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25 Commits

Author SHA1 Message Date
d0a5748ca1 chore: redefined and connected pricers 2025-11-29 17:43:15 +01:00
dd33f83e10 feature: experiemntal sessin pricer and metrics(vibe) 2025-11-29 17:42:42 +01:00
5d5795b212 extra session feature extraction 2025-11-29 17:42:30 +01:00
d0d18927cf chore: e2e is done with new pipeline 2025-11-28 18:52:05 +01:00
c8a69f0e3b feature: introducing pricing predictors (pricers) 2025-11-28 17:38:38 +01:00
8fae7851a6 migrating pricers 2025-11-28 17:38:25 +01:00
73e46200c7 test: extra tests wit hsemantic meaning checks 2025-11-28 17:38:11 +01:00
e9d9c0e319 chore: cleaning up provider of prices 2025-11-28 16:23:44 +01:00
b5c71e713b test: started with pipeline step testing 2025-11-28 16:20:17 +01:00
e79edf2ef3 leaked but fixing, not so important 2025-11-28 14:22:01 +01:00
f3bc81e0ed cleaning old pipeline and vectorization 2025-11-28 14:20:05 +01:00
1054fe7720 pipelines local running and pipeline high level definition 2025-11-28 14:06:12 +01:00
bdd72b5a85 docs: what the pipeline is like now 2025-11-28 14:06:01 +01:00
33c20ec715 chore: enables cross comm pickling with fully e2e pipeline compilation 2025-11-28 14:05:39 +01:00
505c4fcd42 fix: fixing import structures from nonrelativistic 2025-11-28 13:56:44 +01:00
eb30b04271 local pipeline excution working 2025-11-28 13:52:41 +01:00
519b3b7f93 exporting all 2025-11-28 13:43:23 +01:00
b38f2b0c66 chore: refactored and broke down components (braking 2025-11-28 13:43:05 +01:00
f749bd749c chore: refactoring the providers docker config and requirements 2025-11-27 23:35:38 +01:00
d8a3131d3c feature: super simple model registry (to be updated maybe third party OS software) 2025-11-27 23:28:03 +01:00
a3ac3fba59 generic pricing baselines 2025-11-27 23:26:30 +01:00
cc841ae0a5 chore: removing old shit 2025-11-27 23:26:15 +01:00
1bbfc699c2 introducing complete provider (non refactored and noisy) 2025-11-27 23:25:55 +01:00
219370cd95 chore: updating dag with upload to registry 2025-11-27 23:25:24 +01:00
de7a386fc7 introducing airflow to run pipeline 2025-11-27 22:25:13 +01:00
47 changed files with 1475 additions and 1560 deletions

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@@ -1,12 +1,5 @@
<img width="200" align="left" src="https://github.com/user-attachments/assets/d148b00d-e9f9-4280-89cc-0cc866e17251" />
### PHANTOM
[![Build PDF](https://github.com/velocitatem/PHANTOM/actions/workflows/latex.yml/badge.svg)](https://github.com/velocitatem/PHANTOM/actions/workflows/latex.yml) [![Build PDF](https://github.com/velocitatem/PHANTOM/actions/workflows/latex.yml/badge.svg)](https://github.com/velocitatem/PHANTOM/actions/workflows/latex.yml)
[![TPU Research Cloud](https://img.shields.io/badge/TPU%20Research%20Cloud-TRC%20supported-4285F4?logo=googlecloud&logoColor=white)](https://sites.research.google/trc/faq/)
[![Vercel Deploy](https://deploy-badge.vercel.app/?url=https://phantom-hotel.vercel.app&name=Hotel)](https://phantom-hotel.vercel.app)
[![Vercel Deploy](https://deploy-badge.vercel.app/?url=https://phantom-airline.vercel.app&name=Airline)](https://phantom-airline.vercel.app)
- https://phantom-hotel.vercel.app/
- https://phantom-airline.vercel.app/

View File

@@ -19,11 +19,11 @@ from procesing.pricers import (
ElasticityBasedPricer ElasticityBasedPricer
) )
from procesing.steps import ( from procesing.steps import (
StateSpace,
PredictPricesStep PredictPricesStep
) )
from procesing import PipelineContext from procesing import PipelineContext
sys.path.append(os.path.dirname(os.path.abspath(__file__))+ "/../../lib/") sys.path.append(os.path.dirname(os.path.abspath(__file__))+ "/../../lib/")
print(os.path.dirname(os.path.abspath(__file__))+ "/../../lib/")
from lib.model_registry import ModelRegistry from lib.model_registry import ModelRegistry
# Config # Config
@@ -53,12 +53,20 @@ def get_price(mode: Literal['hotel', 'airline'], productId: str, sessionId: Opti
metadata = product['metadata'] metadata = product['metadata']
base_price = metadata.get('base_price', 100.0) base_price = metadata.get('base_price', 100.0)
# fetch pre-computed prices from registry class Provider(SupabaseProvider, BackendAPIProvider):
prices_df = registry.get_prices('latest') def __init__(self, backend_url: str):
SupabaseProvider.__init__(self)
BackendAPIProvider.__init__(self, backend_url=backend_url)
context = PipelineContext(
provider=Provider(backend_url=os.getenv("BACKEND_URL")),
store_mode=mode
)
pricing_model = registry.get_pricing_model('latest')
elasticity_df = registry.get_elasticity('latest') elasticity_df = registry.get_elasticity('latest')
if prices_df is None: if pricing_model is None or elasticity_df is None:
# fallback: no pre-computed prices available
return PriceResponse( return PriceResponse(
productId=productId, productId=productId,
price=base_price, price=base_price,
@@ -67,26 +75,87 @@ def get_price(mode: Literal['hotel', 'airline'], productId: str, sessionId: Opti
elasticity=None elasticity=None
) )
# lookup pre-computed price for this product products = context.products
if products.empty:
raise HTTPException(500, "No products available in catalog")
# merge elasticity with product base prices
products_with_meta = products.copy()
products_with_meta['base_price'] = products_with_meta['metadata'].apply(
lambda m: m.get('base_price', 100.0) if isinstance(m, dict) else 100.0
)
merged = products_with_meta[['id', 'base_price']].rename(
columns={'id': 'productId'}
).merge(
elasticity_df[['productId', 'elasticity']],
on='productId',
how='left'
).fillna({'elasticity': 0.0})
# compute demand: use pricer's mean_demand if available, else default
demand_values = (pricing_model.mean_demand
if hasattr(pricing_model, 'mean_demand') and pricing_model.mean_demand is not None
else np.ones(len(merged)) * 10.0)
# build state space with session features if sessionId provided
session_features = pd.DataFrame()
if sessionId:
try:
# fetch recent session interactions from backend
from procesing.steps.session import ExtractSessionFeaturesStep
import requests
from datetime import datetime, timedelta
t_end = datetime.utcnow()
t_start = t_end - timedelta(hours=1)
backend_url = os.getenv("BACKEND_URL")
print(backend_url)
resp = requests.get(
f"{os.getenv('BACKEND_URL')}/api/kafka/dump", # TODO: THIS IS SHIT, must fix this
params={'topic': 'user-interactions', 't_start': t_start.isoformat(), 't_end': t_end.isoformat()},
timeout=2
)
if resp.ok:
msgs = resp.json().get('messages', [])
interactions_df = pd.DataFrame(msgs)
if not interactions_df.empty and 'sessionId' in interactions_df.columns:
session_interactions = interactions_df[interactions_df['sessionId'] == sessionId]
if not session_interactions.empty:
extractor = ExtractSessionFeaturesStep(context=context)
session_features_df = extractor.transform(session_interactions)
if not session_features_df.empty:
session_features = session_features_df.drop(columns=['sessionId'])
except Exception as e:
print(f"[session-features-error] {e}")
# continue without session features
state = StateSpace(
demand=demand_values,
prices=merged['base_price'].values,
session_features=session_features,
product_ids=merged['productId'].values,
elasticity=merged['elasticity'].values,
metadata={'sessionId': sessionId, 'experimentId': experimentId}
)
oracle = PredictPricesStep(context=context)
prices_df = oracle.transform((pricing_model, state))
product_price_row = prices_df[prices_df['productId'] == productId] product_price_row = prices_df[prices_df['productId'] == productId]
if product_price_row.empty: if product_price_row.empty:
# product not in pre-computed prices, fallback to base raise HTTPException(404, f"No pricing available for product {productId}")
return PriceResponse(
productId=productId,
price=base_price,
base_price=base_price,
markup=1.0,
elasticity=None
)
optimal_price = float(product_price_row['optimal_price'].iloc[0]) # TODO: use optimal_price everywhere as aresult optimal_price = float(product_price_row['predicted_price'].iloc[0])
# get elasticity if available product_elasticity_row = elasticity_df[elasticity_df['productId'] == productId]
product_elasticity = None product_elasticity = (float(product_elasticity_row['elasticity'].iloc[0])
if elasticity_df is not None: if not product_elasticity_row.empty else None)
product_elasticity_row = elasticity_df[elasticity_df['productId'] == productId]
if not product_elasticity_row.empty:
product_elasticity = float(product_elasticity_row['elasticity'].iloc[0])
return PriceResponse( return PriceResponse(
productId=productId, productId=productId,

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@@ -12,5 +12,4 @@ graphviz
python-dotenv>=1.0.0 python-dotenv>=1.0.0
requests>=2.31.0 requests>=2.31.0
typing-extensions>=4.8.0 typing-extensions>=4.8.0
pypickle pickle5>=0.0.11; python_version < '3.8'
pymc

View File

@@ -290,7 +290,6 @@ async def get_products(
query = supabase.table(table).select('*') query = supabase.table(table).select('*')
# filter by exact date_index if provided # filter by exact date_index if provided
# dateIndex from frontend is days from today, convert to days since epoch
if dateIndex is not None: if dateIndex is not None:
query = query.eq('date_index', dateIndex) query = query.eq('date_index', dateIndex)

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@@ -103,6 +103,12 @@ services:
- _AIRFLOW_WWW_USER_PASSWORD=admin - _AIRFLOW_WWW_USER_PASSWORD=admin
- REDIS_HOST=redis - REDIS_HOST=redis
- REDIS_PORT=6379 - REDIS_PORT=6379
volumes:
- ./experiments/airflow/dags:/opt/airflow/dags
- ./experiments/airflow/logs:/opt/airflow/logs
- ./experiments/airflow/plugins:/opt/airflow/plugins
- ./experiments/procesing:/opt/airflow/procesing
- ./lib:/opt/airflow/lib
command: version command: version
restart: "no" restart: "no"
@@ -123,7 +129,6 @@ services:
- AIRFLOW__CORE__LOAD_EXAMPLES=false - AIRFLOW__CORE__LOAD_EXAMPLES=false
- AIRFLOW__CORE__ENABLE_XCOM_PICKLING=true - AIRFLOW__CORE__ENABLE_XCOM_PICKLING=true
- AIRFLOW__WEBSERVER__EXPOSE_CONFIG=true - AIRFLOW__WEBSERVER__EXPOSE_CONFIG=true
- AIRFLOW__WEBSERVER__SECRET_KEY=${AIRFLOW_SECRET_KEY}
- KAFKA_HOST=kafka - KAFKA_HOST=kafka
- KAFKA_PORT=29092 - KAFKA_PORT=29092
- BACKEND_URL=http://backend:5000 - BACKEND_URL=http://backend:5000
@@ -133,6 +138,12 @@ services:
- REDIS_PORT=6379 - REDIS_PORT=6379
ports: ports:
- "${AIRFLOW_WEBSERVER_PORT:-8085}:8080" - "${AIRFLOW_WEBSERVER_PORT:-8085}:8080"
volumes:
- ./experiments/airflow/dags:/opt/airflow/dags:ro
- ./experiments/airflow/logs:/opt/airflow/logs
- ./experiments/airflow/plugins:/opt/airflow/plugins:ro
- ./experiments/procesing:/opt/airflow/procesing:ro
- ./lib:/opt/airflow/lib:ro
command: webserver command: webserver
restart: unless-stopped restart: unless-stopped
healthcheck: healthcheck:
@@ -159,7 +170,6 @@ services:
- AIRFLOW__CORE__DAGS_ARE_PAUSED_AT_CREATION=true - AIRFLOW__CORE__DAGS_ARE_PAUSED_AT_CREATION=true
- AIRFLOW__CORE__LOAD_EXAMPLES=false - AIRFLOW__CORE__LOAD_EXAMPLES=false
- AIRFLOW__CORE__ENABLE_XCOM_PICKLING=true - AIRFLOW__CORE__ENABLE_XCOM_PICKLING=true
- AIRFLOW__WEBSERVER__SECRET_KEY=${AIRFLOW_SECRET_KEY}
- KAFKA_HOST=kafka - KAFKA_HOST=kafka
- KAFKA_PORT=29092 - KAFKA_PORT=29092
- BACKEND_URL=http://backend:5000 - BACKEND_URL=http://backend:5000
@@ -167,6 +177,12 @@ services:
- NEXT_PUBLIC_SUPABASE_ANON_KEY=${NEXT_PUBLIC_SUPABASE_ANON_KEY} - NEXT_PUBLIC_SUPABASE_ANON_KEY=${NEXT_PUBLIC_SUPABASE_ANON_KEY}
- REDIS_HOST=redis - REDIS_HOST=redis
- REDIS_PORT=6379 - REDIS_PORT=6379
volumes:
- ./experiments/airflow/dags:/opt/airflow/dags:ro
- ./experiments/airflow/logs:/opt/airflow/logs
- ./experiments/airflow/plugins:/opt/airflow/plugins:ro
- ./experiments/procesing:/opt/airflow/procesing:ro
- ./lib:/opt/airflow/lib:ro
command: scheduler command: scheduler
restart: unless-stopped restart: unless-stopped
healthcheck: healthcheck:
@@ -192,9 +208,13 @@ services:
- KAFKA_PORT=29092 - KAFKA_PORT=29092
- NEXT_PUBLIC_SUPABASE_URL=${NEXT_PUBLIC_SUPABASE_URL} - NEXT_PUBLIC_SUPABASE_URL=${NEXT_PUBLIC_SUPABASE_URL}
- NEXT_PUBLIC_SUPABASE_ANON_KEY=${NEXT_PUBLIC_SUPABASE_ANON_KEY} - NEXT_PUBLIC_SUPABASE_ANON_KEY=${NEXT_PUBLIC_SUPABASE_ANON_KEY}
- BACKEND_URL=http://localhost:5000
ports: ports:
- "${PROVIDER_PORT:-5001}:5001" - "${PROVIDER_PORT:-5001}:5001"
volumes:
- ./lib:/app/lib:ro
- ./experiments/procesing:/app/procesing:ro
- ./backend/provider:/app/provider:ro
command: python -m uvicorn provider.app:app --host 0.0.0.0 --port 5001
restart: unless-stopped restart: unless-stopped
volumes: volumes:

View File

@@ -21,10 +21,3 @@ RUN pip install --no-cache-dir \
# set airflow home # set airflow home
ENV AIRFLOW_HOME=/opt/airflow ENV AIRFLOW_HOME=/opt/airflow
COPY --chown=airflow:root experiments/airflow/dags ${AIRFLOW_HOME}/dags
COPY --chown=airflow:root experiments/procesing ${AIRFLOW_HOME}/procesing
COPY --chown=airflow:root lib ${AIRFLOW_HOME}/lib
# create logs and plugins dirs (airflow expects them)
RUN mkdir -p ${AIRFLOW_HOME}/logs ${AIRFLOW_HOME}/plugins

View File

@@ -1,41 +0,0 @@
FROM apache/airflow:2.7.3-python3.11
USER root
RUN apt-get update && apt-get install -y --no-install-recommends \
build-essential \
supervisor \
&& apt-get clean \
&& rm -rf /var/lib/apt/lists/*
USER airflow
COPY requirements.txt /tmp/requirements.txt
RUN pip install --no-cache-dir -r /tmp/requirements.txt
RUN pip install --no-cache-dir \
psycopg2-binary \
apache-airflow-providers-postgres
ENV AIRFLOW_HOME=/opt/airflow
ENV AIRFLOW__CORE__EXECUTOR=SequentialExecutor
ENV AIRFLOW__CORE__LOAD_EXAMPLES=false
ENV AIRFLOW__CORE__ENABLE_XCOM_PICKLING=true
ENV AIRFLOW__WEBSERVER__EXPOSE_CONFIG=true
# copy all code into image (standalone - no volume mounts needed)
COPY --chown=airflow:root experiments/airflow/dags ${AIRFLOW_HOME}/dags
COPY --chown=airflow:root experiments/procesing ${AIRFLOW_HOME}/procesing
COPY --chown=airflow:root lib ${AIRFLOW_HOME}/lib
RUN mkdir -p ${AIRFLOW_HOME}/logs ${AIRFLOW_HOME}/plugins
# copy entrypoint script
COPY --chown=airflow:root docker/airflow-railway-entrypoint.sh /entrypoint.sh
USER root
RUN chmod +x /entrypoint.sh
USER airflow
EXPOSE 8080
ENTRYPOINT ["/entrypoint.sh"]

View File

@@ -14,13 +14,11 @@ RUN apt-get update && apt-get install -y \
COPY backend/provider/requirements.txt /app/ COPY backend/provider/requirements.txt /app/
RUN pip install --no-cache-dir -r requirements.txt RUN pip install --no-cache-dir -r requirements.txt
# Copy application code into image # Structure will be mounted via volumes:
COPY lib/ /app/lib/ # /app/lib -> lib/
COPY experiments/procesing/ /app/procesing/ # /app/procesing -> experiments/procesing/
COPY backend/provider/ /app/provider/ # /app/provider -> backend/provider/
ENV PYTHONPATH=/app:/app/lib:/app/procesing ENV PYTHONPATH=/app:/app/lib:/app/procesing
WORKDIR /app/provider CMD ["python", "-m", "uvicorn", "provider.app:app", "--host", "0.0.0.0", "--port", "5001"]
CMD ["uvicorn", "app:app", "--host", "0.0.0.0", "--port", "5001"]

View File

@@ -1,20 +0,0 @@
#!/bin/bash
set -e
# init db and create admin user on first run
airflow db migrate
# create admin user if not exists
airflow users create \
--username "${AIRFLOW_ADMIN_USER:-admin}" \
--password "${AIRFLOW_ADMIN_PASSWORD:-admin}" \
--firstname Admin \
--lastname User \
--role Admin \
--email admin@example.com || true
# start scheduler in background
airflow scheduler &
# start webserver in foreground (Railway needs one foreground process)
exec airflow webserver --port ${PORT:-8080}

View File

@@ -0,0 +1,346 @@
from airflow import DAG
from airflow.operators.python import PythonOperator
from airflow.utils.dates import days_ago
from datetime import timedelta
import pandas as pd
import logging
import sys
import pickle
import io
# add parent dir to path so procesing package can be imported
sys.path.insert(0, '/opt/airflow')
from procesing.context import PipelineContext
from procesing.providers import SupabaseProvider, BackendAPIProvider
from procesing.steps import (
FetchInteractionsStep,
FetchPriceLogsStep,
CreatePriceBucketsStep,
AugmentEventNamesStep,
ChunkByTimeWindowStep,
ComputeDemandForChunksStep,
AggregatePriceLogsStep,
ComputeElasticityStep,
BuildStateSpaceStep,
FitPricingFunctionStep,
PredictPricesStep,
)
default_args = {
'owner': 'phantom-research',
'depends_on_past': False,
'email_on_failure': False,
'email_on_retry': False,
'retries': 2,
'retry_delay': timedelta(minutes=5),
}
def get_provider():
"""Factory to create composite provider"""
class CompositeProvider(SupabaseProvider, BackendAPIProvider):
def __init__(self):
SupabaseProvider.__init__(self)
BackendAPIProvider.__init__(self)
return CompositeProvider()
def get_context(**kwargs):
"""Build pipeline context from Airflow config"""
dag_conf = kwargs.get('dag_run').conf if kwargs.get('dag_run') else {}
return PipelineContext(
provider=get_provider(),
store_mode=dag_conf.get('store_mode', 'hotel'),
window_size=dag_conf.get('window_size', '30s'),
n_price_buckets=dag_conf.get('n_price_buckets', 5),
elasticity_method=dag_conf.get('elasticity_method', 'point'),
min_observations=dag_conf.get('min_observations', 2),
)
# atomic task functions (each wraps one sklearn step)
def fetch_interactions(**kwargs):
"""Task: Fetch interaction data from Kafka"""
context = get_context(**kwargs)
step = FetchInteractionsStep(context)
df = step.transform(None)
kwargs['ti'].xcom_push(key='interactions_raw', value=pickle.dumps(df))
logging.info(f"Fetched {len(df)} interaction records")
return len(df)
def fetch_price_logs(**kwargs):
"""Task: Fetch price logs from Kafka"""
context = get_context(**kwargs)
step = FetchPriceLogsStep(context)
df = step.transform(None)
kwargs['ti'].xcom_push(key='price_logs_raw', value=pickle.dumps(df))
logging.info(f"Fetched {len(df)} price records")
return len(df)
def create_price_buckets(**kwargs):
"""Task: Create price buckets for interactions"""
ti = kwargs['ti']
df = pickle.loads(ti.xcom_pull(key='interactions_raw'))
context = get_context(**kwargs)
step = CreatePriceBucketsStep(context)
df = step.transform(df)
ti.xcom_push(key='interactions_bucketed', value=pickle.dumps(df))
logging.info(f"Created price buckets for {len(df)} interactions")
return len(df)
def augment_event_names(**kwargs):
"""Task: Augment event names with product and price schema"""
ti = kwargs['ti']
df = pickle.loads(ti.xcom_pull(key='interactions_bucketed'))
context = get_context(**kwargs)
step = AugmentEventNamesStep(context)
df = step.transform(df)
ti.xcom_push(key='interactions_final', value=pickle.dumps(df))
logging.info(f"Augmented event names for {len(df)} interactions")
return len(df)
def chunk_interactions(**kwargs):
"""Task: Chunk interactions into time windows"""
ti = kwargs['ti']
df = pickle.loads(ti.xcom_pull(key='interactions_final'))
context = get_context(**kwargs)
step = ChunkByTimeWindowStep(context)
chunks = step.transform(df)
ti.xcom_push(key='interaction_chunks', value=pickle.dumps(chunks))
logging.info(f"Generated {len(chunks)} interaction chunks")
return len(chunks)
def compute_demand(**kwargs):
"""Task: Compute demand vectors for all chunks"""
ti = kwargs['ti']
chunks = pickle.loads(ti.xcom_pull(key='interaction_chunks'))
context = get_context(**kwargs)
step = ComputeDemandForChunksStep(context)
demand_chunks = step.transform(chunks)
ti.xcom_push(key='demand_chunks', value=pickle.dumps(demand_chunks))
logging.info(f"Computed demand for {len(demand_chunks)} chunks")
return len(demand_chunks)
def aggregate_price_logs(**kwargs):
"""Task: Aggregate price logs into time windows """
ti = kwargs['ti']
df = pickle.loads(ti.xcom_pull(key='price_logs_raw'))
context = get_context(**kwargs)
step = AggregatePriceLogsStep(context)
price_chunks = step.transform(df)
ti.xcom_push(key='price_chunks', value=pickle.dumps(price_chunks))
logging.info(f"Aggregated {len(price_chunks)} price chunks")
return len(price_chunks)
def compute_elasticity(**kwargs):
"""Task: Compute price elasticity from demand and price chunks"""
ti = kwargs['ti']
demand_chunks = pickle.loads(ti.xcom_pull(key='demand_chunks'))
price_chunks = pickle.loads(ti.xcom_pull(key='price_chunks'))
context = get_context(**kwargs)
step = ComputeElasticityStep(context)
elasticity_df = step.transform((demand_chunks, price_chunks))
ti.xcom_push(key='elasticity_results', value=pickle.dumps(elasticity_df))
logging.info(f"Computed elasticity for {len(elasticity_df)} products")
return {
'n_products': len(elasticity_df),
'mean_elasticity': float(elasticity_df['elasticity'].mean()),
'median_elasticity': float(elasticity_df['elasticity'].median())
}
def build_state_space(**kwargs):
"""Task: Build state space from elasticity"""
ti = kwargs['ti']
elasticity_df = pickle.loads(ti.xcom_pull(key='elasticity_results'))
context = get_context(**kwargs)
step = BuildStateSpaceStep(context)
state_space = step.transform(elasticity_df)
ti.xcom_push(key='state_space', value=pickle.dumps(state_space))
logging.info("Built state space for pricing")
return True
def fit_pricing_function(**kwargs):
"""Task: Fit pricing function using elasticity"""
ti = kwargs['ti']
elasticity_df = pickle.loads(ti.xcom_pull(key='elasticity_results'))
context = get_context(**kwargs)
step = FitPricingFunctionStep(context)
pricer = step.transform(elasticity_df)
ti.xcom_push(key='pricer', value=pickle.dumps(pricer))
logging.info("Fitted pricing function")
return True
def predict_prices(**kwargs):
"""Task: Predict optimal prices"""
ti = kwargs['ti']
pricer = pickle.loads(ti.xcom_pull(key='pricer'))
state_space = pickle.loads(ti.xcom_pull(key='state_space'))
context = get_context(**kwargs)
step = PredictPricesStep(context)
prices_df = step.transform((pricer, state_space))
ti.xcom_push(key='predicted_prices', value=pickle.dumps(prices_df))
logging.info(f"Predicted prices for {len(prices_df)} products")
return len(prices_df)
def publish_results(**kwargs):
"""Task: Publish elasticity and pricing results to model registry"""
ti = kwargs['ti']
elasticity_df = pickle.loads(ti.xcom_pull(key='elasticity_results'))
prices_df = pickle.loads(ti.xcom_pull(key='predicted_prices'))
sys.path.insert(0, '/opt/airflow')
from lib.model_registry import ModelRegistry
registry = ModelRegistry()
dag_conf = kwargs.get('dag_run').conf if kwargs.get('dag_run') else {}
metadata = {
'timestamp': pd.Timestamp.now().isoformat(),
'window_size': dag_conf.get('window_size', '30s'),
'store_mode': dag_conf.get('store_mode', 'hotel'),
'dag_run_id': kwargs['dag_run'].run_id if kwargs.get('dag_run') else 'manual'
}
registry.publish_elasticity(elasticity_df, model_name='latest', metadata=metadata)
# get fitted pricer from XCom
pricer = pickle.loads(ti.xcom_pull(key='pricer'))
registry.publish_pricing_model(
pricer,
model_name='latest',
metadata={**metadata, 'model_type': type(pricer).__name__}
)
logging.info(f"Published elasticity + pricing for {len(elasticity_df)} products")
return {
'n_products': len(elasticity_df),
'registry_status': 'success',
'elasticity_mean': float(elasticity_df['elasticity'].mean())
}
# DAG definition
with DAG(
'elasticity_pricing_pipeline',
default_args=default_args,
description='E2E refactored pipeline: atomic steps with proper separation',
schedule_interval='*/15 * * * *',
start_date=days_ago(1),
catchup=False,
max_active_runs=1,
tags=['pricing', 'elasticity', 'research', 'refactored'],
) as dag:
# parallel data fetching
t_fetch_interactions = PythonOperator(
task_id='fetch_interactions',
python_callable=fetch_interactions,
provide_context=True,
)
t_fetch_price_logs = PythonOperator(
task_id='fetch_price_logs',
python_callable=fetch_price_logs,
provide_context=True,
)
# interaction processing branch
t_create_buckets = PythonOperator(
task_id='create_price_buckets',
python_callable=create_price_buckets,
provide_context=True,
)
t_augment_events = PythonOperator(
task_id='augment_event_names',
python_callable=augment_event_names,
provide_context=True,
)
t_chunk_interactions = PythonOperator(
task_id='chunk_interactions',
python_callable=chunk_interactions,
provide_context=True,
)
t_compute_demand = PythonOperator(
task_id='compute_demand',
python_callable=compute_demand,
provide_context=True,
)
# price processing branch (VECTORIZED)
t_aggregate_prices = PythonOperator(
task_id='aggregate_price_logs',
python_callable=aggregate_price_logs,
provide_context=True,
)
# convergence: compute elasticity
t_compute_elasticity = PythonOperator(
task_id='compute_elasticity',
python_callable=compute_elasticity,
provide_context=True,
)
# pricing tasks
t_build_state = PythonOperator(
task_id='build_state_space',
python_callable=build_state_space,
provide_context=True,
)
t_fit_pricer = PythonOperator(
task_id='fit_pricing_function',
python_callable=fit_pricing_function,
provide_context=True,
)
t_predict_prices = PythonOperator(
task_id='predict_prices',
python_callable=predict_prices,
provide_context=True,
)
# publish to registry
t_publish = PythonOperator(
task_id='publish_results',
python_callable=publish_results,
provide_context=True,
)
# dependency graph (clear atomic flow)
# parallel fetches
[t_fetch_interactions, t_fetch_price_logs]
# interaction branch: fetch -> bucket -> augment -> chunk -> demand
t_fetch_interactions >> t_create_buckets >> t_augment_events >> t_chunk_interactions >> t_compute_demand
# price branch: fetch -> aggregate (vectorized)
t_fetch_price_logs >> t_aggregate_prices
# convergence: both branches -> elasticity
[t_compute_demand, t_aggregate_prices] >> t_compute_elasticity
# pricing: elasticity -> state + fit -> predict -> publish
t_compute_elasticity >> [t_build_state, t_fit_pricer] >> t_predict_prices >> t_publish

View File

@@ -1,210 +0,0 @@
from airflow import DAG
from airflow.operators.python import PythonOperator
from airflow.utils.dates import days_ago
from datetime import timedelta
import pandas as pd
import logging
import sys
import pickle
sys.path.insert(0, '/opt/airflow')
from procesing.context import PipelineContext
from procesing.providers import SupabaseProvider, BackendAPIProvider
from procesing.steps import (
FetchInteractionsStep,
FetchPriceLogsStep,
ComputeDemandStep,
AggregatePriceLogsStep,
JoinProductFeaturesStep,
)
from procesing.pricers.simple import SimpleSurgePricer
DEFAULT_ARGS = {
'owner': 'phantom-research',
'depends_on_past': False,
'email_on_failure': False,
'email_on_retry': False,
'retries': 2,
'retry_delay': timedelta(minutes=5),
}
class CompositeProvider(SupabaseProvider, BackendAPIProvider):
def __init__(self):
SupabaseProvider.__init__(self)
BackendAPIProvider.__init__(self)
def _get_provider():
return CompositeProvider()
def _make_task_callables(store_mode: str):
"""Generate task callables bound to a specific store_mode."""
def get_context(**kwargs):
return PipelineContext(provider=_get_provider(), store_mode=store_mode)
def fetch_interactions(**kwargs):
ctx = get_context(**kwargs)
df = FetchInteractionsStep(ctx).transform(None)
kwargs['ti'].xcom_push(key='interactions_raw', value=pickle.dumps(df))
logging.info(f"[{store_mode}] Fetched {len(df)} interaction records")
return len(df)
def fetch_price_logs(**kwargs):
ctx = get_context(**kwargs)
df = FetchPriceLogsStep(ctx).transform(None)
kwargs['ti'].xcom_push(key='price_logs_raw', value=pickle.dumps(df))
logging.info(f"[{store_mode}] Fetched {len(df)} price records")
return len(df)
def compute_demand(**kwargs):
ti = kwargs['ti']
df = pickle.loads(ti.xcom_pull(key='interactions_raw'))
ctx = get_context(**kwargs)
demand_df = ComputeDemandStep(ctx).transform(df)
ti.xcom_push(key='demand_data', value=pickle.dumps(demand_df))
logging.info(f"[{store_mode}] Computed demand for {len(demand_df)} products")
return len(demand_df)
def aggregate_price_logs(**kwargs):
ti = kwargs['ti']
df = pickle.loads(ti.xcom_pull(key='price_logs_raw'))
ctx = get_context(**kwargs)
price_df = AggregatePriceLogsStep(ctx).transform(df)
ti.xcom_push(key='price_data', value=pickle.dumps(price_df))
logging.info(f"[{store_mode}] Aggregated price logs for {len(price_df)} products")
return len(price_df)
def join_product_features(**kwargs):
ti = kwargs['ti']
demand_df = pickle.loads(ti.xcom_pull(key='demand_data'))
price_df = pickle.loads(ti.xcom_pull(key='price_data'))
ctx = get_context(**kwargs)
joined_df = JoinProductFeaturesStep(ctx).transform((demand_df, price_df))
ti.xcom_push(key='product_features', value=pickle.dumps(joined_df))
logging.info(f"[{store_mode}] Joined features for {len(joined_df)} products")
return len(joined_df)
def apply_surge_pricing(**kwargs):
ti = kwargs['ti']
product_features = pickle.loads(ti.xcom_pull(key='product_features'))
dag_conf = kwargs.get('dag_run').conf if kwargs.get('dag_run') else {}
data = product_features.rename(columns={'demand_score': 'demand'})
surge_pricer = SimpleSurgePricer(
high_threshold=dag_conf.get('high_threshold', 10),
low_threshold=dag_conf.get('low_threshold', 2),
surge_multiplier=dag_conf.get('surge_multiplier', 1.2),
discount_multiplier=dag_conf.get('discount_multiplier', 0.9)
)
surge_pricer.fit(data)
data['optimal_price'] = surge_pricer.predict()
prices_df = data[['productId', 'price', 'base_price', 'optimal_price', 'demand']].rename(columns={
'price': 'current_price', 'demand': 'demand_score'
})
ti.xcom_push(key='predicted_prices', value=pickle.dumps(prices_df))
logging.info(f"[{store_mode}] Applied surge pricing for {len(prices_df)} products")
return len(prices_df)
def publish_results(**kwargs):
ti = kwargs['ti']
prices_df = pickle.loads(ti.xcom_pull(key='predicted_prices'))
from lib.model_registry import ModelRegistry
registry = ModelRegistry()
dag_conf = kwargs.get('dag_run').conf if kwargs.get('dag_run') else {}
metadata = {
'timestamp': pd.Timestamp.now().isoformat(),
'store_mode': store_mode,
'dag_run_id': kwargs['dag_run'].run_id if kwargs.get('dag_run') else 'manual',
'pricing_method': 'surge',
'high_threshold': dag_conf.get('high_threshold', 10),
'low_threshold': dag_conf.get('low_threshold', 2),
'surge_multiplier': dag_conf.get('surge_multiplier', 1.2),
'discount_multiplier': dag_conf.get('discount_multiplier', 0.9)
}
registry.publish_prices(prices_df, model_name=f'{store_mode}_latest', metadata=metadata)
logging.info(f"[{store_mode}] Published surge pricing for {len(prices_df)} products")
return {
'n_products': len(prices_df),
'registry_status': 'success',
'store_mode': store_mode,
'mean_demand': float(prices_df['demand_score'].mean()) if 'demand_score' in prices_df.columns else None
}
return {
'fetch_interactions': fetch_interactions,
'fetch_price_logs': fetch_price_logs,
'compute_demand': compute_demand,
'aggregate_price_logs': aggregate_price_logs,
'join_product_features': join_product_features,
'apply_surge_pricing': apply_surge_pricing,
'publish_results': publish_results,
}
def create_surge_pricing_dag(store_mode: str) -> DAG:
"""Factory: generates a surge pricing DAG for a given store_mode."""
callables = _make_task_callables(store_mode)
dag = DAG(
f'surge_pricing_{store_mode}',
default_args=DEFAULT_ARGS,
description=f'Surge pricing pipeline for {store_mode} store mode',
schedule_interval='*/15 * * * *',
start_date=days_ago(1),
catchup=False,
max_active_runs=1,
tags=['pricing', 'surge', 'research', store_mode],
)
with dag:
t_fetch_interactions = PythonOperator(
task_id='fetch_interactions',
python_callable=callables['fetch_interactions'],
provide_context=True,
)
t_fetch_price_logs = PythonOperator(
task_id='fetch_price_logs',
python_callable=callables['fetch_price_logs'],
provide_context=True,
)
t_compute_demand = PythonOperator(
task_id='compute_demand',
python_callable=callables['compute_demand'],
provide_context=True,
)
t_aggregate_prices = PythonOperator(
task_id='aggregate_price_logs',
python_callable=callables['aggregate_price_logs'],
provide_context=True,
)
t_join_features = PythonOperator(
task_id='join_product_features',
python_callable=callables['join_product_features'],
provide_context=True,
)
t_surge_pricing = PythonOperator(
task_id='apply_surge_pricing',
python_callable=callables['apply_surge_pricing'],
provide_context=True,
)
t_publish = PythonOperator(
task_id='publish_results',
python_callable=callables['publish_results'],
provide_context=True,
)
t_fetch_interactions >> t_compute_demand
t_fetch_price_logs >> t_aggregate_prices
[t_compute_demand, t_aggregate_prices] >> t_join_features >> t_surge_pricing >> t_publish
return dag
# instantiate DAGs for Airflow to discover
dag_airline = create_surge_pricing_dag('airline')
dag_hotel = create_surge_pricing_dag('hotel')

View File

@@ -1,237 +0,0 @@
from airflow import DAG
from airflow.operators.python import PythonOperator
from airflow.utils.dates import days_ago
from datetime import timedelta
import pandas as pd
import logging
import sys
import pickle
import io
# add parent dir to path so procesing package can be imported
sys.path.insert(0, '/opt/airflow')
from procesing.context import PipelineContext
from procesing.providers import SupabaseProvider, BackendAPIProvider
from procesing.steps import (
FetchInteractionsStep,
FetchPriceLogsStep,
ComputeDemandStep,
AggregatePriceLogsStep,
JoinProductFeaturesStep,
)
from procesing.pricers.simple import SimpleSurgePricer
default_args = {
'owner': 'phantom-research',
'depends_on_past': False,
'email_on_failure': False,
'email_on_retry': False,
'retries': 2,
'retry_delay': timedelta(minutes=5),
}
def get_provider():
"""Factory to create composite provider"""
class CompositeProvider(SupabaseProvider, BackendAPIProvider): # TODO: Fix this into one global provider singelton instead of multiple inheritance declarations acoss the codebase
def __init__(self):
SupabaseProvider.__init__(self)
BackendAPIProvider.__init__(self)
return CompositeProvider()
def get_context(**kwargs):
"""Build pipeline context from Airflow config"""
dag_conf = kwargs.get('dag_run').conf if kwargs.get('dag_run') else {}
return PipelineContext(
provider=get_provider(),
store_mode=dag_conf.get('store_mode', 'hotel'),
)
# atomic task functions (each wraps one sklearn step)
def fetch_interactions(**kwargs):
"""Task: Fetch interaction data from Kafka"""
context = get_context(**kwargs)
step = FetchInteractionsStep(context)
df = step.transform(None)
kwargs['ti'].xcom_push(key='interactions_raw', value=pickle.dumps(df))
logging.info(f"Fetched {len(df)} interaction records")
return len(df)
def fetch_price_logs(**kwargs):
"""Task: Fetch price logs from Kafka"""
context = get_context(**kwargs)
step = FetchPriceLogsStep(context)
df = step.transform(None)
kwargs['ti'].xcom_push(key='price_logs_raw', value=pickle.dumps(df))
logging.info(f"Fetched {len(df)} price records")
return len(df)
def compute_demand(**kwargs):
"""Task: Compute demand scores from interactions"""
ti = kwargs['ti']
df = pickle.loads(ti.xcom_pull(key='interactions_raw'))
context = get_context(**kwargs)
step = ComputeDemandStep(context)
demand_df = step.transform(df)
# TODO: clear the xcom
ti.xcom_push(key='demand_data', value=pickle.dumps(demand_df))
logging.info(f"Computed demand for {len(demand_df)} products")
return len(demand_df)
def aggregate_price_logs(**kwargs):
"""Task: Aggregate price logs"""
ti = kwargs['ti']
df = pickle.loads(ti.xcom_pull(key='price_logs_raw'))
context = get_context(**kwargs)
step = AggregatePriceLogsStep(context)
price_df = step.transform(df)
ti.xcom_push(key='price_data', value=pickle.dumps(price_df))
logging.info(f"Aggregated price logs for {len(price_df)} products")
return len(price_df)
def join_product_features(**kwargs):
"""Task: Join demand and price data"""
ti = kwargs['ti']
demand_df = pickle.loads(ti.xcom_pull(key='demand_data'))
price_df = pickle.loads(ti.xcom_pull(key='price_data'))
context = get_context(**kwargs)
step = JoinProductFeaturesStep(context)
joined_df = step.transform((demand_df, price_df))
ti.xcom_push(key='product_features', value=pickle.dumps(joined_df))
logging.info(f"Joined features for {len(joined_df)} products")
return len(joined_df)
def apply_surge_pricing(**kwargs):
"""Task: Apply surge pricing rules to generate optimal prices"""
ti = kwargs['ti']
product_features = pickle.loads(ti.xcom_pull(key='product_features'))
dag_conf = kwargs.get('dag_run').conf if kwargs.get('dag_run') else {}
# rename demand_score to demand for pricer compatibility
data = product_features.rename(columns={'demand_score': 'demand'})
surge_pricer = SimpleSurgePricer(
high_threshold=dag_conf.get('high_threshold', 10),
low_threshold=dag_conf.get('low_threshold', 2),
surge_multiplier=dag_conf.get('surge_multiplier', 1.2),
discount_multiplier=dag_conf.get('discount_multiplier', 0.9)
)
surge_pricer.fit(data)
data['optimal_price'] = surge_pricer.predict()
prices_df = data[['productId', 'price', 'base_price', 'optimal_price', 'demand']].rename(columns={
'price': 'current_price',
'demand': 'demand_score'
})
ti.xcom_push(key='predicted_prices', value=pickle.dumps(prices_df))
logging.info(f"Applied surge pricing for {len(prices_df)} products")
return len(prices_df)
def publish_results(**kwargs):
"""Task: Publish surge pricing results to registry"""
ti = kwargs['ti']
prices_df = pickle.loads(ti.xcom_pull(key='predicted_prices'))
sys.path.insert(0, '/opt/airflow')
from lib.model_registry import ModelRegistry
registry = ModelRegistry()
dag_conf = kwargs.get('dag_run').conf if kwargs.get('dag_run') else {}
metadata = {
'timestamp': pd.Timestamp.now().isoformat(),
'store_mode': dag_conf.get('store_mode', 'hotel'),
'dag_run_id': kwargs['dag_run'].run_id if kwargs.get('dag_run') else 'manual',
'pricing_method': 'surge',
'high_threshold': dag_conf.get('high_threshold', 10),
'low_threshold': dag_conf.get('low_threshold', 2),
'surge_multiplier': dag_conf.get('surge_multiplier', 1.2),
'discount_multiplier': dag_conf.get('discount_multiplier', 0.9)
}
registry.publish_prices(prices_df, model_name='latest', metadata=metadata)
logging.info(f"Published surge pricing for {len(prices_df)} products")
return {
'n_products': len(prices_df),
'registry_status': 'success',
'mean_demand': float(prices_df['demand_score'].mean()) if 'demand_score' in prices_df.columns else None
}
# DAG definition
with DAG(
'surge_pricing_pipeline',
default_args=default_args,
description='Simple surge pricing pipeline: demand aggregation + rule-based pricing',
schedule_interval='*/15 * * * *',
start_date=days_ago(1),
catchup=False,
max_active_runs=1,
tags=['pricing', 'surge', 'research', 'simplified'],
) as dag:
# parallel data fetching
t_fetch_interactions = PythonOperator(
task_id='fetch_interactions',
python_callable=fetch_interactions,
provide_context=True,
)
t_fetch_price_logs = PythonOperator(
task_id='fetch_price_logs',
python_callable=fetch_price_logs,
provide_context=True,
)
# compute demand from interactions
t_compute_demand = PythonOperator(
task_id='compute_demand',
python_callable=compute_demand,
provide_context=True,
)
# aggregate price logs
t_aggregate_prices = PythonOperator(
task_id='aggregate_price_logs',
python_callable=aggregate_price_logs,
provide_context=True,
)
# join demand and prices
t_join_features = PythonOperator(
task_id='join_product_features',
python_callable=join_product_features,
provide_context=True,
)
# apply surge pricing
t_surge_pricing = PythonOperator(
task_id='apply_surge_pricing',
python_callable=apply_surge_pricing,
provide_context=True,
)
# publish to registry
t_publish = PythonOperator(
task_id='publish_results',
python_callable=publish_results,
provide_context=True,
)
# dependency graph: parallel fetch -> process -> join -> surge -> publish
t_fetch_interactions >> t_compute_demand
t_fetch_price_logs >> t_aggregate_prices
[t_compute_demand, t_aggregate_prices] >> t_join_features >> t_surge_pricing >> t_publish

View File

@@ -12,14 +12,16 @@ from procesing.steps import (
ComputeDemandStep, ComputeDemandStep,
ComputeDemandForChunksStep, ComputeDemandForChunksStep,
AggregatePriceLogsStep, AggregatePriceLogsStep,
# StateSpace, ComputeElasticityStep,
# BuildStateSpaceStep, StateSpace,
BuildStateSpaceStep,
FitPricingFunctionStep, FitPricingFunctionStep,
PredictPricesStep, PredictPricesStep,
) )
from procesing.pipelines import ( from procesing.pipelines import (
interaction_extraction_pipeline, interaction_extraction_pipeline,
price_extraction_pipeline, price_extraction_pipeline,
elasticity_computation_pipeline,
pricing_pipeline, pricing_pipeline,
full_pipeline, full_pipeline,
) )
@@ -40,12 +42,14 @@ __all__ = [
'ComputeDemandStep', 'ComputeDemandStep',
'ComputeDemandForChunksStep', 'ComputeDemandForChunksStep',
'AggregatePriceLogsStep', 'AggregatePriceLogsStep',
# 'StateSpace', 'ComputeElasticityStep',
# 'BuildStateSpaceStep', 'StateSpace',
'BuildStateSpaceStep',
'FitPricingFunctionStep', 'FitPricingFunctionStep',
'PredictPricesStep', 'PredictPricesStep',
'interaction_extraction_pipeline', 'interaction_extraction_pipeline',
'price_extraction_pipeline', 'price_extraction_pipeline',
'elasticity_computation_pipeline',
'pricing_pipeline', 'pricing_pipeline',
'full_pipeline', 'full_pipeline',
] ]

View File

@@ -2,7 +2,7 @@ from sklearn.pipeline import Pipeline
import pandas as pd import pandas as pd
from procesing.context import PipelineContext from procesing.context import PipelineContext
from procesing.providers import SupabaseProvider, BackendAPIProvider from procesing.providers import SupabaseProvider, BackendAPIProvider
import os from typing import Union
from procesing.steps import ( from procesing.steps import (
FetchInteractionsStep, FetchInteractionsStep,
FetchPriceLogsStep, FetchPriceLogsStep,
@@ -13,15 +13,11 @@ from procesing.steps import (
ChunkByTimeWindowStep, ChunkByTimeWindowStep,
ComputeDemandForChunksStep, ComputeDemandForChunksStep,
AggregatePriceLogsStep, AggregatePriceLogsStep,
ComputeElasticityStep,
BuildStateSpaceStep,
FitPricingFunctionStep, FitPricingFunctionStep,
PredictPricesStep, PredictPricesStep,
ComputeDemandStep,
JoinProductFeaturesStep,
ExtractSessionFeaturesStep,
JoinLabelsStep,
ValidateDataStep,
) )
from procesing.pricers import SimpleSurgePricer
def interaction_extraction_pipeline(context: PipelineContext): def interaction_extraction_pipeline(context: PipelineContext):
"""Pipeline for extracting and augmenting interaction data""" """Pipeline for extracting and augmenting interaction data"""
@@ -39,134 +35,104 @@ def price_extraction_pipeline(context: PipelineContext):
]) ])
def product_features_pipeline(context: PipelineContext, def elasticity_computation_pipeline(context: PipelineContext,
interactions_df: pd.DataFrame, interactions_df: pd.DataFrame,
price_logs_df: pd.DataFrame): price_logs_df: pd.DataFrame):
demand_step = ComputeDemandStep(context) """
Compute elasticity from interactions and price logs.
Manual orchestration needed for branching logic.
"""
# branch 1: chunk interactions and compute demand
chunk_step = ChunkByTimeWindowStep(context)
interaction_chunks = chunk_step.transform(interactions_df)
demand_step = ComputeDemandForChunksStep(context)
demand_chunks = demand_step.transform(interaction_chunks)
# branch 2: aggregate price logs
price_step = AggregatePriceLogsStep(context) price_step = AggregatePriceLogsStep(context)
join_step = JoinProductFeaturesStep(context) price_chunks = price_step.transform(price_logs_df)
# convergence: compute elasticity
elasticity_step = ComputeElasticityStep(context)
elasticity_df = elasticity_step.transform((demand_chunks, price_chunks))
return elasticity_df
demand_data = demand_step.transform(interactions_df) def pricing_pipeline(context: PipelineContext, elasticity_df: pd.DataFrame):
price_data= price_step.transform(price_logs_df)
joined_data = join_step.transform((demand_data, price_data))
return joined_data
def pricing_pipeline(context: "PipelineContext",
data: pd.DataFrame,
high_threshold: int = 10,
low_threshold: int = 2,
surge_multiplier: float = 1.2,
discount_multiplier: float = 0.9) -> pd.DataFrame:
if data.empty or 'productId' not in data.columns:
return pd.DataFrame()
surge_pricer = SimpleSurgePricer()
surge_pricer.fit(data)
data['optimal_price'] = surge_pricer.predict()
return data
def full_pipeline(context: PipelineContext,
high_threshold: int = 10,
low_threshold: int = 2,
surge_multiplier: float = 1.2,
discount_multiplier: float = 0.9):
""" """
Complete end-to-end pipeline: data extraction -> demand/price aggregation -> surge pricing Generate optimal prices from elasticity estimates.
Args:
context: Pipeline context
high_threshold: Demand threshold for surge pricing
low_threshold: Demand threshold for discounts
surge_multiplier: Price multiplier for high demand
discount_multiplier: Price multiplier for low demand
Returns:
tuple: (product_features_df, optimal_prices_df)
- product_features_df: [productId, demand_score, price]
- optimal_prices_df: [productId, current_price, optimal_price, demand_score]
""" """
# build state space
state_step = BuildStateSpaceStep(context)
state_space = state_step.transform(elasticity_df)
# fit pricing function
fit_step = FitPricingFunctionStep(context)
pricer = fit_step.transform(elasticity_df)
# predict prices
predict_step = PredictPricesStep(context)
prices_df = predict_step.transform((pricer, state_space))
return prices_df
def full_pipeline(context: PipelineContext):
"""
Complete end-to-end pipeline: data extraction -> elasticity -> pricing
Returns: (elasticity_df, prices_df)
"""
# extract interactions
interaction_pipe = interaction_extraction_pipeline(context) interaction_pipe = interaction_extraction_pipeline(context)
price_pipe = price_extraction_pipeline(context)
interactions_df = interaction_pipe.fit_transform(None) interactions_df = interaction_pipe.fit_transform(None)
# extract price logs
price_pipe = price_extraction_pipeline(context)
price_logs_df = price_pipe.fit_transform(None) price_logs_df = price_pipe.fit_transform(None)
product_features_df = product_features_pipeline(context, interactions_df, price_logs_df)
print(product_features_df.to_string())
# generate optimal prices using surge rules if interactions_df.empty or price_logs_df.empty:
optimal_prices_df = pricing_pipeline(context, product_features_df, return None, None
high_threshold=high_threshold,
low_threshold=low_threshold,
surge_multiplier=surge_multiplier,
discount_multiplier=discount_multiplier)
return product_features_df, optimal_prices_df # compute elasticity
elasticity_df = elasticity_computation_pipeline(
context,
interactions_df,
price_logs_df
)
if elasticity_df is None or elasticity_df.empty:
return elasticity_df, None
def ml_training_pipeline(context: PipelineContext) -> pd.DataFrame: # generate prices
""" prices_df = pricing_pipeline(context, elasticity_df)
Build labeled session-level feature matrix for ML model training.
Pipeline: fetch -> validate -> extract features -> join labels
Returns:
DataFrame with ~25 features per session + is_agent label
Columns: sessionId, experimentId, temporal/behavioral/product/ua features, is_agent
"""
# fetch raw interactions
interactions_df = FetchInteractionsStep(context).transform(None)
# validate data quality (report cached in context)
interactions_df = ValidateDataStep(context).transform(interactions_df)
if interactions_df.empty:
return pd.DataFrame()
# extract vectorized session features
features_df = ExtractSessionFeaturesStep(context).transform(interactions_df)
if features_df.empty:
return pd.DataFrame()
# join experiment labels (is_agent = ~xp_human_only)
labeled_df = JoinLabelsStep(context).transform(features_df)
return labeled_df
return elasticity_df, prices_df
if __name__ == '__main__': if __name__ == '__main__':
class ExperimentsProvider(SupabaseProvider, BackendAPIProvider): class Provider(SupabaseProvider, BackendAPIProvider):
def fetch_kafka_topic(self, topic: str) -> pd.DataFrame: def __init__(self, backend_url: str):
base_path = "/home/velocitatem/Documents/Projects/PHANTOM/experiments/collected_data/" # os.path.join(os.path.dirname(__file__), "collected_data") SupabaseProvider.__init__(self)
if not os.path.isdir(base_path): BackendAPIProvider.__init__(self, backend_url=backend_url)
return pd.DataFrame() # example run
context = PipelineContext(
provider=Provider(backend_url="http://localhost:5000"),
store_mode='hotel',
)
files = {"user-interactions": "int.json", "price-logs": "price.json"} elasticity_df, prices_df = full_pipeline(context)
file_to_read = files.get(topic, files["user-interactions"])
frames = []
for d in os.listdir(base_path): if elasticity_df is not None and not elasticity_df.empty:
full_path = os.path.join(base_path, d, file_to_read) print("Elasticity Estimates:")
if not os.path.isfile(full_path): print(elasticity_df.to_string(index=False))
continue else:
try: print("No elasticity estimates computed.")
data = pd.read_json(full_path)
payloads = pd.DataFrame([r['payload'] for r in data['value'].to_list()])
frames.append(payloads)
except Exception as e:
print(f"Warning: Could not process {full_path}: {e}")
return pd.concat(frames, ignore_index=True) if frames else pd.DataFrame() if prices_df is not None and not prices_df.empty:
print("\nPredicted Prices:")
# demo: run ML training pipeline print(prices_df.to_string(index=False))
context = PipelineContext(provider=ExperimentsProvider(), store_mode='hotel') else:
features = ml_training_pipeline(context) print("No prices predicted.")
print(f"Feature matrix: {features.shape}")
print(features.head())
print(features.info())

View File

@@ -1,6 +1,6 @@
from procesing.pricers.base import PricingFunction from procesing.pricers.base import PricingFunction
from procesing.pricers.elasticity import ElasticityBasedPricer from procesing.pricers.elasticity import ElasticityBasedPricer
from procesing.pricers.simple import StaticPricer, RandomPricer, SimpleSurgePricer from procesing.pricers.simple import StaticPricer, RandomPricer
from procesing.pricers.session_aware import SessionAwarePricer, ProductSpecificSessionPricer from procesing.pricers.session_aware import SessionAwarePricer, ProductSpecificSessionPricer
__all__ = [ __all__ = [
@@ -8,7 +8,6 @@ __all__ = [
'ElasticityBasedPricer', 'ElasticityBasedPricer',
'StaticPricer', 'StaticPricer',
'RandomPricer', 'RandomPricer',
'SimpleSurgePricer',
'SessionAwarePricer', 'SessionAwarePricer',
'ProductSpecificSessionPricer' 'ProductSpecificSessionPricer'
] ]

View File

@@ -25,7 +25,7 @@ class PricingFunction(ABC):
""" """
@abstractmethod @abstractmethod
def fit(self, *kwargs): def fit(self, historical_data: pd.DataFrame, **kwargs):
""" """
Offline training on historical data. Offline training on historical data.
@@ -36,7 +36,7 @@ class PricingFunction(ABC):
pass pass
@abstractmethod @abstractmethod
def predict(self, *kwargs) -> np.ndarray: def predict(self, state_space) -> np.ndarray:
""" """
Generate optimal prices given current state. Generate optimal prices given current state.

View File

@@ -46,46 +46,3 @@ class RandomPricer(PricingFunction):
if self.n_products is None: if self.n_products is None:
self.n_products = len(state_space.demand) self.n_products = len(state_space.demand)
return self.rng.uniform(self.price_min, self.price_max, size=self.n_products) return self.rng.uniform(self.price_min, self.price_max, size=self.n_products)
class SimpleSurgePricer(PricingFunction):
"""
Rule-based surge pricer adjusting prices via demand thresholds.
Logic: if demand > high_threshold -> surge, if demand < low_threshold -> discount.
Simpler and more controllable than curve fitting approaches.
"""
def __init__(self,
base_prices: np.ndarray = None,
high_threshold: int = 10,
low_threshold: int = 2,
surge_multiplier: float = 1.2,
discount_multiplier: float = 0.9):
self.base_prices = base_prices
self.high_threshold = high_threshold
self.low_threshold = low_threshold
self.surge_multiplier = surge_multiplier
self.discount_multiplier = discount_multiplier
def fit(self, market_data : pd.DataFrame):
"""Extract base prices from product catalog or historical averages"""
self.base_prices = market_data['base_price'].to_numpy() if 'base_price' in market_data.columns else market_data['price'].values
self.demand_history = market_data['demand'].to_numpy() if 'demand' in market_data.columns else np.zeros_like(self.base_prices)
def predict(self) -> np.ndarray:
"""
Adjust prices based on current demand using surge rules.
state_space.demand: demand counts per product
state_space.prices: current prices (fallback if base_prices not set)
"""
current_prices = self.base_prices if self.base_prices is not None else np.ones_like(demand_vector) * 99.99
demand = self.demand_history if self.demand_history is not None else np.zeros_like(current_prices)
new_prices = current_prices.copy()
high_mask = demand >= self.high_threshold
new_prices[high_mask] *= self.surge_multiplier
low_mask = demand <= self.low_threshold
new_prices[low_mask] *= self.discount_multiplier
return new_prices

View File

@@ -18,17 +18,10 @@ class SupabaseProvider(DataProvider):
self.supabase: Client = create_client(self.supabase_url, self.supabase_key) self.supabase: Client = create_client(self.supabase_url, self.supabase_key)
def fetch_products(self, store_mode: str) -> pd.DataFrame: def fetch_products(self, store_mode: str) -> pd.DataFrame:
# hotel uses room_type, airline uses flight_type; select all and normalize resp = self.supabase.table(f'{store_mode}_products').select(
resp = self.supabase.table(f'{store_mode}_products').select("*").execute() "id, room_type, date_index, metadata, availability"
if not resp.data: ).execute()
return pd.DataFrame() return pd.DataFrame(resp.data) if resp.data else pd.DataFrame()
df = pd.DataFrame(resp.data)
# normalize type column: hotel has room_type, airline has flight_type
if 'room_type' in df.columns:
df['product_type'] = df['room_type']
elif 'flight_type' in df.columns:
df['product_type'] = df['flight_type']
return df
def fetch_experiments(self, experiment_ids: List[str]) -> pd.DataFrame: def fetch_experiments(self, experiment_ids: List[str]) -> pd.DataFrame:
if not experiment_ids: if not experiment_ids:

View File

@@ -1,16 +1,11 @@
from procesing.steps.base import BaseContextStep from procesing.steps.base import BaseContextStep
from procesing.steps.fetch import FetchInteractionsStep, FetchPriceLogsStep, FetchExperimentsStep from procesing.steps.fetch import FetchInteractionsStep, FetchPriceLogsStep, FetchExperimentsStep
from procesing.steps.join import JoinExperimentsStep, JoinProductFeaturesStep from procesing.steps.join import JoinExperimentsStep
from procesing.steps.augment import CreatePriceBucketsStep, AugmentEventNamesStep, AugmentInteractionsStep from procesing.steps.augment import CreatePriceBucketsStep, AugmentEventNamesStep
from procesing.steps.chunk import ChunkByTimeWindowStep from procesing.steps.chunk import ChunkByTimeWindowStep
from procesing.steps.demand import ComputeDemandStep, ComputeDemandForChunksStep from procesing.steps.demand import ComputeDemandStep, ComputeDemandForChunksStep
from procesing.steps.elasticity import AggregatePriceLogsStep from procesing.steps.elasticity import AggregatePriceLogsStep, ComputeElasticityStep
from procesing.steps.pricing import FitPricingFunctionStep, PredictPricesStep from procesing.steps.pricing import StateSpace, BuildStateSpaceStep, FitPricingFunctionStep, PredictPricesStep
from procesing.steps.session import (
ExtractSessionFeaturesStep, JoinLabelsStep, ValidateDataStep,
TemporalFeatureStep, BehavioralFeatureStep, ProductFeatureStep, UserAgentFeatureStep,
_extract_features_for_session
)
__all__ = [ __all__ = [
'BaseContextStep', 'BaseContextStep',
@@ -18,22 +13,15 @@ __all__ = [
'FetchPriceLogsStep', 'FetchPriceLogsStep',
'FetchExperimentsStep', 'FetchExperimentsStep',
'JoinExperimentsStep', 'JoinExperimentsStep',
'JoinProductFeaturesStep',
'CreatePriceBucketsStep', 'CreatePriceBucketsStep',
'AugmentEventNamesStep', 'AugmentEventNamesStep',
'AugmentInteractionsStep',
'ChunkByTimeWindowStep', 'ChunkByTimeWindowStep',
'ComputeDemandStep', 'ComputeDemandStep',
'ComputeDemandForChunksStep', 'ComputeDemandForChunksStep',
'AggregatePriceLogsStep', 'AggregatePriceLogsStep',
'ComputeElasticityStep',
'StateSpace',
'BuildStateSpaceStep',
'FitPricingFunctionStep', 'FitPricingFunctionStep',
'PredictPricesStep', 'PredictPricesStep',
'ExtractSessionFeaturesStep',
'JoinLabelsStep',
'ValidateDataStep',
'TemporalFeatureStep',
'BehavioralFeatureStep',
'ProductFeatureStep',
'UserAgentFeatureStep',
'_extract_features_for_session',
] ]

View File

@@ -2,93 +2,6 @@ import numpy as np
import pandas as pd import pandas as pd
from procesing.steps.base import BaseContextStep from procesing.steps.base import BaseContextStep
class AugmentInteractionsStep(BaseContextStep):
"""
Consolidated step: create price buckets, augment event names, join experiments.
Input: (interactions_df, price_logs_df)
Output: enriched interactions_df
"""
def transform(self, data: tuple):
interactions_df, price_logs_df = data
if interactions_df.empty:
return interactions_df
# Step 1: Create price buckets
interactions_df = self._create_price_buckets(interactions_df)
# Step 2: Augment event names
interactions_df = self._augment_event_names(interactions_df)
# Step 3: Join experiments (optional)
if 'experimentId' in interactions_df.columns:
interactions_df = self._join_experiments(interactions_df)
return interactions_df
def _create_price_buckets(self, df: pd.DataFrame):
"""Create price bucket labels from price data"""
if 'metadata_price' not in df.columns:
df['price_bucket'] = ""
return df
n_buckets = self.context.config.get('n_price_buckets', 5)
if df['metadata_price'].notnull().sum() > 0:
try:
price_buckets = pd.qcut(
df['metadata_price'],
q=n_buckets,
labels=[f"PB_{i+1}" for i in range(n_buckets)],
duplicates='drop'
)
except ValueError:
# fallback for insufficient unique values
price_buckets = df['metadata_price'].apply(
lambda x: f"P_{int(x)}" if pd.notnull(x) else ""
)
else:
price_buckets = pd.Series([""] * len(df), index=df.index)
df['price_bucket'] = price_buckets
return df
def _augment_event_names(self, df: pd.DataFrame):
"""Augment event names with product and price bucket schema"""
# Create schema: _productId@price_bucket
has_product = df.get('productId', pd.Series()).notnull()
has_bucket = df.get('price_bucket', pd.Series()).notnull()
df['metadata_schema'] = np.where(
has_product & has_bucket,
"_" + df['productId'].astype(str) + "@" + df['price_bucket'].astype(str),
""
)
df['eventName'] = df['eventName'] + df['metadata_schema']
return df
def _join_experiments(self, df: pd.DataFrame):
"""Join experiment metadata if experimentId present"""
exp_ids = df['experimentId'].dropna().unique().tolist()
if not exp_ids:
return df
experiments_df = self.context.provider.fetch_experiments(exp_ids)
if experiments_df.empty:
return df
return df.merge(
experiments_df,
left_on='experimentId',
right_on='id',
how='left',
suffixes=('', '_exp')
)
class CreatePriceBucketsStep(BaseContextStep): class CreatePriceBucketsStep(BaseContextStep):
"""Create price bucket labels from price data""" """Create price bucket labels from price data"""

View File

@@ -1,7 +1,6 @@
from abc import ABC, abstractmethod from abc import ABC, abstractmethod
from sklearn.base import BaseEstimator, TransformerMixin from sklearn.base import BaseEstimator, TransformerMixin
from procesing.context import PipelineContext from procesing.context import PipelineContext
from typing import Any
class BaseContextStep(BaseEstimator, TransformerMixin, ABC): class BaseContextStep(BaseEstimator, TransformerMixin, ABC):
""" """
@@ -17,7 +16,7 @@ class BaseContextStep(BaseEstimator, TransformerMixin, ABC):
return self return self
@abstractmethod @abstractmethod
def transform(self, X) -> Any: def transform(self, X):
"""Transform input using context. Must be implemented by subclass.""" """Transform input using context. Must be implemented by subclass."""
pass pass

View File

@@ -7,16 +7,16 @@ class AggregatePriceLogsStep(BaseContextStep):
""" """
Aggregate price logs into time windows using VECTORIZED operations. Aggregate price logs into time windows using VECTORIZED operations.
Input: price_logs_df Input: price_logs_df
Output: DataFrame with columns [productId, price] Output: list of price chunks with [productId, price]
""" """
def transform(self, price_logs_df: pd.DataFrame): def transform(self, price_logs_df: pd.DataFrame):
if price_logs_df.empty: if price_logs_df.empty:
return pd.DataFrame(columns=['productId', 'price']) return []
df = price_logs_df.copy() df = price_logs_df.copy()
ts_col = self.context.config.get('ts_col', 'ts') ts_col = self.context.config.get('ts_col', 'ts')
#window_size = self.context.window_size WE ARE NOT USING CHUNKS ANYMORE window_size = self.context.window_size
# ensure datetime # ensure datetime
if not pd.api.types.is_datetime64_any_dtype(df[ts_col]): if not pd.api.types.is_datetime64_any_dtype(df[ts_col]):
@@ -24,19 +24,230 @@ class AggregatePriceLogsStep(BaseContextStep):
df = df.sort_values([ts_col, 'productId']) df = df.sort_values([ts_col, 'productId'])
products = self.context.products products = self.context.products
# get base price from metadata if available 1) read the metadata col as json and get the base_price
products['base_price'] = products.apply(
lambda row: row['metadata'].get('base_price', 0) if isinstance(row['metadata'], dict) else 0,
axis=1
)
unique_products = products['id'].unique() unique_products = products['id'].unique()
# VECTORIZED: group by product, resample by time window, compute mean
df_indexed = df.set_index(ts_col) df_indexed = df.set_index(ts_col)
# we return a df of average price per product over the entire period
# TODO: maybe consider different opration to handle price aggregation over time windowed = (
avg_prices = df_indexed.groupby('productId')['price'].mean().reindex(unique_products, fill_value=0).reset_index() df_indexed
avg_prices.columns = ['productId', 'price'] .groupby('productId')['price']
# fill 0s with base_price from products .resample(window_size)
base_price_map = products.set_index('id')['base_price'].to_dict() .mean()
return avg_prices .reset_index()
)
# forward fill missing windows (carry last known price)
windowed = windowed.sort_values([ts_col, 'productId'])
windowed['price'] = windowed.groupby('productId')['price'].ffill()
windowed = windowed.dropna(subset=['price'])
# group into chunks by window
chunks = []
for window_start, group in windowed.groupby(ts_col):
price_vector = group[['productId', 'price']].copy()
# fill missing products with last known price before this window
missing_products = set(unique_products) - set(price_vector['productId'])
if missing_products:
for pid in missing_products:
last_price = df_indexed[
(df_indexed['productId'] == pid) &
(df_indexed.index < window_start)
]['price']
if not last_price.empty:
price_vector = pd.concat([
price_vector,
pd.DataFrame({'productId': [pid], 'price': [last_price.iloc[-1]]})
], ignore_index=True)
if not price_vector.empty:
chunks.append({
'window_start': window_start,
'window_end': window_start + pd.Timedelta(window_size),
'price_vector': price_vector
})
return chunks
class ComputeElasticityStep(BaseContextStep):
"""
Compute price elasticity from demand and price chunks.
Input: (demand_chunks, price_chunks)
Output: elasticity_df [productId, elasticity, std_error, n_obs]
"""
def transform(self, chunk_tuple: tuple):
demand_chunks, price_chunks = chunk_tuple
method = self.context.config.get('elasticity_method', 'point')
min_obs = self.context.config.get('min_observations', 2)
products = self.context.products
all_product_ids = products['id'].unique()
# align chunks by window_start
aligned = self._align_chunks(demand_chunks, price_chunks)
if not aligned:
return pd.DataFrame({
'productId': all_product_ids,
'elasticity': 0.0,
'std_error': 0.0,
'n_obs': 0
})
# build time series per product
product_series = self._build_timeseries(aligned)
# compute elasticity per product
elasticities = []
for pid, series in product_series.items():
if len(series) < min_obs:
elasticities.append({
'productId': pid,
'elasticity': 0.0,
'std_error': 0.0,
'n_obs': len(series)
})
continue
elast = self._compute_elasticity(series, method)
elasticities.append({
'productId': pid,
'elasticity': elast['value'],
'std_error': elast.get('std_error', 0.0),
'n_obs': len(series)
})
result_df = pd.DataFrame(elasticities)
# fill missing products with zero elasticity
observed_pids = set(result_df['productId'])
missing_pids = [p for p in all_product_ids if p not in observed_pids]
if missing_pids:
missing_df = pd.DataFrame({
'productId': missing_pids,
'elasticity': 0.0,
'std_error': 0.0,
'n_obs': 0
})
result_df = pd.concat([result_df, missing_df], ignore_index=True)
return result_df
def _align_chunks(self, demand_chunks: List[Dict], price_chunks: List[Dict]):
"""Align demand and price chunks by window_start"""
price_lookup = {c['window_start']: c for c in price_chunks}
aligned = []
for dc in demand_chunks:
ws = dc['window_start']
if ws in price_lookup:
aligned.append({
'window_start': ws,
'window_end': dc['window_end'],
'demand': dc['demand_vector'],
'prices': price_lookup[ws]['price_vector']
})
return aligned
def _build_timeseries(self, aligned: List[Dict]):
"""Build time series [timestamp, price, quantity] per product"""
series_by_product = {}
for chunk in aligned:
merged = chunk['demand'].merge(chunk['prices'], on='productId', how='inner')
for _, row in merged.iterrows():
pid = row['productId']
if pid not in series_by_product:
series_by_product[pid] = []
series_by_product[pid].append({
'timestamp': chunk['window_start'],
'price': row['price'],
'quantity': row['demand_score']
})
return series_by_product
def _compute_elasticity(self, series: List[Dict], method: str):
"""Compute point or arc elasticity"""
prices = np.array([s['price'] for s in series])
quantities = np.array([s['quantity'] for s in series])
# filter out zero/negative values
valid = (prices > 0) & (quantities > 0)
if valid.sum() < 2:
return {'value': 0.0, 'std_error': 0.0}
prices = prices[valid]
quantities = quantities[valid]
if method == 'point':
return self._point_elasticity(prices, quantities)
elif method == 'arc':
return self._arc_elasticity(prices, quantities)
else:
raise ValueError(f"Unknown elasticity method: {method}")
def _point_elasticity(self, prices: np.ndarray, quantities: np.ndarray):
"""Point elasticity via log-log regression: log(Q) = a + b*log(P), elasticity = b"""
if len(prices) < 2:
return {'value': 0.0, 'std_error': 0.0}
log_p = np.log(prices)
log_q = np.log(quantities)
if log_p.std() == 0:
return {'value': 0.0, 'std_error': 0.0}
cov = np.cov(log_p, log_q)[0, 1]
var = np.var(log_p)
b = cov / var
# std error estimate
if len(prices) > 2:
residuals = log_q - (log_q.mean() + b * (log_p - log_p.mean()))
mse = (residuals ** 2).sum() / (len(prices) - 2)
se_b = np.sqrt(mse / (len(prices) * var))
else:
se_b = 0.0
return {'value': b, 'std_error': se_b}
def _arc_elasticity(self, prices: np.ndarray, quantities: np.ndarray):
"""Arc elasticity: average period-over-period elasticity"""
elasticities = []
for i in range(1, len(prices)):
p1, p2 = prices[i-1], prices[i]
q1, q2 = quantities[i-1], quantities[i]
p_avg = (p1 + p2) / 2
q_avg = (q1 + q2) / 2
if p_avg == 0 or q_avg == 0:
continue
delta_p = p2 - p1
delta_q = q2 - q1
if delta_p == 0:
continue
e = (delta_q / q_avg) / (delta_p / p_avg)
elasticities.append(e)
if not elasticities:
return {'value': 0.0, 'std_error': 0.0}
return {
'value': np.mean(elasticities),
'std_error': np.std(elasticities) / np.sqrt(len(elasticities))
}

View File

@@ -2,11 +2,7 @@ import pandas as pd
from procesing.steps.base import BaseContextStep from procesing.steps.base import BaseContextStep
class FetchInteractionsStep(BaseContextStep): class FetchInteractionsStep(BaseContextStep):
"""Fetch raw interaction data from Kafka topic with optional time and store_mode filtering""" """Fetch raw interaction data from Kafka topic"""
def __init__(self, context, lookback: str = None):
super().__init__(context)
self.lookback = lookback
def transform(self, X=None): def transform(self, X=None):
df = self.context.provider.fetch_kafka_topic('user-interactions') df = self.context.provider.fetch_kafka_topic('user-interactions')
@@ -21,50 +17,19 @@ class FetchInteractionsStep(BaseContextStep):
) )
df = df.dropna(subset=['eventName']) df = df.dropna(subset=['eventName'])
# drop all where page has /admin/
df = df[~df['page'].str.contains('/admin/', na=False)]
# filter by store_mode from context
if 'storeMode' in df.columns:
df = df[df['storeMode'] == self.context.store_mode]
# Remap dateIndex if present # Remap dateIndex if present
if 'metadata_dateIndex' in df.columns: if 'metadata_dateIndex' in df.columns:
df['dateIndex'] = df['metadata_dateIndex'].astype('Int64') df['dateIndex'] = df['metadata_dateIndex'].astype('Int64')
# Apply time filtering if lookback specified
if self.lookback and 'ts' in df.columns:
df['ts'] = pd.to_datetime(df['ts'])
cutoff = pd.Timestamp.now() - pd.Timedelta(self.lookback)
df = df[df['ts'] >= cutoff]
return df return df
class FetchPriceLogsStep(BaseContextStep): class FetchPriceLogsStep(BaseContextStep):
"""Fetch price log data from Kafka topic with optional time and store_mode filtering""" """Fetch price log data from Kafka topic"""
def __init__(self, context, lookback: str = None):
super().__init__(context)
self.lookback = lookback
def transform(self, X=None): def transform(self, X=None):
df = self.context.provider.fetch_kafka_topic('price-logs') return self.context.provider.fetch_kafka_topic('price-logs')
if df.empty:
return df
# filter by store_mode from context
if 'storeMode' in df.columns:
df = df[df['storeMode'] == self.context.store_mode]
# Apply time filtering if lookback specified
if self.lookback and 'ts' in df.columns:
df['ts'] = pd.to_datetime(df['ts'])
cutoff = pd.Timestamp.now() - pd.Timedelta(self.lookback)
df = df[df['ts'] >= cutoff]
return df
class FetchExperimentsStep(BaseContextStep): class FetchExperimentsStep(BaseContextStep):

View File

@@ -32,27 +32,3 @@ class JoinExperimentsStep(BaseContextStep):
}) })
return interactions_df.merge(experiments_df, on='experimentId', how='left') return interactions_df.merge(experiments_df, on='experimentId', how='left')
class JoinProductFeaturesStep(BaseContextStep):
"""Join product features to interactions"""
def transform(self, data: tuple):
"""
Args:
data: (interactions_df, products_df)
Returns:
merged interactions dataframe
"""
demand_df, price_df = data
# get base prices from products if available
products = self.context.products
products['base_price'] = products.apply(
lambda row: float(row['metadata'].get('base_price', 0.0)) if isinstance(row['metadata'], dict) else 0,
axis=1
)
products = products[['id', 'base_price']].rename(columns={'id': 'productId'})
if price_df.empty:
return demand_df
return demand_df.merge(price_df, on='productId', how='left').merge(products, on='productId', how='left')

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@@ -2,34 +2,128 @@ import numpy as np
import pandas as pd import pandas as pd
from typing import Optional, List, Dict, Any from typing import Optional, List, Dict, Any
from dataclasses import dataclass, field from dataclasses import dataclass, field
from procesing.pricers.simple import StaticPricer
from procesing.steps.base import BaseContextStep from procesing.steps.base import BaseContextStep
from procesing.pricers import ElasticityBasedPricer from procesing.pricers import ElasticityBasedPricer
class State: @dataclass
def __init__(self, class StateSpace:
last_action : str, """
last_productId : str, State representation for pricing functions.
last_price : float,
session_features : np.ndarray
):
pass
Components:
Q_t: demand ∈ R^n (current demand signal per product)
P_t: prices ∈ R^n (current/base prices)
S_t: session_features (behavioral signals, interaction data)
H_t: history = {Q_{t-k}, P_{t-k}, S_{t-k}} for k in [1, history_length]
Additionally stores:
- product_ids: product identifiers (n,)
- elasticity: price elasticity per product (n,)
- metadata: arbitrary context (experiment_id, timestamp, etc.)
"""
demand: np.ndarray # Q_t ∈ R^n
prices: np.ndarray # P_t ∈ R^n
session_features: pd.DataFrame = field(default_factory=pd.DataFrame) # S_t
# augmented state components
product_ids: Optional[np.ndarray] = None
elasticity: Optional[np.ndarray] = None
# historical trajectory H_t = {(Q_{t-k}, P_{t-k}, S_{t-k})}
history: List[Dict[str, Any]] = field(default_factory=list)
# metadata for context
metadata: Dict[str, Any] = field(default_factory=dict)
def __post_init__(self):
"""Validate dimensions."""
n = len(self.demand)
assert len(self.prices) == n, "demand and prices must have same dimension"
if self.elasticity is not None:
assert len(self.elasticity) == n, "elasticity must match dimension"
if self.product_ids is not None:
assert len(self.product_ids) == n, "product_ids must match dimension"
@property
def n_products(self) -> int:
"""Number of products in state space."""
return len(self.demand)
def add_history(self, q: np.ndarray, p: np.ndarray, s: pd.DataFrame, max_length: int = 10):
"""Append historical state to trajectory H_t."""
self.history.append({'demand': q, 'prices': p, 'session_features': s})
if len(self.history) > max_length:
self.history.pop(0)
def get_history_window(self, k: int = 5) -> List[Dict[str, Any]]:
"""Retrieve last k historical states."""
return self.history[-k:] if len(self.history) >= k else self.history
class BuildStateSpaceStep(BaseContextStep):
"""
Build state space from elasticity, demand, and price data.
Input: elasticity_df [productId, elasticity, ...], optional demand_df
Output: StateSpace instance with Q_t, P_t, elasticity, product_ids
"""
def transform(self, elasticity_df: pd.DataFrame, demand_df: Optional[pd.DataFrame] = None):
products = self.context.products
# extract base prices from product metadata
products_with_prices = products.copy()
if 'metadata' in products_with_prices.columns:
products_with_prices['base_price'] = products_with_prices['metadata'].apply(
lambda m: m.get('base_price', 0) if isinstance(m, dict) else 0
)
else:
products_with_prices['base_price'] = 0
# merge with elasticity
merged = products_with_prices[['id', 'base_price']].rename(
columns={'id': 'productId'}
).merge(
elasticity_df[['productId', 'elasticity']],
on='productId',
how='left'
).fillna({'elasticity': 0.0, 'base_price': 0.0})
# merge with demand if provided, else use default
if demand_df is not None and 'demand' in demand_df.columns:
merged = merged.merge(
demand_df[['productId', 'demand']],
on='productId',
how='left'
).fillna({'demand': 0.0})
demand_vector = merged['demand'].values
else:
# default: uniform demand or use elasticity as proxy
demand_vector = np.ones(len(merged)) * 10.0
return StateSpace(
demand=demand_vector,
prices=merged['base_price'].values,
session_features=pd.DataFrame(),
product_ids=merged['productId'].values,
elasticity=merged['elasticity'].values,
metadata={'timestamp': pd.Timestamp.now().isoformat()}
)
class FitPricingFunctionStep(BaseContextStep): class FitPricingFunctionStep(BaseContextStep):
""" """
Fit pricing function using data. Fit pricing function using elasticity data.
Input: pricing_data Input: elasticity_df
Output: fitted pricing function instance Output: fitted pricing function instance
""" """
def transform(self, pricing_data: pd.DataFrame): def transform(self, elasticity_df: pd.DataFrame):
pricing_class = self.context.config.get('pricing_function_class', StaticPricer) pricing_class = self.context.config.get('pricing_function_class', ElasticityBasedPricer)
pricing_params = self.context.config.get('pricing_function_params', {}) pricing_params = self.context.config.get('pricing_function_params', {})
pricer = pricing_class(**pricing_params) pricer = pricing_class(**pricing_params)
pricer.fit(pricing_data) pricer.fit(elasticity_df)
return pricer return pricer

View File

@@ -1,261 +1,114 @@
""" """
Session feature extraction for ML training pipeline. Session feature extraction for S_t component of state space.
Computes behavioral signals from interaction data already in pipeline.
""" """
import pandas as pd import pandas as pd
import numpy as np import numpy as np
import re from typing import Optional, Dict, Any
from typing import Dict, Any from collections import Counter
from procesing.steps.base import BaseContextStep from procesing.steps.base import BaseContextStep
EVENT_CATS = {
'page_view': ['page_view'],
'item_view': ['view_item_page', 'learn_more_about_item'],
'cart_add': ['add_item_to_cart'],
'purchase': ['purchase', 'checkout_complete'],
'hover': ['hover_over_title', 'hover_over_paragraph', 'hover_over_link', 'hover_over_button'],
# 'filter': ['filter', 'search', 'apply_filter'],
}
HEADLESS_RE = re.compile(r'HeadlessChrome|Headless|PhantomJS', re.I)
AUTOMATION_RE = re.compile(r'Selenium|Playwright|Puppeteer|WebDriver|chromedriver|geckodriver', re.I)
BROWSER_PATTERNS = [('Chrome', r'Chrome/[\d.]+'), ('Firefox', r'Firefox/[\d.]+'),
('Safari', r'Safari/[\d.]+'), ('Edge', r'Edg/[\d.]+')]
def _get_browser(s: str) -> str:
if pd.isna(s): return 'Unknown'
for name, pat in BROWSER_PATTERNS:
if re.search(pat, s): return name
return 'Other'
class TemporalFeatureStep(BaseContextStep):
"""Vectorized time-based features: durations, velocities, gaps."""
def __init__(self, context, timeout_sec: float = 900, velocity_window: str = '5min'):
super().__init__(context)
self.timeout_sec = timeout_sec
self.velocity_window = velocity_window
def transform(self, X: pd.DataFrame) -> pd.DataFrame:
df = X.copy()
if df.empty or 'ts' not in df.columns:
return pd.DataFrame(columns=pd.Series(['sessionId']))
df['ts_dt'] = pd.to_datetime(df['ts'])
df = df.sort_values(['sessionId', 'ts_dt'])
df['time_diff'] = df.groupby('sessionId')['ts_dt'].diff().dt.total_seconds()
df['active_diff'] = df['time_diff'].where(df['time_diff'] <= self.timeout_sec, 0)
agg = df.groupby('sessionId').agg(
session_duration_sec=('active_diff', 'sum'),
total_interactions=('sessionId', 'count'),
avg_time_between_events=('time_diff', 'mean'),
std_time_between_events=('time_diff', 'std'),
min_time_between_events=('time_diff', 'min'),
session_start_hour=('ts_dt', lambda x: x.min().hour),
).reset_index()
agg['std_time_between_events'] = agg['std_time_between_events'].fillna(0)
agg['interaction_velocity'] = np.where(
agg['session_duration_sec'] > 0,
(agg['total_interactions'] / agg['session_duration_sec']) * 60, 0)
vel = df.set_index('ts_dt').groupby('sessionId').resample(self.velocity_window, include_groups=False).size()
max_velocity = vel.groupby('sessionId').max().rename('max_velocity_5min')
agg = agg.merge(max_velocity, on='sessionId', how='left')
agg['max_velocity_5min'] = agg['max_velocity_5min'].fillna(0)
return agg
class BehavioralFeatureStep(BaseContextStep):
"""Vectorized event counts and ratios per session."""
def transform(self, X: pd.DataFrame) -> pd.DataFrame:
df = X.copy()
if df.empty or 'eventName' not in df.columns:
return pd.DataFrame(columns=pd.Series(['sessionId']))
for cat, events in EVENT_CATS.items():
df[f'is_{cat}'] = df['eventName'].isin(events)
df['is_hover'] = df['is_hover'] | df['eventName'].str.startswith('hover_over_')
agg = df.groupby('sessionId').agg(
total_events=('eventName', 'count'), unique_pages=('page', 'nunique'),
page_views=('is_page_view', 'sum'), item_views=('is_item_view', 'sum'),
cart_adds=('is_cart_add', 'sum'), purchases=('is_purchase', 'sum'),
hover_events=('is_hover', 'sum'),
# filter_events=('is_filter', 'sum'),
).reset_index()
agg['cart_to_view_ratio'] = np.where(agg['item_views'] > 0, agg['cart_adds'] / agg['item_views'], 0)
agg['conversion_rate'] = np.where(agg['item_views'] > 0, agg['purchases'] / agg['item_views'], 0)
agg['hover_intensity'] = np.where(agg['total_events'] > 0, agg['hover_events'] / agg['total_events'], 0)
return agg
class ProductFeatureStep(BaseContextStep):
"""Vectorized product interaction features: diversity, depth, price sensitivity."""
def transform(self, X: pd.DataFrame) -> pd.DataFrame:
df = X.copy()
if df.empty:
return pd.DataFrame(columns=pd.Series(['sessionId']))
price_col = next((c for c in ['metadata_base_price', 'metadata_price', 'base_price'] if c in df.columns), None)
df['price_seen'] = pd.to_numeric(df[price_col], errors='coerce') if price_col else np.nan
prod_df = df[df['productId'].notna()]
if prod_df.empty:
return pd.DataFrame(columns=pd.Series(['sessionId', 'unique_products_viewed', 'product_view_depth', 'avg_price_seen', 'min_price_seen', 'max_price_seen', 'price_range']))
agg = prod_df.groupby('sessionId').agg(
unique_products_viewed=('productId', 'nunique'),
product_view_depth=('productId', lambda x: x.value_counts().iloc[0] if len(x) > 0 else 0),
avg_price_seen=('price_seen', 'mean'), min_price_seen=('price_seen', 'min'),
max_price_seen=('price_seen', 'max'),
).reset_index()
agg['price_range'] = (agg['max_price_seen'] - agg['min_price_seen']).fillna(0)
return agg
class UserAgentFeatureStep(BaseContextStep):
"""Parse userAgent into bot-detection signals."""
def transform(self, X: pd.DataFrame) -> pd.DataFrame|pd.Series:
df = X.copy()
if df.empty or 'userAgent' not in df.columns:
return pd.DataFrame(columns=pd.Series(['sessionId']))
ua = df.groupby('sessionId')['userAgent'].first().reset_index()
ua['is_headless'] = ua['userAgent'].str.contains(HEADLESS_RE, na=False)
ua['is_automation'] = ua['userAgent'].str.contains(AUTOMATION_RE, na=False)
ua['browser_family'] = ua['userAgent'].apply(_get_browser)
return ua[['sessionId', 'is_headless', 'is_automation', 'browser_family']]
class ExtractSessionFeaturesStep(BaseContextStep): class ExtractSessionFeaturesStep(BaseContextStep):
""" """
Vectorized session feature extraction - replaces O(n^2) per-row loop. Extract session-level behavioral features from interaction logs.
Input: interactions_df
Output: session-level feature matrix Input: interactions_df (user-interactions from earlier pipeline step)
Output: session_features DataFrame [sessionId, feature_1, feature_2, ...]
Features computed:
- total_interactions: count of all events
- page_views, item_views, searches, cart_adds: event type counts
- hovers: hover event counts
- unique_products_viewed: distinct product IDs
- interaction_velocity: events per minute
- session_duration_sec: time span of session
- avg_time_between_events: mean inter-event time
- product_view_depth: max views for single product (attention signal)
""" """
def transform(self, X: pd.DataFrame) -> pd.DataFrame: def transform(self, interactions_df: pd.DataFrame) -> pd.DataFrame:
if X.empty: if interactions_df.empty:
return pd.DataFrame() return pd.DataFrame()
df = X.copy()
# run all feature steps and merge on sessionId # ensure timestamp column
temporal = TemporalFeatureStep(self.context).transform(df) if 'ts' in interactions_df.columns:
behavioral = BehavioralFeatureStep(self.context).transform(df) interactions_df = interactions_df.copy()
product = ProductFeatureStep(self.context).transform(df) interactions_df['ts'] = pd.to_datetime(interactions_df['ts'])
ua = UserAgentFeatureStep(self.context).transform(df)
result = temporal # group by session and compute features
for other in [behavioral, product, ua]: session_features = []
if not other.empty and 'sessionId' in other.columns: for session_id, session_df in interactions_df.groupby('sessionId'):
result = result.merge(other, on='sessionId', how='left') features = self._extract_features_for_session(session_id, session_df)
session_features.append(features)
# carry forward experimentId for label joining return pd.DataFrame(session_features)
if 'experimentId' in df.columns:
exp_map = df.groupby('sessionId')['experimentId'].first()
result = result.merge(exp_map, on='sessionId', how='left')
return result def _extract_features_for_session(self, session_id: str, session_df: pd.DataFrame) -> Dict[str, Any]:
"""Compute features for single session."""
features = {'sessionId': session_id}
# basic counts
features['total_interactions'] = len(session_df)
class JoinLabelsStep(BaseContextStep): event_counts = session_df['eventName'].value_counts().to_dict()
""" features['page_views'] = event_counts.get('page_view', 0) + event_counts.get('view_item_page', 0)
Join experiment labels to session features. features['item_views'] = event_counts.get('view_item_page', 0)
Input: (features_df, experiments_df) or features_df (fetches experiments) features['searches'] = event_counts.get('search', 0)
Output: labeled feature matrix with is_agent column features['cart_adds'] = event_counts.get('add_item_to_cart', 0)
"""
def transform(self, X : tuple) -> pd.DataFrame: # hover events
data = X; hover_events = ['hover_over_title', 'hover_over_paragraph', 'hover_over_link', 'hover_over_button']
if isinstance(data, tuple): features['hovers'] = sum(event_counts.get(ev, 0) for ev in hover_events)
features_df, experiments_df = data
# product-level signals
product_ids = session_df['productId'].dropna()
features['unique_products_viewed'] = product_ids.nunique()
if len(product_ids) > 0:
product_view_counts = Counter(product_ids)
features['product_view_depth'] = max(product_view_counts.values())
else: else:
features_df = data features['product_view_depth'] = 0
if 'experimentId' not in features_df.columns:
return features_df
exp_ids = features_df['experimentId'].dropna().unique().tolist()
experiments_df = self.context.provider.fetch_experiments(exp_ids) if exp_ids else pd.DataFrame()
if features_df.empty: # temporal features
return features_df if 'ts' in session_df.columns:
if experiments_df.empty: timestamps = session_df['ts'].sort_values()
features_df['is_agent'] = np.nan features['session_duration_sec'] = (timestamps.max() - timestamps.min()).total_seconds()
return features_df
exp = experiments_df.copy() if features['session_duration_sec'] > 0:
if 'id' in exp.columns: features['interaction_velocity'] = (features['total_interactions'] / features['session_duration_sec']) * 60
exp = exp.rename(columns={'id': 'experimentId'}) else:
if 'xp_human_only' in exp.columns: features['interaction_velocity'] = 0.0
exp['is_agent'] = ~exp['xp_human_only']
cols = ['experimentId'] + [c for c in ['is_agent', 'xp_human_only', 'xp_market_mode'] if c in exp.columns] # inter-event timing
return features_df.merge(exp[cols].drop_duplicates(), on='experimentId', how='left') if len(timestamps) > 1:
time_diffs = timestamps.diff().dropna().dt.total_seconds()
features['avg_time_between_events'] = time_diffs.mean()
features['std_time_between_events'] = time_diffs.std()
else:
features['avg_time_between_events'] = 0.0
features['std_time_between_events'] = 0.0
else:
features['session_duration_sec'] = 0.0
features['interaction_velocity'] = 0.0
features['avg_time_between_events'] = 0.0
features['std_time_between_events'] = 0.0
# cart/conversion signals
features['cart_to_view_ratio'] = features['cart_adds'] / features['item_views'] if features['item_views'] > 0 else 0.0
return features
class ValidateDataStep(BaseContextStep): class FilterSessionInteractionsStep(BaseContextStep):
""" """
Data quality checks before training. Filter interactions DataFrame to specific session.
Input: df
Output: df (unchanged, but logs validation report to context) Input: (interactions_df, session_id)
Output: interactions_df filtered to session_id
""" """
REQUIRED = ['sessionId', 'eventName', 'ts']
def transform(self, X: pd.DataFrame) -> pd.DataFrame: def transform(self, data: tuple) -> pd.DataFrame:
df = X.copy() interactions_df, session_id = data
report = {'status': 'valid', 'rows': len(df), 'sessions': 0} return interactions_df[interactions_df['sessionId'] == session_id].copy()
if df.empty:
report['status'] = 'empty'
self.context.cache('validation_report', report)
return df
missing = [c for c in self.REQUIRED if c not in df.columns]
if missing:
report['status'] = 'invalid'
report['missing_cols'] = missing
report['sessions'] = df['sessionId'].nunique() if 'sessionId' in df.columns else 0
report['null_sessions'] = int(df['sessionId'].isna().sum()) if 'sessionId' in df.columns else 0
if 'experimentId' in df.columns:
report['null_experiments'] = int(df['experimentId'].isna().sum())
self.context.cache('validation_report', report)
return df
# legacy compat - kept for backwards compatibility with existing code
def _extract_features_for_session(session_df: pd.DataFrame, session_timeout_sec: float = 900) -> Dict[str, Any]:
"""Single-session feature extraction (legacy interface)."""
defaults = {k: 0 for k in ['total_interactions', 'page_views', 'item_views', 'searches',
'cart_adds', 'hovers', 'unique_products_viewed', 'product_view_depth',
'session_duration_sec', 'interaction_velocity',
'avg_time_between_events', 'std_time_between_events', 'cart_to_view_ratio']}
if session_df.empty:
return defaults
session_df = session_df.copy()
if 'sessionId' not in session_df.columns:
session_df['sessionId'] = 'tmp'
# use a dummy context for the steps
class DummyCtx: config = {} # should maybe inherit but whatever
ctx = DummyCtx()
t = TemporalFeatureStep(ctx, timeout_sec=session_timeout_sec).transform(session_df)
b = BehavioralFeatureStep(ctx).transform(session_df)
p = ProductFeatureStep(ctx).transform(session_df)
result = {}
for df in [t, b, p]:
if not df.empty:
for col in df.columns:
if col != 'sessionId':
result[col] = df[col].iloc[0] if len(df) > 0 else 0
remap = {'hover_events': 'hovers', 'filter_events': 'searches', 'unique_pages': 'unique_pages_visited'}
for old, new in remap.items():
if old in result:
result[new] = result.pop(old)
return result

View File

@@ -144,7 +144,7 @@ def mock_price_logs_raw_kafka():
'price': 162.47, 'price': 162.47,
'sessionId': 'd423ce8a-77aa-4c9a-94d4-d1adddcc3472', 'sessionId': 'd423ce8a-77aa-4c9a-94d4-d1adddcc3472',
'experimentId': '53aefd07-f66a-4d7f-ba8b-7ea1fc562d35', 'experimentId': '53aefd07-f66a-4d7f-ba8b-7ea1fc562d35',
'storeMode': 'hotel', 'storeMode': 'shop',
'ts': '2025-11-25T21:05:57.967Z' 'ts': '2025-11-25T21:05:57.967Z'
} }
} }
@@ -157,7 +157,7 @@ def mock_price_logs_raw_kafka():
'price': 743.49, 'price': 743.49,
'sessionId': 'd423ce8a-77aa-4c9a-94d4-d1adddcc3472', 'sessionId': 'd423ce8a-77aa-4c9a-94d4-d1adddcc3472',
'experimentId': '53aefd07-f66a-4d7f-ba8b-7ea1fc562d35', 'experimentId': '53aefd07-f66a-4d7f-ba8b-7ea1fc562d35',
'storeMode': 'hotel', 'storeMode': 'shop',
'ts': '2025-11-25T21:05:57.993Z' 'ts': '2025-11-25T21:05:57.993Z'
} }
} }
@@ -170,7 +170,7 @@ def mock_price_logs_raw_kafka():
'price': 163.87, 'price': 163.87,
'sessionId': 'd423ce8a-77aa-4c9a-94d4-d1adddcc3472', 'sessionId': 'd423ce8a-77aa-4c9a-94d4-d1adddcc3472',
'experimentId': '53aefd07-f66a-4d7f-ba8b-7ea1fc562d35', 'experimentId': '53aefd07-f66a-4d7f-ba8b-7ea1fc562d35',
'storeMode': 'hotel', 'storeMode': 'shop',
'ts': '2025-11-25T21:05:58.009Z' 'ts': '2025-11-25T21:05:58.009Z'
} }
} }
@@ -183,7 +183,7 @@ def mock_price_logs_raw_kafka():
'price': 397.46, 'price': 397.46,
'sessionId': 'd423ce8a-77aa-4c9a-94d4-d1adddcc3472', 'sessionId': 'd423ce8a-77aa-4c9a-94d4-d1adddcc3472',
'experimentId': '53aefd07-f66a-4d7f-ba8b-7ea1fc562d35', 'experimentId': '53aefd07-f66a-4d7f-ba8b-7ea1fc562d35',
'storeMode': 'hotel', 'storeMode': 'shop',
'ts': '2025-11-25T21:05:58.049Z' 'ts': '2025-11-25T21:05:58.049Z'
} }
} }
@@ -196,7 +196,7 @@ def mock_price_logs_raw_kafka():
'price': 401.66, 'price': 401.66,
'sessionId': 'd423ce8a-77aa-4c9a-94d4-d1adddcc3472', 'sessionId': 'd423ce8a-77aa-4c9a-94d4-d1adddcc3472',
'experimentId': '53aefd07-f66a-4d7f-ba8b-7ea1fc562d35', 'experimentId': '53aefd07-f66a-4d7f-ba8b-7ea1fc562d35',
'storeMode': 'hotel', 'storeMode': 'shop',
'ts': '2025-11-25T21:06:08.864Z' 'ts': '2025-11-25T21:06:08.864Z'
} }
} }
@@ -222,7 +222,7 @@ def mock_experiments():
'created_at': pd.to_datetime(['2025-11-25T20:00:00Z', '2025-11-26T10:00:00Z']), 'created_at': pd.to_datetime(['2025-11-25T20:00:00Z', '2025-11-26T10:00:00Z']),
'subject_name': ['Session A', 'Session B'], 'subject_name': ['Session A', 'Session B'],
'xp_human_only': [True, False], 'xp_human_only': [True, False],
'xp_market_mode': ['hotel', 'airline'], 'xp_market_mode': ['hotel', 'shop'],
'xp_task_id': [None, None] 'xp_task_id': [None, None]
}) })
@@ -269,13 +269,3 @@ def empty_context(empty_provider):
store_mode='hotel', store_mode='hotel',
window_size='30s' window_size='30s'
) )
@pytest.fixture
def session_interactions(mock_interactions):
"""Enriched interaction data for session feature extraction tests"""
df = mock_interactions.copy()
df['userAgent'] = ['Mozilla/5.0 Chrome/120', 'Mozilla/5.0 Chrome/120',
'HeadlessChrome/120', 'HeadlessChrome/120', 'HeadlessChrome/120']
df['metadata_base_price'] = [None, None, 150.0, 150.0, 200.0]
return df

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@@ -0,0 +1,353 @@
import pytest
import pandas as pd
import numpy as np
from procesing.steps import (
AggregatePriceLogsStep,
ComputeElasticityStep
)
def test_aggregate_price_logs_basic(pipeline_context):
"""Test basic price aggregation into time windows"""
step = AggregatePriceLogsStep(pipeline_context)
# Create price logs with known window structure
df = pd.DataFrame({
'ts': pd.date_range(start='2023-01-01 10:00:00', periods=100, freq='10s'),
'productId': np.tile([
'd018efc1-25e9-4284-b276-80386e048b25',
'51266ddb-5b07-47b7-89ee-5b5cae94bb11',
'2cd7f756-fc65-4ba0-ab01-74521c1fff43'
], 34)[:100],
'price': np.random.uniform(100, 200, 100)
})
result = step.transform(df)
assert isinstance(result, list)
assert len(result) > 0
# each chunk should have window metadata and price vector
for chunk in result:
assert 'window_start' in chunk
assert 'window_end' in chunk
assert 'price_vector' in chunk
assert isinstance(chunk['price_vector'], pd.DataFrame)
assert 'productId' in chunk['price_vector'].columns
assert 'price' in chunk['price_vector'].columns
def test_aggregate_price_logs_handles_gaps(pipeline_context):
"""Test that price aggregation forward-fills missing windows"""
step = AggregatePriceLogsStep(pipeline_context)
# create sparse data with gaps
df = pd.DataFrame({
'ts': pd.to_datetime([
'2023-01-01 10:00:00',
'2023-01-01 10:00:05',
'2023-01-01 10:02:00', # gap of ~2 mins
'2023-01-01 10:02:30'
]),
'productId': [
'd018efc1-25e9-4284-b276-80386e048b25',
'd018efc1-25e9-4284-b276-80386e048b25',
'51266ddb-5b07-47b7-89ee-5b5cae94bb11',
'51266ddb-5b07-47b7-89ee-5b5cae94bb11'
],
'price': [100, 102, 150, 153]
})
result = step.transform(df)
assert isinstance(result, list)
# should have multiple windows despite gaps
assert len(result) >= 2
def test_compute_elasticity_with_known_relationship(pipeline_context):
"""Test elasticity computation with known price-demand relationship"""
step = ComputeElasticityStep(pipeline_context)
# simulate elastic demand: when price ↑10%, demand ↓15% (elasticity ~ -1.5)
base_price = 100
base_demand = 50
demand_chunks = [
{
'window_start': pd.Timestamp('2023-01-01 10:00:00'),
'window_end': pd.Timestamp('2023-01-01 10:00:30'),
'demand_vector': pd.DataFrame({
'productId': ['d018efc1-25e9-4284-b276-80386e048b25'],
'demand_score': [base_demand]
})
},
{
'window_start': pd.Timestamp('2023-01-01 10:00:30'),
'window_end': pd.Timestamp('2023-01-01 10:01:00'),
'demand_vector': pd.DataFrame({
'productId': ['d018efc1-25e9-4284-b276-80386e048b25'],
'demand_score': [base_demand * 0.85] # 15% decrease
})
},
{
'window_start': pd.Timestamp('2023-01-01 10:01:00'),
'window_end': pd.Timestamp('2023-01-01 10:01:30'),
'demand_vector': pd.DataFrame({
'productId': ['d018efc1-25e9-4284-b276-80386e048b25'],
'demand_score': [base_demand * 0.70] # further decrease
})
}
]
price_chunks = [
{
'window_start': pd.Timestamp('2023-01-01 10:00:00'),
'window_end': pd.Timestamp('2023-01-01 10:00:30'),
'price_vector': pd.DataFrame({
'productId': ['d018efc1-25e9-4284-b276-80386e048b25'],
'price': [base_price]
})
},
{
'window_start': pd.Timestamp('2023-01-01 10:00:30'),
'window_end': pd.Timestamp('2023-01-01 10:01:00'),
'price_vector': pd.DataFrame({
'productId': ['d018efc1-25e9-4284-b276-80386e048b25'],
'price': [base_price * 1.10] # 10% increase
})
},
{
'window_start': pd.Timestamp('2023-01-01 10:01:00'),
'window_end': pd.Timestamp('2023-01-01 10:01:30'),
'price_vector': pd.DataFrame({
'productId': ['d018efc1-25e9-4284-b276-80386e048b25'],
'price': [base_price * 1.20] # 20% increase
})
}
]
result = step.transform((demand_chunks, price_chunks))
assert isinstance(result, pd.DataFrame)
assert not result.empty
assert 'productId' in result.columns
assert 'elasticity' in result.columns
assert 'n_obs' in result.columns
# check elasticity is negative (normal good)
product_elast = result[result['productId'] == 'd018efc1-25e9-4284-b276-80386e048b25']
assert len(product_elast) == 1
assert product_elast.iloc[0]['elasticity'] < 0
# should be roughly elastic (< -1)
assert product_elast.iloc[0]['n_obs'] == 3
def test_compute_elasticity_inelastic_product(pipeline_context):
"""Test with inelastic demand: price changes, demand barely moves"""
step = ComputeElasticityStep(pipeline_context)
base_price = 150
base_demand = 40
demand_chunks = [
{
'window_start': pd.Timestamp('2023-01-01 10:00:00'),
'window_end': pd.Timestamp('2023-01-01 10:00:30'),
'demand_vector': pd.DataFrame({
'productId': ['51266ddb-5b07-47b7-89ee-5b5cae94bb11'],
'demand_score': [base_demand]
})
},
{
'window_start': pd.Timestamp('2023-01-01 10:00:30'),
'window_end': pd.Timestamp('2023-01-01 10:01:00'),
'demand_vector': pd.DataFrame({
'productId': ['51266ddb-5b07-47b7-89ee-5b5cae94bb11'],
'demand_score': [base_demand * 0.98] # tiny 2% decrease
})
}
]
price_chunks = [
{
'window_start': pd.Timestamp('2023-01-01 10:00:00'),
'window_end': pd.Timestamp('2023-01-01 10:00:30'),
'price_vector': pd.DataFrame({
'productId': ['51266ddb-5b07-47b7-89ee-5b5cae94bb11'],
'price': [base_price]
})
},
{
'window_start': pd.Timestamp('2023-01-01 10:00:30'),
'window_end': pd.Timestamp('2023-01-01 10:01:00'),
'price_vector': pd.DataFrame({
'productId': ['51266ddb-5b07-47b7-89ee-5b5cae94bb11'],
'price': [base_price * 1.20] # 20% increase
})
}
]
result = step.transform((demand_chunks, price_chunks))
product_elast = result[result['productId'] == '51266ddb-5b07-47b7-89ee-5b5cae94bb11']
assert len(product_elast) == 1
# inelastic: elasticity between 0 and -1
assert -1 < product_elast.iloc[0]['elasticity'] < 0
def test_compute_elasticity_multiple_products(pipeline_context):
"""Test elasticity computation across multiple products simultaneously"""
step = ComputeElasticityStep(pipeline_context)
products = [
'd018efc1-25e9-4284-b276-80386e048b25',
'51266ddb-5b07-47b7-89ee-5b5cae94bb11',
'2cd7f756-fc65-4ba0-ab01-74521c1fff43'
]
# create 5 time windows with all 3 products
demand_chunks = []
price_chunks = []
for i in range(5):
ts = pd.Timestamp('2023-01-01 10:00:00') + pd.Timedelta(f'{i*30}s')
demand_chunks.append({
'window_start': ts,
'window_end': ts + pd.Timedelta('30s'),
'demand_vector': pd.DataFrame({
'productId': products,
'demand_score': [
50 * (0.9 ** i), # elastic: decreases as price rises
40 * (0.98 ** i), # inelastic: barely changes
30 * (0.85 ** i) # very elastic
]
})
})
price_chunks.append({
'window_start': ts,
'window_end': ts + pd.Timedelta('30s'),
'price_vector': pd.DataFrame({
'productId': products,
'price': [
100 * (1.05 ** i),
150 * (1.10 ** i),
120 * (1.08 ** i)
]
})
})
result = step.transform((demand_chunks, price_chunks))
assert isinstance(result, pd.DataFrame)
assert len(result) == 3 # all products should have elasticity
assert set(result['productId']) == set(products)
assert all(result['n_obs'] == 5)
assert all(result['elasticity'] < 0) # all normal goods
def test_compute_elasticity_insufficient_data(pipeline_context):
"""Test behavior with insufficient observations"""
step = ComputeElasticityStep(pipeline_context)
# only 1 observation
demand_chunks = [{
'window_start': pd.Timestamp('2023-01-01 10:00:00'),
'window_end': pd.Timestamp('2023-01-01 10:00:30'),
'demand_vector': pd.DataFrame({
'productId': ['d018efc1-25e9-4284-b276-80386e048b25'],
'demand_score': [50]
})
}]
price_chunks = [{
'window_start': pd.Timestamp('2023-01-01 10:00:00'),
'window_end': pd.Timestamp('2023-01-01 10:00:30'),
'price_vector': pd.DataFrame({
'productId': ['d018efc1-25e9-4284-b276-80386e048b25'],
'price': [100]
})
}]
result = step.transform((demand_chunks, price_chunks))
# should still return result but with low n_obs
product_elast = result[result['productId'] == 'd018efc1-25e9-4284-b276-80386e048b25']
assert len(product_elast) == 1
assert product_elast.iloc[0]['n_obs'] == 1
assert product_elast.iloc[0]['elasticity'] == 0.0 # not enough data
def test_compute_elasticity_misaligned_chunks(pipeline_context):
"""Test with non-overlapping demand and price windows"""
step = ComputeElasticityStep(pipeline_context)
demand_chunks = [{
'window_start': pd.Timestamp('2023-01-01 10:00:00'),
'window_end': pd.Timestamp('2023-01-01 10:00:30'),
'demand_vector': pd.DataFrame({
'productId': ['d018efc1-25e9-4284-b276-80386e048b25'],
'demand_score': [50]
})
}]
price_chunks = [{
'window_start': pd.Timestamp('2023-01-01 11:00:00'), # different time
'window_end': pd.Timestamp('2023-01-01 11:00:30'),
'price_vector': pd.DataFrame({
'productId': ['d018efc1-25e9-4284-b276-80386e048b25'],
'price': [100]
})
}]
result = step.transform((demand_chunks, price_chunks))
# should handle gracefully with no aligned data
assert isinstance(result, pd.DataFrame)
assert all(result['n_obs'] == 0)
def test_elasticity_arc_method(pipeline_context):
"""Test arc elasticity computation method"""
# configure context for arc method
pipeline_context.config['elasticity_method'] = 'arc'
step = ComputeElasticityStep(pipeline_context)
demand_chunks = [
{
'window_start': pd.Timestamp('2023-01-01 10:00:00'),
'window_end': pd.Timestamp('2023-01-01 10:00:30'),
'demand_vector': pd.DataFrame({
'productId': ['d018efc1-25e9-4284-b276-80386e048b25'],
'demand_score': [100]
})
},
{
'window_start': pd.Timestamp('2023-01-01 10:00:30'),
'window_end': pd.Timestamp('2023-01-01 10:01:00'),
'demand_vector': pd.DataFrame({
'productId': ['d018efc1-25e9-4284-b276-80386e048b25'],
'demand_score': [80]
})
}
]
price_chunks = [
{
'window_start': pd.Timestamp('2023-01-01 10:00:00'),
'window_end': pd.Timestamp('2023-01-01 10:00:30'),
'price_vector': pd.DataFrame({
'productId': ['d018efc1-25e9-4284-b276-80386e048b25'],
'price': [100]
})
},
{
'window_start': pd.Timestamp('2023-01-01 10:00:30'),
'window_end': pd.Timestamp('2023-01-01 10:01:00'),
'price_vector': pd.DataFrame({
'productId': ['d018efc1-25e9-4284-b276-80386e048b25'],
'price': [110]
})
}
]
result = step.transform((demand_chunks, price_chunks))
product_elast = result[result['productId'] == 'd018efc1-25e9-4284-b276-80386e048b25']
assert len(product_elast) == 1
assert product_elast.iloc[0]['elasticity'] < 0
# reset config
pipeline_context.config['elasticity_method'] = 'point'

View File

@@ -26,7 +26,6 @@ class ModelRegistry:
self.metadata_prefix = "model:meta:" self.metadata_prefix = "model:meta:"
self.data_prefix = "model:data:" self.data_prefix = "model:data:"
self.elasticity_prefix = "elasticity:" self.elasticity_prefix = "elasticity:"
self.prices_prefix = "prices:"
def publish_elasticity(self, def publish_elasticity(self,
elasticity_df: pd.DataFrame, elasticity_df: pd.DataFrame,
@@ -131,46 +130,6 @@ class ModelRegistry:
return models return models
def publish_prices(self,
prices_df: pd.DataFrame,
model_name: str = 'latest',
metadata: Optional[Dict[str, Any]] = None):
"""Store predicted prices in registry.
Args:
prices_df: df with [productId, predicted_price, ...]
model_name: identifier for this price snapshot
metadata: additional info
"""
key = f"{self.prices_prefix}{model_name}"
data_json = prices_df.to_json(orient='records')
self.redis_client.set(key, data_json)
meta = metadata or {}
meta.update({
'n_products': len(prices_df),
'model_type': 'predicted_prices'
})
meta_key = f"{self.metadata_prefix}prices_{model_name}"
self.redis_client.set(meta_key, json.dumps(meta))
log.info(f"Published prices '{model_name}' for {len(prices_df)} products")
def get_prices(self, model_name: str = 'latest') -> Optional[pd.DataFrame]:
"""Retrieve predicted prices from registry."""
key = f"{self.prices_prefix}{model_name}"
data_json = self.redis_client.get(key)
if data_json is None:
return None
if isinstance(data_json, bytes):
data_json = data_json.decode('utf-8')
return pd.read_json(data_json, orient='records')
def health_check(self) -> bool: def health_check(self) -> bool:
"""Check if Redis connection is alive.""" """Check if Redis connection is alive."""
try: try:

View File

@@ -11,4 +11,3 @@ pytest-asyncio
uv uv
scikit-learn scikit-learn
supabase supabase
pymc

80
web/package-lock.json generated
View File

@@ -10,7 +10,7 @@
"dependencies": { "dependencies": {
"@supabase/ssr": "^0.7.0", "@supabase/ssr": "^0.7.0",
"@supabase/supabase-js": "^2.81.1", "@supabase/supabase-js": "^2.81.1",
"next": "^16.0.0", "next": "16.0.0",
"react": "19.2.0", "react": "19.2.0",
"react-dom": "19.2.0", "react-dom": "19.2.0",
"zod": "^4.1.12" "zod": "^4.1.12"
@@ -526,15 +526,15 @@
} }
}, },
"node_modules/@next/env": { "node_modules/@next/env": {
"version": "16.0.7", "version": "16.0.0",
"resolved": "https://registry.npmjs.org/@next/env/-/env-16.0.7.tgz", "resolved": "https://registry.npmjs.org/@next/env/-/env-16.0.0.tgz",
"integrity": "sha512-gpaNgUh5nftFKRkRQGnVi5dpcYSKGcZZkQffZ172OrG/XkrnS7UBTQ648YY+8ME92cC4IojpI2LqTC8sTDhAaw==", "integrity": "sha512-s5j2iFGp38QsG1LWRQaE2iUY3h1jc014/melHFfLdrsMJPqxqDQwWNwyQTcNoUSGZlCVZuM7t7JDMmSyRilsnA==",
"license": "MIT" "license": "MIT"
}, },
"node_modules/@next/swc-darwin-arm64": { "node_modules/@next/swc-darwin-arm64": {
"version": "16.0.7", "version": "16.0.0",
"resolved": "https://registry.npmjs.org/@next/swc-darwin-arm64/-/swc-darwin-arm64-16.0.7.tgz", "resolved": "https://registry.npmjs.org/@next/swc-darwin-arm64/-/swc-darwin-arm64-16.0.0.tgz",
"integrity": "sha512-LlDtCYOEj/rfSnEn/Idi+j1QKHxY9BJFmxx7108A6D8K0SB+bNgfYQATPk/4LqOl4C0Wo3LACg2ie6s7xqMpJg==", "integrity": "sha512-/CntqDCnk5w2qIwMiF0a9r6+9qunZzFmU0cBX4T82LOflE72zzH6gnOjCwUXYKOBlQi8OpP/rMj8cBIr18x4TA==",
"cpu": [ "cpu": [
"arm64" "arm64"
], ],
@@ -548,9 +548,9 @@
} }
}, },
"node_modules/@next/swc-darwin-x64": { "node_modules/@next/swc-darwin-x64": {
"version": "16.0.7", "version": "16.0.0",
"resolved": "https://registry.npmjs.org/@next/swc-darwin-x64/-/swc-darwin-x64-16.0.7.tgz", "resolved": "https://registry.npmjs.org/@next/swc-darwin-x64/-/swc-darwin-x64-16.0.0.tgz",
"integrity": "sha512-rtZ7BhnVvO1ICf3QzfW9H3aPz7GhBrnSIMZyr4Qy6boXF0b5E3QLs+cvJmg3PsTCG2M1PBoC+DANUi4wCOKXpA==", "integrity": "sha512-hB4GZnJGKa8m4efvTGNyii6qs76vTNl+3dKHTCAUaksN6KjYy4iEO3Q5ira405NW2PKb3EcqWiRaL9DrYJfMHg==",
"cpu": [ "cpu": [
"x64" "x64"
], ],
@@ -564,9 +564,9 @@
} }
}, },
"node_modules/@next/swc-linux-arm64-gnu": { "node_modules/@next/swc-linux-arm64-gnu": {
"version": "16.0.7", "version": "16.0.0",
"resolved": "https://registry.npmjs.org/@next/swc-linux-arm64-gnu/-/swc-linux-arm64-gnu-16.0.7.tgz", "resolved": "https://registry.npmjs.org/@next/swc-linux-arm64-gnu/-/swc-linux-arm64-gnu-16.0.0.tgz",
"integrity": "sha512-mloD5WcPIeIeeZqAIP5c2kdaTa6StwP4/2EGy1mUw8HiexSHGK/jcM7lFuS3u3i2zn+xH9+wXJs6njO7VrAqww==", "integrity": "sha512-E2IHMdE+C1k+nUgndM13/BY/iJY9KGCphCftMh7SXWcaQqExq/pJU/1Hgn8n/tFwSoLoYC/yUghOv97tAsIxqg==",
"cpu": [ "cpu": [
"arm64" "arm64"
], ],
@@ -580,9 +580,9 @@
} }
}, },
"node_modules/@next/swc-linux-arm64-musl": { "node_modules/@next/swc-linux-arm64-musl": {
"version": "16.0.7", "version": "16.0.0",
"resolved": "https://registry.npmjs.org/@next/swc-linux-arm64-musl/-/swc-linux-arm64-musl-16.0.7.tgz", "resolved": "https://registry.npmjs.org/@next/swc-linux-arm64-musl/-/swc-linux-arm64-musl-16.0.0.tgz",
"integrity": "sha512-+ksWNrZrthisXuo9gd1XnjHRowCbMtl/YgMpbRvFeDEqEBd523YHPWpBuDjomod88U8Xliw5DHhekBC3EOOd9g==", "integrity": "sha512-xzgl7c7BVk4+7PDWldU+On2nlwnGgFqJ1siWp3/8S0KBBLCjonB6zwJYPtl4MUY7YZJrzzumdUpUoquu5zk8vg==",
"cpu": [ "cpu": [
"arm64" "arm64"
], ],
@@ -596,9 +596,9 @@
} }
}, },
"node_modules/@next/swc-linux-x64-gnu": { "node_modules/@next/swc-linux-x64-gnu": {
"version": "16.0.7", "version": "16.0.0",
"resolved": "https://registry.npmjs.org/@next/swc-linux-x64-gnu/-/swc-linux-x64-gnu-16.0.7.tgz", "resolved": "https://registry.npmjs.org/@next/swc-linux-x64-gnu/-/swc-linux-x64-gnu-16.0.0.tgz",
"integrity": "sha512-4WtJU5cRDxpEE44Ana2Xro1284hnyVpBb62lIpU5k85D8xXxatT+rXxBgPkc7C1XwkZMWpK5rXLXTh9PFipWsA==", "integrity": "sha512-sdyOg4cbiCw7YUr0F/7ya42oiVBXLD21EYkSwN+PhE4csJH4MSXUsYyslliiiBwkM+KsuQH/y9wuxVz6s7Nstg==",
"cpu": [ "cpu": [
"x64" "x64"
], ],
@@ -612,9 +612,9 @@
} }
}, },
"node_modules/@next/swc-linux-x64-musl": { "node_modules/@next/swc-linux-x64-musl": {
"version": "16.0.7", "version": "16.0.0",
"resolved": "https://registry.npmjs.org/@next/swc-linux-x64-musl/-/swc-linux-x64-musl-16.0.7.tgz", "resolved": "https://registry.npmjs.org/@next/swc-linux-x64-musl/-/swc-linux-x64-musl-16.0.0.tgz",
"integrity": "sha512-HYlhqIP6kBPXalW2dbMTSuB4+8fe+j9juyxwfMwCe9kQPPeiyFn7NMjNfoFOfJ2eXkeQsoUGXg+O2SE3m4Qg2w==", "integrity": "sha512-IAXv3OBYqVaNOgyd3kxR4L3msuhmSy1bcchPHxDOjypG33i2yDWvGBwFD94OuuTjjTt/7cuIKtAmoOOml6kfbg==",
"cpu": [ "cpu": [
"x64" "x64"
], ],
@@ -628,9 +628,9 @@
} }
}, },
"node_modules/@next/swc-win32-arm64-msvc": { "node_modules/@next/swc-win32-arm64-msvc": {
"version": "16.0.7", "version": "16.0.0",
"resolved": "https://registry.npmjs.org/@next/swc-win32-arm64-msvc/-/swc-win32-arm64-msvc-16.0.7.tgz", "resolved": "https://registry.npmjs.org/@next/swc-win32-arm64-msvc/-/swc-win32-arm64-msvc-16.0.0.tgz",
"integrity": "sha512-EviG+43iOoBRZg9deGauXExjRphhuYmIOJ12b9sAPy0eQ6iwcPxfED2asb/s2/yiLYOdm37kPaiZu8uXSYPs0Q==", "integrity": "sha512-bmo3ncIJKUS9PWK1JD9pEVv0yuvp1KPuOsyJTHXTv8KDrEmgV/K+U0C75rl9rhIaODcS7JEb6/7eJhdwXI0XmA==",
"cpu": [ "cpu": [
"arm64" "arm64"
], ],
@@ -644,9 +644,9 @@
} }
}, },
"node_modules/@next/swc-win32-x64-msvc": { "node_modules/@next/swc-win32-x64-msvc": {
"version": "16.0.7", "version": "16.0.0",
"resolved": "https://registry.npmjs.org/@next/swc-win32-x64-msvc/-/swc-win32-x64-msvc-16.0.7.tgz", "resolved": "https://registry.npmjs.org/@next/swc-win32-x64-msvc/-/swc-win32-x64-msvc-16.0.0.tgz",
"integrity": "sha512-gniPjy55zp5Eg0896qSrf3yB1dw4F/3s8VK1ephdsZZ129j2n6e1WqCbE2YgcKhW9hPB9TVZENugquWJD5x0ug==", "integrity": "sha512-O1cJbT+lZp+cTjYyZGiDwsOjO3UHHzSqobkPNipdlnnuPb1swfcuY6r3p8dsKU4hAIEO4cO67ZCfVVH/M1ETXA==",
"cpu": [ "cpu": [
"x64" "x64"
], ],
@@ -1447,12 +1447,12 @@
} }
}, },
"node_modules/next": { "node_modules/next": {
"version": "16.0.7", "version": "16.0.0",
"resolved": "https://registry.npmjs.org/next/-/next-16.0.7.tgz", "resolved": "https://registry.npmjs.org/next/-/next-16.0.0.tgz",
"integrity": "sha512-3mBRJyPxT4LOxAJI6IsXeFtKfiJUbjCLgvXO02fV8Wy/lIhPvP94Fe7dGhUgHXcQy4sSuYwQNcOLhIfOm0rL0A==", "integrity": "sha512-nYohiNdxGu4OmBzggxy9rczmjIGI+TpR5vbKTsE1HqYwNm1B+YSiugSrFguX6omMOKnDHAmBPY4+8TNJk0Idyg==",
"license": "MIT", "license": "MIT",
"dependencies": { "dependencies": {
"@next/env": "16.0.7", "@next/env": "16.0.0",
"@swc/helpers": "0.5.15", "@swc/helpers": "0.5.15",
"caniuse-lite": "^1.0.30001579", "caniuse-lite": "^1.0.30001579",
"postcss": "8.4.31", "postcss": "8.4.31",
@@ -1465,14 +1465,14 @@
"node": ">=20.9.0" "node": ">=20.9.0"
}, },
"optionalDependencies": { "optionalDependencies": {
"@next/swc-darwin-arm64": "16.0.7", "@next/swc-darwin-arm64": "16.0.0",
"@next/swc-darwin-x64": "16.0.7", "@next/swc-darwin-x64": "16.0.0",
"@next/swc-linux-arm64-gnu": "16.0.7", "@next/swc-linux-arm64-gnu": "16.0.0",
"@next/swc-linux-arm64-musl": "16.0.7", "@next/swc-linux-arm64-musl": "16.0.0",
"@next/swc-linux-x64-gnu": "16.0.7", "@next/swc-linux-x64-gnu": "16.0.0",
"@next/swc-linux-x64-musl": "16.0.7", "@next/swc-linux-x64-musl": "16.0.0",
"@next/swc-win32-arm64-msvc": "16.0.7", "@next/swc-win32-arm64-msvc": "16.0.0",
"@next/swc-win32-x64-msvc": "16.0.7", "@next/swc-win32-x64-msvc": "16.0.0",
"sharp": "^0.34.4" "sharp": "^0.34.4"
}, },
"peerDependencies": { "peerDependencies": {

View File

@@ -10,7 +10,7 @@
"dependencies": { "dependencies": {
"@supabase/ssr": "^0.7.0", "@supabase/ssr": "^0.7.0",
"@supabase/supabase-js": "^2.81.1", "@supabase/supabase-js": "^2.81.1",
"next": "^16.0.0", "next": "16.0.0",
"react": "19.2.0", "react": "19.2.0",
"react-dom": "19.2.0", "react-dom": "19.2.0",
"zod": "^4.1.12" "zod": "^4.1.12"

View File

@@ -1,11 +0,0 @@
export default function AirlineCheckout() {
return (
<div className="min-h-screen flex items-center justify-center bg-gradient-to-br from-sky-50 to-blue-50">
<div className="text-center p-8">
<h1 className="text-4xl font-light text-gray-800 mb-4">
Thank you for flying with us
</h1>
</div>
</div>
);
}

View File

@@ -7,7 +7,7 @@ export async function POST(req: NextRequest) {
try { try {
const body = await req.json(); const body = await req.json();
const storeMode = process.env.NEXT_PUBLIC_STORE_MODE || process.env.STORE_MODE || 'hotel'; const storeMode = process.env.STORE_MODE || 'hotel';
const userAgent = req.headers.get('user-agent') || undefined; const userAgent = req.headers.get('user-agent') || undefined;
const event: EventBase = { const event: EventBase = {

View File

@@ -11,7 +11,7 @@ export async function GET(req: NextRequest) {
const productId = searchParams.get('productId'); const productId = searchParams.get('productId');
const sessionId = searchParams.get('sessionId'); const sessionId = searchParams.get('sessionId');
const experimentId = searchParams.get('experimentId'); const experimentId = searchParams.get('experimentId');
const storeMode = process.env.NEXT_PUBLIC_STORE_MODE || process.env.STORE_MODE || 'hotel'; const storeMode = process.env.NEXT_PUBLIC_STORE_MODE || 'shop';
if (!productId) { if (!productId) {
return NextResponse.json( return NextResponse.json(

View File

@@ -96,10 +96,7 @@ export default function CartPage() {
<span className="text-3xl font-bold">${total.toFixed(2)}</span> <span className="text-3xl font-bold">${total.toFixed(2)}</span>
</div> </div>
<button <button
onClick={() => { onClick={() => dispatchInteraction('checkout_start', undefined, { total, itemCount })}
dispatchInteraction('checkout_start', undefined, { total, itemCount });
window.location.href = '/checkout';
}}
className="w-full py-3 bg-blue-600 hover:bg-blue-700 text-white rounded-lg font-medium transition-colors" className="w-full py-3 bg-blue-600 hover:bg-blue-700 text-white rounded-lg font-medium transition-colors"
> >
Proceed to Checkout Proceed to Checkout

View File

@@ -1,11 +0,0 @@
export default function HotelCheckout() {
return (
<div className="min-h-screen flex items-center justify-center bg-gradient-to-br from-blue-50 to-indigo-50">
<div className="text-center p-8">
<h1 className="text-4xl font-light text-gray-800 mb-4">
Thank you for staying with us
</h1>
</div>
</div>
);
}

View File

@@ -2,20 +2,10 @@
import { useState, FormEvent } from 'react'; import { useState, FormEvent } from 'react';
import { useRouter } from 'next/navigation'; import { useRouter } from 'next/navigation';
import { Button, Label, DateInput, Dropdown, DropdownCounter, SelectDropdown, SelectOption } from '@/components/ui'; import { Button, Label, Input, DateInput, RadioGroup, Dropdown, DropdownCounter } from '@/components/ui';
import { dateToDaysFromToday } from '@/lib/airline-utils'; import { dateToDaysFromToday } from '@/lib/airline-utils';
const CITIES: SelectOption[] = [ type TripType = 'roundtrip' | 'oneway' | 'multicity';
{ value: 'JFK', label: 'New York (JFK)', sublabel: 'John F. Kennedy International' },
{ value: 'LAX', label: 'Los Angeles (LAX)', sublabel: 'Los Angeles International' },
{ value: 'ORD', label: 'Chicago (ORD)', sublabel: "O'Hare International" },
{ value: 'MIA', label: 'Miami (MIA)', sublabel: 'Miami International' },
{ value: 'SFO', label: 'San Francisco (SFO)', sublabel: 'San Francisco International' },
{ value: 'SEA', label: 'Seattle (SEA)', sublabel: 'Seattle-Tacoma International' },
{ value: 'ATL', label: 'Atlanta (ATL)', sublabel: 'Hartsfield-Jackson International' },
{ value: 'DFW', label: 'Dallas (DFW)', sublabel: 'Dallas/Fort Worth International' },
];
const PlaneIcon = () => ( const PlaneIcon = () => (
<svg className="w-5 h-5" fill="none" stroke="currentColor" viewBox="0 0 24 24"> <svg className="w-5 h-5" fill="none" stroke="currentColor" viewBox="0 0 24 24">
@@ -32,9 +22,11 @@ const LocationIcon = () => (
export default function AirlineHero() { export default function AirlineHero() {
const router = useRouter(); const router = useRouter();
const [tripType, setTripType] = useState<TripType>('roundtrip');
const [origin, setOrigin] = useState(''); const [origin, setOrigin] = useState('');
const [destination, setDestination] = useState(''); const [destination, setDestination] = useState('');
const [departDate, setDepartDate] = useState(''); const [departDate, setDepartDate] = useState('');
const [returnDate, setReturnDate] = useState('');
const [passengers, setPassengers] = useState({ adults: 1, children: 0, infants: 0 }); const [passengers, setPassengers] = useState({ adults: 1, children: 0, infants: 0 });
const handleSearch = (e: FormEvent) => { const handleSearch = (e: FormEvent) => {
@@ -48,6 +40,8 @@ export default function AirlineHero() {
if (origin) params.set('origin', origin); if (origin) params.set('origin', origin);
if (destination) params.set('destination', destination); if (destination) params.set('destination', destination);
if (tripType !== 'roundtrip') params.set('tripType', tripType);
if (returnDate && tripType === 'roundtrip') params.set('returnDate', returnDate);
params.set('adults', passengers.adults.toString()); params.set('adults', passengers.adults.toString());
params.set('children', passengers.children.toString()); params.set('children', passengers.children.toString());
@@ -72,15 +66,28 @@ export default function AirlineHero() {
<div className="search-form"> <div className="search-form">
<form onSubmit={handleSearch}> <form onSubmit={handleSearch}>
<div className="grid grid-cols-1 sm:grid-cols-2 lg:grid-cols-3 gap-4"> <div className="mb-6">
<RadioGroup
name="tripType"
value={tripType}
onChange={setTripType}
options={[
{ value: 'roundtrip', label: 'Round-trip' },
{ value: 'oneway', label: 'One-way' },
{ value: 'multicity', label: 'Multi-city' },
]}
/>
</div>
<div className="grid grid-cols-1 sm:grid-cols-2 lg:grid-cols-4 gap-4">
<div> <div>
<Label htmlFor="origin">From</Label> <Label htmlFor="origin">From</Label>
<SelectDropdown <Input
type="text"
id="origin" id="origin"
value={origin} value={origin}
onChange={setOrigin} onChange={(e) => setOrigin(e.target.value)}
options={CITIES} placeholder="Airport or city"
placeholder="Select origin"
icon={<PlaneIcon />} icon={<PlaneIcon />}
required required
/> />
@@ -88,12 +95,12 @@ export default function AirlineHero() {
<div> <div>
<Label htmlFor="destination">To</Label> <Label htmlFor="destination">To</Label>
<SelectDropdown <Input
type="text"
id="destination" id="destination"
value={destination} value={destination}
onChange={setDestination} onChange={(e) => setDestination(e.target.value)}
options={CITIES} placeholder="Airport or city"
placeholder="Select destination"
icon={<LocationIcon />} icon={<LocationIcon />}
required required
/> />
@@ -108,6 +115,20 @@ export default function AirlineHero() {
required required
/> />
</div> </div>
<div>
<Label htmlFor="returnDate">Return</Label>
{tripType === 'roundtrip' ? (
<DateInput
id="returnDate"
value={returnDate}
onChange={(e) => setReturnDate(e.target.value)}
required
/>
) : (
<DateInput id="returnDate" disabled />
)}
</div>
</div> </div>
<div className="grid grid-cols-4 sm:grid-cols-3 lg:grid-cols-4 gap-4 mt-4"> <div className="grid grid-cols-4 sm:grid-cols-3 lg:grid-cols-4 gap-4 mt-4">

View File

@@ -21,7 +21,7 @@ const AmenityIcon = ({ name }: { name: string }) => {
breakfast: 'Breakfast', breakfast: 'Breakfast',
spa: 'Spa', spa: 'Spa',
}; };
return <span className="feature-tag">{iconMap[name.toLowerCase()] || name.replaceAll("_", " ")}</span>; return <span className="feature-tag">{iconMap[name.toLowerCase()] || name}</span>;
}; };
export default function HotelCard({ hotel }: { hotel: Hotel }) { export default function HotelCard({ hotel }: { hotel: Hotel }) {
@@ -47,31 +47,18 @@ export default function HotelCard({ hotel }: { hotel: Hotel }) {
window.location.href = `/hotel/products/${hotel.id}`; window.location.href = `/hotel/products/${hotel.id}`;
}; };
const imageUrl = `https://images.unsplash.com/photo-1551882547-ff40c63fe5fa?w=400&h=300&fit=crop`;
return ( return (
<div <div
className="hotel-card cursor-pointer" className="hotel-card cursor-pointer"
onClick={handleCardClick} onClick={handleCardClick}
> >
<div className="hotel-image relative overflow-hidden"> <div className="hotel-image bg-gray-200 flex items-center justify-center">
<img <span className="text-gray-400 text-sm">Image</span>
src={imageUrl}
alt={hotel.name}
className="w-full h-full object-cover"
onError={(e) => {
e.currentTarget.style.display = 'none';
const fallback = e.currentTarget.nextElementSibling as HTMLElement;
if (fallback) fallback.style.display = 'flex';
}}
/>
<div className="absolute inset-0 bg-gray-200 flex items-center justify-center" style={{ display: 'none' }}>
<span className="text-gray-400 text-sm">Image</span>
</div>
</div> </div>
<div className="hotel-info"> <div className="hotel-info">
<h3 ref={titleRef} className="hotel-name">{hotel.name}</h3> <h3 ref={titleRef} className="hotel-name">{hotel.name}</h3>
<div className="hotel-location text-sm mb-2">{hotel.roomType}</div>
<div className="text-sm text-[var(--text-secondary)] mb-2"> <div className="text-sm text-[var(--text-secondary)] mb-2">
{hotel.checkIn} - {hotel.checkOut} {hotel.checkIn} - {hotel.checkOut}
</div> </div>
@@ -80,6 +67,9 @@ export default function HotelCard({ hotel }: { hotel: Hotel }) {
<AmenityIcon key={a} name={a} /> <AmenityIcon key={a} name={a} />
))} ))}
</div> </div>
{hotel.refundable && (
<div className="free-cancellation mt-2">Free cancellation</div>
)}
</div> </div>
<div className="hotel-pricing"> <div className="hotel-pricing">

View File

@@ -1,8 +1,6 @@
'use client'; 'use client';
import { useState, useEffect } from 'react';
import type { Hotel } from '@/lib/hotel-utils'; import type { Hotel } from '@/lib/hotel-utils';
import PriceDisplay from '@/components/ui/PriceDisplay';
interface HotelDetailsProps { interface HotelDetailsProps {
product: Hotel; product: Hotel;
@@ -10,63 +8,19 @@ interface HotelDetailsProps {
addedToCart: boolean; addedToCart: boolean;
} }
const PriceTotalDisplay = ({ productId, nights }: { productId: string; nights: number }) => {
const [price, setPrice] = useState<number | null>(null);
useEffect(() => {
const fetchPrice = async () => {
try {
const sessionRes = await fetch('/api/session');
const sessionData = await sessionRes.json();
const params = new URLSearchParams({
productId,
sessionId: sessionData.sessionId || '',
experimentId: sessionData.experimentId || '',
});
const res = await fetch(`/api/pricing?${params.toString()}`);
const data = await res.json();
setPrice(data.price);
} catch (err) {
console.error('failed to fetch price for total:', err);
}
};
fetchPrice();
}, [productId]);
if (!price) return <span className="text-4xl font-bold text-gray-900">Loading...</span>;
return (
<span className="text-4xl font-bold text-gray-900">
${(price * nights).toFixed(2)}
</span>
);
};
export default function HotelDetails({ product, onAddToCart, addedToCart }: HotelDetailsProps) { export default function HotelDetails({ product, onAddToCart, addedToCart }: HotelDetailsProps) {
const imageUrl = `https://images.unsplash.com/photo-1566073771259-6a8506099945?w=800&h=600&fit=crop`;
return ( return (
<div className="w-full flex flex-col lg:flex-row gap-12 py-8"> <div className="w-full flex flex-col lg:flex-row gap-12 py-8">
<div className="w-full lg:w-1/2 rounded-lg aspect-[4/3] overflow-hidden shrink-0"> {/* Image Section - Larger and cleaner */}
<img <div className="w-full lg:w-1/2 bg-gray-100 rounded-lg aspect-[4/3] flex items-center justify-center shrink-0">
src={imageUrl} <span className="text-gray-400 text-lg font-medium">Hotel Image</span>
alt={product.name}
className="w-full h-full object-cover"
onError={(e) => {
e.currentTarget.style.display = 'none';
if (e.currentTarget.nextElementSibling) {
(e.currentTarget.nextElementSibling as HTMLElement).style.display = 'flex';
}
}}
/>
<div className="w-full h-full bg-gray-100 rounded-lg flex items-center justify-center" style={{ display: 'none' }}>
<span className="text-gray-400 text-lg font-medium">Hotel Image</span>
</div>
</div> </div>
{/* Details Section - Full height/width usage */}
<div className="flex-1 flex flex-col"> <div className="flex-1 flex flex-col">
<div className="border-b pb-6 mb-6"> <div className="border-b pb-6 mb-6">
<h1 className="text-4xl font-bold text-gray-900 mb-2">{product.name}</h1> <h1 className="text-4xl font-bold text-gray-900 mb-2">{product.name}</h1>
<p className="text-xl text-gray-500">{product.roomType}</p>
</div> </div>
<div className="grid grid-cols-2 gap-8 mb-8"> <div className="grid grid-cols-2 gap-8 mb-8">
@@ -85,17 +39,24 @@ export default function HotelDetails({ product, onAddToCart, addedToCart }: Hote
<div className="flex flex-wrap gap-3"> <div className="flex flex-wrap gap-3">
{product.amenities.map(a => ( {product.amenities.map(a => (
<span key={a} className="px-3 py-1.5 bg-gray-100 text-gray-700 rounded-md text-sm font-medium"> <span key={a} className="px-3 py-1.5 bg-gray-100 text-gray-700 rounded-md text-sm font-medium">
{a.replaceAll('_', ' ')} {a}
</span> </span>
))} ))}
</div> </div>
</div> </div>
{product.refundable && (
<div className="mb-8 p-4 bg-green-50 text-green-800 rounded-md inline-block">
<span className="font-medium">Free cancellation available</span>
</div>
)}
<div className="mt-auto pt-6 border-t flex items-center justify-between"> <div className="mt-auto pt-6 border-t flex items-center justify-between">
<div> <div>
<p className="text-sm text-gray-500 mb-1">Price per night</p> <p className="text-sm text-gray-500 mb-1">Total for {product.nights} night{product.nights > 1 ? 's' : ''}</p>
<div className="mb-3"> <div className="flex items-baseline gap-2">
<PriceDisplay productId={product.id} className="!text-2xl" /> <span className="text-4xl font-bold text-gray-900">${product.pricePerNight * product.nights}</span>
<span className="text-gray-500">/ {product.nights} nights</span>
</div> </div>
</div> </div>

View File

@@ -1,29 +1,7 @@
import { InputHTMLAttributes, useMemo } from 'react'; import { InputHTMLAttributes } from 'react';
interface DateInpProps extends Omit<InputHTMLAttributes<HTMLInputElement>, 'type'> {} interface DateInpProps extends Omit<InputHTMLAttributes<HTMLInputElement>, 'type'> {}
export default function DateInput({ className = '', ...props }: DateInpProps) { export default function DateInput({ className = '', ...props }: DateInpProps) {
const { minDate, maxDate } = useMemo(() => { return <input type="date" className={`input-field ${className}`.trim()} {...props} />;
const today = new Date();
const tomorrow = new Date(today);
tomorrow.setDate(today.getDate() + 1);
const tenDaysOut = new Date(tomorrow);
tenDaysOut.setDate(tomorrow.getDate() + 9); // tomorrow + 9 = 10 days total
return {
minDate: tomorrow.toISOString().split('T')[0],
maxDate: tenDaysOut.toISOString().split('T')[0]
};
}, []);
return (
<input
type="date"
className={`input-field ${className}`.trim()}
min={minDate}
max={maxDate}
{...props}
/>
);
} }

View File

@@ -20,7 +20,7 @@ const NavLink = ({ href, children }: { href: string; children: React.ReactNode }
href={href} href={href}
className={`px-4 py-2 rounded-md transition-colors ${ className={`px-4 py-2 rounded-md transition-colors ${
isActive isActive
? 'bg-[var(--accent-primary)] font-semibold' ? 'bg-[var(--accent-primary)] text-white font-semibold'
: 'hover:bg-[var(--accent-primary-light)] text-[var(--text-primary)]' : 'hover:bg-[var(--accent-primary-light)] text-[var(--text-primary)]'
}`} }`}
> >
@@ -37,7 +37,9 @@ export default function Navigation() {
<div className="flex items-center space-x-1"> <div className="flex items-center space-x-1">
<NavLink href="/">Home</NavLink> <NavLink href="/">Home</NavLink>
<NavLink href="/products">Products</NavLink> <NavLink href="/products">Products</NavLink>
<NavLink href="/search">Search</NavLink>
<NavLink href="/cart">Cart</NavLink> <NavLink href="/cart">Cart</NavLink>
<NavLink href="/checkout">Checkout</NavLink>
</div> </div>
</div> </div>
</div> </div>

View File

@@ -1,119 +0,0 @@
'use client';
import { useState, useRef, useEffect, ReactNode } from 'react';
export interface SelectOption {
value: string;
label: string;
sublabel?: string;
}
interface SelectDropdownProps {
value: string;
onChange: (value: string) => void;
options: SelectOption[];
placeholder?: string;
icon?: ReactNode;
required?: boolean;
id?: string;
}
export default function SelectDropdown({
value,
onChange,
options,
placeholder = 'Select...',
icon,
required,
id,
}: SelectDropdownProps) {
const [open, setOpen] = useState(false);
const [filter, setFilter] = useState('');
const ref = useRef<HTMLDivElement>(null);
const inputRef = useRef<HTMLInputElement>(null);
useEffect(() => {
const handleClick = (e: MouseEvent) => {
if (ref.current && !ref.current.contains(e.target as Node)) {
setOpen(false);
setFilter('');
}
};
document.addEventListener('mousedown', handleClick);
return () => document.removeEventListener('mousedown', handleClick);
}, []);
const selectedOption = options.find((o) => o.value === value);
const filtered = options.filter(
(o) =>
o.label.toLowerCase().includes(filter.toLowerCase()) ||
o.value.toLowerCase().includes(filter.toLowerCase()) ||
o.sublabel?.toLowerCase().includes(filter.toLowerCase())
);
const handleSelect = (opt: SelectOption) => {
onChange(opt.value);
setOpen(false);
setFilter('');
};
return (
<div className="relative" ref={ref}>
<div
className="input-field flex items-center gap-2 cursor-pointer box-border"
onClick={() => {
setOpen(true);
setTimeout(() => inputRef.current?.focus(), 0);
}}
>
{icon && <span className="text-[var(--text-secondary)]">{icon}</span>}
{open ? (
<input
ref={inputRef}
type="text"
id={id}
value={filter}
onChange={(e) => setFilter(e.target.value)}
placeholder={placeholder}
className="flex-1 bg-transparent outline-none text-sm text-[var(--text-primary)]"
/>
) : (
<span className={`flex-1 text-sm ${value ? 'text-[var(--text-primary)]' : 'text-[var(--text-secondary)]'}`}>
{selectedOption ? selectedOption.label : placeholder}
</span>
)}
<svg
className={`w-4 h-4 text-[var(--text-secondary)] transition-transform ${open ? 'rotate-180' : ''}`}
fill="none"
stroke="currentColor"
viewBox="0 0 24 24"
>
<path strokeLinecap="round" strokeLinejoin="round" strokeWidth={2} d="M19 9l-7 7-7-7" />
</svg>
</div>
{open && (
<div className="absolute z-20 mt-1 w-full bg-[var(--bg-primary)] border-2 border-[var(--accent-primary)] rounded-md shadow-lg max-h-60 overflow-y-auto">
{filtered.length === 0 ? (
<div className="px-4 py-3 text-sm text-[var(--text-secondary)]">No results</div>
) : (
filtered.map((opt) => (
<div
key={opt.value}
onClick={() => handleSelect(opt)}
className={`px-4 py-2 cursor-pointer transition-colors hover:bg-[var(--accent-primary-light)] ${
opt.value === value ? 'bg-[var(--accent-primary-light)]' : ''
}`}
>
<div className="text-sm font-medium text-[var(--text-primary)]">{opt.label}</div>
{opt.sublabel && <div className="text-xs text-[var(--text-secondary)]">{opt.sublabel}</div>}
</div>
))
)}
</div>
)}
{required && !value && (
<input type="text" required className="sr-only" tabIndex={-1} value="" onChange={() => {}} />
)}
</div>
);
}

View File

@@ -5,5 +5,3 @@ export { default as DateInput } from './DateInput';
export { default as RadioGroup } from './RadioGroup'; export { default as RadioGroup } from './RadioGroup';
export { default as Dropdown, DropdownCounter } from './Dropdown'; export { default as Dropdown, DropdownCounter } from './Dropdown';
export { default as Navigation } from './Navigation'; export { default as Navigation } from './Navigation';
export { default as SelectDropdown } from './SelectDropdown';
export type { SelectOption } from './SelectDropdown';

View File

@@ -16,7 +16,7 @@ const envSchema = z.object({
// parse and validate env at module load, fail fast with descriptive errors // parse and validate env at module load, fail fast with descriptive errors
const parseEnv = (): Env => { const parseEnv = (): Env => {
const result = envSchema.safeParse({ const result = envSchema.safeParse({
STORE_MODE: process.env.NEXT_PUBLIC_STORE_MODE || process.env.STORE_MODE, STORE_MODE: process.env.STORE_MODE,
NEXT_PUBLIC_API_BASE: process.env.NEXT_PUBLIC_API_BASE, NEXT_PUBLIC_API_BASE: process.env.NEXT_PUBLIC_API_BASE,
NEXT_PUBLIC_APP_ENV: process.env.NEXT_PUBLIC_APP_ENV, NEXT_PUBLIC_APP_ENV: process.env.NEXT_PUBLIC_APP_ENV,
}); });

View File

@@ -21,6 +21,7 @@ export interface Hotel {
checkOut: string; checkOut: string;
dateIndex: number; dateIndex: number;
amenities: string[]; amenities: string[];
refundable: boolean;
pricePerNight: number; pricePerNight: number;
nights: number; nights: number;
} }
@@ -29,37 +30,19 @@ const EPOCH = new Date(0);
export const transformProduct = (p: HotelProduct): Hotel => { export const transformProduct = (p: HotelProduct): Hotel => {
const { id, room_type, date_index, metadata } = p; const { id, room_type, date_index, metadata } = p;
const checkIn = new Date(EPOCH.getTime() + date_index * 86400000);
// DB stores date_index as days since epoch
// but if value is small (<1000), treat as days from today for backward compat
let checkIn: Date;
if (date_index < 1000) {
// legacy: treat as offset from today
const today = new Date();
today.setHours(0, 0, 0, 0);
checkIn = new Date(today.getTime() + date_index * 86400000);
} else {
// proper: days since epoch
checkIn = new Date(EPOCH.getTime() + date_index * 86400000);
}
const nights = 1; const nights = 1;
const checkOut = new Date(checkIn.getTime() + nights * 86400000); const checkOut = new Date(checkIn.getTime() + nights * 86400000);
const formatOpts: Intl.DateTimeFormatOptions = {
month: 'short',
day: 'numeric',
year: checkIn.getFullYear() !== new Date().getFullYear() ? 'numeric' : undefined
};
return { return {
id, id,
name: metadata?.name || room_type, name: metadata?.name || room_type,
roomType: room_type, roomType: room_type,
checkIn: checkIn.toLocaleDateString('en-US', formatOpts), checkIn: checkIn.toLocaleDateString('en-US', { month: 'short', day: 'numeric' }),
checkOut: checkOut.toLocaleDateString('en-US', formatOpts), checkOut: checkOut.toLocaleDateString('en-US', { month: 'short', day: 'numeric' }),
dateIndex: date_index, dateIndex: date_index,
amenities: metadata?.amenities || [], amenities: metadata?.amenities || [],
refundable: metadata?.refundable || false,
pricePerNight: metadata?.base_price || 100, pricePerNight: metadata?.base_price || 100,
nights, nights,
}; };

View File

@@ -278,8 +278,6 @@
padding: 12px; padding: 12px;
transition: border-color 0.2s ease; transition: border-color 0.2s ease;
width: 100%; width: 100%;
min-height: 48px;
box-sizing: border-box;
} }
[data-mode="airline"] .input-field:focus { [data-mode="airline"] .input-field:focus {