Replaces the fallible NUMA topology builder with an infallible fallback that synthesizes a single-node UMA configuration on failure or absence. Refactors PartitionRunner to pre-spawn dormant workers and dynamically activate them via CPU efficiency thresholds, replacing static upfront spawning with adaptive scaling. Bumps obikmer crate version to 1.1.15.
Injects PKG_CONFIG_ALLOW_CROSS=1 into the static binary build step to ensure correct native dependency resolution during musl target compilation with cargo zigbuild. Also updates the obikmer crate version from 1.1.13 to 1.1.14.
Update the obikmer crate version from 1.1.12 to 1.1.13 in Cargo.toml. Additionally, change the Makefile's Git revision specifier from @- to @ to ensure the version tag is applied to the current commit before pushing.
Update Cargo.toml to 1.1.12 for a semver patch release. Refactor the Makefile release target to explicitly retrieve the parent commit hash via `jj log` and apply the tag, replacing implicit working directory tagging. Remove `jj auto-describe` and `--change @` in favor of an explicit `git push origin` for the version tag.
Add the `--break-system-packages` flag to the `pip install ziglang` command in the Gitea release workflow to bypass PEP 668 restrictions on modern Linux distributions. Additionally, bump the `obikmer` crate version from 1.1.9 to 1.1.11 across both Cargo.toml and Cargo.lock.
Bumps the obikmer crate version from 1.1.7 to 1.1.9 in Cargo.toml and Cargo.lock. Updates the Gitea release workflow to dynamically locate the Zig compiler via Python, generating musl-targeted gcc/g++ wrapper scripts installed to /usr/local/bin for static Linux cross-compilation during releases.
Replaces the musl-based static Linux build toolchain with Zig (`ziglang` via pip and `cargo-zigbuild`), removing `musl-tools` dependencies. The workflow now invokes `cargo zigbuild` for cross-compiling the static binary. Additionally, bumps the `obikmer` crate version to 1.1.7.
Bumps the obikmer crate version from 0.1.4 to 1.1.6 in Cargo.toml and Cargo.lock. Updates the Makefile release target to automatically extract the version, create a Git tag, and push it to the remote repository, extending the existing workflow with standard Git publishing steps.
Replaces the intermediate artifact upload step in the Gitea release workflow with a direct REST API call, eliminating unnecessary dependencies and adding `jq`. Also increments the obikmer crate version to 0.1.4.
Update CI workflows to explicitly install the Rust toolchain via rustup and configure musl targets for deterministic static builds in Docker containers. Bump obikmer dependency to 0.1.3. Refactor obicompactvec to reduce peak memory usage by computing column sizes from filesystem metadata, add atomic writes, and implement cleanup guards. Replace parallel iteration patterns in obikindex with a structured PartitionRunner pipeline for simplified error handling and progress tracking.
Adds Gitea Actions for continuous integration and tagged releases, including static musl binary compilation and artifact upload. Introduces a Makefile target to automate semantic version bumping and publishing. Bumps the package version to 0.1.1 and enables automatic `--version` output via Clap.
Adds the `obitaxonomy` crate to parse and validate hierarchical taxonomy paths using a strict `taxonomy:/name@rank/...` syntax. Replaces generic string-based path matching in predicates with structured `TaxPath` and `TaxPattern` types, enforcing explicit anchor constraints and rank-aware semantics. Updates filtering documentation to clarify optional leading slashes and segment-boundary matching rules.
Introduces a Make-based orchestration for simulating, indexing, merging, filtering, and verifying k-mer counts and presence. Exposes internal builder and iterator APIs publicly, enforces mandatory leading slashes for predicate patterns, registers the `obitaxonomy` crate, and updates tooling configurations alongside documentation.
Replaces the global Rayon pool with per-NUMA-node thread pools that pin worker threads to their respective nodes, leveraging Linux first-touch allocation to reduce cross-NUMA memory contention and improve cache locality. Integrates the `hwlocality` crate with a vendored build, includes graceful fallbacks for single-socket or non-Linux systems, and updates dependency constraints. Also adds installation and architecture documentation, and corrects parallelism detection in the partitioner.
Introduce CpuSample to measure process-level CPU efficiency and wall-clock time. Use crossbeam-channel to distribute partition merging tasks to a dynamic worker pool that scales based on CPU utilization, capped at half the available cores. Update diagnostics to track pool usage.
Add `rayon` and `crossbeam-channel` dependencies to support concurrent execution. Replace the synchronous, mutex-protected closure pattern with a channel-based producer-consumer approach using `std::thread::scope`. This decouples unitig iteration from processing, eliminating lock contention and `Mutex` overhead while enabling parallel workloads.
Introduce the `obipipeline` dependency and refactor merge and partition logic to leverage parallel execution. Update `merge_partitions` to use rayon with dynamic memory budgeting and concurrency control via a pilot run. Refactor Pass 1 to concurrently read unitigs, filter kmers through a shared `LayeredMap`, and populate the graph safely. Simplify diagnostics to report total kmer counts and replace manual flags with graph length validation.
Add the `tracing` crate to `obidebruinj`, `obisys`, and resolve it in `Cargo.lock`. Replace `eprintln!` statements with structured `debug!` and `info!` macros. Introduce a `TracedBar` wrapper for progress bars and enhance the `Stage` lifecycle to emit structured events for timing, memory metrics, and swap warnings. Add a progress spinner for unitig degree computation. Extend `PersistentBitMatrix` with columnar bit-vector operations and parallel distance methods, enabling uniform distance computations across all storage layouts while replacing previous panics with dimension-based fallbacks.
Integrate rayon to enable parallel processing of k-mer partitions and degree computation. Replace Cell with AtomicU8 to ensure thread-safe node state management, and add a merge method for combining disjoint graphs. Additionally, introduce progress tracking utilities and a test-utils feature flag for development dependencies.
Add the `obidebruinj` dependency and introduce `FilterArgs` CLI arguments for ingroup/outgroup predicates and count/fraction thresholds. Extend `GroupFilterParams` to support outgroup filtering, and integrate the filter collection into `KmerIndex::dump` and `rebuild` commands. This enables selective k-mer filtering during index operations and CSV exports.
This commit introduces the `obisys` crate, which wraps `indicatif` to provide reusable `spinner` and `progress_bar` utilities with consistent styling and tick intervals. It refactors progress reporting across `obikindex`, `obikpartitionner`, and `obikmer` to use these shared functions, eliminating inline UI configuration and ensuring uniform terminal feedback.
This change adds the `obikseq` crate as a local dependency and inserts `set_k` and `set_m` calls across index creation and command modules. By synchronizing the runtime's global k-mer and minimizer dimensions with the loaded index parameters, downstream sequence processing and partitioning operations now consistently use the correct structural constraints.
Introduce zero-allocation row extraction and query result buffers across `obicompactvec` and `obikpartitionner` to eliminate per-kmer heap allocations. Replace in-memory MPHF deserialization with memory-mapped, zero-copy views to reduce runtime memory footprint. Add configurable I/O chunking, a RAM-aware `--chunk-size` parameter, and system memory monitoring via the new `sysinfo` dependency. Re-export `PreloadedIndex` for external consumers.
Introduce the `obiread` crate with a streaming byte normalizer that processes FASTA, FASTQ, and GenBank files using a 64 KiB ring buffer for O(1) memory usage. Integrate this crate into `obiskbuilder` to provide `SuperKmerStreamIter`, enabling memory-efficient superkmer traversal with rolling entropy and minimizer-based cut conditions.
Introduces a new `estimate` CLI subcommand to calculate bloom filter size, evidence bits, and false-positive rates for approximate indexing. Updates the index building and querying pipelines to support both exact and approximate evidence types via a unified `EvidenceKind` abstraction. Refactors `MphfLayer` and partition index builders to route operations based on the selected evidence mode, and adds the required `obilayeredmap` dependency.
Introduce a new `fingerprint` module that stores packed B-bit vectors via memory-mapped files. Expose the module publicly and add `build_approx_evidence` to `Layer` and `MphfLayer` for generating compact `fingerprint.bin` files. Implement `find_approx` for fast, probabilistic kmer lookups using configurable bit-widths. Update dependencies to `bitvec` v1 and add `cacheline-ef`, `epserde`, and `memmap2` to support the new storage and serialization logic.
Explicitly add `bzip2-sys` and `liblzma-sys` with the `static` feature to the `obiread` crate. This enforces static linking for BZ2 and LZMA/XZ backends, eliminating runtime dynamic library dependencies and ensuring consistent binary distribution.
This commit replaces raw string genome labels with a structured `GenomeInfo` type for better metadata tracking. It adds a `--meta` flag to the index command, and implements a new `annotate` CLI subcommand to import metadata from CSV files or export it via `--dump`. Distance and shared-count matrices are now serialized to CSV, with UPGMA clustering trees exported as Newick files. Query outputs now include per-genome k-mer match counts in JSON, while fixing syntax and variable naming issues in index merging and dump generation.
This change introduces the `query` CLI command and its supporting infrastructure for sequence-to-genome mapping and k-mer matching. It adds a `QueryLayer` abstraction backed by MPHF and persistent matrices, exposes the index partition for direct querying, and implements `Hash`/`Eq` for `RoutableSuperKmer`. The command ingests sequence batches, deduplicates superkmers, routes them to index partitions for parallel exact or 1-mismatch matching, and outputs results as FASTA records annotated with JSON metadata. Includes `serde_json` dependency addition, module exports, and documentation updates.
This commit introduces a new `distance` CLI subcommand that computes pairwise genomic distance matrices using configurable metrics (Jaccard, Hamming, Bray-Curtis, Euclidean, and Hellinger). It optionally generates phylogenetic trees (NJ or UPGMA) in Newick format and outputs results as CSV. The implementation adds a robust distance computation backend that dynamically routes to optimized backends based on index configuration, supports parallel iteration, and gracefully handles missing data. Additionally, it adds a `dump` task for exporting k-mer to genome mappings as CSV, introduces an `InvalidInput` error variant, updates dependencies to support numerical operations and tree construction, and performs minor module reorganizations.
Refactors obikindex and obikpartitionner to delegate index construction to a new layered MPHF implementation. Adds resume-safe building with abundance filtering and count persistence, while introducing a PartitionMeta struct for JSON configuration persistence. Updates OKIError to wrap layer-specific errors, replaces single-path extraction with full path collection and logging, and registers new internal dependencies across the workspace.
Extracted core indexing logic, state tracking, and metadata management into a new `obikindex` crate. Refactored the `index` and `unitig` commands to leverage the `KmerIndex` abstraction and state-driven pipeline transitions. Removed obsolete CLI subcommands (`count`, `fasta`, `longtig`, `partition`) and their associated pipeline steps. Updated FASTA writing utilities for single-line output and deterministic identifiers, and refreshed workspace dependencies.
Introduce the `index` CLI subcommand, implementing a resumable, multi-stage pipeline to partition, dereplicate, and count kmers from input sequences. The command builds a layered de Bruijn graph index per partition, applies optional abundance filtering, and persists unitigs alongside an MPHF-based count matrix. Update `Cargo.toml` and `Cargo.lock` to include new dependencies (`epserde`, `ptr_hash`, `cacheline-ef`, `obicompactvec`, `obilayeredmap`) required for the index builder, and refresh the profiling data files.
Add `indicatif` v0.17 to `obikmer` and `obikpartitionner` to instrument CLI workflows with real-time progress tracking. The changes integrate progress spinners and bars into the batch processing and parallel kmer counting loops, displaying processed base pairs, throughput rates, and elapsed time. Updates occur every 0.1s to enhance observability without modifying core partitioning logic.
Added obisys as a local dependency and integrated its Reporter and Stage instrumentation into the partition command. Each major phase (scatter, dereplicate, and kmer-counting) is now wrapped in timing blocks, with aggregated execution times printed to stdout upon completion.
Replace in-memory hashing with a disk-backed external merge sort and `PersistentCompactIntVec` to drastically reduce peak RAM. Unify both phases using a custom `PtrHash` MPHF, eliminating `GOFunction` and `boomphf`. Introduce a concrete three-step `count_partition()` pipeline with adaptive chunk sizing based on available system memory. Update dependencies to `memmap2`, `ptr_hash`, and `obicompactvec`. Additionally, document strict genomics-only memory constraints and enforce an architectural feedback workflow requiring explicit user authorization before structural changes.
Introduces ColumnWeights, CountPartials, and BitPartials traits to compute and finalize partial distance matrices. Implements these traits for PersistentBitMatrix, PersistentCompactIntMatrix, and a new LayeredStore<S> wrapper that aggregates metrics across layers via parallel reduction. Adds ndarray for numerical aggregation and updates architecture documentation to reflect the trait-driven design and pending refactoring roadmap.
Introduce parallel distance matrix generation using `ndarray` and `rayon` for both `BitMatrix` and `IntMatrix`. Adds full and additive-partial variants for Jaccard, Hamming, Bray-Curtis, Euclidean, and Hellinger metrics. Includes comprehensive unit tests verifying matrix symmetry, zero diagonals, and numerical correctness against pairwise calculations.
Replace the hardcoded `Counts` module with a generic `LayerData` trait, parameterizing `Layer` and `LayeredMap` over arbitrary payload types. This decouples read-path access from build-path logic, enabling both set membership and count-based indexing via `PersistentCompactIntVec`. Adds the `obicompactvec` dependency, implements streaming layer construction, and expands test coverage for persistence and multi-layer resolution.
Introduce the `obicompactvec` crate, featuring a two-tier, memory-mapped integer vector that uses a primary `u8` array with a sentinel for overflow dispatch and a sparse L1-resident index for fast random access. Implement builder and reader modules with zero-copy serialization and comprehensive test coverage. Update `obilayeredmap` to replace the default hash function with a cache-line-optimized `Mphf`, adding explicit bounds checking and duplicate-slot detection. Add documentation for both modules and update project configuration files accordingly.
Replace `ph` with `ptr_hash` and introduce `epserde` and `rayon` dependencies. Refactor MPHF construction to leverage parallel iteration, eliminating intermediate `Vec<u64>` allocations and reducing memory footprint. Add a `n_kmers` field to track and serialize total kmer counts, alongside three zero-allocation iterators for efficient chunk traversal. Include comprehensive unit tests for the new iterators and update CLAUDE.md to enforce explicit dependency validation policies.
Introduces the `obilayeredmap` crate (v0.1.0), implementing an append-only, disk-backed k-mer index using a minimal perfect hash function (MPHF). The module features memory-mapped reads, buffered writes, custom error handling, partition metadata persistence, and comprehensive unit tests. Also adds a reverse complement benchmark for `obikseq` and updates `Cargo.lock` with the new dependencies.
Introduce the `obilayeredmap` specification and persistent MPHF-based index architecture for incremental multi-dataset indexing. Implement chunked binary serialization with a fixed `u8` k-mer count limit (256) and overlapping super-kmer segments. Add memory-mapped I/O and a companion `.idx` index file for allocation-free, O(1) unitig access. Update MkDocs navigation, enhance the k-mer comparison script, and add comprehensive tests for serialization, partitioning, and file I/O pipelines.
Centralize k-mer and minimizer configuration using a thread-safe global module, and replace manual bit-packing with a memory-efficient `PackedSeq` type. Refactor core sequence and k-mer types to use compile-time length enforcement and centralized hashing. Introduce a new De Bruijn graph implementation with compact node encoding and traversal iterators. Update I/O, partitioning, and builder modules to align with the new architecture, and add the `xxhash-rust` dependency.
Replace raw SuperkMer routing with a new RoutableSuperKimer type that embeds canonical sequences and precomputed minimizers, enabling direct partition routing via hash. Update the build pipeline to yield RoutableSuperKmers throughout (builder, scatterer), refactor FASTA/unitig export commands to use the new type and compressed outputs (.fasta.gz, .unitigs.fasta.zst), revise SuperKmer header to store n_kmers instead of seql (avoiding 256-byte wrap), and update documentation to reflect minimizer-based theory, two evidence-encoding strategies for unitig-MPHF indexing (global offset vs. ID+rank), and the new obipipeline library architecture with parallel workers, biased scheduling, and error handling.
- Remove redundant validation logic in login handler
- Consolidate session token generation into a single utility function
- Update error handling to use consistent HTTP status codes
- Replace `limits` module and raw binary I/O with a new high-level abstraction using obiskio::SKFileWriter
- Remove `niffler` dependency and compression logic (Gzip/Zstd/Lz4/Bgzf)
- Simplify PartitionManager to manage partitioned file writers based on kmer hashing
* Uses `n_partition_bits` for bitmask-based partition selection (2^n partitions)
- Add obiskio as a local dependency
Note: This is likely part of aligning with unified I/O primitives in the obiskio crate.
Eric Coissac