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Medica_DecisionSupportAI / app.py
Rajan Sharma
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 # app.py
import os, re, json, traceback, pathlib
from functools import lru_cache
from typing import List, Dict, Any, Tuple
import gradio as gr
import torch
import regex as re2 # robust control-char sanitizer
from settings import SNAPSHOT_PATH, PERSIST_CONTENT
from audit_log import log_event, hash_summary
from privacy import redact_text
# ---------- Writable caches (HF Spaces-safe) ----------
HOME = pathlib.Path.home()
HF_HOME = str(HOME / ".cache" / "huggingface")
HF_HUB_CACHE = str(HOME / ".cache" / "huggingface" / "hub")
HF_TRANSFORMERS = str(HOME / ".cache" / "huggingface" / "transformers")
ST_HOME = str(HOME / ".cache" / "sentence-transformers")
GRADIO_TMP = str(HOME / "app" / "gradio")
GRADIO_CACHE = GRADIO_TMP
os.environ.setdefault("HF_HOME", HF_HOME)
os.environ.setdefault("HF_HUB_CACHE", HF_HUB_CACHE)
os.environ.setdefault("TRANSFORMERS_CACHE", HF_TRANSFORMERS)
os.environ.setdefault("SENTENCE_TRANSFORMERS_HOME", ST_HOME)
os.environ.setdefault("GRADIO_TEMP_DIR", GRADIO_TMP)
os.environ.setdefault("GRADIO_CACHE_DIR", GRADIO_CACHE)
os.environ.setdefault("HF_HUB_ENABLE_XET", "0")
os.environ.setdefault("HF_HUB_ENABLE_HF_TRANSFER", "1")
for p in [HF_HOME, HF_HUB_CACHE, HF_TRANSFORMERS, ST_HOME, GRADIO_TMP, GRADIO_CACHE]:
try:
os.makedirs(p, exist_ok=True)
except Exception:
pass
# Optional Cohere
try:
import cohere
_HAS_COHERE = True
except Exception:
_HAS_COHERE = False
from transformers import AutoTokenizer, AutoModelForCausalLM
from huggingface_hub import login
from safety import safety_filter, refusal_reply
from retriever import init_retriever, retrieve_context
from decision_math import compute_operational_numbers # fixed import name
from prompt_templates import build_system_preamble
from upload_ingest import extract_text_from_files
from session_rag import SessionRAG
from mdsi_analysis import capacity_projection, cost_estimate, outcomes_summary
# NEW: dynamic data plumbing
from data_registry import DataRegistry
from schema_mapper import map_concepts, build_phase1_questions
from auto_metrics import build_data_findings_markdown
# ---------- Config ----------
MODEL_ID = os.getenv("MODEL_ID", "microsoft/Phi-3-mini-4k-instruct") # fallback
HF_TOKEN = os.getenv("HUGGINGFACE_HUB_TOKEN") or os.getenv("HF_TOKEN")
COHERE_API_KEY = os.getenv("COHERE_API_KEY")
USE_HOSTED_COHERE = bool(COHERE_API_KEY and _HAS_COHERE)
# Larger output budget for Phase 2
MAX_NEW_TOKENS = int(os.getenv("MAX_NEW_TOKENS", "2048"))
# ---------- System Master (Phase 2) ----------
SYSTEM_MASTER = """
SYSTEM ROLE
You are ClarityOps, a medical analytics system that interacts only via this chat.
Absolute rules:
- Use ONLY information provided in this conversation (scenario text + uploaded files + user answers).
- Never invent data. If something required is missing after clarifications, write the literal token: INSUFFICIENT_DATA.
- Produce clear calculations (show multipliers and totals), follow medical units, and keep privacy safeguards (aggregate; suppress cohorts <10).
Formatting hard rules for Phase 2:
- Start with the header: “Structured Analysis”
- Follow this section order:
1. Prioritization
2. Capacity
3. Cost
4. Clinical Benefits
5. ClarityOps Top 3 Recommendations
- End with a brief “Provenance” mapping outputs to scenario text, uploaded files, and answers.
""".strip()
# ---------- Helpers ----------
def pick_dtype_and_map():
if torch.cuda.is_available():
return torch.float16, "auto"
if torch.backends.mps.is_available():
return torch.float16, {"": "mps"}
return torch.float32, "cpu"
def is_identity_query(message, history):
patterns = [
r"\bwho\s+are\s+you\b", r"\bwhat\s+are\s+you\b", r"\bwhat\s+is\s+your\s+name\b",
r"\bwho\s+is\s+this\b", r"\bidentify\s+yourself\b", r"\btell\s+me\s+about\s+yourself\b",
r"\bdescribe\s+yourself\b", r"\band\s+you\s*\?\b", r"\byour\s+name\b",
r"\bwho\s+am\s+i\s+chatting\s+with\b",
]
def match(t): return any(re.search(p, (t or "").strip().lower()) for p in patterns)
if match(message): return True
if history:
last_user = history[-1][0] if isinstance(history[-1], (list, tuple)) else None
if match(last_user): return True
return False
def _iter_user_assistant(history):
for item in (history or []):
if isinstance(item, (list, tuple)):
u = item[0] if len(item) > 0 else ""
a = item[1] if len(item) > 1 else ""
yield u, a
def _sanitize_text(s: str) -> str:
if not isinstance(s, str):
return s
return re2.sub(r'[\p{C}--[\n\t]]+', '', s)
def is_scenario_triggered(text: str, uploaded_files_paths) -> bool:
t = (text or "").lower()
has_keyword = "scenario" in t
has_files = bool(uploaded_files_paths)
return has_keyword or has_files
# ---------- Cohere first ----------
def cohere_chat(message, history):
if not USE_HOSTED_COHERE:
return None
try:
client = cohere.Client(api_key=COHERE_API_KEY)
parts = []
for u, a in _iter_user_assistant(history):
if u: parts.append(f"User: {u}")
if a: parts.append(f"Assistant: {a}")
parts.append(f"User: {message}")
prompt = "\n".join(parts) + "\nAssistant:"
resp = client.chat(
model="command-r7b-12-2024",
message=prompt,
temperature=0.3,
max_tokens=MAX_NEW_TOKENS,
)
if hasattr(resp, "text") and resp.text: return resp.text.strip()
if hasattr(resp, "reply") and resp.reply: return resp.reply.strip()
if hasattr(resp, "generations") and resp.generations: return resp.generations[0].text.strip()
return None
except Exception:
return None
# ---------- Local model (HF) ----------
@lru_cache(maxsize=1)
def load_local_model():
if not HF_TOKEN:
raise RuntimeError("HUGGINGFACE_HUB_TOKEN is not set.")
login(token=HF_TOKEN, add_to_git_credential=False)
dtype, device_map = pick_dtype_and_map()
tok = AutoTokenizer.from_pretrained(
MODEL_ID, token=HF_TOKEN, use_fast=True, model_max_length=8192,
padding_side="left", trust_remote_code=True,
cache_dir=os.environ.get("TRANSFORMERS_CACHE")
)
try:
mdl = AutoModelForCausalLM.from_pretrained(
MODEL_ID, token=HF_TOKEN, device_map=device_map,
low_cpu_mem_usage=True, torch_dtype=dtype, trust_remote_code=True,
cache_dir=os.environ.get("TRANSFORMERS_CACHE")
)
except Exception:
mdl = AutoModelForCausalLM.from_pretrained(
MODEL_ID, token=HF_TOKEN,
low_cpu_mem_usage=True, torch_dtype=dtype, trust_remote_code=True,
cache_dir=os.environ.get("TRANSFORMERS_CACHE")
)
mdl.to("cuda" if torch.cuda.is_available() else "cpu")
if mdl.config.eos_token_id is None and tok.eos_token_id is not None:
mdl.config.eos_token_id = tok.eos_token_id
return mdl, tok
def build_inputs(tokenizer, message, history):
msgs = [{"role": "system", "content": SYSTEM_MASTER}]
for u, a in _iter_user_assistant(history):
if u: msgs.append({"role": "user", "content": u})
if a: msgs.append({"role": "assistant", "content": a})
msgs.append({"role": "user", "content": message})
return tokenizer.apply_chat_template(
msgs, tokenize=True, add_generation_prompt=True, return_tensors="pt"
)
def local_generate(model, tokenizer, input_ids, max_new_tokens=MAX_NEW_TOKENS):
input_ids = input_ids.to(model.device)
with torch.no_grad():
out = model.generate(
input_ids=input_ids, max_new_tokens=max_new_tokens,
do_sample=True, temperature=0.3, top_p=0.9,
repetition_penalty=1.15,
pad_token_id=tokenizer.eos_token_id,
eos_token_id=tokenizer.eos_token_id,
)
gen_only = out[0, input_ids.shape[-1]:]
return tokenizer.decode(gen_only, skip_special_tokens=True).strip()
# ---------- Snapshot & retrieval ----------
def _load_snapshot(path=SNAPSHOT_PATH):
try:
with open(path, "r", encoding="utf-8") as f:
return json.load(f)
except Exception:
return {
"timestamp": None, "beds_total": 400, "staffed_ratio": 1.0, "occupied_pct": 0.97,
"ed_census": 62, "ed_admits_waiting": 19, "avg_ed_wait_hours": 8,
"discharge_ready_today": 11, "discharge_barriers": {"allied_health": 7, "placement": 4},
"rn_shortfall": {"med_ward_A": 1, "med_ward_B": 1},
"forecast_admits_next_24h": {"respiratory": 14, "other": 9},
"isolation_needs_waiting": {"contact": 3, "airborne": 1}, "telemetry_needed_waiting": 5
}
init_retriever()
_session_rag = SessionRAG()
# ---------- Executive pre-compute (MDSi block) ----------
def _mdsi_block():
base_capacity = capacity_projection(18, 48, 6)
cons_capacity = capacity_projection(12, 48, 6)
opt_capacity = capacity_projection(24, 48, 6)
cost_1200 = cost_estimate(1200, 74.0, 75000.0)
outcomes = outcomes_summary()
return json.dumps({
"capacity_projection": {"conservative": cons_capacity, "base": base_capacity, "optimistic": opt_capacity},
"cost_for_1200": cost_1200,
"outcomes_summary": outcomes
}, indent=2)
# NEW: session-scoped data registry
_data_registry = DataRegistry()
# ---------- Core chat logic (auto scenario, dynamic Phase 1) ----------
def clarityops_reply(user_msg, history, tz, uploaded_files_paths, awaiting_answers=False):
try:
log_event("user_message", None, {"sizes": {"chars": len(user_msg or "")}})
safe_in, blocked_in, reason_in = safety_filter(user_msg, mode="input")
if blocked_in:
ans = refusal_reply(reason_in)
return history + [(user_msg, ans)], awaiting_answers
if is_identity_query(safe_in, history):
ans = "I am ClarityOps, your strategic decision making AI partner."
return history + [(user_msg, ans)], awaiting_answers
# 1) Ingest uploads into RAG AND DataRegistry (files alone can trigger Scenario Mode)
artifacts = []
if uploaded_files_paths:
ing = extract_text_from_files(uploaded_files_paths)
chunks = ing.get("chunks", []) if isinstance(ing, dict) else (ing or [])
artifacts = ing.get("artifacts", []) if isinstance(ing, dict) else []
if chunks:
_session_rag.add_docs(chunks)
if artifacts:
_session_rag.register_artifacts(artifacts)
# register parsable tables into DataRegistry
for p in uploaded_files_paths:
_data_registry.add_path(p)
log_event("uploads_added", None, {
"chunks": len(chunks), "artifacts": len(artifacts), "tables": len(_data_registry.names())
})
# quick helper
if re.search(r"\b(columns?|headers?)\b", (safe_in or "").lower()):
cols = _session_rag.get_latest_csv_columns()
if cols:
return history + [(user_msg, "Here are the column names from your most recent CSV upload:\n\n- " + "\n- ".join(cols))], awaiting_answers
# 2) Decide mode
scenario_mode = is_scenario_triggered(safe_in, uploaded_files_paths)
if not scenario_mode:
# ---------- Normal conversational chat ----------
out = cohere_chat(safe_in, history) if USE_HOSTED_COHERE else None
if not out:
model, tokenizer = load_local_model()
tiny = [{"role": "system", "content": "You are a helpful assistant."}]
for u, a in _iter_user_assistant(history):
if u: tiny.append({"role": "user", "content": u})
if a: tiny.append({"role": "assistant", "content": a})
tiny.append({"role": "user", "content": safe_in})
inputs = tokenizer.apply_chat_template(tiny, tokenize=True, add_generation_prompt=True, return_tensors="pt")
out = local_generate(model, tokenizer, inputs, max_new_tokens=MAX_NEW_TOKENS)
out = _sanitize_text(out or "")
safe_out, blocked_out, reason_out = safety_filter(out, mode="output")
if blocked_out:
safe_out = refusal_reply(reason_out)
log_event("assistant_reply", None, {
**hash_summary("prompt", safe_in if not PERSIST_CONTENT else ""),
**hash_summary("reply", safe_out if not PERSIST_CONTENT else ""),
"mode": "normal_chat",
})
return history + [(user_msg, safe_out)], awaiting_answers
# ---------- Scenario Mode ----------
# 3) Build dynamic concept mapping from scenario + data
mapping = map_concepts(safe_in, _data_registry)
if not awaiting_answers:
# PHASE 1: ask only for missing/ambiguous
phase1 = build_phase1_questions(scenario_text=safe_in, registry=_data_registry, mapping=mapping)
phase1 = _sanitize_text(phase1)
log_event("assistant_reply", None, {
**hash_summary("prompt", safe_in if not PERSIST_CONTENT else ""),
**hash_summary("reply", phase1 if not PERSIST_CONTENT else ""),
"mode": "scenario_phase1",
"awaiting_next_phase": True
})
return history + [(user_msg, phase1)], True
# PHASE 2: compute data findings in Python, then let LLM write the narrative
data_findings_md, missing_keys = build_data_findings_markdown(_data_registry, mapping)
# If critical missing items remain, surface INSUFFICIENT_DATA context to the model + ask for the rest
insuff_note = ""
if missing_keys:
insuff_note = (
"\n\nUncomputable (still missing columns/defs): "
+ ", ".join(sorted(set(missing_keys)))
+ ". If any of these are essential to the requested outputs, write INSUFFICIENT_DATA where appropriate."
)
# Preamble context (snapshot + policy)
session_snips = "\n---\n".join(_session_rag.retrieve(
"diabetes screening Indigenous Métis mobile program cost throughput outcomes logistics",
k=6
))
snapshot = _load_snapshot()
policy_context = retrieve_context(
"mobile diabetes screening Indigenous community outreach cultural safety data governance outcomes"
)
computed = compute_operational_numbers(snapshot)
user_lower = (safe_in or "").lower()
mdsi_extra = ""
if any(k in user_lower for k in ["diabetes", "mdsi", "mobile screening"]):
mdsi_extra = _mdsi_block()
# Build artifact + table summary for the prompt
registry_summary = _data_registry.summarize_for_prompt()
artifact_block = "Uploaded Data Files (tables):\n" + registry_summary
scenario_block = safe_in if len((safe_in or "")) > 0 else ""
system_preamble = build_system_preamble(
snapshot=snapshot,
policy_context=policy_context,
computed_numbers=computed,
scenario_text=scenario_block + f"\n\n{artifact_block}\n\n{data_findings_md}" + (f"\n\nExecutive Pre-Computed Blocks:\n{mdsi_extra}" if mdsi_extra else "") + insuff_note,
session_snips=session_snips
)
directive = (
"\n\n[INSTRUCTION TO MODEL]\n"
"Produce **Phase 2** now: begin with 'Structured Analysis' and follow the exact section order "
"(Prioritization, Capacity, Cost, Clinical Benefits, ClarityOps Top 3 Recommendations). "
"Use the **Python-computed tables** in the context as ground truth; when something is truly missing, write INSUFFICIENT_DATA. "
"Show calculations, units, and add a brief Provenance.\n"
)
augmented_user = SYSTEM_MASTER + "\n\n" + system_preamble + "\n\nUser scenario & answers:\n" + safe_in + directive
out = cohere_chat(augmented_user, history)
if not out:
model, tokenizer = load_local_model()
inputs = build_inputs(tokenizer, augmented_user, history)
out = local_generate(model, tokenizer, inputs, max_new_tokens=MAX_NEW_TOKENS)
if isinstance(out, str):
for tag in ("Assistant:", "System:", "User:"):
if out.startswith(tag):
out = out[len(tag):].strip()
out = _sanitize_text(out or "")
safe_out, blocked_out, reason_out = safety_filter(out, mode="output")
if blocked_out:
safe_out = refusal_reply(reason_out)
log_event("assistant_reply", None, {
**hash_summary("prompt", augmented_user if not PERSIST_CONTENT else ""),
**hash_summary("reply", safe_out if not PERSIST_CONTENT else ""),
"mode": "scenario_phase2",
"awaiting_next_phase": False
})
return history + [(user_msg, safe_out)], False
except Exception as e:
err = f"Error: {e}"
try:
traceback.print_exc()
except Exception:
pass
return history + [(user_msg, err)], awaiting_answers
# ---------- Theme & CSS ----------
theme = gr.themes.Soft(primary_hue="teal", neutral_hue="slate", radius_size=gr.themes.sizes.radius_lg)
custom_css = """
:root { --brand-bg: #0f172a; --brand-accent: #0d9488; --brand-text: #0f172a; --brand-text-light: #ffffff; } /* bg same as chat for integrated look */
html, body, .gradio-container { height: 100vh; }
.gradio-container { background: var(--brand-bg); display: flex; flex-direction: column; }
/* HERO (landing) */
#hero-wrap { height: 70vh; display: grid; place-items: center; }
#hero { text-align: center; }
#hero h2 { color: #0f172a; font-weight: 800; font-size: 32px; margin-bottom: 22px; }
#hero .search-row { width: min(860px, 92vw); margin: 0 auto; display: flex; gap: 8px; align-items: stretch; }
#hero .search-row .hero-box { flex: 1 1 auto; }
#hero .search-row .hero-box textarea { height: 52px !important; }
#hero-send > button { height: 52px !important; padding: 0 18px !important; border-radius: 12px !important; }
#hero .hint { color: #334155; margin-top: 10px; font-size: 13px; opacity: 0.9; }
/* CHAT */
#chat-container { position: relative; }
.chatbot header, .chatbot .label, .chatbot .label-wrap { display: none !important; }
.message.user, .message.bot { background: var(--brand-accent) !important; color: var(--brand-text-light) !important; border-radius: 12px !important; padding: 8px 12px !important; }
textarea, input, .gr-input { border-radius: 12px !important; }
/* Chat input row equal heights */
#chat-input-row { align-items: stretch; }
#chat-msg textarea { height: 52px !important; }
#chat-send > button, #chat-clear > button { height: 52px !important; padding: 0 18px !important; border-radius: 12px !important; }
"""
# ---------- UI ----------
with gr.Blocks(theme=theme, css=custom_css, analytics_enabled=False) as demo:
# --- HERO (initial Google-like screen) ---
with gr.Column(elem_id="hero-wrap", visible=True) as hero_wrap:
with gr.Column(elem_id="hero"):
gr.HTML("<h2>What can I assist with?</h2>")
with gr.Row(elem_classes="search-row"):
hero_msg = gr.Textbox(
placeholder="Ask anything (type 'scenario' and/or attach files for Scenario Mode)…",
show_label=False,
lines=1,
elem_classes="hero-box"
)
hero_send = gr.Button("➤", scale=0, elem_id="hero-send")
gr.Markdown('<div class="hint">Scenario Mode triggers when you type the word <b>scenario</b> or upload files. Phase&nbsp;1 asks dynamic clarifications; Phase&nbsp;2 returns a structured analysis.</div>')
# --- MAIN APP (hidden until first message) ---
with gr.Column(elem_id="chat-container", visible=False) as app_wrap:
chat = gr.Chatbot(label="", show_label=False, height="80vh")
with gr.Row():
uploads = gr.Files(
label="Upload docs/images (PDF, DOCX, CSV, PNG, JPG)",
file_types=["file"], file_count="multiple", height=68
)
with gr.Row(elem_id="chat-input-row"):
msg = gr.Textbox(
label="",
show_label=False,
placeholder="Continue here. Paste scenario details (include the word 'scenario' to trigger), add files above.",
scale=10,
elem_id="chat-msg",
lines=1,
)
send = gr.Button("Send", scale=1, elem_id="chat-send")
clear = gr.Button("Clear chat", scale=1, elem_id="chat-clear")
# ---- State
state_history = gr.State(value=[])
state_uploaded = gr.State(value=[])
state_awaiting = gr.State(value=False)
# ---- Uploads
def _store_uploads(files, current):
paths = []
for f in (files or []):
paths.append(getattr(f, "name", None) or f)
return (current or []) + paths
uploads.change(fn=_store_uploads, inputs=[uploads, state_uploaded], outputs=state_uploaded)
# ---- Core send (used by both hero input and chat input)
def _on_send(user_msg, history, up_paths, awaiting):
try:
if not user_msg or not user_msg.strip():
return history, "", history, awaiting
new_history, new_awaiting = clarityops_reply(
user_msg.strip(), history or [], None, up_paths or [], awaiting_answers=awaiting
)
return new_history, "", new_history, new_awaiting
except Exception as e:
err = f"Error: {e}"
try: traceback.print_exc()
except Exception: pass
new_hist = (history or []) + [(user_msg or "", err)]
return new_hist, "", new_hist, awaiting
# ---- Hero -> App transition + first send
def _hero_start(user_msg, history, up_paths, awaiting):
chat_o, msg_o, hist_o, await_o = _on_send(user_msg, history, up_paths, awaiting)
return (
chat_o, msg_o, hist_o, await_o,
gr.update(visible=False),
gr.update(visible=True),
""
)
hero_send.click(
_hero_start,
inputs=[hero_msg, state_history, state_uploaded, state_awaiting],
outputs=[chat, msg, state_history, state_awaiting, hero_wrap, app_wrap, hero_msg],
concurrency_limit=2, queue=True
)
hero_msg.submit(
_hero_start,
inputs=[hero_msg, state_history, state_uploaded, state_awaiting],
outputs=[chat, msg, state_history, state_awaiting, hero_wrap, app_wrap, hero_msg],
concurrency_limit=2, queue=True
)
# ---- Normal chat interactions after hero is gone
send.click(_on_send, inputs=[msg, state_history, state_uploaded, state_awaiting],
outputs=[chat, msg, state_history, state_awaiting],
concurrency_limit=2, queue=True)
msg.submit(_on_send, inputs=[msg, state_history, state_uploaded, state_awaiting],
outputs=[chat, msg, state_history, state_awaiting],
concurrency_limit=2, queue=True)
def _on_clear():
# Also clear the in-memory data registry for a fresh scenario
_data_registry.clear()
return (
[], "", [], False,
gr.update(visible=True),
gr.update(visible=False),
""
)
clear.click(_on_clear, None, [chat, msg, state_history, state_awaiting, hero_wrap, app_wrap, hero_msg])
if __name__ == "__main__":
port = int(os.environ.get("PORT", "7860"))
demo.launch(server_name="0.0.0.0", server_port=port, show_api=False, max_threads=8)