mirror of
https://github.com/SikongJueluo/Mini-Nav.git
synced 2026-07-12 20:15:31 +08:00
refactor(compressors): migrate pipeline to OWLv2-based detection with text labels
- Replace bbox-prompted segmentation with OWLv2 text-guided object detection - Refactor HashPipeline from nn.Module to plain class with modular stage methods - Add detect_batch, segment_batch, filter_batch for explicit pipeline stages - Rename forward to forward_batch with text_labels API instead of bboxes - Add mask_scoring_config, score_threshold, postprocess_threshold configuration - Update model_loader to expose Dinov2Model type annotation
This commit is contained in:
@@ -6,7 +6,7 @@ from .common import (
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hash_to_bits,
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hash_to_bits,
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)
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)
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from .hash_compressor import HashCompressor, HashLoss, VideoPositiveMask
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from .hash_compressor import HashCompressor, HashLoss, VideoPositiveMask
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from .object_score import (
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from .filter import (
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MaskFeatures,
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MaskFeatures,
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MaskScoringConfig,
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MaskScoringConfig,
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compute_mask_features,
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compute_mask_features,
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@@ -6,6 +6,7 @@ import torch
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from transformers import (
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from transformers import (
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AutoImageProcessor,
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AutoImageProcessor,
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AutoModel,
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AutoModel,
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Dinov2Model,
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Owlv2ForObjectDetection,
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Owlv2ForObjectDetection,
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Owlv2Processor,
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Owlv2Processor,
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Sam2Model,
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Sam2Model,
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@@ -34,7 +35,7 @@ def load_sam_model(
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def load_dino_model(
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def load_dino_model(
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model_name: str = "facebook/dinov2-large",
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model_name: str = "facebook/dinov2-large",
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) -> tuple[AutoImageProcessor, AutoModel]:
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) -> tuple[AutoImageProcessor, Dinov2Model]:
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device = get_device()
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device = get_device()
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processor = AutoImageProcessor.from_pretrained(model_name)
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processor = AutoImageProcessor.from_pretrained(model_name)
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@@ -1,25 +1,26 @@
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"""SAM + DINO + Hash compression pipeline."""
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"""OWLv2 + SAM + DINO + Hash compression pipeline."""
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from typing import Optional, Sequence
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from typing import Optional, Sequence
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import torch
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import torch
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import torch.nn as nn
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import torch.nn.functional as F
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import torch.nn.functional as F
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from PIL import Image
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from PIL import Image
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from utils import get_device
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from utils import get_device
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from .filter import select_best_mask
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from .filter import MaskScoringConfig, select_best_mask
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from .model_loader import (
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from .model_loader import (
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get_dino_dim,
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get_dino_dim,
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load_dino_model,
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load_dino_model,
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load_hash_compressor,
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load_hash_compressor,
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load_owlv2_model,
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load_sam_model,
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load_sam_model,
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)
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)
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from .proposal import (
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from .proposal import (
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detect_objects_batch,
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extract_masked_region,
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extract_masked_region,
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generate_proposals,
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generate_proposals_batch,
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generate_proposals_batch,
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)
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)
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from .proposal.core import DetectionResult
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def create_pipeline_from_config(config) -> "HashPipeline":
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def create_pipeline_from_config(config) -> "HashPipeline":
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@@ -32,50 +33,64 @@ def create_pipeline_from_config(config) -> "HashPipeline":
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Initialized HashPipeline.
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Initialized HashPipeline.
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"""
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"""
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return HashPipeline(
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return HashPipeline(
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owlv2_model=getattr(
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config.model, "owlv2_model", "google/owlv2-base-patch16-ensemble"
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),
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dino_model=config.model.dino_model,
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dino_model=config.model.dino_model,
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sam_model=config.model.sam_model,
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sam_model=config.model.sam_model,
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sam_min_mask_area=config.model.sam_min_mask_area,
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sam_max_masks=config.model.sam_max_masks,
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hash_bits=config.model.compression_dim,
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hash_bits=config.model.compression_dim,
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compressor_path=config.model.compressor_path,
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compressor_path=config.model.compressor_path,
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mask_scoring_config=getattr(config.model, "mask_scoring_config", None),
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score_threshold=getattr(config.model, "score_threshold", 0.25),
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postprocess_threshold=getattr(config.model, "postprocess_threshold", 0.1),
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)
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)
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class HashPipeline(nn.Module):
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class HashPipeline:
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"""Pipeline for SAM segmentation + DINO features + Hash compression.
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"""Pipeline for OWLv2 detection + SAM segmentation + DINO features + Hash compression.
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Pipeline flow:
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Pipeline flow:
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PIL Image -> SAM (largest object mask) -> DINO (features) -> Hash (binary codes)
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Images + Text Labels -> OWLv2 (detections) -> SAM (masks) -> Filter (best mask) ->
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DINO (features) -> Hash (binary codes)
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Example:
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Example:
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pipeline = HashPipeline(dino_model="facebook/dinov2-large", hash_bits=512)
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pipeline = HashPipeline(dino_model="facebook/dinov2-large", hash_bits=512)
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image = Image.open("path/to/image.jpg")
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images = [Image.open("path/to/image.jpg")]
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hash_bits = pipeline(image) # Returns [1, 512] binary bits
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text_labels = ["object"]
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hash_bits = pipeline.forward_batch(images, text_labels) # Returns [N, 512]
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"""
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"""
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def __init__(
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def __init__(
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self,
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self,
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owlv2_model: str = "google/owlv2-base-patch16-ensemble",
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dino_model: str = "facebook/dinov2-large",
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dino_model: str = "facebook/dinov2-large",
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sam_model: str = "facebook/sam2.1-hiera-large",
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sam_model: str = "facebook/sam2.1-hiera-large",
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sam_min_mask_area: int = 100,
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sam_max_masks: int = 10,
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hash_bits: int = 512,
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hash_bits: int = 512,
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compressor_path: Optional[str] = None,
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compressor_path: Optional[str] = None,
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mask_scoring_config: Optional["MaskScoringConfig"] = None,
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score_threshold: float = 0.25,
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postprocess_threshold: float = 0.1,
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):
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):
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super().__init__()
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super().__init__()
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# Device for model placement.
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# Device for model placement.
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self.device = get_device()
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self.device = get_device()
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# SAM2 filter settings.
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# OWLv2 detection settings.
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self.sam_min_mask_area = sam_min_mask_area
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self.owlv2_processor, self.owlv2_model = load_owlv2_model(
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self.sam_max_masks = sam_max_masks
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model_name=owlv2_model
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)
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self.score_threshold = score_threshold
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self.postprocess_threshold = postprocess_threshold
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# Load models.
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# Mask scoring config for filter step.
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self.mask_scoring_config = mask_scoring_config
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# SAM2 model for segmentation.
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self.sam_processor, self.sam_model = load_sam_model(model_name=sam_model)
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self.sam_processor, self.sam_model = load_sam_model(model_name=sam_model)
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self.dino_processor, self.dino = load_dino_model(model_name=dino_model)
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# DINO feature dimension based on model size.
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# DINO model for feature extraction.
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self.dino_processor, self.dino = load_dino_model(model_name=dino_model)
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self.dino_dim = get_dino_dim(dino_model)
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self.dino_dim = get_dino_dim(dino_model)
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# Hash compressor for binarizing DINO features.
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# Hash compressor for binarizing DINO features.
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@@ -90,82 +105,112 @@ class HashPipeline(nn.Module):
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"""Number of bits in the hash code."""
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"""Number of bits in the hash code."""
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return self.hash_compressor.hash_bits
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return self.hash_compressor.hash_bits
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def _segment_with_sam(
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def detect_batch(
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self, image: Image.Image, bboxes: list[list[float]]
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self,
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) -> Image.Image:
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images: Sequence[Image.Image],
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"""Segment image with SAM and extract the best object mask.
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text_labels: list[str],
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) -> list[list[DetectionResult]]:
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"""Detect objects in a batch of images using OWLv2.
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Args:
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Args:
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image: Input PIL Image.
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images: Sequence of PIL Images.
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bboxes: Bounding boxes from object detector as [[x1,y1,x2,y2], ...].
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text_labels: Text labels for all images (same labels used for each image).
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Returns:
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Returns:
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Masked image containing only the best object, or original if no masks.
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List of lists of DetectionResult dicts, one inner list per image.
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"""
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"""
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masks = generate_proposals(
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image_list = list(images)
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self.sam_model,
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if not image_list:
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self.sam_processor,
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return []
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image,
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bboxes,
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text_labels_per_image = [text_labels] * len(image_list)
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return detect_objects_batch(
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self.owlv2_model,
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self.owlv2_processor,
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image_list,
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text_labels_per_image,
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score_threshold=self.score_threshold,
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postprocess_threshold=self.postprocess_threshold,
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)
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)
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masks = _filter_masks(masks, self.sam_min_mask_area, self.sam_max_masks)
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def segment_batch(
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if not masks:
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return image
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best_mask = select_best_mask(masks, image_shape=(image.height, image.width))
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if best_mask is None:
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return image
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return extract_masked_region(image, best_mask["segment"])
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def _segment_with_sam_dataset(
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self,
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self,
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images: Sequence[Image.Image],
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images: Sequence[Image.Image],
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bboxes_per_image: list[list[list[float]]],
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bboxes_per_image: list[list[list[float]]],
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) -> list[Image.Image]:
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) -> list[list[dict]]:
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"""Segment objects in images using SAM2 with bounding box prompts.
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Args:
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images: Sequence of PIL Images.
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bboxes_per_image: Bounding boxes per image as [[[x1,y1,x2,y2], ...], ...].
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Returns:
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List of lists of mask dictionaries, one inner list per image.
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"""
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image_list = list(images)
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image_list = list(images)
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masks_dataset = generate_proposals_batch(
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if not image_list:
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return []
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return generate_proposals_batch(
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self.sam_model,
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self.sam_model,
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self.sam_processor,
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self.sam_processor,
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image_list,
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image_list,
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bboxes_per_image,
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bboxes_per_image,
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)
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)
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masks_dataset = [
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_filter_masks(masks, self.sam_min_mask_area, self.sam_max_masks)
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for masks in masks_dataset
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]
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selected_images: list[Image.Image] = []
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for image, masks in zip(image_list, masks_dataset):
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if not masks:
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selected_images.append(image)
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continue
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best_mask = select_best_mask(masks, image_shape=(image.height, image.width))
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def filter_batch(
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if best_mask is None:
|
self,
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selected_images.append(image)
|
images: Sequence[Image.Image],
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continue
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masks_per_image: list[list[dict]],
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selected_images.append(extract_masked_region(image, best_mask["segment"]))
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) -> list[Image.Image]:
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|
"""Filter masks and extract best masked region for each image.
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return selected_images
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|
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def _dino_forward(self, image: Image.Image) -> torch.Tensor:
|
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"""Extract DINO tokens from an image.
|
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|
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Args:
|
Args:
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image: Input PIL Image.
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images: Sequence of PIL Images.
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|
masks_per_image: Masks per image from segment_batch.
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|
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Returns:
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Returns:
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Last hidden state tokens of shape [1, N, dim].
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List of PIL Images, one per input image (original if no valid masks).
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"""
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"""
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inputs = self.dino_processor(image, return_tensors="pt").to(self.device)
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image_list = list(images)
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|
if not image_list:
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return []
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|
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with torch.no_grad():
|
filtered_images: list[Image.Image] = []
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outputs = self.dino(**inputs)
|
for image, masks in zip(image_list, masks_per_image):
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return outputs.last_hidden_state
|
if not masks:
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|
filtered_images.append(image)
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|
continue
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|
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def _dino_forward_batch(self, images: Sequence[Image.Image]) -> torch.Tensor:
|
best_mask = select_best_mask(
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inputs = self.dino_processor(images=list(images), return_tensors="pt").to(
|
masks,
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|
image_shape=(image.height, image.width),
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|
config=self.mask_scoring_config,
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|
)
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|
if best_mask is None:
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|
filtered_images.append(image)
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|
continue
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|
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|
filtered_images.append(extract_masked_region(image, best_mask["segment"]))
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|
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|
return filtered_images
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|
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|
def extract_dino_batch(self, images: Sequence[Image.Image]) -> torch.Tensor:
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|
"""Extract DINO tokens from a batch of images.
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|
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|
Args:
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|
images: Sequence of PIL Images.
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|
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|
Returns:
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|
Last hidden state tokens of shape [B, N, dim].
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|
"""
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|
image_list = list(images)
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|
if not image_list:
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|
return torch.empty(
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|
(0, 1, self.dino_dim), dtype=torch.float32, device=self.device
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|
)
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|
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|
inputs = self.dino_processor(images=image_list, return_tensors="pt").to(
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self.device
|
self.device
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)
|
)
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|
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@@ -173,113 +218,92 @@ class HashPipeline(nn.Module):
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outputs = self.dino(**inputs)
|
outputs = self.dino(**inputs)
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return outputs.last_hidden_state
|
return outputs.last_hidden_state
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|
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def forward(self, image: Image.Image, bboxes: list[list[float]]) -> torch.Tensor:
|
def compress_batch(self, tokens: torch.Tensor) -> torch.Tensor:
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"""Process a single image through the full pipeline.
|
"""Compress DINO tokens to binary hash codes.
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|
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Args:
|
Args:
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image: Input PIL Image.
|
tokens: DINO tokens of shape [B, N, dim].
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bboxes: Bounding boxes from object detector as [[x1,y1,x2,y2], ...].
|
|
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|
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Returns:
|
Returns:
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Binary hash codes of shape [1, hash_bits] as int32.
|
Binary hash codes of shape [B, hash_bits] as int32.
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"""
|
"""
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image = self._segment_with_sam(image, bboxes)
|
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tokens = self._dino_forward(image)
|
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_, _, bits = self.hash_compressor(tokens)
|
_, _, bits = self.hash_compressor(tokens)
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return bits
|
return bits
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|
|
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def forward_dataset(
|
def forward_batch(
|
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self,
|
self,
|
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images: Sequence[Image.Image],
|
images: Sequence[Image.Image],
|
||||||
bboxes_per_image: list[list[list[float]]],
|
text_labels: list[str],
|
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batch_size: int = 32,
|
batch_size: int = 32,
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apply_sam: bool = True,
|
|
||||||
) -> torch.Tensor:
|
) -> torch.Tensor:
|
||||||
|
"""Process a batch of images through the full pipeline.
|
||||||
|
|
||||||
|
Args:
|
||||||
|
images: Sequence of PIL Images.
|
||||||
|
text_labels: Text labels for detection (same for all images).
|
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|
batch_size: Batch size for DINO feature extraction.
|
||||||
|
|
||||||
|
Returns:
|
||||||
|
Binary hash codes of shape [N, hash_bits] as int32.
|
||||||
|
"""
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if batch_size <= 0:
|
if batch_size <= 0:
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raise ValueError("batch_size must be greater than 0")
|
raise ValueError("batch_size must be greater than 0")
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|
|
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image_list = list(images)
|
image_list = list(images)
|
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|
if not image_list:
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if len(image_list) == 0:
|
|
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return torch.empty(
|
return torch.empty(
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(0, self.hash_bits), dtype=torch.int32, device=self.device
|
(0, self.hash_bits), dtype=torch.int32, device=self.device
|
||||||
)
|
)
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|
|
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if apply_sam:
|
detections = self.detect_batch(image_list, text_labels)
|
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processed_images = self._segment_with_sam_dataset(
|
bboxes = [[d["bbox"] for d in dets] for dets in detections]
|
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image_list, bboxes_per_image
|
masks = self.segment_batch(image_list, bboxes)
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||||||
)
|
processed = self.filter_batch(image_list, masks)
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else:
|
|
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processed_images = image_list
|
|
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|
|
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batch_bits: list[torch.Tensor] = []
|
all_bits: list[torch.Tensor] = []
|
||||||
for i in range(0, len(processed_images), batch_size):
|
for i in range(0, len(processed), batch_size):
|
||||||
batch_images = processed_images[i : i + batch_size]
|
sub_batch = processed[i : i + batch_size]
|
||||||
tokens = self._dino_forward_batch(batch_images)
|
tokens = self.extract_dino_batch(sub_batch)
|
||||||
_, _, bits = self.hash_compressor(tokens)
|
bits = self.compress_batch(tokens)
|
||||||
batch_bits.append(bits)
|
all_bits.append(bits)
|
||||||
|
|
||||||
return torch.cat(batch_bits, dim=0)
|
return torch.cat(all_bits, dim=0)
|
||||||
|
|
||||||
def extract_features(
|
|
||||||
self, image: Image.Image, bboxes: list[list[float]]
|
|
||||||
) -> torch.Tensor:
|
|
||||||
"""Extract normalized DINO features from an image.
|
|
||||||
|
|
||||||
Args:
|
|
||||||
image: Input PIL Image.
|
|
||||||
bboxes: Bounding boxes from object detector as [[x1,y1,x2,y2], ...].
|
|
||||||
|
|
||||||
Returns:
|
|
||||||
Normalized DINO features of shape [1, dino_dim].
|
|
||||||
"""
|
|
||||||
image = self._segment_with_sam(image, bboxes)
|
|
||||||
tokens = self._dino_forward(image)
|
|
||||||
features = tokens.mean(dim=1)
|
|
||||||
return F.normalize(features, dim=-1)
|
|
||||||
|
|
||||||
def extract_features_dataset(
|
def extract_features_dataset(
|
||||||
self,
|
self,
|
||||||
images: Sequence[Image.Image],
|
images: Sequence[Image.Image],
|
||||||
bboxes_per_image: list[list[list[float]]],
|
text_labels: list[str],
|
||||||
batch_size: int = 32,
|
batch_size: int = 32,
|
||||||
apply_sam: bool = True,
|
|
||||||
) -> torch.Tensor:
|
) -> torch.Tensor:
|
||||||
|
"""Extract normalized DINO features from a batch of images.
|
||||||
|
|
||||||
|
Args:
|
||||||
|
images: Sequence of PIL Images.
|
||||||
|
text_labels: Text labels for detection (same for all images).
|
||||||
|
batch_size: Batch size for DINO feature extraction.
|
||||||
|
|
||||||
|
Returns:
|
||||||
|
Normalized DINO features of shape [N, dino_dim].
|
||||||
|
"""
|
||||||
if batch_size <= 0:
|
if batch_size <= 0:
|
||||||
raise ValueError("batch_size must be greater than 0")
|
raise ValueError("batch_size must be greater than 0")
|
||||||
|
|
||||||
image_list = list(images)
|
image_list = list(images)
|
||||||
|
if not image_list:
|
||||||
if len(image_list) == 0:
|
|
||||||
return torch.empty(
|
return torch.empty(
|
||||||
(0, self.dino_dim), dtype=torch.float32, device=self.device
|
(0, self.dino_dim), dtype=torch.float32, device=self.device
|
||||||
)
|
)
|
||||||
|
|
||||||
if apply_sam:
|
detections = self.detect_batch(image_list, text_labels)
|
||||||
processed_images = self._segment_with_sam_dataset(
|
bboxes = [[d["bbox"] for d in dets] for dets in detections]
|
||||||
image_list, bboxes_per_image
|
masks = self.segment_batch(image_list, bboxes)
|
||||||
)
|
processed = self.filter_batch(image_list, masks)
|
||||||
else:
|
|
||||||
processed_images = image_list
|
|
||||||
|
|
||||||
all_features: list[torch.Tensor] = []
|
all_features: list[torch.Tensor] = []
|
||||||
for i in range(0, len(processed_images), batch_size):
|
for i in range(0, len(processed), batch_size):
|
||||||
batch_images = processed_images[i : i + batch_size]
|
sub_batch = processed[i : i + batch_size]
|
||||||
tokens = self._dino_forward_batch(batch_images)
|
tokens = self.extract_dino_batch(sub_batch)
|
||||||
features = tokens.mean(dim=1)
|
features = tokens.mean(dim=1)
|
||||||
all_features.append(F.normalize(features, dim=-1))
|
all_features.append(F.normalize(features, dim=-1))
|
||||||
|
|
||||||
return torch.cat(all_features, dim=0)
|
return torch.cat(all_features, dim=0)
|
||||||
|
|
||||||
|
|
||||||
def _filter_masks(
|
|
||||||
masks: list[dict],
|
|
||||||
min_area: int,
|
|
||||||
max_masks: int,
|
|
||||||
) -> list[dict]:
|
|
||||||
"""Filter masks by area and keep top-N largest."""
|
|
||||||
filtered = [m for m in masks if int(m["area"]) >= min_area]
|
|
||||||
if not filtered:
|
|
||||||
return []
|
|
||||||
sorted_masks = sorted(filtered, key=lambda m: m["area"], reverse=True)
|
|
||||||
return sorted_masks[:max_masks]
|
|
||||||
|
|||||||
Reference in New Issue
Block a user