Deterministic SMILES-to-IUPAC name generator based on the IUPAC Blue Book
Project description
openclatura
Open Nomenclature Framework
openclatura is a deterministic SMILES-to-IUPAC name generator inspired by the IUPAC Blue Book 2013 recommendations.
Built on top of RDKit, the package walks the molecular graph, detects functional groups and ring systems, selects the principal parent, assigns locants, and constructs the corresponding substitutive IUPAC name. Every step is recorded in an inspectable decision trace so the why of a name is recoverable, not just the what.
Status: alpha. The naming engine handles a broad slice of organic structures (alkanes/alkenes/alkynes, common functional groups, simple heterocycles, fused/spiro/bridged systems, retained names from the Blue Book). PubChem/QM9/ZINC22 coverage is being measured; see
examples/.
Install
pip install openclatura
Optional extras:
| extra | adds |
|---|---|
[opsin] |
py2opsin for OPSIN-based round-trip verification |
[datasets] |
datasets + tqdm for PubChem/QM9-style evaluations |
[web] |
FastAPI + uvicorn for the HTTP service |
[dev] |
pytest, ruff, pre-commit, hypothesis, py2opsin |
pip install "openclatura[opsin,datasets]"
The default install does not include OPSIN verification. Install the
[opsin] extra and make sure Java 8+ is available if you want round-trip
verification through OPSIN:
pip install "openclatura[opsin]"
java -version
If py2opsin is installed but Java is missing or inaccessible, OPSIN
verification is skipped gracefully. The name generation still succeeds and the
verification status is reported as skipped_no_java.
Quick start
from openclatura import name_smiles
name_smiles("CCO") # 'ethanol'
name_smiles("c1ccccc1") # 'benzene'
name_smiles("CC(=O)O") # 'acetic acid'
Typed result with rules hit + OPSIN round-trip
For everything richer than the bare string, use openclatura.name:
from openclatura import name
result = name("CC(=O)Nc1ccccc1", include_trace=True, verify_opsin=True)
result.name # 'N-phenylacetamide'
result.smiles # 'CC(=O)Nc1ccccc1'
result.ok # True
result.rules_hit # ('P-44', 'P-45', 'P-41', 'P-61', 'P-67', ...)
result.rule_hints # ('Parent hydride / parent structure: Blue Book P-44 ...',)
result.opsin_check.status # 'matched' | 'mismatched' | 'skipped_no_java' | ...
result.verified # True when opsin_check is matched
verify_opsin defaults to False. When set to True, verification is
best-effort and does not raise if OPSIN support is unavailable:
- no
py2opsininstalled:result.opsin_check.status == "skipped_no_opsin" py2opsininstalled but Java unavailable:status == "skipped_no_java"- OPSIN parses and round-trips:
status == "matched"or"mismatched"
Errors do not raise — they are captured on result.error, which makes
the batch API safe to point at noisy datasets:
from openclatura import name_many
results = name_many(
["CCO", "c1ccccc1", "definitely-not-a-smiles"],
processes="auto", # or an integer, or 1 for in-process
verify_opsin=False,
)
[r.name for r in results if r.ok]
For the full decision trace (one TraceStep per phase: parse, perception,
parent selection, numbering, assembly, …):
from openclatura import analyze_smiles
analysis = analyze_smiles("CC(=O)Nc1ccccc1")
for step in analysis.decisions:
print(step.phase, step.decision, step.reason)
CLI
openclatura name "CC(=O)Nc1ccccc1" # → N-phenylacetamide
openclatura name "CC(=O)Nc1ccccc1" --json # JSON with trace + rules
openclatura batch smiles.txt --output names.jsonl --processes auto
The CLI verifies with OPSIN by default when possible. This is different from the
Python API, where verify_opsin=False by default. Disable CLI verification with
--no-verify:
openclatura name "CC(=O)Nc1ccccc1" --no-verify
If OPSIN support is unavailable, the command still prints the generated name and reports the verification status:
N-phenylacetamide
opsin: skipped_no_java
Other possible skipped statuses include skipped_no_opsin when py2opsin is
not installed. Install openclatura[opsin] and Java 8+ for full CLI
verification.
Natural-language description (describe)
openclatura.describe(smiles) walks the same trace and renders a
deterministic, multi-paragraph explanation of how the name is built.
Useful for explainability views and for generating (SMILES, name,
description) training tuples:
from openclatura import describe
d = describe("CC(=O)Nc1ccccc1")
print(d) # multi-paragraph prose
d.rules_hit # ('P-44', 'P-45', 'P-41', 'P-61', 'P-67')
d.components[0] # DescribedComponent(phase='parse', text='RDKit parsed ...')
Same input → same output. No LLM in the loop.
Human-like description
Openclatura can generate uncanny human-like descriptions of molecules.
from openclatura import describe_human
d = describe_human("CN1C=NC2=C1C(=O)N(C(=O)N2C)C")
print(d.text)
""" Input SMILES: CN1C=NC2=C1C(=O)N(C(=O)N2C)C
Processed SMILES: Cn1cnc2c1c(=O)n(C)c(=O)n2C
Atom ids in that SMILES: C{0}n{1}1c{2}n{3}c{4}2c{5}1c{6}(=O{7})n{8}(C{13})c{9}(=O{10})n{11}2C{12}
The molecule is named 2,4,7-trimethyl-2,4,7,9-tetraazabicyclo[4.3.0]nona-1(6),8-diene-3,5-dione.
The molecule is built around a 9-membered bicyclic [4.3.0] heteroskeleton.
Within that parent framework, there is nitrogen at positions 2 (atom id 11), 4 (atom id 8), 7 (atom id 1), and 9 (atom id 3).
Within that parent framework, there is a double bond between position 1 (atom id 4) and position 6 (atom id 5) and a double bond between position 8 (atom id 2) and position 9 (atom id 3).
The principal characteristic feature is oxo groups at positions 3 (atom id 9) and 5 (atom id 6).
Attached to this framework are methyl groups at positions 2 (atom id 11), 4 (atom id 8), and 7 (atom id 1). """
Development
git clone https://github.com/lamalab-org/iupac-name-generator
cd iupac-name-generator
pip install -e ".[dev]"
# run the unit + round-trip tests
pytest
# run only fast tests
pytest -m "not slow and not dataset and not golden"
# strict RDKit-version regression suite (also runs in the rdkit-compat CI job)
pytest -m golden
# lint and format
ruff check --fix src/openclatura
ruff format src/openclatura
Java is required for the OPSIN-based round-trip checks (see py2opsin).
HTTP service (Docker)
The [web] extra ships a FastAPI app with name, batch, describe
and healthz endpoints. The bundled Dockerfile includes a headless JRE
so verify_opsin=True works out of the box.
# build + run
docker build -t openclatura:local .
docker run --rm -p 8000:8000 openclatura:local
# or via compose
docker compose -f docker/compose.yaml up --build
Call the API:
curl -X POST localhost:8000/name -H 'content-type: application/json' \
-d '{"smiles":"CC(=O)Nc1ccccc1","include_trace":true,"verify_opsin":true}'
curl -X POST localhost:8000/batch -H 'content-type: application/json' \
-d '{"smiles":["CCO","c1ccccc1","CC(=O)O"],"processes":1}'
curl -X POST localhost:8000/describe -H 'content-type: application/json' \
-d '{"smiles":"CC(=O)Nc1ccccc1"}'
OpenAPI docs are served at http://localhost:8000/docs.
License
MIT. See LICENSE.
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