benchmark/verify_count.py

#!/usr/bin/env python3
"""Compare an obikmer count index against a reference kmer set (presence + counts).

Loads the reference .npz (sorted uint64 kmers + uint32 counts from build_reference.py),
streams `obikmer dump` from a --with-counts index, then reports:
  - false negatives : kmers in reference absent from the index
  - false positives : kmers in the index absent from the reference
  - count mismatches: kmers present in both but with differing counts

Output to stdout: one CSV row
  species,strain,ref_kmers,idx_kmers,false_neg,false_pos,count_mismatch,
  fn_pct,fp_pct,cm_pct
"""
import argparse
import subprocess
import sys

import numpy as np


# ── encoding ──────────────────────────────────────────────────────────────────

_ENCODE = {'A': 0, 'C': 1, 'G': 2, 'T': 3,
           'a': 0, 'c': 1, 'g': 2, 't': 3}

_DECODE = ['A', 'C', 'G', 'T']


def encode_kmer(s: str) -> int:
    kmer = 0
    for c in s:
        kmer = (kmer << 2) | _ENCODE[c]
    return kmer


def decode_kmer(val: int, k: int) -> str:
    bases = []
    for _ in range(k):
        bases.append(_DECODE[val & 3])
        val >>= 2
    return ''.join(reversed(bases))


# ── dump parsing ──────────────────────────────────────────────────────────────

def load_index(obikmer_bin: str, index_dir: str) -> tuple[np.ndarray, np.ndarray]:
    """Stream `obikmer dump` and return (kmers_sorted_uint64, counts_uint32)."""
    cmd = [obikmer_bin, 'dump', index_dir]
    proc = subprocess.Popen(cmd, stdout=subprocess.PIPE, stderr=subprocess.DEVNULL,
                            text=True)
    kmers, counts = [], []
    header = True
    for line in proc.stdout:
        if header:
            header = False
            continue
        parts = line.rstrip('\n').split(',')
        kmers.append(encode_kmer(parts[0]))
        counts.append(int(parts[1]))
    proc.wait()
    if proc.returncode != 0:
        print(f'ERROR: obikmer dump exited {proc.returncode}', file=sys.stderr)
        sys.exit(1)
    order = np.argsort(np.array(kmers, dtype=np.uint64), kind='stable')
    return (np.array(kmers, dtype=np.uint64)[order],
            np.array(counts, dtype=np.uint32)[order])


# ── comparison ────────────────────────────────────────────────────────────────

def compare(ref_kmers: np.ndarray, ref_counts: np.ndarray,
            idx_kmers: np.ndarray, idx_counts: np.ndarray,
            ) -> tuple[np.ndarray, np.ndarray, np.ndarray, np.ndarray, np.ndarray]:
    """Return (false_neg, false_pos, cm_ref_kmers, cm_ref_counts, cm_idx_counts).

    All arrays sorted; cm_* cover kmers present in both arrays but with
    differing counts.
    """
    false_neg = np.setdiff1d(ref_kmers, idx_kmers, assume_unique=True)
    false_pos = np.setdiff1d(idx_kmers, ref_kmers, assume_unique=True)

    # Count mismatches among shared kmers.
    # Both arrays are sorted so we can use searchsorted.
    pos_in_idx = np.searchsorted(idx_kmers, ref_kmers)
    pos_in_idx = np.clip(pos_in_idx, 0, len(idx_kmers) - 1)
    shared_mask = idx_kmers[pos_in_idx] == ref_kmers

    shared_ref_counts = ref_counts[shared_mask]
    shared_idx_counts = idx_counts[pos_in_idx[shared_mask]]
    mismatch_mask     = shared_ref_counts != shared_idx_counts

    cm_kmers      = ref_kmers[shared_mask][mismatch_mask]
    cm_ref_counts = shared_ref_counts[mismatch_mask]
    cm_idx_counts = shared_idx_counts[mismatch_mask]

    return false_neg, false_pos, cm_kmers, cm_ref_counts, cm_idx_counts


# ── main ─────────────────────────────────────────────────────────────────────

def main() -> None:
    ap = argparse.ArgumentParser(description=__doc__,
                                 formatter_class=argparse.RawDescriptionHelpFormatter)
    ap.add_argument('reference',  metavar='REF_NPZ',   nargs='?',
                    help='Reference .npz file')
    ap.add_argument('index',      metavar='INDEX_DIR', nargs='?',
                    help='obikmer index directory (built with --with-counts)')
    ap.add_argument('--obikmer',  default='obikmer',
                    help='Path to obikmer binary')
    ap.add_argument('--species',  default='')
    ap.add_argument('--strain',   default='')
    ap.add_argument('--header',   action='store_true',
                    help='Print CSV header and exit')
    ap.add_argument('--save-fp',  metavar='FILE',
                    help='Save false-positive kmer strings to FILE')
    ap.add_argument('--save-fn',  metavar='FILE',
                    help='Save false-negative kmer strings to FILE')
    ap.add_argument('--save-cm',  metavar='FILE',
                    help='Save count-mismatch rows (kmer,ref_count,idx_count) to FILE')
    args = ap.parse_args()

    if args.header:
        print('species,strain,ref_kmers,idx_kmers,'
              'false_neg,false_pos,count_mismatch,'
              'fn_pct,fp_pct,cm_pct')
        return

    # Detect k
    cmd1 = [args.obikmer, 'dump', '--head', '1', args.index]
    out1 = subprocess.check_output(cmd1, stderr=subprocess.DEVNULL, text=True)
    k = len(out1.splitlines()[1].split(',')[0])

    # Load reference
    print(f'Loading reference: {args.reference}', file=sys.stderr)
    npz = np.load(args.reference)
    ref_kmers  = npz['kmers']    # sorted uint64
    ref_counts = npz['counts']   # uint32

    # Load index
    print(f'Streaming dump (k={k}): {args.index}', file=sys.stderr)
    idx_kmers, idx_counts = load_index(args.obikmer, args.index)

    print(f'k={k}  ref={len(ref_kmers):,}  idx={len(idx_kmers):,}', file=sys.stderr)

    false_neg, false_pos, cm_kmers, cm_ref, cm_idx = compare(
        ref_kmers, ref_counts, idx_kmers, idx_counts)

    n_shared  = len(ref_kmers) - len(false_neg)
    fn_pct    = 100.0 * len(false_neg) / len(ref_kmers) if len(ref_kmers) else 0.0
    fp_pct    = 100.0 * len(false_pos) / len(idx_kmers) if len(idx_kmers) else 0.0
    cm_pct    = 100.0 * len(cm_kmers)  / n_shared       if n_shared        else 0.0

    print(f'false negatives : {len(false_neg):,}  ({fn_pct:.4f}%)', file=sys.stderr)
    print(f'false positives : {len(false_pos):,}  ({fp_pct:.4f}%)', file=sys.stderr)
    print(f'count mismatches: {len(cm_kmers):,}  ({cm_pct:.4f}% of shared)',
          file=sys.stderr)

    if args.save_fn and len(false_neg):
        with open(args.save_fn, 'w') as fh:
            for v in false_neg:
                fh.write(decode_kmer(int(v), k) + '\n')

    if args.save_fp and len(false_pos):
        with open(args.save_fp, 'w') as fh:
            for v in false_pos:
                fh.write(decode_kmer(int(v), k) + '\n')

    if args.save_cm and len(cm_kmers):
        with open(args.save_cm, 'w') as fh:
            fh.write('kmer,ref_count,idx_count\n')
            for v, rc, ic in zip(cm_kmers, cm_ref, cm_idx):
                fh.write(f'{decode_kmer(int(v), k)},{rc},{ic}\n')

    print(f'{args.species},{args.strain},'
          f'{len(ref_kmers)},{len(idx_kmers)},'
          f'{len(false_neg)},{len(false_pos)},{len(cm_kmers)},'
          f'{fn_pct:.4f},{fp_pct:.4f},{cm_pct:.4f}')


if __name__ == '__main__':
    main()
feat: add benchmark pipeline, expose APIs, and enforce strict paths 2026-06-19 09:55:41 +02:00			`#!/usr/bin/env python3`
			`"""Compare an obikmer count index against a reference kmer set (presence + counts).`

			`Loads the reference .npz (sorted uint64 kmers + uint32 counts from build_reference.py),`
			streams `obikmer dump` from a --with-counts index, then reports:
			`- false negatives : kmers in reference absent from the index`
			`- false positives : kmers in the index absent from the reference`
			`- count mismatches: kmers present in both but with differing counts`

			`Output to stdout: one CSV row`
			`species,strain,ref_kmers,idx_kmers,false_neg,false_pos,count_mismatch,`
			`fn_pct,fp_pct,cm_pct`
			`"""`
			`import argparse`
			`import subprocess`
			`import sys`

			`import numpy as np`


			`# ── encoding ──────────────────────────────────────────────────────────────────`

			`_ENCODE = {'A': 0, 'C': 1, 'G': 2, 'T': 3,`
			`'a': 0, 'c': 1, 'g': 2, 't': 3}`

			`_DECODE = ['A', 'C', 'G', 'T']`


			`def encode_kmer(s: str) -> int:`
			`kmer = 0`
			`for c in s:`
			`kmer = (kmer << 2) \| _ENCODE[c]`
			`return kmer`


			`def decode_kmer(val: int, k: int) -> str:`
			`bases = []`
			`for _ in range(k):`
			`bases.append(_DECODE[val & 3])`
			`val >>= 2`
			`return ''.join(reversed(bases))`


			`# ── dump parsing ──────────────────────────────────────────────────────────────`

			`def load_index(obikmer_bin: str, index_dir: str) -> tuple[np.ndarray, np.ndarray]:`
			"""Stream `obikmer dump` and return (kmers_sorted_uint64, counts_uint32)."""
			`cmd = [obikmer_bin, 'dump', index_dir]`
			`proc = subprocess.Popen(cmd, stdout=subprocess.PIPE, stderr=subprocess.DEVNULL,`
			`text=True)`
			`kmers, counts = [], []`
			`header = True`
			`for line in proc.stdout:`
			`if header:`
			`header = False`
			`continue`
			`parts = line.rstrip('\n').split(',')`
			`kmers.append(encode_kmer(parts[0]))`
			`counts.append(int(parts[1]))`
			`proc.wait()`
			`if proc.returncode != 0:`
			`print(f'ERROR: obikmer dump exited {proc.returncode}', file=sys.stderr)`
			`sys.exit(1)`
			`order = np.argsort(np.array(kmers, dtype=np.uint64), kind='stable')`
			`return (np.array(kmers, dtype=np.uint64)[order],`
			`np.array(counts, dtype=np.uint32)[order])`


			`# ── comparison ────────────────────────────────────────────────────────────────`

			`def compare(ref_kmers: np.ndarray, ref_counts: np.ndarray,`
			`idx_kmers: np.ndarray, idx_counts: np.ndarray,`
			`) -> tuple[np.ndarray, np.ndarray, np.ndarray, np.ndarray, np.ndarray]:`
			`"""Return (false_neg, false_pos, cm_ref_kmers, cm_ref_counts, cm_idx_counts).`

			`All arrays sorted; cm_* cover kmers present in both arrays but with`
			`differing counts.`
			`"""`
			`false_neg = np.setdiff1d(ref_kmers, idx_kmers, assume_unique=True)`
			`false_pos = np.setdiff1d(idx_kmers, ref_kmers, assume_unique=True)`

			`# Count mismatches among shared kmers.`
			`# Both arrays are sorted so we can use searchsorted.`
			`pos_in_idx = np.searchsorted(idx_kmers, ref_kmers)`
			`pos_in_idx = np.clip(pos_in_idx, 0, len(idx_kmers) - 1)`
			`shared_mask = idx_kmers[pos_in_idx] == ref_kmers`

			`shared_ref_counts = ref_counts[shared_mask]`
			`shared_idx_counts = idx_counts[pos_in_idx[shared_mask]]`
			`mismatch_mask = shared_ref_counts != shared_idx_counts`

			`cm_kmers = ref_kmers[shared_mask][mismatch_mask]`
			`cm_ref_counts = shared_ref_counts[mismatch_mask]`
			`cm_idx_counts = shared_idx_counts[mismatch_mask]`

			`return false_neg, false_pos, cm_kmers, cm_ref_counts, cm_idx_counts`


			`# ── main ─────────────────────────────────────────────────────────────────────`

			`def main() -> None:`
			`ap = argparse.ArgumentParser(description=__doc__,`
			`formatter_class=argparse.RawDescriptionHelpFormatter)`
			`ap.add_argument('reference', metavar='REF_NPZ', nargs='?',`
			`help='Reference .npz file')`
			`ap.add_argument('index', metavar='INDEX_DIR', nargs='?',`
			`help='obikmer index directory (built with --with-counts)')`
			`ap.add_argument('--obikmer', default='obikmer',`
			`help='Path to obikmer binary')`
			`ap.add_argument('--species', default='')`
			`ap.add_argument('--strain', default='')`
			`ap.add_argument('--header', action='store_true',`
			`help='Print CSV header and exit')`
			`ap.add_argument('--save-fp', metavar='FILE',`
			`help='Save false-positive kmer strings to FILE')`
			`ap.add_argument('--save-fn', metavar='FILE',`
			`help='Save false-negative kmer strings to FILE')`
			`ap.add_argument('--save-cm', metavar='FILE',`
			`help='Save count-mismatch rows (kmer,ref_count,idx_count) to FILE')`
			`args = ap.parse_args()`

			`if args.header:`
			`print('species,strain,ref_kmers,idx_kmers,'`
			`'false_neg,false_pos,count_mismatch,'`
			`'fn_pct,fp_pct,cm_pct')`
			`return`

			`# Detect k`
			`cmd1 = [args.obikmer, 'dump', '--head', '1', args.index]`
			`out1 = subprocess.check_output(cmd1, stderr=subprocess.DEVNULL, text=True)`
			`k = len(out1.splitlines()[1].split(',')[0])`

			`# Load reference`
			`print(f'Loading reference: {args.reference}', file=sys.stderr)`
			`npz = np.load(args.reference)`
			`ref_kmers = npz['kmers'] # sorted uint64`
			`ref_counts = npz['counts'] # uint32`

			`# Load index`
			`print(f'Streaming dump (k={k}): {args.index}', file=sys.stderr)`
			`idx_kmers, idx_counts = load_index(args.obikmer, args.index)`

			`print(f'k={k} ref={len(ref_kmers):,} idx={len(idx_kmers):,}', file=sys.stderr)`

			`false_neg, false_pos, cm_kmers, cm_ref, cm_idx = compare(`
			`ref_kmers, ref_counts, idx_kmers, idx_counts)`

			`n_shared = len(ref_kmers) - len(false_neg)`
			`fn_pct = 100.0 * len(false_neg) / len(ref_kmers) if len(ref_kmers) else 0.0`
			`fp_pct = 100.0 * len(false_pos) / len(idx_kmers) if len(idx_kmers) else 0.0`
			`cm_pct = 100.0 * len(cm_kmers) / n_shared if n_shared else 0.0`

			`print(f'false negatives : {len(false_neg):,} ({fn_pct:.4f}%)', file=sys.stderr)`
			`print(f'false positives : {len(false_pos):,} ({fp_pct:.4f}%)', file=sys.stderr)`
			`print(f'count mismatches: {len(cm_kmers):,} ({cm_pct:.4f}% of shared)',`
			`file=sys.stderr)`

			`if args.save_fn and len(false_neg):`
			`with open(args.save_fn, 'w') as fh:`
			`for v in false_neg:`
			`fh.write(decode_kmer(int(v), k) + '\n')`

			`if args.save_fp and len(false_pos):`
			`with open(args.save_fp, 'w') as fh:`
			`for v in false_pos:`
			`fh.write(decode_kmer(int(v), k) + '\n')`

			`if args.save_cm and len(cm_kmers):`
			`with open(args.save_cm, 'w') as fh:`
			`fh.write('kmer,ref_count,idx_count\n')`
			`for v, rc, ic in zip(cm_kmers, cm_ref, cm_idx):`
			`fh.write(f'{decode_kmer(int(v), k)},{rc},{ic}\n')`

			`print(f'{args.species},{args.strain},'`
			`f'{len(ref_kmers)},{len(idx_kmers)},'`
			`f'{len(false_neg)},{len(false_pos)},{len(cm_kmers)},'`
			`f'{fn_pct:.4f},{fp_pct:.4f},{cm_pct:.4f}')`


			`if __name__ == '__main__':`
			`main()`