# SPDX-License-Identifier: Apache-2.0 # SPDX-FileCopyrightText: Copyright contributors to the vLLM project """ Test cases for long text embedding with automatic chunking mechanism. This test suite validates vLLM's automatic chunking functionality for handling text inputs that exceed the model's maximum token length, specifically targeting the intfloat/multilingual-e5-small model (max token length: 512). """ import random import openai import pytest import pytest_asyncio from vllm.entrypoints.openai.protocol import EmbeddingResponse from ...utils import RemoteOpenAIServer def _generate_random_text(word_count: int) -> str: """Generate random text with approximately the specified word count.""" # Common English words with focus on verbs and nouns for realistic text common_words = [ # Essential articles and pronouns (minimal) "the", "and", "you", "they", "this", "that", "these", "those", # Action verbs "create", "build", "develop", "design", "implement", "execute", "analyze", "process", "generate", "calculate", "evaluate", "optimize", "transform", "integrate", "configure", "deploy", "monitor", "manage", "discover", "explore", "investigate", "research", "study", "examine", "improve", "enhance", "upgrade", "modify", "update", "maintain", "solve", "resolve", "handle", "address", "tackle", "overcome", "communicate", "collaborate", "coordinate", "organize", "plan", "achieve", "accomplish", "complete", "finish", "deliver", "provide", # Technology and science nouns "system", "application", "software", "hardware", "network", "database", "algorithm", "model", "framework", "platform", "interface", "protocol", "architecture", "infrastructure", "component", "module", "service", "technology", "innovation", "solution", "methodology", "approach", "artificial", "intelligence", "machine", "learning", "neural", "network", "computer", "processor", "memory", "storage", "computation", "data", "information", "knowledge", "insight", "pattern", "trend", "analysis", "research", "development", "engineering", "science", "mathematics", "statistics", "probability", "optimization", "performance", "efficiency", # General nouns "project", "team", "organization", "company", "business", "industry", "market", "customer", "user", "client", "product", "feature", "function", "requirement", "specification", "documentation", "report", "result", "outcome", "impact", "benefit", "advantage", "challenge", "problem", "opportunity", "strategy", "goal", "objective", "target", "milestone", "process", "procedure", "workflow", "pipeline", "operation", "task", "activity", "event", "session", "meeting", "discussion", "decision" ] words = [] for _ in range(word_count): words.append(random.choice(common_words)) # Add some punctuation for more realistic text text = " ".join(words) # Add periods every 10-20 words words_list = text.split() result = [] for i, word in enumerate(words_list): result.append(word) if ((i + 1) % random.randint(10, 20) == 0 and i < len(words_list) - 1): result[-1] += "." return " ".join(result) MODEL_NAME = "intfloat/multilingual-e5-small" DTYPE = "bfloat16" # Test text: Generate text with approximately 1500 words to exceed 1024 tokens LONG_TEXT_1500_WORDS = _generate_random_text(1500) # Test text: Generate text with approximately 2500 words to exceed 2048 tokens LONG_TEXT_2500_WORDS = _generate_random_text(2500) @pytest.fixture(scope="module") def server_with_chunked_processing(): """Start server with automatic chunking processing enabled.""" args = [ "--runner", "pooling", "--dtype", DTYPE, "--enforce-eager", "--max-model-len", "512", # Set smaller max_model_len to trigger chunking mechanism '--override-pooler-config', ('{"pooling_type": "MEAN", "normalize": true, ' '"enable_chunked_processing": true, "max_embed_len": 10000}'), "--gpu-memory-utilization", "0.8", ] with RemoteOpenAIServer(MODEL_NAME, args) as remote_server: yield remote_server @pytest_asyncio.fixture async def client_with_chunked_processing(server_with_chunked_processing): """Create async client with chunking processing support.""" async with server_with_chunked_processing.get_async_client( ) as async_client: yield async_client @pytest.mark.asyncio @pytest.mark.parametrize("model_name", [MODEL_NAME]) async def test_long_text_embedding_1500_chars( client_with_chunked_processing: openai.AsyncOpenAI, model_name: str): """Test embedding processing for ~1500 character long text (~1028 tokens, exceeding 512 token limit).""" # Verify text length # Verify text has sufficient word count (approximately 1500 words) word_count = len(LONG_TEXT_1500_WORDS.split()) assert word_count >= 1400, ( f"Test text word count insufficient: {word_count} words") # Send embedding request embedding_response = await client_with_chunked_processing.embeddings.create( model=model_name, input=[LONG_TEXT_1500_WORDS], encoding_format="float", ) # Verify response structure embeddings = EmbeddingResponse.model_validate( embedding_response.model_dump(mode="json")) assert embeddings.id is not None assert len(embeddings.data) == 1 assert len(embeddings.data[0].embedding ) == 384 # multilingual-e5-small embedding dimension assert embeddings.usage.completion_tokens == 0 # Due to chunked processing, token count should # reflect actual processed tokens # With ~1500 words, we expect roughly # 1024+ tokens (exceeding 512 token limit) # Should exceed single chunk limit of 512 assert embeddings.usage.prompt_tokens > 800 assert embeddings.usage.total_tokens == embeddings.usage.prompt_tokens # Verify embedding vector validity embedding_vector = embeddings.data[0].embedding assert all( isinstance(x, float) for x in embedding_vector), "Embedding vector should contain floats" assert not all( x == 0 for x in embedding_vector), "Embedding vector should not be all zeros" @pytest.mark.asyncio @pytest.mark.parametrize("model_name", [MODEL_NAME]) async def test_long_text_embedding_2500_chars( client_with_chunked_processing: openai.AsyncOpenAI, model_name: str): """Test embedding processing for ~2500 character long text (~2048 tokens, requiring multiple chunks).""" # Verify text length # Verify text has sufficient word count (approximately 2500 words) word_count = len(LONG_TEXT_2500_WORDS.split()) assert word_count >= 2300, ( f"Test text word count insufficient: {word_count} words") # Send embedding request embedding_response = await client_with_chunked_processing.embeddings.create( model=model_name, input=[LONG_TEXT_2500_WORDS], encoding_format="float", ) # Verify response structure embeddings = EmbeddingResponse.model_validate( embedding_response.model_dump(mode="json")) assert embeddings.id is not None assert len(embeddings.data) == 1 assert len(embeddings.data[0].embedding ) == 384 # multilingual-e5-small embedding dimension assert embeddings.usage.completion_tokens == 0 # Due to chunked processing, token count should # reflect actual processed tokens # With ~2500 words, we expect # roughly 2048+ tokens (requiring multiple chunks) # Should require multiple chunks for processing assert embeddings.usage.prompt_tokens > 1500 assert embeddings.usage.total_tokens == embeddings.usage.prompt_tokens # Verify embedding vector validity embedding_vector = embeddings.data[0].embedding assert all( isinstance(x, float) for x in embedding_vector), "Embedding vector should contain floats" assert not all( x == 0 for x in embedding_vector), "Embedding vector should not be all zeros" @pytest.mark.asyncio @pytest.mark.parametrize("model_name", [MODEL_NAME]) async def test_batch_long_text_embedding( client_with_chunked_processing: openai.AsyncOpenAI, model_name: str): """Test batch long text embedding processing.""" input_texts = [ LONG_TEXT_1500_WORDS, LONG_TEXT_2500_WORDS, "This is a short text test.", # Short text for comparison ] # Send batch embedding request embedding_response = await client_with_chunked_processing.embeddings.create( model=model_name, input=input_texts, encoding_format="float", ) # Verify response structure embeddings = EmbeddingResponse.model_validate( embedding_response.model_dump(mode="json")) assert embeddings.id is not None assert len(embeddings.data) == 3 # Three input texts # Verify each embedding dimension for i, embedding_data in enumerate(embeddings.data): assert len(embedding_data.embedding) == 384 assert embedding_data.index == i # Verify embedding vector validity embedding_vector = embedding_data.embedding assert all(isinstance(x, float) for x in embedding_vector) assert not all(x == 0 for x in embedding_vector) # Verify token usage assert embeddings.usage.completion_tokens == 0 # Total token count should be very substantial assert embeddings.usage.prompt_tokens > 1000 assert embeddings.usage.total_tokens == embeddings.usage.prompt_tokens @pytest.mark.asyncio @pytest.mark.parametrize("model_name", [MODEL_NAME]) async def test_chunked_vs_normal_consistency( client_with_chunked_processing: openai.AsyncOpenAI, model_name: str): """Test consistency between chunked and normal processing (using short text).""" # Use a short text within the 512 token limit short_text = ("Artificial intelligence technology is changing our world, " "bringing unprecedented opportunities and challenges.") # Send embedding request embedding_response = await client_with_chunked_processing.embeddings.create( model=model_name, input=[short_text], encoding_format="float", ) # Verify response structure embeddings = EmbeddingResponse.model_validate( embedding_response.model_dump(mode="json")) assert embeddings.id is not None assert len(embeddings.data) == 1 assert len(embeddings.data[0].embedding) == 384 assert embeddings.usage.completion_tokens == 0 # Short text should not require chunked processing assert embeddings.usage.prompt_tokens < 512 assert embeddings.usage.total_tokens == embeddings.usage.prompt_tokens # 验证embedding向量的有效性 embedding_vector = embeddings.data[0].embedding assert all(isinstance(x, float) for x in embedding_vector) assert not all(x == 0 for x in embedding_vector) @pytest.mark.asyncio @pytest.mark.parametrize("model_name", [MODEL_NAME]) async def test_chunked_processing_response_format( client_with_chunked_processing: openai.AsyncOpenAI, model_name: str): """Test response format and structure during chunked processing.""" # Test with long text to trigger chunking embedding_response = await client_with_chunked_processing.embeddings.create( model=model_name, input=[LONG_TEXT_1500_WORDS], encoding_format="float", ) # Verify response structure embeddings = EmbeddingResponse.model_validate( embedding_response.model_dump(mode="json")) assert embeddings.id is not None assert len(embeddings.data) == 1 assert embeddings.data[0].object == "embedding" assert embeddings.data[0].index == 0 # Verify embedding vector properties embedding_vector = embeddings.data[0].embedding import math vector_norm = math.sqrt(sum(x * x for x in embedding_vector)) # Check that the vector is normalized # (default behavior for most embedding models) assert 0.8 < vector_norm < 1.2, ( f"Vector norm should be reasonable, actual: {vector_norm}")