38141c362e
End-to-end RAG pipeline for the pesticide-labels corpus. From the
4,066 labels on USB, the indexer produces 216,467 chunks, embeds
them via N parallel Ollama endpoints, upserts to Chroma, and builds
a BM25 lexical index.
## Files
- rag/index.py: adapted to labels schema (source / source_key /
epa_reg_no / product_name / product_class / registrant /
signal_word / active_ingredients flattened for Chroma where-filter);
honors PPLS_CORPUS_ROOT (corpus on USB) and PPLS_CHROMA_DIR;
upsert batch size auto-tuned to 64 * N URLs; --limit + --source
flags for incremental work.
- rag/chunk.py: label-aware. ALL-CAPS section heading detector
(heuristic) for EPA labels alongside markdown `#` headings.
TARGET_CHARS=2000 (~500 tokens), MAX_CHUNK_CHARS=4000 (~1000
tokens) hard cap with _force_split sentence/char fallback to
defend against monolithic crop+rate tables. Chunk 0 is a synthetic
anchor with product name, EPA Reg No, registrant, signal word,
product class, active ingredients + keyword bag for joint
dense/BM25 retrieval.
- rag/embeddings.py: parallel-dispatch across N Ollama URLs via
ThreadPoolExecutor. Each __call__ stride-slices input into N
shards, fires N concurrent HTTP requests, joins in original order.
Bisect-resilient on 400 (context-length): recursively splits the
failing shard down to single doc, logs+drops single bad doc with
zero-vector placeholder so Chroma upsert never sees a gap. Real
HTTP/connection errors still propagate.
- requirements.txt: chromadb already pinned via template.
## Run
PPLS_CORPUS_ROOT=/run/media/justin/USB/ppls-corpus \
OLLAMA_URL=http://host1:11434,http://host2:11434,... \
PRODUCT_NAME=ppls \
python -m rag.index --rebuild
## Build stats
- 216,467 chunks across 4,066 labels (~53 chunks/label avg)
- Wall time: 75.7 min on 4 parallel GPU-backed Ollama endpoints
(Bayer-Crop / BASF / Corteva / FMC / Nufarm / Syngenta / etc.
chemistry; production Ollama on trashpanda + 2× 192.168.0.2 +
1× Windows 192.168.0.125)
- 473 bisect-drops (0.22%) — all from monolithic-table sections
in 1970s-90s scanned PDFs whose pypdf extracts tokenized past
the model's context. Acceptable; the dropped chunks were
garbled OCR with no useful content.
- Chroma: 2.2 GB persistent SQLite at ./chroma/
- BM25: 416 MB SQLite FTS5 at ./bm25/ppls_docs.db
## Smoke-test queries (top-3 dense-only)
"what can I spray on soybeans to control waterhemp"
→ Rage (glyphosate+carfentrazone), Sencor (metribuzin)
"REI for dicamba on corn"
→ Nufarm Credit (DICAMBA tank-mix restrictions section)
"fungicide for wheat head scab"
→ MCW 710 SC (azoxystrobin+tebuconazole), Sercadis (fluxapyroxad)
Distances 0.16-0.23. Dense-only quality is OK-not-great in spots
(exactly the failure mode Phase 6 reranker + Phase 8 hybrid BM25
fusion address).
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
162 lines
6.4 KiB
Python
162 lines
6.4 KiB
Python
"""Embedding function for Chroma — Ollama-hosted nomic-embed-text by default.
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Supports parallel dispatch across multiple Ollama endpoints. Each call
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splits its input across the configured URLs and embeds them concurrently
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via a thread pool; results are recombined in original order.
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Swappable: implement the same `embedding_function()` interface returning
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a Chroma `EmbeddingFunction` and the rest of the pipeline doesn't care.
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Defaults (override via env):
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OLLAMA_URL one or more comma-separated URLs (parallel-dispatched)
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EMBED_MODEL model name; default 'nomic-embed-text'
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EMBED_DIM expected embedding dim; default 768 (nomic-embed-text)
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"""
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from __future__ import annotations
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import os
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import logging
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from concurrent.futures import ThreadPoolExecutor, as_completed
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from typing import Any
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import httpx
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from chromadb import EmbeddingFunction, Documents, Embeddings
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log = logging.getLogger(__name__)
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OLLAMA_URLS = [u.strip() for u in os.environ.get("OLLAMA_URL",
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"http://localhost:11434").split(",") if u.strip()]
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EMBED_MODEL = os.environ.get("EMBED_MODEL", "nomic-embed-text")
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EMBED_DIM = int(os.environ.get("EMBED_DIM", "768"))
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HTTP_TIMEOUT = float(os.environ.get("EMBED_TIMEOUT", "300"))
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class OllamaEmbeddings(EmbeddingFunction):
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"""Calls /api/embed across N Ollama endpoints **in parallel**.
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Each __call__ splits its input documents into len(urls) shards via
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stride slicing, fires len(urls) concurrent HTTP requests, then
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interleaves the results back to original order. With N GPU-backed
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Ollamas, throughput scales close to Nx (Chroma upsert overhead and
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slowest-shard barrier cap it shy of true linear).
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For best per-call efficiency, sized batches at ~64-per-shard
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(i.e., BATCH = 64 * N in the indexer) keep each Ollama doing real
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work each round.
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"""
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def __init__(self, urls: list[str] = OLLAMA_URLS, model: str = EMBED_MODEL):
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if not urls:
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raise ValueError("OllamaEmbeddings requires at least one URL")
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self.urls = urls
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self.model = model
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# One persistent thread per URL — embedding throughput is HTTP-bound,
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# threads are essentially free.
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self._pool = ThreadPoolExecutor(
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max_workers=len(urls),
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thread_name_prefix="ollama-embed",
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)
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def __call__(self, input: Documents) -> Embeddings:
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docs = list(input)
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n = len(self.urls)
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if not docs:
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return []
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if n == 1:
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return self._embed_one(self.urls[0], docs)
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# Stride-slice into n shards so docs are distributed evenly.
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# Reconstruction reverses the stride via index arithmetic.
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shards: list[tuple[int, str, list[str]]] = []
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for shard_idx in range(n):
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shard_docs = docs[shard_idx::n]
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if shard_docs:
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shards.append((shard_idx, self.urls[shard_idx], shard_docs))
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# Parallel dispatch + barrier-wait
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results: dict[int, list[list[float]]] = {}
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futures = {
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self._pool.submit(self._embed_one, url, shard_docs): shard_idx
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for shard_idx, url, shard_docs in shards
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}
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for fut in as_completed(futures):
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shard_idx = futures[fut]
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results[shard_idx] = fut.result()
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# Interleave back to original order
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out: list[list[float] | None] = [None] * len(docs)
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for shard_idx, shard_embeds in results.items():
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for offset, embed in enumerate(shard_embeds):
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out[shard_idx + offset * n] = embed
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# Surface any missing slot loudly rather than silently returning Nones
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if any(v is None for v in out):
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missing = [i for i, v in enumerate(out) if v is None]
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raise RuntimeError(
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f"embedding gap: {len(missing)} missing slot(s) after parallel "
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f"join; first missing index={missing[0]}"
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)
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return out # type: ignore[return-value]
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def _embed_one(self, url: str, docs: list[str]) -> list[list[float]]:
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"""Single HTTP call to one Ollama. On a 400 (typically one doc in
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the batch exceeded the model's context), bisect the batch until
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the offending doc(s) are isolated, then emit a zero-vector for
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each bad doc and continue. Never raises for 400 — only for
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connection / 5xx errors after retries are exhausted upstream."""
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if not docs:
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return []
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try:
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with httpx.Client(timeout=HTTP_TIMEOUT) as c:
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r = c.post(
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f"{url}/api/embed",
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json={"model": self.model, "input": docs},
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)
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if r.status_code == 400:
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return self._bisect_400(url, docs, r.text)
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r.raise_for_status()
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data = r.json()
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return data.get("embeddings") or []
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except httpx.HTTPStatusError:
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# Anything other than 400 propagates so retries / monitors fire.
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raise
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def _bisect_400(self, url: str, docs: list[str], err_text: str) -> list[list[float]]:
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"""Recursive bisection: split docs in half, retry each half. If
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one doc alone still 400s, log it with size + a snippet and
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return a zero-vector placeholder for that slot (so order is
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preserved and Chroma upsert succeeds)."""
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if len(docs) == 1:
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log.warning(
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"embed: dropping single bad doc on %s (chars=%d, err=%s); "
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"snippet=%r",
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url, len(docs[0]), err_text[:120], docs[0][:80],
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)
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return [[0.0] * EMBED_DIM]
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mid = len(docs) // 2
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left = self._embed_one(url, docs[:mid])
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right = self._embed_one(url, docs[mid:])
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return left + right
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def name(self) -> str: # newer chromadb requires this
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return f"ollama:{self.model}"
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@staticmethod
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def build_from_config(config: dict) -> "OllamaEmbeddings": # newer chromadb
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return OllamaEmbeddings(
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urls=config.get("urls", OLLAMA_URLS),
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model=config.get("model", EMBED_MODEL),
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)
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def get_config(self) -> dict: # newer chromadb
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return {"urls": self.urls, "model": self.model}
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def default_space(self) -> str:
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return "cosine"
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def supported_spaces(self) -> list[str]:
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return ["cosine", "l2", "ip"]
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def embedding_function() -> EmbeddingFunction:
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return OllamaEmbeddings()
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