Getting started with Flask and Cerberus - Building a Chess Analysis App (Part 2)
propelauthblog
Posted on November 16, 2021
In our last post, we learned about chess analysis. We then created a python function analyze_position
that takes in a chess position and outputs a detailed analysis.
In this post, we'll create an API around that function, so our users can submit positions for us to analyze. We'll use Flask as our web server and Cerberus to validate the input.
Setting up Flask
Recall that last time we set up our project like this:
$ mkdir chess-api
$ python3 -m venv venv
$ source venv/bin/activate
(venv) $ pip install python-chess
We're using Flask as our web server because it is very lightweight, so we'll want to install that next.
(venv) $ pip install Flask
The quickstart guide shows how easy it is to set up a route.
# app.py
from flask import Flask
app = Flask(__name__)
@app.route("/")
def hello_world():
return "<p>Hello, World!</p>"
Which we can run and test with curl
# flask run automatically looks for app.py
(venv) $ flask run
# different terminal, flasks default port is 5000
$ curl localhost:5000
<p>Hello, World!</p>
You can also return a dictionary which is returned as JSON.
# app.py
@app.route("/json")
def hello_world_json():
return {"hello": "world"}
$ curl -v localhost:5000/json
...
< HTTP/1.0 200 OK
< Content-Type: application/json
< Content-Length: 18
...
{"hello":"world"}
...
Validating JSON body in Flask with Cerberus
We want to make sure that only valid requests are allowed. Cerberus is a lightweight validation library for python. We can define our expected schema and then make sure requests conform to it.
# A FEN is a standard way of representing a chess board
# Make sure that both the FEN string is valid,
# and the resulting board is valid
def is_valid_fen(field, value, error):
try:
board = chess.Board(fen=value)
if not board.is_valid():
error(field, "Invalid FEN")
except ValueError:
error(field, "Invalid FEN")
SCHEMA = {
"fen": {"type": "string", "required": True, "check_with": is_valid_fen},
"num_moves_to_return": {"type": "integer", "min": 1, "max": 10, "default": 1},
"time_limit": {"type": "number", "min": 0.1, "max": 3600, "default": 60},
"depth_limt": {"type": "integer", "min": 5, "max": 50}
}
The schema itself is pretty straightforward. We have 4 fields, 3 of which are optional integers/numbers. For the fen
field, we want to make sure it's both a string and a valid FEN, so we need to define a custom validation function.
When we are ready, we can check that a dictionary is valid like this:
v = Validator(SCHEMA)
is_valid = v.validate(some_json_request)
and if it isn't valid, v.errors
contains exactly what's wrong with it. v.normalized(some_json_request)
modifies it's input which we will use to fill in defaults for the optional fields.
Let's put this all together in a new file parser.py
from cerberus import Validator
from flask import abort, jsonify, make_response
# ... schema from above
def parse_request(json_body):
v = Validator(SCHEMA)
# If invalid, exit out with a 400
if not v.validate(json_body):
# abort exits early with an HTTP response
abort(make_response(jsonify(v.errors), 400))
# Fill in defaults
return v.normalized(json_body)
We can hook this up to a new route in our app.py
. For now, let's return the parsed request.
from parser import parse_request
# ...
@app.route("/analyze", methods=["POST"])
def analyze():
return parse_request(request.get_json())
After running our new app, we can test it with curl. Here's an example where we only specify the FEN and the
other fields get their defaults filled in.
$ curl -X POST
-H "Content-Type: application/json"
-d '{"fen": "8/8/6P1/4R3/8/6k1/2r5/6K1 b - - 0 1"}' localhost:5000/analyze
{"fen":"8/8/6P1/4R3/8/6k1/2r5/6K1 b - - 0 1","num_moves_to_return":1,"time_limit":60}
And here's what happens with an invalid FEN.
$ curl -v -X POST
-H "Content-Type: application/json"
-d '{"fen": "nonsense"}' localhost:5000/analyze
...
< HTTP/1.0 400 BAD REQUEST
...
{"fen": ["Invalid FEN"]}
Analyzing each request synchronously
We already have our analyze_position
from the last post... what if we just use that directly in our route?
@app.route("/analyze", methods=["POST"])
def analyze():
parsed_request = parse_request(request.get_json())
analysis = analyze_position(fen=parsed_request.get("fen"),
num_moves_to_return=parsed_request.get("num_moves_to_return"),
depth_limit=parsed_request.get("depth_limit"),
time_limit=parsed_request.get("time_limit"))
return {"analysis": analysis}
Let's test it with our mate in 2 example from before:
$ curl -X POST
-H "Content-Type: application/json"
-d '{"fen": "8/8/6P1/4R3/8/6k1/2r5/6K1 b - - 0 1"}' localhost:5000/analyze
{"analysis":[{"centipawn_score":null,"mate_score":-2,"pv":["c2c1","e5e1","c1e1"]}]}
It works! It's not a terrible v0, but it has an obvious flaw. Analyzing requests can be a very CPU intensive task. Someone could request an hour-long depth 50 search and our webserver will spend a lot of time working on that. Not to mention that the request will likely time out meaning all the work we do is irrelevant. If a bunch of people request similar analyses, we'll quickly get overloaded.
In our next post, we'll convert this API into an asynchronous API to solve these issues. See you then!
Posted on November 16, 2021
Join Our Newsletter. No Spam, Only the good stuff.
Sign up to receive the latest update from our blog.
Related
November 16, 2021