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.
Introduce a `stats` module to compute normalized storage efficiency metrics. The new `KmerIndex::bits_per_kmer()` method parallelizes disk I/O across partitions to aggregate file sizes for MPHF, evidence, and matrix components. Publicly export `IndexBitsPerKmer` and add a `--bits-per-kmer` CLI flag to trigger the diagnostic routine and print detailed statistics.
Expands MkDocs navigation and documentation for evidence elimination, the merge command, and kmer filtering. Refactors kmer representation to a generic `KmerOf<L>` type with a bitwise reverse complement algorithm. Unifies MPHF construction, introduces approximate fingerprint-based indexing, and updates the pipeline, chunkreader, and storage layouts. Adds code coverage reports and clarifies architectural invariants for improved maintainability.
Eliminates intermediate allocations by computing per-genome window minimums (`win_min`) directly. Unifies the `z ≤ 1` and `z > 1` branches into a single buffer-reused accumulation loop, efficiently validating k-mer presence.
This change replaces direct partition-based extraction with a pipeline that reconstructs a de Bruijn graph from filtered k-mers. It introduces `FilterArgs` for k-mer selection, collects filtered k-mers in parallel into a `GraphDeBruijn`, computes node degrees, and enumerates unitigs from the graph for output instead of reading pre-computed partition files.
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.
Introduce a `passes_all` utility to validate kmer rows against multiple filters using short-circuit logic. Integrate a `filters` parameter into the iteration functions to conditionally emit kmers based on filter results. Extract repetitive layer traversal and filtering into an `iter_src_layers` helper, refactoring Pass 1 and Pass 2 to eliminate duplication. Additionally, add a debug conditional to the dump output to include partition and layer metadata alongside kmer sequences.
Introduces a metadata-driven filtering system for the rebuild command, classifying genomes into ingroup and outgroup categories using exact, inequality, and hierarchical path predicates. Implements a GroupQuorumFilter to enforce configurable presence thresholds and fraction constraints per group. Refactors the command to replace global quorum filters with this unified approach, converts the presence flag to a threshold parameter, and adds corresponding documentation and MkDocs navigation.
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.
Explicitly close file handles and remove temporary artifacts after serialization to prevent disk space leaks. Additionally, compact internal matrix structures immediately upon loading the KmerIndex to improve memory efficiency and prepare for downstream operations.
Introduces a `kmer_overlap` variable (`k-1`) and modifies the `total_bases` accumulation to subtract this overlap from each sequence's length. This ensures the base count accurately reflects only valid k-mer starting positions rather than raw sequence length.
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.
Unifies bit and integer matrix storage into `PersistentBitMatrix` and `PersistentCompactIntMatrix` enums, supporting both columnar and memory-mapped single-file layouts. Introduces `LayerMeta` to persist layer dimensions as `layer_meta.json`, enabling correct initialization of implicit presence matrices. Adds CLI commands (`pack` and `--upgrade-index`) to convert existing columnar indices to the compact format and backfill missing metadata. Updates partitionner and layered map logic to use the new persistent builders, optimized memory allocation, and auto-detected storage backends.
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 `PreloadedIndex` to cache partition indices and eliminate redundant I/O during repeated queries. Refactor the query pipeline to route through this pre-loaded index, and expose it publicly in `obikpartitionner`. Additionally, add a thread-safe, lazily-initialized `MultiProgress` singleton for improved progress tracking.
Adds comprehensive logging for source metadata, merge modes, and forced approximation detection. Introduces `format_evidence` and `is_trivial` helpers to format `IndexMode` variants and identify single-genome presence indices. The core merge algorithm remains unmodified, with all changes focused on enhanced runtime observability.
Adds validation to ensure all input sources share the same `IndexMode`. Introduces base index selection logic that prioritizes approximate or hybrid evidence and maximizes base size to minimize newly indexed k-mers. Includes helper functions for triviality evaluation, cumulative size calculation, and mode consistency checks.
Replace mphf.find() with direct mphf.index() calls to eliminate absence checks and fallback vectors. Introduce a lightweight MphfOnly wrapper for faster index loading, and standardize k-mer iteration across merge and rebuild layers. Update IndexMeta configuration and n_new calculation to leverage MPHF cardinality, streamlining the overall merge pipeline.
Replace the documented direct combined indexing command with a two-step workflow. This involves building separate exact indexes per genome, merging them into a single multi-genome index via `obikmer merge`, and keeping the approximate index conversion unchanged.
Abstracts k-mer storage using a `RawKmer` alias and `KMER_BITS` constant to simplify bit manipulation and enable future extension to larger types. Updates bit-shifting and masking logic across `kmer.rs` and `packed_seq.rs` to prevent overflow and improve type safety. Adapts the MPHF layer to iterate over indexed canonical k-mers with explicit slot bounds validation and bit-level encoding. Fixes test suite compilation errors by correcting method names, adding tuple destructuring, and passing the required `IndexMode::Exact` parameter.
Implements `iter_canonical_kmers` in `unitig_index` to yield canonical kmers by traversing unitig chunks. Includes unit tests to verify that the iterator exclusively yields canonical kmers and matches `iter_kmers` in count and canonical equivalence.
Fix a stray prefix in the README heading and update documentation to reflect the query pipeline's operation on `s-mers` (`s = k - z + 1`) with post-partition z-window filtering. Clarify the Findere trick, including k-mer size reduction, consecutive match requirements, and false positive rate calculations. Additionally, expand input format documentation to cover supported file extensions, gzip compression, recursive directory handling, and `query` command specifications.
Refactor the query pipeline to buffer partition outputs into a per-sequence `seq_results` vector, deferring final accumulation until all partitions complete. This ensures global position ordering before computing k-mer presence, counts, and coverage statistics. Additionally, removes a resolved TODO and documents a known BLAST false-positive issue where chloroplast and bacterial contaminants yield unrealistic high-confidence matches.
Enable approximate k-mer indexing via the `--approx` flag, computing an effective k-mer size of `k - z + 1` and configuring the appropriate indexing mode with validated probabilistic parameters. Refactor the Findere z-window filter in the query command to improve performance and correctness by replacing the precomputed vector with a lazy closure, optimizing cache locality, and fixing a variable naming bug.
Extracts chunk processing into a dedicated function and introduces a QueryData enum with unsafe Send/Sync implementations to safely distribute Rope chunks across worker threads. Replaces nested iteration with a flat iterator and parallel block processing. Adds CLI argument parsing for presence, threshold, and detail flags to configure the pipeline.
Introduces a unified NucStream abstraction with NucPageCursor for byte-offset tracking and MIME-type dispatch to instantiate format-specific parsers. Exposes nuc_stream and open_nuc_stream APIs that return boxed, Send-compatible iterators. Additionally, adds a comprehensive test suite covering chunk boundary alignment, FASTA/FASTQ record parsing, sequence normalization, and edge cases such as CRLF line endings, @ in quality strings, and multi-slice rope processing.
Replace the existing chunk and Rope-based processing pipeline with a fixed-size NucPage architecture. Introduce a new nucstream module featuring buffer-pooled, in-place parsing that auto-detects and decompresses FASTA/FASTQ/GenBank inputs into normalized ACGT streams with k-mer overlap preservation. Update obikmer scatter and superkmer stages to consume NucPage iterators and cursor-based navigation, eliminating std::io::Read dependencies and optimizing memory management. Add a configurable max_open_files CLI argument and update implementation documentation to reflect the new record vs. stream reading paths.
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 `CommonArgs::validate()` to enforce strict constraints on `--kmer-size` (odd, 11–31), `--minimizer-size` (odd, 3–k−1), and `z` (strictly less than k). This validation is applied at the entry point of the `superkmer` and `index` commands to prevent invalid configurations, avoid palindromes, prevent u64 overflow, and ensure positive effective indexing sizes. Documentation is updated to reflect these runtime checks and immediate termination on invalid input.
Introduces the `--findere-z` CLI flag to override the index's sliding window parameter and implements `apply_findere` to filter k-mer hits using a z-consecutive positions window. Adds structural support for `--detail` mode, including per-sequence k-mer offsets, conditional allocation of per-position coverage vectors, and JSON serialization. Updates architecture documentation, CLI references, and annotation schemas to align with the new implementation, resolving prior discrepancies with `--detail` and `--mismatch` flags.
Added `is_empty()`, `clear()`, and `iter()` methods to the rolling statistics buffer to enable standard traversal and state reset operations. Documented genome label constraints, specifying forbidden characters, empty label rejection, space quoting requirements, and auto-derived label bypass rules. Additionally, updated doc comments and added `#[allow(dead_code)]` attributes for `kmer_offset` and `n_kmers` fields to suppress compiler warnings while reserving them for future `--detail` coverage vector logic.
Introduces a `utils` CLI subcommand to enable in-place genome label renaming without full reindexing. Adds strict label validation to reject empty strings, filesystem separators, and control characters, ensuring safe CSV serialization. Updates index metadata, renames corresponding spectrum JSON files, and registers the command in the main dispatch logic. CLI reference documentation is also updated.
Update CLI validation to require at least 10 input paths, defaulting to stdin (`-`) when the argument list is empty. Refactor the path iterator to explicitly recognize the stdin sentinel, bypassing extension validation and directory expansion to ensure direct passthrough to the file buffer without triggering `stat()` or recursive traversal.
Centralizes index configuration by storing a single `IndexMode` (`Exact`, `Approx`, or `Hybrid`) in `PartitionMeta`, eliminating per-layer metadata files. Introduces a `Hybrid` evidence mode and an `--approx` CLI flag to toggle between exact and probabilistic indexing. Refactors the build and query pipelines to dynamically dispatch based on the configured mode, deferring `.idx` generation to Pass 2 and only requiring it for Exact/Hybrid modes. Updates layer opening to load appropriate data structures, enforces strict parameter validation during merges, and clarifies performance trade-offs in documentation.
Replace EvidenceKind with IndexMode (Exact, Approx, Hybrid) across layer construction and query dispatch. Update PartitionMeta and LayerMeta serialization to centralize index-wide configuration. Add flexible push_layer overloads to LayeredMap for dynamic index expansion without full rebuilds. Improve UnitigFileReader to gracefully fallback to sequential scanning when indexes are missing, eliminating panics.
Replaces parallel random-access unitig iteration with a sequential mmap-based iterator for MPHF construction, eliminating the build-time `.idx` dependency by deferring index generation until after persistence. Updates `CLAUDE.md` to treat existing code as a hypothesis, mandating proactive removal of obsolete legacy constructs rather than preserving them out of inertia.
Introduce a secondary layer iteration to open `SrcLayerData` alongside the unitig reader for concurrent metadata access. This refactors the merge routine to handle kmer deduplication and per-layer data initialization simultaneously. Also corrects a typo in `rebuild_layer.rs` where `openopen_sequential` is renamed to `open_sequential`.
Refactored `MphfLayer::build` to accept an `EvidenceKind` parameter, routing to exact (index-based, parallel MPHF, writes `evidence.bin`) or approximate (sequential mmap iterator, writes `fingerprint.bin`) pipelines. Introduced `CanonicalKmerIter` for memory-mapped, chunked k-mer iteration with O(1) resets via `Arc<Mmap>`. Updated layer and map APIs to forward evidence kind, added `push_layer` for count matrices, and adjusted tests and public exports accordingly.
Refactor `Kmer`, `SuperKmer`, and chunk reader into optimized, generic representations with compile-time length parameters and bitwise operations. Update the pipeline and scheduler to support batch processing, 1→N flat transformations, and multi-source merging. Introduce an approximate evidence mode using b-bit fingerprints and `.idx` files, alongside existing exact mode. Update CLI documentation, minimizer selection, and query output schema accordingly.
Restructure architecture documentation to reflect the decoupled `MphfLayer` design wrapped by `LayeredStore<S>` and enforce strict multi-genome column invariants. Introduce the approximate index architecture, replacing exact `evidence.bin` with compact `fingerprint.bin` using B-bit fingerprints and z-consecutive k-mer matching. Update CLI flags, add `reindex`/`estimate` workflows, and refactor APIs to support separate exact/approximate evidence handling. Finally, provide a comprehensive on-disk layout specification, including the pipeline state machine, JSON schemas, binary formats, and refined Strategy B unitig evidence details.
These files catalog test coverage for Rust modules across architecture, implementation, and theory sections. They track recent structural changes, flag areas prone to documentation drift, and mandate verification of key parameters and routing logic to maintain alignment with the active codebase.
Bypasses bitwise shift and mask operations when `block_bits == 0`, directly indexing `self.block_offsets[i]` instead. This eliminates unnecessary arithmetic overhead for single-block cases while preserving the original block-based offset calculation for larger block sizes.
Eric Coissac
coissac