/* * Licensed to the Apache Software Foundation (ASF) under one * or more contributor license agreements. See the NOTICE file * distributed with this work for additional information * regarding copyright ownership. The ASF licenses this file * to you under the Apache License, Version 2.0 (the * "License"); you may not use this file except in compliance * with the License. You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, * software distributed under the License is distributed on an * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY * KIND, either express or implied. See the License for the * specific language governing permissions and limitations * under the License. */ #include "theta_sketch_c_adapter.h" #include "allocator.h" #include "postgres_h_substitute.h" #include #include #include #include using theta_sketch_pg = datasketches::theta_sketch_alloc>; using update_theta_sketch_pg = datasketches::update_theta_sketch_alloc>; using compact_theta_sketch_pg = datasketches::compact_theta_sketch_alloc>; using theta_union_pg = datasketches::theta_union_alloc>; using theta_intersection_pg = datasketches::theta_intersection_alloc>; using theta_a_not_b_pg = datasketches::theta_a_not_b_alloc>; using wrapped_compact_theta_sketch_pg = datasketches::wrapped_compact_theta_sketch_alloc>; void* theta_sketch_new_default() { try { return new (palloc(sizeof(update_theta_sketch_pg))) update_theta_sketch_pg(update_theta_sketch_pg::builder().build()); } catch (std::exception& e) { pg_error(e.what()); } pg_unreachable(); } void* theta_sketch_new_lgk(unsigned lg_k) { try { return new (palloc(sizeof(update_theta_sketch_pg))) update_theta_sketch_pg(update_theta_sketch_pg::builder().set_lg_k(lg_k).build()); } catch (std::exception& e) { pg_error(e.what()); } pg_unreachable(); } void* theta_sketch_new_lgk_p(unsigned lg_k, float p) { try { return new (palloc(sizeof(update_theta_sketch_pg))) update_theta_sketch_pg(update_theta_sketch_pg::builder().set_lg_k(lg_k).set_p(p).build()); } catch (std::exception& e) { pg_error(e.what()); } pg_unreachable(); } void theta_sketch_delete(void* sketchptr) { try { static_cast(sketchptr)->~theta_sketch_pg(); pfree(sketchptr); } catch (std::exception& e) { pg_error(e.what()); } } void theta_sketch_update(void* sketchptr, const void* data, unsigned length) { try { static_cast(sketchptr)->update(data, length); } catch (std::exception& e) { pg_error(e.what()); } } void* theta_sketch_compact(void* sketchptr) { try { auto newptr = new (palloc(sizeof(compact_theta_sketch_pg))) compact_theta_sketch_pg(static_cast(sketchptr)->compact()); static_cast(sketchptr)->~update_theta_sketch_pg(); pfree(sketchptr); return newptr; } catch (std::exception& e) { pg_error(e.what()); } pg_unreachable(); } double theta_sketch_get_estimate(const void* sketchptr) { try { return static_cast(sketchptr)->get_estimate(); } catch (std::exception& e) { pg_error(e.what()); } pg_unreachable(); } Datum* theta_sketch_get_estimate_and_bounds(const void* sketchptr, unsigned num_std_devs) { try { Datum* est_and_bounds = (Datum*) palloc(sizeof(Datum) * 3); est_and_bounds[0] = pg_float8_get_datum(static_cast(sketchptr)->get_estimate()); est_and_bounds[1] = pg_float8_get_datum(static_cast(sketchptr)->get_lower_bound(num_std_devs)); est_and_bounds[2] = pg_float8_get_datum(static_cast(sketchptr)->get_upper_bound(num_std_devs)); return est_and_bounds; } catch (std::exception& e) { pg_error(e.what()); } pg_unreachable(); } char* theta_sketch_to_string(const void* sketchptr) { try { auto str = static_cast(sketchptr)->to_string(); const size_t len = str.length() + 1; char* buffer = (char*) palloc(len); strncpy(buffer, str.c_str(), len); return buffer; } catch (std::exception& e) { pg_error(e.what()); } pg_unreachable(); } ptr_with_size theta_sketch_serialize(const void* sketchptr, unsigned header_size) { try { ptr_with_size p; auto bytes = new (palloc(sizeof(compact_theta_sketch_pg::vector_bytes))) compact_theta_sketch_pg::vector_bytes( static_cast(sketchptr)->serialize(header_size) ); p.ptr = bytes->data(); p.size = bytes->size(); return p; } catch (std::exception& e) { pg_error(e.what()); } pg_unreachable(); } void* theta_sketch_deserialize(const char* buffer, unsigned length) { try { return new (palloc(sizeof(compact_theta_sketch_pg))) compact_theta_sketch_pg(compact_theta_sketch_pg::deserialize(buffer, length)); } catch (std::exception& e) { pg_error(e.what()); } pg_unreachable(); } void* theta_union_new_default() { try { return new (palloc(sizeof(theta_union_pg))) theta_union_pg(theta_union_pg::builder().build()); } catch (std::exception& e) { pg_error(e.what()); } pg_unreachable(); } void* theta_union_new(unsigned lg_k) { try { return new (palloc(sizeof(theta_union_pg))) theta_union_pg(theta_union_pg::builder().set_lg_k(lg_k).build()); } catch (std::exception& e) { pg_error(e.what()); } pg_unreachable(); } void theta_union_delete(void* unionptr) { try { static_cast(unionptr)->~theta_union_pg(); pfree(unionptr); } catch (std::exception& e) { pg_error(e.what()); } } void theta_union_update_with_sketch(void* unionptr, const void* sketchptr) { try { static_cast(unionptr)->update(*static_cast(sketchptr)); } catch (std::exception& e) { pg_error(e.what()); } } void theta_union_update_with_bytes(void* unionptr, const void* buffer, unsigned length) { try { static_cast(unionptr)->update(wrapped_compact_theta_sketch_pg::wrap(buffer, length)); } catch (std::exception& e) { pg_error(e.what()); } } void* theta_union_get_result(void* unionptr) { try { auto sketchptr = new (palloc(sizeof(compact_theta_sketch_pg))) compact_theta_sketch_pg(static_cast(unionptr)->get_result()); static_cast(unionptr)->~theta_union_pg(); pfree(unionptr); return sketchptr; } catch (std::exception& e) { pg_error(e.what()); } pg_unreachable(); } void* theta_intersection_new_default() { try { return new (palloc(sizeof(theta_intersection_pg))) theta_intersection_pg; } catch (std::exception& e) { pg_error(e.what()); } pg_unreachable(); } void theta_intersection_delete(void* interptr) { try { static_cast(interptr)->~theta_intersection_pg(); pfree(interptr); } catch (std::exception& e) { pg_error(e.what()); } } void theta_intersection_update_with_sketch(void* interptr, const void* sketchptr) { try { static_cast(interptr)->update(*static_cast(sketchptr)); } catch (std::exception& e) { pg_error(e.what()); } } void theta_intersection_update_with_bytes(void* interptr, const void* buffer, unsigned length) { try { static_cast(interptr)->update(wrapped_compact_theta_sketch_pg::wrap(buffer, length)); } catch (std::exception& e) { pg_error(e.what()); } } void* theta_intersection_get_result(void* interptr) { try { auto sketchptr = new (palloc(sizeof(compact_theta_sketch_pg))) compact_theta_sketch_pg(static_cast(interptr)->get_result()); static_cast(interptr)->~theta_intersection_pg(); pfree(interptr); return sketchptr; } catch (std::exception& e) { pg_error(e.what()); } pg_unreachable(); } void* theta_a_not_b(const void* buffer1, unsigned length1, const void* buffer2, unsigned length2) { try { theta_a_not_b_pg a_not_b; return new (palloc(sizeof(compact_theta_sketch_pg))) compact_theta_sketch_pg(a_not_b.compute( wrapped_compact_theta_sketch_pg::wrap(buffer1, length1), wrapped_compact_theta_sketch_pg::wrap(buffer2, length2) )); } catch (std::exception& e) { pg_error(e.what()); } pg_unreachable(); }