# /// script # requires-python = ">=3.11" # dependencies = [ # "datasets", # "huggingface-hub", # "pillow", # "vllm>=0.15.1", # "tqdm", # "toolz", # "torch", # ] # # /// """ Convert document images to markdown using DoTS.ocr-1.5 with vLLM. DoTS.ocr-1.5 is a 3B multilingual document parsing model with SOTA performance on 100+ languages. Compared to v1 (1.7B), it adds web screen parsing, scene text spotting, SVG code generation, and stronger multilingual document parsing. Features: - Multilingual support (100+ languages) - Table extraction and formatting - Formula recognition - Layout-aware text extraction - Web screen parsing (NEW in v1.5) - Scene text spotting (NEW in v1.5) - SVG code generation (requires dots.ocr-1.5-svg variant) Model: rednote-hilab/dots.ocr-1.5 vLLM: Officially supported (same DotsOCRForCausalLM architecture as v1) """ import argparse import base64 import io import json import logging import os import sys import time from datetime import datetime from typing import Any, Dict, List, Union import torch from datasets import load_dataset from huggingface_hub import DatasetCard, login from PIL import Image from toolz import partition_all from tqdm.auto import tqdm from vllm import LLM, SamplingParams logging.basicConfig(level=logging.INFO) logger = logging.getLogger(__name__) # ──────────────────────────────────────────────────────────────── # DoTS OCR 1.5 Prompt Templates (from official dots.ocr repo) # Source: https://github.com/rednote-hilab/dots.ocr/blob/master/dots_ocr/utils/prompts.py # ──────────────────────────────────────────────────────────────── PROMPT_TEMPLATES = { "ocr": """Extract the text content from this image.""", "layout-all": """Please output the layout information from the PDF image, including each layout element's bbox, its category, and the corresponding text content within the bbox. 1. Bbox format: [x1, y1, x2, y2] 2. Layout Categories: The possible categories are ['Caption', 'Footnote', 'Formula', 'List-item', 'Page-footer', 'Page-header', 'Picture', 'Section-header', 'Table', 'Text', 'Title']. 3. Text Extraction & Formatting Rules: - Picture: For the 'Picture' category, the text field should be omitted. - Formula: Format its text as LaTeX. - Table: Format its text as HTML. - All Others (Text, Title, etc.): Format their text as Markdown. 4. Constraints: - The output text must be the original text from the image, with no translation. - All layout elements must be sorted according to human reading order. 5. Final Output: The entire output must be a single JSON object. """, "layout-only": """Please output the layout information from this PDF image, including each layout's bbox and its category. The bbox should be in the format [x1, y1, x2, y2]. The layout categories for the PDF document include ['Caption', 'Footnote', 'Formula', 'List-item', 'Page-footer', 'Page-header', 'Picture', 'Section-header', 'Table', 'Text', 'Title']. Do not output the corresponding text. The layout result should be in JSON format.""", # NEW in v1.5: "web-parsing": """Parsing the layout info of this webpage image with format json:\n""", "scene-spotting": """Detect and recognize the text in the image.""", "grounding-ocr": """Extract text from the given bounding box on the image (format: [x1, y1, x2, y2]).\nBounding Box:\n""", "general": """ """, } def check_cuda_availability(): """Check if CUDA is available and exit if not.""" if not torch.cuda.is_available(): logger.error("CUDA is not available. This script requires a GPU.") logger.error("Please run on a machine with a CUDA-capable GPU.") sys.exit(1) else: logger.info(f"CUDA is available. GPU: {torch.cuda.get_device_name(0)}") def make_ocr_message( image: Union[Image.Image, Dict[str, Any], str], prompt: str = PROMPT_TEMPLATES["ocr"], ) -> List[Dict]: """Create chat message for OCR processing.""" # Convert to PIL Image if needed if isinstance(image, Image.Image): pil_img = image elif isinstance(image, dict) and "bytes" in image: pil_img = Image.open(io.BytesIO(image["bytes"])) elif isinstance(image, str): pil_img = Image.open(image) else: raise ValueError(f"Unsupported image type: {type(image)}") # Convert to RGB pil_img = pil_img.convert("RGB") # Convert to base64 data URI buf = io.BytesIO() pil_img.save(buf, format="PNG") data_uri = f"data:image/png;base64,{base64.b64encode(buf.getvalue()).decode()}" # Return message in vLLM format return [ { "role": "user", "content": [ {"type": "image_url", "image_url": {"url": data_uri}}, {"type": "text", "text": prompt}, ], } ] def create_dataset_card( source_dataset: str, model: str, num_samples: int, processing_time: str, batch_size: int, max_model_len: int, max_tokens: int, gpu_memory_utilization: float, image_column: str = "image", split: str = "train", prompt_mode: str = "ocr", ) -> str: """Create a dataset card documenting the OCR process.""" model_name = model.split("/")[-1] return f"""--- tags: - ocr - document-processing - dots-ocr-1.5 - multilingual - markdown - uv-script - generated --- # Document OCR using {model_name} This dataset contains OCR results from images in [{source_dataset}](https://huggingface.co/datasets/{source_dataset}) using DoTS.ocr-1.5, a 3B multilingual model with SOTA document parsing. ## Processing Details - **Source Dataset**: [{source_dataset}](https://huggingface.co/datasets/{source_dataset}) - **Model**: [{model}](https://huggingface.co/{model}) - **Number of Samples**: {num_samples:,} - **Processing Time**: {processing_time} - **Processing Date**: {datetime.now().strftime("%Y-%m-%d %H:%M UTC")} ### Configuration - **Image Column**: `{image_column}` - **Output Column**: `markdown` - **Dataset Split**: `{split}` - **Batch Size**: {batch_size} - **Prompt Mode**: {prompt_mode} - **Max Model Length**: {max_model_len:,} tokens - **Max Output Tokens**: {max_tokens:,} - **GPU Memory Utilization**: {gpu_memory_utilization:.1%} ## Model Information DoTS.ocr-1.5 is a 3B multilingual document parsing model that excels at: - 100+ Languages — Multilingual document support - Table extraction — Structured data recognition - Formulas — Mathematical notation preservation - Layout-aware — Reading order and structure preservation - Web screen parsing — Webpage layout analysis - Scene text spotting — Text detection in natural scenes ## Dataset Structure The dataset contains all original columns plus: - `markdown`: The extracted text in markdown format - `inference_info`: JSON list tracking all OCR models applied to this dataset ## Usage ```python from datasets import load_dataset import json # Load the dataset dataset = load_dataset("{{output_dataset_id}}", split="{split}") # Access the markdown text for example in dataset: print(example["markdown"]) break # View all OCR models applied to this dataset inference_info = json.loads(dataset[0]["inference_info"]) for info in inference_info: print(f"Column: {{info['column_name']}} - Model: {{info['model_id']}}") ``` ## Reproduction This dataset was generated using the [uv-scripts/ocr](https://huggingface.co/datasets/uv-scripts/ocr) DoTS OCR 1.5 script: ```bash uv run https://huggingface.co/datasets/uv-scripts/ocr/raw/main/dots-ocr-1.5.py \\ {source_dataset} \\ \\ --image-column {image_column} \\ --batch-size {batch_size} \\ --prompt-mode {prompt_mode} \\ --max-model-len {max_model_len} \\ --max-tokens {max_tokens} \\ --gpu-memory-utilization {gpu_memory_utilization} ``` Generated with [UV Scripts](https://huggingface.co/uv-scripts) """ def main( input_dataset: str, output_dataset: str, image_column: str = "image", batch_size: int = 16, model: str = "rednote-hilab/dots.ocr-1.5", max_model_len: int = 24000, max_tokens: int = 24000, gpu_memory_utilization: float = 0.9, hf_token: str = None, split: str = "train", max_samples: int = None, private: bool = False, shuffle: bool = False, seed: int = 42, prompt_mode: str = "ocr", custom_prompt: str = None, output_column: str = "markdown", config: str = None, create_pr: bool = False, temperature: float = 0.1, top_p: float = 0.9, verbose: bool = False, ): """Process images from HF dataset through DoTS.ocr-1.5 model.""" # Check CUDA availability first check_cuda_availability() # Track processing start time start_time = datetime.now() # Login to HF if token provided HF_TOKEN = hf_token or os.environ.get("HF_TOKEN") if HF_TOKEN: login(token=HF_TOKEN) # Determine prompt to use if custom_prompt: prompt = custom_prompt logger.info(f"Using custom prompt: {prompt[:50]}...") else: prompt = PROMPT_TEMPLATES.get(prompt_mode, PROMPT_TEMPLATES["ocr"]) logger.info(f"Using prompt mode: {prompt_mode}") # Load dataset logger.info(f"Loading dataset: {input_dataset}") dataset = load_dataset(input_dataset, split=split) # Validate image column if image_column not in dataset.column_names: raise ValueError( f"Column '{image_column}' not found. Available: {dataset.column_names}" ) # Shuffle if requested if shuffle: logger.info(f"Shuffling dataset with seed {seed}") dataset = dataset.shuffle(seed=seed) # Limit samples if requested if max_samples: dataset = dataset.select(range(min(max_samples, len(dataset)))) logger.info(f"Limited to {len(dataset)} samples") # Initialize vLLM model logger.info(f"Initializing vLLM with model: {model}") logger.info("This may take a few minutes on first run...") llm = LLM( model=model, trust_remote_code=True, max_model_len=max_model_len, gpu_memory_utilization=gpu_memory_utilization, ) sampling_params = SamplingParams( temperature=temperature, top_p=top_p, max_tokens=max_tokens, ) logger.info(f"Processing {len(dataset)} images in batches of {batch_size}") logger.info(f"Output will be written to column: {output_column}") # Process images in batches all_outputs = [] for batch_indices in tqdm( partition_all(batch_size, range(len(dataset))), total=(len(dataset) + batch_size - 1) // batch_size, desc="DoTS.ocr-1.5 processing", ): batch_indices = list(batch_indices) batch_images = [dataset[i][image_column] for i in batch_indices] try: # Create messages for batch batch_messages = [make_ocr_message(img, prompt) for img in batch_images] # Process with vLLM outputs = llm.chat(batch_messages, sampling_params) # Extract outputs for output in outputs: text = output.outputs[0].text.strip() all_outputs.append(text) except Exception as e: logger.error(f"Error processing batch: {e}") # Add error placeholders for failed batch all_outputs.extend(["[OCR ERROR]"] * len(batch_images)) # Calculate processing time processing_duration = datetime.now() - start_time processing_time_str = f"{processing_duration.total_seconds() / 60:.1f} min" # Add output column to dataset logger.info(f"Adding '{output_column}' column to dataset") dataset = dataset.add_column(output_column, all_outputs) # Handle inference_info tracking (for multi-model comparisons) inference_entry = { "model_id": model, "model_name": "DoTS.ocr-1.5", "column_name": output_column, "timestamp": datetime.now().isoformat(), "prompt_mode": prompt_mode if not custom_prompt else "custom", "temperature": temperature, "top_p": top_p, "max_tokens": max_tokens, } if "inference_info" in dataset.column_names: # Append to existing inference info logger.info("Updating existing inference_info column") def update_inference_info(example): try: existing_info = ( json.loads(example["inference_info"]) if example["inference_info"] else [] ) except (json.JSONDecodeError, TypeError): existing_info = [] existing_info.append(inference_entry) return {"inference_info": json.dumps(existing_info)} dataset = dataset.map(update_inference_info) else: # Create new inference_info column logger.info("Creating new inference_info column") inference_list = [json.dumps([inference_entry])] * len(dataset) dataset = dataset.add_column("inference_info", inference_list) # Push to hub with retry and XET fallback logger.info(f"Pushing to {output_dataset}") max_retries = 3 for attempt in range(1, max_retries + 1): try: if attempt > 1: logger.warning("Disabling XET (fallback to HTTP upload)") os.environ["HF_HUB_DISABLE_XET"] = "1" dataset.push_to_hub( output_dataset, private=private, token=HF_TOKEN, max_shard_size="500MB", **({"config_name": config} if config else {}), create_pr=create_pr, commit_message=f"Add {model} OCR results ({len(dataset)} samples)" + (f" [{config}]" if config else ""), ) break except Exception as e: logger.error(f"Upload attempt {attempt}/{max_retries} failed: {e}") if attempt < max_retries: delay = 30 * (2 ** (attempt - 1)) logger.info(f"Retrying in {delay}s...") time.sleep(delay) else: logger.error("All upload attempts failed. OCR results are lost.") sys.exit(1) # Create and push dataset card logger.info("Creating dataset card") card_content = create_dataset_card( source_dataset=input_dataset, model=model, num_samples=len(dataset), processing_time=processing_time_str, batch_size=batch_size, max_model_len=max_model_len, max_tokens=max_tokens, gpu_memory_utilization=gpu_memory_utilization, image_column=image_column, split=split, prompt_mode=prompt_mode if not custom_prompt else "custom", ) card = DatasetCard(card_content) card.push_to_hub(output_dataset, token=HF_TOKEN) logger.info("DoTS.ocr-1.5 processing complete!") logger.info( f"Dataset available at: https://huggingface.co/datasets/{output_dataset}" ) logger.info(f"Processing time: {processing_time_str}") if verbose: import importlib.metadata logger.info("--- Resolved package versions ---") for pkg in ["vllm", "transformers", "torch", "datasets", "pyarrow", "pillow"]: try: logger.info(f" {pkg}=={importlib.metadata.version(pkg)}") except importlib.metadata.PackageNotFoundError: logger.info(f" {pkg}: not installed") logger.info("--- End versions ---") if __name__ == "__main__": # Show example usage if no arguments if len(sys.argv) == 1: print("=" * 80) print("DoTS.ocr-1.5 Document Processing") print("=" * 80) print("\n3B multilingual OCR model supporting 100+ languages") print("\nFeatures:") print("- Multilingual support (100+ languages)") print("- Fast processing with vLLM") print("- Table extraction and formatting") print("- Formula recognition") print("- Layout-aware text extraction") print("- Web screen parsing (NEW in v1.5)") print("- Scene text spotting (NEW in v1.5)") print("\nPrompt modes:") print(" ocr - Text extraction (default)") print(" layout-all - Layout + bboxes + text (JSON)") print(" layout-only - Layout + bboxes only (JSON)") print(" web-parsing - Webpage layout analysis (JSON)") print(" scene-spotting - Scene text detection") print(" grounding-ocr - Text from bounding box region") print(" general - Free-form (use with --custom-prompt)") print("\nExample usage:") print("\n1. Basic OCR:") print(" uv run dots-ocr-1.5.py input-dataset output-dataset") print("\n2. Web screen parsing:") print(" uv run dots-ocr-1.5.py screenshots parsed --prompt-mode web-parsing") print("\n3. Scene text spotting:") print(" uv run dots-ocr-1.5.py photos detected --prompt-mode scene-spotting") print("\n4. Layout analysis with structure:") print(" uv run dots-ocr-1.5.py papers analyzed --prompt-mode layout-all") print("\n5. Running on HF Jobs:") print(" hf jobs uv run --flavor l4x1 \\") print(" -s HF_TOKEN \\") print( " https://huggingface.co/datasets/uv-scripts/ocr/raw/main/dots-ocr-1.5.py \\" ) print(" input-dataset output-dataset") print("\n" + "=" * 80) print("\nFor full help, run: uv run dots-ocr-1.5.py --help") sys.exit(0) parser = argparse.ArgumentParser( description="Document OCR using DoTS.ocr-1.5 (3B multilingual model)", formatter_class=argparse.RawDescriptionHelpFormatter, epilog=""" Prompt Modes (official DoTS.ocr-1.5 prompts): ocr - Simple text extraction (default) layout-all - Layout analysis with bboxes, categories, and text (JSON output) layout-only - Layout detection with bboxes and categories only (JSON output) web-parsing - Webpage layout analysis (JSON output) [NEW in v1.5] scene-spotting - Scene text detection and recognition [NEW in v1.5] grounding-ocr - Extract text from bounding box region [NEW in v1.5] general - Free-form QA (use with --custom-prompt) [NEW in v1.5] SVG Code Generation: For SVG output, use --model rednote-hilab/dots.ocr-1.5-svg with: --custom-prompt 'Please generate the SVG code based on the image.' Examples: # Basic text OCR (default) uv run dots-ocr-1.5.py my-docs analyzed-docs # Web screen parsing uv run dots-ocr-1.5.py screenshots parsed --prompt-mode web-parsing # Scene text spotting uv run dots-ocr-1.5.py photos spotted --prompt-mode scene-spotting # Full layout analysis with structure uv run dots-ocr-1.5.py papers structured --prompt-mode layout-all # Random sampling for testing uv run dots-ocr-1.5.py large-dataset test --max-samples 50 --shuffle """, ) parser.add_argument("input_dataset", help="Input dataset ID from Hugging Face Hub") parser.add_argument("output_dataset", help="Output dataset ID for Hugging Face Hub") parser.add_argument( "--image-column", default="image", help="Column containing images (default: image)", ) parser.add_argument( "--batch-size", type=int, default=16, help="Batch size for processing (default: 16)", ) parser.add_argument( "--model", default="rednote-hilab/dots.ocr-1.5", help="Model to use (default: rednote-hilab/dots.ocr-1.5)", ) parser.add_argument( "--max-model-len", type=int, default=24000, help="Maximum model context length (default: 24000)", ) parser.add_argument( "--max-tokens", type=int, default=24000, help="Maximum tokens to generate (default: 24000)", ) parser.add_argument( "--gpu-memory-utilization", type=float, default=0.9, help="GPU memory utilization (default: 0.9)", ) parser.add_argument("--hf-token", help="Hugging Face API token") parser.add_argument( "--split", default="train", help="Dataset split to use (default: train)" ) parser.add_argument( "--max-samples", type=int, help="Maximum number of samples to process (for testing)", ) parser.add_argument( "--private", action="store_true", help="Make output dataset private" ) parser.add_argument( "--shuffle", action="store_true", help="Shuffle dataset before processing" ) parser.add_argument( "--seed", type=int, default=42, help="Random seed for shuffling (default: 42)", ) parser.add_argument( "--prompt-mode", choices=list(PROMPT_TEMPLATES.keys()), default="ocr", help=f"Prompt template to use: {', '.join(PROMPT_TEMPLATES.keys())} (default: ocr)", ) parser.add_argument( "--custom-prompt", help="Custom prompt text (overrides --prompt-mode)", ) parser.add_argument( "--output-column", default="markdown", help="Column name for output text (default: markdown)", ) parser.add_argument( "--config", help="Config/subset name when pushing to Hub (for benchmarking multiple models in one repo)", ) parser.add_argument( "--create-pr", action="store_true", help="Create a pull request instead of pushing directly (for parallel benchmarking)", ) parser.add_argument( "--temperature", type=float, default=0.1, help="Sampling temperature (default: 0.1, per official recommendation)", ) parser.add_argument( "--top-p", type=float, default=0.9, help="Top-p sampling (default: 0.9, per official recommendation)", ) parser.add_argument( "--verbose", action="store_true", help="Log resolved package versions after processing (useful for pinning deps)", ) args = parser.parse_args() main( input_dataset=args.input_dataset, output_dataset=args.output_dataset, image_column=args.image_column, batch_size=args.batch_size, model=args.model, max_model_len=args.max_model_len, max_tokens=args.max_tokens, gpu_memory_utilization=args.gpu_memory_utilization, hf_token=args.hf_token, split=args.split, max_samples=args.max_samples, private=args.private, shuffle=args.shuffle, seed=args.seed, prompt_mode=args.prompt_mode, custom_prompt=args.custom_prompt, output_column=args.output_column, config=args.config, create_pr=args.create_pr, temperature=args.temperature, top_p=args.top_p, verbose=args.verbose, )