  temporary_children_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list));
                                   ^
Incoherent_validation.c:13432:36: note: Assignment 'temporary_children_lists=malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list))', assigned value is 0
  temporary_children_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list));
                                   ^
Incoherent_validation.c:13633:53: note: Null pointer dereference
  for(child=0;child<number_of_volumes;child++) free(temporary_children_lists[child].elements);
                                                    ^
Incoherent_validation.c:13655:3: warning: If memory allocation fails, then there is a possible null pointer dereference: true_overlap_lists [nullPointerOutOfMemory]
  true_overlap_lists[0] = malloc(sizeof(struct pointer_to_1d_int_list));
  ^
Incoherent_validation.c:15074:32: note: Assuming allocation function fails
    true_overlap_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                               ^
Incoherent_validation.c:15074:32: note: Assignment 'true_overlap_lists=malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*))', assigned value is 0
    true_overlap_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                               ^
Incoherent_validation.c:15078:28: note: Calling function 'generate_overlap_lists', 1st argument 'true_overlap_lists' value is 0
    generate_overlap_lists(true_overlap_lists, raw_overlap_lists, Volumes,number_of_volumes,verbal);
                           ^
Incoherent_validation.c:13655:3: note: Null pointer dereference
  true_overlap_lists[0] = malloc(sizeof(struct pointer_to_1d_int_list));
  ^
Incoherent_validation.c:13656:3: warning: If memory allocation fails, then there is a possible null pointer dereference: true_overlap_lists [nullPointerOutOfMemory]
  true_overlap_lists[0]->num_elements = number_of_volumes-1;
  ^
Incoherent_validation.c:15074:32: note: Assuming allocation function fails
    true_overlap_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                               ^
Incoherent_validation.c:15074:32: note: Assignment 'true_overlap_lists=malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*))', assigned value is 0
    true_overlap_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                               ^
Incoherent_validation.c:15078:28: note: Calling function 'generate_overlap_lists', 1st argument 'true_overlap_lists' value is 0
    generate_overlap_lists(true_overlap_lists, raw_overlap_lists, Volumes,number_of_volumes,verbal);
                           ^
Incoherent_validation.c:13656:3: note: Null pointer dereference
  true_overlap_lists[0]->num_elements = number_of_volumes-1;
  ^
Incoherent_validation.c:13657:3: warning: If memory allocation fails, then there is a possible null pointer dereference: true_overlap_lists [nullPointerOutOfMemory]
  true_overlap_lists[0]->elements = malloc((number_of_volumes-1)*sizeof(int));
  ^
Incoherent_validation.c:15074:32: note: Assuming allocation function fails
    true_overlap_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                               ^
Incoherent_validation.c:15074:32: note: Assignment 'true_overlap_lists=malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*))', assigned value is 0
    true_overlap_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                               ^
Incoherent_validation.c:15078:28: note: Calling function 'generate_overlap_lists', 1st argument 'true_overlap_lists' value is 0
    generate_overlap_lists(true_overlap_lists, raw_overlap_lists, Volumes,number_of_volumes,verbal);
                           ^
Incoherent_validation.c:13657:3: note: Null pointer dereference
  true_overlap_lists[0]->elements = malloc((number_of_volumes-1)*sizeof(int));
  ^
Incoherent_validation.c:13659:3: warning: If memory allocation fails, then there is a possible null pointer dereference: raw_overlap_lists [nullPointerOutOfMemory]
  raw_overlap_lists[0] =  malloc(sizeof(struct pointer_to_1d_int_list));
  ^
Incoherent_validation.c:15076:31: note: Assuming allocation function fails
    raw_overlap_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                              ^
Incoherent_validation.c:15076:31: note: Assignment 'raw_overlap_lists=malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*))', assigned value is 0
    raw_overlap_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                              ^
Incoherent_validation.c:15078:48: note: Calling function 'generate_overlap_lists', 2nd argument 'raw_overlap_lists' value is 0
    generate_overlap_lists(true_overlap_lists, raw_overlap_lists, Volumes,number_of_volumes,verbal);
                                               ^
Incoherent_validation.c:13659:3: note: Null pointer dereference
  raw_overlap_lists[0] =  malloc(sizeof(struct pointer_to_1d_int_list));
  ^
Incoherent_validation.c:13660:3: warning: If memory allocation fails, then there is a possible null pointer dereference: raw_overlap_lists [nullPointerOutOfMemory]
  raw_overlap_lists[0]->num_elements = number_of_volumes;
  ^
Incoherent_validation.c:15076:31: note: Assuming allocation function fails
    raw_overlap_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                              ^
Incoherent_validation.c:15076:31: note: Assignment 'raw_overlap_lists=malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*))', assigned value is 0
    raw_overlap_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                              ^
Incoherent_validation.c:15078:48: note: Calling function 'generate_overlap_lists', 2nd argument 'raw_overlap_lists' value is 0
    generate_overlap_lists(true_overlap_lists, raw_overlap_lists, Volumes,number_of_volumes,verbal);
                                               ^
Incoherent_validation.c:13660:3: note: Null pointer dereference
  raw_overlap_lists[0]->num_elements = number_of_volumes;
  ^
Incoherent_validation.c:13661:3: warning: If memory allocation fails, then there is a possible null pointer dereference: raw_overlap_lists [nullPointerOutOfMemory]
  raw_overlap_lists[0]->elements = malloc(number_of_volumes*sizeof(int));
  ^
Incoherent_validation.c:15076:31: note: Assuming allocation function fails
    raw_overlap_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                              ^
Incoherent_validation.c:15076:31: note: Assignment 'raw_overlap_lists=malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*))', assigned value is 0
    raw_overlap_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                              ^
Incoherent_validation.c:15078:48: note: Calling function 'generate_overlap_lists', 2nd argument 'raw_overlap_lists' value is 0
    generate_overlap_lists(true_overlap_lists, raw_overlap_lists, Volumes,number_of_volumes,verbal);
                                               ^
Incoherent_validation.c:13661:3: note: Null pointer dereference
  raw_overlap_lists[0]->elements = malloc(number_of_volumes*sizeof(int));
  ^
Incoherent_validation.c:13662:3: warning: If memory allocation fails, then there is a possible null pointer dereference: raw_overlap_lists [nullPointerOutOfMemory]
  raw_overlap_lists[0]->elements[0] = 0; // Volume 0 overlaps itself
  ^
Incoherent_validation.c:15076:31: note: Assuming allocation function fails
    raw_overlap_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                              ^
Incoherent_validation.c:15076:31: note: Assignment 'raw_overlap_lists=malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*))', assigned value is 0
    raw_overlap_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                              ^
Incoherent_validation.c:15078:48: note: Calling function 'generate_overlap_lists', 2nd argument 'raw_overlap_lists' value is 0
    generate_overlap_lists(true_overlap_lists, raw_overlap_lists, Volumes,number_of_volumes,verbal);
                                               ^
Incoherent_validation.c:13662:3: note: Null pointer dereference
  raw_overlap_lists[0]->elements[0] = 0; // Volume 0 overlaps itself
  ^
Incoherent_validation.c:13666:7: warning: If memory allocation fails, then there is a possible null pointer dereference: true_overlap_lists [nullPointerOutOfMemory]
      true_overlap_lists[0]->elements[parent-1] = parent;
      ^
Incoherent_validation.c:15074:32: note: Assuming allocation function fails
    true_overlap_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                               ^
Incoherent_validation.c:15074:32: note: Assignment 'true_overlap_lists=malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*))', assigned value is 0
    true_overlap_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                               ^
Incoherent_validation.c:15078:28: note: Calling function 'generate_overlap_lists', 1st argument 'true_overlap_lists' value is 0
    generate_overlap_lists(true_overlap_lists, raw_overlap_lists, Volumes,number_of_volumes,verbal);
                           ^
Incoherent_validation.c:13666:7: note: Null pointer dereference
      true_overlap_lists[0]->elements[parent-1] = parent;
      ^
Incoherent_validation.c:13667:7: warning: If memory allocation fails, then there is a possible null pointer dereference: raw_overlap_lists [nullPointerOutOfMemory]
      raw_overlap_lists[0]->elements[parent] = parent;
      ^
Incoherent_validation.c:15076:31: note: Assuming allocation function fails
    raw_overlap_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                              ^
Incoherent_validation.c:15076:31: note: Assignment 'raw_overlap_lists=malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*))', assigned value is 0
    raw_overlap_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                              ^
Incoherent_validation.c:15078:48: note: Calling function 'generate_overlap_lists', 2nd argument 'raw_overlap_lists' value is 0
    generate_overlap_lists(true_overlap_lists, raw_overlap_lists, Volumes,number_of_volumes,verbal);
                                               ^
Incoherent_validation.c:13667:7: note: Null pointer dereference
      raw_overlap_lists[0]->elements[parent] = parent;
      ^
Incoherent_validation.c:13671:3: warning: If memory allocation fails, then there is a possible null pointer dereference: true_overlap_lists [nullPointerOutOfMemory]
  MPI_MASTER(
  ^
Incoherent_validation.c:15074:32: note: Assuming allocation function fails
    true_overlap_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                               ^
Incoherent_validation.c:15074:32: note: Assignment 'true_overlap_lists=malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*))', assigned value is 0
    true_overlap_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                               ^
Incoherent_validation.c:15078:28: note: Calling function 'generate_overlap_lists', 1st argument 'true_overlap_lists' value is 0
    generate_overlap_lists(true_overlap_lists, raw_overlap_lists, Volumes,number_of_volumes,verbal);
                           ^
Incoherent_validation.c:13671:3: note: Null pointer dereference
  MPI_MASTER(
  ^
Incoherent_validation.c:13684:7: warning: If memory allocation fails, then there is a possible null pointer dereference: true_overlap_lists [nullPointerOutOfMemory]
      true_overlap_lists[parent] = malloc(sizeof(struct pointer_to_1d_int_list));
      ^
Incoherent_validation.c:15074:32: note: Assuming allocation function fails
    true_overlap_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                               ^
Incoherent_validation.c:15074:32: note: Assignment 'true_overlap_lists=malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*))', assigned value is 0
    true_overlap_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                               ^
Incoherent_validation.c:15078:28: note: Calling function 'generate_overlap_lists', 1st argument 'true_overlap_lists' value is 0
    generate_overlap_lists(true_overlap_lists, raw_overlap_lists, Volumes,number_of_volumes,verbal);
                           ^
Incoherent_validation.c:13684:7: note: Null pointer dereference
      true_overlap_lists[parent] = malloc(sizeof(struct pointer_to_1d_int_list));
      ^
Incoherent_validation.c:13757:7: warning: If memory allocation fails, then there is a possible null pointer dereference: raw_overlap_lists [nullPointerOutOfMemory]
      raw_overlap_lists[parent] = malloc(sizeof(struct pointer_to_1d_int_list));
      ^
Incoherent_validation.c:15076:31: note: Assuming allocation function fails
    raw_overlap_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                              ^
Incoherent_validation.c:15076:31: note: Assignment 'raw_overlap_lists=malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*))', assigned value is 0
    raw_overlap_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                              ^
Incoherent_validation.c:15078:48: note: Calling function 'generate_overlap_lists', 2nd argument 'raw_overlap_lists' value is 0
    generate_overlap_lists(true_overlap_lists, raw_overlap_lists, Volumes,number_of_volumes,verbal);
                                               ^
Incoherent_validation.c:13757:7: note: Null pointer dereference
      raw_overlap_lists[parent] = malloc(sizeof(struct pointer_to_1d_int_list));
      ^
Incoherent_validation.c:13758:7: warning: If memory allocation fails, then there is a possible null pointer dereference: raw_overlap_lists [nullPointerOutOfMemory]
      raw_overlap_lists[parent]->num_elements = 0;
      ^
Incoherent_validation.c:15076:31: note: Assuming allocation function fails
    raw_overlap_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                              ^
Incoherent_validation.c:15076:31: note: Assignment 'raw_overlap_lists=malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*))', assigned value is 0
    raw_overlap_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                              ^
Incoherent_validation.c:15078:48: note: Calling function 'generate_overlap_lists', 2nd argument 'raw_overlap_lists' value is 0
    generate_overlap_lists(true_overlap_lists, raw_overlap_lists, Volumes,number_of_volumes,verbal);
                                               ^
Incoherent_validation.c:13758:7: note: Null pointer dereference
      raw_overlap_lists[parent]->num_elements = 0;
      ^
Incoherent_validation.c:13759:61: warning: If memory allocation fails, then there is a possible null pointer dereference: raw_overlap_lists [nullPointerOutOfMemory]
      allocate_list_from_temp(used_elements,temp_list_local,raw_overlap_lists[parent]);
                                                            ^
Incoherent_validation.c:15076:31: note: Assuming allocation function fails
    raw_overlap_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                              ^
Incoherent_validation.c:15076:31: note: Assignment 'raw_overlap_lists=malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*))', assigned value is 0
    raw_overlap_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                              ^
Incoherent_validation.c:15078:48: note: Calling function 'generate_overlap_lists', 2nd argument 'raw_overlap_lists' value is 0
    generate_overlap_lists(true_overlap_lists, raw_overlap_lists, Volumes,number_of_volumes,verbal);
                                               ^
Incoherent_validation.c:13759:61: note: Null pointer dereference
      allocate_list_from_temp(used_elements,temp_list_local,raw_overlap_lists[parent]);
                                                            ^
Incoherent_validation.c:13762:7: warning: If memory allocation fails, then there is a possible null pointer dereference: temporary_overlap_lists [nullPointerOutOfMemory]
      MPI_MASTER(
      ^
Incoherent_validation.c:13652:35: note: Assuming allocation function fails
  temporary_overlap_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list));
                                  ^
Incoherent_validation.c:13652:35: note: Assignment 'temporary_overlap_lists=malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list))', assigned value is 0
  temporary_overlap_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list));
                                  ^
Incoherent_validation.c:13762:7: note: Null pointer dereference
      MPI_MASTER(
      ^
Incoherent_validation.c:13875:59: warning: If memory allocation fails, then there is a possible null pointer dereference: true_overlap_lists [nullPointerOutOfMemory]
    allocate_list_from_temp(used_elements,temp_list_local,true_overlap_lists[parent]);
                                                          ^
Incoherent_validation.c:15074:32: note: Assuming allocation function fails
    true_overlap_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                               ^
Incoherent_validation.c:15074:32: note: Assignment 'true_overlap_lists=malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*))', assigned value is 0
    true_overlap_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                               ^
Incoherent_validation.c:15078:28: note: Calling function 'generate_overlap_lists', 1st argument 'true_overlap_lists' value is 0
    generate_overlap_lists(true_overlap_lists, raw_overlap_lists, Volumes,number_of_volumes,verbal);
                           ^
Incoherent_validation.c:13875:59: note: Null pointer dereference
    allocate_list_from_temp(used_elements,temp_list_local,true_overlap_lists[parent]);
                                                          ^
Incoherent_validation.c:13877:5: warning: If memory allocation fails, then there is a possible null pointer dereference: true_overlap_lists [nullPointerOutOfMemory]
    MPI_MASTER(
    ^
Incoherent_validation.c:15074:32: note: Assuming allocation function fails
    true_overlap_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                               ^
Incoherent_validation.c:15074:32: note: Assignment 'true_overlap_lists=malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*))', assigned value is 0
    true_overlap_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                               ^
Incoherent_validation.c:15078:28: note: Calling function 'generate_overlap_lists', 1st argument 'true_overlap_lists' value is 0
    generate_overlap_lists(true_overlap_lists, raw_overlap_lists, Volumes,number_of_volumes,verbal);
                           ^
Incoherent_validation.c:13877:5: note: Null pointer dereference
    MPI_MASTER(
    ^
Incoherent_validation.c:13883:53: warning: If memory allocation fails, then there is a possible null pointer dereference: temporary_overlap_lists [nullPointerOutOfMemory]
  for(child=1;child<number_of_volumes;child++) free(temporary_overlap_lists[child].elements);
                                                    ^
Incoherent_validation.c:13652:35: note: Assuming allocation function fails
  temporary_overlap_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list));
                                  ^
Incoherent_validation.c:13652:35: note: Assignment 'temporary_overlap_lists=malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list))', assigned value is 0
  temporary_overlap_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list));
                                  ^
Incoherent_validation.c:13883:53: note: Null pointer dereference
  for(child=1;child<number_of_volumes;child++) free(temporary_overlap_lists[child].elements);
                                                    ^
Incoherent_validation.c:14175:5: warning: If memory allocation fails, then there is a possible null pointer dereference: parents_lists [nullPointerOutOfMemory]
    parents_lists[iterate] = malloc(sizeof(struct pointer_to_1d_int_list));
    ^
Incoherent_validation.c:15085:27: note: Assuming allocation function fails
    parents_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                          ^
Incoherent_validation.c:15085:27: note: Assignment 'parents_lists=malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*))', assigned value is 0
    parents_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                          ^
Incoherent_validation.c:15086:28: note: Calling function 'generate_parents_lists', 1st argument 'parents_lists' value is 0
    generate_parents_lists(parents_lists,Volumes,number_of_volumes,verbal,1); // The last 1 means masks are taken into account
                           ^
Incoherent_validation.c:14175:5: note: Null pointer dereference
    parents_lists[iterate] = malloc(sizeof(struct pointer_to_1d_int_list));
    ^
Incoherent_validation.c:14181:61: warning: If memory allocation fails, then there is a possible null pointer dereference: parents_lists [nullPointerOutOfMemory]
      allocate_list_from_temp(used_elements,temp_list_local,parents_lists[iterate]);
                                                            ^
Incoherent_validation.c:15085:27: note: Assuming allocation function fails
    parents_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                          ^
Incoherent_validation.c:15085:27: note: Assignment 'parents_lists=malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*))', assigned value is 0
    parents_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                          ^
Incoherent_validation.c:15086:28: note: Calling function 'generate_parents_lists', 1st argument 'parents_lists' value is 0
    generate_parents_lists(parents_lists,Volumes,number_of_volumes,verbal,1); // The last 1 means masks are taken into account
                           ^
Incoherent_validation.c:14181:61: note: Null pointer dereference
      allocate_list_from_temp(used_elements,temp_list_local,parents_lists[iterate]);
                                                            ^
Incoherent_validation.c:14223:5: warning: If memory allocation fails, then there is a possible null pointer dereference: parents_lists [nullPointerOutOfMemory]
    parents_lists[iterate] = malloc(sizeof(struct pointer_to_1d_int_list)); // allocate_list_from_temp allocates
    ^
Incoherent_validation.c:15095:32: note: Assuming allocation function fails
    true_parents_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                               ^
Incoherent_validation.c:15095:32: note: Assignment 'true_parents_lists=malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*))', assigned value is 0
    true_parents_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                               ^
Incoherent_validation.c:15096:33: note: Calling function 'generate_true_parents_lists', 1st argument 'true_parents_lists' value is 0
    generate_true_parents_lists(true_parents_lists, true_children_lists, Volumes, number_of_volumes, verbal, 1);
                                ^
Incoherent_validation.c:14223:5: note: Null pointer dereference
    parents_lists[iterate] = malloc(sizeof(struct pointer_to_1d_int_list)); // allocate_list_from_temp allocates
    ^
Incoherent_validation.c:14226:26: warning: If memory allocation fails, then there is a possible null pointer dereference: true_children_lists [nullPointerOutOfMemory]
        if (on_int_list(*true_children_lists[parent],iterate))
                         ^
Incoherent_validation.c:15068:33: note: Assuming allocation function fails
    true_children_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                                ^
Incoherent_validation.c:15068:33: note: Assignment 'true_children_lists=malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*))', assigned value is 0
    true_children_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                                ^
Incoherent_validation.c:15096:53: note: Calling function 'generate_true_parents_lists', 2nd argument 'true_children_lists' value is 0
    generate_true_parents_lists(true_parents_lists, true_children_lists, Volumes, number_of_volumes, verbal, 1);
                                                    ^
Incoherent_validation.c:14226:26: note: Null pointer dereference
        if (on_int_list(*true_children_lists[parent],iterate))
                         ^
Incoherent_validation.c:14230:61: warning: If memory allocation fails, then there is a possible null pointer dereference: parents_lists [nullPointerOutOfMemory]
      allocate_list_from_temp(used_elements,temp_list_local,parents_lists[iterate]);
                                                            ^
Incoherent_validation.c:15095:32: note: Assuming allocation function fails
    true_parents_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                               ^
Incoherent_validation.c:15095:32: note: Assignment 'true_parents_lists=malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*))', assigned value is 0
    true_parents_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                               ^
Incoherent_validation.c:15096:33: note: Calling function 'generate_true_parents_lists', 1st argument 'true_parents_lists' value is 0
    generate_true_parents_lists(true_parents_lists, true_children_lists, Volumes, number_of_volumes, verbal, 1);
                                ^
Incoherent_validation.c:14230:61: note: Null pointer dereference
      allocate_list_from_temp(used_elements,temp_list_local,parents_lists[iterate]);
                                                            ^
Incoherent_validation.c:14430:5: warning: If memory allocation fails, then there is a possible null pointer dereference: grandparents_lists [nullPointerOutOfMemory]
    grandparents_lists[iterate] = malloc(sizeof(struct pointer_to_1d_int_list));
    ^
Incoherent_validation.c:15107:32: note: Assuming allocation function fails
    grandparents_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                               ^
Incoherent_validation.c:15107:32: note: Assignment 'grandparents_lists=malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*))', assigned value is 0
    grandparents_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                               ^
Incoherent_validation.c:15108:33: note: Calling function 'generate_grandparents_lists', 1st argument 'grandparents_lists' value is 0
    generate_grandparents_lists(grandparents_lists,parents_lists,number_of_volumes,verbal);
                                ^
Incoherent_validation.c:14430:5: note: Null pointer dereference
    grandparents_lists[iterate] = malloc(sizeof(struct pointer_to_1d_int_list));
    ^
Incoherent_validation.c:14432:29: warning: If memory allocation fails, then there is a possible null pointer dereference: parents_lists [nullPointerOutOfMemory]
    for (parent = 0; parent<parents_lists[iterate]->num_elements; parent++) {
                            ^
Incoherent_validation.c:15085:27: note: Assuming allocation function fails
    parents_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                          ^
Incoherent_validation.c:15085:27: note: Assignment 'parents_lists=malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*))', assigned value is 0
    parents_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                          ^
Incoherent_validation.c:15108:52: note: Calling function 'generate_grandparents_lists', 2nd argument 'parents_lists' value is 0
    generate_grandparents_lists(grandparents_lists,parents_lists,number_of_volumes,verbal);
                                                   ^
Incoherent_validation.c:14432:29: note: Null pointer dereference
    for (parent = 0; parent<parents_lists[iterate]->num_elements; parent++) {
                            ^
Incoherent_validation.c:14434:27: warning: If memory allocation fails, then there is a possible null pointer dereference: parents_lists [nullPointerOutOfMemory]
        on_both_int_lists(parents_lists[parents_lists[iterate]->elements[parent]], parents_lists[iterate], &common);
                          ^
Incoherent_validation.c:15085:27: note: Assuming allocation function fails
    parents_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                          ^
Incoherent_validation.c:15085:27: note: Assignment 'parents_lists=malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*))', assigned value is 0
    parents_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                          ^
Incoherent_validation.c:15108:52: note: Calling function 'generate_grandparents_lists', 2nd argument 'parents_lists' value is 0
    generate_grandparents_lists(grandparents_lists,parents_lists,number_of_volumes,verbal);
                                                   ^
Incoherent_validation.c:14434:27: note: Null pointer dereference
        on_both_int_lists(parents_lists[parents_lists[iterate]->elements[parent]], parents_lists[iterate], &common);
                          ^
Incoherent_validation.c:14434:41: warning: If memory allocation fails, then there is a possible null pointer dereference: parents_lists [nullPointerOutOfMemory]
        on_both_int_lists(parents_lists[parents_lists[iterate]->elements[parent]], parents_lists[iterate], &common);
                                        ^
Incoherent_validation.c:15085:27: note: Assuming allocation function fails
    parents_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                          ^
Incoherent_validation.c:15085:27: note: Assignment 'parents_lists=malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*))', assigned value is 0
    parents_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                          ^
Incoherent_validation.c:15108:52: note: Calling function 'generate_grandparents_lists', 2nd argument 'parents_lists' value is 0
    generate_grandparents_lists(grandparents_lists,parents_lists,number_of_volumes,verbal);
                                                   ^
Incoherent_validation.c:14434:41: note: Null pointer dereference
        on_both_int_lists(parents_lists[parents_lists[iterate]->elements[parent]], parents_lists[iterate], &common);
                                        ^
Incoherent_validation.c:14434:84: warning: If memory allocation fails, then there is a possible null pointer dereference: parents_lists [nullPointerOutOfMemory]
        on_both_int_lists(parents_lists[parents_lists[iterate]->elements[parent]], parents_lists[iterate], &common);
                                                                                   ^
Incoherent_validation.c:15085:27: note: Assuming allocation function fails
    parents_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                          ^
Incoherent_validation.c:15085:27: note: Assignment 'parents_lists=malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*))', assigned value is 0
    parents_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                          ^
Incoherent_validation.c:15108:52: note: Calling function 'generate_grandparents_lists', 2nd argument 'parents_lists' value is 0
    generate_grandparents_lists(grandparents_lists,parents_lists,number_of_volumes,verbal);
                                                   ^
Incoherent_validation.c:14434:84: note: Null pointer dereference
        on_both_int_lists(parents_lists[parents_lists[iterate]->elements[parent]], parents_lists[iterate], &common);
                                                                                   ^
Incoherent_validation.c:14443:61: warning: If memory allocation fails, then there is a possible null pointer dereference: grandparents_lists [nullPointerOutOfMemory]
    allocate_list_from_temp(used_elements, temp_list_local, grandparents_lists[iterate]);
                                                            ^
Incoherent_validation.c:15107:32: note: Assuming allocation function fails
    grandparents_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                               ^
Incoherent_validation.c:15107:32: note: Assignment 'grandparents_lists=malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*))', assigned value is 0
    grandparents_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                               ^
Incoherent_validation.c:15108:33: note: Calling function 'generate_grandparents_lists', 1st argument 'grandparents_lists' value is 0
    generate_grandparents_lists(grandparents_lists,parents_lists,number_of_volumes,verbal);
                                ^
Incoherent_validation.c:14443:61: note: Null pointer dereference
    allocate_list_from_temp(used_elements, temp_list_local, grandparents_lists[iterate]);
                                                            ^
Incoherent_validation.c:14446:5: warning: If memory allocation fails, then there is a possible null pointer dereference: grandparents_lists [nullPointerOutOfMemory]
    MPI_MASTER(
    ^
Incoherent_validation.c:15107:32: note: Assuming allocation function fails
    grandparents_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                               ^
Incoherent_validation.c:15107:32: note: Assignment 'grandparents_lists=malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*))', assigned value is 0
    grandparents_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                               ^
Incoherent_validation.c:15108:33: note: Calling function 'generate_grandparents_lists', 1st argument 'grandparents_lists' value is 0
    generate_grandparents_lists(grandparents_lists,parents_lists,number_of_volumes,verbal);
                                ^
Incoherent_validation.c:14446:5: note: Null pointer dereference
    MPI_MASTER(
    ^
Incoherent_validation.c:14473:30: warning: If memory allocation fails, then there is a possible null pointer dereference: true_overlap_lists [nullPointerOutOfMemory]
    work_list.num_elements = true_overlap_lists[volume_index]->num_elements;
                             ^
Incoherent_validation.c:15074:32: note: Assuming allocation function fails
    true_overlap_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                               ^
Incoherent_validation.c:15074:32: note: Assignment 'true_overlap_lists=malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*))', assigned value is 0
    true_overlap_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                               ^
Incoherent_validation.c:15126:46: note: Calling function 'generate_destinations_lists_experimental', 1st argument 'true_overlap_lists' value is 0
    generate_destinations_lists_experimental(true_overlap_lists, true_children_lists, true_parents_lists_no_masks, true_grandparents_lists_no_masks, Volumes, number_of_volumes, verbal);
                                             ^
Incoherent_validation.c:14473:30: note: Null pointer dereference
    work_list.num_elements = true_overlap_lists[volume_index]->num_elements;
                             ^
Incoherent_validation.c:14475:92: warning: If memory allocation fails, then there is a possible null pointer dereference: true_overlap_lists [nullPointerOutOfMemory]
    for (iterate=0;iterate<work_list.num_elements;iterate++) work_list.elements[iterate] = true_overlap_lists[volume_index]->elements[iterate];
                                                                                           ^
Incoherent_validation.c:15074:32: note: Assuming allocation function fails
    true_overlap_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                               ^
Incoherent_validation.c:15074:32: note: Assignment 'true_overlap_lists=malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*))', assigned value is 0
    true_overlap_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                               ^
Incoherent_validation.c:15126:46: note: Calling function 'generate_destinations_lists_experimental', 1st argument 'true_overlap_lists' value is 0
    generate_destinations_lists_experimental(true_overlap_lists, true_children_lists, true_parents_lists_no_masks, true_grandparents_lists_no_masks, Volumes, number_of_volumes, verbal);
                                             ^
Incoherent_validation.c:14475:92: note: Null pointer dereference
    for (iterate=0;iterate<work_list.num_elements;iterate++) work_list.elements[iterate] = true_overlap_lists[volume_index]->elements[iterate];
                                                                                           ^
Incoherent_validation.c:14520:28: warning: If memory allocation fails, then there is a possible null pointer dereference: true_children_lists [nullPointerOutOfMemory]
    for (iterate=0;iterate<true_children_lists[volume_index]->num_elements;iterate++)
                           ^
Incoherent_validation.c:15068:33: note: Assuming allocation function fails
    true_children_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                                ^
Incoherent_validation.c:15068:33: note: Assignment 'true_children_lists=malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*))', assigned value is 0
    true_children_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                                ^
Incoherent_validation.c:15126:66: note: Calling function 'generate_destinations_lists_experimental', 2nd argument 'true_children_lists' value is 0
    generate_destinations_lists_experimental(true_overlap_lists, true_children_lists, true_parents_lists_no_masks, true_grandparents_lists_no_masks, Volumes, number_of_volumes, verbal);
                                                                 ^
Incoherent_validation.c:14520:28: note: Null pointer dereference
    for (iterate=0;iterate<true_children_lists[volume_index]->num_elements;iterate++)
                           ^
Incoherent_validation.c:14521:50: warning: If memory allocation fails, then there is a possible null pointer dereference: true_children_lists [nullPointerOutOfMemory]
      remove_element_in_list_by_value(&work_list,true_children_lists[volume_index]->elements[iterate]);
                                                 ^
Incoherent_validation.c:15068:33: note: Assuming allocation function fails
    true_children_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                                ^
Incoherent_validation.c:15068:33: note: Assignment 'true_children_lists=malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*))', assigned value is 0
    true_children_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                                ^
Incoherent_validation.c:15126:66: note: Calling function 'generate_destinations_lists_experimental', 2nd argument 'true_children_lists' value is 0
    generate_destinations_lists_experimental(true_overlap_lists, true_children_lists, true_parents_lists_no_masks, true_grandparents_lists_no_masks, Volumes, number_of_volumes, verbal);
                                                                 ^
Incoherent_validation.c:14521:50: note: Null pointer dereference
      remove_element_in_list_by_value(&work_list,true_children_lists[volume_index]->elements[iterate]);
                                                 ^
Incoherent_validation.c:14526:28: warning: If memory allocation fails, then there is a possible null pointer dereference: true_grandparents_lists [nullPointerOutOfMemory]
    for (iterate=0;iterate<true_grandparents_lists[volume_index]->num_elements;iterate++)
                           ^
Incoherent_validation.c:15121:46: note: Assuming allocation function fails
    true_grandparents_lists_no_masks = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                                             ^
Incoherent_validation.c:15121:46: note: Assignment 'true_grandparents_lists_no_masks=malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*))', assigned value is 0
    true_grandparents_lists_no_masks = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                                             ^
Incoherent_validation.c:15126:116: note: Calling function 'generate_destinations_lists_experimental', 4th argument 'true_grandparents_lists_no_masks' value is 0
    generate_destinations_lists_experimental(true_overlap_lists, true_children_lists, true_parents_lists_no_masks, true_grandparents_lists_no_masks, Volumes, number_of_volumes, verbal);
                                                                                                                   ^
Incoherent_validation.c:14526:28: note: Null pointer dereference
    for (iterate=0;iterate<true_grandparents_lists[volume_index]->num_elements;iterate++)
                           ^
Incoherent_validation.c:14527:50: warning: If memory allocation fails, then there is a possible null pointer dereference: true_grandparents_lists [nullPointerOutOfMemory]
      remove_element_in_list_by_value(&work_list,true_grandparents_lists[volume_index]->elements[iterate]);
                                                 ^
Incoherent_validation.c:15121:46: note: Assuming allocation function fails
    true_grandparents_lists_no_masks = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                                             ^
Incoherent_validation.c:15121:46: note: Assignment 'true_grandparents_lists_no_masks=malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*))', assigned value is 0
    true_grandparents_lists_no_masks = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                                             ^
Incoherent_validation.c:15126:116: note: Calling function 'generate_destinations_lists_experimental', 4th argument 'true_grandparents_lists_no_masks' value is 0
    generate_destinations_lists_experimental(true_overlap_lists, true_children_lists, true_parents_lists_no_masks, true_grandparents_lists_no_masks, Volumes, number_of_volumes, verbal);
                                                                                                                   ^
Incoherent_validation.c:14527:50: note: Null pointer dereference
      remove_element_in_list_by_value(&work_list,true_grandparents_lists[volume_index]->elements[iterate]);
                                                 ^
Incoherent_validation.c:14541:24: warning: If memory allocation fails, then there is a possible null pointer dereference: true_parents_lists [nullPointerOutOfMemory]
      if (on_int_list(*true_parents_lists[volume_index],work_list.elements[iterate])){
                       ^
Incoherent_validation.c:15100:41: note: Assuming allocation function fails
    true_parents_lists_no_masks = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                                        ^
Incoherent_validation.c:15100:41: note: Assignment 'true_parents_lists_no_masks=malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*))', assigned value is 0
    true_parents_lists_no_masks = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                                        ^
Incoherent_validation.c:15126:87: note: Calling function 'generate_destinations_lists_experimental', 3rd argument 'true_parents_lists_no_masks' value is 0
    generate_destinations_lists_experimental(true_overlap_lists, true_children_lists, true_parents_lists_no_masks, true_grandparents_lists_no_masks, Volumes, number_of_volumes, verbal);
                                                                                      ^
Incoherent_validation.c:14541:24: note: Null pointer dereference
      if (on_int_list(*true_parents_lists[volume_index],work_list.elements[iterate])){
                       ^
Incoherent_validation.c:14841:34: warning: If memory allocation fails, then there is a possible null pointer dereference: parents_lists [nullPointerOutOfMemory]
            for (parent=0;parent<parents_lists[Volumes[volume_index]->geometry.children.elements[child]]->num_elements;parent++) {
                                 ^
Incoherent_validation.c:15085:27: note: Assuming allocation function fails
    parents_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                          ^
Incoherent_validation.c:15085:27: note: Assignment 'parents_lists=malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*))', assigned value is 0
    parents_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                          ^
Incoherent_validation.c:15133:36: note: Calling function 'generate_direct_children_lists', 1st argument 'parents_lists' value is 0
    generate_direct_children_lists(parents_lists,Volumes,number_of_volumes,verbal);
                                   ^
Incoherent_validation.c:14841:34: note: Null pointer dereference
            for (parent=0;parent<parents_lists[Volumes[volume_index]->geometry.children.elements[child]]->num_elements;parent++) {
                                 ^
Incoherent_validation.c:14842:74: warning: If memory allocation fails, then there is a possible null pointer dereference: parents_lists [nullPointerOutOfMemory]
                if (on_int_list(Volumes[volume_index]->geometry.children,parents_lists[Volumes[volume_index]->geometry.children.elements[child]]->elements[parent]))
                                                                         ^
Incoherent_validation.c:15085:27: note: Assuming allocation function fails
    parents_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                          ^
Incoherent_validation.c:15085:27: note: Assignment 'parents_lists=malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*))', assigned value is 0
    parents_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                          ^
Incoherent_validation.c:15133:36: note: Calling function 'generate_direct_children_lists', 1st argument 'parents_lists' value is 0
    generate_direct_children_lists(parents_lists,Volumes,number_of_volumes,verbal);
                                   ^
Incoherent_validation.c:14842:74: note: Null pointer dereference
                if (on_int_list(Volumes[volume_index]->geometry.children,parents_lists[Volumes[volume_index]->geometry.children.elements[child]]->elements[parent]))
                                                                         ^
Incoherent_validation.c:15148:13: warning: If memory allocation fails, then there is a possible null pointer dereference: true_overlap_lists [nullPointerOutOfMemory]
        if (true_overlap_lists[iterate]->num_elements > 0) free(true_overlap_lists[iterate]->elements);
            ^
Incoherent_validation.c:15074:32: note: Assuming allocation function fails
    true_overlap_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                               ^
Incoherent_validation.c:15074:32: note: Assignment 'true_overlap_lists=malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*))', assigned value is 0
    true_overlap_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                               ^
Incoherent_validation.c:15148:13: note: Null pointer dereference
        if (true_overlap_lists[iterate]->num_elements > 0) free(true_overlap_lists[iterate]->elements);
            ^
Incoherent_validation.c:15149:14: warning: If memory allocation fails, then there is a possible null pointer dereference: true_overlap_lists [nullPointerOutOfMemory]
        free(true_overlap_lists[iterate]);
             ^
Incoherent_validation.c:15074:32: note: Assuming allocation function fails
    true_overlap_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                               ^
Incoherent_validation.c:15074:32: note: Assignment 'true_overlap_lists=malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*))', assigned value is 0
    true_overlap_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                               ^
Incoherent_validation.c:15149:14: note: Null pointer dereference
        free(true_overlap_lists[iterate]);
             ^
Incoherent_validation.c:15152:13: warning: If memory allocation fails, then there is a possible null pointer dereference: raw_overlap_lists [nullPointerOutOfMemory]
        if (raw_overlap_lists[iterate]->num_elements > 0) free(raw_overlap_lists[iterate]->elements);
            ^
Incoherent_validation.c:15076:31: note: Assuming allocation function fails
    raw_overlap_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                              ^
Incoherent_validation.c:15076:31: note: Assignment 'raw_overlap_lists=malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*))', assigned value is 0
    raw_overlap_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                              ^
Incoherent_validation.c:15152:13: note: Null pointer dereference
        if (raw_overlap_lists[iterate]->num_elements > 0) free(raw_overlap_lists[iterate]->elements);
            ^
Incoherent_validation.c:15153:14: warning: If memory allocation fails, then there is a possible null pointer dereference: raw_overlap_lists [nullPointerOutOfMemory]
        free(raw_overlap_lists[iterate]);
             ^
Incoherent_validation.c:15076:31: note: Assuming allocation function fails
    raw_overlap_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                              ^
Incoherent_validation.c:15076:31: note: Assignment 'raw_overlap_lists=malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*))', assigned value is 0
    raw_overlap_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                              ^
Incoherent_validation.c:15153:14: note: Null pointer dereference
        free(raw_overlap_lists[iterate]);
             ^
Incoherent_validation.c:15156:13: warning: If memory allocation fails, then there is a possible null pointer dereference: parents_lists [nullPointerOutOfMemory]
        if (parents_lists[iterate]->num_elements > 0) free(parents_lists[iterate]->elements);
            ^
Incoherent_validation.c:15085:27: note: Assuming allocation function fails
    parents_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                          ^
Incoherent_validation.c:15085:27: note: Assignment 'parents_lists=malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*))', assigned value is 0
    parents_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                          ^
Incoherent_validation.c:15156:13: note: Null pointer dereference
        if (parents_lists[iterate]->num_elements > 0) free(parents_lists[iterate]->elements);
            ^
Incoherent_validation.c:15157:14: warning: If memory allocation fails, then there is a possible null pointer dereference: parents_lists [nullPointerOutOfMemory]
        free(parents_lists[iterate]);
             ^
Incoherent_validation.c:15085:27: note: Assuming allocation function fails
    parents_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                          ^
Incoherent_validation.c:15085:27: note: Assignment 'parents_lists=malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*))', assigned value is 0
    parents_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                          ^
Incoherent_validation.c:15157:14: note: Null pointer dereference
        free(parents_lists[iterate]);
             ^
Incoherent_validation.c:15160:13: warning: If memory allocation fails, then there is a possible null pointer dereference: parents_lists_no_masks [nullPointerOutOfMemory]
        if (parents_lists_no_masks[iterate]->num_elements > 0) free(parents_lists_no_masks[iterate]->elements);
            ^
Incoherent_validation.c:15090:36: note: Assuming allocation function fails
    parents_lists_no_masks = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                                   ^
Incoherent_validation.c:15090:36: note: Assignment 'parents_lists_no_masks=malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*))', assigned value is 0
    parents_lists_no_masks = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                                   ^
Incoherent_validation.c:15160:13: note: Null pointer dereference
        if (parents_lists_no_masks[iterate]->num_elements > 0) free(parents_lists_no_masks[iterate]->elements);
            ^
Incoherent_validation.c:15161:14: warning: If memory allocation fails, then there is a possible null pointer dereference: parents_lists_no_masks [nullPointerOutOfMemory]
        free(parents_lists_no_masks[iterate]);
             ^
Incoherent_validation.c:15090:36: note: Assuming allocation function fails
    parents_lists_no_masks = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                                   ^
Incoherent_validation.c:15090:36: note: Assignment 'parents_lists_no_masks=malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*))', assigned value is 0
    parents_lists_no_masks = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                                   ^
Incoherent_validation.c:15161:14: note: Null pointer dereference
        free(parents_lists_no_masks[iterate]);
             ^
Incoherent_validation.c:15164:13: warning: If memory allocation fails, then there is a possible null pointer dereference: true_parents_lists [nullPointerOutOfMemory]
        if (true_parents_lists[iterate]->num_elements > 0) free(true_parents_lists[iterate]->elements);
            ^
Incoherent_validation.c:15095:32: note: Assuming allocation function fails
    true_parents_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                               ^
Incoherent_validation.c:15095:32: note: Assignment 'true_parents_lists=malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*))', assigned value is 0
    true_parents_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                               ^
Incoherent_validation.c:15164:13: note: Null pointer dereference
        if (true_parents_lists[iterate]->num_elements > 0) free(true_parents_lists[iterate]->elements);
            ^
Incoherent_validation.c:15165:14: warning: If memory allocation fails, then there is a possible null pointer dereference: true_parents_lists [nullPointerOutOfMemory]
        free(true_parents_lists[iterate]);
             ^
Incoherent_validation.c:15095:32: note: Assuming allocation function fails
    true_parents_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                               ^
Incoherent_validation.c:15095:32: note: Assignment 'true_parents_lists=malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*))', assigned value is 0
    true_parents_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                               ^
Incoherent_validation.c:15165:14: note: Null pointer dereference
        free(true_parents_lists[iterate]);
             ^
Incoherent_validation.c:15168:13: warning: If memory allocation fails, then there is a possible null pointer dereference: true_parents_lists_no_masks [nullPointerOutOfMemory]
        if (true_parents_lists_no_masks[iterate]->num_elements > 0) free(true_parents_lists_no_masks[iterate]->elements);
            ^
Incoherent_validation.c:15100:41: note: Assuming allocation function fails
    true_parents_lists_no_masks = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                                        ^
Incoherent_validation.c:15100:41: note: Assignment 'true_parents_lists_no_masks=malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*))', assigned value is 0
    true_parents_lists_no_masks = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                                        ^
Incoherent_validation.c:15168:13: note: Null pointer dereference
        if (true_parents_lists_no_masks[iterate]->num_elements > 0) free(true_parents_lists_no_masks[iterate]->elements);
            ^
Incoherent_validation.c:15169:14: warning: If memory allocation fails, then there is a possible null pointer dereference: true_parents_lists_no_masks [nullPointerOutOfMemory]
        free(true_parents_lists_no_masks[iterate]);
             ^
Incoherent_validation.c:15100:41: note: Assuming allocation function fails
    true_parents_lists_no_masks = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                                        ^
Incoherent_validation.c:15100:41: note: Assignment 'true_parents_lists_no_masks=malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*))', assigned value is 0
    true_parents_lists_no_masks = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                                        ^
Incoherent_validation.c:15169:14: note: Null pointer dereference
        free(true_parents_lists_no_masks[iterate]);
             ^
Incoherent_validation.c:15172:13: warning: If memory allocation fails, then there is a possible null pointer dereference: grandparents_lists [nullPointerOutOfMemory]
        if (grandparents_lists[iterate]->num_elements > 0) free(grandparents_lists[iterate]->elements);
            ^
Incoherent_validation.c:15107:32: note: Assuming allocation function fails
    grandparents_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                               ^
Incoherent_validation.c:15107:32: note: Assignment 'grandparents_lists=malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*))', assigned value is 0
    grandparents_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                               ^
Incoherent_validation.c:15172:13: note: Null pointer dereference
        if (grandparents_lists[iterate]->num_elements > 0) free(grandparents_lists[iterate]->elements);
            ^
Incoherent_validation.c:15173:14: warning: If memory allocation fails, then there is a possible null pointer dereference: grandparents_lists [nullPointerOutOfMemory]
        free(grandparents_lists[iterate]);
             ^
Incoherent_validation.c:15107:32: note: Assuming allocation function fails
    grandparents_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                               ^
Incoherent_validation.c:15107:32: note: Assignment 'grandparents_lists=malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*))', assigned value is 0
    grandparents_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                               ^
Incoherent_validation.c:15173:14: note: Null pointer dereference
        free(grandparents_lists[iterate]);
             ^
Incoherent_validation.c:15176:13: warning: If memory allocation fails, then there is a possible null pointer dereference: true_grandparents_lists [nullPointerOutOfMemory]
        if (true_grandparents_lists[iterate]->num_elements > 0) free(true_grandparents_lists[iterate]->elements);
            ^
Incoherent_validation.c:15117:37: note: Assuming allocation function fails
    true_grandparents_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                                    ^
Incoherent_validation.c:15117:37: note: Assignment 'true_grandparents_lists=malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*))', assigned value is 0
    true_grandparents_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                                    ^
Incoherent_validation.c:15176:13: note: Null pointer dereference
        if (true_grandparents_lists[iterate]->num_elements > 0) free(true_grandparents_lists[iterate]->elements);
            ^
Incoherent_validation.c:15177:14: warning: If memory allocation fails, then there is a possible null pointer dereference: true_grandparents_lists [nullPointerOutOfMemory]
        free(true_grandparents_lists[iterate]);
             ^
Incoherent_validation.c:15117:37: note: Assuming allocation function fails
    true_grandparents_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                                    ^
Incoherent_validation.c:15117:37: note: Assignment 'true_grandparents_lists=malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*))', assigned value is 0
    true_grandparents_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                                    ^
Incoherent_validation.c:15177:14: note: Null pointer dereference
        free(true_grandparents_lists[iterate]);
             ^
Incoherent_validation.c:15180:13: warning: If memory allocation fails, then there is a possible null pointer dereference: grandparents_lists_no_masks [nullPointerOutOfMemory]
        if (grandparents_lists_no_masks[iterate]->num_elements > 0) free(grandparents_lists_no_masks[iterate]->elements);
            ^
Incoherent_validation.c:15112:41: note: Assuming allocation function fails
    grandparents_lists_no_masks = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                                        ^
Incoherent_validation.c:15112:41: note: Assignment 'grandparents_lists_no_masks=malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*))', assigned value is 0
    grandparents_lists_no_masks = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                                        ^
Incoherent_validation.c:15180:13: note: Null pointer dereference
        if (grandparents_lists_no_masks[iterate]->num_elements > 0) free(grandparents_lists_no_masks[iterate]->elements);
            ^
Incoherent_validation.c:15181:14: warning: If memory allocation fails, then there is a possible null pointer dereference: grandparents_lists_no_masks [nullPointerOutOfMemory]
        free(grandparents_lists_no_masks[iterate]);
             ^
Incoherent_validation.c:15112:41: note: Assuming allocation function fails
    grandparents_lists_no_masks = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                                        ^
Incoherent_validation.c:15112:41: note: Assignment 'grandparents_lists_no_masks=malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*))', assigned value is 0
    grandparents_lists_no_masks = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                                        ^
Incoherent_validation.c:15181:14: note: Null pointer dereference
        free(grandparents_lists_no_masks[iterate]);
             ^
Incoherent_validation.c:15184:13: warning: If memory allocation fails, then there is a possible null pointer dereference: true_grandparents_lists_no_masks [nullPointerOutOfMemory]
        if (true_grandparents_lists_no_masks[iterate]->num_elements > 0) free(true_grandparents_lists_no_masks[iterate]->elements);
            ^
Incoherent_validation.c:15121:46: note: Assuming allocation function fails
    true_grandparents_lists_no_masks = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                                             ^
Incoherent_validation.c:15121:46: note: Assignment 'true_grandparents_lists_no_masks=malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*))', assigned value is 0
    true_grandparents_lists_no_masks = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                                             ^
Incoherent_validation.c:15184:13: note: Null pointer dereference
        if (true_grandparents_lists_no_masks[iterate]->num_elements > 0) free(true_grandparents_lists_no_masks[iterate]->elements);
            ^
Incoherent_validation.c:15185:14: warning: If memory allocation fails, then there is a possible null pointer dereference: true_grandparents_lists_no_masks [nullPointerOutOfMemory]
        free(true_grandparents_lists_no_masks[iterate]);
             ^
Incoherent_validation.c:15121:46: note: Assuming allocation function fails
    true_grandparents_lists_no_masks = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                                             ^
Incoherent_validation.c:15121:46: note: Assignment 'true_grandparents_lists_no_masks=malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*))', assigned value is 0
    true_grandparents_lists_no_masks = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                                             ^
Incoherent_validation.c:15185:14: note: Null pointer dereference
        free(true_grandparents_lists_no_masks[iterate]);
             ^
Incoherent_validation.c:15188:13: warning: If memory allocation fails, then there is a possible null pointer dereference: true_children_lists [nullPointerOutOfMemory]
        if (true_children_lists[iterate]->num_elements > 0) free(true_children_lists[iterate]->elements);
            ^
Incoherent_validation.c:15068:33: note: Assuming allocation function fails
    true_children_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                                ^
Incoherent_validation.c:15068:33: note: Assignment 'true_children_lists=malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*))', assigned value is 0
    true_children_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                                ^
Incoherent_validation.c:15188:13: note: Null pointer dereference
        if (true_children_lists[iterate]->num_elements > 0) free(true_children_lists[iterate]->elements);
            ^
Incoherent_validation.c:15189:14: warning: If memory allocation fails, then there is a possible null pointer dereference: true_children_lists [nullPointerOutOfMemory]
        free(true_children_lists[iterate]);
             ^
Incoherent_validation.c:15068:33: note: Assuming allocation function fails
    true_children_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                                ^
Incoherent_validation.c:15068:33: note: Assignment 'true_children_lists=malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*))', assigned value is 0
    true_children_lists = malloc(number_of_volumes*sizeof(struct pointer_to_1d_int_list*));
                                ^
Incoherent_validation.c:15189:14: note: Null pointer dereference
        free(true_children_lists[iterate]);
             ^
Incoherent_validation.c:15377:11: warning: If resource allocation fails, then there is a possible null pointer dereference: fp [nullPointerOutOfResources]
  fprintf(fp,"r_old x, r_old y, r_old z, old t, r x, r y, r z, new t, weight change, volume index, neutron id \n");
          ^
Incoherent_validation.c:15376:13: note: Assuming allocation function fails
  fp = fopen("Union_absorption.dat","w");
            ^
Incoherent_validation.c:15376:13: note: Assignment 'fp=fopen("Union_absorption.dat","w")', assigned value is 0
  fp = fopen("Union_absorption.dat","w");
            ^
Incoherent_validation.c:15377:11: note: Null pointer dereference
  fprintf(fp,"r_old x, r_old y, r_old z, old t, r x, r y, r z, new t, weight change, volume index, neutron id \n");
          ^
Incoherent_validation.c:15379:10: warning: If resource allocation fails, then there is a possible null pointer dereference: fp [nullPointerOutOfResources]
  fclose(fp);
         ^
Incoherent_validation.c:15376:13: note: Assuming allocation function fails
  fp = fopen("Union_absorption.dat","w");
            ^
Incoherent_validation.c:15376:13: note: Assignment 'fp=fopen("Union_absorption.dat","w")', assigned value is 0
  fp = fopen("Union_absorption.dat","w");
            ^
Incoherent_validation.c:15379:10: note: Null pointer dereference
  fclose(fp);
         ^
Incoherent_validation.c:15392:13: warning: If resource allocation fails, then there is a possible null pointer dereference: fp [nullPointerOutOfResources]
    fprintf(fp,"%g, %g, %g, %g, %g, %g, %g, %g, %e, %i, %i \n",
            ^
Incoherent_validation.c:15385:13: note: Assuming allocation function fails
  fp = fopen("Union_absorption.dat","a");
            ^
Incoherent_validation.c:15385:13: note: Assignment 'fp=fopen("Union_absorption.dat","a")', assigned value is 0
  fp = fopen("Union_absorption.dat","a");
            ^
Incoherent_validation.c:15392:13: note: Null pointer dereference
    fprintf(fp,"%g, %g, %g, %g, %g, %g, %g, %g, %e, %i, %i \n",
            ^
Incoherent_validation.c:15400:10: warning: If resource allocation fails, then there is a possible null pointer dereference: fp [nullPointerOutOfResources]
  fclose(fp);
         ^
Incoherent_validation.c:15385:13: note: Assuming allocation function fails
  fp = fopen("Union_absorption.dat","a");
            ^
Incoherent_validation.c:15385:13: note: Assignment 'fp=fopen("Union_absorption.dat","a")', assigned value is 0
  fp = fopen("Union_absorption.dat","a");
            ^
Incoherent_validation.c:15400:10: note: Null pointer dereference
  fclose(fp);
         ^
Incoherent_validation.c:9008:12: warning: Uninitialized variable: draw_order.lines [uninitvar]
    return draw_order;
           ^
Incoherent_validation.c:8992:36: note: Assuming condition is false
    if (draw_order.number_of_lines > 0) {
                                   ^
Incoherent_validation.c:9008:12: note: Uninitialized variable: draw_order.lines
    return draw_order;
           ^
Incoherent_validation.c:12467:66: error: Uninitialized variable: square_center [uninitvar]
    Coords box_end_point = coords_sub(coords_set(0,0,-z_depth/2),square_center);
                                                                 ^
Incoherent_validation.c:13340:25: error: Uninitialized variable: temp_pointer [uninitvar]
                ListA = temp_pointer;
                        ^
Incoherent_validation.c:14691:79: warning: Uninitialized variable: logic_list.elements [uninitvar]
    Volumes[N_volume]->geometry.destinations_list.num_elements = sum_int_list(logic_list);
                                                                              ^
Incoherent_validation.c:14674:32: note: Assuming condition is false
    if (logic_list.num_elements>0) logic_list.elements = malloc(logic_list.num_elements*sizeof(int));
                               ^
Incoherent_validation.c:14691:79: note: Uninitialized variable: logic_list.elements
    Volumes[N_volume]->geometry.destinations_list.num_elements = sum_int_list(logic_list);
                                                                              ^
Incoherent_validation.c:12467:66: error: Uninitialized struct member: square_center.x [uninitStructMember]
    Coords box_end_point = coords_sub(coords_set(0,0,-z_depth/2),square_center);
                                                                 ^
Incoherent_validation.c:12467:66: error: Uninitialized struct member: square_center.y [uninitStructMember]
    Coords box_end_point = coords_sub(coords_set(0,0,-z_depth/2),square_center);
                                                                 ^
Incoherent_validation.c:12467:66: error: Uninitialized struct member: square_center.z [uninitStructMember]
    Coords box_end_point = coords_sub(coords_set(0,0,-z_depth/2),square_center);
                                                                 ^
Checking Incoherent_validation.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;MULTICORE...
Checking Incoherent_validation.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;OFF_LEGACY...
Checking Incoherent_validation.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;PROCESS_AF_HB_1D_DETECTOR...
Checking Incoherent_validation.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;PROCESS_INCOHERENTPHONON_DETECTOR...
Checking Incoherent_validation.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;PROCESS_NCRYSTAL_DETECTOR...
Checking Incoherent_validation.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;PROCESS_PHONONSIMPLE_DETECTOR...
Checking Incoherent_validation.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;PROCESS_POWDER_DETECTOR...
Checking Incoherent_validation.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;PROCESS_SINGLE_CRYSTAL_DETECTOR...
Checking Incoherent_validation.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;PROCESS_TEMPLATE_DETECTOR...
Checking Incoherent_validation.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;PROCESS_TEXTURE_DETECTOR...
Checking Incoherent_validation.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 Incoherent_validation.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 Incoherent_validation.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 Incoherent_validation.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 Incoherent_validation.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;Union_trace_verbal_setting...
Incoherent_validation.c:26191:17: error: printf format string requires 2 parameters but only 1 is given. [wrongPrintfScanfArgNum]
                printf("chance to get through this length of absorber: %f \%\n", 100*exp(-Volumes[current_volume]->p_physics->my_a*length_to_boundery));
                ^
Checking Incoherent_validation.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 Incoherent_validation.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 Incoherent_validation.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 Incoherent_validation.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 Incoherent_validation.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 Incoherent_validation.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 ./Incoherent_validation.c