mirror of
https://github.com/kuhyx/testsAndMisc-archive.git
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- Replace print() with logging module throughout - Add type annotations and Google docstrings to all functions - Introduce DeckInput and LessonConfig dataclasses to reduce function parameters - Use specific exception types instead of bare except (BLE001) - Remove all noqa suppression comments - Fix test fixtures: remove unused _capsys/_tmp_path parameters
253 lines
8.8 KiB
Python
Executable File
253 lines
8.8 KiB
Python
Executable File
#!/usr/bin/env python3
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"""Tests for vocabulary_curve C implementation."""
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from __future__ import annotations
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from pathlib import Path
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import subprocess
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import pytest
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# Path to the C executable
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C_EXECUTABLE = (
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Path(__file__).parent.parent.parent.parent
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/ "C"
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/ "vocabulary_curve"
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/ "vocabulary_curve"
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)
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@pytest.fixture
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def sample_text_file(tmp_path: Path) -> Path:
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"""Create a sample text file for testing."""
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text = """The quick brown fox jumps over the lazy dog.
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The fox was very quick and the dog was very lazy.
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Quick foxes and lazy dogs are common in stories."""
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filepath = tmp_path / "sample.txt"
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filepath.write_text(text, encoding="utf-8")
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return filepath
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@pytest.fixture
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def polish_text_file(tmp_path: Path) -> Path:
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"""Create a Polish sample text file."""
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text = """Litwo! Ojczyzno moja! Ty jesteś jak zdrowie.
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Ile cię trzeba cenić, ten tylko się dowie,
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Kto cię stracił. Dziś piękność twą w całej ozdobie
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Widzę i opisuję, bo tęsknię po tobie."""
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filepath = tmp_path / "polish.txt"
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filepath.write_text(text, encoding="utf-8")
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return filepath
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def run_vocabulary_curve(filepath: Path, max_length: int = 10) -> str:
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"""Run the vocabulary_curve executable and return output."""
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if not C_EXECUTABLE.exists():
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pytest.skip(f"C executable not found at {C_EXECUTABLE}")
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result = subprocess.run(
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[str(C_EXECUTABLE), str(filepath), str(max_length)],
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capture_output=True,
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text=True,
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timeout=30,
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check=False,
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)
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return result.stdout
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def extract_excerpts_from_output(output: str) -> list[tuple[int, str]]:
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"""Extract (length, excerpt) pairs from output."""
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excerpts = []
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lines = output.split("\n")
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i = 0
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while i < len(lines):
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line = lines[i]
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if line.strip().startswith("[Length "):
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# Parse length
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length = int(line.split("]")[0].split()[-1])
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# Find excerpt line
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i += 1
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while i < len(lines) and not lines[i].strip().startswith("Excerpt:"):
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i += 1
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if i < len(lines):
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excerpt_line = lines[i].strip()
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# Extract text between quotes
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if '"' in excerpt_line:
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start = excerpt_line.index('"') + 1
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end = excerpt_line.rindex('"')
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excerpt = excerpt_line[start:end]
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excerpts.append((length, excerpt))
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i += 1
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return excerpts
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class TestExcerptValidity:
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"""Tests that verify excerpts are actually found in the source text."""
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def test_excerpt_exists_in_source_text(self, sample_text_file: Path) -> None:
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"""Test that each excerpt can be found in source text."""
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import re
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source_text = sample_text_file.read_text(encoding="utf-8").lower()
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source_words = re.findall(r"\b[\w]+\b", source_text)
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output = run_vocabulary_curve(sample_text_file, max_length=10)
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excerpts = extract_excerpts_from_output(output)
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assert len(excerpts) > 0, "No excerpts found in output"
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for length, excerpt in excerpts:
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excerpt_words = excerpt.lower().split()
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# Find this sequence in source_words
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found = False
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for i in range(len(source_words) - len(excerpt_words) + 1):
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if source_words[i : i + len(excerpt_words)] == excerpt_words:
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found = True
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break
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assert found, (
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f"Excerpt of length {length} not found in source text:\n"
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f" Excerpt words: {excerpt_words}\n"
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f" First 30 source words: {source_words[:30]}"
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)
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def test_excerpt_word_count_matches_length(self, sample_text_file: Path) -> None:
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"""Test that excerpt has the expected number of words."""
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output = run_vocabulary_curve(sample_text_file, max_length=10)
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excerpts = extract_excerpts_from_output(output)
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for length, excerpt in excerpts:
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word_count = len(excerpt.split())
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assert (
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word_count == length
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), f"Expected {length} words, got {word_count}: '{excerpt}'"
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def test_polish_excerpt_exists_in_source(self, polish_text_file: Path) -> None:
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"""Test Polish text excerpts are found in source as contiguous words."""
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import re
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source_text = polish_text_file.read_text(encoding="utf-8").lower()
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source_words = re.findall(r"\b[\w]+\b", source_text)
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output = run_vocabulary_curve(polish_text_file, max_length=8)
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excerpts = extract_excerpts_from_output(output)
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assert len(excerpts) > 0, "No excerpts found in output"
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for length, excerpt in excerpts:
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excerpt_words = excerpt.lower().split()
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# Find this sequence in source_words
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found = False
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for i in range(len(source_words) - len(excerpt_words) + 1):
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if source_words[i : i + len(excerpt_words)] == excerpt_words:
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found = True
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break
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assert found, (
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f"Polish excerpt of length {length} not found:\n"
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f" Excerpt words: {excerpt_words}\n"
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f" Source words: {source_words}"
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)
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def test_excerpt_is_contiguous(self, sample_text_file: Path) -> None:
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"""Test that excerpt words appear contiguously in source."""
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import re
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source_text = sample_text_file.read_text(encoding="utf-8").lower()
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# Extract words from source
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source_words = re.findall(r"\b[\w]+\b", source_text)
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output = run_vocabulary_curve(sample_text_file, max_length=5)
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excerpts = extract_excerpts_from_output(output)
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for length, excerpt in excerpts:
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excerpt_words = excerpt.lower().split()
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# Find this sequence in source_words
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found = False
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for i in range(len(source_words) - length + 1):
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if source_words[i : i + length] == excerpt_words:
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found = True
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break
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assert found, (
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f"Excerpt words not found as contiguous sequence:\n"
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f" Excerpt: {excerpt_words}\n"
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f" First 20 source words: {source_words[:20]}"
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)
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class TestVocabNeeded:
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"""Tests for vocabulary count calculations."""
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def test_length_1_needs_vocab_1(self, sample_text_file: Path) -> None:
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"""Test that a 1-word excerpt needs exactly 1 vocabulary word."""
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output = run_vocabulary_curve(sample_text_file, max_length=1)
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assert "[Length 1] Vocab needed: 1" in output
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def test_vocab_needed_increases_monotonically(self, sample_text_file: Path) -> None:
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"""Test that vocab needed never decreases as length increases."""
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output = run_vocabulary_curve(sample_text_file, max_length=10)
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extract_excerpts_from_output(output)
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# Extract vocab needed from output
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prev_vocab = 0
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for line in output.split("\n"):
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if "Vocab needed:" in line:
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# Parse "Vocab needed: X"
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parts = line.split("Vocab needed:")
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if len(parts) > 1:
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vocab = int(parts[1].split()[0])
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assert (
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vocab >= prev_vocab
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), f"Vocab decreased from {prev_vocab} to {vocab}"
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prev_vocab = vocab
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class TestEdgeCases:
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"""Edge case tests."""
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def test_empty_file(self, tmp_path: Path) -> None:
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"""Test handling of empty file."""
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filepath = tmp_path / "empty.txt"
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filepath.write_text("", encoding="utf-8")
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if not C_EXECUTABLE.exists():
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pytest.skip("C executable not found")
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result = subprocess.run(
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[str(C_EXECUTABLE), str(filepath), "5"],
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capture_output=True,
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text=True,
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check=False,
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)
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assert result.returncode != 0 or "No words" in result.stderr
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def test_single_word_file(self, tmp_path: Path) -> None:
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"""Test file with single word."""
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filepath = tmp_path / "single.txt"
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filepath.write_text("hello", encoding="utf-8")
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output = run_vocabulary_curve(filepath, max_length=5)
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assert "[Length 1] Vocab needed: 1" in output
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# Should only have 1 length since there's only 1 word
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assert "[Length 2]" not in output
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def test_repeated_word_file(self, tmp_path: Path) -> None:
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"""Test file with same word repeated."""
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filepath = tmp_path / "repeated.txt"
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filepath.write_text("hello hello hello hello hello", encoding="utf-8")
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output = run_vocabulary_curve(filepath, max_length=5)
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# All excerpts should need only 1 vocabulary word
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for i in range(1, 6):
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assert f"[Length {i}] Vocab needed: 1" in output
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if __name__ == "__main__":
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pytest.main([__file__, "-v"])
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