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.
Integrates an obisys::Reporter across indexing and command modules to capture execution metrics. Replaces discarded timer stops with explicit rep.push() calls, adds timing instrumentation for the pack stage, and prints collected reports after each selection branch.
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.
Introduces `new_ones` and `add_col_ones` methods to directly initialize all-ones bit vectors and matrix columns. This replaces redundant initialization sequences that created zero-filled structures and applied bitwise NOT, with a single pass that writes contiguous 0xFF bytes to disk. The change eliminates inversion overhead, streamlines test setup, and improves performance for filter mask intersection logic while preserving identical semantics.
Refactor bitmatrix, colgroup, and layer modules to replace manual iteration with concise `or_where` predicates and bulk inversion calls. This simplifies the codebase and leverages optimized internal implementations for improved performance.
Adds `FilterMask` and conditional bitwise methods (`*_where`) to `obicompactvec` for composable column-based slot filtering. Extends `obikpartitionner` with a `MatrixGroupOps` trait and `column_mask_expr` method to express aggregate constraints as vectorized masks. Refactors matrix builder management into a unified `Builders` enum and introduces `try_compute_combined_mask`, enabling O(1) slot checks and skipping unnecessary row reads during partitioning and rebuilding passes.
Expands MatrixGroupOps with partial_group_min/max helpers for bitwise reductions and introduces add_col_from methods to persist external vectors as matrix columns. Refactors column aggregation in the partitioner to leverage these group operations directly, replacing iterative row processing with simplified builder lifecycle management and explicit metadata serialization.
Replace trait-based API documentation with concrete, zero-copy view structs and update all associated diagrams. Refine algorithmic descriptions for sentinel handling, overflow stores, and bulk operations. Clarify temporary file lifecycles and group-chunking strategies to support memory-efficient parallel aggregation.
Refactors column and matrix access to use unified `BitSliceView` and `IntSliceView` abstractions, replacing legacy `PackedCol`/`IntColView` types. Introduces `BitSlice`/`IntSlice` traits for zero-copy, trait-based bitwise and arithmetic operations across persistent and temporary vector types. Removes deprecated in-memory `MemoryBitVec` and `MemoryIntVec` implementations and their tests, while updating dependent crates to use the new view-based API and `BitSliceMut` trait.
Introduces `TempCompactIntVec` and `TempBitVec` as temporary, file-backed intermediates to replace eager in-memory vectors, enabling OS-level paging under memory pressure. Updates the `MatrixGroupOps` trait to return `io::Result` types, allowing proper error propagation and supporting chunked accumulation for large column groups. Includes builder patterns with `.freeze()` finalization, automatic `TempDir` cleanup on drop, and necessary test updates to handle the new fallible signatures. Also fixes `Cargo.toml` section ordering.
Introduce the `ColGroup` struct and `MatrixGroupOps` trait to manage named subsets of column indices and perform additive aggregations (count, sum, any). Implement these operations for `PersistentBitMatrix` and `PersistentCompactIntMatrix`, applying size-optimized branches for presence counts and direct accumulation for small groups. Additionally, add a `mask_with` trait method that efficiently zero-sets elements based on a mask, optimized for sparse masks with O(n_zeros) complexity. Include comprehensive tests covering overflow handling, slot masking, and result additivity across partitioned data.
This commit introduces `BitColView` and `IntColView` to abstract over Columnar and Packed storage formats, implementing `BitSlice` and `IntSlice` for uniform column access. It adds `col_view()` accessors to `PersistentBitMatrix` and `PackedCompactIntMatrix`, explicitly panicking on implicit variants. The new types are publicly re-exported, and unit tests are added to validate per-element retrieval, aggregation methods, and parity with the original columnar representation.
Add Mermaid diagrams to visualize the trait hierarchy, compact int storage layout, and SIMD-vectorizable arithmetic operations for MemoryIntVec and PersistentCompactIntVec. Also document concrete type structures and planned layer/partition composition rules to improve documentation clarity.
Document the two-tier compact integer encoding, BitSlice/IntSlice trait hierarchy, and SIMD-friendly O(n+k) algorithms. Include details on concrete memory and persistent vector types, matrix aggregation traits, and planned group-filtering APIs.
Refactor `cmp_scalar`, `min`, `max`, `add`, and `diff` to operate directly on the primary byte array, deferring overflow slot resolution to a secondary pass. This eliminates HashMap lookups in the hot path and enables SIMD vectorization. Add six unit tests to validate correct promotion and demotion between storage slots when values cross the 255 threshold.
Implemented `sum()`, `count_nonzero()`, and `iter()` to complete the numeric vector interface. The builder now computes aggregate values across memory-mapped regions and overflow entries, while the reader delegates these operations to its inherent methods. The iterator provides zero-copy access to underlying `u32` elements.
Refactor `BitIter` to process `u64` chunks using word-aligned shifts instead of byte-level operations. Introduce a dedicated `MemoryBitIter` for `MemoryBitVec`, updating its `iter()` and `IntoIterator` implementations accordingly. Hide `MemoryBitIter` from the public API to narrow the crate's interface, while leveraging explicit alignment guarantees for safer and more efficient bit extraction.
Centralizes overflow handling and improves modularity by replacing manual mmap indexing and row loops with composable iterator patterns. This change leverages Rust's iterator traits for efficient, idiomatic column traversal while encapsulating data access in a dedicated view struct.
Refactors bit manipulation and distance calculations to leverage standardized `BitSlice` traits, replacing manual byte/word logic with safer, reusable methods. Extends `IntSlice` and `IntSliceMut` traits to expose direct memory-mapped access and overflow management, enabling efficient bulk data extraction and serialization. Replaces manual bit-shifting loops with optimized table-based unpacking and adds population count and distance metric methods for improved performance. Updates `PersistentBitVecBuilder` with file tracking and safe flushing, and aligns test imports with new trait bounds.
Introduce `byte_sum` and `byte_count_nonzero` to efficiently aggregate compact-int byte slices, bypassing per-element decoding and overflow map lookups. Refactor `sum()` and `count_nonzero()` across the matrix, reader, and traits modules to use direct memory-mapped slice iteration and idiomatic Rust iterators. Additionally, expose `MemoryIntIter` publicly and implement `IntoIterator` and `IntSlice` for `MemoryIntVec` to enable standard iteration and delegate aggregation to the new helpers.
Refactor parallel matrix construction by extracting reusable `pairwise_matrix` and `pairwise2_matrix` helpers, and consolidate binary record deserialization into dedicated parsing functions. Add `set` and `iter` methods to `BitSliceMut` and `MemoryBitVec` for ergonomic bit manipulation and iteration. Standardize JSON field extraction via `meta::field`, expose `MemoryBitIter`, and improve test reliability by automatically cleaning up temporary directories.
Introduce `MemoryBitVec` and `MemoryIntVec` for efficient in-memory storage with hybrid compression and overflow handling. Implement `BitSlice`, `BitSliceMut`, `IntSlice`, and `IntSliceMut` traits across persistent and memory-backed types to enable generic slice operations and bitwise/arithmetic overloads. Add `col_persist` and `col_as_memory` methods to `BitMatrix` and `IntMatrix` for efficient column extraction. Align with the new single-pass rebuild architecture by supporting fast kmer filtering and matrix rebuilding. Includes comprehensive tests and profiling instrumentation for the packing phase.
Replaces `rayon` parallel iteration across index, rebuild, reindex, and select modules with a custom `PartitionRunner`. This introduces NUMA-aware task distribution with CPU pinning and round-robin scheduling, eliminating `Arc`, `Mutex`, and atomic synchronization primitives in favor of a flat, pre-spawned worker architecture. Error handling is simplified via `.map_err()` and the `?` operator, while progress bar updates are decoupled into dedicated callbacks.
Replaces `rayon` parallel iteration across index, rebuild, reindex, and select modules with a custom `PartitionRunner`. This introduces NUMA-aware task distribution with CPU pinning and round-robin scheduling, eliminating `Arc`, `Mutex`, and atomic synchronization primitives in favor of a flat, pre-spawned worker architecture. Error handling is simplified via `.map_err()` and the `?` operator, while progress bar updates are decoupled into dedicated callbacks.
This commit restructures the partitioner crate by extracting shared utilities and the `ColBuilder` enum into a new `common` module. It introduces a multi-phase `graph_pipeline` for constructing and materializing De Bruijn graphs, replacing manual graph construction in `index_layer`, `merge_layer`, and `rebuild_layer`. All layer workflows now use centralized `build_graph` and `materialize_layer` abstractions, with standardized error context strings for improved diagnostics.
Replaces the previous partition processing logic with an adaptive, NUMA-aware multi-threaded worker pool that dynamically scales active threads based on real-time CPU efficiency. Introduces pre-spawned, CPU-pinned threads managed via crossbeam channels and Rayon to optimize memory bandwidth and core utilization. Adds a `max_workers()` accessor to aggregate maximum worker capacity across NUMA nodes and updates diagnostics to report active versus maximum worker counts.
Replace NUMA-naive Rayon loops and ad-hoc adaptive pools with a unified `PartitionRunner` that manages a NUMA-aware worker pool. The implementation uses pinned Rayon thread pools per node and activates dormant threads based on real-time CPU efficiency metrics. This standardizes partition-level parallelism, optimizes memory locality, and eliminates cross-socket traffic. Includes architecture documentation and updates mkdocs navigation.
Introduces a counting semaphore-based throttling mechanism to limit concurrent file I/O and pipeline processing. Replaces custom path wrappers with standardized `Throttled` types across `obikmer` and `obikpartitionner`, ensuring RAII-based resource cleanup and explicit backpressure. Additionally, documents how to redirect Cargo build artifacts to local scratch storage on HPC filesystems to prevent compilation slowdowns.
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.
Centralize inline spawn checks into a `should_spawn_worker` function with adaptive thresholds. The first worker spawns at <95% CPU efficiency, while subsequent workers only trigger if marginal efficiency gain exceeds 25% of the expected `1/n_workers` (minimum 3%). Also increases the spawn poll interval from 10s to 20s.
Updated memory guidelines and feedback docs to explicitly classify intra-partition phases as parallel, correcting prior assumptions of sequential execution. Refactored merge_layer.rs to wrap column builders in Arc<Mutex<ColBuilder>> and use Arc::try_unwrap for safe concurrent access, eliminating race conditions and preventing double-closes during pass2.
This change enhances observability and adaptability in the merge pipeline. Performance timing and debug logging are added to the De Bruijn graph and partition merge layers to track phase durations and pipeline metrics. The merge module replaces blocking receives with timed polls to sample CPU efficiency, dynamically spawning workers when utilization drops below a threshold. A new script is also introduced to parse merge debug logs and generate structured Markdown reports detailing throughput, phase breakdowns, and partition performance.
coissac
Eric Coissac