60 int main(
int argc,
char *argv[]) {
61 #ifdef HAVE_ZOLTAN2_MPI
62 MPI_Init(&argc, &argv);
64 MPI_Comm_size(MPI_COMM_WORLD, &nprocs);
65 MPI_Comm_rank(MPI_COMM_WORLD, &rank);
72 typedef Tpetra::Map<> Map_t;
73 typedef Map_t::local_ordinal_type localId_t;
74 typedef Map_t::global_ordinal_type globalId_t;
75 typedef Tpetra::Details::DefaultTypes::scalar_type scalar_t;
80 int localCount = 40*(rank+1);
81 int totalCount = 20*nprocs*(nprocs+1);
82 int targetCount = totalCount / nprocs;
83 globalId_t *globalIds =
new globalId_t[localCount];
86 for (
int i=0, num=40; i < nprocs ; i++, num+=40) {
87 std::cout <<
"Rank " << i <<
" generates " << num <<
" ids." << std::endl;
91 globalId_t offset = 0;
92 for (
int i=1; i <= rank; i++) {
96 for (
int i=0; i < localCount; i++) {
97 globalIds[i] = offset++;
109 std::vector<const scalar_t *> noWeights;
110 std::vector<int> noStrides;
112 inputAdapter_t ia(localCount, globalIds, noWeights, noStrides);
117 Teuchos::ParameterList params(
"test params");
118 params.set(
"debug_level",
"basic_status");
119 params.set(
"debug_procs",
"0");
120 params.set(
"error_check_level",
"debug_mode_assertions");
122 params.set(
"algorithm",
"block");
123 params.set(
"imbalance_tolerance", 1.1);
124 params.set(
"num_global_parts", nprocs);
141 const globalId_t *ids = NULL;
143 std::vector<int> partCounts(nprocs, 0), globalPartCounts(nprocs, 0);
145 for (
size_t i = 0; i < ia.getLocalNumIDs(); i++) {
146 int pp = problem->
getSolution().getPartListView()[i];
147 std::cout << rank <<
" LID " << i <<
" GID " << ids[i]
148 <<
" PART " << pp << std::endl;
152 #ifdef HAVE_ZOLTAN2_MPI
153 MPI_Allreduce(&(partCounts[0]), &(globalPartCounts[0]), nprocs,
154 MPI_INT, MPI_SUM, MPI_COMM_WORLD);
156 for (
int i = 0; i < nprocs; i++) globalPartCounts[i] = partCounts[i];
161 for (
int i = 0; i < nprocs; i++) {
162 if (globalPartCounts[i] != targetCount) {
163 std::cout <<
"FAIL: part " << i <<
" has " << globalPartCounts[i]
164 <<
" != " << targetCount <<
"; " << ++ierr <<
" errors"
169 std::cout <<
"PASS" << std::endl;
175 #ifdef HAVE_ZOLTAN2_MPI
int main(int narg, char *arg[])
A simple class that can be the User template argument for an InputAdapter.
Defines the PartitioningSolution class.
This class represents a collection of global Identifiers and their associated weights, if any.
Defines the BasicIdentifierAdapter class.
const PartitioningSolution< Adapter > & getSolution()
Get the solution to the problem.
PartitioningProblem sets up partitioning problems for the user.
Defines the PartitioningProblem class.
void solve(bool updateInputData=true)
Direct the problem to create a solution.