tantivy/benches/agg_bench.rs

use binggan::plugins::PeakMemAllocPlugin;
use binggan::{black_box, InputGroup, PeakMemAlloc, INSTRUMENTED_SYSTEM};
use rand::distr::weighted::WeightedIndex;
use rand::rngs::StdRng;
use rand::seq::IndexedRandom;
use rand::{Rng, SeedableRng};
use rand_distr::Distribution;
use serde_json::json;
use tantivy::aggregation::agg_req::Aggregations;
use tantivy::aggregation::AggregationCollector;
use tantivy::query::{AllQuery, TermQuery};
use tantivy::schema::{IndexRecordOption, Schema, TextFieldIndexing, FAST, STRING};
use tantivy::{doc, DateTime, Index, Term};

#[global_allocator]
pub static GLOBAL: &PeakMemAlloc<std::alloc::System> = &INSTRUMENTED_SYSTEM;

/// Mini macro to register a function via its name
/// runner.register("average_u64", move |index| average_u64(index));
macro_rules! register {
    ($runner:expr, $func:ident) => {
        $runner.register(stringify!($func), move |index| {
            $func(index);
        })
    };
}

fn main() {
    let inputs = vec![
        ("full", get_test_index_bench(Cardinality::Full).unwrap()),
        (
            "dense",
            get_test_index_bench(Cardinality::OptionalDense).unwrap(),
        ),
        (
            "sparse",
            get_test_index_bench(Cardinality::OptionalSparse).unwrap(),
        ),
        (
            "multivalue",
            get_test_index_bench(Cardinality::Multivalued).unwrap(),
        ),
    ];

    bench_agg(InputGroup::new_with_inputs(inputs));
}

fn bench_agg(mut group: InputGroup<Index>) {
    group.add_plugin(PeakMemAllocPlugin::new(GLOBAL));

    register!(group, average_u64);
    register!(group, average_f64);
    register!(group, average_f64_u64);
    register!(group, stats_f64);
    register!(group, extendedstats_f64);
    register!(group, percentiles_f64);
    register!(group, terms_7);
    register!(group, terms_all_unique);
    register!(group, terms_150_000);
    register!(group, terms_many_top_1000);
    register!(group, terms_many_order_by_term);
    register!(group, terms_many_with_top_hits);
    register!(group, terms_all_unique_with_avg_sub_agg);
    register!(group, terms_many_with_avg_sub_agg);
    register!(group, terms_status_with_avg_sub_agg);
    register!(group, terms_status_with_terms_zipf_1000_sub_agg);
    register!(group, terms_zipf_1000_with_terms_status_sub_agg);
    register!(group, terms_status_with_histogram);
    register!(group, terms_zipf_1000);
    register!(group, terms_zipf_1000_with_histogram);
    register!(group, terms_zipf_1000_with_avg_sub_agg);

    register!(group, terms_many_json_mixed_type_with_avg_sub_agg);

    register!(group, composite_term_many_page_1000);
    register!(group, composite_term_many_page_1000_with_avg_sub_agg);
    register!(group, composite_term_few);
    register!(group, composite_histogram);
    register!(group, composite_histogram_calendar);

    register!(group, cardinality_agg);
    register!(group, cardinality_agg_high_card);
    register!(group, cardinality_agg_low_card);
    register!(group, terms_status_with_cardinality_agg);
    register!(group, terms_100_buckets_with_cardinality_agg);
    register!(group, terms_many_with_single_term_order_by_card);
    register!(group, terms_many_with_single_term_2_order_by_card);

    register!(group, range_agg);
    register!(group, range_agg_with_avg_sub_agg);
    register!(group, range_agg_with_term_agg_status);
    register!(group, range_agg_with_term_agg_many);
    register!(group, histogram);
    register!(group, histogram_hard_bounds);
    register!(group, histogram_with_avg_sub_agg);
    register!(group, histogram_with_term_agg_status);
    register!(group, avg_and_range_with_avg_sub_agg);

    // Filter aggregation benchmarks
    register!(group, filter_agg_all_query_count_agg);
    register!(group, filter_agg_term_query_count_agg);
    register!(group, filter_agg_all_query_with_sub_aggs);
    register!(group, filter_agg_term_query_with_sub_aggs);

    group.run();
}

fn exec_term_with_agg(index: &Index, agg_req: serde_json::Value) {
    let agg_req: Aggregations = serde_json::from_value(agg_req).unwrap();

    let reader = index.reader().unwrap();
    let text_field = reader.searcher().schema().get_field("text").unwrap();
    let term_query = TermQuery::new(
        Term::from_field_text(text_field, "cool"),
        IndexRecordOption::Basic,
    );
    let collector = get_collector(agg_req);
    let searcher = reader.searcher();
    black_box(searcher.search(&term_query, &collector).unwrap());
}

fn average_u64(index: &Index) {
    let agg_req = json!({
        "average": { "avg": { "field": "score", } }
    });
    exec_term_with_agg(index, agg_req)
}
fn average_f64(index: &Index) {
    let agg_req = json!({
        "average": { "avg": { "field": "score_f64", } }
    });
    exec_term_with_agg(index, agg_req)
}
fn average_f64_u64(index: &Index) {
    let agg_req = json!({
        "average_f64": { "avg": { "field": "score_f64" } },
        "average": { "avg": { "field": "score" } },
    });
    exec_term_with_agg(index, agg_req)
}
fn stats_f64(index: &Index) {
    let agg_req = json!({
        "average_f64": { "stats": { "field": "score_f64", } }
    });
    exec_term_with_agg(index, agg_req)
}
fn extendedstats_f64(index: &Index) {
    let agg_req = json!({
        "extendedstats_f64": { "extended_stats": { "field": "score_f64", } }
    });
    exec_term_with_agg(index, agg_req)
}
fn percentiles_f64(index: &Index) {
    let agg_req = json!({
        "mypercentiles": {
            "percentiles": {
                "field": "score_f64",
                "percents": [ 95, 99, 99.9 ]
            }
        }
    });
    execute_agg(index, agg_req);
}

fn cardinality_agg(index: &Index) {
    let agg_req = json!({
        "cardinality": {
            "cardinality": {
                "field": "text_many_terms"
            },
        }
    });
    execute_agg(index, agg_req);
}
// Full-scan cardinality on a near-1M-cardinality string field.
// Hits the dense (PagedBitset) path: every doc has a unique term,
// so the bucket promotes from FxHashSet shortly into the scan.
fn cardinality_agg_high_card(index: &Index) {
    let agg_req = json!({
        "cardinality": {
            "cardinality": {
                "field": "text_all_unique_terms"
            },
        }
    });
    execute_agg(index, agg_req);
}
// Full-scan cardinality on a tiny-cardinality string field (7 distinct
// values). Stays on the FxHashSet path — the promotion threshold is
// never crossed. Validates no regression on the sparse path.
fn cardinality_agg_low_card(index: &Index) {
    let agg_req = json!({
        "cardinality": {
            "cardinality": {
                "field": "text_few_terms_status"
            },
        }
    });
    execute_agg(index, agg_req);
}
fn terms_status_with_cardinality_agg(index: &Index) {
    let agg_req = json!({
        "my_texts": {
            "terms": { "field": "text_few_terms_status" },
            "aggs": {
                "cardinality": {
                    "cardinality": {
                        "field": "text_few_terms_status"
                    },
                }
            }
        },
    });
    execute_agg(index, agg_req);
}

fn terms_100_buckets_with_cardinality_agg(index: &Index) {
    let agg_req = json!({
        "my_texts": {
            "terms": { "field": "text_1000_terms_zipf", "size": 100 },
            "aggs": {
                "cardinality": {
                    "cardinality": {
                        "field": "text_many_terms"
                    },
                }
            }
        },
    });
    execute_agg(index, agg_req);
}

fn terms_many_with_single_term_order_by_card(index: &Index) {
    let agg_req = json!({
        "my_texts": {
            "terms": { "field": "text_many_terms" },
            "aggs": {
                "nested_terms": {
                    "terms": {
                        "field": "single_term",
                        "order": { "cardinality": "desc" }
                    },
                    "aggs": {
                        "cardinality": {
                            "cardinality": { "field": "text_few_terms" }
                        }
                    }
                }
            }
        },
    });
    execute_agg(index, agg_req);
}

// Two-level terms ordered by cardinality at each level: a high-card outer terms
// (text_many_terms) ordered by a cardinality sub-agg, with a nested low-card terms
// (text_few_terms_status) also ordered by a cardinality sub-agg, plus an avg.
fn terms_many_with_single_term_2_order_by_card(index: &Index) {
    let agg_req = json!({
        "by_ip": {
            "terms": {
                "field": "text_many_terms",
                "order": { "card_few_terms": "desc" }
            },
            "aggs": {
                "card_few_terms": {
                    "cardinality": { "field": "text_few_terms" }
                },
                "nested_terms": {
                    "terms": {
                        "field": " single_term",
                        "order": { "distinct_path2": "desc" }
                    },
                    "aggs": {
                        "avg_botscore": { "avg": { "field": "score" } },
                        "distinct_path2": { "cardinality": { "field": "text_few_terms" } }
                    }
                }
            }
        }
    });
    execute_agg(index, agg_req);
}

fn terms_7(index: &Index) {
    let agg_req = json!({
        "my_texts": { "terms": { "field": "text_few_terms_status" } },
    });
    execute_agg(index, agg_req);
}
fn terms_all_unique(index: &Index) {
    let agg_req = json!({
        "my_texts": { "terms": { "field": "text_all_unique_terms" } },
    });
    execute_agg(index, agg_req);
}

fn terms_150_000(index: &Index) {
    let agg_req = json!({
        "my_texts": { "terms": { "field": "text_many_terms" } },
    });
    execute_agg(index, agg_req);
}
fn terms_many_top_1000(index: &Index) {
    let agg_req = json!({
        "my_texts": { "terms": { "field": "text_many_terms", "size": 1000 } },
    });
    execute_agg(index, agg_req);
}
fn terms_many_order_by_term(index: &Index) {
    let agg_req = json!({
        "my_texts": { "terms": { "field": "text_many_terms", "order": { "_key": "desc" } } },
    });
    execute_agg(index, agg_req);
}
fn terms_many_with_top_hits(index: &Index) {
    let agg_req = json!({
        "my_texts": {
            "terms": { "field": "text_many_terms" },
            "aggs": {
                "top_hits": { "top_hits":
                    {
                        "sort": [
                            { "score": "desc" }
                        ],
                        "size": 2,
                        "doc_value_fields": ["score_f64"]
                    }
                }
            }
        },
    });
    execute_agg(index, agg_req);
}
fn terms_many_with_avg_sub_agg(index: &Index) {
    let agg_req = json!({
        "my_texts": {
            "terms": { "field": "text_many_terms" },
            "aggs": {
                "average_f64": { "avg": { "field": "score_f64" } }
            }
        },
    });
    execute_agg(index, agg_req);
}
fn terms_all_unique_with_avg_sub_agg(index: &Index) {
    let agg_req = json!({
        "my_texts": {
            "terms": { "field": "text_all_unique_terms" },
            "aggs": {
                "average_f64": { "avg": { "field": "score_f64" } }
            }
        },
    });
    execute_agg(index, agg_req);
}
fn terms_status_with_terms_zipf_1000_sub_agg(index: &Index) {
    let agg_req = json!({
        "my_texts": {
            "terms": { "field": "text_few_terms_status" },
            "aggs": {
                "nested_terms": { "terms": { "field": "text_1000_terms_zipf" } }
            }
        }
    });
    execute_agg(index, agg_req);
}

fn terms_zipf_1000_with_terms_status_sub_agg(index: &Index) {
    let agg_req = json!({
        "my_texts": {
            "terms": { "field": "text_1000_terms_zipf" },
            "aggs": {
                "nested_terms": { "terms": { "field": "text_few_terms_status" } }
            }
        }
    });
    execute_agg(index, agg_req);
}

fn terms_status_with_histogram(index: &Index) {
    let agg_req = json!({
        "my_texts": {
            "terms": { "field": "text_few_terms_status" },
            "aggs": {
                "histo": {"histogram": { "field": "score_f64", "interval": 10 }}
            }
        }
    });
    execute_agg(index, agg_req);
}

fn terms_zipf_1000_with_histogram(index: &Index) {
    let agg_req = json!({
        "my_texts": {
            "terms": { "field": "text_1000_terms_zipf" },
            "aggs": {
                "histo": {"histogram": { "field": "score_f64", "interval": 10 }}
            }
        }
    });
    execute_agg(index, agg_req);
}

fn terms_status_with_avg_sub_agg(index: &Index) {
    let agg_req = json!({
        "my_texts": {
            "terms": { "field": "text_few_terms_status" },
            "aggs": {
                "average_f64": { "avg": { "field": "score_f64" } }
            }
        },
    });
    execute_agg(index, agg_req);
}

fn terms_zipf_1000_with_avg_sub_agg(index: &Index) {
    let agg_req = json!({
        "my_texts": {
            "terms": { "field": "text_1000_terms_zipf" },
            "aggs": {
                "average_f64": { "avg": { "field": "score_f64" } }
            }
        },
    });
    execute_agg(index, agg_req);
}

fn terms_zipf_1000(index: &Index) {
    let agg_req = json!({
        "my_texts": { "terms": { "field": "text_1000_terms_zipf" } },
    });
    execute_agg(index, agg_req);
}

fn terms_many_json_mixed_type_with_avg_sub_agg(index: &Index) {
    let agg_req = json!({
        "my_texts": {
            "terms": { "field": "json.mixed_type" },
            "aggs": {
                "average_f64": { "avg": { "field": "score_f64" } }
            }
        },
    });
    execute_agg(index, agg_req);
}

fn composite_term_few(index: &Index) {
    let agg_req = json!({
        "my_ctf": {
            "composite": {
                "sources": [
                    { "text_few_terms": { "terms": { "field": "text_few_terms" } } }
                ],
                "size": 1000
            }
        },
    });
    execute_agg(index, agg_req);
}
fn composite_term_many_page_1000(index: &Index) {
    let agg_req = json!({
        "my_ctmp1000": {
            "composite": {
                "sources": [
                    { "text_many_terms": { "terms": { "field": "text_many_terms" } } }
                ],
                "size": 1000
            }
        },
    });
    execute_agg(index, agg_req);
}
fn composite_term_many_page_1000_with_avg_sub_agg(index: &Index) {
    let agg_req = json!({
        "my_ctmp1000wasa": {
            "composite": {
                "sources": [
                    { "text_many_terms": { "terms": { "field": "text_many_terms" } } }
                ],
                "size": 1000,
            },
            "aggs": {
                "average_f64": { "avg": { "field": "score_f64" } }
            }
        },
    });
    execute_agg(index, agg_req);
}
fn composite_histogram(index: &Index) {
    let agg_req = json!({
        "my_ch": {
            "composite": {
                "sources": [
                    { "f64_histogram": { "histogram": { "field": "score_f64", "interval": 1 } } }
                ],
                "size": 1000
            }
        },
    });
    execute_agg(index, agg_req);
}
fn composite_histogram_calendar(index: &Index) {
    let agg_req = json!({
        "my_chc": {
            "composite": {
                "sources": [
                    { "time_histogram": { "date_histogram": { "field": "timestamp", "calendar_interval": "month" } } }
                ],
                "size": 1000
            }
        },
    });
    execute_agg(index, agg_req);
}

fn execute_agg(index: &Index, agg_req: serde_json::Value) {
    let agg_req: Aggregations = serde_json::from_value(agg_req).unwrap();
    let collector = get_collector(agg_req);

    let reader = index.reader().unwrap();
    let searcher = reader.searcher();
    black_box(searcher.search(&AllQuery, &collector).unwrap());
}
fn range_agg(index: &Index) {
    let agg_req = json!({
        "range_f64": { "range": { "field": "score_f64", "ranges": [
            { "from": 3, "to": 7000 },
            { "from": 7000, "to": 20000 },
            { "from": 20000, "to": 30000 },
            { "from": 30000, "to": 40000 },
            { "from": 40000, "to": 50000 },
            { "from": 50000, "to": 60000 }
        ] } },
    });
    execute_agg(index, agg_req);
}
fn range_agg_with_avg_sub_agg(index: &Index) {
    let agg_req = json!({
        "rangef64": {
            "range": {
                "field": "score_f64",
                "ranges": [
                    { "from": 3, "to": 7000 },
                    { "from": 7000, "to": 20000 },
                    { "from": 20000, "to": 30000 },
                    { "from": 30000, "to": 40000 },
                    { "from": 40000, "to": 50000 },
                    { "from": 50000, "to": 60000 }
                ]
            },
            "aggs": {
                "average_f64": { "avg": { "field": "score_f64" } }
            }
        },
    });
    execute_agg(index, agg_req);
}

fn range_agg_with_term_agg_status(index: &Index) {
    let agg_req = json!({
        "rangef64": {
            "range": {
                "field": "score_f64",
                "ranges": [
                    { "from": 3, "to": 7000 },
                    { "from": 7000, "to": 20000 },
                    { "from": 20000, "to": 30000 },
                    { "from": 30000, "to": 40000 },
                    { "from": 40000, "to": 50000 },
                    { "from": 50000, "to": 60000 }
                ]
            },
            "aggs": {
                "my_texts": { "terms": { "field": "text_few_terms_status" } },
            }
        },
    });
    execute_agg(index, agg_req);
}
fn range_agg_with_term_agg_many(index: &Index) {
    let agg_req = json!({
        "rangef64": {
            "range": {
                "field": "score_f64",
                "ranges": [
                    { "from": 3, "to": 7000 },
                    { "from": 7000, "to": 20000 },
                    { "from": 20000, "to": 30000 },
                    { "from": 30000, "to": 40000 },
                    { "from": 40000, "to": 50000 },
                    { "from": 50000, "to": 60000 }
                ]
            },
            "aggs": {
                "my_texts": { "terms": { "field": "text_many_terms" } },
            }
        },
    });
    execute_agg(index, agg_req);
}

fn histogram(index: &Index) {
    let agg_req = json!({
        "rangef64": {
            "histogram": {
                "field": "score_f64",
                "interval": 100 // 1000 buckets
            },
        }
    });
    execute_agg(index, agg_req);
}
fn histogram_hard_bounds(index: &Index) {
    let agg_req = json!({
        "rangef64": { "histogram": { "field": "score_f64", "interval": 100, "hard_bounds": { "min": 1000, "max": 300000 } } },
    });
    execute_agg(index, agg_req);
}
fn histogram_with_avg_sub_agg(index: &Index) {
    let agg_req = json!({
        "rangef64": {
            "histogram": { "field": "score_f64", "interval": 100 },
            "aggs": {
                "average_f64": { "avg": { "field": "score_f64" } }
            }
        }
    });
    execute_agg(index, agg_req);
}
fn histogram_with_term_agg_status(index: &Index) {
    let agg_req = json!({
        "rangef64": {
            "histogram": { "field": "score_f64", "interval": 10 },
            "aggs": {
                "my_texts": { "terms": { "field": "text_few_terms_status" } }
            }
        }
    });
    execute_agg(index, agg_req);
}
fn avg_and_range_with_avg_sub_agg(index: &Index) {
    let agg_req = json!({
        "rangef64": {
            "range": {
                "field": "score_f64",
                "ranges": [
                    { "from": 3, "to": 7000 },
                    { "from": 7000, "to": 20000 },
                    { "from": 20000, "to": 60000 }
                ]
            },
            "aggs": {
                "average_in_range": { "avg": { "field": "score" } }
            }
        },
        "average": { "avg": { "field": "score" } }
    });
    execute_agg(index, agg_req);
}

#[derive(Clone, Copy, Hash, Default, Debug, PartialEq, Eq, PartialOrd, Ord)]
enum Cardinality {
    /// All documents contain exactly one value.
    /// `Full` is the default for auto-detecting the Cardinality, since it is the most strict.
    #[default]
    Full = 0,
    /// All documents contain at most one value.
    OptionalDense = 1,
    /// All documents may contain any number of values.
    Multivalued = 2,
    /// 1 / 20 documents has a value
    OptionalSparse = 3,
}

fn get_collector(agg_req: Aggregations) -> AggregationCollector {
    AggregationCollector::from_aggs(agg_req, Default::default())
}

fn get_test_index_bench(cardinality: Cardinality) -> tantivy::Result<Index> {
    // Flag to use existing index
    let reuse_index = std::env::var("REUSE_AGG_BENCH_INDEX").is_ok();
    if reuse_index && std::path::Path::new("agg_bench").exists() {
        return Index::open_in_dir("agg_bench");
    }
    // crreate dir
    std::fs::create_dir_all("agg_bench")?;
    let mut schema_builder = Schema::builder();
    let text_fieldtype = tantivy::schema::TextOptions::default()
        .set_indexing_options(
            TextFieldIndexing::default().set_index_option(IndexRecordOption::WithFreqs),
        )
        .set_stored();
    let text_field = schema_builder.add_text_field("text", text_fieldtype.clone());
    let single_term = schema_builder.add_text_field("single_term", FAST);
    let json_field = schema_builder.add_json_field("json", FAST);
    let text_field_all_unique_terms =
        schema_builder.add_text_field("text_all_unique_terms", STRING | FAST);
    let text_field_many_terms = schema_builder.add_text_field("text_many_terms", STRING | FAST);
    let text_field_few_terms = schema_builder.add_text_field("text_few_terms", STRING | FAST);
    let text_field_few_terms_status =
        schema_builder.add_text_field("text_few_terms_status", STRING | FAST);
    let text_field_1000_terms_zipf =
        schema_builder.add_text_field("text_1000_terms_zipf", STRING | FAST);
    let score_fieldtype = tantivy::schema::NumericOptions::default().set_fast();
    let score_field = schema_builder.add_u64_field("score", score_fieldtype.clone());
    let score_field_f64 = schema_builder.add_f64_field("score_f64", score_fieldtype.clone());
    let score_field_i64 = schema_builder.add_i64_field("score_i64", score_fieldtype);
    let date_field = schema_builder.add_date_field("timestamp", FAST);
    // use tmp dir
    let index = if reuse_index {
        Index::create_in_dir("agg_bench", schema_builder.build())?
    } else {
        Index::create_from_tempdir(schema_builder.build())?
    };
    // Approximate log proportions
    let status_field_data = [
        ("INFO", 8000),
        ("ERROR", 300),
        ("WARN", 1200),
        ("DEBUG", 500),
        ("OK", 500),
        ("CRITICAL", 20),
        ("EMERGENCY", 1),
    ];
    let log_level_distribution =
        WeightedIndex::new(status_field_data.iter().map(|item| item.1)).unwrap();

    let few_terms_data = ["INFO", "ERROR", "WARN", "DEBUG"];
    let lg_norm = rand_distr::LogNormal::new(2.996f64, 0.979f64).unwrap();

    let many_terms_data = (0..150_000)
        .map(|num| format!("author{num}"))
        .collect::<Vec<_>>();

    // Prepare 1000 unique terms sampled using a Zipf distribution.
    // Exponent ~1.1 approximates top-20 terms covering around ~20%.
    let terms_1000: Vec<String> = (1..=1000).map(|i| format!("term_{i}")).collect();
    let zipf_1000 = rand_distr::Zipf::new(1000.0, 1.1f64).unwrap();

    {
        let mut rng = StdRng::from_seed([1u8; 32]);
        let mut index_writer = index.writer_with_num_threads(1, 200_000_000)?;
        // To make the different test cases comparable we just change one doc to force the
        // cardinality
        if cardinality == Cardinality::OptionalDense {
            index_writer.add_document(doc!())?;
        }
        if cardinality == Cardinality::Multivalued {
            let log_level_sample_a = status_field_data[log_level_distribution.sample(&mut rng)].0;
            let log_level_sample_b = status_field_data[log_level_distribution.sample(&mut rng)].0;
            let idx_a = zipf_1000.sample(&mut rng) as usize - 1;
            let idx_b = zipf_1000.sample(&mut rng) as usize - 1;
            let term_1000_a = &terms_1000[idx_a];
            let term_1000_b = &terms_1000[idx_b];
            index_writer.add_document(doc!(
                json_field => json!({"mixed_type": 10.0}),
                json_field => json!({"mixed_type": 10.0}),
                single_term => "single_term",
                single_term => "single_term",
                text_field => "cool",
                text_field => "cool",
                text_field_all_unique_terms => "cool",
                text_field_all_unique_terms => "coolo",
                text_field_many_terms => "cool",
                text_field_many_terms => "cool",
                text_field_few_terms => "cool",
                text_field_few_terms => "cool",
                text_field_few_terms_status => log_level_sample_a,
                text_field_few_terms_status => log_level_sample_b,
                text_field_1000_terms_zipf => term_1000_a.as_str(),
                text_field_1000_terms_zipf => term_1000_b.as_str(),
                score_field => 1u64,
                score_field => 1u64,
                score_field_f64 => lg_norm.sample(&mut rng),
                score_field_f64 => lg_norm.sample(&mut rng),
                score_field_i64 => 1i64,
                score_field_i64 => 1i64,
            ))?;
        }
        let mut doc_with_value = 1_000_000;
        if cardinality == Cardinality::OptionalSparse {
            doc_with_value /= 20;
        }
        let _val_max = 1_000_000.0;
        for _ in 0..doc_with_value {
            let val: f64 = rng.random_range(0.0..1_000_000.0);
            let json = if rng.random_bool(0.1) {
                // 10% are numeric values
                json!({ "mixed_type": val })
            } else {
                json!({"mixed_type": many_terms_data.choose(&mut rng).unwrap().to_string()})
            };
            index_writer.add_document(doc!(
                single_term => "single_term",
                text_field => "cool",
                json_field => json,
                text_field_all_unique_terms => format!("unique_term_{}", rng.random::<u64>()),
                text_field_many_terms => many_terms_data.choose(&mut rng).unwrap().to_string(),
                text_field_few_terms => few_terms_data.choose(&mut rng).unwrap().to_string(),
                text_field_few_terms_status => status_field_data[log_level_distribution.sample(&mut rng)].0,
                text_field_1000_terms_zipf => terms_1000[zipf_1000.sample(&mut rng) as usize - 1].as_str(),
                score_field => val as u64,
                score_field_f64 => lg_norm.sample(&mut rng),
                score_field_i64 => val as i64,
                date_field => DateTime::from_timestamp_millis((val * 1_000_000.) as i64),
            ))?;
            if cardinality == Cardinality::OptionalSparse {
                for _ in 0..20 {
                    index_writer.add_document(doc!(text_field => "cool"))?;
                }
            }
        }
        // writing the segment
        index_writer.commit()?;
    }

    Ok(index)
}

// Filter aggregation benchmarks

fn filter_agg_all_query_count_agg(index: &Index) {
    let agg_req = json!({
        "filtered": {
            "filter": "*",
            "aggs": {
                "count": { "value_count": { "field": "score" } }
            }
        }
    });
    execute_agg(index, agg_req);
}

fn filter_agg_term_query_count_agg(index: &Index) {
    let agg_req = json!({
        "filtered": {
            "filter": "text:cool",
            "aggs": {
                "count": { "value_count": { "field": "score" } }
            }
        }
    });
    execute_agg(index, agg_req);
}

fn filter_agg_all_query_with_sub_aggs(index: &Index) {
    let agg_req = json!({
        "filtered": {
            "filter": "*",
            "aggs": {
                "avg_score": { "avg": { "field": "score" } },
                "stats_score": { "stats": { "field": "score_f64" } },
                "terms_text": {
                    "terms": { "field": "text_few_terms_status" }
                }
            }
        }
    });
    execute_agg(index, agg_req);
}

fn filter_agg_term_query_with_sub_aggs(index: &Index) {
    let agg_req = json!({
        "filtered": {
            "filter": "text:cool",
            "aggs": {
                "avg_score": { "avg": { "field": "score" } },
                "stats_score": { "stats": { "field": "score_f64" } },
                "terms_text": {
                    "terms": { "field": "text_few_terms_status" }
                }
            }
        }
    });
    execute_agg(index, agg_req);
}