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Supports two modes:
--shared-only : Run shared steps only (download ckpt, extract query_ctrl
& prompt_ctrl, compute their embeddings).
--perturbation X: Run per-perturbation steps (extract prompt_pert, bridge
prediction, pert embeddings, custom generation).
Execution order for per-perturbation (3 model loads):
Step 0' : Extract prompt_pert from source AnnData
Load 1 : bc_large_aligned.ckpt → bridge prediction → release
Load 2 : bc_large.ckpt → pert embeddings → release
Load 3 : bc_large_aligned.ckpt → custom generation → release
"""
from __future__ import annotations
import argparse
import gc
import logging
import sys
from pathlib import Path
_THIS_DIR = Path(__file__).resolve().parent
if str(_THIS_DIR.parent) not in sys.path:
sys.path.insert(0, str(_THIS_DIR.parent))
import anndata as ad
import numpy as np
import torch
from scipy.sparse import csr_matrix, issparse
from stack.model_loading import load_model_from_checkpoint
from prompt_selection import config as cfg
from prompt_selection.custom_generation import custom_generation_loop
logging.basicConfig(
level=logging.INFO,
format="%(asctime)s [%(name)s] %(levelname)s: %(message)s",
)
LOGGER = logging.getLogger("prompt_selection.pipeline")
# ---------------------------------------------------------------------------
# Helpers
# ---------------------------------------------------------------------------
def _release_model(model):
"""Delete model and free GPU memory."""
del model
gc.collect()
if torch.cuda.is_available():
torch.cuda.empty_cache()
def _filter_adata(adata: ad.AnnData, filters: dict) -> ad.AnnData:
"""Subset AnnData by column-value filters."""
mask = np.ones(adata.n_obs, dtype=bool)
for col, val in filters.items():
mask &= (adata.obs[col] == val).values
return adata[mask].copy()
# ---------------------------------------------------------------------------
# Shared steps
# ---------------------------------------------------------------------------
def step0_download_checkpoint():
"""Download bc_large.ckpt from HuggingFace if not present."""
if cfg.EMBED_CKPT.exists():
LOGGER.info("Embedding checkpoint already exists: %s", cfg.EMBED_CKPT)
return
LOGGER.info("Downloading %s from HuggingFace...", cfg.HF_EMBED_REPO)
from huggingface_hub import snapshot_download
snapshot_download(
repo_id=cfg.HF_EMBED_REPO,
local_dir=str(cfg.EMBED_MODEL_DIR),
allow_patterns=["bc_large.ckpt"],
)
if not cfg.EMBED_CKPT.exists():
import glob
matches = glob.glob(str(cfg.EMBED_MODEL_DIR / "**" / "bc_large.ckpt"), recursive=True)
if matches:
Path(matches[0]).rename(cfg.EMBED_CKPT)
assert cfg.EMBED_CKPT.exists(), f"Failed to download {cfg.EMBED_CKPT}"
LOGGER.info("Downloaded embedding checkpoint to %s", cfg.EMBED_CKPT)
def step0_extract_shared_subsets():
"""Extract query_ctrl and prompt_ctrl (shared across all perturbations)."""
cfg.RESULTS_DIR.mkdir(parents=True, exist_ok=True)
query_path = cfg.RESULTS_DIR / cfg.QUERY_CTRL_H5AD
ctrl_path = cfg.RESULTS_DIR / cfg.PROMPT_CTRL_H5AD
if query_path.exists() and ctrl_path.exists():
LOGGER.info("Shared cell subsets already extracted, skipping.")
return
LOGGER.info("Loading source AnnData: %s", cfg.SOURCE_ADATA)
adata = ad.read_h5ad(str(cfg.SOURCE_ADATA))
if not query_path.exists():
query = _filter_adata(adata, cfg.QUERY_FILTER)
LOGGER.info("query_ctrl: %d cells", query.n_obs)
query.write_h5ad(query_path)
del query
if not ctrl_path.exists():
ctrl = _filter_adata(adata, cfg.PROMPT_CTRL_FILTER)
LOGGER.info("prompt_ctrl: %d cells", ctrl.n_obs)
ctrl.write_h5ad(ctrl_path)
del ctrl
del adata
gc.collect()
def step_extract_shared_embeddings():
"""Extract embeddings for query_ctrl and prompt_ctrl (shared)."""
emb_files = [
(cfg.QUERY_EMB_NPY, cfg.QUERY_CTRL_H5AD),
(cfg.PROMPT_CTRL_EMB_NPY, cfg.PROMPT_CTRL_H5AD),
]
all_exist = all((cfg.RESULTS_DIR / npy).exists() for npy, _ in emb_files)
if all_exist:
LOGGER.info("Shared embeddings already exist, skipping.")
return
LOGGER.info("=== Loading bc_large.ckpt for shared embedding extraction ===")
device = torch.device("cuda" if torch.cuda.is_available() else "cpu")
model = load_model_from_checkpoint(str(cfg.EMBED_CKPT), device=device)
for npy_name, h5ad_name in emb_files:
npy_path = cfg.RESULTS_DIR / npy_name
if npy_path.exists():
LOGGER.info(" %s already exists, skipping.", npy_name)
continue
h5ad_path = str(cfg.RESULTS_DIR / h5ad_name)
LOGGER.info(" Extracting embeddings: %s -> %s", h5ad_name, npy_name)
embeddings, _ = model.get_latent_representation(
adata_path=h5ad_path,
genelist_path=str(cfg.GENELIST_PATH),
batch_size=cfg.BATCH_SIZE,
num_workers=cfg.NUM_WORKERS,
show_progress=True,
)
np.save(npy_path, embeddings)
LOGGER.info(" Saved: %s, shape=%s", npy_path, embeddings.shape)
_release_model(model)
def run_shared_steps():
"""Run all shared steps (checkpoint download, subset extraction, embeddings)."""
LOGGER.info("=" * 60)
LOGGER.info("Running shared steps")
LOGGER.info("=" * 60)
step0_download_checkpoint()
step0_extract_shared_subsets()
step_extract_shared_embeddings()
LOGGER.info("Shared steps complete.")
# ---------------------------------------------------------------------------
# Per-perturbation steps
# ---------------------------------------------------------------------------
def step_extract_prompt_pert(pcfg: cfg.PertConfig):
"""Extract prompt_pert (T cells + drug X) for a specific perturbation."""
pcfg.results_dir.mkdir(parents=True, exist_ok=True)
pert_path = pcfg.results_dir / cfg.PROMPT_PERT_H5AD
if pert_path.exists():
LOGGER.info("prompt_pert already exists for %s, skipping.", pcfg.perturbation_name)
return True
LOGGER.info("Loading source AnnData: %s", cfg.SOURCE_ADATA)
adata = ad.read_h5ad(str(cfg.SOURCE_ADATA))
pert = _filter_adata(adata, pcfg.prompt_pert_filter)
LOGGER.info("prompt_pert (%s): %d cells", pcfg.perturbation_name, pert.n_obs)
if pert.n_obs == 0:
LOGGER.warning("No T cells found for perturbation '%s'. Skipping.", pcfg.perturbation_name)
(pcfg.results_dir / "SKIPPED_no_tcells.txt").touch()
del adata, pert
gc.collect()
return False
pert.write_h5ad(pert_path)
del adata, pert
gc.collect()
return True
def step_bridge_prediction(pcfg: cfg.PertConfig):
"""Generate predicted perturbation for control T cells using aligned model."""
pred_path = pcfg.results_dir / cfg.PREDICTED_PERT_H5AD
if pred_path.exists():
LOGGER.info("Predicted perturbation already exists for %s, skipping.", pcfg.perturbation_name)
return
LOGGER.info("=== Load 1: bc_large_aligned.ckpt for bridge prediction (%s) ===", pcfg.perturbation_name)
device = torch.device("cuda" if torch.cuda.is_available() else "cpu")
model = load_model_from_checkpoint(
str(cfg.ALIGNED_CKPT),
model_class="ICL_FinetunedModel",
device=device,
)
prompt_pert_path = str(pcfg.results_dir / cfg.PROMPT_PERT_H5AD)
prompt_ctrl_path = str(cfg.RESULTS_DIR / cfg.PROMPT_CTRL_H5AD)
LOGGER.info("Running bridge prediction: prompt_pert → prompt_ctrl")
result = model.get_incontext_generation(
base_adata_or_path=prompt_pert_path,
test_adata_or_path=prompt_ctrl_path,
genelist_path=str(cfg.GENELIST_PATH),
mode="mdm",
num_steps=cfg.NUM_STEPS,
prompt_ratio=cfg.PROMPT_RATIO,
context_ratio=cfg.CONTEXT_RATIO,
context_ratio_min=cfg.CONTEXT_RATIO_MIN,
batch_size=cfg.BATCH_SIZE,
num_workers=cfg.NUM_WORKERS,
)
pred_X, _ = result
_release_model(model)
ctrl_adata = ad.read_h5ad(prompt_ctrl_path)
if issparse(pred_X):
pred_X_dense = pred_X.toarray()
else:
pred_X_dense = np.asarray(pred_X)
pred_adata = ad.AnnData(
X=csr_matrix(pred_X_dense.astype(np.float32)),
obs=ctrl_adata.obs.copy(),
var=ctrl_adata.var.copy(),
)
pred_adata.obs["sm_name"] = pcfg.perturbation_name
pred_adata.write_h5ad(pred_path)
LOGGER.info("Saved predicted perturbation: %s (%d cells)", pred_path, pred_adata.n_obs)
del ctrl_adata, pred_adata, pred_X, pred_X_dense
gc.collect()
def step_extract_pert_embeddings(pcfg: cfg.PertConfig):
"""Extract embeddings for prompt_pert and predicted_pert."""
emb_files = [
(cfg.PROMPT_PERT_EMB_NPY, cfg.PROMPT_PERT_H5AD),
(cfg.PREDICTED_PERT_EMB_NPY, cfg.PREDICTED_PERT_H5AD),
]
all_exist = all((pcfg.results_dir / npy).exists() for npy, _ in emb_files)
if all_exist:
LOGGER.info("Pert embeddings already exist for %s, skipping.", pcfg.perturbation_name)
return
LOGGER.info("=== Load 2: bc_large.ckpt for pert embedding extraction (%s) ===", pcfg.perturbation_name)
device = torch.device("cuda" if torch.cuda.is_available() else "cpu")
model = load_model_from_checkpoint(str(cfg.EMBED_CKPT), device=device)
for npy_name, h5ad_name in emb_files:
npy_path = pcfg.results_dir / npy_name
if npy_path.exists():
LOGGER.info(" %s already exists, skipping.", npy_name)
continue
h5ad_path = str(pcfg.results_dir / h5ad_name)
LOGGER.info(" Extracting embeddings: %s -> %s", h5ad_name, npy_name)
embeddings, _ = model.get_latent_representation(
adata_path=h5ad_path,
genelist_path=str(cfg.GENELIST_PATH),
batch_size=cfg.BATCH_SIZE,
num_workers=cfg.NUM_WORKERS,
show_progress=True,
)
np.save(npy_path, embeddings)
LOGGER.info(" Saved: %s, shape=%s", npy_path, embeddings.shape)
_release_model(model)
def step_custom_generation(pcfg: cfg.PertConfig):
"""Run MDM generation with per-step embedding-based prompt selection."""
final_path = pcfg.results_dir / pcfg.final_result_h5ad
if final_path.exists():
LOGGER.info("Final result already exists for %s, skipping.", pcfg.perturbation_name)
return
LOGGER.info("=== Load 3: bc_large_aligned.ckpt for custom generation (%s) ===", pcfg.perturbation_name)
device = torch.device("cuda" if torch.cuda.is_available() else "cpu")
model = load_model_from_checkpoint(
str(cfg.ALIGNED_CKPT),
model_class="ICL_FinetunedModel",
device=device,
)
# Load data
query_adata = ad.read_h5ad(str(cfg.RESULTS_DIR / cfg.QUERY_CTRL_H5AD))
prompt_pert_adata = ad.read_h5ad(str(pcfg.results_dir / cfg.PROMPT_PERT_H5AD))
# Load precomputed embeddings (shared + per-pert)
query_emb = np.load(cfg.RESULTS_DIR / cfg.QUERY_EMB_NPY)
prompt_ctrl_emb = np.load(cfg.RESULTS_DIR / cfg.PROMPT_CTRL_EMB_NPY)
predicted_pert_emb = np.load(pcfg.results_dir / cfg.PREDICTED_PERT_EMB_NPY)
prompt_pert_emb = np.load(pcfg.results_dir / cfg.PROMPT_PERT_EMB_NPY)
LOGGER.info("Embeddings loaded: query=%s, ctrl=%s, pred_pert=%s, pert=%s",
query_emb.shape, prompt_ctrl_emb.shape,
predicted_pert_emb.shape, prompt_pert_emb.shape)
result, final_logit = custom_generation_loop(
model=model,
query_adata=query_adata,
prompt_pert_adata=prompt_pert_adata,
genelist_path=str(cfg.GENELIST_PATH),
query_embeddings=query_emb,
prompt_ctrl_embeddings=prompt_ctrl_emb,
predicted_pert_embeddings=predicted_pert_emb,
prompt_pert_embeddings=prompt_pert_emb,
num_steps=cfg.NUM_STEPS,
prompt_ratio=cfg.PROMPT_RATIO,
context_ratio=cfg.CONTEXT_RATIO,
context_ratio_min=cfg.CONTEXT_RATIO_MIN,
top_k1=cfg.TOP_K1,
batch_size=cfg.BATCH_SIZE,
num_workers=cfg.NUM_WORKERS,
)
_release_model(model)
query_ctrl_clean = ad.read_h5ad(str(cfg.RESULTS_DIR / cfg.QUERY_CTRL_H5AD))
result_adata = ad.AnnData(
X=result,
obs=query_ctrl_clean.obs.copy(),
var=query_ctrl_clean.var.copy(),
)
result_adata.obs["sm_name"] = pcfg.perturbation_name
result_adata.obs["control"] = False
result_adata.obs["gen_logit"] = np.asarray(final_logit)
result_adata.write_h5ad(final_path)
LOGGER.info("Saved final result: %s (%d cells)", final_path, result_adata.n_obs)
def run_perturbation(pert_name: str):
"""Run all per-perturbation steps for a given drug."""
pcfg = cfg.get_pert_config(pert_name)
LOGGER.info("=" * 60)
LOGGER.info("Running perturbation: %s", pert_name)
LOGGER.info("=" * 60)
# Verify shared files exist
for shared_file in [cfg.QUERY_CTRL_H5AD, cfg.PROMPT_CTRL_H5AD,
cfg.QUERY_EMB_NPY, cfg.PROMPT_CTRL_EMB_NPY]:
if not (cfg.RESULTS_DIR / shared_file).exists():
raise FileNotFoundError(
f"Shared file {shared_file} not found. Run --shared-only first."
)
# Extract prompt_pert
has_data = step_extract_prompt_pert(pcfg)
if not has_data:
LOGGER.warning("Skipping %s (no T cell data).", pert_name)
return
# Bridge prediction
step_bridge_prediction(pcfg)
# Pert embeddings
step_extract_pert_embeddings(pcfg)
# Custom generation
step_custom_generation(pcfg)
LOGGER.info("=" * 60)
LOGGER.info("Perturbation %s complete!", pert_name)
LOGGER.info("Final result: %s", pcfg.results_dir / pcfg.final_result_h5ad)
LOGGER.info("=" * 60)
# ---------------------------------------------------------------------------
# Main
# ---------------------------------------------------------------------------
def main():
parser = argparse.ArgumentParser(
description="Prompt Selection Pipeline for Stack generation."
)
parser.add_argument(
"--perturbation", type=str, default=None,
help="Perturbation name (e.g., Dabrafenib). Required unless --shared-only.",
)
parser.add_argument(
"--shared-only", action="store_true",
help="Only run shared steps (extract query_ctrl, prompt_ctrl, their embeddings).",
)
args = parser.parse_args()
if args.shared_only:
run_shared_steps()
elif args.perturbation:
run_perturbation(args.perturbation)
else:
parser.error("Either --perturbation or --shared-only is required.")
if __name__ == "__main__":
main()
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