upstream/mercurial-mirror Files · rust/hg-core/examples/nodemap/main.rs

tests: use sha256line.py instead of /dev/random in test-censor.t (issue6858)...

tests: use sha256line.py instead of /dev/random in test-censor.t (issue6858) Sometimes the systems that run our test suite don't have enough entropy and they cannot produce target file of the expected size using /dev/random, which results in test failures. Switching to /dev/urandom would give us way more available data at the cost of it being less "random", but we don't really need to use entropy for this task at all, since we only care if the file size after compression is big enough to not be stored inline in the revlog. So let's use something that we already have used to generate this kind of data in other tests.

Raphaël Gomès - - Load All Authors

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      // Copyright 2019-2020 Georges Racinet <georges.racinet@octobus.net>

      //

      // This software may be used and distributed according to the terms of the

      // GNU General Public License version 2 or any later version.

      use hg::revlog::node::*;

      use hg::revlog::nodemap::*;

      use hg::revlog::*;

      use memmap2::MmapOptions;

      use rand::Rng;

      use std::fs::File;

      use std::io;

      use std::io::Write;

      use std::path::{Path, PathBuf};

      use std::time::Instant;

      mod index;

      use index::Index;

      fn mmap_index(repo_path: &Path) -> Index {

          let mut path = PathBuf::from(repo_path);

          path.extend([".hg", "store", "00changelog.i"].iter());

          Index::load_mmap(path)

      }

      fn mmap_nodemap(path: &Path) -> NodeTree {

          let file = File::open(path).unwrap();

          let mmap = unsafe { MmapOptions::new().map(&file).unwrap() };

          let len = mmap.len();

          NodeTree::load_bytes(Box::new(mmap), len)

      }

      /// Scan the whole index and create the corresponding nodemap file at `path`

      fn create(index: &Index, path: &Path) -> io::Result<()> {

          let mut file = File::create(path)?;

          let start = Instant::now();

          let mut nm = NodeTree::default();

          for rev in 0..index.len() {

              let rev = Revision(rev as BaseRevision);

              nm.insert(index, index.node(rev).unwrap(), rev).unwrap();

          }

          eprintln!("Nodemap constructed in RAM in {:?}", start.elapsed());

          file.write_all(&nm.into_readonly_and_added_bytes().1)?;

          eprintln!("Nodemap written to disk");

          Ok(())

      }

      fn query(index: &Index, nm: &NodeTree, prefix: &str) {

          let start = Instant::now();

          let res = NodePrefix::from_hex(prefix).map(|p| nm.find_bin(index, p));

          println!("Result found in {:?}: {:?}", start.elapsed(), res);

      }

      fn bench(index: &Index, nm: &NodeTree, queries: usize) {

          let len = index.len() as u32;

          let mut rng = rand::thread_rng();

          let nodes: Vec<Node> = (0..queries)

              .map(|_| {

                  *index

                      .node(Revision((rng.gen::<u32>() % len) as BaseRevision))

                      .unwrap()

              })

              .collect();

          if queries < 10 {

              let nodes_hex: Vec<String> =

                  nodes.iter().map(|n| format!("{:x}", n)).collect();

              println!("Nodes: {:?}", nodes_hex);

          }

          let mut last: Option<Revision> = None;

          let start = Instant::now();

          for node in nodes.iter() {

              last = nm.find_bin(index, node.into()).unwrap();

          }

          let elapsed = start.elapsed();

          println!(

              "Did {} queries in {:?} (mean {:?}), last was {:x} with result {:?}",

              queries,

              elapsed,

              elapsed / (queries as u32),

              nodes.last().unwrap(),

              last

          );

      }

      fn main() {

          use clap::{Parser, Subcommand};

          #[derive(Parser)]

          #[command()]

          /// Nodemap pure Rust example

          struct App {

              // Path to the repository, always necessary for its index

              #[arg(short, long)]

              repository: PathBuf,

              // Path to the nodemap file, independent of REPOSITORY

              #[arg(short, long)]

              nodemap_file: PathBuf,

              #[command(subcommand)]

              command: Command,

          }

          #[derive(Subcommand)]

          enum Command {

              /// Create `NODEMAP_FILE` by scanning repository index

              Create,

              /// Query `NODEMAP_FILE` for `prefix`

              Query { prefix: String },

              /// Perform #`QUERIES` random successful queries on `NODEMAP_FILE`

              Bench { queries: usize },

          }

          let app = App::parse();

          let repo = &app.repository;

          let nm_path = &app.nodemap_file;

          let index = mmap_index(repo);

          let nm = mmap_nodemap(nm_path);

          match &app.command {

              Command::Create => {

                  println!(

                      "Creating nodemap file {} for repository {}",

                      nm_path.display(),

                      repo.display()

                  );

                  create(&index, Path::new(nm_path)).unwrap();

              }

              Command::Bench { queries } => {

                  println!(

                      "Doing {} random queries in nodemap file {} of repository {}",

                      queries,

                      nm_path.display(),

                      repo.display()

                  );

                  bench(&index, &nm, *queries);

              }

              Command::Query { prefix } => {

                  println!(

                      "Querying {} in nodemap file {} of repository {}",

                      prefix,

                      nm_path.display(),

                      repo.display()

                  );

                  query(&index, &nm, prefix);

              }

          }

      }

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				// Copyright 2019-2020 Georges Racinet <georges.racinet@octobus.net>
				//
				// This software may be used and distributed according to the terms of the
				// GNU General Public License version 2 or any later version.

				use hg::revlog::node::*;
				use hg::revlog::nodemap::*;
				use hg::revlog::*;
				use memmap2::MmapOptions;
				use rand::Rng;
				use std::fs::File;
				use std::io;
				use std::io::Write;
				use std::path::{Path, PathBuf};
				use std::time::Instant;

				mod index;
				use index::Index;

				fn mmap_index(repo_path: &Path) -> Index {
				let mut path = PathBuf::from(repo_path);
				path.extend([".hg", "store", "00changelog.i"].iter());
				Index::load_mmap(path)
				}

				fn mmap_nodemap(path: &Path) -> NodeTree {
				let file = File::open(path).unwrap();
				let mmap = unsafe { MmapOptions::new().map(&file).unwrap() };
				let len = mmap.len();
				NodeTree::load_bytes(Box::new(mmap), len)
				}

				/// Scan the whole index and create the corresponding nodemap file at `path`
				fn create(index: &Index, path: &Path) -> io::Result<()> {
				let mut file = File::create(path)?;
				let start = Instant::now();
				let mut nm = NodeTree::default();
				for rev in 0..index.len() {
				let rev = Revision(rev as BaseRevision);
				nm.insert(index, index.node(rev).unwrap(), rev).unwrap();
				}
				eprintln!("Nodemap constructed in RAM in {:?}", start.elapsed());
				file.write_all(&nm.into_readonly_and_added_bytes().1)?;
				eprintln!("Nodemap written to disk");
				Ok(())
				}

				fn query(index: &Index, nm: &NodeTree, prefix: &str) {
				let start = Instant::now();
				let res = NodePrefix::from_hex(prefix).map(\|p\| nm.find_bin(index, p));
				println!("Result found in {:?}: {:?}", start.elapsed(), res);
				}

				fn bench(index: &Index, nm: &NodeTree, queries: usize) {
				let len = index.len() as u32;
				let mut rng = rand::thread_rng();
				let nodes: Vec<Node> = (0..queries)
				.map(\|_\| {
				*index
				.node(Revision((rng.gen::<u32>() % len) as BaseRevision))
				.unwrap()
				})
				.collect();
				if queries < 10 {
				let nodes_hex: Vec<String> =
				nodes.iter().map(\|n\| format!("{:x}", n)).collect();
				println!("Nodes: {:?}", nodes_hex);
				}
				let mut last: Option<Revision> = None;
				let start = Instant::now();
				for node in nodes.iter() {
				last = nm.find_bin(index, node.into()).unwrap();
				}
				let elapsed = start.elapsed();
				println!(
				"Did {} queries in {:?} (mean {:?}), last was {:x} with result {:?}",
				queries,
				elapsed,
				elapsed / (queries as u32),
				nodes.last().unwrap(),
				last
				);
				}

				fn main() {
				use clap::{Parser, Subcommand};

				#[derive(Parser)]
				#[command()]
				/// Nodemap pure Rust example
				struct App {
				// Path to the repository, always necessary for its index
				#[arg(short, long)]
				repository: PathBuf,
				// Path to the nodemap file, independent of REPOSITORY
				#[arg(short, long)]
				nodemap_file: PathBuf,
				#[command(subcommand)]
				command: Command,
				}

				#[derive(Subcommand)]
				enum Command {
				/// Create `NODEMAP_FILE` by scanning repository index
				Create,
				/// Query `NODEMAP_FILE` for `prefix`
				Query { prefix: String },
				/// Perform #`QUERIES` random successful queries on `NODEMAP_FILE`
				Bench { queries: usize },
				}

				let app = App::parse();

				let repo = &app.repository;
				let nm_path = &app.nodemap_file;

				let index = mmap_index(repo);
				let nm = mmap_nodemap(nm_path);

				match &app.command {
				Command::Create => {
				println!(
				"Creating nodemap file {} for repository {}",
				nm_path.display(),
				repo.display()
				);
				create(&index, Path::new(nm_path)).unwrap();
				}
				Command::Bench { queries } => {
				println!(
				"Doing {} random queries in nodemap file {} of repository {}",
				queries,
				nm_path.display(),
				repo.display()
				);
				bench(&index, &nm, *queries);
				}
				Command::Query { prefix } => {
				println!(
				"Querying {} in nodemap file {} of repository {}",
				prefix,
				nm_path.display(),
				repo.display()
				);
				query(&index, &nm, prefix);
				}
				}
				}