zulip/zerver/lib/generate_test_data.py

201 lines
6.1 KiB
Python

import itertools
import os
import random
from typing import Any, Dict, List
import ujson
from scripts.lib.zulip_tools import get_or_create_dev_uuid_var_path
def load_config() -> Dict[str, Any]:
with open("zerver/tests/fixtures/config.generate_data.json") as infile:
config = ujson.load(infile)
return config
def generate_topics(num_topics: int) -> List[str]:
config = load_config()["gen_fodder"]
topics = []
# Make single word topics account for 30% of total topics.
# Single word topics are most common, thus
# it is important we test on it.
num_single_word_topics = num_topics // 3
for _ in itertools.repeat(None, num_single_word_topics):
topics.append(random.choice(config["nouns"]))
sentence = ["adjectives", "nouns", "connectors", "verbs", "adverbs"]
for pos in sentence:
# Add an empty string so that we can generate variable length topics.
config[pos].append("")
for _ in itertools.repeat(None, num_topics - num_single_word_topics):
generated_topic = [random.choice(config[pos]) for pos in sentence]
topic = " ".join(filter(None, generated_topic))
topics.append(topic)
return topics
def load_generators(config: Dict[str, Any]) -> Dict[str, Any]:
results = {}
cfg = config["gen_fodder"]
results["nouns"] = itertools.cycle(cfg["nouns"])
results["adjectives"] = itertools.cycle(cfg["adjectives"])
results["connectors"] = itertools.cycle(cfg["connectors"])
results["verbs"] = itertools.cycle(cfg["verbs"])
results["adverbs"] = itertools.cycle(cfg["adverbs"])
results["emojis"] = itertools.cycle(cfg["emoji"])
results["links"] = itertools.cycle(cfg["links"])
results["maths"] = itertools.cycle(cfg["maths"])
results["inline-code"] = itertools.cycle(cfg["inline-code"])
results["code-blocks"] = itertools.cycle(cfg["code-blocks"])
results["quote-blocks"] = itertools.cycle(cfg["quote-blocks"])
results["lists"] = itertools.cycle(cfg["lists"])
return results
def parse_file(config: Dict[str, Any], gens: Dict[str, Any], corpus_file: str) -> List[str]:
# First, load the entire file into a dictionary,
# then apply our custom filters to it as needed.
paragraphs: List[str] = []
with open(corpus_file) as infile:
# OUR DATA: we need to separate the person talking and what they say
paragraphs = remove_line_breaks(infile)
paragraphs = add_flair(paragraphs, gens)
return paragraphs
def get_flair_gen(length: int) -> List[str]:
# Grab the percentages from the config file
# create a list that we can consume that will guarantee the distribution
result = []
for k, v in config["dist_percentages"].items():
result.extend([k] * int(v * length / 100))
result.extend(["None"] * (length - len(result)))
random.shuffle(result)
return result
def add_flair(paragraphs: List[str], gens: Dict[str, Any]) -> List[str]:
# roll the dice and see what kind of flair we should add, if any
results = []
flair = get_flair_gen(len(paragraphs))
for i in range(len(paragraphs)):
key = flair[i]
if key == "None":
txt = paragraphs[i]
elif key == "italic":
txt = add_md("*", paragraphs[i])
elif key == "bold":
txt = add_md("**", paragraphs[i])
elif key == "strike-thru":
txt = add_md("~~", paragraphs[i])
elif key == "quoted":
txt = ">" + paragraphs[i]
elif key == "quote-block":
txt = paragraphs[i] + "\n" + next(gens["quote-blocks"])
elif key == "inline-code":
txt = paragraphs[i] + "\n" + next(gens["inline-code"])
elif key == "code-block":
txt = paragraphs[i] + "\n" + next(gens["code-blocks"])
elif key == "math":
txt = paragraphs[i] + "\n" + next(gens["maths"])
elif key == "list":
txt = paragraphs[i] + "\n" + next(gens["lists"])
elif key == "emoji":
txt = add_emoji(paragraphs[i], next(gens["emojis"]))
elif key == "link":
txt = add_link(paragraphs[i], next(gens["links"]))
elif key == "picture":
txt = txt # TODO: implement pictures
results.append(txt)
return results
def add_md(mode: str, text: str) -> str:
# mode means: bold, italic, etc.
# to add a list at the end of a paragraph, * item one\n * item two
# find out how long the line is, then insert the mode before the end
vals = text.split()
start = random.randrange(len(vals))
end = random.randrange(len(vals) - start) + start
vals[start] = mode + vals[start]
vals[end] = vals[end] + mode
return " ".join(vals).strip()
def add_emoji(text: str, emoji: str) -> str:
vals = text.split()
start = random.randrange(len(vals))
vals[start] = vals[start] + " " + emoji + " "
return " ".join(vals)
def add_link(text: str, link: str) -> str:
vals = text.split()
start = random.randrange(len(vals))
vals[start] = vals[start] + " " + link + " "
return " ".join(vals)
def remove_line_breaks(fh: Any) -> List[str]:
# We're going to remove line breaks from paragraphs
results = [] # save the dialogs as tuples with (author, dialog)
para = [] # we'll store the lines here to form a paragraph
for line in fh:
text = line.strip()
if text != "":
para.append(text)
else:
if para:
results.append(" ".join(para))
# reset the paragraph
para = []
if para:
results.append(" ".join(para))
return results
def write_file(paragraphs: List[str], filename: str) -> None:
with open(filename, "w") as outfile:
outfile.write(ujson.dumps(paragraphs))
def create_test_data() -> None:
gens = load_generators(config) # returns a dictionary of generators
paragraphs = parse_file(config, gens, config["corpus"]["filename"])
write_file(paragraphs, os.path.join(get_or_create_dev_uuid_var_path('test-backend'),
"test_messages.json"))
config = load_config()
if __name__ == "__main__":
create_test_data()