Fix MPICH on Linux by handling array arguments correctly

libsrc/core/generate_mpi_sources.py

@@ -32,13 +32,13 @@ functions = [
         ("int", "MPI_Type_commit", "MPI_Datatype*"),
         ("int", "MPI_Type_contiguous", "int", "MPI_Datatype", "MPI_Datatype*"),
         ("int", "MPI_Type_create_resized", "MPI_Datatype", "MPI_Aint", "MPI_Aint", "MPI_Datatype*"),
-        ("int", "MPI_Type_create_struct", "int", "int*", "MPI_Aint*", "MPI_Datatype*", "MPI_Datatype*"),
+        ("int", "MPI_Type_create_struct", "int", "int*:0", "MPI_Aint*:0", "MPI_Datatype*:0", "MPI_Datatype*"),
         ("int", "MPI_Type_free", "MPI_Datatype*"),
         ("int", "MPI_Type_get_extent", "MPI_Datatype", "MPI_Aint*", "MPI_Aint*"),
-        ("int", "MPI_Type_indexed", "int", "int*", "int*", "MPI_Datatype", "MPI_Datatype*"),
+        ("int", "MPI_Type_indexed", "int", "int*:0", "int*:0", "MPI_Datatype", "MPI_Datatype*"),
         ("int", "MPI_Wait", "MPI_Request*", "MPI_Status*"),
-        ("int", "MPI_Waitall", "int", "MPI_Request*", "MPI_Status*"),
+        ("int", "MPI_Waitall", "int", "MPI_Request*:0", "MPI_Status*"),
-        ("int", "MPI_Waitany", "int", "MPI_Request*", "int*", "MPI_Status*"),
+        ("int", "MPI_Waitany", "int", "MPI_Request*:0", "int*", "MPI_Status*"),
         ]
 
 constants = [
@@ -69,8 +69,23 @@ constants = [
         ("void*", "MPI_IN_PLACE"),
 ]
 
-def get_args(f):
+def get_args(f, counts=False):
-    return ["NG_"+a if a.startswith("MPI_") else a for a in f[2:]]
+    args = []
+    for arg in f[2:]:
+        has_count = ':' in arg
+        if has_count:
+            s, count = arg.split(':')
+            count = int(count)
+        else:
+            s = arg
+            count = None
+        if s.startswith("MPI_"):
+            s = "NG_" + s
+        if counts:
+            args.append((s, count))
+        else:
+            args.append(s)
+    return args
 
 def generate_declarations():
     code = ""
@@ -109,15 +124,24 @@ def generate_init():
     for f in functions:
         ret = f[0]
         name = f[1]
-        args = get_args(f)
+        args = get_args(f, counts=True)
         in_args  =''
         call_args = ''
-        for i, a in enumerate(args):
+        for i in range(len(args)):
+            arg, count = args[i]
             if i > 0:
                 in_args += ', '
                 call_args += ', '
-            in_args += a + f" arg{i}"
+            in_args += arg + f" arg{i}"
-            call_args += f" ng2mpi(arg{i})"
+            if not arg.startswith("NG_"):
+                # plain type (like int, int *, etc.), just pass the argument along
+                call_args += f" arg{i}"
+            elif count is None:
+                # MPI type (by value or pointer), but just one object, no arrays
+                call_args += f" ng2mpi(arg{i})"
+            else:
+                # arrays of MPI types, we need to copy them due to incompatible size
+                call_args += f" ng2mpi(arg{i}, arg{count})"
         code += f"NG_{name} = []({in_args})->{ret} {{ return {name}({call_args}); }};\n"
 
     for _, name in constants:

libsrc/core/ng_mpi.cpp

@@ -33,6 +33,20 @@ NG_MPI_Status* mpi2ng(MPI_Status* status) {
 NG_MPI_Comm mpi2ng(MPI_Comm comm) { return reinterpret_cast<uintptr_t>(comm); }
 #endif
 
+template <size_t size, size_t stride>
+void gather_strided_array(size_t count, char* data) {
+  static_assert(size <= stride, "Size must be less than or equal to stride");
+  if constexpr (size < stride) {
+    char* dst = data;
+    char* src = data;
+    for (auto i : Range(count)) {
+      memcpy(dst, src, size);
+      dst += size;
+      src += stride;
+    }
+  }
+}
+
 template <typename T>
 T cast_ng2mpi(uintptr_t obj) {
   if constexpr (std::is_pointer_v<T>)
@@ -49,6 +63,13 @@ T cast_ng2mpi(uintptr_t* ptr) {
     return static_cast<T>(ptr);
 }
 
+template <typename T, typename TSrc>
+T* cast_ng2mpi(TSrc* ptr, int count) {
+  gather_strided_array<sizeof(T), sizeof(TSrc)>(count,
+                                                reinterpret_cast<char*>(ptr));
+  return reinterpret_cast<T*>(ptr);
+}
+
 MPI_Comm ng2mpi(NG_MPI_Comm comm) {
   static_assert(sizeof(MPI_Comm) <= sizeof(comm.value), "Size mismatch");
   static_assert(alignof(MPI_Comm) <= alignof(NG_MPI_Comm), "Size mismatch");
@@ -70,15 +91,24 @@ MPI_Group* ng2mpi(NG_MPI_Group* group) {
 MPI_Datatype* ng2mpi(NG_MPI_Datatype* type) {
   return cast_ng2mpi<MPI_Datatype*>(&type->value);
 }
+MPI_Datatype* ng2mpi(NG_MPI_Datatype* type, int count) {
+  return cast_ng2mpi<MPI_Datatype>(&type->value, count);
+}
 MPI_Request* ng2mpi(NG_MPI_Request* request) {
   return cast_ng2mpi<MPI_Request*>(&request->value);
 }
+MPI_Request* ng2mpi(NG_MPI_Request* request, int count) {
+  return cast_ng2mpi<MPI_Request>(&request->value, count);
+}
 MPI_Status* ng2mpi(NG_MPI_Status* status) {
   return reinterpret_cast<MPI_Status*>(status);
 }
 MPI_Aint* ng2mpi(NG_MPI_Aint* aint) {
   return reinterpret_cast<MPI_Aint*>(aint);
 }
+MPI_Aint* ng2mpi(NG_MPI_Aint* aint, int count) {
+  return cast_ng2mpi<MPI_Aint>(aint, count);
+}
 
 MPI_Datatype ng2mpi(NG_MPI_Datatype type) {
   static_assert(sizeof(MPI_Datatype) <= sizeof(type.value), "Size mismatch");

libsrc/core/ng_mpi_generated_init.hpp

@@ -1,43 +1,43 @@
 NG_MPI_Wtime = []()->double { return MPI_Wtime(); };
-NG_MPI_Allgather = [](void* arg0, int arg1, NG_MPI_Datatype arg2, void* arg3, int arg4, NG_MPI_Datatype arg5, NG_MPI_Comm arg6)->int { return MPI_Allgather( ng2mpi(arg0),  ng2mpi(arg1),  ng2mpi(arg2),  ng2mpi(arg3),  ng2mpi(arg4),  ng2mpi(arg5),  ng2mpi(arg6)); };
+NG_MPI_Allgather = [](void* arg0, int arg1, NG_MPI_Datatype arg2, void* arg3, int arg4, NG_MPI_Datatype arg5, NG_MPI_Comm arg6)->int { return MPI_Allgather( arg0,  arg1,  ng2mpi(arg2),  arg3,  arg4,  ng2mpi(arg5),  ng2mpi(arg6)); };
-NG_MPI_Allreduce = [](void* arg0, void* arg1, int arg2, NG_MPI_Datatype arg3, NG_MPI_Op arg4, NG_MPI_Comm arg5)->int { return MPI_Allreduce( ng2mpi(arg0),  ng2mpi(arg1),  ng2mpi(arg2),  ng2mpi(arg3),  ng2mpi(arg4),  ng2mpi(arg5)); };
+NG_MPI_Allreduce = [](void* arg0, void* arg1, int arg2, NG_MPI_Datatype arg3, NG_MPI_Op arg4, NG_MPI_Comm arg5)->int { return MPI_Allreduce( arg0,  arg1,  arg2,  ng2mpi(arg3),  ng2mpi(arg4),  ng2mpi(arg5)); };
-NG_MPI_Alltoall = [](void* arg0, int arg1, NG_MPI_Datatype arg2, void* arg3, int arg4, NG_MPI_Datatype arg5, NG_MPI_Comm arg6)->int { return MPI_Alltoall( ng2mpi(arg0),  ng2mpi(arg1),  ng2mpi(arg2),  ng2mpi(arg3),  ng2mpi(arg4),  ng2mpi(arg5),  ng2mpi(arg6)); };
+NG_MPI_Alltoall = [](void* arg0, int arg1, NG_MPI_Datatype arg2, void* arg3, int arg4, NG_MPI_Datatype arg5, NG_MPI_Comm arg6)->int { return MPI_Alltoall( arg0,  arg1,  ng2mpi(arg2),  arg3,  arg4,  ng2mpi(arg5),  ng2mpi(arg6)); };
 NG_MPI_Barrier = [](NG_MPI_Comm arg0)->int { return MPI_Barrier( ng2mpi(arg0)); };
-NG_MPI_Bcast = [](void* arg0, int arg1, NG_MPI_Datatype arg2, int arg3, NG_MPI_Comm arg4)->int { return MPI_Bcast( ng2mpi(arg0),  ng2mpi(arg1),  ng2mpi(arg2),  ng2mpi(arg3),  ng2mpi(arg4)); };
+NG_MPI_Bcast = [](void* arg0, int arg1, NG_MPI_Datatype arg2, int arg3, NG_MPI_Comm arg4)->int { return MPI_Bcast( arg0,  arg1,  ng2mpi(arg2),  arg3,  ng2mpi(arg4)); };
-NG_MPI_Comm_create_group = [](NG_MPI_Comm arg0, NG_MPI_Group arg1, int arg2, NG_MPI_Comm* arg3)->int { return MPI_Comm_create_group( ng2mpi(arg0),  ng2mpi(arg1),  ng2mpi(arg2),  ng2mpi(arg3)); };
+NG_MPI_Comm_create_group = [](NG_MPI_Comm arg0, NG_MPI_Group arg1, int arg2, NG_MPI_Comm* arg3)->int { return MPI_Comm_create_group( ng2mpi(arg0),  ng2mpi(arg1),  arg2,  ng2mpi(arg3)); };
 NG_MPI_Comm_free = [](NG_MPI_Comm* arg0)->int { return MPI_Comm_free( ng2mpi(arg0)); };
 NG_MPI_Comm_group = [](NG_MPI_Comm arg0, NG_MPI_Group* arg1)->int { return MPI_Comm_group( ng2mpi(arg0),  ng2mpi(arg1)); };
-NG_MPI_Comm_rank = [](NG_MPI_Comm arg0, int* arg1)->int { return MPI_Comm_rank( ng2mpi(arg0),  ng2mpi(arg1)); };
+NG_MPI_Comm_rank = [](NG_MPI_Comm arg0, int* arg1)->int { return MPI_Comm_rank( ng2mpi(arg0),  arg1); };
-NG_MPI_Comm_size = [](NG_MPI_Comm arg0, int* arg1)->int { return MPI_Comm_size( ng2mpi(arg0),  ng2mpi(arg1)); };
+NG_MPI_Comm_size = [](NG_MPI_Comm arg0, int* arg1)->int { return MPI_Comm_size( ng2mpi(arg0),  arg1); };
 NG_MPI_Finalize = []()->int { return MPI_Finalize(); };
-NG_MPI_Gather = [](void* arg0, int arg1, NG_MPI_Datatype arg2, void* arg3, int arg4, NG_MPI_Datatype arg5, int arg6, NG_MPI_Comm arg7)->int { return MPI_Gather( ng2mpi(arg0),  ng2mpi(arg1),  ng2mpi(arg2),  ng2mpi(arg3),  ng2mpi(arg4),  ng2mpi(arg5),  ng2mpi(arg6),  ng2mpi(arg7)); };
+NG_MPI_Gather = [](void* arg0, int arg1, NG_MPI_Datatype arg2, void* arg3, int arg4, NG_MPI_Datatype arg5, int arg6, NG_MPI_Comm arg7)->int { return MPI_Gather( arg0,  arg1,  ng2mpi(arg2),  arg3,  arg4,  ng2mpi(arg5),  arg6,  ng2mpi(arg7)); };
-NG_MPI_Get_count = [](NG_MPI_Status* arg0, NG_MPI_Datatype arg1, int* arg2)->int { return MPI_Get_count( ng2mpi(arg0),  ng2mpi(arg1),  ng2mpi(arg2)); };
+NG_MPI_Get_count = [](NG_MPI_Status* arg0, NG_MPI_Datatype arg1, int* arg2)->int { return MPI_Get_count( ng2mpi(arg0),  ng2mpi(arg1),  arg2); };
-NG_MPI_Get_processor_name = [](char* arg0, int* arg1)->int { return MPI_Get_processor_name( ng2mpi(arg0),  ng2mpi(arg1)); };
+NG_MPI_Get_processor_name = [](char* arg0, int* arg1)->int { return MPI_Get_processor_name( arg0,  arg1); };
-NG_MPI_Group_incl = [](NG_MPI_Group arg0, int arg1, int* arg2, NG_MPI_Group* arg3)->int { return MPI_Group_incl( ng2mpi(arg0),  ng2mpi(arg1),  ng2mpi(arg2),  ng2mpi(arg3)); };
+NG_MPI_Group_incl = [](NG_MPI_Group arg0, int arg1, int* arg2, NG_MPI_Group* arg3)->int { return MPI_Group_incl( ng2mpi(arg0),  arg1,  arg2,  ng2mpi(arg3)); };
-NG_MPI_Init = [](int* arg0, char*** arg1)->int { return MPI_Init( ng2mpi(arg0),  ng2mpi(arg1)); };
+NG_MPI_Init = [](int* arg0, char*** arg1)->int { return MPI_Init( arg0,  arg1); };
-NG_MPI_Init_thread = [](int* arg0, char*** arg1, int arg2, int* arg3)->int { return MPI_Init_thread( ng2mpi(arg0),  ng2mpi(arg1),  ng2mpi(arg2),  ng2mpi(arg3)); };
+NG_MPI_Init_thread = [](int* arg0, char*** arg1, int arg2, int* arg3)->int { return MPI_Init_thread( arg0,  arg1,  arg2,  arg3); };
-NG_MPI_Initialized = [](int* arg0)->int { return MPI_Initialized( ng2mpi(arg0)); };
+NG_MPI_Initialized = [](int* arg0)->int { return MPI_Initialized( arg0); };
-NG_MPI_Iprobe = [](int arg0, int arg1, NG_MPI_Comm arg2, int* arg3, NG_MPI_Status* arg4)->int { return MPI_Iprobe( ng2mpi(arg0),  ng2mpi(arg1),  ng2mpi(arg2),  ng2mpi(arg3),  ng2mpi(arg4)); };
+NG_MPI_Iprobe = [](int arg0, int arg1, NG_MPI_Comm arg2, int* arg3, NG_MPI_Status* arg4)->int { return MPI_Iprobe( arg0,  arg1,  ng2mpi(arg2),  arg3,  ng2mpi(arg4)); };
-NG_MPI_Irecv = [](void* arg0, int arg1, NG_MPI_Datatype arg2, int arg3, int arg4, NG_MPI_Comm arg5, NG_MPI_Request* arg6)->int { return MPI_Irecv( ng2mpi(arg0),  ng2mpi(arg1),  ng2mpi(arg2),  ng2mpi(arg3),  ng2mpi(arg4),  ng2mpi(arg5),  ng2mpi(arg6)); };
+NG_MPI_Irecv = [](void* arg0, int arg1, NG_MPI_Datatype arg2, int arg3, int arg4, NG_MPI_Comm arg5, NG_MPI_Request* arg6)->int { return MPI_Irecv( arg0,  arg1,  ng2mpi(arg2),  arg3,  arg4,  ng2mpi(arg5),  ng2mpi(arg6)); };
-NG_MPI_Isend = [](void* arg0, int arg1, NG_MPI_Datatype arg2, int arg3, int arg4, NG_MPI_Comm arg5, NG_MPI_Request* arg6)->int { return MPI_Isend( ng2mpi(arg0),  ng2mpi(arg1),  ng2mpi(arg2),  ng2mpi(arg3),  ng2mpi(arg4),  ng2mpi(arg5),  ng2mpi(arg6)); };
+NG_MPI_Isend = [](void* arg0, int arg1, NG_MPI_Datatype arg2, int arg3, int arg4, NG_MPI_Comm arg5, NG_MPI_Request* arg6)->int { return MPI_Isend( arg0,  arg1,  ng2mpi(arg2),  arg3,  arg4,  ng2mpi(arg5),  ng2mpi(arg6)); };
-NG_MPI_Probe = [](int arg0, int arg1, NG_MPI_Comm arg2, NG_MPI_Status* arg3)->int { return MPI_Probe( ng2mpi(arg0),  ng2mpi(arg1),  ng2mpi(arg2),  ng2mpi(arg3)); };
+NG_MPI_Probe = [](int arg0, int arg1, NG_MPI_Comm arg2, NG_MPI_Status* arg3)->int { return MPI_Probe( arg0,  arg1,  ng2mpi(arg2),  ng2mpi(arg3)); };
-NG_MPI_Query_thread = [](int* arg0)->int { return MPI_Query_thread( ng2mpi(arg0)); };
+NG_MPI_Query_thread = [](int* arg0)->int { return MPI_Query_thread( arg0); };
-NG_MPI_Recv = [](void* arg0, int arg1, NG_MPI_Datatype arg2, int arg3, int arg4, NG_MPI_Comm arg5, NG_MPI_Status* arg6)->int { return MPI_Recv( ng2mpi(arg0),  ng2mpi(arg1),  ng2mpi(arg2),  ng2mpi(arg3),  ng2mpi(arg4),  ng2mpi(arg5),  ng2mpi(arg6)); };
+NG_MPI_Recv = [](void* arg0, int arg1, NG_MPI_Datatype arg2, int arg3, int arg4, NG_MPI_Comm arg5, NG_MPI_Status* arg6)->int { return MPI_Recv( arg0,  arg1,  ng2mpi(arg2),  arg3,  arg4,  ng2mpi(arg5),  ng2mpi(arg6)); };
-NG_MPI_Reduce = [](void* arg0, void* arg1, int arg2, NG_MPI_Datatype arg3, NG_MPI_Op arg4, int arg5, NG_MPI_Comm arg6)->int { return MPI_Reduce( ng2mpi(arg0),  ng2mpi(arg1),  ng2mpi(arg2),  ng2mpi(arg3),  ng2mpi(arg4),  ng2mpi(arg5),  ng2mpi(arg6)); };
+NG_MPI_Reduce = [](void* arg0, void* arg1, int arg2, NG_MPI_Datatype arg3, NG_MPI_Op arg4, int arg5, NG_MPI_Comm arg6)->int { return MPI_Reduce( arg0,  arg1,  arg2,  ng2mpi(arg3),  ng2mpi(arg4),  arg5,  ng2mpi(arg6)); };
-NG_MPI_Reduce_local = [](void* arg0, void* arg1, int arg2, NG_MPI_Datatype arg3, NG_MPI_Op arg4)->int { return MPI_Reduce_local( ng2mpi(arg0),  ng2mpi(arg1),  ng2mpi(arg2),  ng2mpi(arg3),  ng2mpi(arg4)); };
+NG_MPI_Reduce_local = [](void* arg0, void* arg1, int arg2, NG_MPI_Datatype arg3, NG_MPI_Op arg4)->int { return MPI_Reduce_local( arg0,  arg1,  arg2,  ng2mpi(arg3),  ng2mpi(arg4)); };
 NG_MPI_Request_free = [](NG_MPI_Request* arg0)->int { return MPI_Request_free( ng2mpi(arg0)); };
-NG_MPI_Scatter = [](void* arg0, int arg1, NG_MPI_Datatype arg2, void* arg3, int arg4, NG_MPI_Datatype arg5, int arg6, NG_MPI_Comm arg7)->int { return MPI_Scatter( ng2mpi(arg0),  ng2mpi(arg1),  ng2mpi(arg2),  ng2mpi(arg3),  ng2mpi(arg4),  ng2mpi(arg5),  ng2mpi(arg6),  ng2mpi(arg7)); };
+NG_MPI_Scatter = [](void* arg0, int arg1, NG_MPI_Datatype arg2, void* arg3, int arg4, NG_MPI_Datatype arg5, int arg6, NG_MPI_Comm arg7)->int { return MPI_Scatter( arg0,  arg1,  ng2mpi(arg2),  arg3,  arg4,  ng2mpi(arg5),  arg6,  ng2mpi(arg7)); };
-NG_MPI_Send = [](void* arg0, int arg1, NG_MPI_Datatype arg2, int arg3, int arg4, NG_MPI_Comm arg5)->int { return MPI_Send( ng2mpi(arg0),  ng2mpi(arg1),  ng2mpi(arg2),  ng2mpi(arg3),  ng2mpi(arg4),  ng2mpi(arg5)); };
+NG_MPI_Send = [](void* arg0, int arg1, NG_MPI_Datatype arg2, int arg3, int arg4, NG_MPI_Comm arg5)->int { return MPI_Send( arg0,  arg1,  ng2mpi(arg2),  arg3,  arg4,  ng2mpi(arg5)); };
 NG_MPI_Type_commit = [](NG_MPI_Datatype* arg0)->int { return MPI_Type_commit( ng2mpi(arg0)); };
-NG_MPI_Type_contiguous = [](int arg0, NG_MPI_Datatype arg1, NG_MPI_Datatype* arg2)->int { return MPI_Type_contiguous( ng2mpi(arg0),  ng2mpi(arg1),  ng2mpi(arg2)); };
+NG_MPI_Type_contiguous = [](int arg0, NG_MPI_Datatype arg1, NG_MPI_Datatype* arg2)->int { return MPI_Type_contiguous( arg0,  ng2mpi(arg1),  ng2mpi(arg2)); };
 NG_MPI_Type_create_resized = [](NG_MPI_Datatype arg0, NG_MPI_Aint arg1, NG_MPI_Aint arg2, NG_MPI_Datatype* arg3)->int { return MPI_Type_create_resized( ng2mpi(arg0),  ng2mpi(arg1),  ng2mpi(arg2),  ng2mpi(arg3)); };
-NG_MPI_Type_create_struct = [](int arg0, int* arg1, NG_MPI_Aint* arg2, NG_MPI_Datatype* arg3, NG_MPI_Datatype* arg4)->int { return MPI_Type_create_struct( ng2mpi(arg0),  ng2mpi(arg1),  ng2mpi(arg2),  ng2mpi(arg3),  ng2mpi(arg4)); };
+NG_MPI_Type_create_struct = [](int arg0, int* arg1, NG_MPI_Aint* arg2, NG_MPI_Datatype* arg3, NG_MPI_Datatype* arg4)->int { return MPI_Type_create_struct( arg0,  arg1,  ng2mpi(arg2, arg0),  ng2mpi(arg3, arg0),  ng2mpi(arg4)); };
 NG_MPI_Type_free = [](NG_MPI_Datatype* arg0)->int { return MPI_Type_free( ng2mpi(arg0)); };
 NG_MPI_Type_get_extent = [](NG_MPI_Datatype arg0, NG_MPI_Aint* arg1, NG_MPI_Aint* arg2)->int { return MPI_Type_get_extent( ng2mpi(arg0),  ng2mpi(arg1),  ng2mpi(arg2)); };
-NG_MPI_Type_indexed = [](int arg0, int* arg1, int* arg2, NG_MPI_Datatype arg3, NG_MPI_Datatype* arg4)->int { return MPI_Type_indexed( ng2mpi(arg0),  ng2mpi(arg1),  ng2mpi(arg2),  ng2mpi(arg3),  ng2mpi(arg4)); };
+NG_MPI_Type_indexed = [](int arg0, int* arg1, int* arg2, NG_MPI_Datatype arg3, NG_MPI_Datatype* arg4)->int { return MPI_Type_indexed( arg0,  arg1,  arg2,  ng2mpi(arg3),  ng2mpi(arg4)); };
 NG_MPI_Wait = [](NG_MPI_Request* arg0, NG_MPI_Status* arg1)->int { return MPI_Wait( ng2mpi(arg0),  ng2mpi(arg1)); };
-NG_MPI_Waitall = [](int arg0, NG_MPI_Request* arg1, NG_MPI_Status* arg2)->int { return MPI_Waitall( ng2mpi(arg0),  ng2mpi(arg1),  ng2mpi(arg2)); };
+NG_MPI_Waitall = [](int arg0, NG_MPI_Request* arg1, NG_MPI_Status* arg2)->int { return MPI_Waitall( arg0,  ng2mpi(arg1, arg0),  ng2mpi(arg2)); };
-NG_MPI_Waitany = [](int arg0, NG_MPI_Request* arg1, int* arg2, NG_MPI_Status* arg3)->int { return MPI_Waitany( ng2mpi(arg0),  ng2mpi(arg1),  ng2mpi(arg2),  ng2mpi(arg3)); };
+NG_MPI_Waitany = [](int arg0, NG_MPI_Request* arg1, int* arg2, NG_MPI_Status* arg3)->int { return MPI_Waitany( arg0,  ng2mpi(arg1, arg0),  arg2,  ng2mpi(arg3)); };
 NG_MPI_COMM_WORLD = mpi2ng(MPI_COMM_WORLD);
 NG_MPI_CHAR = mpi2ng(MPI_CHAR);
 NG_MPI_CXX_DOUBLE_COMPLEX = mpi2ng(MPI_CXX_DOUBLE_COMPLEX);