Sort commits topologically

2023-08-15 15:59:08 +02:00 · 2023-08-15 15:59:08 +02:00 · 2714280567
commit 2714280567
parent 146bab4e7c
7 changed files with 232 additions and 48 deletions
--- a/.sqlx/query-3620648a1003211c184423a3c13b6eae3500b888490430fbaf20517830db508e.json
+++ b/.sqlx/query-3620648a1003211c184423a3c13b6eae3500b888490430fbaf20517830db508e.json
@ -0,0 +1,26 @@
 {
  "db_name": "SQLite",
  "query": "SELECT parent, child FROM commit_links JOIN commits AS p ON p.hash = parent JOIN commits AS c ON c.hash = child ORDER BY unixepoch(p.committer_date) ASC, p.hash ASC, unixepoch(c.committer_date) ASC, c.hash ASC ",
  "describe": {
    "columns": [
      {
        "name": "parent",
        "ordinal": 0,
        "type_info": "Text"
      },
      {
        "name": "child",
        "ordinal": 1,
        "type_info": "Text"
      }
    ],
    "parameters": {
      "Right": 0
    },
    "nullable": [
      false,
      false
    ]
  },
  "hash": "3620648a1003211c184423a3c13b6eae3500b888490430fbaf20517830db508e"
 }
--- a/.sqlx/query-639b559608466d60bc9cbfb9f543db10b596edee0e9bcb590c6139a7e8927945.json
+++ b/.sqlx/query-639b559608466d60bc9cbfb9f543db10b596edee0e9bcb590c6139a7e8927945.json
@ -0,0 +1,20 @@
 {
  "db_name": "SQLite",
  "query": "SELECT committer_date AS \"time: OffsetDateTime\" FROM commits ORDER BY unixepoch(committer_date) ASC, hash ASC ",
  "describe": {
    "columns": [
      {
        "name": "time: OffsetDateTime",
        "ordinal": 0,
        "type_info": "Text"
      }
    ],
    "parameters": {
      "Right": 0
    },
    "nullable": [
      false
    ]
  },
  "hash": "639b559608466d60bc9cbfb9f543db10b596edee0e9bcb590c6139a7e8927945"
 }
--- a/.sqlx/query-a718c407e9620bf99ed97247b89dd0afb7ef657ee0a302433641f651e72b8cbe.json
+++ b/.sqlx/query-a718c407e9620bf99ed97247b89dd0afb7ef657ee0a302433641f651e72b8cbe.json
@ -0,0 +1,20 @@
 {
  "db_name": "SQLite",
  "query": "SELECT hash FROM commits ORDER BY unixepoch(committer_date) ASC, hash ASC ",
  "describe": {
    "columns": [
      {
        "name": "hash",
        "ordinal": 0,
        "type_info": "Text"
      }
    ],
    "parameters": {
      "Right": 0
    },
    "nullable": [
      false
    ]
  },
  "hash": "a718c407e9620bf99ed97247b89dd0afb7ef657ee0a302433641f651e72b8cbe"
 }
--- a/.sqlx/query-ac7a2e727b2ff96ae6d6be2c05e9991a7a27708a69fbf89b43231927fc85519f.json
+++ b/.sqlx/query-ac7a2e727b2ff96ae6d6be2c05e9991a7a27708a69fbf89b43231927fc85519f.json
@ -1,26 +0,0 @@
 {
  "db_name": "SQLite",
  "query": "SELECT hash, committer_date AS \"committer_date: time::OffsetDateTime\" FROM commits ORDER BY unixepoch(committer_date) ASC, hash ASC ",
  "describe": {
    "columns": [
      {
        "name": "hash",
        "ordinal": 0,
        "type_info": "Text"
      },
      {
        "name": "committer_date: time::OffsetDateTime",
        "ordinal": 1,
        "type_info": "Text"
      }
    ],
    "parameters": {
      "Right": 0
    },
    "nullable": [
      false,
      false
    ]
  },
  "hash": "ac7a2e727b2ff96ae6d6be2c05e9991a7a27708a69fbf89b43231927fc85519f"
 }
--- a/scripts/graph.ts
+++ b/scripts/graph.ts
@ -3,7 +3,7 @@ import uPlot from "./uPlot.js";
 interface GraphData {
    hashes: string[];
    times: number[];
-    metrics: { [key: string]: (number | null)[]; };
+    measurements: { [key: string]: (number | null)[]; };
 }
 let opts = {
@ -29,7 +29,7 @@ fetch("data?metric=wall-clock/build")
        console.log(data);
        plot.setData([
            data.times,
-            data.metrics["wall-clock/build"]!,
+            data.measurements["wall-clock/build"]!,
        ]);
    });
--- a/src/server/web/pages/graph.rs
+++ b/src/server/web/pages/graph.rs
@ -1,10 +1,14 @@
 mod util;
 use std::collections::HashMap;
 use askama::Template;
 use axum::{extract::State, response::IntoResponse, Json};
 use axum_extra::extract::Query;
 use futures::{StreamExt, TryStreamExt};
 use serde::{Deserialize, Serialize};
 use sqlx::{Acquire, SqlitePool};
 use time::OffsetDateTime;
 use crate::{
    config::Config,
@ -45,9 +49,11 @@ pub struct QueryGraphData {
 #[derive(Serialize)]
 struct GraphData {
    hashes: Vec<String>,
    parents: HashMap<usize, Vec<usize>>,
    times: Vec<i64>,
    // TODO f32 for smaller transmission size?
-    metrics: HashMap<String, Vec<Option<f64>>>,
+    measurements: HashMap<String, Vec<Option<f64>>>,
 }
 pub async fn get_graph_data(
@ -58,30 +64,76 @@ pub async fn get_graph_data(
    let mut tx = db.begin().await?;
    let conn = tx.acquire().await?;
-    let rows = sqlx::query!(
+    // The SQL queries that return one result per commit *must* return the same
    // amount of rows in the same order!
    let unsorted_hashes = sqlx::query_scalar!(
        "\
-        SELECT \
+        SELECT hash FROM commits \
            hash, \
            committer_date AS \"committer_date: time::OffsetDateTime\" \
        FROM commits \
        ORDER BY unixepoch(committer_date) ASC, hash ASC \
        "
    )
    .fetch_all(&mut *conn)
    .await?;
-    let mut hashes = Vec::with_capacity(rows.len());
+    let parent_child_pairs = sqlx::query!(
-    let mut times = Vec::with_capacity(rows.len());
+        "\
-    for row in rows {
+        SELECT parent, child \
-        hashes.push(row.hash);
+        FROM commit_links \
-        times.push(row.committer_date.unix_timestamp());
+        JOIN commits AS p ON p.hash = parent \
        JOIN commits AS c ON c.hash = child \
        ORDER BY \
            unixepoch(p.committer_date) ASC, p.hash ASC, \
            unixepoch(c.committer_date) ASC, c.hash ASC \
        "
    )
    .fetch(&mut *conn)
    .map_ok(|r| (r.parent, r.child))
    .try_collect::<Vec<_>>()
    .await?;
    let sorted_hashes = util::sort_topologically(&unsorted_hashes, &parent_child_pairs);
    let sorted_hash_indices = sorted_hashes
        .iter()
        .cloned()
        .enumerate()
        .map(|(i, hash)| (hash, i))
        .collect::<HashMap<_, _>>();
    let mut parents = HashMap::<usize, Vec<usize>>::new();
    for (parent, child) in &parent_child_pairs {
        let parent_idx = sorted_hash_indices[parent];
        let child_idx = sorted_hash_indices[child];
        parents.entry(parent_idx).or_default().push(child_idx);
    }
-    // TODO Topological sort (s. velcom)
+    // permutation[unsorted_index] = sorted_index
-    // TODO Redo indices once queries are finalized
+    let permutation = unsorted_hashes
-    let mut metrics = HashMap::new();
+        .iter()
        .map(|h| sorted_hash_indices[h])
        .collect::<Vec<_>>();
    // Collect and permutate commit times
    let mut times = vec![0; sorted_hashes.len()];
    let mut rows = sqlx::query_scalar!(
        "\
        SELECT committer_date AS \"time: OffsetDateTime\" FROM commits \
        ORDER BY unixepoch(committer_date) ASC, hash ASC \
        "
    )
    .fetch(&mut *conn)
    .enumerate();
    while let Some((i, time)) = rows.next().await {
        times[permutation[i]] = time?.unix_timestamp();
    }
    drop(rows);
    // Collect and permutate measurements
    let mut measurements = HashMap::new();
    for metric in form.metric {
-        let values = sqlx::query_scalar!(
+        let mut values = vec![None; sorted_hashes.len()];
        let mut rows = sqlx::query_scalar!(
            "\
            WITH \
            measurements AS ( \
@ -99,15 +151,20 @@ pub async fn get_graph_data(
            ",
            metric,
        )
-        .fetch_all(&mut *conn)
+        .fetch(&mut *conn)
-        .await?;
+        .enumerate();
        while let Some((i, value)) = rows.next().await {
            values[permutation[i]] = value?;
        }
        drop(rows);
-        metrics.insert(metric, values);
+        measurements.insert(metric, values);
    }
    Ok(Json(GraphData {
-        hashes,
+        hashes: sorted_hashes,
        parents,
        times,
-        metrics,
+        measurements,
    }))
 }
--- a/src/server/web/pages/graph/util.rs
+++ b/src/server/web/pages/graph/util.rs
@ -0,0 +1,87 @@
 use std::collections::{HashMap, HashSet};
 /// Sort commits topologically such that parents come before their children.
 ///
 /// Assumes that `parent_child_pairs` contains no duplicates and is in the
 /// desired order (see below for more info on the order).
 ///
 /// The algorithm used is a version of [Kahn's algorithm][0] that starts at the
 /// nodes with no parents. It uses a stack for the set of parentless nodes,
 /// meaning the resulting commit order is depth-first-y, not breadth-first-y.
 /// For example, this commit graph (where children are ordered top to bottom)
 /// results in the order `A, B, C, D, E, F` and not an interleaved order like
 /// `A, B, D, C, E, F` (which a queue would produce):
 ///
 /// ```text
 /// A - B - C
 ///  \       \
 ///   D - E - F
 /// ```
 ///
 /// When a node is visited and added to the list of sorted nodes, it is removed
 /// as parent from all its children. Those who had no other parents are added to
 /// the stack in reverse order. In the final list, the children appear in the
 /// order they appeared in the parent child pairs, if possible. This means that
 /// the order of the commits and of the pairs matters and should probably be
 /// deterministic.
 ///
 /// [0]: https://en.wikipedia.org/wiki/Topological_sorting#Kahn's_algorithm
 pub fn sort_topologically(
    commits: &[String],
    parent_child_pairs: &[(String, String)],
 ) -> Vec<String> {
    // These maps have entries for each commit hash we might want to inspect, so
    // we know `.get()`, `.get_mut()` and `.remove()` must always succeed.
    let mut parent_child_map = commits
        .iter()
        .map(|hash| (hash.clone(), Vec::<String>::new()))
        .collect::<HashMap<_, _>>();
    let mut child_parent_map = commits
        .iter()
        .map(|hash| (hash.clone(), HashSet::<String>::new()))
        .collect::<HashMap<_, _>>();
    for (parent, child) in parent_child_pairs {
        parent_child_map
            .get_mut(parent)
            .unwrap()
            .push(child.clone());
        child_parent_map
            .get_mut(child)
            .unwrap()
            .insert(parent.clone());
    }
    // Initialize parentless stack using commit list, in reverse order so that
    // the order is right when popping.
    let mut parentless = Vec::<String>::new();
    for commit in commits.iter().rev() {
        if child_parent_map[commit].is_empty() {
            // A (quadratic-time) linear scan here is OK since the number of
            // parentless commits is usually fairly small.
            if !parentless.contains(commit) {
                parentless.push(commit.clone());
            }
        }
    }
    let mut sorted = Vec::<String>::new();
    while let Some(hash) = parentless.pop() {
        // Inspect children in reverse order so that the order is right when
        // popping off the parentless stack.
        for child in parent_child_map.remove(&hash).unwrap().into_iter().rev() {
            let child_parents = child_parent_map.get_mut(&child).unwrap();
            child_parents.remove(&hash);
            if child_parents.is_empty() {
                parentless.push(child);
            }
        }
        sorted.push(hash);
    }
    assert!(parent_child_map.is_empty());
    assert!(child_parent_map.values().all(|v| v.is_empty()));
    assert!(parentless.is_empty());
    assert_eq!(commits.len(), sorted.len());
    sorted
 }