static void require_valid_table(const mesh& Mesh, const string_t& Name, const table& Table) { if(Name == "constant" && Table.column_count() && Table.row_count() != 1) throw std::runtime_error("'constant' table must have length 1."); for(mesh::table_t::const_iterator array_iterator = Table.begin(); array_iterator != Table.end(); ++array_iterator) { const array* const current_array = array_iterator->second.get(); if(!current_array) throw std::runtime_error("NULL table array."); const array* const first_array = Table.begin()->second.get(); if(current_array->size() != first_array->size()) throw std::runtime_error("Array length mismatch for table [" + Name + "]"); if(current_array->get_metadata_value(metadata::key::domain()) == metadata::value::point_indices_domain()) { if(!Mesh.points) throw std::runtime_error("Mesh missing points array."); if(!Mesh.point_selection) throw std::runtime_error("Mesh missing point selections array."); require_valid_points(Mesh); const mesh::indices_t* const indices = dynamic_cast<const mesh::indices_t*>(current_array); if(!indices) throw std::runtime_error("Point indices array must be an index type."); const mesh::indices_t::const_iterator max = std::max_element(indices->begin(), indices->end()); if(max != indices->end() && *max >= Mesh.points->size()) throw std::runtime_error("Point indices array out-of-bounds."); } } }
void require_table_row_count(const mesh::primitive& Primitive, const table& Table, const string_t& TableName, const uint_t RowCount) { if(TableName == "constant") throw std::runtime_error("'constant' tables are automatically tested, and must have length 1."); if(0 == Table.column_count()) return; if(Table.row_count() != RowCount) { std::ostringstream buffer; buffer << "[" << Primitive.type << "] table [" << TableName << "] incorrect length [" << Table.row_count() << "], expected [" << RowCount << "]"; throw std::runtime_error(buffer.str()); } }