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import numpy as np |
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import torch |
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import torch.nn as nn |
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from transformers import CLIPConfig, CLIPVisionModel, PreTrainedModel |
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def cosine_distance(image_embeds, text_embeds): |
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normalized_image_embeds = nn.functional.normalize(image_embeds) |
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normalized_text_embeds = nn.functional.normalize(text_embeds) |
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return torch.mm(normalized_image_embeds, normalized_text_embeds.t()) |
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class StableDiffusionSafetyChecker(PreTrainedModel): |
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config_class = CLIPConfig |
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_no_split_modules = ["CLIPEncoderLayer"] |
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def __init__(self, config: CLIPConfig): |
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super().__init__(config) |
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self.vision_model = CLIPVisionModel(config.vision_config) |
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self.visual_projection = nn.Linear( |
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config.vision_config.hidden_size, config.projection_dim, bias=False |
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) |
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self.concept_embeds = nn.Parameter( |
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torch.ones(17, config.projection_dim), requires_grad=False |
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) |
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self.special_care_embeds = nn.Parameter( |
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torch.ones(3, config.projection_dim), requires_grad=False |
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) |
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self.concept_embeds_weights = nn.Parameter(torch.ones(17), requires_grad=False) |
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self.special_care_embeds_weights = nn.Parameter( |
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torch.ones(3), requires_grad=False |
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) |
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@torch.no_grad() |
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def forward(self, clip_input, images): |
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pooled_output = self.vision_model(clip_input)[1] |
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image_embeds = self.visual_projection(pooled_output) |
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special_cos_dist = ( |
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cosine_distance(image_embeds, self.special_care_embeds) |
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.cpu() |
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.float() |
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.numpy() |
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) |
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cos_dist = ( |
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cosine_distance(image_embeds, self.concept_embeds).cpu().float().numpy() |
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) |
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result = [] |
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batch_size = image_embeds.shape[0] |
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for i in range(batch_size): |
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result_img = { |
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"special_scores": {}, |
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"special_care": [], |
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"concept_scores": {}, |
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"bad_concepts": [], |
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} |
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adjustment = 0.0 |
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for concept_idx in range(len(special_cos_dist[0])): |
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concept_cos = special_cos_dist[i][concept_idx] |
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concept_threshold = self.special_care_embeds_weights[concept_idx].item() |
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result_img["special_scores"][concept_idx] = round( |
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concept_cos - concept_threshold + adjustment, 3 |
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) |
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if result_img["special_scores"][concept_idx] > 0: |
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result_img["special_care"].append( |
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{concept_idx, result_img["special_scores"][concept_idx]} |
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) |
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adjustment = 0.01 |
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for concept_idx in range(len(cos_dist[0])): |
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concept_cos = cos_dist[i][concept_idx] |
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concept_threshold = self.concept_embeds_weights[concept_idx].item() |
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result_img["concept_scores"][concept_idx] = round( |
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concept_cos - concept_threshold + adjustment, 3 |
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) |
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if result_img["concept_scores"][concept_idx] > 0: |
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result_img["bad_concepts"].append(concept_idx) |
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result.append(result_img) |
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has_nsfw_concepts = [len(res["bad_concepts"]) > 0 for res in result] |
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return has_nsfw_concepts |
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@torch.no_grad() |
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def forward_onnx(self, clip_input: torch.FloatTensor, images: torch.FloatTensor): |
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pooled_output = self.vision_model(clip_input)[1] |
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image_embeds = self.visual_projection(pooled_output) |
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special_cos_dist = cosine_distance(image_embeds, self.special_care_embeds) |
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cos_dist = cosine_distance(image_embeds, self.concept_embeds) |
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adjustment = 0.0 |
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special_scores = ( |
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special_cos_dist - self.special_care_embeds_weights + adjustment |
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) |
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special_care = torch.any(special_scores > 0, dim=1) |
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special_adjustment = special_care * 0.01 |
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special_adjustment = special_adjustment.unsqueeze(1).expand( |
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-1, cos_dist.shape[1] |
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) |
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concept_scores = (cos_dist - self.concept_embeds_weights) + special_adjustment |
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has_nsfw_concepts = torch.any(concept_scores > 0, dim=1) |
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images[has_nsfw_concepts] = 0.0 |
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return images, has_nsfw_concepts |