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subgraph.cc
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/*!
* Copyright (c) 2020 by Contributors
* \file graph/subgraph.cc
* \brief Functions for extracting subgraphs.
*/
#include "./heterograph.h"
using namespace dgl::runtime;
namespace dgl {
HeteroSubgraph InEdgeGraph(const HeteroGraphPtr graph, const std::vector<IdArray>& vids) {
CHECK_EQ(vids.size(), graph->NumVertexTypes())
<< "Invalid input: the input list size must be the same as the number of vertex types.";
std::vector<HeteroGraphPtr> subrels(graph->NumEdgeTypes());
std::vector<IdArray> induced_edges(graph->NumEdgeTypes());
for (dgl_type_t etype = 0; etype < graph->NumEdgeTypes(); ++etype) {
auto pair = graph->meta_graph()->FindEdge(etype);
const dgl_type_t src_vtype = pair.first;
const dgl_type_t dst_vtype = pair.second;
auto relgraph = graph->GetRelationGraph(etype);
if (aten::IsNullArray(vids[dst_vtype])) {
// create a placeholder graph
subrels[etype] = UnitGraph::Empty(
relgraph->NumVertexTypes(),
graph->NumVertices(src_vtype),
graph->NumVertices(dst_vtype),
graph->DataType(), graph->Context());
induced_edges[etype] = IdArray::Empty({0}, graph->DataType(), graph->Context());
} else {
const auto& earr = graph->InEdges(etype, {vids[dst_vtype]});
subrels[etype] = UnitGraph::CreateFromCOO(
relgraph->NumVertexTypes(),
graph->NumVertices(src_vtype),
graph->NumVertices(dst_vtype),
earr.src,
earr.dst);
induced_edges[etype] = earr.id;
}
}
HeteroSubgraph ret;
ret.graph = CreateHeteroGraph(graph->meta_graph(), subrels, graph->NumVerticesPerType());
ret.induced_edges = std::move(induced_edges);
return ret;
}
HeteroSubgraph OutEdgeGraph(const HeteroGraphPtr graph, const std::vector<IdArray>& vids) {
CHECK_EQ(vids.size(), graph->NumVertexTypes())
<< "Invalid input: the input list size must be the same as the number of vertex types.";
std::vector<HeteroGraphPtr> subrels(graph->NumEdgeTypes());
std::vector<IdArray> induced_edges(graph->NumEdgeTypes());
for (dgl_type_t etype = 0; etype < graph->NumEdgeTypes(); ++etype) {
auto pair = graph->meta_graph()->FindEdge(etype);
const dgl_type_t src_vtype = pair.first;
const dgl_type_t dst_vtype = pair.second;
auto relgraph = graph->GetRelationGraph(etype);
if (aten::IsNullArray(vids[src_vtype])) {
// create a placeholder graph
subrels[etype] = UnitGraph::Empty(
relgraph->NumVertexTypes(),
graph->NumVertices(src_vtype),
graph->NumVertices(dst_vtype),
graph->DataType(), graph->Context());
induced_edges[etype] = IdArray::Empty({0}, graph->DataType(), graph->Context());
} else {
const auto& earr = graph->OutEdges(etype, {vids[src_vtype]});
subrels[etype] = UnitGraph::CreateFromCOO(
relgraph->NumVertexTypes(),
graph->NumVertices(src_vtype),
graph->NumVertices(dst_vtype),
earr.src,
earr.dst);
induced_edges[etype] = earr.id;
}
}
HeteroSubgraph ret;
ret.graph = CreateHeteroGraph(graph->meta_graph(), subrels, graph->NumVerticesPerType());
ret.induced_edges = std::move(induced_edges);
return ret;
}
} // namespace dgl